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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.
*
********************************************************/
/*
* Copyright © 2012 Ran Benita <ran234@gmail.com>
*
* 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 conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include "xkbcomp-priv.h"
#include "text.h"
#include "expr.h"
#include "action.h"
#include "vmod.h"
#include "include.h"
/*
* The xkb_compat section
* =====================
* This section is the third to be processed, after xkb_keycodes and
* xkb_types.
*
* Interpret statements
* --------------------
* Statements of the form:
* interpret Num_Lock+Any { ... }
* interpret Shift_Lock+AnyOf(Shift+Lock) { ... }
*
* The xkb_symbols section (see symbols.c) allows the keymap author to do,
* among other things, the following for each key:
* - Bind an action, like SetMods or LockGroup, to the key. Actions, like
* symbols, are specified for each level of each group in the key
* separately.
* - Add a virtual modifier to the key's virtual modifier mapping (vmodmap).
* - Specify whether the key should repeat or not.
*
* However, doing this for each key (or level) is tedious and inflexible.
* Interpret's are a mechanism to apply these settings to a bunch of
* keys/levels at once.
*
* Each interpret specifies a condition by which it attaches to certain
* levels. The condition consists of two parts:
* - A keysym. If the level has a different (or more than one) keysym, the
* match failes. Leaving out the keysym is equivalent to using the
* NoSymbol keysym, which always matches successfully.
* - A modifier predicate. The predicate consists of a matching operation
* and a mask of (real) modifiers. The modifers are matched against the
* key's modifier map (modmap). The matching operation can be one of the
* following:
* + AnyOfOrNone - The modmap must either be empty or include at least
* one of the specified modifiers.
* + AnyOf - The modmap must include at least one of the specified
* modifiers.
* + NoneOf - The modmap must not include any of the specified modifiers.
* + AllOf - The modmap must include all of the specified modifiers (but
* may include others as well).
* + Exactly - The modmap must be exactly the same as the specified
* modifiers.
* Leaving out the predicate is equivalent to usign AnyOfOrNone while
* specifying all modifiers. Leaving out just the matching condtition
* is equivalent to using Exactly.
* An interpret may also include "useModMapMods = level1;" - see below.
*
* If a level fulfils the conditions of several interpret's, only the
* most specific one is used:
* - A specific keysym will always match before a generic NoSymbol
* condition.
* - If the keysyms are the same, the interpret with the more specific
* matching operation is used. The above list is sorted from least to
* most specific.
* - If both the keysyms and the matching operations are the same (but the
* modifiers are different), the first interpret is used.
*
* As described above, once an interpret "attaches" to a level, it can bind
* an action to that level, add one virtual modifier to the key's vmodmap,
* or set the key's repeat setting. You should note the following:
* - The key repeat is a property of the entire key; it is not level-specific.
* In order to avoid confusion, it is only inspected for the first level of
* the first group; the interpret's repeat setting is ignored when applied
* to other levels.
* - If one of the above fields was set directly for a key in xkb_symbols,
* the explicit setting takes precedence over the interpret.
*
* The body of the statment may include statements of the following
* forms (all of which are optional):
*
* - useModMapMods statement:
* useModMapMods = level1;
*
* When set to 'level1', the interpret will only match levels which are
* the first level of the first group of the keys. This can be useful in
* conjunction with e.g. a virtualModifier statement.
*
* - action statement:
* action = LockMods(modifiers=NumLock);
*
* Bind this action to the matching levels.
*
* - virtual modifier statement:
* virtualModifier = NumLock;
*
* Add this virtual modifier to the key's vmodmap. The given virtual
* modifier must be declared at the top level of the file with a
* virtual_modifiers statement, e.g.:
* virtual_modifiers NumLock;
*
* - repeat statement:
* repeat = True;
*
* Set whether the key should repeat or not. Must be a boolean value.
*
* Led map statements
* ------------------------
* Statements of the form:
* indicator "Shift Lock" { ... }
*
* This statement specifies the behavior and binding of the LED (a.k.a
* indicator) with the given name ("Shift Lock" above). The name should
* have been declared previously in the xkb_keycodes section (see Led
* name statement), and given an index there. If it wasn't, it is created
* with the next free index.
* The body of the statement describes the conditions of the keyboard
* state which will cause the LED to be lit. It may include the following
* statements:
*
* - modifiers statment:
* modifiers = ScrollLock;
*
* If the given modifiers are in the required state (see below), the
* led is lit.
*
* - whichModifierState statment:
* whichModState = Latched + Locked;
*
* Can be any combination of:
* base, latched, locked, effective
* any (i.e. all of the above)
* none (i.e. none of the above)
* compat (legacy value, treated as effective)
* This will cause the respective portion of the modifer state (see
* struct xkb_state) to be matched against the modifiers given in the
* "modifiers" statement.
*
* Here's a simple example:
* indicator "Num Lock" {
* modifiers = NumLock;
* whichModState = Locked;
* };
* Whenever the NumLock modifier is locked, the Num Lock LED will light
* up.
*
* - groups statment:
* groups = All - group1;
*
* If the given groups are in the required state (see below), the led
* is lit.
*
* - whichGroupState statment:
* whichGroupState = Effective;
*
* Can be any combination of:
* base, latched, locked, effective
* any (i.e. all of the above)
* none (i.e. none of the above)
* This will cause the respective portion of the group state (see
* struct xkb_state) to be matched against the groups given in the
* "groups" statement.
*
* Note: the above conditions are disjunctive, i.e. if any of them are
* satisfied the led is lit.
*
* Virtual modifier statements
* ---------------------------
* Statements of the form:
* virtual_modifiers LControl;
*
* Can appear in the xkb_types, xkb_compat, xkb_symbols sections.
* TODO
*
* Effect on keymap
* ----------------
* After all of the xkb_compat sections have been compiled, the following
* members of struct xkb_keymap are finalized:
* darray(struct xkb_sym_interpret) sym_interprets;
* darray(struct xkb_led) leds;
* char *compat_section_name;
* TODO: virtual modifiers.
*/
enum si_field {
SI_FIELD_VIRTUAL_MOD = (1 << 0),
SI_FIELD_ACTION = (1 << 1),
SI_FIELD_AUTO_REPEAT = (1 << 2),
SI_FIELD_LEVEL_ONE_ONLY = (1 << 3),
};
typedef struct {
enum si_field defined;
enum merge_mode merge;
struct xkb_sym_interpret interp;
} SymInterpInfo;
enum led_field {
LED_FIELD_MODS = (1 << 0),
LED_FIELD_GROUPS = (1 << 1),
LED_FIELD_CTRLS = (1 << 2),
};
typedef struct {
enum led_field defined;
enum merge_mode merge;
struct xkb_led led;
} LedInfo;
typedef struct {
char *name;
int errorCount;
SymInterpInfo default_interp;
darray(SymInterpInfo) interps;
LedInfo default_led;
darray(LedInfo) leds;
ActionsInfo *actions;
struct xkb_keymap *keymap;
} CompatInfo;
static const char *
siText(SymInterpInfo *si, CompatInfo *info)
{
char *buf = xkb_context_get_buffer(info->keymap->ctx, 128);
if (si == &info->default_interp)
return "default";
snprintf(buf, 128, "%s+%s(%s)",
KeysymText(info->keymap->ctx, si->interp.sym),
SIMatchText(si->interp.match),
ModMaskText(info->keymap, si->interp.mods));
return buf;
}
static inline bool
ReportSINotArray(CompatInfo *info, SymInterpInfo *si, const char *field)
{
return ReportNotArray(info->keymap->ctx, "symbol interpretation", field,
siText(si, info));
}
static inline bool
ReportSIBadType(CompatInfo *info, SymInterpInfo *si, const char *field,
const char *wanted)
{
return ReportBadType(info->keymap->ctx, "symbol interpretation", field,
siText(si, info), wanted);
}
static inline bool
ReportLedBadType(CompatInfo *info, LedInfo *ledi, const char *field,
const char *wanted)
{
return ReportBadType(info->keymap->ctx, "indicator map", field,
xkb_atom_text(info->keymap->ctx, ledi->led.name),
wanted);
}
static inline bool
ReportLedNotArray(CompatInfo *info, LedInfo *ledi, const char *field)
{
return ReportNotArray(info->keymap->ctx, "indicator map", field,
xkb_atom_text(info->keymap->ctx, ledi->led.name));
}
static void
InitCompatInfo(CompatInfo *info, struct xkb_keymap *keymap,
ActionsInfo *actions)
{
memset(info, 0, sizeof(*info));
info->keymap = keymap;
info->actions = actions;
info->default_interp.merge = MERGE_OVERRIDE;
info->default_interp.interp.virtual_mod = XKB_MOD_INVALID;
info->default_led.merge = MERGE_OVERRIDE;
}
static void
ClearCompatInfo(CompatInfo *info)
{
free(info->name);
darray_free(info->interps);
darray_free(info->leds);
}
static SymInterpInfo *
FindMatchingInterp(CompatInfo *info, SymInterpInfo *new)
{
SymInterpInfo *old;
darray_foreach(old, info->interps)
if (old->interp.sym == new->interp.sym &&
old->interp.mods == new->interp.mods &&
old->interp.match == new->interp.match)
return old;
return NULL;
}
static bool
UseNewInterpField(enum si_field field, SymInterpInfo *old, SymInterpInfo *new,
bool report, enum si_field *collide)
{
if (!(old->defined & field))
return true;
if (new->defined & field) {
if (report)
*collide |= field;
if (new->merge != MERGE_AUGMENT)
return true;
}
return false;
}
static bool
AddInterp(CompatInfo *info, SymInterpInfo *new, bool same_file)
{
SymInterpInfo *old = FindMatchingInterp(info, new);
if (old) {
const int verbosity = xkb_context_get_log_verbosity(info->keymap->ctx);
const bool report = (same_file && verbosity > 0) || verbosity > 9;
enum si_field collide = 0;
if (new->merge == MERGE_REPLACE) {
if (report)
log_warn(info->keymap->ctx,
"Multiple definitions for \"%s\"; "
"Earlier interpretation ignored\n",
siText(new, info));
*old = *new;
return true;
}
if (UseNewInterpField(SI_FIELD_VIRTUAL_MOD, old, new, report,
&collide)) {
old->interp.virtual_mod = new->interp.virtual_mod;
old->defined |= SI_FIELD_VIRTUAL_MOD;
}
if (UseNewInterpField(SI_FIELD_ACTION, old, new, report,
&collide)) {
old->interp.action = new->interp.action;
old->defined |= SI_FIELD_ACTION;
}
if (UseNewInterpField(SI_FIELD_AUTO_REPEAT, old, new, report,
&collide)) {
old->interp.repeat = new->interp.repeat;
old->defined |= SI_FIELD_AUTO_REPEAT;
}
if (UseNewInterpField(SI_FIELD_LEVEL_ONE_ONLY, old, new, report,
&collide)) {
old->interp.level_one_only = new->interp.level_one_only;
old->defined |= SI_FIELD_LEVEL_ONE_ONLY;
}
if (collide) {
log_warn(info->keymap->ctx,
"Multiple interpretations of \"%s\"; "
"Using %s definition for duplicate fields\n",
siText(new, info),
(new->merge != MERGE_AUGMENT ? "last" : "first"));
}
return true;
}
darray_append(info->interps, *new);
return true;
}
/***====================================================================***/
static bool
ResolveStateAndPredicate(ExprDef *expr, enum xkb_match_operation *pred_rtrn,
xkb_mod_mask_t *mods_rtrn, CompatInfo *info)
{
if (expr == NULL) {
*pred_rtrn = MATCH_ANY_OR_NONE;
*mods_rtrn = MOD_REAL_MASK_ALL;
return true;
}
*pred_rtrn = MATCH_EXACTLY;
if (expr->op == EXPR_ACTION_DECL) {
const char *pred_txt = xkb_atom_text(info->keymap->ctx,
expr->value.action.name);
if (!LookupString(symInterpretMatchMaskNames, pred_txt, pred_rtrn)) {
log_err(info->keymap->ctx,
"Illegal modifier predicate \"%s\"; Ignored\n", pred_txt);
return false;
}
expr = expr->value.action.args;
}
else if (expr->op == EXPR_IDENT) {
const char *pred_txt = xkb_atom_text(info->keymap->ctx,
expr->value.str);
if (pred_txt && istreq(pred_txt, "any")) {
*pred_rtrn = MATCH_ANY;
*mods_rtrn = MOD_REAL_MASK_ALL;
return true;
}
}
return ExprResolveModMask(info->keymap, expr, MOD_REAL, mods_rtrn);
}
/***====================================================================***/
static bool
UseNewLEDField(enum led_field field, LedInfo *old, LedInfo *new,
bool report, enum led_field *collide)
{
if (!(old->defined & field))
return true;
if (new->defined & field) {
if (report)
*collide |= field;
if (new->merge != MERGE_AUGMENT)
return true;
}
return false;
}
static bool
AddLedMap(CompatInfo *info, LedInfo *new, bool same_file)
{
LedInfo *old;
enum led_field collide;
struct xkb_context *ctx = info->keymap->ctx;
const int verbosity = xkb_context_get_log_verbosity(ctx);
const bool report = (same_file && verbosity > 0) || verbosity > 9;
darray_foreach(old, info->leds) {
if (old->led.name != new->led.name)
continue;
if (old->led.mods.mods == new->led.mods.mods &&
old->led.groups == new->led.groups &&
old->led.ctrls == new->led.ctrls &&
old->led.which_mods == new->led.which_mods &&
old->led.which_groups == new->led.which_groups) {
old->defined |= new->defined;
return true;
}
if (new->merge == MERGE_REPLACE) {
if (report)
log_warn(info->keymap->ctx,
"Map for indicator %s redefined; "
"Earlier definition ignored\n",
xkb_atom_text(ctx, old->led.name));
*old = *new;
return true;
}
collide = 0;
if (UseNewLEDField(LED_FIELD_MODS, old, new, report, &collide)) {
old->led.which_mods = new->led.which_mods;
old->led.mods = new->led.mods;
old->defined |= LED_FIELD_MODS;
}
if (UseNewLEDField(LED_FIELD_GROUPS, old, new, report, &collide)) {
old->led.which_groups = new->led.which_groups;
old->led.groups = new->led.groups;
old->defined |= LED_FIELD_GROUPS;
}
if (UseNewLEDField(LED_FIELD_CTRLS, old, new, report, &collide)) {
old->led.ctrls = new->led.ctrls;
old->defined |= LED_FIELD_CTRLS;
}
if (collide) {
log_warn(info->keymap->ctx,
"Map for indicator %s redefined; "
"Using %s definition for duplicate fields\n",
xkb_atom_text(ctx, old->led.name),
(new->merge == MERGE_AUGMENT ? "first" : "last"));
}
return true;
}
darray_append(info->leds, *new);
return true;
}
static void
MergeIncludedCompatMaps(CompatInfo *into, CompatInfo *from,
enum merge_mode merge)
{
SymInterpInfo *si;
LedInfo *ledi;
if (from->errorCount > 0) {
into->errorCount += from->errorCount;
return;
}
if (into->name == NULL) {
into->name = from->name;
from->name = NULL;
}
darray_foreach(si, from->interps) {
si->merge = (merge == MERGE_DEFAULT ? si->merge : merge);
if (!AddInterp(into, si, false))
into->errorCount++;
}
darray_foreach(ledi, from->leds) {
ledi->merge = (merge == MERGE_DEFAULT ? ledi->merge : merge);
if (!AddLedMap(into, ledi, false))
into->errorCount++;
}
}
static void
HandleCompatMapFile(CompatInfo *info, XkbFile *file, enum merge_mode merge);
static bool
HandleIncludeCompatMap(CompatInfo *info, IncludeStmt *include)
{
CompatInfo included;
InitCompatInfo(&included, info->keymap, info->actions);
included.name = include->stmt;
include->stmt = NULL;
for (IncludeStmt *stmt = include; stmt; stmt = stmt->next_incl) {
CompatInfo next_incl;
XkbFile *file;
file = ProcessIncludeFile(info->keymap->ctx, stmt, FILE_TYPE_COMPAT);
if (!file) {
info->errorCount += 10;
ClearCompatInfo(&included);
return false;
}
InitCompatInfo(&next_incl, info->keymap, info->actions);
next_incl.default_interp = info->default_interp;
next_incl.default_interp.merge = stmt->merge;
next_incl.default_led = info->default_led;
next_incl.default_led.merge = stmt->merge;
HandleCompatMapFile(&next_incl, file, MERGE_OVERRIDE);
MergeIncludedCompatMaps(&included, &next_incl, stmt->merge);
ClearCompatInfo(&next_incl);
FreeXkbFile(file);
}
MergeIncludedCompatMaps(info, &included, include->merge);
ClearCompatInfo(&included);
return (info->errorCount == 0);
}
static bool
SetInterpField(CompatInfo *info, SymInterpInfo *si, const char *field,
ExprDef *arrayNdx, ExprDef *value)
{
struct xkb_keymap *keymap = info->keymap;
xkb_mod_index_t ndx;
if (istreq(field, "action")) {
if (arrayNdx)
return ReportSINotArray(info, si, field);
if (!HandleActionDef(value, keymap, &si->interp.action, info->actions))
return false;
si->defined |= SI_FIELD_ACTION;
}
else if (istreq(field, "virtualmodifier") ||
istreq(field, "virtualmod")) {
if (arrayNdx)
return ReportSINotArray(info, si, field);
if (!ExprResolveMod(keymap, value, MOD_VIRT, &ndx))
return ReportSIBadType(info, si, field, "virtual modifier");
si->interp.virtual_mod = ndx;
si->defined |= SI_FIELD_VIRTUAL_MOD;
}
else if (istreq(field, "repeat")) {
bool set;
if (arrayNdx)
return ReportSINotArray(info, si, field);
if (!ExprResolveBoolean(keymap->ctx, value, &set))
return ReportSIBadType(info, si, field, "boolean");
si->interp.repeat = set;
si->defined |= SI_FIELD_AUTO_REPEAT;
}
else if (istreq(field, "locking")) {
log_dbg(info->keymap->ctx,
"The \"locking\" field in symbol interpretation is unsupported; "
"Ignored\n");
}
else if (istreq(field, "usemodmap") ||
istreq(field, "usemodmapmods")) {
unsigned int val;
if (arrayNdx)
return ReportSINotArray(info, si, field);
if (!ExprResolveEnum(keymap->ctx, value, &val, useModMapValueNames))
return ReportSIBadType(info, si, field, "level specification");
si->interp.level_one_only = !!val;
si->defined |= SI_FIELD_LEVEL_ONE_ONLY;
}
else {
return ReportBadField(keymap->ctx, "symbol interpretation", field,
siText(si, info));
}
return true;
}
static bool
SetLedMapField(CompatInfo *info, LedInfo *ledi, const char *field,
ExprDef *arrayNdx, ExprDef *value)
{
bool ok = true;
struct xkb_keymap *keymap = info->keymap;
if (istreq(field, "modifiers") || istreq(field, "mods")) {
if (arrayNdx)
return ReportLedNotArray(info, ledi, field);
if (!ExprResolveModMask(keymap, value, MOD_BOTH, &ledi->led.mods.mods))
return ReportLedBadType(info, ledi, field, "modifier mask");
ledi->defined |= LED_FIELD_MODS;
}
else if (istreq(field, "groups")) {
unsigned int mask;
if (arrayNdx)
return ReportLedNotArray(info, ledi, field);
if (!ExprResolveMask(keymap->ctx, value, &mask, groupMaskNames))
return ReportLedBadType(info, ledi, field, "group mask");
ledi->led.groups = mask;
ledi->defined |= LED_FIELD_GROUPS;
}
else if (istreq(field, "controls") || istreq(field, "ctrls")) {
unsigned int mask;
if (arrayNdx)
return ReportLedNotArray(info, ledi, field);
if (!ExprResolveMask(keymap->ctx, value, &mask, ctrlMaskNames))
return ReportLedBadType(info, ledi, field, "controls mask");
ledi->led.ctrls = mask;
ledi->defined |= LED_FIELD_CTRLS;
}
else if (istreq(field, "allowexplicit")) {
log_dbg(info->keymap->ctx,
"The \"allowExplicit\" field in indicator statements is unsupported; "
"Ignored\n");
}
else if (istreq(field, "whichmodstate") ||
istreq(field, "whichmodifierstate")) {
unsigned int mask;
if (arrayNdx)
return ReportLedNotArray(info, ledi, field);
if (!ExprResolveMask(keymap->ctx, value, &mask,
modComponentMaskNames))
return ReportLedBadType(info, ledi, field,
"mask of modifier state components");
ledi->led.which_mods = mask;
}
else if (istreq(field, "whichgroupstate")) {
unsigned mask;
if (arrayNdx)
return ReportLedNotArray(info, ledi, field);
if (!ExprResolveMask(keymap->ctx, value, &mask,
groupComponentMaskNames))
return ReportLedBadType(info, ledi, field,
"mask of group state components");
ledi->led.which_groups = mask;
}
else if (istreq(field, "driveskbd") ||
istreq(field, "driveskeyboard") ||
istreq(field, "leddriveskbd") ||
istreq(field, "leddriveskeyboard") ||
istreq(field, "indicatordriveskbd") ||
istreq(field, "indicatordriveskeyboard")) {
log_dbg(info->keymap->ctx,
"The \"%s\" field in indicator statements is unsupported; "
"Ignored\n", field);
}
else if (istreq(field, "index")) {
/* Users should see this, it might cause unexpected behavior. */
log_err(info->keymap->ctx,
"The \"index\" field in indicator statements is unsupported; "
"Ignored\n");
}
else {
log_err(info->keymap->ctx,
"Unknown field %s in map for %s indicator; "
"Definition ignored\n",
field, xkb_atom_text(keymap->ctx, ledi->led.name));
ok = false;
}
return ok;
}
static bool
HandleGlobalVar(CompatInfo *info, VarDef *stmt)
{
const char *elem, *field;
ExprDef *ndx;
bool ret;
if (!ExprResolveLhs(info->keymap->ctx, stmt->name, &elem, &field, &ndx))
ret = false;
else if (elem && istreq(elem, "interpret"))
ret = SetInterpField(info, &info->default_interp, field, ndx,
stmt->value);
else if (elem && istreq(elem, "indicator"))
ret = SetLedMapField(info, &info->default_led, field, ndx,
stmt->value);
else
ret = SetActionField(info->keymap, elem, field, ndx, stmt->value,
info->actions);
return ret;
}
static bool
HandleInterpBody(CompatInfo *info, VarDef *def, SymInterpInfo *si)
{
bool ok = true;
const char *elem, *field;
ExprDef *arrayNdx;
for (; def; def = (VarDef *) def->common.next) {
if (def->name && def->name->op == EXPR_FIELD_REF) {
log_err(info->keymap->ctx,
"Cannot set a global default value from within an interpret statement; "
"Move statements to the global file scope\n");
ok = false;
continue;
}
ok = ExprResolveLhs(info->keymap->ctx, def->name, &elem, &field,
&arrayNdx);
if (!ok)
continue;
ok = SetInterpField(info, si, field, arrayNdx, def->value);
}
return ok;
}
static bool
HandleInterpDef(CompatInfo *info, InterpDef *def, enum merge_mode merge)
{
enum xkb_match_operation pred;
xkb_mod_mask_t mods;
SymInterpInfo si;
if (!ResolveStateAndPredicate(def->match, &pred, &mods, info)) {
log_err(info->keymap->ctx,
"Couldn't determine matching modifiers; "
"Symbol interpretation ignored\n");
return false;
}
si = info->default_interp;
si.merge = merge = (def->merge == MERGE_DEFAULT ? merge : def->merge);
if (!LookupKeysym(def->sym, &si.interp.sym)) {
log_err(info->keymap->ctx,
"Could not resolve keysym %s; "
"Symbol interpretation ignored\n",
def->sym);
return false;
}
si.interp.match = pred;
si.interp.mods = mods;
if (!HandleInterpBody(info, def->def, &si)) {
info->errorCount++;
return false;
}
if (!AddInterp(info, &si, true)) {
info->errorCount++;
return false;
}
return true;
}
static bool
HandleLedMapDef(CompatInfo *info, LedMapDef *def, enum merge_mode merge)
{
LedInfo ledi;
VarDef *var;
bool ok;
if (def->merge != MERGE_DEFAULT)
merge = def->merge;
ledi = info->default_led;
ledi.merge = merge;
ledi.led.name = def->name;
ok = true;
for (var = def->body; var != NULL; var = (VarDef *) var->common.next) {
const char *elem, *field;
ExprDef *arrayNdx;
if (!ExprResolveLhs(info->keymap->ctx, var->name, &elem, &field,
&arrayNdx)) {
ok = false;
continue;
}
if (elem) {
log_err(info->keymap->ctx,
"Cannot set defaults for \"%s\" element in indicator map; "
"Assignment to %s.%s ignored\n", elem, elem, field);
ok = false;
}
else {
ok = SetLedMapField(info, &ledi, field, arrayNdx, var->value) && ok;
}
}
if (ok)
return AddLedMap(info, &ledi, true);
return false;
}
static void
HandleCompatMapFile(CompatInfo *info, XkbFile *file, enum merge_mode merge)
{
bool ok;
merge = (merge == MERGE_DEFAULT ? MERGE_AUGMENT : merge);
free(info->name);
info->name = strdup_safe(file->name);
for (ParseCommon *stmt = file->defs; stmt; stmt = stmt->next) {
switch (stmt->type) {
case STMT_INCLUDE:
ok = HandleIncludeCompatMap(info, (IncludeStmt *) stmt);
break;
case STMT_INTERP:
ok = HandleInterpDef(info, (InterpDef *) stmt, merge);
break;
case STMT_GROUP_COMPAT:
log_dbg(info->keymap->ctx,
"The \"group\" statement in compat is unsupported; "
"Ignored\n");
ok = true;
break;
case STMT_LED_MAP:
ok = HandleLedMapDef(info, (LedMapDef *) stmt, merge);
break;
case STMT_VAR:
ok = HandleGlobalVar(info, (VarDef *) stmt);
break;
case STMT_VMOD:
ok = HandleVModDef(info->keymap, (VModDef *) stmt);
break;
default:
log_err(info->keymap->ctx,
"Interpretation files may not include other types; "
"Ignoring %s\n", stmt_type_to_string(stmt->type));
ok = false;
break;
}
if (!ok)
info->errorCount++;
if (info->errorCount > 10) {
log_err(info->keymap->ctx,
"Abandoning compatibility map \"%s\"\n", file->topName);
break;
}
}
}
static void
CopyInterps(CompatInfo *info, bool needSymbol, enum xkb_match_operation pred)
{
SymInterpInfo *si;
darray_foreach(si, info->interps)
if (si->interp.match == pred &&
(si->interp.sym != XKB_KEY_NoSymbol) == needSymbol)
darray_append(info->keymap->sym_interprets, si->interp);
}
static void
CopyLedMapDefs(CompatInfo *info)
{
LedInfo *ledi;
xkb_led_index_t i;
struct xkb_led *led;
struct xkb_keymap *keymap = info->keymap;
darray_foreach(ledi, info->leds) {
/*
* Find the LED with the given name, if it was already declared
* in keycodes.
*/
darray_enumerate(i, led, keymap->leds)
if (led->name == ledi->led.name)
break;
/* Not previously declared; create it with next free index. */
if (i >= darray_size(keymap->leds)) {
log_dbg(keymap->ctx,
"Indicator name \"%s\" was not declared in the keycodes section; "
"Adding new indicator\n",
xkb_atom_text(keymap->ctx, ledi->led.name));
darray_enumerate(i, led, keymap->leds)
if (led->name == XKB_ATOM_NONE)
break;
if (i >= darray_size(keymap->leds)) {
/* Not place to put it; ignore. */
if (i >= XKB_MAX_LEDS) {
log_err(keymap->ctx,
"Too many indicators (maximum is %d); "
"Indicator name \"%s\" ignored\n",
XKB_MAX_LEDS,
xkb_atom_text(keymap->ctx, ledi->led.name));
continue;
}
/* Add a new LED. */
darray_resize(keymap->leds, i + 1);
led = &darray_item(keymap->leds, i);
}
}
*led = ledi->led;
if (led->groups != 0 && led->which_groups == 0)
led->which_groups = XKB_STATE_LAYOUT_EFFECTIVE;
if (led->mods.mods != 0 && led->which_mods == 0)
led->which_mods = XKB_STATE_MODS_EFFECTIVE;
}
}
static bool
CopyCompatToKeymap(struct xkb_keymap *keymap, CompatInfo *info)
{
keymap->compat_section_name = strdup_safe(info->name);
if (!darray_empty(info->interps)) {
/* Most specific to least specific. */
CopyInterps(info, true, MATCH_EXACTLY);
CopyInterps(info, true, MATCH_ALL);
CopyInterps(info, true, MATCH_NONE);
CopyInterps(info, true, MATCH_ANY);
CopyInterps(info, true, MATCH_ANY_OR_NONE);
CopyInterps(info, false, MATCH_EXACTLY);
CopyInterps(info, false, MATCH_ALL);
CopyInterps(info, false, MATCH_NONE);
CopyInterps(info, false, MATCH_ANY);
CopyInterps(info, false, MATCH_ANY_OR_NONE);
}
CopyLedMapDefs(info);
return true;
}
bool
CompileCompatMap(XkbFile *file, struct xkb_keymap *keymap,
enum merge_mode merge)
{
CompatInfo info;
ActionsInfo *actions;
actions = NewActionsInfo();
if (!actions)
return false;
InitCompatInfo(&info, keymap, actions);
info.default_interp.merge = merge;
info.default_led.merge = merge;
HandleCompatMapFile(&info, file, merge);
if (info.errorCount != 0)
goto err_info;
if (!CopyCompatToKeymap(keymap, &info))
goto err_info;
ClearCompatInfo(&info);
FreeActionsInfo(actions);
return true;
err_info:
ClearCompatInfo(&info);
FreeActionsInfo(actions);
return false;
}
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