Translation Management
Except under unusual circumstances,
widgets do not hardwire the mapping of user events into widget behavior
by using the event manager.
Instead, they provide a default mapping of events into behavior
that you can override.
The translation manager provides an interface to specify and manage the
mapping of X event sequences into widget-supplied functionality,
for example, calling procedure Abc when the y key
is pressed.
The translation manager uses two kinds of tables to perform translations:
The action tables, which are in the widget class structure,
specify the mapping of externally available procedure name strings
to the corresponding procedure implemented by the widget class.
A translation table, which is in the widget class structure,
specifies the mapping of event sequences to procedure name strings.
You can override the translation table in the class structure
for a specific widget instance by supplying a different translation table
for the widget instance. The resources
XtNtranslations and XtNbaseTranslations are used to modify the class
default translation table; see .
Action Tables
All widget class records contain an action table,
an array of
XtActionsRec
entries.
In addition,
an application can register its own action tables with the translation manager
so that the translation tables it provides to widget instances can access
application functionality directly.
The translation action procedure pointer is of type
.
typedef void (*XtActionProc)
Widget w
XEvent *event
String *params
Cardinal *num_params
w
Specifies the widget that caused the action to be called.
event
Specifies the event that caused the action to be called.
If the action is called after a sequence of events,
then the last event in the sequence is used.
params
Specifies a pointer to the list of strings that were specified
in the translation table as arguments to the action, or NULL.
num_params
Specifies the number of entries in params.
typedef struct _XtActionsRec {
String string;
XtActionProc proc;
} XtActionsRec, *XtActionList;
The string field is the name used in translation tables to access
the procedure.
The proc field is a pointer to a procedure that implements
the functionality.
When the action list is specified as the
CoreClassPart
actions field, the string pointed to by string must be
permanently allocated prior to or during the execution of the class
initialization procedure and must not be subsequently deallocated.
Action procedures should not assume that the widget in which they
are invoked is realized; an accelerator specification can cause
an action procedure to be called for a widget that does not yet
have a window. Widget writers should also note which of a widget's
callback lists are invoked from action procedures and warn clients
not to assume the widget is realized in those callbacks.
For example, a Pushbutton widget has procedures to take the following actions:
Set the button to indicate it is activated.
Unset the button back to its normal mode.
Highlight the button borders.
Unhighlight the button borders.
Notify any callbacks that the button has been activated.
The action table for the Pushbutton widget class makes these functions
available to translation tables written for Pushbutton or any subclass.
The string entry is the name used in translation tables.
The procedure entry (usually spelled identically to the string)
is the name of the C procedure that implements that function:
XtActionsRec actionTable[] = {
{"Set", Set},
{"Unset", Unset},
{"Highlight", Highlight},
{"Unhighlight", Unhighlight}
{"Notify", Notify},
};
The Intrinsics reserve all action names and parameters starting with
the characters “Xt” for future standard enhancements. Users,
applications, and widgets should not declare action names or pass
parameters starting with these characters except to invoke specified
built-in Intrinsics functions.
Action Table Registration
The actions and num_actions fields of
CoreClassPart
specify the actions implemented by a widget class. These are
automatically registered with the Intrinsics when the class is initialized
and must be allocated in writable storage prior to Core class_part
initialization, and never deallocated. To save memory and optimize
access, the Intrinsics may overwrite the storage in order to compile the
list into an internal representation.
To declare an action table within an application
and register it with the translation manager, use
.
void XtAppAddActions
XtAppContext app_context
XtActionList actions
Cardinal num_actions
app_context
Specifies the application context.
actions
Specifies the action table to register.
num_actions
Specifies the number of entries in this action table.
If more than one action is registered with the same name,
the most recently registered action is used.
If duplicate actions exist in an action table,
the first is used.
The Intrinsics register an action table containing
and
as part of
.
Action Names to Procedure Translations
The translation manager uses a simple algorithm to resolve the name of
a procedure specified in a translation table into the
actual procedure specified
in an action table.
When the widget
is realized, the translation manager
performs a search for the name in the following tables, in order:
The widget's class and all superclass action tables, in subclass-to-superclass
order.
The parent's class and all superclass action tables, in subclass-to-superclass
order, then on up the ancestor tree.
The action tables registered with
and
from the most recently added table to the oldest table.
As soon as it finds a name,
the translation manager stops the search.
If it cannot find a name,
the translation manager generates a warning message.
Action Hook Registration
An application can specify a procedure that will be called just before
every action routine is dispatched by the translation manager. To do
so, the application supplies a procedure pointer of type
.
typedef void (*XtActionHookProc)
Widget w
XtPointer client_data
String action_name
XEvent* event
String* params
Cardinal* num_params
w
Specifies the widget whose action is about to be dispatched.
client_data
Specifies the application-specific closure that was passed to
XtAppAddActionHook.
action_name
Specifies the name of the action to be dispatched.
event
Specifies the event argument that will be passed to the action routine.
params
Specifies the action parameters that will be passed to the action routine.
num_params
Specifies the number of entries in params.
Action hooks should not modify any of the data pointed to by the
arguments other than the client_data argument.
To add an action hook, use
.
XtActionHookId XtAppAddActionHook
XtAppContext app
XtActionHookProc proc
XtPointer client_data
app
Specifies the application context.
proc
Specifies the action hook procedure.
client_data
Specifies application-specific data to be passed to the action hook.
adds the specified procedure to the front of a list
maintained in the application context. In the future, when an action
routine is about to be invoked for any widget in this application
context, either through the translation manager or via
,
the action hook procedures will be called in reverse
order of registration just prior to invoking the action routine.
Action hook procedures are removed automatically and the
XtActionHookId is
destroyed when the application context in which
they were added is destroyed.
To remove an action hook procedure without destroying the application
context, use
.
void XtRemoveActionHook
XtActionHookId id
id
Specifies the action hook id returned by
.
removes the specified action hook procedure from
the list in which it was registered.
Translation Tables
All widget instance records contain a translation table,
which is a resource with a default value specified elsewhere in the
class record.
A translation table specifies what action procedures are invoked for
an event or a sequence of events.
A translation table
is a string containing a list of translations from an event sequence
into one or more action procedure calls.
The translations are separated from one another by newline characters
(ASCII LF).
The complete syntax of translation tables is specified in Appendix B.
As an example, the default behavior of Pushbutton is
Highlight on enter window.
Unhighlight on exit window.
Invert on left button down.
Call callbacks and reinvert on left button up.
The following illustrates Pushbutton's default translation table:
static String defaultTranslations =
"<EnterWindow>: Highlight()\n\
<LeaveWindow>: Unhighlight()\n\
<Btn1Down>: Set()\n\
<Btn1Up>: Notify() Unset()";
The tm_table field of the
CoreClassPart
should be filled in at class initialization time with
the string containing the class's default translations.
If a class wants to inherit its superclass's translations,
it can store the special value
XtInheritTranslations
into tm_table.
In Core's class part initialization procedure,
the Intrinsics compile this translation table into an efficient internal form.
Then, at widget creation time,
this default translation table is
combined with the XtNtranslations
and XtNbaseTranslations resources; see
.
The resource conversion mechanism automatically compiles
string translation tables that are specified in the resource database.
If a client uses translation tables that are not retrieved via a
resource conversion,
it must compile them itself using
.
The Intrinsics use the compiled form of the translation table to register the
necessary events with the event manager.
Widgets need do nothing other than specify the action and translation tables
for events to be processed by the translation manager.
Event Sequences
An event sequence is a comma-separated list of X event descriptions
that describes a specific sequence of X events to map to a set of
program actions.
Each X event description consists of three parts:
The X event type, a prefix consisting of the X modifier bits, and
an event-specific suffix.
Various abbreviations are supported to make translation tables easier
to read. The events must match incoming events in left-to-right order
to trigger the action sequence.
Action Sequences
Action sequences specify what program or widget actions to take in response to
incoming X events. An action sequence consists of space-separated
action procedure call specifications.
Each action procedure call consists of the name of an action procedure and a
parenthesized list of zero or more comma-separated
string parameters to pass to that procedure.
The actions are invoked in left-to-right order as specified in the
action sequence.
Multi-Click Time
Translation table entries may specify actions that are taken when two
or more identical events occur consecutively within a short time
interval, called the multi-click time. The multi-click time value may
be specified as an application resource with name “multiClickTime” and
class “MultiClickTime” and may also be modified dynamically by the
application. The multi-click time is unique for each Display value and
is retrieved from the resource database by
.
If no value is specified, the initial value is 200 milliseconds.
To set the multi-click time dynamically, use
.
void XtSetMultiClickTime
Display *display
int time
display
Specifies the display connection.
time
Specifies the multi-click time in milliseconds.
sets the time interval used by the translation
manager to determine when multiple events are interpreted as a
repeated event. When a repeat count is specified in a translation
entry, the interval between the timestamps in each pair of repeated
events (e.g., between two
ButtonPress
events) must be less than the
multi-click time in order for the translation actions to be taken.
To read the multi-click time, use
.
int XtGetMultiClickTime
Display *display
display
Specifies the display connection.
returns the time in milliseconds that the
translation manager uses to determine if multiple events are to be
interpreted as a repeated event for purposes of matching a translation
entry containing a repeat count.
Translation Table Management
Sometimes an application needs to merge
its own translations with a widget's translations.
For example, a window manager provides functions to move a window.
The window manager wishes to bind this operation to a specific
pointer button in the title bar without the possibility of user
override and bind it to other buttons that may be overridden by the user.
To accomplish this,
the window manager should first create the title bar
and then should merge the two translation tables into
the title bar's translations.
One translation table contains the translations that the window manager
wants only if the user has not specified a translation for a particular event
or event sequence (i.e., those that may be overridden).
The other translation table contains the translations that the
window manager wants regardless of what the user has specified.
Three Intrinsics functions support this merging:
XtParseTranslationTable
Compiles a translation table.
XtAugmentTranslations
Merges a compiled translation table into a widget's
compiled translation table, ignoring any new translations that
conflict with existing translations.
XtOverrideTranslations
Merges a compiled translation table into a widget's
compiled translation table, replacing any existing translations that
conflict with new translations.
To compile a translation table, use
.
XtTranslations XtParseTranslationTable
const char * table
table
Specifies the translation table to compile.
The
function compiles the translation table, provided in the format given
in Appendix B, into an opaque internal representation
of type
XtTranslations.
Note that if an empty translation table is required for any purpose,
one can be obtained by calling
and passing an empty string.
To merge additional translations into an existing translation table, use
.
void XtAugmentTranslations
Widget w
XtTranslations translations
w
Specifies the widget into which the new translations are to be merged. Must be of class Core or any subclass thereof.
translations
Specifies the compiled translation table to merge in.
The
function merges the new translations into the existing widget
translations, ignoring any
#replace,
#augment,
or
#override
directive that may have been specified
in the translation string. The translation table specified by
translations is not altered by this process.
logically appends the string representation of the new translations to
the string representation of the widget's current translations and reparses
the result with no warning messages about duplicate left-hand sides, then
stores the result back into the widget instance; i.e.,
if the new translations contain an event or event sequence that
already exists in the widget's translations,
the new translation is ignored.
To overwrite existing translations with new translations, use
.
void XtOverrideTranslations
Widget w
XtTranslations translations
w
Specifies the widget into which the new translations are to be merged. Must be of class Core or any subclass thereof.
translations
Specifies the compiled translation table to merge in.
The
function merges the new translations into the existing widget
translations, ignoring any
#replace,
#augment,
or
#override
directive that may have been
specified in the translation string. The translation table
specified by translations is not altered by this process.
logically appends the string representation of the widget's current
translations to the string representation of the new translations and
reparses the result with no warning messages about duplicate left-hand
sides, then stores the result back into the widget instance; i.e.,
if the new translations contain an event or event sequence that
already exists in the widget's translations,
the new translation overrides the widget's translation.
To replace a widget's translations completely, use
on the XtNtranslations resource and specify a compiled translation table
as the value.
To make it possible for users to easily modify translation tables in their
resource files,
the string-to-translation-table resource type converter
allows the string to specify whether the table should replace,
augment, or override any
existing translation table in the widget.
To specify this,
a pound sign (#) is given as the first character of the table
followed by one of the keywords “replace”, “augment”, or
“override” to indicate
whether to replace, augment, or override the existing table.
The replace or merge
operation is performed during the
Core
instance initialization.
Each merge operation produces a new
translation resource value; if the original tables were shared by
other widgets, they are unaffected. If no directive is
specified, “#replace” is assumed.
At instance initialization
the XtNtranslations resource is first fetched. Then, if it was
not specified or did not contain “#replace”, the
resource database is searched for the resource XtNbaseTranslations.
If XtNbaseTranslations is found, it is merged into the widget class
translation table. Then the widget translations field is
merged into the result or into the class translation table if
XtNbaseTranslations was not found. This final table is then
stored into the widget translations field. If the XtNtranslations
resource specified “#replace”, no merge is done.
If neither XtNbaseTranslations or XtNtranslations are specified,
the class translation table is copied into the widget instance.
To completely remove existing translations, use
.
void XtUninstallTranslations
Widget w
w
Specifies the widget from which the translations are to be removed. Must be of class Core or any subclass thereof.
The
function causes the entire translation table for the widget to be removed.
Using Accelerators
It is often desirable to be able to bind events in one widget to actions in
another.
In particular,
it is often useful to be able to invoke menu actions from the keyboard.
The Intrinsics provide a facility, called accelerators, that lets you
accomplish this.
An accelerator table is a translation table that is bound with its
actions in the context of a particular widget, the source widget.
The accelerator table can then be installed on one or more destination widgets.
When an event sequence in the destination widget would cause an
accelerator action to be taken, and if the source widget is sensitive,
the actions are executed as though triggered by the same event sequence
in the accelerator source
widget. The event is
passed to the action procedure without modification. The action
procedures used within accelerators must not assume that the source
widget is realized nor that any fields of the event are in reference
to the source widget's window if the widget is realized.
Each widget instance contains that widget's exported accelerator table
as a resource.
Each class of widget exports a method that takes a
displayable string representation of the accelerators
so that widgets can display their current accelerators.
The representation is the accelerator table in canonical
translation table form (see Appendix B).
The display_accelerator procedure pointer is of type
.
typedef void (*XtStringProc)
Widget w
String string
w
Specifies the source widget that supplied the accelerators.
string
Specifies the string representation of the accelerators for this widget.
Accelerators can be specified in resource files,
and the string representation is the same as for a translation table.
However,
the interpretation of the
#augment
and
#override
directives applies to
what will happen when the accelerator is installed;
that is, whether or not the accelerator translations will override the
translations in the destination widget.
The default is
#augment,
which means that the accelerator translations have lower priority
than the destination translations.
The
#replace
directive is ignored for accelerator tables.
To parse an accelerator table, use
.
XtAccelerators XtParseAcceleratorTable
const char * source
source
Specifies the accelerator table to compile.
The
function compiles the accelerator table into an opaque internal representation.
The client
should set the XtNaccelerators resource of
each widget that is to be activated by these translations
to the returned value.
To install accelerators from a widget on another widget, use
.
void XtInstallAccelerators
Widget destination
Widget source
destination
Specifies the widget on which the accelerators are to be installed. Must be of class Core or any subclass thereof.
source
Specifies the widget from which the accelerators are to come. Must be of class Core or any subclass thereof.
The
function installs the accelerators resource value from
source onto destination
by merging the source accelerators into the destination translations.
If the source display_accelerator field is non-NULL,
calls it with the source widget and a string representation
of the accelerator table,
which indicates that its accelerators have been installed
and that it should display them appropriately.
The string representation of the accelerator table is its
canonical translation table representation.
As a convenience for installing all accelerators from a widget and all its
descendants onto one destination, use
.
void XtInstallAllAccelerators
Widget destination
Widget source
destination
Specifies the widget on which the accelerators are to be installed. Must be of class Core or any subclass thereof.
source
Specifies the root widget of the widget tree
from which the accelerators are to come. Must be of class Core or any subclass thereof.
The
function recursively descends the widget tree rooted at source
and installs the accelerators resource value
of each widget encountered onto destination.
A common use is to call
and pass the application main window as the source.
KeyCode-to-KeySym Conversions
The translation manager provides support for automatically translating
KeyCodes in incoming key events into KeySyms.
KeyCode-to-KeySym translator procedure pointers are of type
.
typedef void (*XtKeyProc)
Display *display
KeyCode keycode
Modifiers modifiers
Modifiers *modifiers_return
KeySym *keysym_return
display
Specifies the display that the KeyCode is from.
keycode
Specifies the KeyCode to translate.
modifiers
Specifies the modifiers to the KeyCode.
modifiers_return
Specifies a location in which to store
a mask that indicates the subset of all
modifiers that are examined by the key translator for the specified keycode.
keysym_return
Specifies a location in which to store the resulting KeySym.
This procedure takes a KeyCode and modifiers and produces a KeySym.
For any given key translator function and keyboard encoding,
modifiers_return will be a constant per KeyCode that indicates
the subset of all modifiers that are examined by the key translator
for that KeyCode.
The KeyCode-to-KeySym translator procedure
must be implemented such that multiple calls with the same
display, keycode, and modifiers return the same
result until either a new case converter, an
,
is installed or a
MappingNotify
event is received.
The Intrinsics maintain tables internally to map KeyCodes to KeySyms
for each open display. Translator procedures and other clients may
share a single copy of this table to perform the same mapping.
To return a pointer to the KeySym-to-KeyCode mapping table for a
particular display, use
.
KeySym *XtGetKeysymTable
Display *display
KeyCode *min_keycode_return
int *keysyms_per_keycode_return
display
Specifies the display whose table is required.
min_keycode_return
Returns the minimum KeyCode valid for the display.
keysyms_per_keycode_return
Returns the number of KeySyms stored for each KeyCode.
returns a pointer to the Intrinsics' copy of the
server's KeyCode-to-KeySym table. This table must not be modified.
There are keysyms_per_keycode_return KeySyms associated with each
KeyCode, located in the table with indices starting at index
(test_keycode - min_keycode_return) * keysyms_per_keycode_return
for KeyCode test_keycode. Any entries that have no KeySyms associated
with them contain the value
NoSymbol.
Clients should not cache the KeySym table but should call
each time the value is
needed, as the table may change prior to dispatching each event.
For more information on this table, see
Section 12.7 in
Xlib — C Language X Interface..
To register a key translator, use
.
void XtSetKeyTranslator
Display *display
XtKeyProc proc
display
Specifies the display from which to translate the events.
proc
Specifies the procedure to perform key translations.
The
function sets the specified procedure as the current key translator.
The default translator is
XtTranslateKey,
an
that uses the Shift, Lock, numlock, and group modifiers
with the interpretations defined in X Window System Protocol, Section 5.
It is provided so that new translators can call it to get default
KeyCode-to-KeySym translations and so that the default translator
can be reinstalled.
To invoke the currently registered KeyCode-to-KeySym translator,
use
.
void XtTranslateKeycode
Display *display
KeyCode keycode
Modifiers modifiers
Modifiers *modifiers_return
KeySym *keysym_return
display
Specifies the display that the KeyCode is from.
keycode
Specifies the KeyCode to translate.
modifiers
Specifies the modifiers to the KeyCode.
modifiers_return
Returns a mask that indicates the modifiers actually used
to generate the KeySym.
keysym_return
Returns the resulting KeySym.
The
function passes the specified arguments
directly to the currently registered KeyCode-to-KeySym translator.
To handle capitalization of nonstandard KeySyms, the Intrinsics allow
clients to register case conversion routines.
Case converter procedure pointers are of type
.
typedef void (*XtCaseProc)
Display *display
KeySym keysym
KeySym *lower_return
KeySym *upper_return
display
Specifies the display connection for which the conversion is required.
keysym
Specifies the KeySym to convert.
lower_return
Specifies a location into which to store the lowercase equivalent for
the KeySym.
upper_return
Specifies a location into which to store the uppercase equivalent for
the KeySym.
If there is no case distinction,
this procedure should store the KeySym into both return values.
To register a case converter, use
.
void XtRegisterCaseConverter
Display *display
XtCaseProc proc
KeySym start
KeySym stop
display
Specifies the display from which the key events are to come.
proc
Specifies the
to do the conversions.
start
Specifies the first KeySym for which this converter is valid.
stop
Specifies the last KeySym for which this converter is valid.
The
registers the specified case converter.
The start and stop arguments provide the inclusive range of KeySyms
for which this converter is to be called.
The new converter overrides any previous converters for KeySyms in that range.
No interface exists to remove converters;
you need to register an identity converter.
When a new converter is registered,
the Intrinsics refresh the keyboard state if necessary.
The default converter understands case conversion for all
Latin KeySyms defined in X Window System Protocol, Appendix A.
To determine uppercase and lowercase equivalents for a KeySym, use
.
void XtConvertCase
Display *display
KeySym keysym
KeySym *lower_return
KeySym *upper_return
display
Specifies the display that the KeySym came from.
keysym
Specifies the KeySym to convert.
lower_return
Returns the lowercase equivalent of the KeySym.
upper_return
Returns the uppercase equivalent of the KeySym.
The
function calls the appropriate converter and returns the results.
A user-supplied
may need to use this function.
Obtaining a KeySym in an Action Procedure
When an action procedure is invoked on a
KeyPress
or
KeyRelease
event, it often has a need to retrieve the KeySym and modifiers
corresponding to the event that caused it to be invoked. In order to
avoid repeating the processing that was just performed by the
Intrinsics to match the translation entry, the KeySym and modifiers
are stored for the duration of the action procedure and are made
available to the client.
To retrieve the KeySym and modifiers that matched the final event
specification in the translation table entry, use
.
KeySym XtGetActionKeysym
XEvent *event
Modifiers *modifiers_return
event
Specifies the event pointer passed to the action procedure by the Intrinsics.
modifiers_return
Returns the modifiers that caused the match, if non-NULL.
If
is called after an action procedure has been
invoked by the Intrinsics and before that action procedure returns, and
if the event pointer has the same value as the event pointer passed to
that action routine, and if the event is a
KeyPress
or
KeyRelease
event, then
returns the KeySym that matched the final
event specification in the translation table and, if modifiers_return
is non-NULL, the modifier state actually used to generate this KeySym;
otherwise, if the event is a
KeyPress
or
KeyRelease
event, then
calls
and returns the results;
else it returns
NoSymbol
and does not examine modifiers_return.
Note that if an action procedure invoked by the Intrinsics
invokes a subsequent action procedure (and so on) via
,
the nested action procedure may also call
to retrieve the Intrinsics' KeySym and modifiers.
KeySym-to-KeyCode Conversions
To return the list of KeyCodes that map to a particular KeySym in
the keyboard mapping table maintained by the Intrinsics, use
.
void XtKeysymToKeycodeList
Display *display
KeySym keysym
KeyCode **keycodes_return
Cardinal *keycount_return
display
Specifies the display whose table is required.
keysym
Specifies the KeySym for which to search.
keycodes_return
Returns a list of KeyCodes that have keysym
associated with them, or NULL if keycount_return is 0.
keycount_return
Returns the number of KeyCodes in the keycode list.
The
procedure returns all the KeyCodes that have keysym
in their entry for the keyboard mapping table associated with display.
For each entry in the
table, the first four KeySyms (groups 1 and 2) are interpreted as
specified by X Window System Protocol, Section 5. If no KeyCodes map to the
specified KeySym, keycount_return is zero and *keycodes_return is NULL.
The caller should free the storage pointed to by keycodes_return using
when it is no longer useful. If the caller needs to examine
the KeyCode-to-KeySym table for a particular KeyCode, it should call
.
Registering Button and Key Grabs for Actions
To register button and key grabs for a widget's window according to the
event bindings in the widget's translation table, use
.
void XtRegisterGrabAction
XtActionProc action_proc
Boolean owner_events
unsigned int event_mask
int pointer_mode
int keyboard_mode
action_proc
Specifies the action procedure to search for in translation tables.
owner_events
event_mask
pointer_mode
keyboard_mode
Specify arguments to
or
.
adds the specified action_proc to a list known to
the translation manager. When a widget is realized, or when the
translations of a realized widget or the accelerators installed on a
realized widget are modified, its translation table and any installed
accelerators are scanned for action procedures on this list.
If any are invoked on
ButtonPress
or
KeyPress
events as the only or final event
in a sequence, the Intrinsics will call
or
for the widget with every button or KeyCode which maps to the
event detail field, passing the specified owner_events, event_mask,
pointer_mode, and keyboard_mode. For
ButtonPress
events, the modifiers
specified in the grab are determined directly from the translation
specification and confine_to and cursor are specified as
None.
For
KeyPress
events, if the translation table entry specifies colon (:) in
the modifier list, the modifiers are determined by calling the key
translator procedure registered for the display and calling
for every combination of standard modifiers which map the KeyCode to
the specified event detail KeySym, and ORing any modifiers specified in
the translation table entry, and event_mask is ignored. If the
translation table entry does not specify colon in the modifier list,
the modifiers specified in the grab are those specified in the
translation table entry only. For both
ButtonPress
and
KeyPress
events, don't-care modifiers are ignored unless the translation entry
explicitly specifies “Any” in the modifiers field.
If the specified action_proc is already registered for the calling
process, the new values will replace the previously specified values
for any widgets that become realized following the call, but existing
grabs are not altered on currently realized widgets.
When translations or installed accelerators are modified for a
realized widget, any previous key or button grabs registered
as a result of the old bindings are released if they do not appear in
the new bindings and are not explicitly grabbed by the client with
or
.
Invoking Actions Directly
Normally action procedures are invoked by the Intrinsics when an
event or event sequence arrives for a widget. To
invoke an action procedure directly, without generating
(or synthesizing) events, use
.
void XtCallActionProc
Widget widget
const char * action
XEvent * event
String * params
Cardinal num_params
widget
Specifies the widget in which the action is to be invoked. Must be of class Core or any subclass thereof.
action
Specifies the name of the action routine.
event
Specifies the contents of the event passed to the action routine.
params
Specifies the contents of the params passed to the action routine.
num_params
Specifies the number of entries in params.
searches for the named action routine in the same
manner and order as translation tables are bound, as described in
Section 10.1.2, except that application action tables are searched, if
necessary, as of the time of the call to
.
If found,
the action routine is invoked with the specified widget, event pointer,
and parameters. It is the responsibility of the caller to ensure that
the contents of the event, params, and num_params arguments are
appropriate for the specified action routine and, if necessary, that
the specified widget is realized or sensitive. If the named action
routine cannot be found,
generates a warning message and returns.
Obtaining a Widget's Action List
Occasionally a subclass will require the pointers to one or more of
its superclass's action procedures. This would be needed, for
example, in order to envelop the superclass's action. To retrieve
the list of action procedures registered in the superclass's
actions field, use
.
void XtGetActionList
WidgetClass widget_class
XtActionList *actions_return
Cardinal *num_actions_return
widget_class
Specifies the widget class whose actions are to be returned.
actions_return
Returns the action list.
num_actions_return
Returns the number of action procedures declared by the class.
returns the action table defined by the specified
widget class. This table does not include actions defined by the
superclasses. If widget_class is not initialized, or is not
coreWidgetClass
or a subclass thereof, or if the class does not define any actions,
*actions_return will be NULL and *num_actions_return
will be zero.
If *actions_return is non-NULL the client is responsible for freeing
the table using
when it is no longer needed.