Hash :
77ab928e
Author :
Date :
2012-09-12T21:24:28
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/************************************************************
* Copyright (c) 1994 by Silicon Graphics Computer Systems, Inc.
*
* Permission to use, copy, modify, and distribute this
* software and its documentation for any purpose and without
* fee is hereby granted, provided that the above copyright
* notice appear in all copies and that both that copyright
* notice and this permission notice appear in supporting
* documentation, and that the name of Silicon Graphics not be
* used in advertising or publicity pertaining to distribution
* of the software without specific prior written permission.
* Silicon Graphics makes no representation about the suitability
* of this software for any purpose. It is provided "as is"
* without any express or implied warranty.
*
* SILICON GRAPHICS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS
* SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL SILICON
* GRAPHICS BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
* OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH
* THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
********************************************************/
#include "xkbcomp-priv.h"
#include "text.h"
#include "expr.h"
#include "keycodes.h"
#include "include.h"
/*
* The xkb_keycodes section
* ========================
*
* This is the simplest section type, and is the first one to be
* compiled. The purpose of this is mostly to map between the
* hardware/evdev scancodes and xkb keycodes. Each key is given a name
* of up to 4 letters, by which it can be referred to later, e.g. in the
* symbols section.
*
* Minimum/Maximum keycode
* -----------------------
* Statements of the form:
* minimum = 8;
* maximum = 255;
*
* The file may explicitly declare the minimum and/or maximum keycode
* contained therein (traditionally 8-255, inherited from old xfree86
* keycodes). If these are stated explicitly, they are enforced. If
* they are not stated, they are computed automatically.
*
* Keycode statements
* ------------------
* Statements of the form:
* <TLDE> = 49;
* <AE01> = 10;
*
* The above would let 49 and 10 be valid keycodes in the keymap, and
* assign them the names TLDE and AE01 respectively. The format <WXYZ> is
* always used to refer to a key by name.
*
* [ The naming convention <AE01> just denoted the position of the key
* in the main alphanumric section of the keyboard, with the top left key
* (usually "~") acting as origin. <AE01> is the key in the first row
* second column (which is usually "1"). ]
*
* In the common case this just maps to the evdev scancodes from
* /usr/include/linux/input.h, e.g. the following definitions:
* #define KEY_GRAVE 41
* #define KEY_1 2
* Similar definitions appear in the xf86-input-keyboard driver. Note
* that in all current keymaps there's a constant offset of 8 (for
* historical reasons).
*
* If there's a conflict, like the same name given to different keycodes,
* or same keycode given different names, it is resolved according to the
* merge mode which applies to the definitions.
*
* The reason for the 4 characters limit is that the name is sometimes
* converted to an unsigned long (in a direct mapping), instead of a char
* array (see KeyNameToLong, LongToKeyName).
*
* Alias statements
* ----------------
* Statements of the form:
* alias <MENU> = <COMP>;
*
* Allows to refer to a previously defined key (here <COMP>) by another
* name (here <MENU>). Conflicts are handled similarly.
*
* Indicator name statements
* -------------------------
* Statements of the form:
* indicator 1 = "Caps Lock";
* indicator 2 = "Num Lock";
* indicator 3 = "Scroll Lock";
*
* Assigns a name the indicator (i.e. keyboard LED) with the given index.
* The amount of possible indicators is predetermined (XKB_NUM_INDICATORS).
* The indicator may be referred by this name later in the compat section
* and by the user.
*
* Effect on the keymap
* --------------------
* After all of the xkb_keycodes sections have been compiled, the
* following members of struct xkb_keymap are finalized:
* xkb_keycode_t min_key_code;
* xkb_keycode_t max_key_code;
* darray(struct xkb_key_alias) key_aliases;
* char *keycodes_section_name;
* The 'name' field of indicators declared in xkb_keycodes:
* struct xkb_indicator_map indicators[XKB_NUM_INDICATORS];
* Further, the array of keys:
* darray(struct xkb_key) keys;
* had been resized to its final size (i.e. all of the xkb_key objects are
* referable by their keycode). However the objects themselves do not
* contain any useful information besides the key name at this point.
*/
typedef struct _AliasInfo {
enum merge_mode merge;
unsigned file_id;
unsigned long alias;
unsigned long real;
} AliasInfo;
typedef struct _IndicatorNameInfo {
enum merge_mode merge;
unsigned file_id;
xkb_atom_t name;
} IndicatorNameInfo;
typedef struct _KeyNamesInfo {
char *name; /* e.g. evdev+aliases(qwerty) */
int errorCount;
unsigned file_id;
enum merge_mode merge;
xkb_keycode_t computedMin; /* lowest keycode stored */
xkb_keycode_t computedMax; /* highest keycode stored */
xkb_keycode_t explicitMin;
xkb_keycode_t explicitMax;
darray(unsigned long) names;
darray(unsigned int) files;
IndicatorNameInfo indicator_names[XKB_NUM_INDICATORS];
darray(AliasInfo) aliases;
struct xkb_context *ctx;
} KeyNamesInfo;
static void
ResizeKeyNameArrays(KeyNamesInfo *info, int newMax)
{
if (newMax < darray_size(info->names))
return;
darray_resize0(info->names, newMax + 1);
darray_resize0(info->files, newMax + 1);
}
static void
InitAliasInfo(AliasInfo *info, enum merge_mode merge, unsigned file_id,
char alias[XKB_KEY_NAME_LENGTH], char real[XKB_KEY_NAME_LENGTH])
{
memset(info, 0, sizeof(*info));
info->merge = merge;
info->file_id = file_id;
info->alias = KeyNameToLong(alias);
info->real = KeyNameToLong(real);
}
static IndicatorNameInfo *
FindIndicatorByName(KeyNamesInfo *info, xkb_atom_t name,
xkb_led_index_t *idx_out)
{
xkb_led_index_t idx;
for (idx = 0; idx < XKB_NUM_INDICATORS; idx++) {
if (info->indicator_names[idx].name == name) {
*idx_out = idx;
return &info->indicator_names[idx];
}
}
return NULL;
}
static bool
AddIndicatorName(KeyNamesInfo *info, enum merge_mode merge,
IndicatorNameInfo *new, xkb_led_index_t new_idx)
{
xkb_led_index_t old_idx;
IndicatorNameInfo *old;
bool replace, report;
int verbosity = xkb_get_log_verbosity(info->ctx);
replace = (merge == MERGE_REPLACE) || (merge == MERGE_OVERRIDE);
old = FindIndicatorByName(info, new->name, &old_idx);
if (old) {
report = ((old->file_id == new->file_id && verbosity > 0) ||
verbosity > 9);
if (old_idx == new_idx) {
if (report)
log_warn(info->ctx, "Multiple indicators named %s; "
"Identical definitions ignored\n",
xkb_atom_text(info->ctx, new->name));
return true;
}
if (report)
log_warn(info->ctx, "Multiple indicators named %s; "
"Using %d, ignoring %d\n",
xkb_atom_text(info->ctx, new->name),
(replace ? old_idx + 1 : new_idx + 1),
(replace ? new_idx + 1 : old_idx + 1));
/*
* XXX: If in the next check we ignore new, than we will have
* deleted this old for nothing!
*/
if (replace)
memset(old, 0, sizeof(*old));
}
old = &info->indicator_names[new_idx];
if (old->name != XKB_ATOM_NONE) {
report = ((old->file_id == new->file_id && verbosity > 0) ||
verbosity > 9);
if (old->name == new->name) {
if (report)
log_warn(info->ctx, "Multiple names for indicator %d; "
"Identical definitions ignored\n", new_idx + 1);
}
else if (replace) {
if (report)
log_warn(info->ctx, "Multiple names for indicator %d; "
"Using %s, ignoring %s\n", new_idx + 1,
xkb_atom_text(info->ctx, new->name),
xkb_atom_text(info->ctx, old->name));
old->name = new->name;
}
else {
if (report)
log_warn(info->ctx, "Multiple names for indicator %d; "
"Using %s, ignoring %s\n", new_idx + 1,
xkb_atom_text(info->ctx, old->name),
xkb_atom_text(info->ctx, new->name));
}
return true;
}
info->indicator_names[new_idx] = *new;
return true;
}
static void
ClearKeyNamesInfo(KeyNamesInfo * info)
{
free(info->name);
info->name = NULL;
info->merge = MERGE_DEFAULT;
info->computedMax = info->explicitMax = info->explicitMin = 0;
info->computedMin = XKB_KEYCODE_MAX;
darray_free(info->names);
darray_free(info->files);
memset(info->indicator_names, 0, sizeof(info->indicator_names));
darray_free(info->aliases);
}
static void
InitKeyNamesInfo(KeyNamesInfo *info, struct xkb_context *ctx,
unsigned file_id)
{
info->name = NULL;
info->merge = MERGE_DEFAULT;
darray_init(info->aliases);
info->file_id = file_id;
darray_init(info->names);
darray_init(info->files);
ClearKeyNamesInfo(info);
info->errorCount = 0;
info->ctx = ctx;
}
static int
FindKeyByLong(KeyNamesInfo * info, unsigned long name)
{
xkb_keycode_t i;
for (i = info->computedMin; i <= info->computedMax; i++)
if (darray_item(info->names, i) == name)
return i;
return 0;
}
/**
* Store the name of the key as a long in the info struct under the given
* keycode. If the same keys is referred to twice, print a warning.
* Note that the key's name is stored as a long, the keycode is the index.
*/
static bool
AddKeyName(KeyNamesInfo *info, xkb_keycode_t kc, unsigned long name,
enum merge_mode merge, unsigned file_id, bool reportCollisions)
{
xkb_keycode_t old;
int verbosity = xkb_get_log_verbosity(info->ctx);
ResizeKeyNameArrays(info, kc);
if (kc < info->computedMin)
info->computedMin = kc;
if (kc > info->computedMax)
info->computedMax = kc;
if (reportCollisions)
reportCollisions = (verbosity > 7 ||
(verbosity > 0 &&
file_id == darray_item(info->files, kc)));
if (darray_item(info->names, kc) != 0) {
const char *lname = LongKeyNameText(darray_item(info->names, kc));
const char *kname = LongKeyNameText(name);
if (darray_item(info->names, kc) == name && reportCollisions) {
log_warn(info->ctx, "Multiple identical key name definitions; "
"Later occurences of \"%s = %d\" ignored\n", lname, kc);
return true;
}
if (merge == MERGE_AUGMENT) {
if (reportCollisions)
log_warn(info->ctx, "Multiple names for keycode %d; "
"Using %s, ignoring %s\n", kc, lname, kname);
return true;
}
else {
if (reportCollisions)
log_warn(info->ctx, "Multiple names for keycode %d; "
"Using %s, ignoring %s\n", kc, kname, lname);
darray_item(info->names, kc) = 0;
darray_item(info->files, kc) = 0;
}
}
old = FindKeyByLong(info, name);
if (old != 0 && old != kc) {
const char *kname = LongKeyNameText(name);
if (merge == MERGE_OVERRIDE) {
darray_item(info->names, old) = 0;
darray_item(info->files, old) = 0;
if (reportCollisions)
log_warn(info->ctx, "Key name %s assigned to multiple keys; "
"Using %d, ignoring %d\n", kname, kc, old);
}
else {
if (reportCollisions && verbosity > 3)
log_warn(info->ctx, "Key name %s assigned to multiple keys; "
"Using %d, ignoring %d\n", kname, old, kc);
return true;
}
}
darray_item(info->names, kc) = name;
darray_item(info->files, kc) = file_id;
return true;
}
/***====================================================================***/
static int
HandleAliasDef(KeyNamesInfo *info, KeyAliasDef *def, enum merge_mode merge,
unsigned file_id);
static bool
MergeAliases(KeyNamesInfo *into, KeyNamesInfo *from, enum merge_mode merge)
{
AliasInfo *alias;
KeyAliasDef def;
if (darray_empty(from->aliases))
return true;
if (darray_empty(into->aliases)) {
into->aliases = from->aliases;
darray_init(from->aliases);
return true;
}
memset(&def, 0, sizeof(def));
darray_foreach(alias, from->aliases) {
def.merge = (merge == MERGE_DEFAULT) ? alias->merge : merge;
LongToKeyName(alias->alias, def.alias);
LongToKeyName(alias->real, def.real);
if (!HandleAliasDef(into, &def, def.merge, alias->file_id))
return false;
}
return true;
}
static void
MergeIncludedKeycodes(KeyNamesInfo *into, KeyNamesInfo *from,
enum merge_mode merge)
{
xkb_keycode_t i;
xkb_led_index_t idx;
if (from->errorCount > 0) {
into->errorCount += from->errorCount;
return;
}
if (into->name == NULL) {
into->name = from->name;
from->name = NULL;
}
ResizeKeyNameArrays(into, from->computedMax);
for (i = from->computedMin; i <= from->computedMax; i++) {
unsigned long name = darray_item(from->names, i);
if (name == 0)
continue;
if (!AddKeyName(into, i, name, merge, from->file_id, false))
into->errorCount++;
}
for (idx = 0; idx < XKB_NUM_INDICATORS; idx++) {
IndicatorNameInfo *led = &from->indicator_names[idx];
if (led->name == XKB_ATOM_NONE)
continue;
led->merge = (merge == MERGE_DEFAULT ? led->merge : merge);
if (!AddIndicatorName(into, led->merge, led, idx))
into->errorCount++;
}
if (!MergeAliases(into, from, merge))
into->errorCount++;
if (from->explicitMin != 0)
if (into->explicitMin == 0 || into->explicitMin > from->explicitMin)
into->explicitMin = from->explicitMin;
if (from->explicitMax > 0)
if (into->explicitMax == 0 || into->explicitMax < from->explicitMax)
into->explicitMax = from->explicitMax;
}
static void
HandleKeycodesFile(KeyNamesInfo *info, XkbFile *file, enum merge_mode merge);
static bool
HandleIncludeKeycodes(KeyNamesInfo *info, IncludeStmt *stmt)
{
enum merge_mode merge = MERGE_DEFAULT;
XkbFile *rtrn;
KeyNamesInfo included, next_incl;
InitKeyNamesInfo(&included, info->ctx, info->file_id);
if (stmt->stmt) {
free(included.name);
included.name = stmt->stmt;
stmt->stmt = NULL;
}
for (; stmt; stmt = stmt->next_incl) {
if (!ProcessIncludeFile(info->ctx, stmt, FILE_TYPE_KEYCODES,
&rtrn, &merge)) {
info->errorCount += 10;
ClearKeyNamesInfo(&included);
return false;
}
InitKeyNamesInfo(&next_incl, info->ctx, rtrn->id);
HandleKeycodesFile(&next_incl, rtrn, MERGE_OVERRIDE);
MergeIncludedKeycodes(&included, &next_incl, merge);
ClearKeyNamesInfo(&next_incl);
FreeXkbFile(rtrn);
}
MergeIncludedKeycodes(info, &included, merge);
ClearKeyNamesInfo(&included);
return (info->errorCount == 0);
}
static int
HandleKeycodeDef(KeyNamesInfo *info, KeycodeDef *stmt, enum merge_mode merge)
{
if ((info->explicitMin != 0 && stmt->value < info->explicitMin) ||
(info->explicitMax != 0 && stmt->value > info->explicitMax)) {
log_err(info->ctx, "Illegal keycode %lu for name %s; "
"Must be in the range %d-%d inclusive\n",
stmt->value, KeyNameText(stmt->name), info->explicitMin,
info->explicitMax ? info->explicitMax : XKB_KEYCODE_MAX);
return 0;
}
if (stmt->merge != MERGE_DEFAULT) {
if (stmt->merge == MERGE_REPLACE)
merge = MERGE_OVERRIDE;
else
merge = stmt->merge;
}
return AddKeyName(info, stmt->value, KeyNameToLong(stmt->name), merge,
info->file_id, true);
}
static void
HandleAliasCollision(KeyNamesInfo *info, AliasInfo *old, AliasInfo *new)
{
int verbosity = xkb_get_log_verbosity(info->ctx);
bool report = ((new->file_id == old->file_id && verbosity > 0) ||
verbosity > 9);
if (new->real == old->real) {
if (report)
log_warn(info->ctx, "Alias of %s for %s declared more than once; "
"First definition ignored\n",
LongKeyNameText(new->alias), LongKeyNameText(new->real));
}
else {
unsigned long use, ignore;
use = (new->merge == MERGE_AUGMENT ? old->real : new->real);
ignore = (new->merge == MERGE_AUGMENT ? new->real : old->real);
if (report)
log_warn(info->ctx, "Multiple definitions for alias %s; "
"Using %s, ignoring %s\n",
LongKeyNameText(old->alias), LongKeyNameText(use),
LongKeyNameText(ignore));
old->real = use;
}
old->file_id = new->file_id;
old->merge = new->merge;
}
static int
HandleAliasDef(KeyNamesInfo *info, KeyAliasDef *def, enum merge_mode merge,
unsigned file_id)
{
AliasInfo *alias, new;
darray_foreach(alias, info->aliases) {
if (alias->alias == KeyNameToLong(def->alias)) {
InitAliasInfo(&new, merge, file_id, def->alias, def->real);
HandleAliasCollision(info, alias, &new);
return true;
}
}
InitAliasInfo(&new, merge, file_id, def->alias, def->real);
darray_append(info->aliases, new);
return true;
}
#define MIN_KEYCODE_DEF 0
#define MAX_KEYCODE_DEF 1
static int
HandleKeyNameVar(KeyNamesInfo *info, VarDef *stmt)
{
const char *elem, *field;
xkb_keycode_t kc;
ExprDef *arrayNdx;
int which;
if (!ExprResolveLhs(info->ctx, stmt->name, &elem, &field, &arrayNdx))
return false;
if (elem) {
log_err(info->ctx, "Unknown element %s encountered; "
"Default for field %s ignored\n", elem, field);
return false;
}
if (istreq(field, "minimum")) {
which = MIN_KEYCODE_DEF;
}
else if (istreq(field, "maximum")) {
which = MAX_KEYCODE_DEF;
}
else {
log_err(info->ctx, "Unknown field encountered; "
"Assigment to field %s ignored\n", field);
return false;
}
if (arrayNdx != NULL) {
log_err(info->ctx, "The %s setting is not an array; "
"Illegal array reference ignored\n", field);
return false;
}
if (!ExprResolveKeyCode(info->ctx, stmt->value, &kc)) {
log_err(info->ctx, "Illegal keycode encountered; "
"Assignment to field %s ignored\n", field);
return false;
}
if (kc > XKB_KEYCODE_MAX) {
log_err(info->ctx,
"Illegal keycode %d (must be in the range %d-%d inclusive); "
"Value of \"%s\" not changed\n",
kc, 0, XKB_KEYCODE_MAX, field);
return false;
}
if (which == MIN_KEYCODE_DEF) {
if (info->explicitMax > 0 && info->explicitMax < kc) {
log_err(info->ctx,
"Minimum key code (%d) must be <= maximum key code (%d); "
"Minimum key code value not changed\n",
kc, info->explicitMax);
return false;
}
if (info->computedMax > 0 && info->computedMin < kc) {
log_err(info->ctx,
"Minimum key code (%d) must be <= lowest defined key (%d); "
"Minimum key code value not changed\n",
kc, info->computedMin);
return false;
}
info->explicitMin = kc;
}
else if (which == MAX_KEYCODE_DEF) {
if (info->explicitMin > 0 && info->explicitMin > kc) {
log_err(info->ctx,
"Maximum code (%d) must be >= minimum key code (%d); "
"Maximum code value not changed\n",
kc, info->explicitMin);
return false;
}
if (info->computedMax > 0 && info->computedMax > kc) {
log_err(info->ctx,
"Maximum code (%d) must be >= highest defined key (%d); "
"Maximum code value not changed\n",
kc, info->computedMax);
return false;
}
info->explicitMax = kc;
}
return true;
}
static int
HandleIndicatorNameDef(KeyNamesInfo *info, IndicatorNameDef *def,
enum merge_mode merge)
{
IndicatorNameInfo ii;
xkb_atom_t name;
if (def->ndx < 1 || def->ndx > XKB_NUM_INDICATORS) {
info->errorCount++;
log_err(info->ctx,
"Name specified for illegal indicator index %d\n; Ignored\n",
def->ndx);
return false;
}
if (!ExprResolveString(info->ctx, def->name, &name)) {
char buf[20];
snprintf(buf, sizeof(buf), "%d", def->ndx);
info->errorCount++;
return ReportBadType(info->ctx, "indicator", "name", buf,
"string");
}
ii.merge = info->merge;
ii.file_id = info->file_id;
ii.name = name;
return AddIndicatorName(info, merge, &ii, def->ndx - 1);
}
static void
HandleKeycodesFile(KeyNamesInfo *info, XkbFile *file, enum merge_mode merge)
{
ParseCommon *stmt;
bool ok;
free(info->name);
info->name = strdup_safe(file->name);
for (stmt = file->defs; stmt; stmt = stmt->next) {
switch (stmt->type) {
case STMT_INCLUDE:
ok = HandleIncludeKeycodes(info, (IncludeStmt *) stmt);
break;
case STMT_KEYCODE:
ok = HandleKeycodeDef(info, (KeycodeDef *) stmt, merge);
break;
case STMT_ALIAS:
ok = HandleAliasDef(info, (KeyAliasDef *) stmt, merge,
info->file_id);
break;
case STMT_VAR:
ok = HandleKeyNameVar(info, (VarDef *) stmt);
break;
case STMT_INDICATOR_NAME:
ok = HandleIndicatorNameDef(info, (IndicatorNameDef *) stmt,
merge);
break;
default:
log_err(info->ctx,
"Keycode files may define key and indicator names only; "
"Ignoring %s\n", stmt_type_to_string(stmt->type));
ok = false;
break;
}
if (!ok)
info->errorCount++;
if (info->errorCount > 10) {
log_err(info->ctx, "Abandoning keycodes file \"%s\"\n",
file->topName);
break;
}
}
}
static void
ApplyAliases(KeyNamesInfo *info, struct xkb_keymap *keymap)
{
struct xkb_key *key;
struct xkb_key_alias *a, new;
AliasInfo *alias;
darray_foreach(alias, info->aliases) {
/* Check that ->real is a key. */
key = FindNamedKey(keymap, alias->real, false);
if (!key) {
log_vrb(info->ctx, 5,
"Attempt to alias %s to non-existent key %s; Ignored\n",
LongKeyNameText(alias->alias),
LongKeyNameText(alias->real));
continue;
}
/* Check that ->alias is not a key. */
key = FindNamedKey(keymap, alias->alias, false);
if (key) {
log_vrb(info->ctx, 5,
"Attempt to create alias with the name of a real key; "
"Alias \"%s = %s\" ignored\n",
LongKeyNameText(alias->alias),
LongKeyNameText(alias->real));
continue;
}
/* Check that ->alias in not already an alias, and if so handle it. */
darray_foreach(a, keymap->key_aliases) {
AliasInfo old_alias;
if (KeyNameToLong(a->alias) != alias->alias)
continue;
InitAliasInfo(&old_alias, MERGE_AUGMENT, 0, a->alias, a->real);
HandleAliasCollision(info, &old_alias, alias);
LongToKeyName(old_alias.alias, a->alias);
LongToKeyName(old_alias.real, a->real);
alias->alias = 0;
}
if (alias->alias == 0)
continue;
/* Add the alias. */
LongToKeyName(alias->alias, new.alias);
LongToKeyName(alias->real, new.real);
darray_append(keymap->key_aliases, new);
}
darray_free(info->aliases);
}
static bool
CopyKeyNamesToKeymap(struct xkb_keymap *keymap, KeyNamesInfo *info)
{
xkb_keycode_t kc;
xkb_led_index_t idx;
if (info->explicitMin > 0)
keymap->min_key_code = info->explicitMin;
else
keymap->min_key_code = info->computedMin;
if (info->explicitMax > 0)
keymap->max_key_code = info->explicitMax;
else
keymap->max_key_code = info->computedMax;
darray_resize0(keymap->keys, keymap->max_key_code + 1);
for (kc = info->computedMin; kc <= info->computedMax; kc++)
LongToKeyName(darray_item(info->names, kc),
XkbKey(keymap, kc)->name);
keymap->keycodes_section_name = strdup_safe(info->name);
for (idx = 0; idx < XKB_NUM_INDICATORS; idx++) {
IndicatorNameInfo *led = &info->indicator_names[idx];
if (led->name == XKB_ATOM_NONE)
continue;
keymap->indicators[idx].name = led->name;
}
ApplyAliases(info, keymap);
return true;
}
bool
CompileKeycodes(XkbFile *file, struct xkb_keymap *keymap,
enum merge_mode merge)
{
KeyNamesInfo info;
InitKeyNamesInfo(&info, keymap->ctx, file->id);
HandleKeycodesFile(&info, file, merge);
if (info.errorCount != 0)
goto err_info;
if (!CopyKeyNamesToKeymap(keymap, &info))
goto err_info;
ClearKeyNamesInfo(&info);
return true;
err_info:
ClearKeyNamesInfo(&info);
return false;
}
struct xkb_key *
FindNamedKey(struct xkb_keymap *keymap, unsigned long name, bool use_aliases)
{
struct xkb_key *key;
xkb_foreach_key(key, keymap)
if (KeyNameToLong(key->name) == name)
return key;
if (use_aliases) {
unsigned long new_name;
if (FindKeyNameForAlias(keymap, name, &new_name))
return FindNamedKey(keymap, new_name, false);
}
return NULL;
}
bool
FindKeyNameForAlias(struct xkb_keymap *keymap, unsigned long lname,
unsigned long *real_name)
{
char name[XKB_KEY_NAME_LENGTH];
struct xkb_key_alias *a;
LongToKeyName(lname, name);
darray_foreach(a, keymap->key_aliases) {
if (strncmp(name, a->alias, XKB_KEY_NAME_LENGTH) == 0) {
*real_name = KeyNameToLong(a->real);
return true;
}
}
return false;
}