Hash :
95e29079
Author :
Date :
2021-03-18T12:22:34
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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 Intel Corporation
* 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.
*
* Author: Daniel Stone <daniel@fooishbar.org>
* Ran Benita <ran234@gmail.com>
*/
#include "config.h"
#include "xkbcomp-priv.h"
#include "ast-build.h"
#include "include.h"
static ExprDef *
ExprCreate(enum expr_op_type op, enum expr_value_type type, size_t size)
{
ExprDef *expr = malloc(size);
if (!expr)
return NULL;
expr->common.type = STMT_EXPR;
expr->common.next = NULL;
expr->expr.op = op;
expr->expr.value_type = type;
return expr;
}
ExprDef *
ExprCreateString(xkb_atom_t str)
{
ExprDef *expr = ExprCreate(EXPR_VALUE, EXPR_TYPE_STRING, sizeof(ExprString));
if (!expr)
return NULL;
expr->string.str = str;
return expr;
}
ExprDef *
ExprCreateInteger(int ival)
{
ExprDef *expr = ExprCreate(EXPR_VALUE, EXPR_TYPE_INT, sizeof(ExprInteger));
if (!expr)
return NULL;
expr->integer.ival = ival;
return expr;
}
ExprDef *
ExprCreateFloat(void)
{
ExprDef *expr = ExprCreate(EXPR_VALUE, EXPR_TYPE_FLOAT, sizeof(ExprFloat));
if (!expr)
return NULL;
return expr;
}
ExprDef *
ExprCreateBoolean(bool set)
{
ExprDef *expr = ExprCreate(EXPR_VALUE, EXPR_TYPE_BOOLEAN, sizeof(ExprBoolean));
if (!expr)
return NULL;
expr->boolean.set = set;
return expr;
}
ExprDef *
ExprCreateKeyName(xkb_atom_t key_name)
{
ExprDef *expr = ExprCreate(EXPR_VALUE, EXPR_TYPE_KEYNAME, sizeof(ExprKeyName));
if (!expr)
return NULL;
expr->key_name.key_name = key_name;
return expr;
}
ExprDef *
ExprCreateIdent(xkb_atom_t ident)
{
ExprDef *expr = ExprCreate(EXPR_IDENT, EXPR_TYPE_UNKNOWN, sizeof(ExprIdent));
if (!expr)
return NULL;
expr->ident.ident = ident;
return expr;
}
ExprDef *
ExprCreateUnary(enum expr_op_type op, enum expr_value_type type,
ExprDef *child)
{
ExprDef *expr = ExprCreate(op, type, sizeof(ExprUnary));
if (!expr)
return NULL;
expr->unary.child = child;
return expr;
}
ExprDef *
ExprCreateBinary(enum expr_op_type op, ExprDef *left, ExprDef *right)
{
ExprDef *expr = ExprCreate(op, EXPR_TYPE_UNKNOWN, sizeof(ExprBinary));
if (!expr)
return NULL;
if (op == EXPR_ASSIGN || left->expr.value_type == EXPR_TYPE_UNKNOWN)
expr->expr.value_type = right->expr.value_type;
else if (left->expr.value_type == right->expr.value_type ||
right->expr.value_type == EXPR_TYPE_UNKNOWN)
expr->expr.value_type = left->expr.value_type;
expr->binary.left = left;
expr->binary.right = right;
return expr;
}
ExprDef *
ExprCreateFieldRef(xkb_atom_t element, xkb_atom_t field)
{
ExprDef *expr = ExprCreate(EXPR_FIELD_REF, EXPR_TYPE_UNKNOWN, sizeof(ExprFieldRef));
if (!expr)
return NULL;
expr->field_ref.element = element;
expr->field_ref.field = field;
return expr;
}
ExprDef *
ExprCreateArrayRef(xkb_atom_t element, xkb_atom_t field, ExprDef *entry)
{
ExprDef *expr = ExprCreate(EXPR_ARRAY_REF, EXPR_TYPE_UNKNOWN, sizeof(ExprArrayRef));
if (!expr)
return NULL;
expr->array_ref.element = element;
expr->array_ref.field = field;
expr->array_ref.entry = entry;
return expr;
}
ExprDef *
ExprCreateAction(xkb_atom_t name, ExprDef *args)
{
ExprDef *expr = ExprCreate(EXPR_ACTION_DECL, EXPR_TYPE_UNKNOWN, sizeof(ExprAction));
if (!expr)
return NULL;
expr->action.name = name;
expr->action.args = args;
return expr;
}
ExprDef *
ExprCreateActionList(ExprDef *actions)
{
ExprDef *expr = ExprCreate(EXPR_ACTION_LIST, EXPR_TYPE_ACTIONS, sizeof(ExprActionList));
if (!expr)
return NULL;
expr->actions.actions = actions;
return expr;
}
ExprDef *
ExprCreateKeysymList(xkb_keysym_t sym)
{
ExprDef *expr = ExprCreate(EXPR_KEYSYM_LIST, EXPR_TYPE_SYMBOLS, sizeof(ExprKeysymList));
if (!expr)
return NULL;
darray_init(expr->keysym_list.syms);
darray_init(expr->keysym_list.symsMapIndex);
darray_init(expr->keysym_list.symsNumEntries);
darray_append(expr->keysym_list.syms, sym);
darray_append(expr->keysym_list.symsMapIndex, 0);
darray_append(expr->keysym_list.symsNumEntries, 1);
return expr;
}
ExprDef *
ExprCreateMultiKeysymList(ExprDef *expr)
{
unsigned nLevels = darray_size(expr->keysym_list.symsMapIndex);
darray_resize(expr->keysym_list.symsMapIndex, 1);
darray_resize(expr->keysym_list.symsNumEntries, 1);
darray_item(expr->keysym_list.symsMapIndex, 0) = 0;
darray_item(expr->keysym_list.symsNumEntries, 0) = nLevels;
return expr;
}
ExprDef *
ExprAppendKeysymList(ExprDef *expr, xkb_keysym_t sym)
{
unsigned nSyms = darray_size(expr->keysym_list.syms);
darray_append(expr->keysym_list.symsMapIndex, nSyms);
darray_append(expr->keysym_list.symsNumEntries, 1);
darray_append(expr->keysym_list.syms, sym);
return expr;
}
ExprDef *
ExprAppendMultiKeysymList(ExprDef *expr, ExprDef *append)
{
unsigned nSyms = darray_size(expr->keysym_list.syms);
unsigned numEntries = darray_size(append->keysym_list.syms);
darray_append(expr->keysym_list.symsMapIndex, nSyms);
darray_append(expr->keysym_list.symsNumEntries, numEntries);
darray_concat(expr->keysym_list.syms, append->keysym_list.syms);
FreeStmt((ParseCommon *) append);
return expr;
}
KeycodeDef *
KeycodeCreate(xkb_atom_t name, int64_t value)
{
KeycodeDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_KEYCODE;
def->common.next = NULL;
def->name = name;
def->value = value;
return def;
}
KeyAliasDef *
KeyAliasCreate(xkb_atom_t alias, xkb_atom_t real)
{
KeyAliasDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_ALIAS;
def->common.next = NULL;
def->alias = alias;
def->real = real;
return def;
}
VModDef *
VModCreate(xkb_atom_t name, ExprDef *value)
{
VModDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_VMOD;
def->common.next = NULL;
def->name = name;
def->value = value;
return def;
}
VarDef *
VarCreate(ExprDef *name, ExprDef *value)
{
VarDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_VAR;
def->common.next = NULL;
def->name = name;
def->value = value;
return def;
}
VarDef *
BoolVarCreate(xkb_atom_t ident, bool set)
{
ExprDef *name, *value;
VarDef *def;
if (!(name = ExprCreateIdent(ident))) {
return NULL;
}
if (!(value = ExprCreateBoolean(set))) {
FreeStmt((ParseCommon *) name);
return NULL;
}
if (!(def = VarCreate(name, value))) {
FreeStmt((ParseCommon *) name);
FreeStmt((ParseCommon *) value);
return NULL;
}
return def;
}
InterpDef *
InterpCreate(xkb_keysym_t sym, ExprDef *match)
{
InterpDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_INTERP;
def->common.next = NULL;
def->sym = sym;
def->match = match;
def->def = NULL;
return def;
}
KeyTypeDef *
KeyTypeCreate(xkb_atom_t name, VarDef *body)
{
KeyTypeDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_TYPE;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->name = name;
def->body = body;
return def;
}
SymbolsDef *
SymbolsCreate(xkb_atom_t keyName, VarDef *symbols)
{
SymbolsDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_SYMBOLS;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->keyName = keyName;
def->symbols = symbols;
return def;
}
GroupCompatDef *
GroupCompatCreate(unsigned group, ExprDef *val)
{
GroupCompatDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_GROUP_COMPAT;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->group = group;
def->def = val;
return def;
}
ModMapDef *
ModMapCreate(xkb_atom_t modifier, ExprDef *keys)
{
ModMapDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_MODMAP;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->modifier = modifier;
def->keys = keys;
return def;
}
LedMapDef *
LedMapCreate(xkb_atom_t name, VarDef *body)
{
LedMapDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_LED_MAP;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->name = name;
def->body = body;
return def;
}
LedNameDef *
LedNameCreate(unsigned ndx, ExprDef *name, bool virtual)
{
LedNameDef *def = malloc(sizeof(*def));
if (!def)
return NULL;
def->common.type = STMT_LED_NAME;
def->common.next = NULL;
def->merge = MERGE_DEFAULT;
def->ndx = ndx;
def->name = name;
def->virtual = virtual;
return def;
}
static void
FreeInclude(IncludeStmt *incl);
IncludeStmt *
IncludeCreate(struct xkb_context *ctx, char *str, enum merge_mode merge)
{
IncludeStmt *incl, *first;
char *stmt, *tmp;
char nextop;
incl = first = NULL;
tmp = str;
stmt = strdup_safe(str);
while (tmp && *tmp)
{
char *file = NULL, *map = NULL, *extra_data = NULL;
if (!ParseIncludeMap(&tmp, &file, &map, &nextop, &extra_data))
goto err;
/*
* Given an RMLVO (here layout) like 'us,,fr', the rules parser
* will give out something like 'pc+us+:2+fr:3+inet(evdev)'.
* We should just skip the ':2' in this case and leave it to the
* appropriate section to deal with the empty group.
*/
if (isempty(file)) {
free(file);
free(map);
free(extra_data);
continue;
}
if (first == NULL) {
first = incl = malloc(sizeof(*first));
} else {
incl->next_incl = malloc(sizeof(*first));
incl = incl->next_incl;
}
if (!incl) {
free(file);
free(map);
free(extra_data);
break;
}
incl->common.type = STMT_INCLUDE;
incl->common.next = NULL;
incl->merge = merge;
incl->stmt = NULL;
incl->file = file;
incl->map = map;
incl->modifier = extra_data;
incl->next_incl = NULL;
if (nextop == '|')
merge = MERGE_AUGMENT;
else
merge = MERGE_OVERRIDE;
}
if (first)
first->stmt = stmt;
else
free(stmt);
return first;
err:
log_err(ctx, "Illegal include statement \"%s\"; Ignored\n", stmt);
FreeInclude(first);
free(stmt);
return NULL;
}
XkbFile *
XkbFileCreate(enum xkb_file_type type, char *name, ParseCommon *defs,
enum xkb_map_flags flags)
{
XkbFile *file;
file = calloc(1, sizeof(*file));
if (!file)
return NULL;
XkbEscapeMapName(name);
file->file_type = type;
file->name = name ? name : strdup("(unnamed)");
file->defs = defs;
file->flags = flags;
return file;
}
XkbFile *
XkbFileFromComponents(struct xkb_context *ctx,
const struct xkb_component_names *kkctgs)
{
char *const components[] = {
kkctgs->keycodes, kkctgs->types,
kkctgs->compat, kkctgs->symbols,
};
enum xkb_file_type type;
IncludeStmt *include = NULL;
XkbFile *file = NULL;
ParseCommon *defs = NULL, *defsLast = NULL;
for (type = FIRST_KEYMAP_FILE_TYPE; type <= LAST_KEYMAP_FILE_TYPE; type++) {
include = IncludeCreate(ctx, components[type], MERGE_DEFAULT);
if (!include)
goto err;
file = XkbFileCreate(type, NULL, (ParseCommon *) include, 0);
if (!file) {
FreeInclude(include);
goto err;
}
if (!defs)
defsLast = defs = &file->common;
else
defsLast = defsLast->next = &file->common;
}
file = XkbFileCreate(FILE_TYPE_KEYMAP, NULL, defs, 0);
if (!file)
goto err;
return file;
err:
FreeXkbFile((XkbFile *) defs);
return NULL;
}
static void
FreeExpr(ExprDef *expr)
{
if (!expr)
return;
switch (expr->expr.op) {
case EXPR_NEGATE:
case EXPR_UNARY_PLUS:
case EXPR_NOT:
case EXPR_INVERT:
FreeStmt((ParseCommon *) expr->unary.child);
break;
case EXPR_DIVIDE:
case EXPR_ADD:
case EXPR_SUBTRACT:
case EXPR_MULTIPLY:
case EXPR_ASSIGN:
FreeStmt((ParseCommon *) expr->binary.left);
FreeStmt((ParseCommon *) expr->binary.right);
break;
case EXPR_ACTION_DECL:
FreeStmt((ParseCommon *) expr->action.args);
break;
case EXPR_ACTION_LIST:
FreeStmt((ParseCommon *) expr->actions.actions);
break;
case EXPR_ARRAY_REF:
FreeStmt((ParseCommon *) expr->array_ref.entry);
break;
case EXPR_KEYSYM_LIST:
darray_free(expr->keysym_list.syms);
darray_free(expr->keysym_list.symsMapIndex);
darray_free(expr->keysym_list.symsNumEntries);
break;
default:
break;
}
}
static void
FreeInclude(IncludeStmt *incl)
{
IncludeStmt *next;
while (incl)
{
next = incl->next_incl;
free(incl->file);
free(incl->map);
free(incl->modifier);
free(incl->stmt);
free(incl);
incl = next;
}
}
void
FreeStmt(ParseCommon *stmt)
{
ParseCommon *next;
while (stmt)
{
next = stmt->next;
switch (stmt->type) {
case STMT_INCLUDE:
FreeInclude((IncludeStmt *) stmt);
/* stmt is already free'd here. */
stmt = NULL;
break;
case STMT_EXPR:
FreeExpr((ExprDef *) stmt);
break;
case STMT_VAR:
FreeStmt((ParseCommon *) ((VarDef *) stmt)->name);
FreeStmt((ParseCommon *) ((VarDef *) stmt)->value);
break;
case STMT_TYPE:
FreeStmt((ParseCommon *) ((KeyTypeDef *) stmt)->body);
break;
case STMT_INTERP:
FreeStmt((ParseCommon *) ((InterpDef *) stmt)->match);
FreeStmt((ParseCommon *) ((InterpDef *) stmt)->def);
break;
case STMT_VMOD:
FreeStmt((ParseCommon *) ((VModDef *) stmt)->value);
break;
case STMT_SYMBOLS:
FreeStmt((ParseCommon *) ((SymbolsDef *) stmt)->symbols);
break;
case STMT_MODMAP:
FreeStmt((ParseCommon *) ((ModMapDef *) stmt)->keys);
break;
case STMT_GROUP_COMPAT:
FreeStmt((ParseCommon *) ((GroupCompatDef *) stmt)->def);
break;
case STMT_LED_MAP:
FreeStmt((ParseCommon *) ((LedMapDef *) stmt)->body);
break;
case STMT_LED_NAME:
FreeStmt((ParseCommon *) ((LedNameDef *) stmt)->name);
break;
default:
break;
}
free(stmt);
stmt = next;
}
}
void
FreeXkbFile(XkbFile *file)
{
XkbFile *next;
while (file)
{
next = (XkbFile *) file->common.next;
switch (file->file_type) {
case FILE_TYPE_KEYMAP:
FreeXkbFile((XkbFile *) file->defs);
break;
case FILE_TYPE_TYPES:
case FILE_TYPE_COMPAT:
case FILE_TYPE_SYMBOLS:
case FILE_TYPE_KEYCODES:
case FILE_TYPE_GEOMETRY:
FreeStmt(file->defs);
break;
default:
break;
}
free(file->name);
free(file);
file = next;
}
}
static const char *xkb_file_type_strings[_FILE_TYPE_NUM_ENTRIES] = {
[FILE_TYPE_KEYCODES] = "xkb_keycodes",
[FILE_TYPE_TYPES] = "xkb_types",
[FILE_TYPE_COMPAT] = "xkb_compatibility",
[FILE_TYPE_SYMBOLS] = "xkb_symbols",
[FILE_TYPE_GEOMETRY] = "xkb_geometry",
[FILE_TYPE_KEYMAP] = "xkb_keymap",
[FILE_TYPE_RULES] = "rules",
};
const char *
xkb_file_type_to_string(enum xkb_file_type type)
{
if (type >= _FILE_TYPE_NUM_ENTRIES)
return "unknown";
return xkb_file_type_strings[type];
}
static const char *stmt_type_strings[_STMT_NUM_VALUES] = {
[STMT_UNKNOWN] = "unknown statement",
[STMT_INCLUDE] = "include statement",
[STMT_KEYCODE] = "key name definition",
[STMT_ALIAS] = "key alias definition",
[STMT_EXPR] = "expression",
[STMT_VAR] = "variable definition",
[STMT_TYPE] = "key type definition",
[STMT_INTERP] = "symbol interpretation definition",
[STMT_VMOD] = "virtual modifiers definition",
[STMT_SYMBOLS] = "key symbols definition",
[STMT_MODMAP] = "modifier map declaration",
[STMT_GROUP_COMPAT] = "group declaration",
[STMT_LED_MAP] = "indicator map declaration",
[STMT_LED_NAME] = "indicator name declaration",
};
const char *
stmt_type_to_string(enum stmt_type type)
{
if (type >= _STMT_NUM_VALUES)
return NULL;
return stmt_type_strings[type];
}
static const char *expr_op_type_strings[_EXPR_NUM_VALUES] = {
[EXPR_VALUE] = "literal",
[EXPR_IDENT] = "identifier",
[EXPR_ACTION_DECL] = "action declaration",
[EXPR_FIELD_REF] = "field reference",
[EXPR_ARRAY_REF] = "array reference",
[EXPR_KEYSYM_LIST] = "list of keysyms",
[EXPR_ACTION_LIST] = "list of actions",
[EXPR_ADD] = "addition",
[EXPR_SUBTRACT] = "subtraction",
[EXPR_MULTIPLY] = "multiplication",
[EXPR_DIVIDE] = "division",
[EXPR_ASSIGN] = "assignment",
[EXPR_NOT] = "logical negation",
[EXPR_NEGATE] = "arithmetic negation",
[EXPR_INVERT] = "bitwise inversion",
[EXPR_UNARY_PLUS] = "unary plus",
};
const char *
expr_op_type_to_string(enum expr_op_type type)
{
if (type >= _EXPR_NUM_VALUES)
return NULL;
return expr_op_type_strings[type];
}
static const char *expr_value_type_strings[_EXPR_TYPE_NUM_VALUES] = {
[EXPR_TYPE_UNKNOWN] = "unknown",
[EXPR_TYPE_BOOLEAN] = "boolean",
[EXPR_TYPE_INT] = "int",
[EXPR_TYPE_FLOAT] = "float",
[EXPR_TYPE_STRING] = "string",
[EXPR_TYPE_ACTION] = "action",
[EXPR_TYPE_ACTIONS] = "actions",
[EXPR_TYPE_KEYNAME] = "keyname",
[EXPR_TYPE_SYMBOLS] = "symbols",
};
const char *
expr_value_type_to_string(enum expr_value_type type)
{
if (type >= _EXPR_TYPE_NUM_VALUES)
return NULL;
return expr_value_type_strings[type];
}