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This document describes the XKB_KEYMAP_FORMAT_TEXT_V1 [keymap] format,
as implemented by libxkbcommon.
@see For an overview of the role of this format, please see “@ref xkb-the-config “””.
@see For examples of keymaps in this format, please see “@ref user-configuration “””. For further examples see xkeyboard-config, the standard database of keyboard configuration data.
@note Due to the complexity of the format, this document is still is construction. Some additional resources are:
@note
@tableofcontents{html:2}
[terminology]: @ref terminology [introduction]: @ref introduction-to-the-xkb-text-format [xkb_keymap]: @ref the-xkb_keymap-block [xkb_keycodes]: @ref the-xkb_keycodes-section [xkb_types]: @ref the-xkb_types-section [xkb_compat]: @ref the-xkb_compat-section [xkb_symbols]: @ref the-xkb_symbols-section [virtual modifier statements]:@ref virtual-modifier-statements [modifiers bindings]: @ref modifiers-bindings [actions]: @ref key-actions
Each modifier defines a mapping to one or multiple real modifier. Real modifiers map to themselves.
The following table lists the <a name=”usual-modifiers”>usual modifiers</a> present in the standard keyboard configuration. Note that this is provided for information only, as it may change depending on the user configuration.
| Modifier | Type | Usual mapping | Comment |
|---|---|---|---|
Shift |
Real |
Shift |
The usual Shift |
Lock |
Real |
Lock |
The usual Caps Lock |
Control |
Real |
Control |
The usual Control |
Mod1 |
Real |
Mod1 |
Not conventional |
Mod2 |
Real |
Mod2 |
Not conventional |
Mod3 |
Real |
Mod3 |
Not conventional |
Mod4 |
Real |
Mod4 |
Not conventional |
Mod5 |
Real |
Mod5 |
Not conventional |
Alt |
Virtual |
Mod1 |
The usual Alt |
Meta |
Virtual |
Mod1 or Mod4 |
The legacy Meta key |
NumLock |
Virtual |
Mod2 |
The usual NumLock |
Super |
Virtual |
Mod4 |
The usual Super/GUI |
LevelThree |
Virtual |
Mod3 |
ISO level 3, aka AltGr |
LevelFive |
Virtual |
Mod5 |
ISO level 5 |
[usual modifiers]: @ref usual-modifiers
A modifier key can report its state in one of the following 3 ways:
<dl>
<dt><a name="depressed-mod-def">Depressed</a></dt>
<dd>Active while depressed; e.g. the usual Shift.</dd>
<dt><a name="latched-mod-def">Latched</a></dt>
<dd>
Activated when pressed and deactivated after the next
non-modifier key press.
</dd>
<dt><a name="locked-mod-def">Locked</a></dt>
<dd>
Activated when pressed and deactivated when pressed again;
e.g. the usual Caps Lock.
</dd>
See [modifiers bindings] for further details.
[depressed]: @ref depressed-mod-def [latched]: @ref latched-mod-def [locked]: @ref locked-mod-def
<dt><a name=”level-def”>Shift Level</a></dt> <dd> A key may produce different results depending of the active modifiers: e.g. for a Latin script, pressing the key A produces “a” and holding Shift while pressing A produces “A”.
This various results are organized in an ordered list; the index
of each entry is called a <a name=”level-index-def”>shift level</a>
or simply level. By convention the lowest level is the result when
no modifier is active.
Example for the key A on a latin script keyboard:
| Level | Description | Keysym | Active key modifiers |
|---|---|---|---|
| 1 | Lower case letters |
a |
None |
| 2 | Upper case letters. |
A |
Shift |
| 3 | Alternative lower case letters |
ae |
AltGr |
| 4 | Alternative upper case letters |
AE |
Shift + AltGr |
A key shift level is the logical state of a key corresponding to the current shift level it used.
Key shift levels are derived from the modifiers states, but not
necessarily in the same way for all keys. For example, for Latin
script the Caps Lock modifier selects the level 2 for alphabetic
keys such as A but has no effect on a numeric key.
There are groups of keys with the same characteristics: letters, punctuation, numeric keypad, etc. The meaning of their levels is identical and thus can be shared: this generalization is called a key type (see hereinafter).
<dt><a name=”key-type-def”>Key type</a></dt> <dd> A key type defines the levels available for a key and how to derive the active level from the modifiers states. Examples:
ONE_LEVEL: the key has only one level, i.e. it is not affected
by any modifiers. Example: the modifiers themselves. TWO_LEVEL][TWO_LEVEL]: the key has two levels: Shift modifier is not active. Shift modifier. FOUR_LEVEL][FOUR_LEVEL]: see the example in the previous section. See [xkb_types] for further details.
<dt><a name=”layout-def”>Layout</a></dt> <dd> A mapping of keycodes to symbols, actions and key types.
A user who deals with multiple languages may need two or more different layouts: e.g. a layout for Arabic and another one for English. In this context, layouts are called groups in XKB, as defined in the standard ISO/IEC 9995.
Layouts are ordered and identified by their index. Example:
<dt><a name=”key-action-def”>Key Action</a></dt> <dd> In XKB world, a key action defines the effect a key has on the state of the keyboard or the state of the display server. Examples:
See the section “[Key actions][actions]” for further details.
<dt><a name=”indicator-def”>Indicator</a></dt> <dd> A keyboard indicator is a mean to report a specific aspect of the keyboard state.
<dl>
<dt><em>Physical</em> indicator</dt>
<dd>
Typically a labelled LED on the keyboard, e.g. “Caps Lock” and
“Num Lock”.
</dd>
<dt><em>Logical</em> indicator</dt>
<dd>
A customizable derived state of the keyboard.
Its changes creates events that can be monitored.
There are two categories:
- _Real_ indicators are those associated to a physical indicator.
For example, the “Caps Lock” logical modifier controls the
corresponding physical LED.
Because indicators are customizable, if one misses a “Num Lock”
LED, one could define instead the “Caps Lock” _indicator_ to
activate its LED when the “Num Lock” _modifier_ is active.
- _Virtual_ indicators are not associated to a physical indicator.
Their effect is only visible for programs monitoring them.
Note that the meanings of _real_ and _virtual_ is slightly
different than the one used for [modifier].
</dd>
See: <code>[xkb_keycodes][indicator name]</code> to define indicators and <code>[xkb_compat][indicator effect]</code> to define their effects.
<dt><a name=”keymap-def”>Keymap</a></dt> <dd> The complete definition of the mapping of raw keycodes to symbols and actions. It fully defines the behavior of a keyboard.
Depending of the context, a keymap may refer to:
See @ref keymap-components-intro and [xkb_keymap] for further details.
<dt>Keyboard configuration database @anchor database-def</dt> <dd>
A database that provides the [keymap components](@ref keymap-components-intro).
\*nix OSs uses the _standard_ database [xkeyboard-config]. One may extend
this database with _custom_ layouts: see “@ref user-configuration ""” for
further details.
[keycode]: @ref keycode-def [keysym]: @ref keysym-def [keysyms]: @ref keysym-def [modifier]: @ref modifier-def [modifiers]: @ref modifier-def [real modifier]: @ref real-modifier-def [real modifiers]: @ref real-modifier-def [virtual modifier]: @ref virtual-modifier-def [virtual modifiers]: @ref virtual-modifier-def [level]: @ref level-def [shift level]: @ref level-def [level index]: @ref level-index-def [key type]: @ref key-type-def [key types]: @ref key-type-def [layout]: @ref layout-def [action]: @ref key-action-def [indicator]: @ref indicator-def [keymap]: @ref keymap-def [database]: @ref database-def
The XKB text format uses a syntax similar to the C programming language. Note that the similarity with C stops here: the XKB text format is only a configuration format and is not intended for programming.
The XKB text format is used to configure a keyboard keymap, which is introduced in “@ref xkb-the-config “””. It has the following two main use cases, illustrated in the diagram hereinafter:
Server: Load a keymap from the keymap configuration database, then handle input events by updating the keyboard state. The keymap is assembled from an [RMLVO configuration][RMLVO] and its corresponding <strong>[KcCGST components][KcCGST]</strong> files.
@see xkb_keymap::xkb_keymap_new_from_names
@see xkeyboard-config for the implementation of the standard keymap configuration database.
@see “@ref user-configuration “”” to add a custom layout or option.
Client: Load the active keymap from the server, then handle update events sent by the server. The <strong>[complete keymap]</strong> is directly available in a self-contained file.
@see xkb_keymap::xkb_keymap_new_from_string
@anchor xkb-keymap-components-diagram @dotfile xkb-keymap-components “XKB text format use cases”
[RMLVO]: @ref RMLVO-intro [KcCGST]: @ref KcCGST-intro [complete keymap]: @ref keymap-intro
There are two kinds of files for the XKB text format:
[keymap file]: @ref keymap-file-def [keymap component file]: @ref keymap-component-file-def [keymap sections]: @ref keymap-section-def [section]: @ref keymap-section-def [keymap components]: @ref keymap-component-def
[Keymap components][keymap components] are described with [keymap sections]. They are grouped in [keymap component files][keymap component file] to form a [keyboard configuration database][database].
[keymap components table]: @ref keymap-components-table
@anchor keymap-components-table
| [Component](@ref keymap-component-def) | [Section][section] in a [keymap][xkb_keymap] | Folder in a keymap configuration database | Description |
|---|---|---|---|
| Key codes | [xkb_keycodes] | `keycodes` | A translation of the raw [key codes][keycode] from the keyboard into symbolic names. |
| Compatibility | [xkb_compat] | `compat` | A specification of what internal actions modifiers and various special-purpose keys produce. |
| (Geometry) | xkb_geometry | `geometry` | A description of the physical layout of a keyboard. @attention This legacy feature is [not supported](@ref geometry-support) by _xkbcommon_. |
| Key symbols | [xkb_symbols] | `symbols` | A translation of symbolic [key codes][keycode] into actual [key symbols][keysyms] (keysyms). |
| Key types | [xkb_types] | `types` | Types describe how a pressed key is affected by active [modifiers] such as Shift, Control, Alt, etc. |
Comments are introduced following either // or # until the end of the line.
"”.
The following _escape sequences_ are supported:
| Escape sequence | Meaning |
| ------------------ | ------------------------------------------------------- |
| `\\` | Backslash “`\`” |
| `\b` | Backspace |
| `\e` | Escape |
| `\f` | Form feed |
| `\n` | Line feed (newline) |
| `\r` | Carriage return |
| `\t` | Horizontal tabulation |
| `\v` | Vertical tabulation |
| `\` + octal number | Corresponding ASCII character: `\0` → NULL, `\42` → `"` |
@note The string _encoding_ is unspecified and not validated, but for best
results, stick to ASCII.
The following table presents the keywords used in the format. They are case-sensitive.
| Keyword | Use |
|---|---|
action |
<span class=”todo”>TODO</span> |
alias |
<span class=”todo”>TODO</span> |
alphanumeric_keys |
<span class=”todo”>TODO</span> |
alternate_group |
<span class=”todo”>TODO</span> |
alternate |
<span class=”todo”>TODO</span> |
augment |
Mode qualifier for [include] statements |
default |
<span class=”todo”>TODO</span> |
function_keys |
<span class=”todo”>TODO</span> |
group |
<span class=”todo”>TODO</span> |
hidden |
<span class=”todo”>TODO</span> |
include |
[Include statement][include] |
indicator |
<span class=”todo”>TODO</span> |
interpret |
[Interpret statement][interpret] |
key |
<span class=”todo”>TODO</span> |
keypad_keys |
<span class=”todo”>TODO</span> |
keys |
<span class=”todo”>TODO</span> |
logo |
<span class=”todo”>TODO</span> |
mod_map |
Alias of modifier_map |
modifier_keys |
<span class=”todo”>TODO</span> |
modmap |
Alias of modifier_map |
modifier_map |
<span class=”todo”>TODO</span> |
outline |
<span class=”todo”>TODO</span> |
overlay |
<span class=”todo”>TODO</span> |
override |
Mode qualifier for [include] statements |
partial |
<span class=”todo”>TODO</span> |
replace |
Mode qualifier for [include] statements |
row |
<span class=”todo”>TODO</span> |
section |
<span class=”todo”>TODO</span> |
shape |
<span class=”todo”>TODO</span> |
solid |
<span class=”todo”>TODO</span> |
text |
<span class=”todo”>TODO</span> |
type |
<span class=”todo”>TODO</span> |
virtual_modifiers |
<span class=”todo”>TODO</span> |
virtual |
<span class=”todo”>TODO</span> |
xkb_compat_map |
Alias of xkb_compatibility_map |
xkb_compat |
Alias of xkb_compatibility_map |
xkb_compatibility_map |
Declare a [compatibility section][xkb_compat] |
xkb_compatibility |
Alias of xkb_compatibility_map |
xkb_geometry |
Declare a geometry section (<span class=”todo”>TODO: legacy</span>) |
xkb_keycodes |
Declare a [keycodes section][xkb_keycodes] |
xkb_keymap |
Declare a [keymap block][xkb_keymap] |
xkb_layout |
<span class=”todo”>TODO</span> |
xkb_semantics |
<span class=”todo”>TODO</span> |
xkb_symbols |
Declare a [symbols section][xkb_symbols] |
xkb_types |
Declare a [key types section ][xkb_types] |
[include]: @ref xkb-include [interpret]: @ref interpret-statements [interpretations]: @ref interpret-statements
There are many built-in settings; they are explained in the following relevant sections.
These settings are case-insensitive, e.g. the following strings denote
the same key word: SETMODS, SetMods, setMods and setmods.
@todo the import mechanism, its qualifiers
A <strong>[keymap file]</strong> consists of a single top-level xkb_keymap
block, under which are nested the following sections:
[xkb_keycodes][xkb_types][xkb_compat][xkb_symbols]Overview of a keymap file:
xkb_keymap {
xkb_keycodes "XXX" {
// ...
}
xkb_types "XXX" {
// ...
};
xkb_compatibility "XXX" {
// ...
};
xkb_symbols "XXX" {
// ...
};
};
This is the simplest [section] type, and is the first one to be compiled. The purpose of this is mostly to map between the hardware/evdev scancodes and XKB [keycodes][keycode]. Each key is given a name by which it can be referred to later, e.g. in the symbols section.
Statements of the form:
<TLDE> = 49;
<AE01> = 10;
The above would let 49 and 10 be valid keycodes in the keymap, and
assign them the names TLDE and AE01 respectively. The format
<WXYZ> is always used to refer to a key by name.
The naming convention <AE01> is based on the
standard ISO/IEC 9995-1. It denotes the position of the
key in the keyboard grid. It means: the main alphanumeric section
(A), row E and column 01.
The following figure illustrates the grid on a staggered standard
US QWERTY keyboard. <AE01> corresponds to the key 1.
\ 99 \ 00 \ 01 \ 02 \ 03 \ 04 \ 05…
\ \ \ \ \ \ \
-----------------------------------------
E \ \ ^ \ 1 \ 2 \ 3 \ 4 \ 5…
------------------------------------------
D \ Tab \ Q \ W \ E \ R \ T…
-------------------------------------------
C \Caps \ A \ S \ D \ F \ G…
--------------------------------------------
B \Shift \ Z \ X \ C \ V \ B…
---------------------------------------------
A \Ctrl\GUI \Alt \Space…
----------------------------------------------
In the common case this just maps to the evdev scancodes from
/usr/include/linux/input.h, e.g. the following definitions:
#define KEY_GRAVE 41
#define KEY_1 2
correspond to the ones above. Similar definitions appear in the xf86-input-keyboard driver. Note that in all current keymaps there’s a constant offset of 8 (for historical reasons).
Note that contrary to xkbcommon, the X11 protocol supports keycodes
only up to 255. Therefore, when interfacing with X11, keymaps and applications
using keycodes beyond 255 should expect warnings.
If there’s a conflict, like the same name given to different keycodes, or same keycode given different names, it is resolved according to the merge mode which applies to the definitions.
Statements of the form:
alias <MENU> = <COMP>;
Allows to refer to a previously defined key (here <COMP>) by another
name (here <MENU>). Conflicts are handled similarly to keycode
statements.
[indicator name]: @ref indicator-name
Statements of the form:
indicator 1 = "Caps Lock";
indicator 2 = "Num Lock";
indicator 3 = "Scroll Lock";
Assigns a name to the keyboard LED (AKA [indicator]) with the given index. The LED may be referred by this name later in the compat section and by the user.
This [section] is the second to be processed, after xkb_keycodes.
However, it is completely independent and could have been the first to
be processed (it does not refer to specific keys as specified in the
xkb_keycodes section).
This section defines [key types], which, given a key and a keyboard
state (i.e. modifier state and group), determine the [shift level] to
be used in translating the key to [keysyms]. These types are assigned
to each group in each key, in the xkb_symbols section.
Key types are called this way because, in a way, they really describe
the “type” of the key (or more correctly, a specific group of the
key). For example, an ordinary keymap will provide a type called
KEYPAD, which consists of two levels, with the second level being
chosen according to the state of the Num Lock (or Shift) modifiers.
Another example is a type called ONE_LEVEL, which is usually
assigned to keys such as Escape; these have just one level and are not
affected by the modifier state. Yet more common examples are
[TWO_LEVEL][TWO_LEVEL] (with Shift choosing the second level),
[ALPHABETIC][ALPHABETIC] (where Caps Lock may also choose the second
level), etc.
Key types define a mapping between the [modifiers] and [shift levels]. Key types have four parameters:
[consumed modifiers]: @ref consumed-modifiers [shift levels]: @ref level-def
Key types are used to compute:
The following diagram presents an overview of theses computations:
@anchor xkb-types-explanation-diagram @dotfile xkb-types-explanation “Use of key types to compute shift level and consumed modifiers”
Statements of the form:
type "FOUR_LEVEL" { ... }
The above would create a new type named [FOUR_LEVEL][FOUR_LEVEL].
The body of the definition may include statements of the following
forms:
level_name[Level1] = "Base";
Mandatory for each level in the type.
Gives each level in this type a descriptive name. It isn’t used for anything.
Note: A level may be specified as Level[1-8] or just a number (can be more than 8).
modifiers = Shift+Lock+LevelThree;
Mandatory, should be specified only once.
A mask of real and virtual [modifiers]. These are the only modifiers being considered when matching the modifier state against the type. The other modifiers, whether active or not, are masked out in the calculation.
map[Shift+LevelThree] = Level4;
Should have at least as many mappings as there are levels in the type.
If the active modifiers, masked with the type’s modifiers (as stated
above), match (i.e. equal) the modifiers inside the map[] statement,
then the level in the right hand side is chosen. For example, in the
above, if in the current keyboard state the Shift and LevelThree
modifiers are active, while the Lock modifier is not, then the
keysym(s) in the 4th level of the group will be returned to the user.
map[Shift+Lock+LevelThree] = Level5;
preserve[Shift+Lock+LevelThree] = Lock;
When a key type is used for keysym translation, its modifiers are said
to be consumed in this translation. For
example, in a simple US keymap, the “G” key is assigned an ordinary
[ALPHABETIC][ALPHABETIC] key type, whose modifiers are Shift and
Lock; then for the “G” key, these two modifiers are consumed by the
translation. This information is relevant for applications which
further process the modifiers, since by then the consumed modifiers
have already “done their part” and should be masked out.
However, sometimes even if a modifier had already affected the key
translation through the type, it should not be reported as consumed,
for various reasons. In this case, a preserve[] statement can be
used to augment the map entry. The modifiers inside the square
brackets should match one of the map[] statements in the type (if
there is no matching map entry, one mapping to Level1 is implicitly
added). The right hand side should consists of modifiers from the
type’s modifiers; these modifiers are then “preserved” and not
reported as consumed.
@attention Consuming a locked modifier does not unlock it and it can be consumed again in further keysym translations.
@note Remember that @ref keysym-transformations may affect the resulting keysym when some modifiers are not consumed.
@remark preserve statements may be used to tweak keyboard shorcuts.
@remark@figure
@figcaption
Example of use of preserve to tweak Control shortcuts. Note it would
require further work in order to support other modifiers.
@endfigcaption
xkb_types {
// ...
type "TWO_LEVEL_PLUS_CONTROL" {
modifiers = Shift + Control;
map[None] = Level1;
map[Shift] = Level2;
map[Control] = Level3;
map[Control+Shift] = Level4;
// Using preserve will make Control not consumed and allow
// applications to detect keyboard shortcuts with alternative
// keysyms in levels 3 and 4 rather than the levels 1 and 2.
preserve[Control] = Control;
preserve[Control+Shift] = Control;
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "Tweaked Control";
level_name[Level4] = "Tweaked Control + Shift";
};
};
xkb_symbols {
// ...
// The following key would produce Greek keysym on Base and Shift levels,
// but will produce the corresponding ASCII Latin keysyms when using Control.
key <AC01> {
type[Group1]="TWO_LEVEL_PLUS_CONTROL",
[Greek_alpha, Greek_ALPHA, a, A]
};
};
@endfigure
@note The convention is that Lock affect only “alphabetic” types.
For such types, Lock “cancels” Shift by default, i.e. Shift+Lock
has the same result as neither modifier. “<em>semi</em>-alphabetic”
types have an asymmetry: their first two levels are alphabetic while the
next are not.
The following examples compare two basic types with two levels:
[TWO_LEVEL][TWO_LEVEL] and [ALPHABETIC][ALPHABETIC].
They differ on their handling of the Lock modifier. See the
next section for an illustration
with concrete layouts.
[TWO_LEVEL]: @ref TWO_LEVEL [ALPHABETIC]: @ref ALPHABETIC
The following examples compare basic types with four levels:
[FOUR_LEVEL][FOUR_LEVEL],
[FOUR_LEVEL_SEMIALPHABETIC][FOUR_LEVEL_SEMIALPHABETIC] and
[FOUR_LEVEL_ALPHABETIC][FOUR_LEVEL_ALPHABETIC].
They differ on their handling of the Lock modifier.
See the next section
for an illustration with concrete layouts.
[FOUR_LEVEL]: @ref FOUR_LEVEL [FOUR_LEVEL_SEMIALPHABETIC]: @ref FOUR_LEVEL_SEMIALPHABETIC [FOUR_LEVEL_ALPHABETIC]: @ref FOUR_LEVEL_ALPHABETIC
This [section] is the third to be processed, after xkb_keycodes and
xkb_types.
Statements of the form:
interpret Num_Lock+Any { ... }
interpret Shift_Lock+AnyOf(Shift+Lock) { ... }
The <code>[xkb_symbols]</code> section (see below) allows the keymap author to perform, among other things, the following things for each key:
Bind an [action], like SetMods or LockGroup, to the key.
Actions, like symbols, are specified for each level of each group
in the key separately.
Add a [virtual modifier] to the key’s virtual modifier mapping
(vmodmap).
Specify whether the key should repeat or not.
However, doing this for each key (or level) is tedious and inflexible. Interpret’s are a mechanism to apply these settings to a bunch of keys/levels at once.
@anchor interpret-mechanism Each interpret specifies a condition by which it attaches to certain levels. The condition consists of two parts:
A <strong>[keysym]</strong>. If the level has a different (or more than one)
keysym, the match fails. Leaving out the keysym is equivalent to using the
special value Any or the NoSymbol keysym, which always matches
successfully.
A <strong>[modifier] predicate</strong>. The predicate consists of:
A mask of real modifiers: a +-separated list of modifiers or
the special value all, which denotes all the modifiers.
The modifiers are matched against the key’s modifier map (modmap).
A matching operation, that is one of the following:
AnyOfOrNone – The modmap must either be empty or include at
least one of the specified modifiers. AnyOf – The modmap must include at least one of the specified
modifiers. Any – Alias for AnyOf(all). NoneOf – The modmap must not include any of the specified
modifiers. AllOf – The modmap must include all of the specified modifiers
(but may include others as well). Exactly – The modmap must be exactly the same as the specified
modifiers.
Leaving out the predicate is equivalent to using AnyOfOrNone(all).
Leaving out just the matching condition is equivalent to using
Exactly.
An interpret may also include useModMapMods = level1; – see below.
If a [level] fulfils the conditions of several interprets, only the most specific one is used:
A specific keysym will always match before a generic NoSymbol
condition.
If the keysyms are the same, the interpret with the more specific matching operation is used. The above list is sorted from least to most specific.
If both the keysyms and the matching operations are the same (but the modifiers are different), the first interpret is used.
As described above, once an interpret “attaches” to a level, it can bind an action to that level, add one virtual modifier to the key’s vmodmap, or set the key’s repeat setting. You should note the following:
The key repeat is a property of the entire key; it is not level-specific. In order to avoid confusion, it is only inspected for the first level of the first group; the interpret’s repeat setting is ignored when applied to other levels.
If one of the above fields was set directly for a key in
xkb_symbols, the explicit setting takes precedence over the
interpret.
The body of the statement may include statements of the following forms (all of which are optional):
useModMapMods = level1;
When set to level1, the interpret will only match keysyms which are
on the first level of the first group of the keys. This can be useful
in conjunction with e.g. a virtualModifier statement, because
virtualModifier is an attribute of the key rather than a specific
level.
Note: the other possible value is any and is the default value.
action = LockMods(modifiers=NumLock);
Bind this action to the matching levels. See [key actions][actions] for the list of available key actions.
virtualModifier = NumLock;
Add this virtual modifier to the key’s vmodmap. The given virtual
modifier must be declared at the top level of the file with a
virtual_modifiers statement, e.g.:
virtual_modifiers NumLock;
repeat = True;
Set whether the key should repeat or not. Must be a boolean value.
[indicator effect]: @ref indicator-effect
Statements of the form:
indicator "Shift Lock" { ... }
This statement specifies the behavior and binding of the LED (AKA
[indicator]) with the given name (“Shift Lock” above). The name should
have been declared previously in the xkb_keycodes section (see
[LED name][indicator name] statement), and given an index there.
If it wasn’t, it is created with the next free index.
The body of the statement describes the conditions of the keyboard state which will cause the LED to be lit. It may include the following statements:
modifiers = ScrollLock;
If the given [modifiers] are in the required state (see below), the LED is lit.
whichModState = Latched+Locked;
Can be any combination of:
base, latched, locked, effective any (i.e. all of the above) none (i.e. none of the above) compat (legacy value, treated as effective)
This will cause the respective portion of the modifier state (see
struct xkb_state) to be matched against the modifiers given in the
modifiers statement.
Here’s a simple example:
indicator "Num Lock" {
modifiers = NumLock;
whichModState = Locked;
};
Whenever the NumLock modifier is locked, the Num Lock LED will light up.
groups = All - group1;
If the given groups are in the required state (see below), the LED is lit.
whichGroupState = Effective;
Can be any combination of:
base, latched, locked, effective any (i.e. all of the above) none (i.e. none of the above)
This will cause the respective portion of the group state (see
struct xkb_state) to be matched against the groups given in the
groups statement.
Note: the above conditions are disjunctive, i.e. if any of them are satisfied the LED is lit.
@todo e.g. setMods.clearLocks= True;
This [section] is the fourth to be processed, after xkb_keycodes,
xkb_types and xkb_compat.
Statements of the form:
xkb_symbols "basic" {
...
}
Declare a symbols map named basic. Statements inside the curly braces only
affect the symbols map.
A map can have various flags applied to it above the statement, separated by whitespace:
partial alphanumeric_keys
xkb_symbols "basic" {
...
}
The possible flags are:
partial - Indicates that the map doesn’t cover a complete keyboard. default - Marks the symbol map as the default map in the file when no
explicit map is specified. If no map is marked as a default, the first map
in the file is the default. hidden - Variant that can only be used internally alphanumeric_keys - Indicates that the map contains alphanumeric keys modifier_keys - Indicates that the map contains modifier keys keypad_keys - Indicates that the map contains keypad keys function_keys - Indicates that the map contains function keys alternate_group - Indicates that the map contains keys for an alternate
group
If no *_keys flags are supplied, then the map is assumed to cover a complete
keyboard.
At present, except for default, none of the flags affect key processing in
libxkbcommon, and only serve as metadata.
Statements of the form:
name[Group1] = "US/ASCII";
groupName[1] = "US/ASCII";
Gives the name “US/ASCII” to the first group of symbols. Other groups can be
named using a different group index (ex: Group2), and with a different name.
A group must be named.
group and groupName mean the same thing, and the Group in Group1 is
optional.
Statements of the form:
include "nokia_vndr/rx-51(nordic_base)"
Will include data from another xkb_symbols section, possibly located in
another file. Here it would include the xkb_symbols section called
nordic_base, from the file rx-51 located in the nokia_vndr folder, itself
located in an XKB include path.
@anchor merge-mode-def One can use a merge mode prefix to specify the merge mode of the file:
@todo dedicated section for merge mode
Statements of the form:
key <AD01> { ... };
defines the key description of the [keycode] <AD01> and is the main type
of record of the xkb_symbols section. The possible keycodes are defined in the
xkb_keycodes section.
A key description consists of:
[xkb_compat]
section, but may be also set directly:
- @ref key-virtual-modifiers "Virtual modifiers"
- @ref key-repeat "Repeat"
@warning Using multiple groups in symbols files is not recommended, because
some tools rely on the assumption that an xkb_symbols section only affect a
single group. It is fine with a keymap file though.
@note In what follows we assume the common use case with a single group, which benefits from a special syntax. See the section @ref key-groups “Multiple groups” for the general syntax.
[groups]: @ref layout-def
The main part of the key description is the symbols table. It maps shift levels to keysyms, e.g.:
key <AD01> { [ q, Q ] }; // Level 1 → `q`, Level 2 → `Q`
Symbols are named using the symbolic names from the
xkbcommon/xkbcommon-keysyms.h file. A group of symbols is enclosed in brackets
and separated by commas. Each element of the symbol arrays corresponds to a
different [shift level]. In this example, the symbol (keysym) XKB_KEY_q for
level 1 and XKB_KEY_Q for level 2. These levels are configured by the
@ref key-type-setting “key type”, presented in the next section.
@remark Remember that @ref keysym-transformations may affect the resulting keysym when some modifiers are not consumed.
As an extension to the XKB legacy format, libxkbcommon supports multiple key symbols and actions per level (the latter since version 1.8.0):
key <AD01> { [ {a, b}, Q ] };
In this example, the keycode <AD01> produces two symbols on level 1
(XKB_KEY_a and XKB_KEY_b) and one symbol (XKB_KEY_Q) on level 2.
When no actions are explicitly given, they are automatically filled thanks to [interpretations] from the [compat section][xkb_compat]. In the following example,
key <LCTL> { [ { Control_L, ISO_Group_Shift } ] };
is equivalent to (given standard definitions from xkeyboard-config):
key <LCTL> {
symbols[1] = [ { Control_L, ISO_Group_Shift } ],
actions[1] = [ { SetMods(modifiers=Control), SetGroup(group=+1) } ]
};
When using this example with e.g. two layouts fr,us (respectively Azerty and
Qwerty layouts), typing Control + A in the first layout fr will in fact
result in Control + Q, because the actions are run sequentially: first set the
base modifiers to Control, then switch to the second layout while Control is
pressed.
@remark Given a level, keysyms and actions may have a different count. For instance, the following would achieve the same effect than the former example with only 1 keysym, but it requires to use 2 explicit actions:
key <LCTL> {
symbols[1] = [ Control_L ],
actions[1] = [ { SetMods(modifiers=Control), SetGroup(group=+1) } ]
};
@note There are some limitations with this extension:
For now, at most one action of each following categories is allowed per level:
SetMods, LatchMods, LockMods; SetGroup, LatchGroup, LockGroup. Some examples of actions combination:
SetMods + SetGroup: ok SetMods + SetMods: error SetMods + LockMods: error SetMods + LockGroup: ok Multiple actions are only supported from version 1.8.0.
Since 1.8.0, NoSymbol and NoAction are dropped in order to normalize levels:
// Before normalization
key <> { [{NoSymbol}, {a, NoSymbol}, {NoSymbol,b}, {a, NoSymbol, b}] };
// After normalization
key <> { [NoSymbol, a, b, {a, b}] };
@warning Keymaps containing multiple key symbols per level are not supported
by the various X11-related tools (setxkbmap, xkbcomp, etc.).
[symbols table]: @ref key-symbols-table
Each key has a [key type] set per group. This key type is defined in the
[xkb_types]index the [symbols table] presented in the previous section.
A key type is set using the following syntax:
key <AD01> {
type[Group1] = "TWO_LEVEL", // Type
[q, Q] // Symbols
};
The name of the key type is enclosed between double quotes.
The key type may be omitted and will default to:
key.type global defaults, if set. ONE_LEVEL ALPHABETIC][ALPHABETIC]; KEYPAD else [TWO_LEVEL][TWO_LEVEL]. NoSymbol): FOUR_LEVEL_ALPHABETIC][FOUR_LEVEL_ALPHABETIC]; FOUR_LEVEL_SEMIALPHABETIC][FOUR_LEVEL_SEMIALPHABETIC]. FOUR_LEVEL_KEYPAD; FOUR_LEVEL][FOUR_LEVEL]. @figure@figcaption Commented examples for inferred types: @endfigcaption
// 1 to 2 keysyms
key <LFSH> { [Shift_L] }; // Type: ONE_LEVEL
key <AE01> { [1, exclam] }; // Type: TWO_LEVEL
key <AD01> { [q, Q] }; // Type: ALPHABETIC
key <KP1> { [KP_End, KP_1] }; // Type: KEYPAD
// Edge case: this is consider alphabetic, although
// the lower case does not correspond to the upper case.
key <AD01> { [q, N] }; // Type: ALPHABETIC
// 3 to 4 keysyms
key <AE01> { [1, exclam, bar] }; // Type: FOUR_LEVEL
key <AE01> { [1, exclam, bar, exclamdown] }; // Type: FOUR_LEVEL
key <AD01> { [q, Q, at] }; // Type: FOUR_LEVEL_SEMIALPHABETIC
key <AD01> { [q, Q, at, Greek_OMEGA] }; // Type: FOUR_LEVEL_SEMIALPHABETIC
key <AD05> { [t, T, tslash, Tslash] }; // Type: FOUR_LEVEL_ALPHABETIC
// The inferred type is `FOUR_LEVEL`, but using `LevelThree+Lock`
// will produce `Q`, because of the keysyms transformations and
// the corresponding internal capitalization processing.
key <AE01> { [1, exclam, q, Q] }; // Type: FOUR_LEVEL
// Won’t work, because there is no heuristic for more than 4 keysyms
// It will trigger the warnings XKB-183 and XKB-516 and default to ONE_LEVEL,
// ignoring all the keysyms but the first one.
key <AD01> {[q, Q, at, any, masculine, U2642]};
// Will work as expected
key <AD01> {
type[Group1] = "EIGHT_LEVEL_SEMIALPHABETIC",
[q, Q, at, any, masculine, U2642]
};
@endfigure
@note This is usually not set explicitly but via the
[interpret mechanism]
action statement in the
[xkb_compat]
@figure@figcaption
Example: Set the modifier action of the key <LALT> manually.
@endfigcaption
key <LALT> {
symbols[Group1]=[Alt_L],
actions[Group1]=[SetMods(modifiers=modMapMods)]
};
@endfigure
For further details see [key actions][actions].
Each group represents a list of symbols mapped to a keycode:
name[Group1]= "US/ASCII";
name[Group2]= "Russian";
...
key <AD01> { [ q, Q ],
[ Cyrillic_shorti, Cyrillic_SHORTI ] };
A long-form syntax can also be used:
key <AD01> {
symbols[Group1]= [ q, Q ],
symbols[Group2]= [ Cyrillic_shorti, Cyrillic_SHORTI ]
};
Groups can also be omitted, but the brackets must be present. The following statement only defines the Group3 of a mapping:
key <AD01> { [], [], [ q, Q ] };
@warning Using multiple groups in symbols files is not recommended, because
some tools rely on the assumption that an xkb_symbols section only affect a
single group. It is fine with a keymap file though.
@note This is usually not set explicitly but via the
[interpret mechanism]
virtualModifier statement from the
[xkb_compat]
@remarks When setting a modifier action, it is required
to declare the corresponding virtual modifier using a
virtual_modifiers statement.
@figure@figcaption
Example: Set the virtual modifier of the key <LALT> to Alt.
@endfigcaption
// Declare the virtual modifier that will be used
virtual_modifiers Alt;
key <LALT> {
virtualModifiers = Alt,
[ Alt_L ]
};
@endfigure
[interpret mechanism]: @ref interpret-mechanism
@note This is usually not set explicitly but via the
[interpret mechanism]
repeat statement in the
[xkb_compat]
@figure@figcaption
Example: make the <LALT> key not repeating.
@endfigcaption
key <LALT> {
repeat = False,
[ Alt_L ]
};
@endfigure
Statements of the form:
virtual_modifiers LControl;
Can appear in the xkb_types, xkb_compat, xkb_symbols sections.
Modifiers are a particularly tricky part of XKB. For historical reasons they are divided in two categories: [real modifiers] and [virtual modifiers].
Note that in X11, the maximum of virtual modifiers is 16
(see XkbNumVirtualMods).
The following table summarizes the modifiers defined in <code>xkeyboard-config</code> (this is subject to change).
| Modifier | Type | Compat files | Associated keysyms |
|---|---|---|---|
Shift |
Real |
compat/basic |
Shift_L, Shift_R |
| ″ | ″ |
compat/iso9995 |
Shift_L, Shift_R, ISO_Level2_Latch |
Lock |
Real |
compat/basic, |
Caps_Lock |
| ″ | ″ |
compat/caps |
″ |
Control |
Real |
compat/basic |
Control_L, Control_R |
Alt |
Virtual |
compat/misc, |
Alt_L, Alt_R |
| ″ | ″ |
compat/pc |
″ |
Meta |
Virtual |
compat/misc |
Meta_L, Meta_R |
Super |
Virtual |
compat/misc |
Super_L, Super_R |
Hyper |
Virtual |
compat/misc |
Hyper_L, Hyper_R |
ScrollLock |
Virtual |
compat/misc |
Scroll_Lock |
NumLock |
Virtual |
compat/basic, |
Num_Lock, |
| ″ | ″ |
compat/level5 |
(ISO_Level5_Lock) |
LevelThree |
Virtual |
compat/iso9995 |
ISO_Level3_Shift, ISO_Level3_Latch, ISO_Level3_Lock |
LevelFive |
Virtual |
compat/level5 |
ISO_Level5_Shift, ISO_Level5_Latch, ISO_Level5_Lock |
Kana_Lock |
Virtual |
compat/japan |
Kana_Lock |
Square |
Virtual |
compat/olpc |
KP_Home |
Cross |
Virtual |
compat/olpc |
KP_Next |
Circle |
Virtual |
compat/olpc |
KP_End |
Triangle |
Virtual |
compat/olpc |
KP_Prior |
We will use the example of the real modifier Shift and the virtual
modifier LevelThree in xkeyboard-config.
In order to define and use a modifier, one must:
Define its behavior and [keysym] binding in the <code>[xkb_compat]</code> section:
// Declare virtual modifiers. Shift being real modifier,
// we do not need to add it here.
virtual_modifiers LevelThree;
// Set defaults. They are overridden if set directly in the xkb_symbols.
interpret.repeat= False; // only applied on first level
setMods.clearLocks= True;
latchMods.clearLocks= True;
latchMods.latchToLock= True;
// Default statement for real modifiers: any key bound to a real
// modifier via modifier_map will set this modifier at all its
// levels.
// Here only to illustrate: do not add it!
interpret Any + Any {
action= SetMods(modifiers=modMapMods);
};
// Shift being real modifier, we do not need a corresponding
// interpret statement because the previous one suffices.
// Let’s associate LevelThree to the keysym ISO_Level3_Shift
// First, match the keys and their levels with the
// ISO_Level3_Shift keysym and with any real modifier
// (Any = AnyOf(all)) in its modmap.
interpret ISO_Level3_Shift+Any {
// Only match the first level of the first group
useModMapMods= level1;
// Add the virtual modifier to the key’s vmodmap
virtualModifier= LevelThree;
// Activate the LevelThree modifier (depressed mode)
action= SetMods(modifiers=LevelThree);
};
// Then for keys and their levels with the
// ISO_Level3_Shift keysym but with either no real modifier
// in its modmap or a level higher than 1.
// Indeed:
// • In case the level is higher than 1 there is no match
// in the previous statement.
// • The condition is equivalent to
// ISO_Level3_Shift+AnyOfOrNone(all), but since
// the previous statement ISO_Level3_Shift+Any is more
// specific, it will be matched before this one.
interpret ISO_Level3_Shift {
// Activate the LevelThree modifier (depressed mode)
action= SetMods(modifiers=LevelThree);
};
Define [key types] that use it in the <code>[xkb_types]</code> section:
// Declare virtual modifiers. Shift being real modifier,
// we do not need to add it here.
virtual_modifiers LevelThree;
type "FOUR_LEVEL" {
// Key type modifier mask: all the modifiers used in the key type
modifiers = Shift + LevelThree;
map[None] = Level1;
map[Shift] = Level2;
map[LevelThree] = Level3;
map[Shift+LevelThree] = Level4;
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "AltGr";
level_name[Level4] = "Shift AltGr";
};
Bind it to a [keycode] in the <code>[xkb_symbols]</code> section:
xkb_compat section hereinabove. modifier_map. Note: Only one key binding to real modifier is required. The corresponding keysym must then be on the first level of the first Group.
Note: One can optionally bind directly a virtual modifier to a
key using virtualmodifiers instead of doing it in the
xkb_compat section. But the recommended way is to use the
xkb_compat section.
// Shift: defined in pc symbols
key <LFSH> {[ Shift_L ]};
key <RTSH> {[ Shift_R ]};
modifier_map Shift { Shift_L, Shift_R };
// The previous will resolve to:
// modifier_map Shift { <LFSH>, <RTSH> };
// Thus the real modifier Shift is added to the modmap of
// <LFSH> and <RTSH>.
// The “Any + Any” interpret statement matches <LFSH> and <RTSH>,
// therefore these keys set the Shift modifier.
// LevelThree: defined in pc symbols
// With the following 2 lines:
// 1. The modifier keysym is on the first level of the first group.
// 2. The real modifier Mod5 is bound to <LVL3>,
// i.e. Mod5 is added to its modmap.
// 3. It matches the interpret statement “ISO_Level3_Shift+Any”,
// which adds the LevelThree modifier to the vmodmap of <LVL3>.
// 4. The mapping of LevelThree to real modifiers is the union
// of modmaps with corresponding vmodmaps containing
// LevelThree. In our case there is only one: therefore
// LevelThree maps to Mod5.
key <LVL3> {[ ISO_Level3_Shift ]};
modifier_map Mod5 { <LVL3> };
// LevelThree: defined in level3 symbols
// Not bound to a real modifier, so interpret statement
// “ISO_Level3_Shift” applies.
key <RALT> {[ISO_Level3_Shift], type[group1]="ONE_LEVEL" };
// Note: we could have the following line, but it is not necessary
// because we have the mappings of <LVL3>.
// modifier_map Mod5 { <RALT> };
// Warning: if we had the for example the following line, the
// mapping of LevelThree to real modifiers would be “Mod1+Mod5”.
// modifier_map Mod1 { <RALT> };
// Alternative definitions, without using interpret statements
virtual_modifiers LevelThree;
key <LVL3> { virtualmodifiers=LevelThree
, repeats=False
, symbols[Group1] = [ISO_Level3_Shift]
, actions[Group1] = [SetMods(modifiers=LevelThree)] };
modifier_map Mod5 { <LVL3> };
key <RALT> { repeat=False
, symbols[Group1] = [ISO_Level3_Shift]
, actions[Group1] = [SetMods(modifiers=LevelThree)]
, type[group1]="ONE_LEVEL" };
// FOUR_LEVEL key type example from latin symbols
key <AB05> {[b, B, leftdoublequotemark, leftsinglequotemark]};
@todo list of all actions and their parameters
The following table provide an overview of the available actions:
| Category | Action | Alias | Description |
|---|---|---|---|
NoAction |
Do nothing. | ||
| [Modifier action] |
SetMods |
Modifies the depressed modifiers | |
| ^ |
LatchMods |
Modifies the latched modifiers | |
| ^ |
LockMods |
Modifies the locked modifiers | |
| [Group action] |
SetGroup |
<span class=”todo”>TODO</span> | |
| ^ |
LatchGroup |
<span class=”todo”>TODO</span> | |
| ^ |
LockGroup |
<span class=”todo”>TODO</span> | |
| [Legacy action] |
MovePointer |
MovePtr |
<span class=”todo”>TODO</span> |
| ^ |
PointerButton |
PtrBtn |
<span class=”todo”>TODO</span> |
| ^ |
LockPointerButton |
LockPtrBtn |
<span class=”todo”>TODO</span> |
| ^ |
SetPointerDefault |
SetPtrDflt |
<span class=”todo”>TODO</span> |
| ^ |
SetControls |
<span class=”todo”>TODO</span> | |
| ^ |
LockControls |
<span class=”todo”>TODO</span> | |
| ^ |
TerminateServer |
Terminate |
<span class=”todo”>TODO</span> |
| ^ |
SwitchScreen |
<span class=”todo”>TODO</span> | |
| ^ |
Private |
<span class=”todo”>TODO</span> |
Common syntax:
true, yes, on false, no, off [modifier action]: @ref modifiers-actions [modifier actions]: @ref modifiers-actions
@todo default values
There are 3 modifiers actions:
@todo highlight that there is reference counting for the modifiers, e.g. to manage multiple physical keys for the same modifier.
These actions perform different tasks on key press and on key release:
| Action | On key press | On key release |
|---|---|---|
SetMods |
|
|
LatchMods |
|
|
LockMods
|
|
|
@todo Finish
[group action]: @ref group-actions [group actions]: @ref group-actions
There are 3 group actions:
@todo Describe each action
[legacy action]: @ref legacy-actions
@attention The following legacy actions are kept for compatibility only: they are parsed and validated but have no effect. This allows to use keymaps defined in
[xkeyboard-config]| Action | Alias | Description |
|---|---|---|
MovePointer |
MovePtr |
|
PointerButton |
PtrBtn |
|
LockPtrButton |
LockPtrBtn |
|
LockPointerButton |
LockPointerBtn |
|
SetPointerDefault |
SetPtrDflt |
@todo Describe each action
@todo SetControls, LockControls
@todo TerminateServer, SwitchScreen
@todo Private
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# The XKB keymap text format, V1 {#keymap-text-format-v1}
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This document describes the `XKB_KEYMAP_FORMAT_TEXT_V1` [keymap] format,
as implemented by libxkbcommon.
@see For an overview of the role of this format, please see “@ref xkb-the-config ""”.
@see For examples of keymaps in this format, please see “@ref user-configuration ""”.
For further examples see [xkeyboard-config], the standard database of keyboard
configuration data.
@note Due to the complexity of the format, this document is still is construction.
Some additional resources are:
@note
- [Ivan Pascal’s XKB documentation][ivan-pascal]
- [An Unreliable Guide to XKB Configuration][unreliable-guide]
- [The X Keyboard Extension: Protocol Specification][XKB Protocol]
- [How to enhance XKB configuration][xkeyboard-config doc]
- [ArchWiki XKB page][arch-wiki]
[xkeyboard-config]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config
[ivan-pascal]: https://web.archive.org/web/20190724015820/http://pascal.tsu.ru/en/xkb/
[unreliable-guide]: https://www.charvolant.org/doug/xkb/html/index.html
[XKB Protocol]: https://www.x.org/releases/current/doc/kbproto/xkbproto.html
[xkeyboard-config doc]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/master/docs/README.enhancing
[arch-wiki]: https://wiki.archlinux.org/index.php/X_keyboard_extension
@tableofcontents{html:2}
<!--
## Table of contents
1. [Terminology][terminology]
2. [Introduction to the XKB text format][introduction]
3. [The xkb_keymap block][xkb_keymap]
4. [The xkb_keycodes section][xkb_keycodes]
5. [The xkb_types section][xkb_types]
6. [The xkb_compat section][xkb_compat]
7. [The xkb_symbols section][xkb_symbols]
8. [Virtual modifier statements][virtual modifier statements]
9. [Modifiers bindings][modifiers bindings]
10. [Key actions][actions]
-->
[terminology]: @ref terminology
[introduction]: @ref introduction-to-the-xkb-text-format
[xkb_keymap]: @ref the-xkb_keymap-block
[xkb_keycodes]: @ref the-xkb_keycodes-section
[xkb_types]: @ref the-xkb_types-section
[xkb_compat]: @ref the-xkb_compat-section
[xkb_symbols]: @ref the-xkb_symbols-section
[virtual modifier statements]:@ref virtual-modifier-statements
[modifiers bindings]: @ref modifiers-bindings
[actions]: @ref key-actions
## Terminology {#terminology}
<dl>
<dt><a name="keycode-def">Keycode</a><dt>
<dd>
Code that identifies a physical key on a keyboard.
- _Raw_ keycodes are the numeric identifiers used as input in XKB.
They are the result of the low-level processing of the data that
keyboards send to a computer. For instance `36` may represent
the return key.
- _XKB_ keycodes are _symbolic_ names assigned to raw keycodes in
order to facilitate their mapping to symbols. For instance the
keycode for the return key is the abbreviation `RTRN`.
See [xkb_keycodes] for further details.
</dd>
<dt><a name="keysym-def">Symbols</a></dt>
<dd>
A _keysym_ (short for “key symbol”) is a numeric encoding of a
symbol on the cap of a key.
They have a canonical name for convenience. It can be:
- A _character:_ e.g. `a` and `A` for Latin scripts,
`alpha` “α” and `ALPHA` “Α” for Greek, etc.
- A _dead key:_ e.g. `dead_grave` and `dead_diaeresis`, corresponding
respectively to the [grave accent](https://en.wikipedia.org/wiki/Grave_accent)
and the [diaeresis](https://en.wikipedia.org/wiki/Diaeresis_%28diacritic%29)
diacritics.
A [dead key](https://en.wikipedia.org/wiki/Dead_key) is a special kind of key
that does not generate a character by itself, but modifies the character
generated by the key struck(s) immediately after.
- A <em>[modifier]:</em> e.g. `Shift_L`, `Control_R`, `Caps_Lock`.
See hereinafter.
- A _system action:_ e.g. the arrow `Left`, `Pause`, `Escape`, `F1`.
The complete list of keysyms is defined in `xkbcommon/xkbcommon-keysyms.h`.
See [xkb_symbols] for further details on binding keysyms to keycodes.
</dd>
<dt><a name="modifier-def">Modifier</a></dt>
<dd>
A _modifier key_ is a key that modifies the effect of other keys:
e.g. Shift, Control, Caps Lock, etc.
The state of a modifier key (active/inactive) is encoded as a
_modifier index_ (or modifier bit or simply modifier) and has
an associated _unique name_.
For historical reasons, modifiers are divided in two categories:
<dl>
<dt><a name="real-modifier-def">Real modifiers</a></dt>
<dd>
They are the 8 _predefined_ (AKA core, X11) modifiers
(see [usual modifiers] hereinafter).
Real modifiers ensure backward compatibility: indeed
they are the actual bits used to compute the [levels][level]
and are communicated via the API of xkbcommon.
Some are generic modifiers (`Mod[1-5]`) that do not have a
conventional interpretation and are the motivation of the
introduction of [virtual modifiers].
</dd>
<dt><a name="virtual-modifier-def">Virtual modifiers</a>
<dd>
They are the modifiers that are _not_ predefined.
</dd>
</dl>
Each modifier defines a _mapping_ to one or multiple
_real_ modifier. Real modifiers map to themselves.
The following table lists the
<a name="usual-modifiers">usual modifiers</a>
present in the [standard keyboard configuration][xkeyboard-config].
Note that this is provided for information only, as it may change
depending on the user configuration.
| Modifier | Type | Usual mapping | Comment |
| ------------ | ------- | ------------- | --------------------------- |
| `Shift` | Real | `Shift` | The usual [Shift] |
| `Lock` | Real | `Lock` | The usual [Caps Lock][Lock] |
| `Control` | Real | `Control` | The usual [Control] |
| `Mod1` | Real | `Mod1` | Not conventional |
| `Mod2` | Real | `Mod2` | Not conventional |
| `Mod3` | Real | `Mod3` | Not conventional |
| `Mod4` | Real | `Mod4` | Not conventional |
| `Mod5` | Real | `Mod5` | Not conventional |
| `Alt` | Virtual | `Mod1` | The usual [Alt] |
| `Meta` | Virtual | `Mod1` or `Mod4` | The legacy [Meta] key |
| `NumLock` | Virtual | `Mod2` | The usual [NumLock] |
| `Super` | Virtual | `Mod4` | The usual [Super]/GUI |
| `LevelThree` | Virtual | `Mod3` | [ISO][ISO9995] level 3, aka [AltGr] |
| `LevelFive` | Virtual | `Mod5` | [ISO][ISO9995] level 5 |
[usual modifiers]: @ref usual-modifiers
[Shift]: https://en.wikipedia.org/wiki/Control_key
[Lock]: https://en.wikipedia.org/wiki/Caps_Lock
[Control]: https://en.wikipedia.org/wiki/Control_key
[Alt]: https://en.wikipedia.org/wiki/Alt_key
[AltGr]: https://en.wikipedia.org/wiki/AltGr_key
[NumLock]: https://en.wikipedia.org/wiki/Num_Lock
[Meta]: https://en.wikipedia.org/wiki/Meta_key
[Super]: https://en.wikipedia.org/wiki/Super_key_(keyboard_button)
A modifier key can report its state in one of the following 3 ways:
<dl>
<dt><a name="depressed-mod-def">Depressed</a></dt>
<dd>Active while depressed; e.g. the usual Shift.</dd>
<dt><a name="latched-mod-def">Latched</a></dt>
<dd>
Activated when pressed and deactivated after the next
non-modifier key press.
</dd>
<dt><a name="locked-mod-def">Locked</a></dt>
<dd>
Activated when pressed and deactivated when pressed again;
e.g. the usual Caps Lock.
</dd>
</dl>
See [modifiers bindings] for further details.
</dd>
[depressed]: @ref depressed-mod-def
[latched]: @ref latched-mod-def
[locked]: @ref locked-mod-def
<dt><a name="level-def">Shift Level</a></dt>
<dd>
A key may produce different
results depending of the active modifiers: e.g. for a Latin script,
pressing the key A produces “a” and holding Shift while pressing A
produces “A”.
This various results are organized in an ordered list; the _index_
of each entry is called a <a name="level-index-def">shift level</a>
or simply level. By convention the lowest level is the result when
no modifier is active.
Example for the key `A` on a latin script keyboard:
| Level | Description | Keysym | Active key modifiers |
|-------|--------------------------------|--------|----------------------|
| 1 | Lower case letters | `a` | None |
| 2 | Upper case letters. | `A` | `Shift` |
| 3 | Alternative lower case letters | `ae` | `AltGr` |
| 4 | Alternative upper case letters | `AE` | `Shift` + `AltGr` |
A key shift level is the logical _state_ of a key corresponding to
the current shift level it used.
Key shift levels are derived from the modifiers states, but not
necessarily in the same way for all keys. For example, for Latin
script the Caps Lock modifier selects the level 2 for alphabetic
keys such as `A` but has no effect on a numeric key.
There are groups of keys with the same characteristics: letters,
punctuation, numeric keypad, etc. The meaning of their levels is
identical and thus can be shared: this generalization is called
a _key type_ (see hereinafter).
</dd>
<dt><a name="key-type-def">Key type</a></dt>
<dd>
A key type defines the levels available for a key and
how to derive the active level from the modifiers states. Examples:
- `ONE_LEVEL`: the key has only one level, i.e. it is not affected
by any modifiers. Example: the modifiers themselves.
- [`TWO_LEVEL`][TWO_LEVEL]: the key has two levels:
- Level 1: default level, active when the `Shift` modifier is _not_ active.
- Level 2: level activated with the `Shift` modifier.
- [`FOUR_LEVEL`][FOUR_LEVEL]: see the example in the previous section.
See [xkb_types] for further details.
</dd>
<dt><a name="layout-def">Layout</a></dt>
<dd>
A mapping of keycodes to symbols, actions and key types.
A user who deals with multiple languages may need two or more
different layouts: e.g. a layout for Arabic and another one for
English. In this context, layouts are called _groups_ in XKB,
as defined in the [standard ISO/IEC 9995][ISO9995].
Layouts are ordered and identified by their index. Example:
- Layout 1: Arabic
- Layout 2: English
</dd>
<dt><a name="key-action-def">Key Action</a></dt>
<dd>
In XKB world, a key action defines the effect a key
has on the state of the keyboard or the state of the display server.
Examples:
- Change the state of a modifier.
- Change the active group.
- Move the mouse pointer.
See the section “[Key actions][actions]” for further details.
</dd>
<dt><a name="indicator-def">Indicator</a></dt>
<dd>
A keyboard indicator is a mean to report a specific aspect of the
keyboard state.
<dl>
<dt><em>Physical</em> indicator</dt>
<dd>
Typically a labelled LED on the keyboard, e.g. “Caps Lock” and
“Num Lock”.
</dd>
<dt><em>Logical</em> indicator</dt>
<dd>
A customizable derived state of the keyboard.
Its changes creates events that can be monitored.
There are two categories:
- _Real_ indicators are those associated to a physical indicator.
For example, the “Caps Lock” logical modifier controls the
corresponding physical LED.
Because indicators are customizable, if one misses a “Num Lock”
LED, one could define instead the “Caps Lock” _indicator_ to
activate its LED when the “Num Lock” _modifier_ is active.
- _Virtual_ indicators are not associated to a physical indicator.
Their effect is only visible for programs monitoring them.
Note that the meanings of _real_ and _virtual_ is slightly
different than the one used for [modifier].
</dd>
</dl>
See: <code>[xkb_keycodes][indicator name]</code> to define indicators and
<code>[xkb_compat][indicator effect]</code> to define their effects.
</dd>
<dt><a name="keymap-def">Keymap</a></dt>
<dd>
The _complete_ definition of the
mapping of raw keycodes to symbols and actions.
It fully defines the behavior of a keyboard.
Depending of the context, a keymap may refer to:
- the software object defined and managed by libxkbcommon;
- the text configuration used to create this software object.
See @ref keymap-components-intro and [xkb_keymap] for further details.
</dd>
<dt>Keyboard configuration database @anchor database-def</dt>
<dd>
A database that provides the [keymap components](@ref keymap-components-intro).
\*nix OSs uses the _standard_ database [xkeyboard-config]. One may extend
this database with _custom_ layouts: see “@ref user-configuration ""” for
further details.
</dd>
</dl>
[keycode]: @ref keycode-def
[keysym]: @ref keysym-def
[keysyms]: @ref keysym-def
[modifier]: @ref modifier-def
[modifiers]: @ref modifier-def
[real modifier]: @ref real-modifier-def
[real modifiers]: @ref real-modifier-def
[virtual modifier]: @ref virtual-modifier-def
[virtual modifiers]: @ref virtual-modifier-def
[level]: @ref level-def
[shift level]: @ref level-def
[level index]: @ref level-index-def
[key type]: @ref key-type-def
[key types]: @ref key-type-def
[layout]: @ref layout-def
[action]: @ref key-action-def
[indicator]: @ref indicator-def
[keymap]: @ref keymap-def
[database]: @ref database-def
[ISO9995]: https://en.wikipedia.org/wiki/ISO/IEC_9995
## Introduction to the XKB text format
The XKB text format uses a syntax similar to the [C programming language][C].
Note that the similarity with C stops here: the XKB text format is only a
_configuration_ format and is not intended for programming.
The XKB text format is used to configure a _keyboard keymap_, which is
introduced in “@ref xkb-the-config ""”. It has the following two main use cases,
illustrated in the [diagram hereinafter](@ref xkb-keymap-components-diagram):
- __Server:__ Load a keymap from the keymap configuration database, then handle
input events by updating the keyboard state. The keymap is assembled from
an [RMLVO configuration][RMLVO] and its corresponding
<strong>[KcCGST components][KcCGST]</strong> files.
@see xkb_keymap::xkb_keymap_new_from_names
@see [xkeyboard-config] for the implementation of the *standard* keymap
configuration database.
@see “@ref user-configuration ""” to add a *custom* layout or option.
- __Client:__ Load the active keymap from the server, then handle update events
sent by the server. The <strong>[complete keymap]</strong> is directly
available in a _self-contained_ file.
@see xkb_keymap::xkb_keymap_new_from_string
@anchor xkb-keymap-components-diagram
@dotfile xkb-keymap-components "XKB text format use cases"
[C]: https://en.wikipedia.org/wiki/C_(programming_language)#Syntax
[RMLVO]: @ref RMLVO-intro
[KcCGST]: @ref KcCGST-intro
[complete keymap]: @ref keymap-intro
### XKB file
There are two kinds of files for the XKB text format:
<!-- NOTE:
The XKB protocol (https://www.x.org/releases/current/doc/kbproto/xkbproto.html)
uses “Keyboard description” and “Keyboard components” rather than “keymap” and
“keymap components”.
-->
<dl>
<dt>Keymap file @anchor keymap-file-def</dt>
<dd>
A file with the _complete_ description of the [keymap] object.
It is the kind of file that the server sends to the client (see
the [diagram](@ref xkb-keymap-components-diagram) above).
Its top-level structure consists of the [xkb_keymap] block.
</dd>
<!-- TODO: not sure of the following -->
<!--
<dt>Partial keymap</dt>
<dd>
A keymap text configuration with one or more keymap sections. Some
sections may be missing and [include] statements may not be resolved.
</dd>
<dt>Complete keymap</dt>
<dd>
A keymap text configuration consisting of a `%xkb_keymap` block with all
mandatory sections; all [include] statements are resolved so that it is
self-contained.
See the [xkb_keymap] block for further details.
</dd>
-->
<dt>Keymap _component_ file @anchor keymap-component-file-def</dt>
<dd>
A file with the description of a _particular_ [KcCGST component][KcCGST].
It is the kind of file that the server uses to assemble a [keymap file].
Its top-level structure consists of a _single type_ of [keymap sections].
A component file may contain multiple such sections.
</dd>
</dl>
[keymap file]: @ref keymap-file-def
[keymap component file]: @ref keymap-component-file-def
[keymap sections]: @ref keymap-section-def
[section]: @ref keymap-section-def
[keymap components]: @ref keymap-component-def
### Keymap components {#keymap-components-intro}
[Keymap components][keymap components] are described with [keymap sections].
They are grouped in [keymap component files][keymap component file] to form a
[keyboard configuration database][database].
<dl>
<dt>Keymap _component_ @anchor keymap-component-def</dt>
<dd>
A part of the keymap _object_. The set of keymap components is referred as
[KcCGST]. They are presented in the [table hereinafter][keymap components table].
</dd>
<dt>Keymap _section_ @anchor keymap-section-def</dt>
<dd>
A part of the keymap _text configuration_ dedicated to one of the
[keymap components][keymap components table].
</dd>
<dt>Component _folder_</dt>
<dd>
A folder in the [keymap configuration database][database], dedicated to files
with partial definitions of the same keymap section.
</dd>
</dl>
[keymap components table]: @ref keymap-components-table
@anchor keymap-components-table
<table>
<caption>
Keymap components
</caption>
<tr>
<th>[Component](@ref keymap-component-def)</th>
<th>[Section][section] in a [keymap][xkb_keymap]</th>
<th>Folder in a keymap configuration database</th>
<th>Description</th>
</tr>
<tr>
<th><u>K</u>ey <u>c</u>odes</th>
<td>[xkb_keycodes]</td>
<td>`keycodes`</td>
<td>
A translation of the raw [key codes][keycode] from the keyboard into
symbolic names.
</td>
</tr>
<tr>
<th><u>C</u>ompatibility</th>
<td>[xkb_compat]</td>
<td>`compat`</td>
<td>
A specification of what internal actions modifiers and various
special-purpose keys produce.
</td>
</tr>
<tr>
<th>(<u>G</u>eometry)</th>
<td>xkb_geometry</td>
<td>`geometry`</td>
<td>
A description of the physical layout of a keyboard.
@attention This legacy feature is [not supported](@ref geometry-support)
by _xkbcommon_.
</td>
</tr>
<tr>
<th>Key <u>s</u>ymbols</th>
<td>[xkb_symbols]</td>
<td>`symbols`</td>
<td>
A translation of symbolic [key codes][keycode] into actual [key symbols][keysyms]
(keysyms).
</td>
</tr>
<tr>
<th>Key <u>t</u>ypes</th>
<td>[xkb_types]</td>
<td>`types`</td>
<td>
Types describe how a pressed key is affected by active [modifiers]
such as Shift, Control, Alt, etc.
</td>
</tr>
</table>
### Comments
Comments are introduced following either `//` or `#` until the end of the line.
### Literals
<dl>
<dt>String literal</dt>
<dd>
A string is surrounded by double quotes: “<code>"</code>”.
The following _escape sequences_ are supported:
| Escape sequence | Meaning |
| ------------------ | ------------------------------------------------------- |
| `\\` | Backslash “`\`” |
| `\b` | Backspace |
| `\e` | Escape |
| `\f` | Form feed |
| `\n` | Line feed (newline) |
| `\r` | Carriage return |
| `\t` | Horizontal tabulation |
| `\v` | Vertical tabulation |
| `\` + octal number | Corresponding ASCII character: `\0` → NULL, `\42` → `"` |
@note The string _encoding_ is unspecified and not validated, but for best
results, stick to ASCII.
<!-- TODO: check UTF-8 encoding result -->
</dd>
<dt>Number literal</dt>
<dd>
A number can be written in three forms:
- _decimal integer:_ `1`, `123`, etc.
- _decimal floating-point number:_ `1.23`, etc.
- _hexadecimal integer:_ prefixed with `0x`: `0x123`, `0xff`, `0xAB`, etc.
</dd>
</dl>
### Keywords
The following table presents the keywords used in the format. They are
_case-sensitive_.
<!-- NOTE: keywords are defined in `src/xkbcomp/keywords.gperf` -->
| Keyword | Use |
| ----------------------- | ------------------------------ |
| `action` | <span class="todo">TODO</span> |
| `alias` | <span class="todo">TODO</span> |
| `alphanumeric_keys` | <span class="todo">TODO</span> |
| `alternate_group` | <span class="todo">TODO</span> |
| `alternate` | <span class="todo">TODO</span> |
| `augment` | Mode qualifier for [include] statements |
| `default` | <span class="todo">TODO</span> |
| `function_keys` | <span class="todo">TODO</span> |
| `group` | <span class="todo">TODO</span> |
| `hidden` | <span class="todo">TODO</span> |
| `include` | [Include statement][include] |
| `indicator` | <span class="todo">TODO</span> |
| `interpret` | [Interpret statement][interpret] |
| `key` | <span class="todo">TODO</span> |
| `keypad_keys` | <span class="todo">TODO</span> |
| `keys` | <span class="todo">TODO</span> |
| `logo` | <span class="todo">TODO</span> |
| `mod_map` | Alias of `modifier_map` |
| `modifier_keys` | <span class="todo">TODO</span> |
| `modmap` | Alias of `modifier_map` |
| `modifier_map` | <span class="todo">TODO</span> |
| `outline` | <span class="todo">TODO</span> |
| `overlay` | <span class="todo">TODO</span> |
| `override` | Mode qualifier for [include] statements |
| `partial` | <span class="todo">TODO</span> |
| `replace` | Mode qualifier for [include] statements |
| `row` | <span class="todo">TODO</span> |
| `section` | <span class="todo">TODO</span> |
| `shape` | <span class="todo">TODO</span> |
| `solid` | <span class="todo">TODO</span> |
| `text` | <span class="todo">TODO</span> |
| `type` | <span class="todo">TODO</span> |
| `virtual_modifiers` | <span class="todo">TODO</span> |
| `virtual` | <span class="todo">TODO</span> |
| `xkb_compat_map` | Alias of `xkb_compatibility_map` |
| `xkb_compat` | Alias of `xkb_compatibility_map` |
| `xkb_compatibility_map` | Declare a [compatibility section][xkb_compat] |
| `xkb_compatibility` | Alias of `xkb_compatibility_map` |
| `xkb_geometry` | Declare a geometry section (<span class="todo">TODO: legacy</span>) |
| `xkb_keycodes` | Declare a [keycodes section][xkb_keycodes] |
| `xkb_keymap` | Declare a [keymap block][xkb_keymap] |
| `xkb_layout` | <span class="todo">TODO</span> |
| `xkb_semantics` | <span class="todo">TODO</span> |
| `xkb_symbols` | Declare a [symbols section][xkb_symbols] |
| `xkb_types` | Declare a [key types section ][xkb_types] |
[include]: @ref xkb-include
[interpret]: @ref interpret-statements
[interpretations]: @ref interpret-statements
### Built-in settings
<!--
TODO: SetMods is not a keyword, but how call it for user-facing doc?
-->
There are many built-in settings; they are explained in the following relevant
sections.
These settings are _case-insensitive_, e.g. the following strings denote
the same key word: `SETMODS`, `SetMods`, `setMods` and `setmods`.
### The include mechanism {#xkb-include}
@todo the import mechanism, its qualifiers
## The “xkb_keymap” block {#the-xkb_keymap-block}
A <strong>[keymap file]</strong> consists of a single top-level `xkb_keymap`
block, under which are nested the following sections:
<dl>
<dt><code>[xkb_keycodes]</code></dt>
<dd>
A translation of the hardware/evdev scancodes from the keyboard into
XKB symbolic keycodes.
</dd>
<dt><code>[xkb_types]</code></dt>
<dd>
A specification of the modifier mask, target level and preserved
modifiers various modifiers combination produce.
</dd>
<dt><code>[xkb_compat]</code></dt>
<dd>
A specification of what actions various special-purpose keys produce.
</dd>
<dt><code>[xkb_symbols]</code></dt>
<dd>
A translation of symbolic key codes into actual symbols and actions.
</dd>
</dl>
Overview of a keymap file:
```c
xkb_keymap {
xkb_keycodes "XXX" {
// ...
}
xkb_types "XXX" {
// ...
};
xkb_compatibility "XXX" {
// ...
};
xkb_symbols "XXX" {
// ...
};
};
```
<!-- TODO: there might be several sections of the same type: explain syntax and how they are selected -->
<!-- TODO: sections may be named -->
<!-- TODO: introduce tags → only “default” MAP_IS_DEFAULT seems to be used; other are just documentation -->
<!-- TODO: `xkb_semantics`, `xkb_layout`: they seem to be aliases of `xkb_keymap`
in xkbcommon, but they have subtle differences in original `xkbcomp`. -->
<!-- TODO: See: [xkbcomp] xkbcomp/keymap.c CompileKeymap (XkmSemanticsFile, XkmLayoutFile) -->
## The “xkb_keycodes” section {#the-xkb_keycodes-section}
This is the simplest [section] type, and is the first one to be
compiled. The purpose of this is mostly to map between the
hardware/evdev scancodes and XKB [keycodes][keycode]. Each key is given a name
by which it can be referred to later, e.g. in the symbols section.
### Keycode statements
Statements of the form:
<TLDE> = 49;
<AE01> = 10;
The above would let 49 and 10 be valid keycodes in the keymap, and
assign them the names `TLDE` and `AE01` respectively. The format
`<WXYZ>` is always used to refer to a key by name.
The naming convention `<AE01>` is based on the
[standard ISO/IEC 9995-1][ISO9995-1]. It denotes the position of the
key in the keyboard grid. It means: the main alphanumeric section
(`A`), row `E` and column `01`.
The following figure illustrates the grid on a staggered standard
US QWERTY keyboard. `<AE01>` corresponds to the key `1`.
```
\ 99 \ 00 \ 01 \ 02 \ 03 \ 04 \ 05…
\ \ \ \ \ \ \
-----------------------------------------
E \ \ ^ \ 1 \ 2 \ 3 \ 4 \ 5…
------------------------------------------
D \ Tab \ Q \ W \ E \ R \ T…
-------------------------------------------
C \Caps \ A \ S \ D \ F \ G…
--------------------------------------------
B \Shift \ Z \ X \ C \ V \ B…
---------------------------------------------
A \Ctrl\GUI \Alt \Space…
----------------------------------------------
```
[ISO9995-1]: https://en.wikipedia.org/wiki/ISO/IEC_9995#ISO/IEC_9995-1
In the common case this just maps to the evdev scancodes from
`/usr/include/linux/input.h`, e.g. the following definitions:
#define KEY_GRAVE 41
#define KEY_1 2
correspond to the ones above. Similar definitions appear in the
xf86-input-keyboard driver. Note that in all current keymaps there’s a
constant offset of 8 (for historical reasons).
Note that contrary to xkbcommon, the X11 protocol supports keycodes
only up to `255`. Therefore, when interfacing with X11, keymaps and applications
using keycodes beyond `255` should expect warnings.
If there’s a conflict, like the same name given to different keycodes,
or same keycode given different names, it is resolved according to the
merge mode which applies to the definitions.
### Alias statements
Statements of the form:
alias <MENU> = <COMP>;
Allows to refer to a previously defined key (here `<COMP>`) by another
name (here `<MENU>`). Conflicts are handled similarly to keycode
statements.
### LED name statements {#indicator-name}
[indicator name]: @ref indicator-name
Statements of the form:
indicator 1 = "Caps Lock";
indicator 2 = "Num Lock";
indicator 3 = "Scroll Lock";
Assigns a name to the keyboard LED (AKA [indicator]) with the given
index. The LED may be referred by this name later in the compat
section and by the user.
## The “xkb_types” section {#the-xkb_types-section}
<!--
Ivan Pascal’s doc:
https://web.archive.org/web/20190724070654/http://pascal.tsu.ru/en/xkb/gram-types.html
-->
This [section] is the second to be processed, after `xkb_keycodes`.
However, it is completely independent and could have been the first to
be processed (it does not refer to specific keys as specified in the
`xkb_keycodes` section).
This section defines [key types], which, given a key and a keyboard
state (i.e. modifier state and group), determine the [shift level] to
be used in translating the key to [keysyms]. These types are assigned
to each group in each key, in the `xkb_symbols` section.
Key types are called this way because, in a way, they really describe
the “type” of the key (or more correctly, a specific group of the
key). For example, an ordinary keymap will provide a type called
`KEYPAD`, which consists of two levels, with the second level being
chosen according to the state of the Num Lock (or Shift) modifiers.
Another example is a type called `ONE_LEVEL`, which is usually
assigned to keys such as Escape; these have just one level and are not
affected by the modifier state. Yet more common examples are
[`TWO_LEVEL`][TWO_LEVEL] (with Shift choosing the second level),
[`ALPHABETIC`][ALPHABETIC] (where Caps Lock may also choose the second
level), etc.
### How key types work
Key types define a _mapping_ between the [modifiers] and [shift levels].
Key types have four parameters:
<dl>
<dt>@ref key-type-level-name "Shift level names"</dt>
<dd>Declare [shift levels]. Mainly for documentation.</dd>
<dt>@ref key-type-modifiers "Modifiers filter"</dt>
<dd>Declare what modifiers should be taken into account in the mapping.</dd>
<dt>@ref key-type-map "Modifiers mapping"</dt>
<dd>Lookup table to translate modifiers combinations into shift levels.</dd>
<dt>@ref key-type-preserve "Modifiers preservation"</dt>
<dd>Tweak the computation of [consumed modifiers].</dd>
</dl>
[consumed modifiers]: @ref consumed-modifiers
[shift levels]: @ref level-def
Key types are used to compute:
- the [shift level][]: see xkb_state::xkb_state_key_get_level().
- the [consumed modifiers][]: see xkb_state::xkb_state_key_get_consumed_mods() and
xkb_state::xkb_state_key_get_consumed_mods2().
The following diagram presents an overview of theses computations:
@anchor xkb-types-explanation-diagram
@dotfile xkb-types-explanation "Use of key types to compute shift level and consumed modifiers"
### Type definitions
Statements of the form:
type "FOUR_LEVEL" { ... }
The above would create a new type named [`FOUR_LEVEL`][FOUR_LEVEL].
The body of the definition may include statements of the following
forms:
#### “level_name” statements {#key-type-level-name}
level_name[Level1] = "Base";
Mandatory for each level in the type.
Gives each level in this type a descriptive name. It isn’t used
for anything.
Note: A level may be specified as Level\[1-8\] or just a number (can
be more than 8).
#### “modifiers” statement {#key-type-modifiers}
modifiers = Shift+Lock+LevelThree;
Mandatory, should be specified only once.
A mask of real and virtual [modifiers]. These are the only modifiers
being considered when matching the modifier state against the type.
The other modifiers, whether active or not, are masked out in the
calculation.
#### “map” entry statements {#key-type-map}
map[Shift+LevelThree] = Level4;
Should have at least as many mappings as there are levels in the type.
If the active modifiers, masked with the type’s modifiers (as stated
above), match (i.e. equal) the modifiers inside the `map[]` statement,
then the level in the right hand side is chosen. For example, in the
above, if in the current keyboard state the `Shift` and `LevelThree`
modifiers are active, while the `Lock` modifier is not, then the
keysym(s) in the 4th level of the group will be returned to the user.
#### “preserve” statements {#key-type-preserve}
map[Shift+Lock+LevelThree] = Level5;
preserve[Shift+Lock+LevelThree] = Lock;
When a key type is used for keysym translation, its modifiers are said
to be [consumed](@ref consumed-modifiers) in this translation. For
example, in a simple US keymap, the “G” key is assigned an ordinary
[`ALPHABETIC`][ALPHABETIC] key type, whose modifiers are `Shift` and
`Lock`; then for the “G” key, these two modifiers are consumed by the
translation. This information is relevant for applications which
further process the modifiers, since by then the consumed modifiers
have already “done their part” and should be masked out.
However, sometimes even if a modifier had already affected the key
translation through the type, it should *not* be reported as consumed,
for various reasons. In this case, a `preserve[]` statement can be
used to augment the map entry. The modifiers inside the square
brackets should match one of the `map[]` statements in the type (if
there is no matching map entry, one mapping to Level1 is implicitly
added). The right hand side should consists of modifiers from the
type’s modifiers; these modifiers are then “preserved” and not
reported as consumed.
@attention Consuming a *locked* modifier does *not* unlock it and it
can be consumed again in further keysym translations.
@note Remember that @ref keysym-transformations may affect the resulting
keysym when some modifiers are not [consumed](@ref consumed-modifiers).
@remark `preserve` statements may be used to tweak keyboard shorcuts.
@remark@figure
@figcaption
Example of use of `preserve` to tweak `Control` shortcuts. Note it would
require further work in order to support other modifiers.
@endfigcaption
```c
xkb_types {
// ...
type "TWO_LEVEL_PLUS_CONTROL" {
modifiers = Shift + Control;
map[None] = Level1;
map[Shift] = Level2;
map[Control] = Level3;
map[Control+Shift] = Level4;
// Using preserve will make Control not consumed and allow
// applications to detect keyboard shortcuts with alternative
// keysyms in levels 3 and 4 rather than the levels 1 and 2.
preserve[Control] = Control;
preserve[Control+Shift] = Control;
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "Tweaked Control";
level_name[Level4] = "Tweaked Control + Shift";
};
};
xkb_symbols {
// ...
// The following key would produce Greek keysym on Base and Shift levels,
// but will produce the corresponding ASCII Latin keysyms when using Control.
key <AC01> {
type[Group1]="TWO_LEVEL_PLUS_CONTROL",
[Greek_alpha, Greek_ALPHA, a, A]
};
};
```
@endfigure
### Key types examples {#key-type-examples}
#### Definitions examples
<!-- The following examples come from the [xkeyboard-config] project. -->
@note The convention is that `Lock` affect only “alphabetic” types.
For such types, `Lock` “cancels” `Shift` by default, i.e. `Shift+Lock`
has the same result as neither modifier. “<em>semi</em>-alphabetic”
types have an asymmetry: their first two levels are alphabetic while the
next are not.
##### Two levels
The following examples compare two basic types with *two levels*:
[`TWO_LEVEL`][TWO_LEVEL] and [`ALPHABETIC`][ALPHABETIC].
They differ on their handling of the `Lock` modifier. See the
[next section](@ref key-type-mappings-examples) for an illustration
with concrete layouts.
[TWO_LEVEL]: @ref TWO_LEVEL
[ALPHABETIC]: @ref ALPHABETIC
<!-- NOTE: In the following code excerpts, the empty comments are intented
to enable code alignment when scrren is large enough to display two
example on the same row. -->
<div class="example-container">
<div class="example">
<div class="example-inner">
<div class="example-title">`TWO_LEVEL` @anchor TWO_LEVEL</div>
@figure@figcaption
Definition code ([source][two-type-src])
@endfigcaption
```c
type "TWO_LEVEL" {
// Only care about Shift; Lock will be filter out
modifiers = Shift;
// Define mapping
map[None] = Level1; // No modifier -> level 1
map[Shift] = Level2; // Exactly Shift -> level 2
// (no map entry with Lock)
// Define level names
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
};
```
@endfigcaption
@figure@figcaption
Mapping test
@endfigcaption
| *Active* modifiers | *Filtered* modifiers | Match? | Shift level |
| ------------------ | -------------------- | ------ | ----------- |
| (none) | (none) | Yes | 1 |
| `Shift` | `Shift` | Yes | 2 |
| `Lock` | (none) | Yes | 1 |
| `Shift + Lock` | `Shift` | Yes | 2 |
@endfigcaption
</div>
</div>
<div class="example">
<div class="example-inner">
<div class="example-title">`ALPHABETIC` @anchor ALPHABETIC</div>
@figure@figcaption
Definition code ([source][alphabetic-type-src])
@endfigcaption
```c
type "ALPHABETIC" {
// Only care about Shift and Lock
modifiers = Shift + Lock;
// Define mapping
map[None] = Level1; // No modifier -> level 1
map[Shift] = Level2; // Exactly Shift -> level 2
map[Lock] = Level2; // Exactly Lock -> level 2
// Define level names
level_name[Level1] = "Base";
level_name[Level2] = "Caps";
};
```
@endfigcaption
@figure@figcaption
Mapping test
@endfigcaption
| *Active* modifiers | *Filtered* modifiers | Match? | Shift level |
| ------------------ | -------------------- | ------ | ----------- |
| (none) | (none) | Yes | 1 |
| `Shift` | `Shift` | Yes | 2 |
| `Lock` | `Lock` | Yes | 2 |
| `Shift + Lock` | `Shift + Lock` | No | 1 |
@endfigcaption
</div>
</div>
</div>
##### Four levels
The following examples compare basic types with *four levels*:
[`FOUR_LEVEL`][FOUR_LEVEL],
[`FOUR_LEVEL_SEMIALPHABETIC`][FOUR_LEVEL_SEMIALPHABETIC] and
[`FOUR_LEVEL_ALPHABETIC`][FOUR_LEVEL_ALPHABETIC].
They differ on their handling of the `Lock` modifier.
See the [next section](@ref key-type-mappings-examples)
for an illustration with concrete layouts.
[FOUR_LEVEL]: @ref FOUR_LEVEL
[FOUR_LEVEL_SEMIALPHABETIC]: @ref FOUR_LEVEL_SEMIALPHABETIC
[FOUR_LEVEL_ALPHABETIC]: @ref FOUR_LEVEL_ALPHABETIC
<div class="example-container">
<div class="example">
<div class="example-inner">
<div class="example-title">`FOUR_LEVEL` @anchor FOUR_LEVEL</div>
@figure@figcaption
Definition code ([source][four-level-src])
@endfigcaption
```c
type "FOUR_LEVEL" {
modifiers = Shift + LevelThree;
map[None] = Level1;
map[Shift] = Level2;
// (no map entry with Lock)
// (no map entry with Lock)
map[LevelThree] = Level3;
map[Shift+LevelThree] = Level4;
// (no map entry with Lock)
// (no map entry with Lock)
// (no preserve entry with Lock)
// (no preserve entry with Lock)
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "AltGr";
level_name[Level4] = "Shift AltGr";
};
```
@endfigcaption
@figure@figcaption
Mapping test
@endfigcaption
| *Active* modifiers | *Filtered* modifiers | Match? | Shift level |
| ----------------------- | -------------------- | ------ | ----------- |
| (none) | (none) | Yes | 1 |
| `Shift` | `Shift` | Yes | 2 |
| `Lock` | (none) | Yes | 1 |
| `Shift+Lock` | `Shift` | Yes | 2 |
| `LevelThree` | `LevelThree` | Yes | 3 |
| `LevelThree+Shift` | `LevelThree+Shift` | Yes | 4 |
| `LevelThree+Lock` | `LevelThree` | Yes | 3 |
| `LevelThree+Shift+Lock` | `LevelThree+Shift` | Yes | 4 |
@endfigcaption
</div>
</div>
<div class="example">
<div class="example-inner">
<div class="example-title">`FOUR_LEVEL_SEMIALPHABETIC` @anchor FOUR_LEVEL_SEMIALPHABETIC</div>
@figure@figcaption
Definition code ([source][four-level-semialphabetic-src])
@endfigcaption
```c
type "FOUR_LEVEL_SEMIALPHABETIC" {
modifiers = Shift + Lock + LevelThree;
map[None] = Level1;
map[Shift] = Level2;
map[Lock] = Level2;
map[Shift+Lock] = Level1;
map[LevelThree] = Level3;
map[Shift+LevelThree] = Level4;
map[Lock+LevelThree] = Level3;
map[Shift+Lock+LevelThree] = Level4;
preserve[Lock+LevelThree] = Lock;
preserve[Shift+Lock+LevelThree] = Lock;
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "AltGr";
level_name[Level4] = "Shift AltGr";
};
```
@endfigcaption
@figure@figcaption
Mapping test
@endfigcaption
| *Active* modifiers | *Filtered* modifiers | Match? | Shift level |
| ----------------------- | ----------------------- | ------ | ----------- |
| (none) | (none) | Yes | 1 |
| `Shift` | `Shift` | Yes | 2 |
| `Lock` | `Lock` | Yes | 2 |
| `Shift+Lock` | `Shift+Lock` | Yes | 1 |
| `LevelThree` | `LevelThree` | Yes | 3 |
| `LevelThree+Shift` | `LevelThree+Shift` | Yes | 4 |
| `LevelThree+Lock` | `LevelThree+Lock` | Yes | 3 |
| `LevelThree+Shift+Lock` | `LevelThree+Shift+Lock` | Yes | 4 |
@endfigcaption
</div>
</div>
<div class="example">
<div class="example-inner">
<div class="example-title">`FOUR_LEVEL_ALPHABETIC` @anchor FOUR_LEVEL_ALPHABETIC</div>
@figure@figcaption
Definition code ([source][four-level-alphabetic-src])
@endfigcaption
```c
type "FOUR_LEVEL_ALPHABETIC" {
modifiers = Shift + Lock + LevelThree;
map[None] = Level1;
map[Shift] = Level2;
map[Lock] = Level2;
map[Shift+Lock] = Level1;
map[LevelThree] = Level3;
map[Shift+LevelThree] = Level4;
map[Lock+LevelThree] = Level4;
map[Shift+Lock+LevelThree] = Level3;
// (no preserve entry with Lock)
// (no preserve entry with Lock)
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "AltGr";
level_name[Level4] = "Shift AltGr";
};
```
@endfigcaption
@figure@figcaption
Mapping test
@endfigcaption
| *Active* modifiers | *Filtered* modifiers | Match? | Shift level |
| ----------------------- | ----------------------- | ------ | ----------- |
| (none) | (none) | Yes | 1 |
| `Shift` | `Shift` | Yes | 2 |
| `Lock` | `Lock` | Yes | 2 |
| `Shift+Lock` | `Shift+Lock` | Yes | 1 |
| `LevelThree` | `LevelThree` | Yes | 3 |
| `LevelThree+Shift` | `LevelThree+Shift` | Yes | 4 |
| `LevelThree+Lock` | `LevelThree+Lock` | Yes | 4 |
| `LevelThree+Shift+Lock` | `LevelThree+Shift+Lock` | Yes | 3 |
@endfigcaption
</div>
</div>
</div>
[two-type-src]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/types/basic#L14
[alphabetic-type-src]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/types/basic#L21
[four-level-src]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/types/extra#L8
[four-level-alphabetic-src]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/types/extra#L20
[four-level-semialphabetic-src]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/types/extra#L36
#### Examples with standard keyboard layouts {#key-type-mappings-examples}
<details>
<summary>See the detailed table of mappings</summary>
The following table compares the mappings of various key types for the modifiers
`Shift`, `Lock` and `LevelThree`, using the standard layouts [`us`][us-layout]
(US English) and [`es`][es-layout] (Spanish).
[us-layout]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/symbols/us#L3
[es-layout]: https://gitlab.freedesktop.org/xkeyboard-config/xkeyboard-config/-/blob/022c3ca1db12e505cbd5ce8bf19c432d6a70c7e5/symbols/es#L3
| Key | Layout | Key type | Active modifiers | Level | Keysym | Comment |
| ------ | ------ | ------------------------------- | ------------------------------- | ----- | ------------ | ----------- |
| `AE01` | [`us`][us-layout] | [`TWO_LEVEL`][TWO_LEVEL] | (none) | 1 | `1` | |
| ^ | ^ | ^ | `Shift` | 2 | `exclam` | |
| ^ | ^ | ^ | `Lock` | 1 | `1` | `Lock` filtered out |
| ^ | ^ | ^ | `Shift` + `Lock` | 2 | `exclam` | `Lock` filtered out |
| ^ | ^ | ^ | `LevelThree` | 1 | `1` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 2 | `exclam` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 1 | `1` | Modifiers `LevelThree` and `Lock` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 2 | `exclam` | Modifiers `LevelThree` and `Lock` filtered out |
| ^ | [`es`][es-layout] | [`FOUR_LEVEL`][FOUR_LEVEL] | (none) | 1 | `1` | |
| ^ | ^ | ^ | `Shift` | 2 | `exclam` | |
| ^ | ^ | ^ | `Lock` | 1 | `1` | `Lock` filtered out |
| ^ | ^ | ^ | `Shift` + `Lock` | 2 | `exclam` | `Lock` filtered out |
| ^ | ^ | ^ | `LevelThree` | 3 | `bar` | |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 4 | `exclamdown` | |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 3 | `bar` | `Lock` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 4 | `exclamdown` | `Lock` filtered out |
| `AD01` | [`us`][us-layout] | [`ALPHABETIC`][ALPHABETIC] | (none) | 1 | `q` | |
| ^ | ^ | ^ | `Shift` | 2 | `Q` | |
| ^ | ^ | ^ | `Lock` | 2 | `Q` | |
| ^ | ^ | ^ | `Shift` + `Lock` | 1 | `q` | `Lock` cancelled by `Shift` |
| ^ | ^ | ^ | `LevelThree` | 1 | `q` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 1 | `q` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 2 | `Q` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 1 | `q` | `LevelThree` filtered out, `Lock` cancelled by `Shift` |
| ^ | [`es`][es-layout] | [`FOUR_LEVEL_SEMIALPHABETIC`][FOUR_LEVEL_SEMIALPHABETIC] | (none) | 1 | `q` | |
| ^ | ^ | ^ | `Shift` | 2 | `Q` | |
| ^ | ^ | ^ | `Lock` | 2 | `Q` | |
| ^ | ^ | ^ | `Shift` + `Lock` | 1 | `q` | `Lock` cancelled by `Shift` |
| ^ | ^ | ^ | `LevelThree` | 3 | `at` | |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 4 | `Greek_OMEGA`| |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 3 | `at` | `Lock` does not affect `LevelThree` combos |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 4 | `Greek_OMEGA`| `Lock` does not affect `LevelThree` combos |
| `AD05` | [`us`][us-layout] | [`ALPHABETIC`][ALPHABETIC] | (none) | 1 | `t` | |
| ^ | ^ | ^ | `Shift` | 2 | `T` | |
| ^ | ^ | ^ | `Lock` | 2 | `T` | |
| ^ | ^ | ^ | `Shift` + `Lock` | 1 | `t` | `Lock` cancelled by `Shift` |
| ^ | ^ | ^ | `LevelThree` | 1 | `t` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 1 | `t` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 2 | `T` | `LevelThree` filtered out |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 1 | `t` | `LevelThree` filtered out, `Lock` cancelled by `Shift` |
| ^ | [`es`][es-layout] | [`FOUR_LEVEL_ALPHABETIC`][FOUR_LEVEL_ALPHABETIC] | (none) | 1 | `t` | |
| ^ | ^ | ^ | `Shift` | 2 | `T` | |
| ^ | ^ | ^ | `Lock` | 2 | `T` | |
| ^ | ^ | ^ | `Shift` + `Lock` | 1 | `t` | `Lock` cancelled by `Shift` |
| ^ | ^ | ^ | `LevelThree` | 3 | `tslash` | |
| ^ | ^ | ^ | `LevelThree` + `Shift` | 4 | `Tslash` | |
| ^ | ^ | ^ | `LevelThree` + `Lock` | 4 | `Tslash` | |
| ^ | ^ | ^ | `LevelThree` + `Shift` + `Lock` | 3 | `tslash` | `Lock` cancelled by `Shift` |
</details>
## The “xkb_compat” section {#the-xkb_compat-section}
This [section] is the third to be processed, after `xkb_keycodes` and
`xkb_types`.
### Interpret statements {#interpret-statements}
Statements of the form:
interpret Num_Lock+Any { ... }
interpret Shift_Lock+AnyOf(Shift+Lock) { ... }
The <code>[xkb_symbols]</code> section (see below)
allows the keymap author to perform, among other things, the following
things for each key:
- Bind an [action], like `SetMods` or `LockGroup`, to the key.
Actions, like symbols, are specified for each level of each group
in the key separately.
- Add a [virtual modifier] to the key’s virtual modifier mapping
(`vmodmap`).
- Specify whether the key should repeat or not.
However, doing this for each key (or level) is tedious and inflexible.
Interpret’s are a mechanism to apply these settings to a bunch of
keys/levels at once.
@anchor interpret-mechanism
Each interpret specifies a condition by which it attaches to certain
levels. The condition consists of two parts:
- A <strong>[keysym]</strong>. If the level has a different (or more than one)
keysym, the match fails. Leaving out the keysym is equivalent to using the
special value `Any` or the `NoSymbol` keysym, which always matches
successfully.
- A <strong>[modifier] predicate</strong>. The predicate consists of:
- A __mask__ of _real_ modifiers: a `+`-separated list of modifiers or
the special value `all`, which denotes all the modifiers.
The modifiers are matched against the key’s modifier map (`modmap`).
- A __matching operation__, that is one of the following:
* `AnyOfOrNone` – The modmap must either be empty or include at
least one of the specified modifiers.
* `AnyOf` – The modmap must include at least one of the specified
modifiers.
* `Any` – Alias for `AnyOf(all)`.
* `NoneOf` – The modmap must not include any of the specified
modifiers.
* `AllOf` – The modmap must include all of the specified modifiers
(but may include others as well).
* `Exactly` – The modmap must be exactly the same as the specified
modifiers.
Leaving out the predicate is equivalent to using `AnyOfOrNone(all)`.
Leaving out just the matching condition is equivalent to using
`Exactly`.
An interpret may also include `useModMapMods = level1;` – see below.
If a [level] fulfils the conditions of several interprets, only the
most specific one is used:
- A specific keysym will always match before a generic `NoSymbol`
condition.
- If the keysyms are the same, the interpret with the more specific
matching operation is used. The above list is sorted from least to
most specific.
- If both the keysyms and the matching operations are the same (but the
modifiers are different), the first interpret is used.
As described above, once an interpret “attaches” to a level, it can bind
an action to that level, add one virtual modifier to the key’s vmodmap,
or set the key’s repeat setting. You should note the following:
- The key repeat is a property of the entire key; it is not
level-specific. In order to avoid confusion, it is only inspected
for the first level of the first group; the interpret’s repeat
setting is ignored when applied to other levels.
- If one of the above fields was set directly for a key in
`xkb_symbols`, the explicit setting takes precedence over the
interpret.
The body of the statement may include statements of the following
forms (all of which are optional):
#### “useModMapMods” statement
useModMapMods = level1;
When set to `level1`, the interpret will only match keysyms which are
on the first level of the first group of the keys. This can be useful
in conjunction with e.g. a `virtualModifier` statement, because
`virtualModifier` is an attribute of the key rather than a specific
level.
Note: the other possible value is `any` and is the default value.
#### “action” statement {#interpret-action}
action = LockMods(modifiers=NumLock);
Bind this action to the matching levels. See [key actions][actions]
for the list of available key actions.
#### “virtualModifier” statement {#interpret-virtualModifier}
virtualModifier = NumLock;
Add this virtual modifier to the key’s `vmodmap`. The given virtual
modifier must be declared at the top level of the file with a
`virtual_modifiers` statement, e.g.:
virtual_modifiers NumLock;
#### “repeat” statement {#interpret-repeat}
repeat = True;
Set whether the key should repeat or not. Must be a boolean value.
### LED map statements {#indicator-effect}
[indicator effect]: @ref indicator-effect
Statements of the form:
indicator "Shift Lock" { ... }
This statement specifies the behavior and binding of the LED (AKA
[indicator]) with the given name (“Shift Lock” above). The name should
have been declared previously in the `xkb_keycodes` section (see
[LED name][indicator name] statement), and given an index there.
If it wasn’t, it is created with the next free index.
The body of the statement describes the conditions of the keyboard
state which will cause the LED to be lit. It may include the following
statements:
#### “modifiers” statement
modifiers = ScrollLock;
If the given [modifiers] are in the required state (see below), the
LED is lit.
#### “whichModState” statement
whichModState = Latched+Locked;
Can be any combination of:
* `base`, `latched`, `locked`, `effective`
* `any` (i.e. all of the above)
* `none` (i.e. none of the above)
* `compat` (legacy value, treated as effective)
This will cause the respective portion of the modifier state (see
`struct xkb_state`) to be matched against the modifiers given in the
`modifiers` statement.
Here’s a simple example:
indicator "Num Lock" {
modifiers = NumLock;
whichModState = Locked;
};
Whenever the NumLock modifier is locked, the Num Lock LED will light
up.
#### “groups” statement
groups = All - group1;
If the given groups are in the required state (see below), the LED is
lit.
#### “whichGroupState” statement
whichGroupState = Effective;
Can be any combination of:
* `base`, `latched`, `locked`, `effective`
* `any` (i.e. all of the above)
* `none` (i.e. none of the above)
This will cause the respective portion of the group state (see
`struct xkb_state`) to be matched against the groups given in the
`groups` statement.
Note: the above conditions are disjunctive, i.e. if any of them are
satisfied the LED is lit.
### Default values
@todo e.g. `setMods.clearLocks= True;`
## The “xkb_symbols” section {#the-xkb_symbols-section}
<!--
Ivan Pascal’s doc:
https://web.archive.org/web/20190723233834/http://pascal.tsu.ru/en/xkb/gram-symbols.html
-->
<!-- TODO complete this section -->
This [section] is the fourth to be processed, after `xkb_keycodes`,
`xkb_types` and `xkb_compat`.
Statements of the form:
xkb_symbols "basic" {
...
}
Declare a symbols map named `basic`. Statements inside the curly braces only
affect the symbols map.
A map can have various flags applied to it above the statement, separated by
whitespace:
partial alphanumeric_keys
xkb_symbols "basic" {
...
}
The possible flags are:
* `partial` - Indicates that the map doesn’t cover a complete keyboard.
* `default` - Marks the symbol map as the default map in the file when no
explicit map is specified. If no map is marked as a default, the first map
in the file is the default.
* `hidden` - Variant that can only be used internally
* `alphanumeric_keys` - Indicates that the map contains alphanumeric keys
* `modifier_keys` - Indicates that the map contains modifier keys
* `keypad_keys` - Indicates that the map contains keypad keys
* `function_keys` - Indicates that the map contains function keys
* `alternate_group` - Indicates that the map contains keys for an alternate
group
If no `*_keys` flags are supplied, then the map is assumed to cover a complete
keyboard.
At present, except for `default`, none of the flags affect key processing in
libxkbcommon, and only serve as metadata.
### Name statements
Statements of the form:
name[Group1] = "US/ASCII";
groupName[1] = "US/ASCII";
Gives the name “US/ASCII” to the first group of symbols. Other groups can be
named using a different group index (ex: `Group2`), and with a different name.
A group must be named.
`group` and `groupName` mean the same thing, and the `Group` in `Group1` is
optional.
### Include statements
Statements of the form:
include "nokia_vndr/rx-51(nordic_base)"
Will include data from another `xkb_symbols` section, possibly located in
another file. Here it would include the `xkb_symbols` section called
`nordic_base`, from the file `rx-51` located in the `nokia_vndr` folder, itself
located in an XKB include path.
@anchor merge-mode-def
One can use a **merge mode** *prefix* to specify the merge mode of the file:
- ‘+’ selects the **override** merge mode.
- ‘|’ selects the **augment** merge mode.
@todo dedicated section for merge mode
### Key statement {#key-statement}
Statements of the form:
key <AD01> { ... };
defines the *key description* of the [keycode] `<AD01>` and is the main type
of record of the `xkb_symbols` section. The possible keycodes are defined in the
[`xkb_keycodes`](@ref the-xkb_keycodes-section) section.
A key description consists of:
<dl>
<dt>Groups</dt>
<dd>
Each key may have one or more associated [groups]. Each group can be
configured with the following parameters:
- @ref key-type-setting "Type"</dt>
- @ref key-symbols-table "Symbols"</dt>
- @ref key-actions-table "Actions"</dt>
</dd>
<dt>Additional attributes</dt>
<dd>
These attributes are usually set via the <code>[xkb_compat]</code>
section, but may be also set directly:
- @ref key-virtual-modifiers "Virtual modifiers"
- @ref key-repeat "Repeat"
</dd>
</dl>
@warning Using multiple groups in *symbols* files is not recommended, because
some tools rely on the assumption that an `xkb_symbols` section only affect a
single group. It is fine with a *keymap* file though.
@note In what follows we assume the common use case with a *single* group, which
benefits from a special syntax. See the section @ref key-groups "Multiple groups"
for the general syntax.
[groups]: @ref layout-def
#### Symbols {#key-symbols-table}
The main part of the key description is the *symbols table*. It maps shift levels
to keysyms, e.g.:
```c
key <AD01> { [ q, Q ] }; // Level 1 → `q`, Level 2 → `Q`
```
Symbols are named using the symbolic names from the
`xkbcommon/xkbcommon-keysyms.h` file. A group of symbols is enclosed in brackets
and separated by commas. Each element of the symbol arrays corresponds to a
different [shift level]. In this example, the symbol (keysym) `XKB_KEY_q` for
level 1 and `XKB_KEY_Q` for level 2. These levels are configured by the
@ref key-type-setting "key type", presented in the next section.
@remark Remember that @ref keysym-transformations may affect the resulting
keysym when some modifiers are not [consumed](@ref consumed-modifiers).
As an extension to the XKB legacy format, libxkbcommon supports multiple key
symbols and actions per level (the latter since version 1.8.0):
key <AD01> { [ {a, b}, Q ] };
In this example, the keycode `<AD01>` produces two symbols on level 1
(`XKB_KEY_a` and `XKB_KEY_b`) and one symbol (`XKB_KEY_Q`) on level 2.
When no actions are explicitly given, they are automatically filled
thanks to [interpretations] from the [compat section][xkb_compat].
In the following example,
key <LCTL> { [ { Control_L, ISO_Group_Shift } ] };
is equivalent to (given standard definitions from `xkeyboard-config`):
key <LCTL> {
symbols[1] = [ { Control_L, ISO_Group_Shift } ],
actions[1] = [ { SetMods(modifiers=Control), SetGroup(group=+1) } ]
};
When using this example with e.g. two layouts `fr,us` (respectively Azerty and
Qwerty layouts), typing `Control + A` in the first layout `fr` will in fact
result in `Control + Q`, because the actions are run sequentially: first set the
base modifiers to Control, then switch to the second layout while `Control` is
pressed.
@remark
Given a level, keysyms and actions may have a *different count*. For instance,
the following would achieve the same effect than the former example with only
1 keysym, but it requires to use 2 explicit actions:
```c
key <LCTL> {
symbols[1] = [ Control_L ],
actions[1] = [ { SetMods(modifiers=Control), SetGroup(group=+1) } ]
};
```
@note
There are some *limitations* with this extension:
- For now, *at most one* action of each following categories is allowed per
level:
- [modifier actions][]: `SetMods`, `LatchMods`, `LockMods`;
- [group actions][]: `SetGroup`, `LatchGroup`, `LockGroup`.
Some examples of actions combination:
- `SetMods` + `SetGroup`: ok
- `SetMods` + `SetMods`: *error*
- `SetMods` + `LockMods`: *error*
- `SetMods` + `LockGroup`: ok
- Multiple actions are only supported from version 1.8.0.
- Since 1.8.0, `NoSymbol` and `NoAction` are dropped in order to normalize levels:
```c
// Before normalization
key <> { [{NoSymbol}, {a, NoSymbol}, {NoSymbol,b}, {a, NoSymbol, b}] };
// After normalization
key <> { [NoSymbol, a, b, {a, b}] };
```
@warning Keymaps containing multiple key symbols per level are not supported
by the various X11-related tools (`setxkbmap`, `xkbcomp`, etc.).
[symbols table]: @ref key-symbols-table
#### Type {#key-type-setting}
Each key has a [key type] set per group. This key type is defined in the
<code>[xkb_types]</code> section. Its associated [shift levels] are used to
index the [symbols table] presented in the previous section.
A key type is set using the following syntax:
<!-- TODO: it also works without the group index -->
```c
key <AD01> {
type[Group1] = "TWO_LEVEL", // Type
[q, Q] // Symbols
};
```
The name of the key type is enclosed between double quotes.
The key type may be omitted and will default to:
- `key.type` global defaults, if set.
- a standard type using the following **heuristic**:
<!-- See: xkbcomp/symbols.c (FindAutomaticType) -->
- **1** keysym: `ONE_LEVEL`
- **2** keysyms:
- if the two keysyms are letter and the first is lower case and the other
upper case, then [`ALPHABETIC`][ALPHABETIC];
- if one of the keysyms is numpad, then `KEYPAD` else [`TWO_LEVEL`][TWO_LEVEL].
- **3 or 4** keysyms (a missing 4th keysym is set to `NoSymbol`):
- if the first two keysyms are letters and the first is lower case and the
other upper case:
- if the last two keysyms are letters and the first is lower case and the
other upper case then [`FOUR_LEVEL_ALPHABETIC`][FOUR_LEVEL_ALPHABETIC];
- else [`FOUR_LEVEL_SEMIALPHABETIC`][FOUR_LEVEL_SEMIALPHABETIC].
- if one of the first two keysyms is numpad, then `FOUR_LEVEL_KEYPAD`;
- else [`FOUR_LEVEL`][FOUR_LEVEL].
@figure@figcaption
Commented examples for inferred types:
@endfigcaption
```c
// 1 to 2 keysyms
key <LFSH> { [Shift_L] }; // Type: ONE_LEVEL
key <AE01> { [1, exclam] }; // Type: TWO_LEVEL
key <AD01> { [q, Q] }; // Type: ALPHABETIC
key <KP1> { [KP_End, KP_1] }; // Type: KEYPAD
// Edge case: this is consider alphabetic, although
// the lower case does not correspond to the upper case.
key <AD01> { [q, N] }; // Type: ALPHABETIC
// 3 to 4 keysyms
key <AE01> { [1, exclam, bar] }; // Type: FOUR_LEVEL
key <AE01> { [1, exclam, bar, exclamdown] }; // Type: FOUR_LEVEL
key <AD01> { [q, Q, at] }; // Type: FOUR_LEVEL_SEMIALPHABETIC
key <AD01> { [q, Q, at, Greek_OMEGA] }; // Type: FOUR_LEVEL_SEMIALPHABETIC
key <AD05> { [t, T, tslash, Tslash] }; // Type: FOUR_LEVEL_ALPHABETIC
// The inferred type is `FOUR_LEVEL`, but using `LevelThree+Lock`
// will produce `Q`, because of the keysyms transformations and
// the corresponding internal capitalization processing.
key <AE01> { [1, exclam, q, Q] }; // Type: FOUR_LEVEL
// Won’t work, because there is no heuristic for more than 4 keysyms
// It will trigger the warnings XKB-183 and XKB-516 and default to ONE_LEVEL,
// ignoring all the keysyms but the first one.
key <AD01> {[q, Q, at, any, masculine, U2642]};
// Will work as expected
key <AD01> {
type[Group1] = "EIGHT_LEVEL_SEMIALPHABETIC",
[q, Q, at, any, masculine, U2642]
};
```
@endfigure
#### Actions {#key-actions-table}
@note This is usually not set explicitly but via the
<em>[interpret mechanism]</em> by using the
[`action`](@ref interpret-action) statement in the
<code>[xkb_compat]</code> section.
@figure@figcaption
Example: Set the modifier action of the key `<LALT>` manually.
@endfigcaption
```c
key <LALT> {
symbols[Group1]=[Alt_L],
actions[Group1]=[SetMods(modifiers=modMapMods)]
};
```
@endfigure
For further details see [key actions][actions].
#### Multiple groups {#key-groups}
Each group represents a list of symbols mapped to a keycode:
name[Group1]= "US/ASCII";
name[Group2]= "Russian";
...
key <AD01> { [ q, Q ],
[ Cyrillic_shorti, Cyrillic_SHORTI ] };
A long-form syntax can also be used:
key <AD01> {
symbols[Group1]= [ q, Q ],
symbols[Group2]= [ Cyrillic_shorti, Cyrillic_SHORTI ]
};
Groups can also be omitted, but the brackets must be present. The following
statement only defines the Group3 of a mapping:
key <AD01> { [], [], [ q, Q ] };
@warning Using multiple groups in *symbols* files is not recommended, because
some tools rely on the assumption that an `xkb_symbols` section only affect a
single group. It is fine with a *keymap* file though.
#### Virtual modifiers {#key-virtual-modifiers}
@note This is usually not set explicitly but via the
<em>[interpret mechanism]</em> by using the
[`virtualModifier`](@ref interpret-virtualModifier) statement from the
<code>[xkb_compat]</code> section.
@remarks When setting a [modifier action](@ref modifiers-actions), it is required
to declare the corresponding virtual modifier using a
[`virtual_modifiers`](@ref virtual-modifier-statements) statement.
@figure@figcaption
Example: Set the virtual modifier of the key `<LALT>` to `Alt`.
@endfigcaption
```c
// Declare the virtual modifier that will be used
virtual_modifiers Alt;
key <LALT> {
virtualModifiers = Alt,
[ Alt_L ]
};
```
@endfigure
[interpret mechanism]: @ref interpret-mechanism
#### Repeat {#key-repeat}
@note This is usually not set explicitly but via the
<em>[interpret mechanism]</em> by using the
[`repeat`](@ref interpret-repeat) statement in the
<code>[xkb_compat]</code> section.
@figure@figcaption
Example: make the `<LALT>` key not repeating.
@endfigcaption
```c
key <LALT> {
repeat = False,
[ Alt_L ]
};
```
@endfigure
## Virtual modifier statements {#virtual-modifier-statements}
<!-- TODO: rework this section -->
Statements of the form:
virtual_modifiers LControl;
Can appear in the `xkb_types`, `xkb_compat`, `xkb_symbols` sections.
## Modifiers bindings {#modifiers-bindings}
### Real and virtual modifiers
Modifiers are a particularly tricky part of XKB. For historical reasons they are
divided in two categories: [real modifiers] and [virtual modifiers].
Note that in X11, the maximum of virtual modifiers is 16
(see `XkbNumVirtualMods`).
The following table summarizes the modifiers defined
in <code>[xkeyboard-config]</code> (this is subject to change).
| Modifier | Type | Compat files | Associated keysyms |
|--------------|---------|------------------|-----------------------------------------------------------|
| `Shift` | Real | `compat/basic` | `Shift_L`, `Shift_R` |
| ″ | ″ | `compat/iso9995` | `Shift_L`, `Shift_R`, `ISO_Level2_Latch` |
| `Lock` | Real | `compat/basic`, | `Caps_Lock` |
| ″ | ″ | `compat/caps` | ″ |
| `Control` | Real | `compat/basic` | `Control_L`, `Control_R` |
| `Alt` | Virtual | `compat/misc`, | `Alt_L`, `Alt_R` |
| ″ | ″ | `compat/pc` | ″ |
| `Meta` | Virtual | `compat/misc` | `Meta_L`, `Meta_R` |
| `Super` | Virtual | `compat/misc` | `Super_L`, `Super_R` |
| `Hyper` | Virtual | `compat/misc` | `Hyper_L`, `Hyper_R` |
| `ScrollLock` | Virtual | `compat/misc` | `Scroll_Lock` |
| `NumLock` | Virtual | `compat/basic`, | `Num_Lock`, |
| ″ | ″ | `compat/level5` | (`ISO_Level5_Lock`) |
| `LevelThree` | Virtual | `compat/iso9995` | `ISO_Level3_Shift`, `ISO_Level3_Latch`, `ISO_Level3_Lock` |
| `LevelFive` | Virtual | `compat/level5` | `ISO_Level5_Shift`, `ISO_Level5_Latch`, `ISO_Level5_Lock` |
| `Kana_Lock` | Virtual | `compat/japan` | `Kana_Lock` |
| `Square` | Virtual | `compat/olpc` | `KP_Home` |
| `Cross` | Virtual | `compat/olpc` | `KP_Next` |
| `Circle` | Virtual | `compat/olpc` | `KP_End` |
| `Triangle` | Virtual | `compat/olpc` | `KP_Prior` |
### Define and use a modifier
We will use the example of the _real_ modifier `Shift` and the virtual
modifier `LevelThree` in `xkeyboard-config`.
In order to define and use a modifier, one must:
1. Define its behavior and [keysym] binding in the
<code>[xkb_compat]</code> section:
```c
// Declare virtual modifiers. Shift being real modifier,
// we do not need to add it here.
virtual_modifiers LevelThree;
// Set defaults. They are overridden if set directly in the xkb_symbols.
interpret.repeat= False; // only applied on first level
setMods.clearLocks= True;
latchMods.clearLocks= True;
latchMods.latchToLock= True;
// Default statement for real modifiers: any key bound to a real
// modifier via modifier_map will set this modifier at all its
// levels.
// Here only to illustrate: do not add it!
interpret Any + Any {
action= SetMods(modifiers=modMapMods);
};
// Shift being real modifier, we do not need a corresponding
// interpret statement because the previous one suffices.
// Let’s associate LevelThree to the keysym ISO_Level3_Shift
// First, match the keys and their levels with the
// ISO_Level3_Shift keysym and with any real modifier
// (Any = AnyOf(all)) in its modmap.
interpret ISO_Level3_Shift+Any {
// Only match the first level of the first group
useModMapMods= level1;
// Add the virtual modifier to the key’s vmodmap
virtualModifier= LevelThree;
// Activate the LevelThree modifier (depressed mode)
action= SetMods(modifiers=LevelThree);
};
// Then for keys and their levels with the
// ISO_Level3_Shift keysym but with either no real modifier
// in its modmap or a level higher than 1.
// Indeed:
// • In case the level is higher than 1 there is no match
// in the previous statement.
// • The condition is equivalent to
// ISO_Level3_Shift+AnyOfOrNone(all), but since
// the previous statement ISO_Level3_Shift+Any is more
// specific, it will be matched before this one.
interpret ISO_Level3_Shift {
// Activate the LevelThree modifier (depressed mode)
action= SetMods(modifiers=LevelThree);
};
```
2. Define [key types] that use it in the
<code>[xkb_types]</code> section:
```c
// Declare virtual modifiers. Shift being real modifier,
// we do not need to add it here.
virtual_modifiers LevelThree;
type "FOUR_LEVEL" {
// Key type modifier mask: all the modifiers used in the key type
modifiers = Shift + LevelThree;
map[None] = Level1;
map[Shift] = Level2;
map[LevelThree] = Level3;
map[Shift+LevelThree] = Level4;
level_name[Level1] = "Base";
level_name[Level2] = "Shift";
level_name[Level3] = "AltGr";
level_name[Level4] = "Shift AltGr";
};
```
3. Bind it to a [keycode] in the
<code>[xkb_symbols]</code> section:
1. Map [keysyms] used in the `xkb_compat` section hereinabove.
2. Bind [real modifiers] to keys using these keysyms with
`modifier_map`.
_Note:_ Only one key binding to real modifier is required.
The corresponding keysym must then be on the first level of
the first Group.
_Note:_ One can optionally bind directly a virtual modifier to a
key using `virtualmodifiers` instead of doing it in the
`xkb_compat` section. But the recommended way is to use the
`xkb_compat` section.
```c
// Shift: defined in pc symbols
key <LFSH> {[ Shift_L ]};
key <RTSH> {[ Shift_R ]};
modifier_map Shift { Shift_L, Shift_R };
// The previous will resolve to:
// modifier_map Shift { <LFSH>, <RTSH> };
// Thus the real modifier Shift is added to the modmap of
// <LFSH> and <RTSH>.
// The “Any + Any” interpret statement matches <LFSH> and <RTSH>,
// therefore these keys set the Shift modifier.
// LevelThree: defined in pc symbols
// With the following 2 lines:
// 1. The modifier keysym is on the first level of the first group.
// 2. The real modifier Mod5 is bound to <LVL3>,
// i.e. Mod5 is added to its modmap.
// 3. It matches the interpret statement “ISO_Level3_Shift+Any”,
// which adds the LevelThree modifier to the vmodmap of <LVL3>.
// 4. The mapping of LevelThree to real modifiers is the union
// of modmaps with corresponding vmodmaps containing
// LevelThree. In our case there is only one: therefore
// LevelThree maps to Mod5.
key <LVL3> {[ ISO_Level3_Shift ]};
modifier_map Mod5 { <LVL3> };
// LevelThree: defined in level3 symbols
// Not bound to a real modifier, so interpret statement
// “ISO_Level3_Shift” applies.
key <RALT> {[ISO_Level3_Shift], type[group1]="ONE_LEVEL" };
// Note: we could have the following line, but it is not necessary
// because we have the mappings of <LVL3>.
// modifier_map Mod5 { <RALT> };
// Warning: if we had the for example the following line, the
// mapping of LevelThree to real modifiers would be “Mod1+Mod5”.
// modifier_map Mod1 { <RALT> };
// Alternative definitions, without using interpret statements
virtual_modifiers LevelThree;
key <LVL3> { virtualmodifiers=LevelThree
, repeats=False
, symbols[Group1] = [ISO_Level3_Shift]
, actions[Group1] = [SetMods(modifiers=LevelThree)] };
modifier_map Mod5 { <LVL3> };
key <RALT> { repeat=False
, symbols[Group1] = [ISO_Level3_Shift]
, actions[Group1] = [SetMods(modifiers=LevelThree)]
, type[group1]="ONE_LEVEL" };
// FOUR_LEVEL key type example from latin symbols
key <AB05> {[b, B, leftdoublequotemark, leftsinglequotemark]};
```
## Key actions {#key-actions}
@todo list of all actions and their parameters
The following table provide an overview of the available actions:
| Category | Action | Alias | Description |
|----------|---------------------|------------------|------------------------------------|
| | `NoAction` | | Do nothing. |
| [Modifier action] | `SetMods` | | Modifies the _depressed_ modifiers |
| ^ | `LatchMods` | | Modifies the _latched_ modifiers |
| ^ | `LockMods` | | Modifies the _locked_ modifiers |
| [Group action] | `SetGroup` | | <span class="todo">TODO</span> |
| ^ | `LatchGroup` | | <span class="todo">TODO</span> |
| ^ | `LockGroup` | | <span class="todo">TODO</span> |
| [Legacy action] | `MovePointer` | `MovePtr` | <span class="todo">TODO</span> |
| ^ | `PointerButton` | `PtrBtn` | <span class="todo">TODO</span> |
| ^ | `LockPointerButton` | `LockPtrBtn` | <span class="todo">TODO</span> |
| ^ | `SetPointerDefault` | `SetPtrDflt` | <span class="todo">TODO</span> |
| ^ | `SetControls` | | <span class="todo">TODO</span> |
| ^ | `LockControls` | | <span class="todo">TODO</span> |
| ^ | `TerminateServer` | `Terminate` | <span class="todo">TODO</span> |
| ^ | `SwitchScreen` | | <span class="todo">TODO</span> |
| ^ | `Private` | | <span class="todo">TODO</span> |
Common syntax:
- Boolean values:
- `true`, `yes`, `on`
- `false`, `no`, `off`
### Modifiers actions {#modifiers-actions}
[modifier action]: @ref modifiers-actions
[modifier actions]: @ref modifiers-actions
@todo default values
There are 3 modifiers actions:
<dl>
<dt>`SetMods`</dt>
<dd>
Modifies the _depressed_ modifiers.
Parameters:
- `modifiers` or `mods`: the list of modifiers to modify,
separated by `+`, or the special value `modMapMods`. The latter
means the parameter value has to be read from the `vmodmap`
attribute of the key.
- `clearLocks`: boolean (see its use hereinafter).
</dd>
<dt>`LatchMods`</dt>
<dd>
Modifies the _latched_ modifiers
Parameters:
- `modifiers` or `mods`: see `SetMods`.
- `clearLocks`: boolean (see its use hereinafter).
- `latchToLock`: boolean (see its use hereinafter).
</dd>
<dt>`LockMods`</dt>
<dd>
Modifies the _locked_ modifiers.
Parameters:
- `modifiers` or `mods`: see `SetMods`.
- `affect`:
- `lock`: the action only locks the modifier, but cannot unlock it.
- `unlock`: the action only unlocks modifier, but cannot lock it.
- `both`: the first key press locks the modifier and the second key
press releases the modifier. It is a default mode.
- `neither`: do not lock nor unlock, i.e. do nothing.
</dd>
</dl>
@todo highlight that there is reference counting for
the modifiers, e.g. to manage multiple physical keys for the same modifier.
These actions perform different tasks on key press and on key release:
<table>
<caption>
Effects of modifiers actions
</caption>
<!-- <thead> -->
<tr>
<th>Action</th>
<th>On key press</th>
<th>On key release</th>
</tr>
<!-- </thead> -->
<!-- <tbody> -->
<tr>
<th><code>SetMods</code></th>
<td>
<ul>
<li>Adds modifiers to <em>depressed</em> modifiers</li>
</ul>
</td>
<td>
<ul>
<li>
Removes modifiers from <em>depressed</em> modifiers,
provided that no other key which affects the same
modifiers is logically down.
</li>
<li>
If <code>clearLocks=yes</code> and no other key
were operated simultaneously with this key,
then the modifiers will be removed as well from
the <em>locked</em> modifiers.
</li>
</ul>
</td>
</tr>
<tr>
<th><code>LatchMods</code></th>
<td>
<ul>
<li>Adds modifiers to <em>latched</em> modifiers.</li>
</ul>
</td>
<td>
<ul>
<li>Removes modifiers from <em>latched</em> modifiers.</li>
<li>
If <code>clearLocks=yes</code> and no other key
has been pressed since this key press, then the
modifiers will be removed as well from the
<em>locked</em> modifiers.
</li>
<li>
If <code>latchToLock=yes</code> then the modifiers
are added to the <em>locked</em> modifiers.
</li>
</ul>
</td>
</tr>
<tr>
<th>
<code>LockMods</code>
</th>
<td>
<ul>
<li>Adds modifiers to <em>depressed</em> modifiers.</li>
<li>
Toggle these modifiers in <em>locked</em> modifiers.</li>
</li>
</ul>
</td>
<td>
<ul>
<li>Removes modifiers from <em>depressed</em> modifiers.</li>
<li><em>Locked</em> modifiers stay unchanged.</li>
</ul>
</td>
</tr>
<!-- </tbody> -->
</table>
@todo Finish
### Group actions {#group-actions}
[group action]: @ref group-actions
[group actions]: @ref group-actions
There are 3 group actions:
<dl>
<dt>SetGroup</dt>
<dd>
<span class="todo">TODO</span>
</dd>
<dt>LatchGroup</dt>
<dd>
<span class="todo">TODO</span>
</dd>
<dt>LockGroup</dt>
<dd>
<span class="todo">TODO</span>
</dd>
</dl>
@todo Describe each action
### Unsupported legacy actions {#legacy-actions}
[legacy action]: @ref legacy-actions
@attention The following legacy actions are kept for compatibility only: they are parsed
and validated but have no effect. This allows to use keymaps defined in
<code>[xkeyboard-config]</code> for both X11 and Wayland.
#### Pointer actions
| Action | Alias | Description |
|---|---|---|
| `MovePointer` | `MovePtr` | |
| `PointerButton` | `PtrBtn` | |
| `LockPtrButton` | `LockPtrBtn` | |
| `LockPointerButton` | `LockPointerBtn` | |
| `SetPointerDefault` | `SetPtrDflt` | |
@todo Describe each action
#### Control flags actions
@todo `SetControls`, `LockControls`
#### Server actions
@todo `TerminateServer`, `SwitchScreen`
#### Private action
@todo `Private`