libxkbcommon/src/xkbcomp/parseutils.c

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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
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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.
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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.
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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
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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 "parseutils.h"
#include "xkbmisc.h"
#include "xkbpath.h"
#include "xkbparse.h"
#include <X11/keysym.h>
#include <X11/Xalloca.h>
XkbFile *rtrnValue;
ParseCommon *
AppendStmt(ParseCommon * to, ParseCommon * append)
{
ParseCommon *start = to;
if (append == NULL)
return to;
while ((to != NULL) && (to->next != NULL))
{
to = to->next;
}
if (to)
{
to->next = append;
return start;
}
return append;
}
ExprDef *
ExprCreate(unsigned op, unsigned type)
{
ExprDef *expr;
expr = uTypedAlloc(ExprDef);
if (expr)
{
expr->common.stmtType = StmtExpr;
expr->common.next = NULL;
expr->op = op;
expr->type = type;
}
else
{
FATAL("Couldn't allocate expression in parser\n");
/* NOTREACHED */
}
return expr;
}
ExprDef *
ExprCreateUnary(unsigned op, unsigned type, ExprDef * child)
{
ExprDef *expr;
expr = uTypedAlloc(ExprDef);
if (expr)
{
expr->common.stmtType = StmtExpr;
expr->common.next = NULL;
expr->op = op;
expr->type = type;
expr->value.child = child;
}
else
{
FATAL("Couldn't allocate expression in parser\n");
/* NOTREACHED */
}
return expr;
}
ExprDef *
ExprCreateBinary(unsigned op, ExprDef * left, ExprDef * right)
{
ExprDef *expr;
expr = uTypedAlloc(ExprDef);
if (expr)
{
expr->common.stmtType = StmtExpr;
expr->common.next = NULL;
expr->op = op;
if ((op == OpAssign) || (left->type == TypeUnknown))
expr->type = right->type;
else if ((left->type == right->type) || (right->type == TypeUnknown))
expr->type = left->type;
else
expr->type = TypeUnknown;
expr->value.binary.left = left;
expr->value.binary.right = right;
}
else
{
FATAL("Couldn't allocate expression in parser\n");
/* NOTREACHED */
}
return expr;
}
KeycodeDef *
KeycodeCreate(char *name, unsigned long value)
{
KeycodeDef *def;
def = uTypedAlloc(KeycodeDef);
if (def)
{
def->common.stmtType = StmtKeycodeDef;
def->common.next = NULL;
strncpy(def->name, name, XkbKeyNameLength);
def->name[XkbKeyNameLength] = '\0';
def->value = value;
}
else
{
FATAL("Couldn't allocate key name definition in parser\n");
/* NOTREACHED */
}
return def;
}
KeyAliasDef *
KeyAliasCreate(char *alias, char *real)
{
KeyAliasDef *def;
def = uTypedAlloc(KeyAliasDef);
if (def)
{
def->common.stmtType = StmtKeyAliasDef;
def->common.next = NULL;
strncpy(def->alias, alias, XkbKeyNameLength);
def->alias[XkbKeyNameLength] = '\0';
strncpy(def->real, real, XkbKeyNameLength);
def->real[XkbKeyNameLength] = '\0';
}
else
{
FATAL("Couldn't allocate key alias definition in parser\n");
/* NOTREACHED */
}
return def;
}
VModDef *
VModCreate(xkb_atom_t name, ExprDef * value)
{
VModDef *def;
def = uTypedAlloc(VModDef);
if (def)
{
def->common.stmtType = StmtVModDef;
def->common.next = NULL;
def->name = name;
def->value = value;
}
else
{
FATAL("Couldn't allocate variable definition in parser\n");
/* NOTREACHED */
}
return def;
}
VarDef *
VarCreate(ExprDef * name, ExprDef * value)
{
VarDef *def;
def = uTypedAlloc(VarDef);
if (def)
{
def->common.stmtType = StmtVarDef;
def->common.next = NULL;
def->name = name;
def->value = value;
}
else
{
FATAL("Couldn't allocate variable definition in parser\n");
/* NOTREACHED */
}
return def;
}
VarDef *
BoolVarCreate(xkb_atom_t nameToken, unsigned set)
{
ExprDef *name, *value;
name = ExprCreate(ExprIdent, TypeUnknown);
name->value.str = nameToken;
value = ExprCreate(ExprValue, TypeBoolean);
value->value.uval = set;
return VarCreate(name, value);
}
InterpDef *
InterpCreate(char *sym, ExprDef * match)
{
InterpDef *def;
def = uTypedAlloc(InterpDef);
if (def)
{
def->common.stmtType = StmtInterpDef;
def->common.next = NULL;
def->sym = sym;
def->match = match;
}
else
{
FATAL("Couldn't allocate interp definition in parser\n");
/* NOTREACHED */
}
return def;
}
KeyTypeDef *
KeyTypeCreate(xkb_atom_t name, VarDef * body)
{
KeyTypeDef *def;
def = uTypedAlloc(KeyTypeDef);
if (def)
{
def->common.stmtType = StmtKeyTypeDef;
def->common.next = NULL;
def->merge = MergeDefault;
def->name = name;
def->body = body;
}
else
{
FATAL("Couldn't allocate key type definition in parser\n");
/* NOTREACHED */
}
return def;
}
SymbolsDef *
SymbolsCreate(char *keyName, ExprDef * symbols)
{
SymbolsDef *def;
def = uTypedAlloc(SymbolsDef);
if (def)
{
def->common.stmtType = StmtSymbolsDef;
def->common.next = NULL;
def->merge = MergeDefault;
memset(def->keyName, 0, 5);
strncpy(def->keyName, keyName, 4);
def->symbols = symbols;
}
else
{
FATAL("Couldn't allocate symbols definition in parser\n");
/* NOTREACHED */
}
return def;
}
GroupCompatDef *
GroupCompatCreate(int group, ExprDef * val)
{
GroupCompatDef *def;
def = uTypedAlloc(GroupCompatDef);
if (def)
{
def->common.stmtType = StmtGroupCompatDef;
def->common.next = NULL;
def->merge = MergeDefault;
def->group = group;
def->def = val;
}
else
{
FATAL("Couldn't allocate group compat definition in parser\n");
/* NOTREACHED */
}
return def;
}
ModMapDef *
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ModMapCreate(uint32_t modifier, ExprDef * keys)
{
ModMapDef *def;
def = uTypedAlloc(ModMapDef);
if (def)
{
def->common.stmtType = StmtModMapDef;
def->common.next = NULL;
def->merge = MergeDefault;
def->modifier = modifier;
def->keys = keys;
}
else
{
FATAL("Couldn't allocate mod mask definition in parser\n");
/* NOTREACHED */
}
return def;
}
IndicatorMapDef *
IndicatorMapCreate(xkb_atom_t name, VarDef * body)
{
IndicatorMapDef *def;
def = uTypedAlloc(IndicatorMapDef);
if (def)
{
def->common.stmtType = StmtIndicatorMapDef;
def->common.next = NULL;
def->merge = MergeDefault;
def->name = name;
def->body = body;
}
else
{
FATAL("Couldn't allocate indicator map definition in parser\n");
/* NOTREACHED */
}
return def;
}
IndicatorNameDef *
IndicatorNameCreate(int ndx, ExprDef * name, Bool virtual)
{
IndicatorNameDef *def;
def = uTypedAlloc(IndicatorNameDef);
if (def)
{
def->common.stmtType = StmtIndicatorNameDef;
def->common.next = NULL;
def->merge = MergeDefault;
def->ndx = ndx;
def->name = name;
def->virtual = virtual;
}
else
{
FATAL("Couldn't allocate indicator index definition in parser\n");
/* NOTREACHED */
}
return def;
}
ExprDef *
ActionCreate(xkb_atom_t name, ExprDef * args)
{
ExprDef *act;
act = uTypedAlloc(ExprDef);
if (act)
{
act->common.stmtType = StmtExpr;
act->common.next = NULL;
act->op = ExprActionDecl;
act->value.action.name = name;
act->value.action.args = args;
return act;
}
FATAL("Couldn't allocate ActionDef in parser\n");
return NULL;
}
ExprDef *
CreateKeysymList(char *sym)
{
ExprDef *def;
def = ExprCreate(ExprKeysymList, TypeSymbols);
if (def)
{
def->value.list.nSyms = 1;
def->value.list.szSyms = 4;
def->value.list.syms = uTypedCalloc(4, char *);
if (def->value.list.syms != NULL)
{
def->value.list.syms[0] = sym;
return def;
}
}
FATAL("Couldn't allocate expression for keysym list in parser\n");
return NULL;
}
ExprDef *
AppendKeysymList(ExprDef * list, char *sym)
{
if (list->value.list.nSyms >= list->value.list.szSyms)
{
list->value.list.szSyms *= 2;
list->value.list.syms = uTypedRecalloc(list->value.list.syms,
list->value.list.nSyms,
list->value.list.szSyms,
char *);
if (list->value.list.syms == NULL)
{
FATAL("Couldn't resize list of symbols for append\n");
return NULL;
}
}
list->value.list.syms[list->value.list.nSyms++] = sym;
return list;
}
int
LookupKeysym(char *str, xkb_keysym_t * sym_rtrn)
{
xkb_keysym_t sym;
if ((!str) || (uStrCaseCmp(str, "any") == 0)
|| (uStrCaseCmp(str, "nosymbol") == 0))
{
*sym_rtrn = NoSymbol;
return 1;
}
else if ((uStrCaseCmp(str, "none") == 0)
|| (uStrCaseCmp(str, "voidsymbol") == 0))
{
*sym_rtrn = XK_VoidSymbol;
return 1;
}
sym = xkb_string_to_keysym(str);
if (sym != NoSymbol)
{
*sym_rtrn = sym;
return 1;
}
return 0;
}
static void
FreeInclude(IncludeStmt *incl);
IncludeStmt *
IncludeCreate(char *str, unsigned merge)
{
IncludeStmt *incl, *first;
char *file, *map, *stmt, *tmp, *extra_data;
char nextop;
Bool haveSelf;
haveSelf = False;
incl = first = NULL;
file = map = NULL;
tmp = str;
stmt = _XkbDupString(str);
while ((tmp) && (*tmp))
{
if (XkbParseIncludeMap(&tmp, &file, &map, &nextop, &extra_data))
{
if ((file == NULL) && (map == NULL))
{
if (haveSelf)
goto BAIL;
haveSelf = True;
}
if (first == NULL)
first = incl = uTypedAlloc(IncludeStmt);
else
{
incl->next = uTypedAlloc(IncludeStmt);
incl = incl->next;
}
if (incl)
{
incl->common.stmtType = StmtInclude;
incl->common.next = NULL;
incl->merge = merge;
incl->stmt = NULL;
incl->file = file;
incl->map = map;
incl->modifier = extra_data;
incl->path = NULL;
incl->next = NULL;
}
else
{
WSGO("Allocation failure in IncludeCreate\n");
ACTION("Using only part of the include\n");
break;
}
if (nextop == '|')
merge = MergeAugment;
else
merge = MergeOverride;
}
else
{
goto BAIL;
}
}
if (first)
first->stmt = stmt;
else
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free(stmt);
return first;
BAIL:
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ERROR("Illegal include statement \"%s\"\n", stmt);
ACTION("Ignored\n");
FreeInclude(first);
free(stmt);
return NULL;
}
#ifdef DEBUG
void
PrintStmtAddrs(ParseCommon * stmt)
{
fprintf(stderr, "0x%x", stmt);
if (stmt)
{
do
{
fprintf(stderr, "->0x%x", stmt->next);
stmt = stmt->next;
}
while (stmt);
}
fprintf(stderr, "\n");
}
#endif
void
CheckDefaultMap(XkbFile * maps)
{
XkbFile *dflt, *tmp;
dflt = NULL;
for (tmp = maps, dflt = NULL; tmp != NULL;
tmp = (XkbFile *) tmp->common.next)
{
if (tmp->flags & XkbLC_Default)
{
if (dflt == NULL)
dflt = tmp;
else
{
if (warningLevel > 2)
{
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WARN("Multiple default components in %s\n",
(scanFile ? scanFile : "(unknown)"));
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ACTION("Using %s, ignoring %s\n",
(dflt->name ? dflt->name : "(first)"),
(tmp->name ? tmp->name : "(subsequent)"));
}
tmp->flags &= (~XkbLC_Default);
}
}
}
}
XkbFile *
CreateXKBFile(int type, char *name, ParseCommon * defs, unsigned flags)
{
XkbFile *file;
static int fileID;
file = uTypedAlloc(XkbFile);
if (file)
{
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XkbcEnsureSafeMapName(name);
memset(file, 0, sizeof(XkbFile));
file->type = type;
file->topName = _XkbDupString(name);
file->name = name;
file->defs = defs;
file->id = fileID++;
file->compiled = False;
file->flags = flags;
}
return file;
}
unsigned
StmtSetMerge(ParseCommon * stmt, unsigned merge)
{
if ((merge == MergeAltForm) && (stmt->stmtType != StmtKeycodeDef))
{
yyerror("illegal use of 'alternate' merge mode");
merge = MergeDefault;
}
return merge;
}
static void
FreeExpr(ExprDef *expr)
{
int i;
if (!expr)
return;
switch (expr->op)
{
case ExprActionList:
case OpNegate:
case OpUnaryPlus:
case OpNot:
case OpInvert:
FreeStmt(&expr->value.child->common);
break;
case OpDivide:
case OpAdd:
case OpSubtract:
case OpMultiply:
case OpAssign:
FreeStmt(&expr->value.binary.left->common);
FreeStmt(&expr->value.binary.right->common);
break;
case ExprActionDecl:
FreeStmt(&expr->value.action.args->common);
break;
case ExprArrayRef:
FreeStmt(&expr->value.array.entry->common);
break;
case ExprKeysymList:
for (i = 0; i < expr->value.list.nSyms; i++)
free(expr->value.list.syms[i]);
free(expr->value.list.syms);
break;
default:
break;
}
}
static void
FreeInclude(IncludeStmt *incl)
{
IncludeStmt *next;
while (incl)
{
next = incl->next;
free(incl->file);
free(incl->map);
free(incl->modifier);
free(incl->path);
free(incl->stmt);
free(incl);
incl = next;
}
}
void
FreeStmt(ParseCommon *stmt)
{
ParseCommon *next;
YYSTYPE u;
while (stmt)
{
next = stmt->next;
u.any = stmt;
switch (stmt->stmtType)
{
case StmtInclude:
FreeInclude((IncludeStmt *)stmt);
/* stmt is already free'd here. */
stmt = NULL;
break;
case StmtExpr:
FreeExpr(u.expr);
break;
case StmtVarDef:
FreeStmt(&u.var->name->common);
FreeStmt(&u.var->value->common);
break;
case StmtKeyTypeDef:
FreeStmt(&u.keyType->body->common);
break;
case StmtInterpDef:
free(u.interp->sym);
FreeStmt(&u.interp->match->common);
FreeStmt(&u.interp->def->common);
break;
case StmtVModDef:
FreeStmt(&u.vmod->value->common);
break;
case StmtSymbolsDef:
FreeStmt(&u.syms->symbols->common);
break;
case StmtModMapDef:
FreeStmt(&u.modMask->keys->common);
break;
case StmtGroupCompatDef:
FreeStmt(&u.groupCompat->def->common);
break;
case StmtIndicatorMapDef:
FreeStmt(&u.ledMap->body->common);
break;
case StmtIndicatorNameDef:
FreeStmt(&u.ledName->name->common);
break;
default:
break;
}
free(stmt);
stmt = next;
}
}
void
FreeXKBFile(XkbFile *file)
{
XkbFile *next;
while (file)
{
next = (XkbFile *)file->common.next;
switch (file->type)
{
case XkmKeymapFile:
case XkmSemanticsFile:
case XkmLayoutFile:
FreeXKBFile((XkbFile *)file->defs);
break;
case XkmTypesIndex:
case XkmCompatMapIndex:
case XkmSymbolsIndex:
case XkmKeyNamesIndex:
case XkmGeometryIndex:
case XkmGeometryFile:
FreeStmt(file->defs);
break;
}
free(file->name);
free(file->topName);
free(file);
file = next;
}
}