#include "xkbcomp.h"
#include "tokens.h"
#include "expr.h"
#include <X11/keysym.h>
#include <X11/Xutil.h>
#include <stdlib.h>
#include "expr.h"
#include "vmod.h"
#include "action.h"
#include "keycodes.h"
#include "misc.h"
#include "alias.h"
extern Atom tok_ONE_LEVEL;
extern Atom tok_TWO_LEVEL;
extern Atom tok_KEYPAD;
#define RepeatYes 1
#define RepeatNo 0
#define RepeatUndefined ~((unsigned)0)
#define _Key_Syms (1<<0)
#define _Key_Acts (1<<1)
#define _Key_Repeat (1<<2)
#define _Key_Behavior (1<<3)
#define _Key_Type_Dflt (1<<4)
#define _Key_Types (1<<5)
#define _Key_GroupInfo (1<<6)
#define _Key_VModMap (1<<7)
typedef struct _KeyInfo {
CommonInfo defs;
unsigned long name;
unsigned char groupInfo;
unsigned char typesDefined;
unsigned char symsDefined;
unsigned char actsDefined;
short numLevels[XkbNumKbdGroups];
KeySym * syms[XkbNumKbdGroups];
XkbAction * acts[XkbNumKbdGroups];
Atom types[XkbNumKbdGroups];
unsigned repeat;
XkbBehavior behavior;
unsigned short vmodmap;
unsigned long nameForOverlayKey;
unsigned long allowNone;
Atom dfltType;
} KeyInfo;
static void
InitKeyInfo(KeyInfo *info)
{
register int i;
static char dflt[4]= "*";
info->defs.defined= 0;
info->defs.fileID= 0;
info->defs.merge= MergeOverride;
info->defs.next= NULL;
info->name= KeyNameToLong(dflt);
info->groupInfo= 0;
info->typesDefined= info->symsDefined= info->actsDefined= 0;
for (i=0;i<XkbNumKbdGroups;i++) {
info->numLevels[i]= 0;
info->types[i]= None;
info->syms[i]= NULL;
info->acts[i]= NULL;
}
info->dfltType= None;
info->behavior.type= XkbKB_Default;
info->behavior.data= 0;
info->vmodmap= 0;
info->nameForOverlayKey= 0;
info->repeat= RepeatUndefined;
info->allowNone= 0;
return;
}
static void
FreeKeyInfo(KeyInfo *info)
{
register int i;
info->defs.defined= 0;
info->defs.fileID= 0;
info->defs.merge= MergeOverride;
info->defs.next= NULL;
info->groupInfo= 0;
info->typesDefined= info->symsDefined= info->actsDefined= 0;
for (i=0;i<XkbNumKbdGroups;i++) {
info->numLevels[i]= 0;
info->types[i]= None;
if (info->syms[i]!=NULL)
uFree(info->syms[i]);
info->syms[i]= NULL;
if (info->acts[i]!=NULL)
uFree(info->acts[i]);
info->acts[i]= NULL;
}
info->dfltType= None;
info->behavior.type= XkbKB_Default;
info->behavior.data= 0;
info->vmodmap= 0;
info->nameForOverlayKey= 0;
info->repeat= RepeatUndefined;
return;
}
static Bool
CopyKeyInfo(KeyInfo *old,KeyInfo *new,Bool clearOld)
{
register int i;
*new= *old;
new->defs.next= NULL;
if (clearOld) {
for (i=0;i<XkbNumKbdGroups;i++) {
old->numLevels[i]= 0;
old->syms[i]= NULL;
old->acts[i]= NULL;
}
}
else {
int width;
for (i=0;i<XkbNumKbdGroups;i++) {
width= new->numLevels[i];
if (old->syms[i]!=NULL) {
new->syms[i]= uTypedCalloc(width,KeySym);
if (!new->syms[i]) {
new->syms[i]= NULL;
new->numLevels[i]= 0;
return False;
}
memcpy((char *)new->syms[i],(char *)old->syms[i],
width*sizeof(KeySym));
}
if (old->acts[i]!=NULL) {
new->acts[i]= uTypedCalloc(width,XkbAction);
if (!new->acts[i]) {
new->acts[i]= NULL;
return False;
}
memcpy((char *)new->acts[i],(char *)old->acts[i],
width*sizeof(XkbAction));
}
}
}
return True;
}
typedef struct _ModMapEntry {
CommonInfo defs;
Bool haveSymbol;
int modifier;
union {
unsigned long keyName;
KeySym keySym;
} u;
} ModMapEntry;
#define SYMBOLS_INIT_SIZE 110
#define SYMBOLS_CHUNK 20
typedef struct _SymbolsInfo {
char * name;
int errorCount;
unsigned fileID;
unsigned merge;
unsigned explicit_group;
unsigned groupInfo;
unsigned szKeys;
unsigned nKeys;
KeyInfo * keys;
KeyInfo dflt;
VModInfo vmods;
ActionInfo * action;
Atom groupNames[XkbNumKbdGroups];
ModMapEntry * modMap;
AliasInfo * aliases;
} SymbolsInfo;
static void
InitSymbolsInfo(SymbolsInfo *info,XkbDescPtr xkb)
{
register int i;
tok_ONE_LEVEL= XkbInternAtom(NULL,"ONE_LEVEL",False);
tok_TWO_LEVEL= XkbInternAtom(NULL,"TWO_LEVEL",False);
tok_KEYPAD= XkbInternAtom(NULL,"KEYPAD",False);
info->name= NULL;
info->explicit_group= 0;
info->errorCount= 0;
info->fileID= 0;
info->merge= MergeOverride;
info->groupInfo= 0;
info->szKeys= SYMBOLS_INIT_SIZE;
info->nKeys= 0;
info->keys= uTypedCalloc(SYMBOLS_INIT_SIZE,KeyInfo);
info->modMap= NULL;
for (i=0;i<XkbNumKbdGroups;i++)
info->groupNames[i]= None;
InitKeyInfo(&info->dflt);
InitVModInfo(&info->vmods,xkb);
info->action= NULL;
info->aliases= NULL;
return;
}
static void
FreeSymbolsInfo(SymbolsInfo *info)
{
register int i;
if (info->name)
uFree(info->name);
info->name= NULL;
if (info->keys) {
for (i=0;i<info->nKeys;i++) {
FreeKeyInfo(&info->keys[i]);
}
uFree(info->keys);
info->keys= NULL;
}
if (info->modMap) {
ClearCommonInfo(&info->modMap->defs);
info->modMap= NULL;
}
if (info->aliases) {
ClearAliases(&info->aliases);
info->aliases= NULL;
}
bzero((char *)info,sizeof(SymbolsInfo));
return;
}
static Bool
ResizeKeyGroup( KeyInfo * key,
unsigned group,
unsigned atLeastSize,
Bool forceActions)
{
Bool tooSmall;
unsigned newWidth;
tooSmall= (key->numLevels[group]<atLeastSize);
if (tooSmall) newWidth= atLeastSize;
else newWidth= key->numLevels[group];
if ((key->syms[group]==NULL)||tooSmall) {
key->syms[group]= uTypedRecalloc(key->syms[group],
key->numLevels[group],newWidth,
KeySym);
if (!key->syms[group])
return False;
}
if (((forceActions)&&(tooSmall||(key->acts[group]==NULL)))||
(tooSmall&&(key->acts[group]!=NULL))) {
key->acts[group]= uTypedRecalloc(key->acts[group],
key->numLevels[group],newWidth,
XkbAction);
if (!key->acts[group])
return False;
}
key->numLevels[group]= newWidth;
return True;
}
static Bool
MergeKeyGroups( SymbolsInfo * info,
KeyInfo * into,
KeyInfo * from,
unsigned group)
{
KeySym * resultSyms;
XkbAction * resultActs;
int resultWidth;
register int i;
Bool report,clobber;
clobber= (from->defs.merge!=MergeAugment);
report= (warningLevel>9)||
((into->defs.fileID==from->defs.fileID)&&(warningLevel>0));
if (into->numLevels[group]>=from->numLevels[group]) {
resultSyms= into->syms[group];
resultActs= into->acts[group];
resultWidth= into->numLevels[group];
}
else {
resultSyms= from->syms[group];
resultActs= from->acts[group];
resultWidth= from->numLevels[group];
}
if (resultSyms==NULL) {
resultSyms= uTypedCalloc(resultWidth,KeySym);
if (!resultSyms) {
WSGO("Could not allocate symbols for group merge\n");
ACTION2("Group %d of key %s not merged\n",group,
longText(into->name,XkbMessage));
return False;
}
}
if ((resultActs==NULL)&&(into->acts[group]||from->acts[group])) {
resultActs= uTypedCalloc(resultWidth,XkbAction);
if (!resultActs) {
WSGO("Could not allocate actions for group merge\n");
ACTION2("Group %d of key %s not merged\n",group,
longText(into->name,XkbMessage));
return False;
}
}
for (i=0;i<resultWidth;i++) {
KeySym fromSym,toSym;
if (from->syms[group] && (i<from->numLevels[group]))
fromSym= from->syms[group][i];
else fromSym= NoSymbol;
if (into->syms[group] && (i<into->numLevels[group]))
toSym= into->syms[group][i];
else toSym= NoSymbol;
if ((fromSym==NoSymbol)||(fromSym==toSym))
resultSyms[i]= toSym;
else if (toSym==NoSymbol)
resultSyms[i]= fromSym;
else {
KeySym use,ignore;
if (clobber) { use= fromSym; ignore= toSym; }
else { use= toSym; ignore= fromSym; }
if (report) {
WARN3("Multiple symbols for level %d/group %d on key %s\n",
i+1,group+1,longText(into->name,XkbMessage));
ACTION2("Using %s, ignoring %s\n",XkbKeysymText(use,XkbMessage),
XkbKeysymText(ignore,XkbMessage));
}
resultSyms[i]= use;
}
if (resultActs!=NULL) {
XkbAction *fromAct,*toAct;
fromAct= (from->acts[group]?&from->acts[group][i]:NULL);
toAct= (into->acts[group]?&into->acts[group][i]:NULL);
if (((fromAct==NULL)||(fromAct->type==XkbSA_NoAction))&&
(toAct!=NULL)) {
resultActs[i]= *toAct;
}
else if (((toAct==NULL)||(toAct->type==XkbSA_NoAction))&&
(fromAct!=NULL)) {
resultActs[i]= *fromAct;
}
else {
XkbAction *use,*ignore;
if (clobber) { use= fromAct; ignore= toAct; }
else { use= toAct; ignore= fromAct; }
if (report) {
WARN3("Multiple actions for level %d/group %d on key %s\n",
i+1,group+1,longText(into->name,XkbMessage));
ACTION2("Using %s, ignoring %s\n",
XkbActionTypeText(use->type,XkbMessage),
XkbActionTypeText(ignore->type,XkbMessage));
}
resultActs[i]= *use;
}
}
}
if ((into->syms[group]!=NULL)&&(resultSyms!=into->syms[group]))
uFree(into->syms[group]);
if ((from->syms[group]!=NULL)&&(resultSyms!=from->syms[group]))
uFree(from->syms[group]);
if ((into->acts[group]!=NULL)&&(resultActs!=into->acts[group]))
uFree(into->acts[group]);
if ((from->acts[group]!=NULL)&&(resultActs!=from->acts[group]))
uFree(from->acts[group]);
into->numLevels[group]= resultWidth;
into->syms[group]= resultSyms;
from->syms[group]= NULL;
into->acts[group]= resultActs;
from->acts[group]= NULL;
into->symsDefined|= (1<<group);
from->symsDefined&= ~(1<<group);
into->actsDefined|= (1<<group);
from->actsDefined&= ~(1<<group);
return True;
}
static Bool
MergeKeys(SymbolsInfo *info,KeyInfo *into,KeyInfo *from)
{
register int i;
unsigned collide= 0;
Bool report;
if (from->defs.merge==MergeReplace) {
for (i=0;i<XkbNumKbdGroups;i++) {
if (into->numLevels[i]!=0) {
if (into->syms[i])
uFree(into->syms[i]);
if (into->acts[i])
uFree(into->acts[i]);
}
}
*into= *from;
bzero(from,sizeof(KeyInfo));
return True;
}
report= ((warningLevel>9)||
((into->defs.fileID==from->defs.fileID)&&(warningLevel>0)));
for (i=0;i<XkbNumKbdGroups;i++) {
if (from->numLevels[i]>0) {
if (into->numLevels[i]==0) {
into->numLevels[i]= from->numLevels[i];
into->syms[i]= from->syms[i];
into->acts[i]= from->acts[i];
into->symsDefined|= (1<<i);
from->syms[i]= NULL;
from->acts[i]= NULL;
from->numLevels[i]= 0;
from->symsDefined&= ~(1<<i);
if (into->syms[i]) into->defs.defined|= _Key_Syms;
if (into->acts[i]) into->defs.defined|= _Key_Acts;
}
else {
if (report) {
if (into->syms[i]) collide|= _Key_Syms;
if (into->acts[i]) collide|= _Key_Acts;
}
MergeKeyGroups(info,into,from,(unsigned)i);
}
}
if (from->types[i]!=None) {
if ((into->types[i]!=None)&&(report)&&
(into->types[i]!=from->types[i])) {
Atom use,ignore;
collide|= _Key_Types;
if (from->defs.merge!=MergeAugment) {
use= from->types[i];
ignore= into->types[i];
}
else {
use= into->types[i];
ignore= from->types[i];
}
WARN2("Multiple definitions for group %d type of key %s\n",
i,longText(into->name,XkbMessage));
ACTION2("Using %s, ignoring %s\n",
XkbAtomText(NULL,use,XkbMessage),
XkbAtomText(NULL,ignore,XkbMessage));
}
if ((from->defs.merge!=MergeAugment)||(into->types[i]==None)) {
into->types[i]= from->types[i];
}
}
}
if (UseNewField(_Key_Behavior,&into->defs,&from->defs,&collide)) {
into->behavior= from->behavior;
into->nameForOverlayKey= from->nameForOverlayKey;
into->defs.defined|= _Key_Behavior;
}
if (UseNewField(_Key_VModMap,&into->defs,&from->defs,&collide)) {
into->vmodmap= from->vmodmap;
into->defs.defined|= _Key_VModMap;
}
if (UseNewField(_Key_Repeat,&into->defs,&from->defs,&collide)) {
into->repeat= from->repeat;
into->defs.defined|= _Key_Repeat;
}
if (UseNewField(_Key_Type_Dflt,&into->defs,&from->defs,&collide)) {
into->dfltType= from->dfltType;
into->defs.defined|= _Key_Type_Dflt;
}
if (UseNewField(_Key_GroupInfo,&into->defs,&from->defs,&collide)) {
into->groupInfo= from->groupInfo;
into->defs.defined|= _Key_GroupInfo;
}
if ( collide ) {
WARN1("Symbol map for key %s redefined\n",
longText(into->name,XkbMessage));
ACTION1("Using %s definition for conflicting fields\n",
(from->defs.merge==MergeAugment?"first":"last"));
}
return True;
}
static Bool
AddKeySymbols(SymbolsInfo *info,KeyInfo *key,XkbDescPtr xkb)
{
register int i;
unsigned long real_name;
for (i=0;i<info->nKeys;i++) {
if (info->keys[i].name==key->name)
return MergeKeys(info,&info->keys[i],key);
}
if(FindKeyNameForAlias(xkb, key->name, &real_name)) {
for (i=0;i<info->nKeys;i++) {
if (info->keys[i].name==real_name)
return MergeKeys(info,&info->keys[i],key);
}
}
if (info->nKeys>=info->szKeys) {
info->szKeys+= SYMBOLS_CHUNK;
info->keys= uTypedRecalloc(info->keys,info->nKeys,info->szKeys,KeyInfo);
if (!info->keys) {
WSGO("Could not allocate key symbols descriptions\n");
ACTION("Some key symbols definitions may be lost\n");
return False;
}
}
return CopyKeyInfo(key,&info->keys[info->nKeys++],True);
}
static Bool
AddModMapEntry(SymbolsInfo *info,ModMapEntry *new)
{
ModMapEntry * mm;
Bool clobber;
clobber= (new->defs.merge!=MergeAugment);
for (mm=info->modMap;mm!=NULL;mm= (ModMapEntry *)mm->defs.next) {
if (new->haveSymbol&&mm->haveSymbol&&(new->u.keySym==mm->u.keySym)) {
unsigned use,ignore;
if (mm->modifier!=new->modifier) {
if (clobber) {
use= new->modifier;
ignore= mm->modifier;
}
else {
use= mm->modifier;
ignore= new->modifier;
}
ERROR1("%s added to symbol map for multiple modifiers\n",
XkbKeysymText(new->u.keySym,XkbMessage));
ACTION2("Using %s, ignoring %s.\n",
XkbModIndexText(use,XkbMessage),
XkbModIndexText(ignore,XkbMessage));
mm->modifier= use;
}
return True;
}
if ((!new->haveSymbol)&&(!mm->haveSymbol)&&
(new->u.keyName==mm->u.keyName)) {
unsigned use,ignore;
if (mm->modifier!=new->modifier) {
if (clobber) {
use= new->modifier;
ignore= mm->modifier;
}
else {
use= mm->modifier;
ignore= new->modifier;
}
ERROR1("Key %s added to map for multiple modifiers\n",
longText(new->u.keyName,XkbMessage));
ACTION2("Using %s, ignoring %s.\n",
XkbModIndexText(use,XkbMessage),
XkbModIndexText(ignore,XkbMessage));
mm->modifier= use;
}
return True;
}
}
mm= uTypedAlloc(ModMapEntry);
if (mm==NULL) {
WSGO("Could not allocate modifier map entry\n");
ACTION1("Modifier map for %s will be incomplete\n",
XkbModIndexText(new->modifier,XkbMessage));
return False;
}
*mm= *new;
mm->defs.next= &info->modMap->defs;
info->modMap= mm;
return True;
}
static void
MergeIncludedSymbols(SymbolsInfo *into,SymbolsInfo *from,
unsigned merge,XkbDescPtr xkb)
{
register int i;
KeyInfo * key;
if (from->errorCount>0) {
into->errorCount+= from->errorCount;
return;
}
if (into->name==NULL) {
into->name= from->name;
from->name= NULL;
}
for (i=0;i<XkbNumKbdGroups;i++) {
if (from->groupNames[i]!=None) {
if ((merge!=MergeAugment)||(into->groupNames[i]==None))
into->groupNames[i]= from->groupNames[i];
}
}
for (i=0,key=from->keys;i<from->nKeys;i++,key++) {
if (merge!=MergeDefault)
key->defs.merge= merge;
if (!AddKeySymbols(into,key,xkb))
into->errorCount++;
}
if (from->modMap!=NULL) {
ModMapEntry *mm,*next;
for (mm=from->modMap;mm!=NULL;mm=next) {
if (merge!=MergeDefault)
mm->defs.merge= merge;
if (!AddModMapEntry(into,mm))
into->errorCount++;
next= (ModMapEntry *)mm->defs.next;
uFree(mm);
}
from->modMap= NULL;
}
if (!MergeAliases(&into->aliases,&from->aliases,merge))
into->errorCount++;
return;
}
typedef void (*FileHandler)(
XkbFile * ,
XkbDescPtr ,
unsigned ,
SymbolsInfo *
);
static Bool
HandleIncludeSymbols( IncludeStmt * stmt,
XkbDescPtr xkb,
SymbolsInfo * info,
FileHandler hndlr)
{
unsigned newMerge;
XkbFile * rtrn;
SymbolsInfo included;
Bool haveSelf;
haveSelf= False;
if ((stmt->file==NULL)&&(stmt->map==NULL)) {
haveSelf= True;
included= *info;
bzero(info,sizeof(SymbolsInfo));
}
else if (ProcessIncludeFile(stmt,XkmSymbolsIndex,&rtrn,&newMerge)) {
InitSymbolsInfo(&included,xkb);
included.fileID= included.dflt.defs.fileID= rtrn->id;
included.merge= included.dflt.defs.merge= MergeOverride;
if (stmt->modifier) {
included.explicit_group= atoi(stmt->modifier) - 1;
} else {
included.explicit_group= info->explicit_group;
}
(*hndlr)(rtrn,xkb,MergeOverride,&included);
if (stmt->stmt!=NULL) {
if (included.name!=NULL)
uFree(included.name);
included.name= stmt->stmt;
stmt->stmt= NULL;
}
}
else {
info->errorCount+= 10;
return False;
}
if ((stmt->next!=NULL)&&(included.errorCount<1)) {
IncludeStmt * next;
unsigned op;
SymbolsInfo next_incl;
for (next=stmt->next;next!=NULL;next=next->next) {
if ((next->file==NULL)&&(next->map==NULL)) {
haveSelf= True;
MergeIncludedSymbols(&included,info,next->merge,xkb);
FreeSymbolsInfo(info);
}
else if (ProcessIncludeFile(next,XkmSymbolsIndex,&rtrn,&op)) {
InitSymbolsInfo(&next_incl,xkb);
next_incl.fileID= next_incl.dflt.defs.fileID= rtrn->id;
next_incl.merge= next_incl.dflt.defs.merge= MergeOverride;
if (next->modifier) {
next_incl.explicit_group= atoi(next->modifier) - 1;
} else {
next_incl.explicit_group= info->explicit_group;
}
(*hndlr)(rtrn,xkb,MergeOverride,&next_incl);
MergeIncludedSymbols(&included,&next_incl,op,xkb);
FreeSymbolsInfo(&next_incl);
}
else {
info->errorCount+= 10;
return False;
}
}
}
if (haveSelf)
*info= included;
else {
MergeIncludedSymbols(info,&included,newMerge,xkb);
FreeSymbolsInfo(&included);
}
return (info->errorCount==0);
}
static LookupEntry groupNames[]= {
{ "group1", 1 },
{ "group2", 2 },
{ "group3", 3 },
{ "group4", 4 },
{ "group5", 5 },
{ "group6", 6 },
{ "group7", 7 },
{ "group8", 8 },
{ NULL, 0 }
};
#define SYMBOLS 1
#define ACTIONS 2
static Bool
GetGroupIndex( KeyInfo * key,
ExprDef * arrayNdx,
unsigned what,
unsigned * ndx_rtrn)
{
char * name;
ExprResult tmp;
if (what==SYMBOLS) name= "symbols";
else name= "actions";
if (arrayNdx==NULL) {
register int i;
unsigned defined;
if (what==SYMBOLS) defined= key->symsDefined;
else defined= key->actsDefined;
for (i=0;i<XkbNumKbdGroups;i++) {
if ((defined&(1<<i))==0) {
*ndx_rtrn= i;
return True;
}
}
ERROR3("Too many groups of %s for key %s (max %d)\n",name,
longText(key->name,XkbMessage),
XkbNumKbdGroups+1);
ACTION1("Ignoring %s defined for extra groups\n",name);
return False;
}
if (!ExprResolveInteger(arrayNdx,&tmp,SimpleLookup,(XPointer)groupNames)) {
ERROR2("Illegal group index for %s of key %s\n",name,
longText(key->name,XkbMessage));
ACTION("Definition with non-integer array index ignored\n");
return False;
}
if ((tmp.uval<1)||(tmp.uval>XkbNumKbdGroups)) {
ERROR3("Group index for %s of key %s is out of range (1..%d)\n",name,
longText(key->name,XkbMessage),
XkbNumKbdGroups+1);
ACTION2("Ignoring %s for group %d\n",name,tmp.uval);
return False;
}
*ndx_rtrn= tmp.uval-1;
return True;
}
static Bool
AddSymbolsToKey( KeyInfo * key,
XkbDescPtr xkb,
char * field,
ExprDef * arrayNdx,
ExprDef * value,
SymbolsInfo * info)
{
unsigned ndx,nSyms;
int i;
if (!GetGroupIndex(key,arrayNdx,SYMBOLS,&ndx))
return False;
if (value==NULL) {
key->symsDefined|= (1<<ndx);
return True;
}
if (value->op!=ExprKeysymList) {
ERROR1("Expected a list of symbols, found %s\n",exprOpText(value->op));
ACTION2("Ignoring symbols for group %d of %s\n",ndx,
longText(key->name,XkbMessage));
return False;
}
if (key->syms[ndx]!=NULL) {
WSGO2("Symbols for key %s, group %d already defined\n",
longText(key->name,XkbMessage),
ndx);
return False;
}
nSyms= value->value.list.nSyms;
if (((key->numLevels[ndx]<nSyms)||(key->syms[ndx]==NULL))&&
(!ResizeKeyGroup(key,ndx,nSyms,False))) {
WSGO2("Could not resize group %d of key %s\n",ndx,
longText(key->name,XkbMessage));
ACTION("Symbols lost\n");
return False;
}
key->symsDefined|= (1<<ndx);
memcpy((char *)key->syms[ndx],(char *)value->value.list.syms,
nSyms*sizeof(KeySym));
for (i=key->numLevels[ndx]-1;(i>=0)&&(key->syms[ndx][i]==NoSymbol);i--) {
key->numLevels[ndx]--;
}
return True;
}
static Bool
AddActionsToKey( KeyInfo * key,
XkbDescPtr xkb,
char * field,
ExprDef * arrayNdx,
ExprDef * value,
SymbolsInfo * info)
{
register int i;
unsigned ndx,nActs;
ExprDef * act;
XkbAnyAction * toAct;
if (!GetGroupIndex(key,arrayNdx,ACTIONS,&ndx))
return False;
if (value==NULL) {
key->actsDefined|= (1<<ndx);
return True;
}
if (value->op!=ExprActionList) {
WSGO1("Bad expression type (%d) for action list value\n",value->op);
ACTION2("Ignoring actions for group %d of %s\n",ndx,
longText(key->name,XkbMessage));
return False;
}
if (key->acts[ndx]!=NULL) {
WSGO2("Actions for key %s, group %d already defined\n",
longText(key->name,XkbMessage),
ndx);
return False;
}
for (nActs=0,act= value->value.child;act!=NULL;nActs++) {
act= (ExprDef *)act->common.next;
}
if (nActs<1) {
WSGO("Action list but not actions in AddActionsToKey\n");
return False;
}
if (((key->numLevels[ndx]<nActs)||(key->acts[ndx]==NULL))&&
(!ResizeKeyGroup(key,ndx,nActs,True))) {
WSGO2("Could not resize group %d of key %s\n",ndx,
longText(key->name,XkbMessage));
ACTION("Actions lost\n");
return False;
}
key->actsDefined|= (1<<ndx);
toAct= (XkbAnyAction *)key->acts[ndx];
act= value->value.child;
for (i=0;i<nActs;i++,toAct++) {
if (!HandleActionDef(act,xkb,toAct,MergeOverride,info->action)) {
ERROR1("Illegal action definition for %s\n",
longText(key->name,XkbMessage));
ACTION2("Action for group %d/level %d ignored\n",ndx+1,i+1);
}
act= (ExprDef *)act->common.next;
}
return True;
}
static int
SetAllowNone(KeyInfo *key,ExprDef *arrayNdx,ExprDef *value)
{
ExprResult tmp;
unsigned radio_groups= 0;
if (arrayNdx==NULL) {
radio_groups= XkbAllRadioGroupsMask;
}
else {
if (!ExprResolveInteger(arrayNdx,&tmp,RadioLookup,NULL)){
ERROR("Illegal index in group name definition\n");
ACTION("Definition with non-integer array index ignored\n");
return False;
}
if ((tmp.uval<1)||(tmp.uval>XkbMaxRadioGroups)) {
ERROR1("Illegal radio group specified (must be 1..%d)\n",
XkbMaxRadioGroups+1);
ACTION1("Value of \"allow none\" for group %d ignored\n",tmp.uval);
return False;
}
radio_groups|= (1<<(tmp.uval-1));
}
if (!ExprResolveBoolean(value,&tmp,NULL,NULL)) {
ERROR1("Illegal \"allow none\" value for %s\n",
longText(key->name,XkbMessage));
ACTION("Non-boolean value ignored\n");
return False;
}
if (tmp.uval) key->allowNone|= radio_groups;
else key->allowNone&= ~radio_groups;
return True;
}
static LookupEntry lockingEntries[] = {
{ "true", XkbKB_Lock },
{ "yes", XkbKB_Lock },
{ "on", XkbKB_Lock },
{ "false", XkbKB_Default },
{ "no", XkbKB_Default },
{ "off", XkbKB_Default },
{ "permanent", XkbKB_Lock|XkbKB_Permanent },
{ NULL, 0 }
};
static LookupEntry repeatEntries[]= {
{ "true", RepeatYes },
{ "yes", RepeatYes },
{ "on", RepeatYes },
{ "false", RepeatNo },
{ "no", RepeatNo },
{ "off", RepeatNo },
{ "default", RepeatUndefined },
{ NULL, 0 }
};
static LookupEntry rgEntries[]= {
{ "none", 0 },
{ NULL, 0 }
};
static Bool
SetSymbolsField( KeyInfo * key,
XkbDescPtr xkb,
char * field,
ExprDef * arrayNdx,
ExprDef * value,
SymbolsInfo * info)
{
Bool ok= True;
ExprResult tmp;
if (uStrCaseCmp(field,"type")==0) {
ExprResult ndx;
if ((!ExprResolveString(value,&tmp,NULL,NULL))&&(warningLevel>0)) {
WARN("The type field of a key symbol map must be a string\n");
ACTION("Ignoring illegal type definition\n");
}
if (arrayNdx==NULL) {
key->dfltType= XkbInternAtom(NULL,tmp.str,False);
key->defs.defined|= _Key_Type_Dflt;
}
else if (!ExprResolveInteger(arrayNdx,&ndx,SimpleLookup,
(XPointer)groupNames)) {
ERROR1("Illegal group index for type of key %s\n",
longText(key->name,XkbMessage));
ACTION("Definition with non-integer array index ignored\n");
return False;
}
else if ((ndx.uval<1)||(ndx.uval>XkbNumKbdGroups)) {
ERROR2("Group index for type of key %s is out of range (1..%d)\n",
longText(key->name,XkbMessage),
XkbNumKbdGroups+1);
ACTION1("Ignoring type for group %d\n",ndx.uval);
return False;
}
else {
key->types[ndx.uval-1]= XkbInternAtom(NULL,tmp.str,False);
key->typesDefined|= (1<<(ndx.uval-1));
}
}
else if (uStrCaseCmp(field,"symbols")==0)
return AddSymbolsToKey(key,xkb,field,arrayNdx,value,info);
else if (uStrCaseCmp(field,"actions")==0)
return AddActionsToKey(key,xkb,field,arrayNdx,value,info);
else if ((uStrCaseCmp(field,"vmods")==0)||
(uStrCaseCmp(field,"virtualmods")==0)||
(uStrCaseCmp(field,"virtualmodifiers")==0)) {
ok= ExprResolveModMask(value,&tmp,LookupVModMask,(XPointer)xkb);
if (ok) {
key->vmodmap= (tmp.uval>>8);
key->defs.defined|= _Key_VModMap;
}
else {
ERROR1("Expected a virtual modifier mask, found %s\n",
exprOpText(value->op));
ACTION1("Ignoring virtual modifiers definition for key %s\n",
longText(key->name,XkbMessage));
}
}
else if ((uStrCaseCmp(field,"locking")==0)||(uStrCaseCmp(field,"lock")==0)||
(uStrCaseCmp(field,"locks")==0)) {
ok= ExprResolveEnum(value,&tmp,lockingEntries);
if (ok)
key->behavior.type= tmp.uval;
key->defs.defined|= _Key_Behavior;
}
else if ((uStrCaseCmp(field,"radiogroup")==0)||
(uStrCaseCmp(field,"permanentradiogroup")==0)) {
Bool permanent= False;
if (uStrCaseCmp(field,"permanentradiogroup")==0)
permanent= True;
ok= ExprResolveInteger(value,&tmp,SimpleLookup,(XPointer)rgEntries);
if (!ok) {
ERROR1("Illegal radio group specification for %s\n",
longText(key->name,XkbMessage));
ACTION("Non-integer radio group ignored\n");
return False;
}
if (tmp.uval==0) {
key->behavior.type= XkbKB_Default;
key->behavior.data= 0;
return ok;
}
if ((tmp.uval<1)||(tmp.uval>XkbMaxRadioGroups)) {
ERROR1("Radio group specification for %s out of range (1..32)\n",
longText(key->name,XkbMessage));
ACTION1("Illegal radio group %d ignored\n",tmp.uval);
return False;
}
key->behavior.type= XkbKB_RadioGroup|(permanent?XkbKB_Permanent:0);
key->behavior.data= tmp.uval-1;
if (key->allowNone&(1<<(tmp.uval-1)))
key->behavior.data|= XkbKB_RGAllowNone;
key->defs.defined|= _Key_Behavior;
}
else if (uStrCaseEqual(field,"allownone")) {
ok= SetAllowNone(key,arrayNdx,value);
}
else if (uStrCasePrefix("overlay",field)||
uStrCasePrefix("permanentoverlay",field)) {
Bool permanent= False;
char *which;
int overlayNdx;
if (uStrCasePrefix("permanent",field)) {
permanent= True;
which= &field[sizeof("permanentoverlay")-1];
}
else {
which= &field[sizeof("overlay")-1];
}
if (sscanf(which,"%d",&overlayNdx)==1) {
if (((overlayNdx<1)||(overlayNdx>2))&&(warningLevel>0)) {
ERROR2("Illegal overlay %d specified for %s\n",
overlayNdx,
longText(key->name,XkbMessage));
ACTION("Ignored\n");
return False;
}
}
else if (*which=='\0')
overlayNdx=1;
else if (warningLevel>0) {
ERROR2("Illegal overlay \"%s\" specified for %s\n",
which,
longText(key->name,XkbMessage));
ACTION("Ignored\n");
return False;
}
ok= ExprResolveKeyName(value,&tmp,NULL,NULL);
if (!ok) {
ERROR1("Illegal overlay key specification for %s\n",
longText(key->name,XkbMessage));
ACTION("Overlay key must be specified by name\n");
return False;
}
if (overlayNdx==1) key->behavior.type= XkbKB_Overlay1;
else key->behavior.type= XkbKB_Overlay2;
if (permanent)
key->behavior.type|= XkbKB_Permanent;
key->behavior.data= 0;
key->nameForOverlayKey= KeyNameToLong(tmp.keyName.name);
key->defs.defined|= _Key_Behavior;
}
else if ((uStrCaseCmp(field,"repeating")==0)||
(uStrCaseCmp(field,"repeats")==0)||
(uStrCaseCmp(field,"repeat")==0)){
ok= ExprResolveEnum(value,&tmp,repeatEntries);
if (!ok) {
ERROR1("Illegal repeat setting for %s\n",
longText(key->name,XkbMessage));
ACTION("Non-boolean repeat setting ignored\n");
return False;
}
key->repeat= tmp.uval;
key->defs.defined|= _Key_Repeat;
}
else if ((uStrCaseCmp(field,"groupswrap")==0)||
(uStrCaseCmp(field,"wrapgroups")==0)) {
ok= ExprResolveBoolean(value,&tmp,NULL,NULL);
if (!ok) {
ERROR1("Illegal groupsWrap setting for %s\n",
longText(key->name,XkbMessage));
ACTION("Non-boolean value ignored\n");
return False;
}
if (tmp.uval) key->groupInfo= XkbWrapIntoRange;
else key->groupInfo= XkbClampIntoRange;
key->defs.defined|= _Key_GroupInfo;
}
else if ((uStrCaseCmp(field,"groupsclamp")==0)||
(uStrCaseCmp(field,"clampgroups")==0)) {
ok= ExprResolveBoolean(value,&tmp,NULL,NULL);
if (!ok) {
ERROR1("Illegal groupsClamp setting for %s\n",
longText(key->name,XkbMessage));
ACTION("Non-boolean value ignored\n");
return False;
}
if (tmp.uval) key->groupInfo= XkbClampIntoRange;
else key->groupInfo= XkbWrapIntoRange;
key->defs.defined|= _Key_GroupInfo;
}
else if ((uStrCaseCmp(field,"groupsredirect")==0)||
(uStrCaseCmp(field,"redirectgroups")==0)) {
if (!ExprResolveInteger(value,&tmp,SimpleLookup,(XPointer)groupNames)) {
ERROR1("Illegal group index for redirect of key %s\n",
longText(key->name,XkbMessage));
ACTION("Definition with non-integer group ignored\n");
return False;
}
if ((tmp.uval<1)||(tmp.uval>XkbNumKbdGroups)) {
ERROR2("Out-of-range (1..%d) group for redirect of key %s\n",
XkbNumKbdGroups,
longText(key->name,XkbMessage));
ERROR1("Ignoring illegal group %d\n",tmp.uval);
return False;
}
key->groupInfo= XkbSetGroupInfo(0,XkbRedirectIntoRange,tmp.uval-1);
key->defs.defined|= _Key_GroupInfo;
}
else {
ERROR1("Unknown field %s in a symbol interpretation\n",field);
ACTION("Definition ignored\n");
ok= False;
}
return ok;
}
static int
SetGroupName(SymbolsInfo *info,ExprDef *arrayNdx,ExprDef *value)
{
ExprResult tmp,name;
if ((arrayNdx==NULL)&&(warningLevel>0)) {
WARN("You must specify an index when specifying a group name\n");
ACTION("Group name definition without array subscript ignored\n");
return False;
}
if (!ExprResolveInteger(arrayNdx,&tmp,SimpleLookup,(XPointer)groupNames)) {
ERROR("Illegal index in group name definition\n");
ACTION("Definition with non-integer array index ignored\n");
return False;
}
if ((tmp.uval<1)||(tmp.uval>XkbNumKbdGroups)) {
ERROR1("Attempt to specify name for illegal group (must be 1..%d)\n",
XkbNumKbdGroups+1);
ACTION1("Name for group %d ignored\n",tmp.uval);
return False;
}
if (!ExprResolveString(value,&name,NULL,NULL)) {
ERROR("Group name must be a string\n");
ACTION1("Illegal name for group %d ignored\n",tmp.uval);
return False;
}
info->groupNames[tmp.uval-1+info->explicit_group]=
XkbInternAtom(NULL,name.str,False);
return True;
}
static int
HandleSymbolsVar(VarDef *stmt,XkbDescPtr xkb,SymbolsInfo *info)
{
ExprResult elem,field,tmp;
ExprDef * arrayNdx;
if (ExprResolveLhs(stmt->name,&elem,&field,&arrayNdx)==0)
return 0;
if (elem.str&&(uStrCaseCmp(elem.str,"key")==0)) {
return SetSymbolsField(&info->dflt,xkb,field.str,arrayNdx,stmt->value,
info);
}
else if ((elem.str==NULL)&&((uStrCaseCmp(field.str,"name")==0)||
(uStrCaseCmp(field.str,"groupname")==0))) {
return SetGroupName(info,arrayNdx,stmt->value);
}
else if ((elem.str==NULL)&&((uStrCaseCmp(field.str,"groupswrap")==0)||
(uStrCaseCmp(field.str,"wrapgroups")==0))) {
if (!ExprResolveBoolean(stmt->value,&tmp,NULL,NULL)) {
ERROR("Illegal setting for global groupsWrap\n");
ACTION("Non-boolean value ignored\n");
return False;
}
if (tmp.uval) info->groupInfo= XkbWrapIntoRange;
else info->groupInfo= XkbClampIntoRange;
return True;
}
else if ((elem.str==NULL)&&((uStrCaseCmp(field.str,"groupsclamp")==0)||
(uStrCaseCmp(field.str,"clampgroups")==0))) {
if (!ExprResolveBoolean(stmt->value,&tmp,NULL,NULL)) {
ERROR("Illegal setting for global groupsClamp\n");
ACTION("Non-boolean value ignored\n");
return False;
}
if (tmp.uval) info->groupInfo= XkbClampIntoRange;
else info->groupInfo= XkbWrapIntoRange;
return True;
}
else if ((elem.str==NULL)&&((uStrCaseCmp(field.str,"groupsredirect")==0)||
(uStrCaseCmp(field.str,"redirectgroups")==0))) {
if (!ExprResolveInteger(stmt->value,&tmp,
SimpleLookup,(XPointer)groupNames)) {
ERROR("Illegal group index for global groupsRedirect\n");
ACTION("Definition with non-integer group ignored\n");
return False;
}
if ((tmp.uval<1)||(tmp.uval>XkbNumKbdGroups)) {
ERROR1("Out-of-range (1..%d) group for global groupsRedirect\n",
XkbNumKbdGroups);
ACTION1("Ignoring illegal group %d\n",tmp.uval);
return False;
}
info->groupInfo= XkbSetGroupInfo(0,XkbRedirectIntoRange,tmp.uval);
return True;
}
else if ((elem.str==NULL)&&(uStrCaseCmp(field.str,"allownone")==0)) {
return SetAllowNone(&info->dflt,arrayNdx,stmt->value);
}
return SetActionField(xkb,elem.str,field.str,arrayNdx,stmt->value,
&info->action);
}
static Bool
HandleSymbolsBody( VarDef * def,
XkbDescPtr xkb,
KeyInfo * key,
SymbolsInfo * info)
{
Bool ok= True;
ExprResult tmp,field;
ExprDef * arrayNdx;
for (;def!=NULL;def= (VarDef *)def->common.next) {
if ((def->name)&&(def->name->type==ExprFieldRef)) {
ok= HandleSymbolsVar(def,xkb,info);
continue;
}
else {
if (def->name==NULL) {
if ((def->value==NULL)||(def->value->op==ExprKeysymList))
field.str= "symbols";
else field.str= "actions";
arrayNdx= NULL;
}
else {
ok= ExprResolveLhs(def->name,&tmp,&field,&arrayNdx);
}
if (ok)
ok= SetSymbolsField(key,xkb,field.str,arrayNdx,def->value,info);
}
}
return ok;
}
static Bool
SetExplicitGroup( SymbolsInfo * info,
KeyInfo * key)
{
unsigned group = info->explicit_group;
if (group == 0)
return True;
if ((key->typesDefined|key->symsDefined|key->actsDefined) & ~1) {
int i;
WARN1("For the map %s an explicit group specified\n", info->name);
WARN1("but key %s has more than one group defined\n",
longText(key->name,XkbMessage));
ACTION("All groups except first one will be ignored\n");
for (i = 1; i < XkbNumKbdGroups ; i++) {
key->numLevels[i]= 0;
if (key->syms[i]!=NULL)
uFree(key->syms[i]);
key->syms[i]= (KeySym*) NULL;
if (key->acts[i]!=NULL)
uFree(key->acts[i]);
key->acts[i]= (XkbAction*) NULL;
key->types[i]= (Atom) 0;
}
}
key->typesDefined = key->symsDefined = key->actsDefined = 1 << group;
key->numLevels[group]= key->numLevels[0];
key->numLevels[0]= 0;
key->syms[group]= key->syms[0];
key->syms[0]= (KeySym*) NULL;
key->acts[group]= key->acts[0];
key->acts[0]= (XkbAction*) NULL;
key->types[group]= key->types[0];
key->types[0]= (Atom) 0;
return True;
}
static int
HandleSymbolsDef( SymbolsDef * stmt,
XkbDescPtr xkb,
unsigned merge,
SymbolsInfo * info)
{
KeyInfo key;
InitKeyInfo(&key);
CopyKeyInfo(&info->dflt,&key,False);
key.defs.merge= stmt->merge;
key.name= KeyNameToLong(stmt->keyName);
if (!HandleSymbolsBody((VarDef *)stmt->symbols,xkb,&key,info)) {
info->errorCount++;
return False;
}
if (!SetExplicitGroup(info,&key)) {
info->errorCount++;
return False;
}
if (!AddKeySymbols(info,&key,xkb)) {
info->errorCount++;
return False;
}
return True;
}
static Bool
HandleModMapDef( ModMapDef * def,
XkbDescPtr xkb,
unsigned merge,
SymbolsInfo * info)
{
ExprDef * key;
ModMapEntry tmp;
ExprResult rtrn;
Bool ok;
if (!LookupModIndex(NULL,None,def->modifier,TypeInt,&rtrn)) {
ERROR("Illegal modifier map definition\n");
ACTION1("Ignoring map for non-modifier \"%s\"\n",
XkbAtomText(NULL,def->modifier,XkbMessage));
return False;
}
ok= True;
tmp.modifier= rtrn.uval;
for (key=def->keys;key!=NULL;key=(ExprDef *)key->common.next) {
if ((key->op==ExprValue)&&(key->type==TypeKeyName)) {
tmp.haveSymbol= False;
tmp.u.keyName= KeyNameToLong(key->value.keyName);
}
else if (ExprResolveKeySym(key,&rtrn,NULL,NULL)) {
tmp.haveSymbol= True;
tmp.u.keySym= rtrn.uval;
}
else {
ERROR("Modmap entries may contain only key names or keysyms\n");
ACTION1("Illegal definition for %s modifier ignored\n",
XkbModIndexText(tmp.modifier,XkbMessage));
continue;
}
ok= AddModMapEntry(info,&tmp)&&ok;
}
return ok;
}
static void
HandleSymbolsFile( XkbFile * file,
XkbDescPtr xkb,
unsigned merge,
SymbolsInfo * info)
{
ParseCommon *stmt;
info->name= uStringDup(file->name);
stmt= file->defs;
while (stmt) {
switch (stmt->stmtType) {
case StmtInclude:
if (!HandleIncludeSymbols((IncludeStmt *)stmt,xkb,info,
HandleSymbolsFile))
info->errorCount++;
break;
case StmtSymbolsDef:
if (!HandleSymbolsDef((SymbolsDef *)stmt,xkb,merge,info))
info->errorCount++;
break;
case StmtVarDef:
if (!HandleSymbolsVar((VarDef *)stmt,xkb,info))
info->errorCount++;
break;
case StmtVModDef:
if (!HandleVModDef((VModDef *)stmt,merge,&info->vmods))
info->errorCount++;
break;
case StmtInterpDef:
ERROR("Interpretation files may not include other types\n");
ACTION("Ignoring definition of symbol interpretation\n");
info->errorCount++;
break;
case StmtKeycodeDef:
ERROR("Interpretation files may not include other types\n");
ACTION("Ignoring definition of key name\n");
info->errorCount++;
break;
case StmtModMapDef:
if (!HandleModMapDef((ModMapDef *)stmt,xkb,merge,info))
info->errorCount++;
break;
default:
WSGO1("Unexpected statement type %d in HandleSymbolsFile\n",
stmt->stmtType);
break;
}
stmt= stmt->next;
if (info->errorCount>10) {
#ifdef NOISY
ERROR("Too many errors\n");
#endif
ACTION1("Abandoning symbols file \"%s\"\n",file->topName);
break;
}
}
return;
}
static Bool
FindKeyForSymbol(XkbDescPtr xkb,KeySym sym,unsigned int *kc_rtrn)
{
register int i, j;
register Bool gotOne;
j= 0;
do {
gotOne= False;
for (i = xkb->min_key_code; i <= (int)xkb->max_key_code; i++) {
if ( j<(int)XkbKeyNumSyms(xkb,i) ) {
gotOne = True;
if ((XkbKeySym(xkb,i,j)==sym)) {
*kc_rtrn= i;
return True;
}
}
}
j++;
} while (gotOne);
return False;
}
static Bool
FindNamedType(XkbDescPtr xkb,Atom name,unsigned *type_rtrn)
{
register unsigned n;
if (xkb&&xkb->map&&xkb->map->types) {
for (n=0;n<xkb->map->num_types;n++) {
if (xkb->map->types[n].name==(Atom)name) {
*type_rtrn= n;
return True;
}
}
}
return False;
}
static Bool
KSIsLower (KeySym ks)
{
KeySym lower, upper;
XConvertCase(ks, &lower, &upper);
if (lower == upper)
return False;
return (ks == lower ? True : False);
}
static Bool
KSIsUpper (KeySym ks)
{
KeySym lower, upper;
XConvertCase(ks, &lower, &upper);
if (lower == upper)
return False;
return (ks == upper ? True : False);
}
static Bool
FindAutomaticType(int width,KeySym *syms,Atom *typeNameRtrn, Bool *autoType)
{
*autoType = False;
if ((width==1)||(width==0)) {
*typeNameRtrn= XkbInternAtom(NULL,"ONE_LEVEL",False);
*autoType = True;
} else if (width == 2) {
if ( syms && KSIsLower(syms[0]) && KSIsUpper(syms[1]) ) {
*typeNameRtrn= XkbInternAtom(NULL,"ALPHABETIC",False);
} else if ( syms &&
(XkbKSIsKeypad(syms[0]) || XkbKSIsKeypad(syms[1])) ) {
*typeNameRtrn= XkbInternAtom(NULL,"KEYPAD",False);
*autoType = True;
} else {
*typeNameRtrn= XkbInternAtom(NULL,"TWO_LEVEL",False);
*autoType = True;
}
} else if (width <= 4 ) {
if ( syms && KSIsLower(syms[0]) && KSIsUpper(syms[1]) )
if ( KSIsLower(syms[2]) && KSIsUpper(syms[3]) )
*typeNameRtrn= XkbInternAtom(NULL,
"FOUR_LEVEL_ALPHABETIC",False);
else
*typeNameRtrn= XkbInternAtom(NULL,
"FOUR_LEVEL_SEMIALPHABETIC",False);
else if ( syms && (XkbKSIsKeypad(syms[0]) || XkbKSIsKeypad(syms[1])) )
*typeNameRtrn= XkbInternAtom(NULL,
"FOUR_LEVEL_KEYPAD",False);
else *typeNameRtrn= XkbInternAtom(NULL,"FOUR_LEVEL",False);
}
return ((width>=0)&&(width<=4));
}
static void
PrepareKeyDef(KeyInfo *key)
{
int i, j, width, defined, lastGroup;
Bool identical;
defined = key->symsDefined | key->actsDefined | key->typesDefined;
for (i = XkbNumKbdGroups - 1; i >= 0; i--) {
if (defined & (1<<i))
break;
}
lastGroup = i;
if (lastGroup == 0)
return;
for (i = lastGroup; i > 0; i--) {
if (defined & (1<<i))
continue;
width = key->numLevels[0];
if (key->typesDefined & 1) {
for (j = 0; j < width; j++) {
key->types[i] = key->types[0];
}
key->typesDefined |= 1 << i;
}
if ((key->actsDefined & 1) && key->acts[0]) {
key->acts[i]= uTypedCalloc(width, XkbAction);
if (key->acts[i] == NULL)
continue;
memcpy((void *) key->acts[i], (void *) key->acts[0],
width * sizeof(XkbAction));
key->actsDefined |= 1 << i;
}
if ((key->symsDefined & 1) && key->syms[0]) {
key->syms[i]= uTypedCalloc(width, KeySym);
if (key->syms[i] == NULL)
continue;
memcpy((void *) key->syms[i], (void *) key->syms[0],
width * sizeof(KeySym));
key->symsDefined |= 1 << i;
}
if (defined & 1) {
key->numLevels[i] = key->numLevels[0];
}
}
identical = True;
for (i = lastGroup; i > 0; i--) {
if ((key->numLevels[i] != key->numLevels[0]) ||
(key->types[i] != key->types[0])) {
identical = False;
break;
}
if ((key->syms[i] != key->syms[0]) &&
(key->syms[i] == NULL || key->syms[0] == NULL ||
memcmp((void*) key->syms[i], (void*) key->syms[0],
sizeof(KeySym) * key->numLevels[0])) ) {
identical = False;
break;
}
if ((key->acts[i] != key->acts[0]) &&
(key->acts[i] == NULL || key->acts[0] == NULL ||
memcmp((void*) key->acts[i], (void*) key->acts[0],
sizeof(XkbAction) * key->numLevels[0]))) {
identical = False;
break;
}
}
if (identical) {
for (i = lastGroup; i > 0; i--) {
key->numLevels[i]= 0;
if (key->syms[i] != NULL)
uFree(key->syms[i]);
key->syms[i]= (KeySym*) NULL;
if (key->acts[i] != NULL)
uFree(key->acts[i]);
key->acts[i]= (XkbAction*) NULL;
key->types[i]= (Atom) 0;
}
key->symsDefined &= 1;
key->actsDefined &= 1;
key->typesDefined &= 1;
}
return;
}
static Bool
CopySymbolsDef(XkbFileInfo *result,KeyInfo *key,int start_from)
{
register int i;
unsigned okc,kc,width,tmp,nGroups;
XkbKeyTypePtr type;
Bool haveActions,autoType,useAlias;
KeySym * outSyms;
XkbAction * outActs;
XkbDescPtr xkb;
unsigned types[XkbNumKbdGroups];
xkb= result->xkb;
useAlias= (start_from==0);
if (!FindNamedKey(xkb,key->name,&kc,useAlias,CreateKeyNames(xkb),
start_from)) {
if ((start_from==0)&&(warningLevel>=5)) {
WARN2("Key %s not found in %s keycodes\n",
longText(key->name,XkbMessage),
XkbAtomText(NULL,xkb->names->keycodes,XkbMessage));
ACTION("Symbols ignored\n");
}
return False;
}
haveActions= False;
for (i=width=nGroups=0;i<XkbNumKbdGroups;i++) {
if (((i+1)>nGroups)&&(((key->symsDefined|key->actsDefined)&(1<<i))||
(key->typesDefined)&(1<<i)))
nGroups= i+1;
if (key->acts[i])
haveActions= True;
autoType= False;
if (key->types[i]==None) {
if (key->dfltType!=None)
key->types[i]= key->dfltType;
else if (FindAutomaticType(key->numLevels[i],key->syms[i],
&key->types[i], &autoType)) {
}
else {
if (warningLevel>=5) {
WARN1("No automatic type for %d symbols\n",
(unsigned int)key->numLevels[i]);
ACTION3("Using %s for the %s key (keycode %d)\n",
XkbAtomText(NULL,key->types[i],XkbMessage),
longText(key->name,XkbMessage),kc);
}
}
}
if (FindNamedType(xkb,key->types[i],&types[i])) {
if (!autoType || key->numLevels[i] > 2)
xkb->server->explicit[kc]|= (1<<i);
}
else {
if (warningLevel>=3) {
WARN1("Type \"%s\" is not defined\n",
XkbAtomText(NULL,key->types[i],XkbMessage));
ACTION2("Using TWO_LEVEL for the %s key (keycode %d)\n",
longText(key->name,XkbMessage),kc);
}
types[i]= XkbTwoLevelIndex;
}
type= &xkb->map->types[types[i]];
if (type->num_levels<key->numLevels[i]) {
if (warningLevel>0) {
WARN4("Type \"%s\" has %d levels, but %s has %d symbols\n",
XkbAtomText(NULL,type->name,XkbMessage),
(unsigned int)type->num_levels,
longText(key->name,XkbMessage),
(unsigned int)key->numLevels[i]);
ACTION("Ignoring extra symbols\n");
}
key->numLevels[i]= type->num_levels;
}
if (key->numLevels[i]>width)
width= key->numLevels[i];
if (type->num_levels>width)
width= type->num_levels;
}
i= width*nGroups;
outSyms= XkbResizeKeySyms(xkb,kc,i);
if (outSyms==NULL) {
WSGO2("Could not enlarge symbols for %s (keycode %d)\n",
longText(key->name,XkbMessage),kc);
return False;
}
if (haveActions) {
outActs= XkbResizeKeyActions(xkb,kc,i);
if (outActs==NULL) {
WSGO2("Could not enlarge actions for %s (key %d)\n",
longText(key->name,XkbMessage),kc);
return False;
}
xkb->server->explicit[kc]|= XkbExplicitInterpretMask;
}
else outActs= NULL;
if (key->defs.defined&_Key_GroupInfo)
i= key->groupInfo;
else i= xkb->map->key_sym_map[kc].group_info;
xkb->map->key_sym_map[kc].group_info= XkbSetNumGroups(i,nGroups);
xkb->map->key_sym_map[kc].width= width;
for (i=0;i<nGroups;i++) {
xkb->map->key_sym_map[kc].kt_index[i]= types[i];
if (key->syms[i]!=NULL) {
for (tmp=0;tmp<width;tmp++) {
if (tmp<key->numLevels[i])
outSyms[tmp]= key->syms[i][tmp];
else outSyms[tmp]= NoSymbol;
if ((outActs!=NULL)&&(key->acts[i]!=NULL)) {
if (tmp<key->numLevels[i])
outActs[tmp]= key->acts[i][tmp];
else outActs[tmp].type= XkbSA_NoAction;
}
}
}
outSyms+= width;
if (outActs)
outActs+= width;
}
switch (key->behavior.type&XkbKB_OpMask) {
case XkbKB_Default:
break;
case XkbKB_Overlay1:
case XkbKB_Overlay2:
if (!FindNamedKey(xkb,key->nameForOverlayKey,&okc,True,
CreateKeyNames(xkb),0)) {
if (warningLevel>=1) {
WARN2("Key %s not found in %s keycodes\n",
longText(key->nameForOverlayKey,XkbMessage),
XkbAtomText(NULL,xkb->names->keycodes,XkbMessage));
ACTION1("Not treating %s as an overlay key \n",
longText(key->name,XkbMessage));
}
break;
}
key->behavior.data= okc;
default:
xkb->server->behaviors[kc]= key->behavior;
xkb->server->explicit[kc]|= XkbExplicitBehaviorMask;
break;
}
if (key->defs.defined&_Key_VModMap) {
xkb->server->vmodmap[kc]= key->vmodmap;
xkb->server->explicit[kc]|= XkbExplicitVModMapMask;
}
if (key->repeat!=RepeatUndefined) {
if (key->repeat==RepeatYes)
xkb->ctrls->per_key_repeat[kc/8]|= (1<<(kc%8));
else xkb->ctrls->per_key_repeat[kc/8]&= ~(1<<(kc%8));
xkb->server->explicit[kc]|= XkbExplicitAutoRepeatMask;
}
CopySymbolsDef(result,key,kc+1);
return True;
}
static Bool
CopyModMapDef(XkbFileInfo *result,ModMapEntry *entry)
{
unsigned kc;
XkbDescPtr xkb;
xkb= result->xkb;
if ((!entry->haveSymbol)&&(!FindNamedKey(xkb,entry->u.keyName,&kc,True,
CreateKeyNames(xkb),0))) {
if (warningLevel>=5) {
WARN2("Key %s not found in %s keycodes\n",
longText(entry->u.keyName,XkbMessage),
XkbAtomText(NULL,xkb->names->keycodes,XkbMessage));
ACTION1("Modifier map entry for %s not updated\n",
XkbModIndexText(entry->modifier,XkbMessage));
}
return False;
}
else if (entry->haveSymbol&&(!FindKeyForSymbol(xkb,entry->u.keySym,&kc))) {
if (warningLevel>5) {
WARN2("Key \"%s\" not found in %s symbol map\n",
XkbKeysymText(entry->u.keySym,XkbMessage),
XkbAtomText(NULL,xkb->names->symbols,XkbMessage));
ACTION1("Modifier map entry for %s not updated\n",
XkbModIndexText(entry->modifier,XkbMessage));
}
return False;
}
xkb->map->modmap[kc]|= (1<<entry->modifier);
return True;
}
Bool
CompileSymbols(XkbFile *file,XkbFileInfo *result,unsigned merge)
{
register int i;
SymbolsInfo info;
XkbDescPtr xkb;
xkb= result->xkb;
InitSymbolsInfo(&info,xkb);
info.dflt.defs.fileID= file->id;
info.dflt.defs.merge= merge;
HandleSymbolsFile(file,xkb,merge,&info);
if (info.nKeys == 0)
return True;
if (info.errorCount==0) {
KeyInfo *key;
if (XkbAllocNames(xkb,XkbSymbolsNameMask|XkbGroupNamesMask,0,0)
!=Success) {
WSGO("Can not allocate names in CompileSymbols\n");
ACTION("Symbols not added\n");
return False;
}
if(XkbAllocClientMap(xkb,XkbKeySymsMask|XkbModifierMapMask,0)!=Success){
WSGO("Could not allocate client map in CompileSymbols\n");
ACTION("Symbols not added\n");
return False;
}
if (XkbAllocServerMap(xkb,XkbAllServerInfoMask,32)!=Success) {
WSGO("Could not allocate server map in CompileSymbols\n");
ACTION("Symbols not added\n");
return False;
}
if (XkbAllocControls(xkb,XkbPerKeyRepeatMask)!=Success) {
WSGO("Could not allocate controls in CompileSymbols\n");
ACTION("Symbols not added\n");
return False;
}
xkb->names->symbols= XkbInternAtom(xkb->dpy,info.name,False);
if (info.aliases)
ApplyAliases(xkb,False,&info.aliases);
for (i=0;i<XkbNumKbdGroups;i++) {
if (info.groupNames[i]!=None)
xkb->names->groups[i]= info.groupNames[i];
}
for (key=info.keys,i=0;i<info.nKeys;i++,key++) {
PrepareKeyDef(key);
}
for (key=info.keys,i=0;i<info.nKeys;i++,key++) {
if (!CopySymbolsDef(result,key,0))
info.errorCount++;
}
if (warningLevel>3) {
for (i=xkb->min_key_code;i<=xkb->max_key_code;i++) {
if (xkb->names->keys[i].name[0]=='\0')
continue;
if (XkbKeyNumGroups(xkb,i)<1) {
char buf[5];
memcpy(buf,xkb->names->keys[i].name,4);
buf[4]= '\0';
WARN2("No symbols defined for <%s> (keycode %d)\n",buf,i);
}
}
}
if (info.modMap) {
ModMapEntry *mm,*next;
for (mm=info.modMap;mm!=NULL;mm=next) {
if (!CopyModMapDef(result,mm))
info.errorCount++;
next= (ModMapEntry *)mm->defs.next;
}
}
return True;
}
return False;
}