Provided by: libx11-doc_1.6.3-1ubuntu2.2_all 
NAME
XkbKeyTypesForCoreSymbols - Determine the Xkb key types appropriate for the symbols bound
to a key in a core keyboard mapping
SYNOPSIS
int XkbKeyTypesForCoreSymbols (XkbDescPtr xkb, int map_width, KeySym *core_syms, unsigned
int protected, int *types_inout, KeySym *xkb_syms_rtrn);
ARGUMENTS
- xkb keyboard description in which to place symbols
- map_width
width of core protocol keymap in xkb_syms_rtrn
- core_syms
core protocol format array of KeySyms
- protected
explicit key types
- types_inout
backfilled with the canonical types bound to groups one and two for the key
- xkb_syms_rtrn
backfilled with symbols bound to the key in the Xkb mapping
DESCRIPTION
XkbKeyTypesForCoreSymbols expands the symbols in core_syms and types in types_inout, then
chooses canonical key types (canonical key types are defined The Canonical Key Types) for
groups 1 and 2 using the rules specified by the Xkb protocol and places them in
xkb_syms_rtrn, which will be non-NULL.
The Canonical Key Types
Xkb allows up to XkbMaxKeyTypes (255) key types to be defined, but requires at least
XkbNumRequiredTypes (4) predefined types to be in a key map. These predefined key types
are referred to as the canonical key types and describe the types of keys available on
most keyboards. The definitions for the canonical key types are held in the first
XkbNumRequiredTypes entries of the types field of the client map and are indexed using the
following constants:
XkbOneLevelIndex
XkbTwoLevelIndex
XkbAlphabeticIndex
XkbKeypadIndex
ONE_LEVEL
The ONE_LEVEL key type describes groups that have only one symbol. The default ONE_LEVEL
key type has no map entries and does not pay attention to any modifiers. A symbolic
representation of this key type could look like the following:
type "ONE_LEVEL" {
modifiers = None;
map[None]= Level1;
level_name[Level1]= "Any";
};
The description of the ONE_LEVEL key type is stored in the types[XkbOneLevelIndex] entry
of the client key map.
TWO_LEVEL
The TWO_LEVEL key type describes groups that consist of two symbols but are neither
alphabetic nor numeric keypad keys. The default TWO_LEVEL type uses only the Shift
modifier. It returns shift level two if Shift is set, and level one if it is not. A
symbolic representation of this key type could look like the following:
type "TWO_LEVEL" {
modifiers = Shift;
map[Shift]= Level2;
level_name[Level1]= "Base";
level_name[Level2]= "Shift";
};
The description of the TWO_LEVEL key type is stored in the types[XkbTwoLevelIndex] entry
of the client key map.
ALPHABETIC
The ALPHABETIC key type describes groups consisting of two symbols: the lowercase form of
a symbol followed by the uppercase form of the same symbol. The default ALPHABETIC type
implements locale-sensitive "Shift cancels CapsLock" behavior using both the Shift and
Lock modifiers as follows:
• If Shift and Lock are both set, the default ALPHABETIC type yields level one.
• If Shift alone is set, it yields level two.
• If Lock alone is set, it yields level one, but preserves the Lock modifier so Xlib
notices and applies the appropriate capitalization rules. The Xlib functions are
locale-sensitive and apply different capitalization rules for different locales.
• If neither Shift nor Lock is set, it yields level one.
A symbolic representation of this key type could look like the following:
type "ALPHABETIC" {
modifiers = Shift+Lock;
map[Shift]= Level2;
preserve[Lock]= Lock;
level_name[Level1]= "Base";
level_name[Level2]= "Caps";
};
The description of the ALPHABETIC key type is stored in the types[XkbAlphabeticIndex]
entry of the client key map.
KEYPAD
The KEYPAD key type describes groups that consist of two symbols, at least one of
which is a numeric keypad symbol. The numeric keypad symbol is assumed to reside at
level two. The default KEYPAD key type implements "Shift cancels NumLock" behavior
using the Shift modifier and the real modifier bound to the virtual modifier named
"NumLock," known as the NumLock modifier, as follows:
• If Shift and NumLock are both set, the default KEYPAD type yields level one.
• If Shift alone is set, it yields level two.
• If NumLock alone is set, it yields level two.
• If neither Shift nor NumLock is set, it yields level one.
A symbolic representation of this key type could look like the following:
type "KEYPAD" {
modifiers = Shift+NumLock;
map[None]= Level1;
map[Shift]= Level2;
map[NumLock]= Level2;
map[Shift+NumLock]= Level1;
level_name[Level1]= "Base";
level_name[Level2]= "Caps";
};
The description of the KEYPAD key type is stored in the types[XkbKeypadIndex] entry
of the client key map.
A core keymap is a two-dimensional array of keysyms. It has map_width columns and
max_key_code rows. XkbKeyTypesForCoreSymbols takes a single row from a core keymap,
determines the number of groups associated with it, the type of each group, and the
symbols bound to each group. The return value is the number of groups, types_inout
has the types for each group, and xkb_syms_rtrn has the symbols in Xkb order (that
is, groups are contiguous, regardless of size).
protected contains the explicitly protected key types. There is one explicit
override control associated with each of the four possible groups for each Xkb key,
ExplicitKeyType1 through ExplicitKeyType4; protected is an inclusive OR of these
controls. map_width is the width of the core keymap and is not dependent on any Xkb
definitions. types_inout is an array of four type indices. On input, types_inout
contains the indices of any types already assigned to the key, in case they are
explicitly protected from change.
Upon return, types_inout contains any automatically selected (that is, canonical)
types plus any protected types. Canonical types are assigned to all four groups if
there are enough symbols to do so. The four entries in types_inout correspond to the
four groups for the key in question.