XkbKeyNumActions (3)
Leading comments
Copyright 1999 Oracle and/or its affiliates. All rights reserved. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following condition...
NAME
XkbKeyNumActions - Computes the number of actions associated with the key corresponding to keycodeSYNOPSIS
-
int XkbKeyNumActions
(XkbDescPtr xkb,
KeyCode keycode);
ARGUMENTS
- - xkb
-
- Xkb description of interest
- - keycode
- keycode of interest
DESCRIPTION
A key action defines the effect key presses and releases have on the internal state of the
server. For example, the expected key action associated with pressing the Shift key is to set
the Shift modifier. There is zero or one key action associated with each keysym bound to each
key.
Just as the entire list of key symbols for the keyboard mapping is held in the
syms
field of the client map, the entire list of key actions for the keyboard mapping is held in the
acts
array of the server map. The total size of
acts
is specified by
size_acts,
and the number of entries is specified by
num_acts.
The
key_acts
array, indexed by keycode, describes the actions associated with a key. The
key_acts
array has
min_key_code
unused entries at the start to allow direct indexing using a keycode. If a
key_acts
entry is zero, it means the key does not have any actions associated with it. If an entry is not
zero, the entry represents an index into the
acts
field of the server map, much as the
offset
field of a KeySymMapRec structure is an index into the
syms
field of the client map.
The reason the
acts
field is a linear list of XkbActions is to reduce the memory consumption associated with a
keymap. Because Xkb allows individual keys to have multiple shift levels and a different number
of groups per key, a single two-dimensional array of KeySyms would potentially be very large and
sparse. Instead, Xkb provides a small two-dimensional array of XkbActions for each key. To store
all of these individual arrays, Xkb concatenates each array together in the
acts
field of the server map.
The key action structures consist only of fields of type char or unsigned char. This is done to
optimize data transfer when the server sends bytes over the wire. If the fields are anything but
bytes, the server has to sift through all of the actions and swap any nonbyte fields. Because
they consist of nothing but bytes, it can just copy them out.
XkbKeyNumActions
computes the number of actions associated with the key corresponding to
keycode.
This should be the same value as the result of
XkbKeyNumSyms.
STRUCTURES
The KeySymMapRec structure is defined as follows:
#define XkbNumKbdGroups 4 #define XkbMaxKbdGroup (XkbNumKbdGroups-1) typedef struct { /* map to keysyms for a single keycode */ unsigned char kt_index[XkbNumKbdGroups]; /* key type index for each group */ unsigned char group_info; /* # of groups and out of range group handling */ unsigned char width; /* max # of shift levels for key */ unsigned short offset; /* index to keysym table in syms array */ } XkbSymMapRec, *XkbSymMapPtr;