xenocara/proto/xorgproto/specs/ch08.xml

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<chapter id='Symbolic_Names'>
<title>Symbolic Names</title>
<para>
The core protocol does not provide any information to clients other than that
actually used to interpret events. This makes it difficult to write a client
which presents the keyboard to a user in an easy-to-understand way. Such
applications have to examine the vendor string and keycodes to determine the
type of keyboard connected to the server and have to examine keysyms and
modifier mappings to determine the effects of most modifiers (the <emphasis>
Shift</emphasis>
, <emphasis>
Lock</emphasis>
and <emphasis>
Control</emphasis>
modifiers are defined by the core protocol but no semantics are implied for
any other modifiers).
</para>
<para>
This extension provides such applications with symbolic names for most
components of the keyboard extension and a description of the physical layout
of the keyboard.
</para>
<para>
The <emphasis>
keycodes</emphasis>
name describes the range and meaning of the keycodes returned by the keyboard
in question; the <emphasis>
keyboard</emphasis>
<emphasis>
geometry </emphasis>
name describes the physical location, size and shape of the various keys on the
keyboard. As an example to distinguish between these two names, consider
function keys on PC-compatible keyboards. Function keys are sometimes above the
main keyboard and sometimes to the left of the main keyboard, but the same
keycode is used for the key that is logically <emphasis>
F1</emphasis>
regardless of physical position. Thus, all PC-compatible keyboards might share
a keycodes name but different geometry names.
</para>
<note><para>The keycodes name is intended to be a very general description of
the keycodes returned by a keyboard; A single keycodes name might cover
keyboards with differing numbers of keys provided that the keys that all keys
have the same semantics when present. For example, 101 and 102 key PC keyboards
might use the same name. Applications can use the keyboard geometry to
determine which subset of the named keyboard type is in use.</para></note>
<para>
The <emphasis>
symbols</emphasis>
name identifies the symbols bound to the keys. The symbols name is a human or
application-readable description of the intended locale or usage of the
keyboard with these symbols. The <emphasis>
physical symbols</emphasis>
name describes the symbols actually engraved on the keyboard, which might be
different than the symbols currently being used.
</para>
<para>
The <emphasis>
types</emphasis>
name provides some information about the set of key types that can be
associated with the keyboard keys. The <emphasis>
compat</emphasis>
name provides some information about the rules used to bind actions to keys
changed using core protocol requests.
</para>
<para>
The <emphasis>
compat</emphasis>
, <emphasis>
types</emphasis>
, <emphasis>
keycodes</emphasis>
, <emphasis>
symbols</emphasis>
and <emphasis>
geometry</emphasis>
names typically correspond to the keyboard components from which the current
keyboard description was assembled. These components are stored individually in
the servers database of keyboard components, described in
<link linkend='The_Server_Database_of_Keyboard_Components'>
The Server Database of Keyboard
Components</link>, and can be combined to assemble a complete keyboard
description.
</para>
<para>
Each key has a four-byte symbolic name. The key name links keys with similar
functions or in similar positions on keyboards that report different scan
codes. <emphasis>
Key aliases</emphasis>
allow the keyboard layout designer to assign multiple names to a single key,
to make it easier to refer to keys using either their position <emphasis>
or</emphasis>
their "function."
</para>
<para>
For example, consider the common keyboard customizations:
</para>
<itemizedlist>
<listitem>
<para>Set the "key to the left of the letter a" to be a control key.
</para>
</listitem>
<listitem>
<para>Change the "caps lock" key, wherever it might be, to a control key.
</para>
</listitem>
</itemizedlist>
<para>
If we specify key names by position, the first customization is simple but the
second is impossible; if we specify key names by function, the second
customization is simple but the first is impossible. Using key aliases, we can
specify both function and position for "troublesome" keys, and both
customizations are straightforward.
</para>
<para>
Key aliases can be specified both in the symbolic names component and in the
keyboard geometry (see <link linkend='Keyboard_Geometry'>Keyboard
Geometry</link>). Both sets of aliases are always valid, but key alias
definitions in the keyboard geometry have priority; if both symbolic names and
geometry include aliases, applications should consider the definitions from the
geometry before considering the definitions from the symbolic names section.
</para>
<para>
XKB provides symbolic names for each of the four keyboard groups, sixteen
virtual modifiers, thirty-two keyboard indicators, and up to <emphasis>
MaxRadioGroups</emphasis>
(32) radio groups.
</para>
<para>
XKB allows keyboard layout designers or editors to assign names to each key
type and to each of the levels in a key type. For example, the second position
on an alphabetic key might be called the "Caps" level while the second position
on a numeric keypad key might be called the "Num Lock" level.
</para>
</chapter>