Keyboard State
Keyboard state encompasses all of the transitory information necessary to map a physical key press or release to an appropriate event. The Xkb keyboard state consists of primitive components and additional derived components that are maintained for efficiency reasons. Figure 5.1 shows the components of Xkb keyboard state and their relationships.
Keyboard State Description
The Xkb keyboard state is comprised of the state of all keyboard modifiers, the keyboard group, and the state of the pointer buttons. These are grouped into the following components:
The locked group and locked modifiers
The latched group and latched modifiers
The base group and base modifiers
The effective group and effective modifiers
The state of the core pointer buttons
The
modifiersmodifiers
are
Shift,
Lock,
Control,
and
Mod1
–
Mod5,
as defined by the core protocol. A modifier can be thought of as a toggle that is either set or unset. All modifiers are initially unset. When a modifier is locked, it is set and remains set for all future key events, until it is explicitly unset. A latched modifier is set, but automatically unsets after the next key event that does not change the keyboard state. Locked and latched modifier state can be changed by keyboard activity or via Xkb extension library functions.
The Xkb extension provides support for
keysym groups,
keysym groupsgroupkeysymgroupISO9995
as defined by ISO9995:
Group
A logical state of a keyboard providing access to a collection of characters.
A group usually contains a set of characters that logically belong together
and that may be arranged on several shift levels within that group.
The Xkb extension supports up to four keysym groups. Groups are named beginning with one and indexed beginning with zero. All group states are indicated using the group index. At any point in time, there is zero or one locked group, zero or one latched group, and one base group. When a group is locked, it supersedes any previous locked group and remains the locked group for all future key events, until a new group is locked. A latched group applies only to the next key event that does not change the keyboard state. The locked and latched group can be changed by keyboard activity or via Xkb extension library functions.
Changing to a different group changes the keyboard state to produce characters from a different group. Groups are typically used to switch between keysyms of different languages and locales.
The
pointer buttons
are
Button1
–
Button5,
as defined by the core protocol.
The
base groupbase groupgroupbase
and
base modifiersbase modifiersmodifiersbase
represent keys that are physically or logically down. These
and the pointer buttons can be changed by keyboard activity and
not by Xkb requests. It is possible for a key to be logically
down, but not physically down, and neither latched nor locked.
Keys may be logically down when they are physically up because
of their electrical properties or because of the keyboard extension
in the X server having filtered the key release, for esoteric reasons.
The
effective modifierseffective modifiersmodifierseffective
are the bitwise union of the locked, latched, and the base modifiers.
The
effective groupeffective groupgroupeffective
is the arithmetic sum of the group indices of the latched group, locked group, and base group, which is then normalized by some function. The result is a meaningful group index.
n = number of keyboard groups, 1<= n <= 4
0 <= any of locked, latched, or base group < n
effective group = f(locked group + latched group + base group)
The function f ensures that the effective group is within range. The precise function is specified for the keyboard and can be retrieved through the keyboard description. It may wrap around, clamp down, or default. Few applications will actually examine the effective group, and far fewer still will examine the locked, latched, and base groups.
There are two circumstances under which groups are normalized:
The global locked or effective group changes. In this case, the changed group is normalized into range according to the settings of the
groups_wrap
field of the
XkbControlsRec
structure for the keyboard (see section 10.7.1).
The Xkb library is interpreting an event with an effective group that is legal for the keyboard as a whole, but not for the key in question. In this case, the group to use for this event only is determined using the
group_info
field of the key symbol mapping
(XkbSymMapRec)
for the event key.
Each nonmodifier key on a keyboard has zero or more symbols, or keysyms, associated with it. These are the logical symbols that the key can generate when it is pressed. The set of all possible keysyms for a keyboard is divided into groups. Each key is associated with zero or more groups; each group contains one or more symbols. When a key is pressed, the determination of which symbol for the key is selected is based on the effective group and the shift level, which is determined by which modifiers are set.
A client that does not explicitly call Xkb functions, but that otherwise makes use of an X library containing the Xkb extension, will have keyboard state represented in bits 0 – 14 of the state field of events that report modifier and button state. Such a client is said to be
Xkb-capable.
Xkb-capable client
A client that does explicitly call Xkb functions is an
Xkb-awareXkb-aware client
client. The Xkb keyboard state includes information derived from the effective state and from two server parameters that can be set through the keyboard extension. The following components of keyboard state pertain to Xkb-capable and Xkb-aware clients:
lookup state: lookup group and lookup modifiers
grab state: grab group and grab modifiers
The
lookup modifierslookup modifiersmodifierslookup
and
lookup grouplookup groupgrouplookup
are represented in the state field of core X events. The modifier state and keycode of a key event are used to determine the symbols associated with the event. For
KeyPress
and
KeyRelease
events, the lookup modifiers are computed as:
((base | latched | locked) & ~server_internal_modifiers)
Otherwise the lookup modifiers are computed as:
(((base | latched | (locked & ~ignore_locks)) & ~server_internal_modifiers)
The lookup group is the same as the effective group.
When an Xkb-capable or Xkb-aware client wishes to map a keycode to a keysym, it should use the
lookup statelookup statestatelookup
— the lookup group and the lookup modifiers.
The
grab stategrab statestategrab
is the state used when matching events to passive grabs. If the event activates a grab, the
grab modifiersgrab modifiersmodifiersgrab
and
grab groupgrab groupgroupgrab
are represented in the state field of core X events; otherwise, the lookup state is used. The grab modifiers are computed as:
(((base | latched | (locked & ~ignore_locks)) & ~server_internal_modifiers)
If the server’s
IgnoreGroupLock
control (see section 10.7.3) is not set, the grab group is the same as the effective group. Otherwise, the grab group is computed from the base group and latched group, ignoring the locked group.
The final three components of Xkb state are applicable to clients that are not linked with an Xlib containing the X keyboard extension library and therefore are not aware of the keyboard extension
(Xkb-unaware
clients):
The compatibility modifier state
The compatibility lookup modifier state
The compatibility grab modifier state
The X11 protocol interpretation of modifiers does not include direct support for multiple groups. When an Xkb-extended X server connects to an Xkb-unaware client, the compatibility states remap the keyboard group into a core modifier whenever possible. The compatibility state corresponds to the effective modifier and effective group state, with the group remapped to a modifier. The compatibility lookup and grab states correspond to the lookup and grab states, respectively, with the group remapped to a modifier. The compatibility lookup state is reported in events that do not trigger passive grabs; otherwise, the compatibility grab state is reported.
Changing the Keyboard StateChanging Modifiersreal modifiersmodifiersrealmaskreal modifiers
The functions in this section that change the use of modifiers use a mask in the parameter
affect.
It is a bitwise inclusive OR of the legal modifier masks:
Real Modifier MasksMaskShiftMaskLockMaskControlMaskMod1MaskMod2MaskMod3MaskMod4MaskMod5Mask
To lock and unlock any of the eight real keyboard modifiers, use
XkbLockModifiers:
XkbLockModifiersBool XkbLockModifiersDisplay *displayunsigned int device_specunsigned int affectunsigned int valuesdisplay
connection to the X server
device_spec
device ID, or XkbUseCoreKbdaffect
mask of real modifiers whose lock state is to change
values
1 ⇒ lock, 0 ⇒ unlock; only for modifiers selected by affectXkbLockModifiers
sends a request to the server to lock the real modifiers selected by both
affect
and
values
and to unlock the real modifiers selected by
affect
but not selected by
values.
XkbLockModifiers
does not wait for a reply from the server. It returns
True
if the request was sent, and
False
otherwise.
To latch and unlatch any of the eight real keyboard modifiers, use
XkbLatchModifiers:
XkbLatchModifiersBool XkbLatchModifiersDisplay *displayunsigned int device_specunsigned int affectunsigned int valuesdisplay
connection to the X server
device_spec
device ID, or XkbUseCoreKbdaffect
mask of modifiers whose latch state is to change
values
1 ⇒ latch, 0 ⇒ unlatch; only for mods selected by affectXkbLatchModifiers
sends a request to the server to latch the real modifiers selected by both
affect
and
values
and to unlatch the real modifiers selected by
affect
but not selected by
values.
XkbLatchModifiers
does not wait for a reply from the server. It returns
True
if the request was sent, and
False
otherwise.
Changing Groupskeysym groupsgroupkeysym
Reference the keysym group indices with these symbolic constants:
Symbolic Group NamesSymbolic NameValueXkbGroup1Index0XkbGroup2Index1XkbGroup3Index2XkbGroup4Index3
To lock the keysym group, use
XkbLockGroup.
XkbLockGroupBool XkbLockGroupDisplay *displayunsigned int device_specunsigned int groupdisplay
connection to the X server
device_spec
device ID, or XkbUseCoreKbdgroup
index of the keysym group to lock
XkbLockGroup
sends a request to the server to lock the specified
group
and does not wait for a reply. It returns
True
if the request was sent and
False
otherwise.
To latch the keysym group, use
XkbLatchGroup.
XkbLatchGroupBool XkbLatchGroupDisplay *displayunsigned int device_specunsigned int groupdisplay
connection to the X server
device_spec
device ID, or XkbUseCoreKbdgroup
index of the keysym group to latch
XkbLatchGroup
sends a request to the server to latch the specified group and does not wait for a reply. It returns
True
if the request was sent and
False
otherwise.
Determining Keyboard StateXkbStateRec
Xkb keyboard state may be represented in an
XkbStateRec
structure:
typedef struct {
unsigned char group; /* effective group index */
unsigned char base_group; /* base group index */
unsigned char latched_group; /* latched group index */
unsigned char locked_group; /* locked group index */
unsigned char mods; /* effective modifiers */
unsigned char base_mods; /* base modifiers */
unsigned char latched_mods; /* latched modifiers */
unsigned char locked_mods; /* locked modifiers */
unsigned char compat_state; /* effective group ⇒ modifiers */
unsigned char grab_mods; /* modifiers used for grabs */
unsigned char compat_grab_mods; /* mods used for compatibility
mode grabs */
unsigned char lookup_mods; /* mods used to lookup symbols */
unsigned char compat_lookup_mods; /* mods used for compatibility
lookup */
unsigned short ptr_buttons; /* 1 bit ⇒ corresponding
pointer btn is down */
} XkbStateRec, *XkbStatePtr;
To obtain the keyboard state, use
XkbGetState.
XkbGetStateStatus XkbGetStateDisplay *displayunsigned int device_specXkbStatePtr state_returndisplay
connection to the X server
device_spec
device ID, or XkbUseCoreKbdstate_return
backfilled with Xkb state
The
XkbGetState
function queries the server for the current keyboard state, waits for a reply, and then backfills
state_return
with the results.
All group values are expressed as group indices in the range [0..3]. Modifiers and the compatibility modifier state values are expressed as the bitwise union of the core X11 modifier masks. The pointer button state is reported as in the core X11 protocol.
Tracking Keyboard StateeventsXkbStateNotifyXkbStateNotifyEvent
The Xkb extension reports
XkbStateNotify
events to clients wanting notification whenever the Xkb state changes. The changes reported include changes to any aspect of the keyboard state: when a modifier is set or unset, when the current group changes, or when a pointer button is pressed or released. As with all Xkb events,
XkbStateNotify
events are reported to all interested clients without regard to the current keyboard input focus or grab state.
There are many different types of Xkb state changes. Xkb defines an event
detail mask corresponding to each type of change. The event detail masks are
listed in Table 5.3.
To track changes in the keyboard state for a particular device, select to receive
XkbStateNotify
events by calling either
XkbSelectEvents
or
XkbSelectEventDetails
(see section 4.3).
To receive
XkbStateNotify
events under all possible conditions, use
XkbSelectEvents
and pass
XkbStateNotifyMask
in both
bits_to_change
and
values_for_bits.
To receive
XkbStateNotify
events only under certain conditions, use
XkbSelectEventDetails
using
XkbStateNotify
as the
event_type
and specifying the desired state changes in
bits_to_change
and
values_for_bits
using mask bits from Table 5.3.
The structure for
XkbStateNotify
events is:
typedef struct {
int type; /* Xkb extension base event code */
unsigned long serial; /* X server serial number for event */
Bool send_event; /* True ⇒ synthetically generated */
Display * display; /* server connection where event generated */
Time time; /* server time when event generated */
int xkb_type; /* XkbStateNotify */
int device; /* Xkb device ID,
will not be XkbUseCoreKbd */
unsigned int changed; /* bits indicating what has changed */
int group; /* group index of effective group */
int base_group; /* group index of base group */
int latched_group; /* group index of latched group */
int locked_group; /* group index of locked group */
unsigned int mods; /* effective modifiers */
unsigned int base_mods; /* base modifiers */
unsigned int latched_mods; /* latched modifiers */
unsigned int locked_mods; /* locked modifiers */
int compat_state; /* computed compatibility state */
unsigned char grab_mods; /* modifiers used for grabs */
unsigned char compat_grab_mods; /* modifiers used for compatibility grabs */
unsigned char lookup_mods; /* modifiers used to lookup symbols */
unsigned char compat_lookup_mods; /* mods used for compatibility look up */
int ptr_buttons; /* core pointer buttons */
KeyCode keycode; /* keycode causing event,
0 if programmatic */
char event_type; /* core event if req_major or req_minor
non zero */
char req_major; /* major request code if program trigger,
else 0 */
char req_minor; /* minor request code if program trigger,
else 0 */
} XkbStateNotifyEvent;
When you receive an
XkbStateNotify
event, the
changed
field indicates which elements of keyboard state have changed.
This will be the bitwise inclusive OR of one or more of the
XkbStateNotify
event detail masks shown in Table 5.3.
All fields reported in the event are valid, but only those indicated in
changed
have changed values.
The
group
field is the group index of the effective keysym group. The
base_group,
latched_group,
and
locked_group
fields are set to a group index value representing the base group,
the latched group, and the locked group, respectively. The X
server can set the modifier and compatibility state fields to
a union of the core modifier mask bits; this union represents the
corresponding modifier states. The ptr_buttons
field gives the state of the core pointer buttons as a
mask composed of an inclusive OR of zero or more of the
core pointer button masks.
Xkb state changes can occur either in response to keyboard
activity or under application control. If a key event
caused the state change, the
keycode
field gives the keycode of the key event, and the
event_type
field is set to either KeyPress
or
KeyRelease.
If a pointer button event caused the state change, the
keycode
field is zero, and the event_type
field is set to either ButtonPress
or ButtonRelease.
Otherwise, the major and minor codes of the request that caused the
state change are given in the
req_major
and
req_minor
fields, and the
keycode
field is zero. The
req_major
value is the same as the major extension opcode.