/************************************************************
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.
********************************************************/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include <X11/Xos.h>
#include <X11/Xlib.h>
#include <X11/XKBlib.h>
#include <X11/extensions/XKBgeom.h>
#include "XKMformat.h"
#include "XKBfileInt.h"
#define lowbit(x) ((x) & (-(x)))
static Bool
WriteCHdrVMods(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register int i, nOut;
if ((!xkb) || (!xkb->names))
return False;
for (i = nOut = 0; i < XkbNumVirtualMods; i++) {
if (xkb->names->vmods[i] != None) {
fprintf(file, "%s#define vmod_%s %d\n",
(nOut < 1 ? "\n" : ""),
XkbAtomText(dpy, xkb->names->vmods[i], XkbCFile), i);
nOut++;
}
}
for (i = nOut = 0; i < XkbNumVirtualMods; i++) {
if (xkb->names->vmods[i] != None) {
fprintf(file, "%s#define vmod_%sMask (1<<%d)\n",
(nOut < 1 ? "\n" : ""),
XkbAtomText(dpy, xkb->names->vmods[i], XkbCFile), i);
nOut++;
}
}
if (nOut > 0)
fprintf(file, "\n");
return True;
}
static Bool
WriteCHdrKeycodes(FILE * file, XkbDescPtr xkb)
{
Atom kcName;
register unsigned i;
char buf[8];
if ((!xkb) || (!xkb->names) || (!xkb->names->keys)) {
_XkbLibError(_XkbErrMissingNames, "WriteCHdrKeycodes", 0);
return False;
}
kcName = xkb->names->keycodes;
buf[4] = '\0';
if (xkb->names->keycodes != None)
fprintf(file, "/* keycodes name is \"%s\" */\n",
XkbAtomText(xkb->dpy, kcName, XkbMessage));
fprintf(file, "static XkbKeyNameRec keyNames[NUM_KEYS]= {\n");
for (i = 0; i <= xkb->max_key_code; i++) {
snprintf(buf, sizeof(buf), "\"%s\"",
XkbKeyNameText(xkb->names->keys[i].name, XkbCFile));
if (i != xkb->max_key_code) {
fprintf(file, " { %6s },", buf);
if ((i & 3) == 3)
fprintf(file, "\n");
}
else {
fprintf(file, " { %6s }\n", buf);
}
}
fprintf(file, "};\n");
return True;
}
static void
WriteTypePreserve(FILE * file,
Display * dpy,
char * prefix,
XkbDescPtr xkb,
XkbKeyTypePtr type)
{
register unsigned i;
XkbModsPtr pre;
fprintf(file, "static XkbModsRec preserve_%s[%d]= {\n", prefix,
type->map_count);
for (i = 0, pre = type->preserve; i < type->map_count; i++, pre++) {
if (i != 0)
fprintf(file, ",\n");
fprintf(file, " { %15s, ", XkbModMaskText(pre->mask, XkbCFile));
fprintf(file, "%15s, ", XkbModMaskText(pre->real_mods, XkbCFile));
fprintf(file, "%15s }",
XkbVModMaskText(dpy, xkb, 0, pre->vmods, XkbCFile));
}
fprintf(file, "\n};\n");
return;
}
static void
WriteTypeInitFunc(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register unsigned i, n;
XkbKeyTypePtr type;
Atom * names;
char * prefix = NULL;
fprintf(file, "\n\nstatic void\n");
fprintf(file, "initTypeNames(DPYTYPE dpy)\n");
fprintf(file, "{\n");
for (i = 0, type = xkb->map->types; i < xkb->map->num_types; i++, type++) {
if (!(prefix = strdup(XkbAtomText(dpy, type->name, XkbCFile)))) {
_XkbLibError(_XkbErrBadAlloc, "WriteTypeInitFunc", 0);
fprintf(file, "#error XkbErrBadAlloc WriteTypeInitFunc\n");
break;
}
if (type->name != None)
fprintf(file, " dflt_types[%d].name= GET_ATOM(dpy,\"%s\");\n",
i, XkbAtomText(dpy, type->name, XkbCFile));
names = type->level_names;
if (names != NULL) {
char *tmp;
for (n = 0; n < type->num_levels; n++) {
if (names[n] == None)
continue;
tmp = XkbAtomText(dpy, names[n], XkbCFile);
if (tmp == NULL)
continue;
fprintf(file, " lnames_%s[%d]= ", prefix, n);
fprintf(file, "GET_ATOM(dpy,\"%s\");\n", tmp);
}
}
free(prefix);
prefix = NULL;
}
fprintf(file, "}\n");
return;
}
static Bool
WriteCHdrKeyTypes(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register unsigned i, n;
XkbClientMapPtr map;
XkbKeyTypePtr type;
char * prefix = NULL;
if ((!xkb) || (!xkb->map) || (!xkb->map->types)) {
_XkbLibError(_XkbErrMissingTypes, "WriteCHdrKeyTypes", 0);
return False;
}
if (xkb->map->num_types < XkbNumRequiredTypes) {
_XkbLibError(_XkbErrMissingReqTypes, "WriteCHdrKeyTypes", 0);
return 0;
}
map = xkb->map;
if ((xkb->names != NULL) && (xkb->names->types != None)) {
fprintf(file, "/* types name is \"%s\" */\n",
XkbAtomText(dpy, xkb->names->types, XkbCFile));
}
for (i = 0, type = map->types; i < map->num_types; i++, type++) {
if (!(prefix = strdup(XkbAtomText(dpy, type->name, XkbCFile)))) {
_XkbLibError(_XkbErrBadAlloc, "WriteCHdrKeyTypes", 0);
return False;
}
if (type->map_count > 0) {
XkbKTMapEntryPtr entry;
entry = type->map;
fprintf(file, "static XkbKTMapEntryRec map_%s[%d]= {\n", prefix,
type->map_count);
for (n = 0; n < (unsigned) type->map_count; n++, entry++) {
if (n != 0)
fprintf(file, ",\n");
fprintf(file, " { %d, %6d, { %15s, %15s, %15s } }",
entry->active,
entry->level,
XkbModMaskText(entry->mods.mask, XkbCFile),
XkbModMaskText(entry->mods.real_mods, XkbCFile),
XkbVModMaskText(dpy, xkb, 0, entry->mods.vmods,
XkbCFile));
}
fprintf(file, "\n};\n");
if (type->preserve)
WriteTypePreserve(file, dpy, prefix, xkb, type);
}
if (type->level_names != NULL) {
fprintf(file, "static Atom lnames_%s[%d];\n", prefix,
type->num_levels);
}
fprintf(file, "\n");
free(prefix);
prefix = NULL;
}
fprintf(file, "static XkbKeyTypeRec dflt_types[]= {\n");
for (i = 0, type = map->types; i < (unsigned) map->num_types; i++, type++) {
if (!(prefix = strdup(XkbAtomText(dpy, type->name, XkbCFile)))) {
_XkbLibError(_XkbErrBadAlloc, "WriteCHdrKeyTypes", 0);
return False;
}
if (i != 0)
fprintf(file, ",\n");
fprintf(file, " {\n { %15s, %15s, %15s },\n",
XkbModMaskText(type->mods.mask, XkbCFile),
XkbModMaskText(type->mods.real_mods, XkbCFile),
XkbVModMaskText(dpy, xkb, 0, type->mods.vmods, XkbCFile));
fprintf(file, " %d,\n", type->num_levels);
fprintf(file, " %d,", type->map_count);
if (type->map_count > 0)
fprintf(file, " map_%s,", prefix);
else
fprintf(file, " NULL,");
if (type->preserve)
fprintf(file, " preserve_%s,\n", prefix);
else
fprintf(file, " NULL,\n");
if (type->level_names != NULL)
fprintf(file, " None, lnames_%s\n }", prefix);
else
fprintf(file, " None, NULL\n }");
free(prefix);
prefix = NULL;
}
fprintf(file, "\n};\n");
fprintf(file,
"#define num_dflt_types (sizeof(dflt_types)/sizeof(XkbKeyTypeRec))\n");
WriteTypeInitFunc(file, dpy, xkb);
return True;
}
static Bool
WriteCHdrCompatMap(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register unsigned i;
XkbCompatMapPtr compat;
XkbSymInterpretPtr interp;
if ((!xkb) || (!xkb->compat) || (!xkb->compat->sym_interpret)) {
_XkbLibError(_XkbErrMissingSymInterps, "WriteCHdrInterp", 0);
return False;
}
compat = xkb->compat;
if ((xkb->names != NULL) && (xkb->names->compat != None)) {
fprintf(file, "/* compat name is \"%s\" */\n",
XkbAtomText(dpy, xkb->names->compat, XkbCFile));
}
fprintf(file, "static XkbSymInterpretRec dfltSI[%d]= {\n", compat->num_si);
interp = compat->sym_interpret;
for (i = 0; i < compat->num_si; i++, interp++) {
XkbAction *act;
act = (XkbAction *) &interp->act;
if (i != 0)
fprintf(file, ",\n");
fprintf(file, " { %s, ", XkbKeysymText(interp->sym, XkbCFile));
fprintf(file, "0x%04x,\n", interp->flags);
fprintf(file, " %s, ", XkbSIMatchText(interp->match, XkbCFile));
fprintf(file, "%s,\n", XkbModMaskText(interp->mods, XkbCFile));
fprintf(file, " %d,\n", interp->virtual_mod);
fprintf(file, " %s }", XkbActionText(dpy, xkb, act, XkbCFile));
}
fprintf(file, "\n};\n");
fprintf(file,
"#define num_dfltSI (sizeof(dfltSI)/sizeof(XkbSymInterpretRec))\n");
fprintf(file, "\nstatic XkbCompatMapRec compatMap= {\n");
fprintf(file, " dfltSI,\n");
fprintf(file, " { /* group compatibility */\n ");
for (i = 0; i < XkbNumKbdGroups; i++) {
XkbModsPtr gc;
gc = &xkb->compat->groups[i];
fprintf(file, "%s{ %12s, %12s, %12s }",
((i == 0) ? "" : ",\n "),
XkbModMaskText(gc->mask, XkbCFile),
XkbModMaskText(gc->real_mods, XkbCFile),
XkbVModMaskText(xkb->dpy, xkb, 0, gc->vmods, XkbCFile));
}
fprintf(file, "\n },\n");
fprintf(file, " num_dfltSI, num_dfltSI\n");
fprintf(file, "};\n\n");
return True;
}
static Bool
WriteCHdrSymbols(FILE *file, XkbDescPtr xkb)
{
register unsigned i;
if ((!xkb) || (!xkb->map) || (!xkb->map->syms) || (!xkb->map->key_sym_map)) {
_XkbLibError(_XkbErrMissingSymbols, "WriteCHdrSymbols", 0);
return False;
}
fprintf(file, "#define NUM_SYMBOLS %d\n", xkb->map->num_syms);
if (xkb->map->num_syms > 0) {
register KeySym *sym;
sym = xkb->map->syms;
fprintf(file, "static KeySym symCache[NUM_SYMBOLS]= {\n");
for (i = 0; i < xkb->map->num_syms; i++, sym++) {
if (i == 0)
fprintf(file, " ");
else if (i % 4 == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
fprintf(file, "%15s", XkbKeysymText(*sym, XkbCFile));
}
fprintf(file, "\n};\n");
}
if (xkb->max_key_code > 0) {
register XkbSymMapPtr map;
map = xkb->map->key_sym_map;
fprintf(file, "static XkbSymMapRec symMap[NUM_KEYS]= {\n");
for (i = 0; i <= xkb->max_key_code; i++, map++) {
if (i == 0)
fprintf(file, " ");
else if ((i & 3) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
fprintf(file, "{ %2d, 0x%x, %3d }",
map->kt_index[0], map->group_info, map->offset);
}
fprintf(file, "\n};\n");
}
return True;
}
static Bool
WriteCHdrClientMap(FILE *file, Display *dpy, XkbDescPtr xkb)
{
if ((!xkb) || (!xkb->map) || (!xkb->map->syms) || (!xkb->map->key_sym_map)) {
_XkbLibError(_XkbErrMissingSymbols, "WriteCHdrClientMap", 0);
return False;
}
if (!WriteCHdrKeyTypes(file, dpy, xkb))
return False;
if (!WriteCHdrSymbols(file, xkb))
return False;
fprintf(file, "static XkbClientMapRec clientMap= {\n");
fprintf(file, " NUM_TYPES, NUM_TYPES, types, \n");
fprintf(file, " NUM_SYMBOLS, NUM_SYMBOLS, symCache, symMap\n");
fprintf(file, "};\n\n");
return True;
}
static Bool
WriteCHdrServerMap(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register unsigned i;
if ((!xkb) || (!xkb->map) || (!xkb->map->syms) || (!xkb->map->key_sym_map)) {
_XkbLibError(_XkbErrMissingSymbols, "WriteCHdrServerMap", 0);
return False;
}
if (xkb->server->num_acts > 0) {
register XkbAnyAction *act;
act = (XkbAnyAction *) xkb->server->acts;
fprintf(file, "#define NUM_ACTIONS %d\n", xkb->server->num_acts);
fprintf(file, "static XkbAnyAction actionCache[NUM_ACTIONS]= {\n");
for (i = 0; i < xkb->server->num_acts; i++, act++) {
if (i == 0)
fprintf(file, " ");
else
fprintf(file, ",\n ");
fprintf(file, "%s",
XkbActionText(dpy, xkb, (XkbAction *) act, XkbCFile));
}
fprintf(file, "\n};\n");
}
fprintf(file, "static unsigned short keyActions[NUM_KEYS]= {\n");
for (i = 0; i <= xkb->max_key_code; i++) {
if (i == 0)
fprintf(file, " ");
else if ((i & 0xf) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
fprintf(file, "%2d", xkb->server->key_acts[i]);
}
fprintf(file, "\n};\n");
fprintf(file, "static XkbBehavior behaviors[NUM_KEYS]= {\n");
for (i = 0; i <= xkb->max_key_code; i++) {
if (i == 0)
fprintf(file, " ");
else if ((i & 0x3) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
if (xkb->server->behaviors) {
fprintf(file, "%s",
XkbBehaviorText(xkb, &xkb->server->behaviors[i], XkbCFile));
}
else
fprintf(file, "{ 0, 0 }");
}
fprintf(file, "\n};\n");
fprintf(file, "static unsigned char explicit_parts[NUM_KEYS]= {\n");
for (i = 0; i <= xkb->max_key_code; i++) {
if (i == 0)
fprintf(file, " ");
else if ((i & 0x7) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
if ((xkb->server->explicit == NULL) || (xkb->server->explicit[i] == 0))
fprintf(file, " 0");
else
fprintf(file, "0x%02x", xkb->server->explicit[i]);
}
fprintf(file, "\n};\n");
fprintf(file, "static unsigned short vmodmap[NUM_KEYS]= {\n");
for (i = 0; i < xkb->max_key_code; i++) {
if (i == 0)
fprintf(file, " ");
else if ((i & 0x7) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
if ((xkb->server->vmodmap == NULL) || (xkb->server->vmodmap[i] == 0))
fprintf(file, " 0");
else
fprintf(file, "0x%04x", xkb->server->vmodmap[i]);
}
fprintf(file, "};\n");
fprintf(file, "static XkbServerMapRec serverMap= {\n");
fprintf(file, " %d, %d, (XkbAction *)actionCache,\n",
xkb->server->num_acts, xkb->server->num_acts);
fprintf(file, " behaviors, keyActions, explicit_parts,\n");
for (i = 0; i < XkbNumVirtualMods; i++) {
if (i == 0)
fprintf(file, " { ");
else if (i == 8)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
fprintf(file, "%3d", xkb->server->vmods[i]);
}
fprintf(file, " },\n");
fprintf(file, " vmodmap\n");
fprintf(file, "};\n\n");
return True;
}
static Bool
WriteCHdrIndicators(FILE *file, Display *dpy, XkbDescPtr xkb)
{
register int i, nNames;
XkbIndicatorMapPtr imap;
if (xkb->indicators == NULL)
return True;
fprintf(file, "static XkbIndicatorRec indicators= {\n");
fprintf(file, " 0x%lx,\n {\n",
(long) xkb->indicators->phys_indicators);
for (imap = xkb->indicators->maps, i = nNames = 0; i < XkbNumIndicators;
i++, imap++) {
fprintf(file, "%s { 0x%02x, %s, 0x%02x, %s, { %s, ",
(i != 0 ? ",\n" : ""), imap->flags,
XkbIMWhichStateMaskText(imap->which_groups, XkbCFile),
imap->groups, XkbIMWhichStateMaskText(imap->which_mods,
XkbCFile),
XkbModMaskText(imap->mods.mask, XkbCFile));
fprintf(file, " %s, %s }, %s }",
XkbModMaskText(imap->mods.real_mods, XkbCFile),
XkbVModMaskText(dpy, xkb, 0, imap->mods.vmods, XkbCFile),
XkbControlsMaskText(imap->ctrls, XkbCFile));
if (xkb->names && (xkb->names->indicators[i] != None))
nNames++;
}
fprintf(file, "\n }\n};\n");
if (nNames > 0) {
fprintf(file, "static void\n");
fprintf(file, "initIndicatorNames(DPYTYPE dpy,XkbDescPtr xkb)\n");
fprintf(file, "{\n");
for (i = 0; i < XkbNumIndicators; i++) {
Atom name;
if (xkb->names->indicators[i] == None)
continue;
name = xkb->names->indicators[i];
fprintf(file, " xkb->names->indicators[%2d]= ", i);
fprintf(file, "GET_ATOM(dpy,\"%s\");\n",
XkbAtomText(dpy, name, XkbCFile));
}
fprintf(file, "}\n");
}
return True;
}
static Bool
WriteCHdrGeomProps(FILE *file, XkbDescPtr xkb, XkbGeometryPtr geom)
{
if (geom->num_properties > 0) {
register int i;
fprintf(file, "\nstatic XkbPropertyRec g_props[%d]= {\n",
geom->num_properties);
for (i = 0; i < geom->num_properties; i++) {
fprintf(file, "%s { \"%s\", \"%s\" }",
(i == 0 ? "" : ",\n"),
XkbStringText(geom->properties[i].name, XkbCFile),
XkbStringText(geom->properties[i].value, XkbCFile));
}
fprintf(file, "\n};\n");
}
return True;
}
static Bool
WriteCHdrGeomColors(FILE *file, XkbDescPtr xkb, XkbGeometryPtr geom)
{
if (geom->num_colors > 0) {
register int i;
fprintf(file, "\nstatic XkbColorRec g_colors[%d]= {\n",
geom->num_colors);
for (i = 0; i < geom->num_colors; i++) {
fprintf(file, "%s { %3d, \"%s\" }",
(i == 0 ? "" : ",\n"), geom->colors[i].pixel,
XkbStringText(geom->colors[i].spec, XkbCFile));
}
fprintf(file, "\n};\n");
}
return True;
}
static Bool
WriteCHdrGeomOutlines(FILE *file, int nOL, XkbOutlinePtr ol, int shapeNdx)
{
register int o, p;
for (o = 0; o < nOL; o++) {
fprintf(file, "\nstatic XkbPointRec pts_sh%02do%02d[]= {\n", shapeNdx,
o);
for (p = 0; p < ol[o].num_points; p++) {
if (p == 0)
fprintf(file, " ");
else if ((p & 0x3) == 0)
fprintf(file, ",\n ");
else
fprintf(file, ", ");
fprintf(file, "{ %4d, %4d }", ol[o].points[p].x, ol[o].points[p].y);
}
fprintf(file, "\n};");
}
fprintf(file, "\n\nstatic XkbOutlineRec ol_sh%02d[]= {\n", shapeNdx);
for (o = 0; o < nOL; o++) {
fprintf(file, "%s { %d, %d, %d, pts_sh%02do%02d }",
(o == 0 ? "" : ",\n"),
ol[o].num_points, ol[o].num_points,
ol[o].corner_radius, shapeNdx, o);
}
fprintf(file, "\n};\n");
return True;
}
static Bool
WriteCHdrGeomShapes(FILE *file, XkbDescPtr xkb, XkbGeometryPtr geom)
{
register int s;
register XkbShapePtr shape;
for (s = 0, shape = geom->shapes; s < geom->num_shapes; s++, shape++) {
WriteCHdrGeomOutlines(file, shape->num_outlines, shape->outlines, s);
}
fprintf(file, "\n\nstatic XkbShapeRec g_shapes[%d]= {\n", geom->num_shapes);
for (s = 0, shape = geom->shapes; s < geom->num_shapes; s++, shape++) {
fprintf(file, "%s { None, %3d, %3d, ol_sh%02d, ",
(s == 0 ? "" : ",\n"), shape->num_outlines,
shape->num_outlines, s);
if (shape->approx) {
fprintf(file, "&ol_sh%02d[%2d], ", s,
XkbOutlineIndex(shape, shape->approx));
}
else
fprintf(file, " NULL, ");
if (shape->primary) {
fprintf(file, "&ol_sh%02d[%2d],\n", s,
XkbOutlineIndex(shape, shape->primary));
}
else
fprintf(file, " NULL,\n");
fprintf(file,
" { %4d, %4d, %4d, %4d } }",
shape->bounds.x1, shape->bounds.y1,
shape->bounds.x2, shape->bounds.y2);
}
fprintf(file, "\n};\n");
return True;
}
static Bool
WriteCHdrGeomDoodads(FILE * file,
XkbDescPtr xkb,
XkbGeometryPtr geom,
XkbSectionPtr section,
int section_num)
{
int nd, d;
XkbDoodadPtr doodad;
Display * dpy;
dpy = xkb->dpy;
if (section == NULL) {
if (geom->num_doodads > 0) {
fprintf(file, "static XkbDoodadRec g_doodads[%d];\n",
geom->num_doodads);
}
fprintf(file, "static void\n");
fprintf(file, "_InitGeomDoodads(DPYTYPE dpy,XkbGeometryPtr geom)\n");
fprintf(file, "{\n");
fprintf(file, "register XkbDoodadPtr doodads;\n\n");
fprintf(file, " doodads= geom->doodads;\n");
nd = geom->num_doodads;
doodad = geom->doodads;
}
else {
if (section->num_doodads > 0) {
fprintf(file, "static XkbDoodadRec doodads_s%02d[%d];\n",
section_num, section->num_doodads);
}
fprintf(file, "static void\n");
fprintf(file, "_InitS%02dDoodads(", section_num);
fprintf(file, " DPYTYPE dpy,\n");
fprintf(file, " XkbGeometryPtr geom,\n");
fprintf(file, " XkbSectionPtr section)\n");
fprintf(file, "{\n");
fprintf(file, "register XkbDoodadPtr doodads;\n\n");
fprintf(file, " doodads= section->doodads;\n");
nd = geom->num_doodads;
doodad = geom->doodads;
}
for (d = 0; d < nd; d++, doodad++) {
if (d != 0)
fprintf(file, "\n");
fprintf(file, " doodads[%d].any.name= GET_ATOM(dpy,\"%s\");\n",
d, XkbAtomText(dpy, doodad->any.name, XkbCFile));
fprintf(file, " doodads[%d].any.type= %s;\n",
d, XkbDoodadTypeText(doodad->any.type, XkbCFile));
fprintf(file, " doodads[%d].any.priority= %d;\n",
d, doodad->any.priority);
fprintf(file, " doodads[%d].any.top= %d;\n", d, doodad->any.top);
fprintf(file, " doodads[%d].any.left= %d;\n", d, doodad->any.left);
fprintf(file, " doodads[%d].any.angle= %d;\n", d, doodad->any.angle);
switch (doodad->any.type) {
case XkbOutlineDoodad:
case XkbSolidDoodad:
fprintf(file, " doodads[%d].shape.color_ndx= %d;\n",
d, doodad->shape.color_ndx);
fprintf(file, " doodads[%d].shape.shape_ndx= %d;\n",
d, doodad->shape.shape_ndx);
break;
case XkbTextDoodad:
fprintf(file, " doodads[%d].text.width= %d;\n",
d, doodad->text.width);
fprintf(file, " doodads[%d].text.height= %d;\n",
d, doodad->text.height);
fprintf(file, " doodads[%d].text.color_ndx= %d;\n",
d, doodad->text.color_ndx);
fprintf(file, " doodads[%d].text.text= \"%s\";\n",
d, XkbStringText(doodad->text.text, XkbCFile));
fprintf(file, " doodads[%d].text.font= \"%s\";\n",
d, XkbStringText(doodad->text.font, XkbCFile));
break;
case XkbIndicatorDoodad:
fprintf(file, " doodads[%d].indicator.shape_ndx= %d;\n",
d, doodad->indicator.shape_ndx);
fprintf(file, " doodads[%d].indicator.on_color_ndx= %d;\n",
d, doodad->indicator.on_color_ndx);
fprintf(file, " doodads[%d].indicator.off_color_ndx= %d;\n",
d, doodad->indicator.off_color_ndx);
break;
case XkbLogoDoodad:
fprintf(file, " doodads[%d].logo.color_ndx= %d;\n",
d, doodad->logo.color_ndx);
fprintf(file, " doodads[%d].logo.shape_ndx= %d;\n",
d, doodad->logo.shape_ndx);
fprintf(file, " doodads[%d].logo.logo_name= \"%s\";\n",
d, XkbStringText(doodad->logo.logo_name, XkbCFile));
break;
}
}
fprintf(file, "}\n");
return True;
}
static Bool
WriteCHdrGeomOverlays(FILE * file,
XkbDescPtr xkb,
XkbSectionPtr section,
int section_num)
{
register int o, r, k;
XkbOverlayPtr ol;
XkbOverlayRowPtr row;
XkbOverlayKeyPtr key;
if (section->num_overlays < 1)
return True;
for (o = 0, ol = section->overlays; o < section->num_overlays; o++, ol++) {
for (r = 0, row = ol->rows; r < ol->num_rows; r++, row++) {
fprintf(file, "static XkbOverlayKeyRec olkeys_s%02dr%02d[%d]= {\n",
section_num, r, row->num_keys);
for (k = 0, key = row->keys; k < row->num_keys; k++, key++) {
fprintf(file, "%s { {\"%s\"}, {\"%s\"} }",
(k == 0 ? "" : ",\n"),
XkbKeyNameText(key->over.name, XkbCFile),
XkbKeyNameText(key->under.name, XkbCFile));
}
fprintf(file, "\n};\n");
}
fprintf(file, "static XkbOverlayRowRec olrows_s%02d[%d]= {\n",
section_num, section->num_rows);
for (r = 0, row = ol->rows; r < ol->num_rows; r++, row++) {
fprintf(file, "%s { %4d, %4d, %4d, olkeys_s%02dr%02d }",
(r == 0 ? "" : ",\n"),
row->row_under, row->num_keys, row->num_keys,
section_num, r);
}
fprintf(file, "\n};\n");
}
fprintf(file, "static XkbOverlayRec overlays_s%02d[%d]= {\n", section_num,
section->num_overlays);
for (o = 0, ol = section->overlays; o < section->num_overlays; o++, ol++) {
fprintf(file, "%s {\n", (o == 0 ? "" : ",\n"));
fprintf(file, " None, /* name */\n");
fprintf(file, " NULL, /* section_under */\n");
fprintf(file, " %4d, /* num_rows */\n", ol->num_rows);
fprintf(file, " %4d, /* sz_rows */\n", ol->num_rows);
fprintf(file, " olrows_s%02d,\n", section_num);
fprintf(file, " NULL /* bounds */\n");
fprintf(file, " }");
}
fprintf(file, "\n};\n");
fprintf(file, "static void\n");
fprintf(file, "_InitS%02dOverlay(", section_num);
fprintf(file, " DPYTYPE dpy,\n");
fprintf(file, " XkbGeometryPtr geom,\n");
fprintf(file, " XkbSectionPtr section)\n");
fprintf(file, "{\n");
fprintf(file, "XkbOverlayPtr ol;\n\n");
fprintf(file, " ol= section->overlays;\n");
for (o = 0, ol = section->overlays; o < section->num_overlays; o++, ol++) {
fprintf(file, " ol[%2d].name= GET_ATOM(dpy,\"%s\");\n",
o, XkbAtomText(xkb->dpy, ol->name, XkbCFile));
fprintf(file, " ol[%2d].section_under= section;\n", o);
}
fprintf(file, "}\n");
return True;
}
static Bool
WriteCHdrGeomRows(FILE * file,
XkbDescPtr xkb,
XkbSectionPtr section,
int section_num)
{
register int k, r;
register XkbRowPtr row;
register XkbKeyPtr key;
for (r = 0, row = section->rows; r < section->num_rows; r++, row++) {
fprintf(file, "static XkbKeyRec keys_s%02dr%02d[]= {\n",
section_num, r);
for (k = 0, key = row->keys; k < row->num_keys; k++, key++) {
fprintf(file, "%s { { \"%s\" }, %4d, %4d, %4d }",
(k == 0 ? "" : ",\n"),
XkbKeyNameText(key->name.name, XkbCFile),
key->gap, key->shape_ndx, key->color_ndx);
}
fprintf(file, "\n};\n");
}
fprintf(file, "static XkbRowRec rows_s%02d[]= {\n", section_num);
for (r = 0, row = section->rows; r < section->num_rows; r++, row++) {
fprintf(file, "%s { %4d, %4d, %2d, %2d, %1d, keys_s%02dr%02d, ",
(r == 0 ? "" : ",\n"),
row->top, row->left, row->num_keys, row->num_keys,
(row->vertical != 0), section_num, r);
fprintf(file, " { %4d, %4d, %4d, %4d } }",
row->bounds.x1, row->bounds.y1, row->bounds.x2, row->bounds.y2);
}
fprintf(file, "\n};\n");
return True;
}
static Bool
WriteCHdrGeomSections(FILE *file, XkbDescPtr xkb, XkbGeometryPtr geom)
{
register int s;
register XkbSectionPtr section;
for (s = 0, section = geom->sections; s < geom->num_sections;
s++, section++) {
WriteCHdrGeomRows(file, xkb, section, s);
#ifdef NOTYET
if (section->num_doodads > 0)
WriteCHdrGeomDoodads(file, xkb, geom, section, s);
#endif
if (section->num_overlays > 0)
WriteCHdrGeomOverlays(file, xkb, section, s);
}
fprintf(file, "\nstatic XkbSectionRec g_sections[%d]= {\n",
geom->num_sections);
for (s = 0, section = geom->sections; s < geom->num_sections;
s++, section++) {
if (s != 0)
fprintf(file, ",\n");
fprintf(file, " {\n None, /* name */\n");
fprintf(file, " %4d, /* priority */\n", section->priority);
fprintf(file, " %4d, /* top */\n", section->top);
fprintf(file, " %4d, /* left */\n", section->left);
fprintf(file, " %4d, /* width */\n", section->width);
fprintf(file, " %4d, /* height */\n", section->height);
fprintf(file, " %4d, /* angle */\n", section->angle);
fprintf(file, " %4d, /* num_rows */\n", section->num_rows);
fprintf(file, " %4d, /* num_doodads */\n", section->num_doodads);
fprintf(file, " %4d, /* num_overlays */\n", section->num_overlays);
fprintf(file, " %4d, /* sz_rows */\n", section->num_rows);
fprintf(file, " %4d, /* sz_doodads */\n", section->num_doodads);
fprintf(file, " %4d, /* sz_overlays */\n", section->num_overlays);
if (section->num_rows > 0)
fprintf(file, " rows_s%02d,\n", s);
else
fprintf(file, " NULL, /* rows */\n");
if (section->num_doodads > 0)
fprintf(file, " doodads_s%02d,\n", s);
else
fprintf(file, " NULL, /* doodads */\n");
fprintf(file, " { %4d, %4d, %4d, %4d }, /* bounds */\n",
section->bounds.x1, section->bounds.y1,
section->bounds.x2, section->bounds.y2);
if (section->num_overlays > 0)
fprintf(file, " overlays_s%02d\n", s);
else
fprintf(file, " NULL /* overlays */\n");
fprintf(file, " }");
}
fprintf(file, "\n};\n");
fprintf(file, "\nstatic Bool\n");
fprintf(file, "_InitSections(DPYTYPE dpy,XkbGeometryPtr geom)\n");
fprintf(file, "{\nXkbSectionPtr sections;\n\n");
fprintf(file, " sections= geom->sections;\n");
for (s = 0, section = geom->sections; s < geom->num_sections;
s++, section++) {
if (section->num_doodads > 0) {
fprintf(file, " _InitS%02dDoodads(dpy,geom,§ions[%d]);\n",
s, s);
}
if (section->num_overlays > 0) {
fprintf(file, " _InitS%02dOverlays(dpy,geom,§ions[%d]);\n",
s, s);
}
}
fprintf(file, "}\n");
return True;
}
static Bool
WriteCHdrGeomAliases(FILE *file, XkbDescPtr xkb, XkbGeometryPtr geom)
{
if (geom->num_key_aliases > 0) {
register int i;
fprintf(file, "\nstatic XkbKeyAliasRec g_aliases[%d]= {\n",
geom->num_key_aliases);
for (i = 0; i < geom->num_key_aliases; i++) {
fprintf(file, "%s { \"%s\", \"%s\" }",
(i == 0 ? "" : ",\n"),
XkbKeyNameText(geom->key_aliases[i].real, XkbCFile),
XkbKeyNameText(geom->key_aliases[i].alias, XkbCFile));
}
fprintf(file, "\n};\n");
}
return True;
}
static Bool
WriteCHdrGeometry(FILE *file, XkbDescPtr xkb)
{
XkbGeometryPtr geom;
register int i;
if ((!xkb) || (!xkb->geom)) {
_XkbLibError(_XkbErrMissingGeometry, "WriteCHdrGeometry", 0);
return False;
}
geom = xkb->geom;
WriteCHdrGeomProps(file, xkb, geom);
WriteCHdrGeomColors(file, xkb, geom);
WriteCHdrGeomShapes(file, xkb, geom);
WriteCHdrGeomSections(file, xkb, geom);
WriteCHdrGeomDoodads(file, xkb, geom, NULL, 0);
WriteCHdrGeomAliases(file, xkb, geom);
fprintf(file, "\nstatic XkbGeometryRec geom= {\n");
fprintf(file, " None, /* name */\n");
fprintf(file, " %d, %d, /* width, height */\n",
geom->width_mm, geom->height_mm);
if (geom->label_font)
fprintf(file, " \"%s\",/* label font */\n",
XkbStringText(geom->label_font, XkbCFile));
else
fprintf(file, " NULL, /* label font */\n");
if (geom->label_color)
fprintf(file, " &g_colors[%d], /* label color */\n",
XkbGeomColorIndex(geom, geom->label_color));
else
fprintf(file, " NULL, /* label color */\n");
if (geom->base_color)
fprintf(file, " &g_colors[%d], /* base color */\n",
XkbGeomColorIndex(geom, geom->base_color));
else
fprintf(file, " NULL, /* base color */\n");
fprintf(file,
" %d, %d, %d, /* sz: props, colors, shapes */\n",
geom->num_properties, geom->num_colors, geom->num_shapes);
fprintf(file,
" %d, %d, %d, /* sz: sections, doodads, aliases */\n",
geom->num_sections, geom->num_doodads, geom->num_key_aliases);
fprintf(file,
" %d, %d, %d, /* num: props, colors, shapes */\n",
geom->num_properties, geom->num_colors, geom->num_shapes);
fprintf(file,
" %d, %d, %d, /* num: sections, doodads, aliases */\n",
geom->num_sections, geom->num_doodads, geom->num_key_aliases);
fprintf(file, " %s, %s, %s,\n",
(geom->num_properties > 0 ? "g_props" : "NULL"),
(geom->num_colors > 0 ? "g_colors" : "NULL"),
(geom->num_shapes > 0 ? "g_shapes" : "NULL"));
fprintf(file, " %s, %s, %s\n",
(geom->num_sections > 0 ? "g_sections" : "NULL"),
(geom->num_doodads > 0 ? "g_doodads" : "NULL"),
(geom->num_key_aliases > 0 ? "g_aliases" : "NULL"));
fprintf(file, "};\n\n");
fprintf(file, "static Bool\n");
fprintf(file, "_InitHdrGeom(DPYTYPE dpy,XkbGeometryPtr geom)\n");
fprintf(file, "{\n");
if (geom->name != None) {
fprintf(file, " geom->name= GET_ATOM(dpy,\"%s\");\n",
XkbAtomText(xkb->dpy, geom->name, XkbCFile));
}
for (i = 0; i < geom->num_shapes; i++) {
fprintf(file, " geom->shapes[%2d].name= GET_ATOM(dpy,\"%s\");\n", i,
XkbAtomText(xkb->dpy, geom->shapes[i].name, XkbCFile));
}
if (geom->num_doodads > 0)
fprintf(file, " _InitGeomDoodads(dpy,geom);\n");
fprintf(file, " _InitSections(dpy,geom);\n");
fprintf(file, "}\n\n");
return True;
}
static Bool
WriteCHdrGeomFile(FILE *file, XkbFileInfo *result)
{
Bool ok;
ok = WriteCHdrGeometry(file, result->xkb);
return ok;
}
static Bool
WriteCHdrLayout(FILE *file, XkbFileInfo *result)
{
Bool ok;
XkbDescPtr xkb;
xkb = result->xkb;
ok = WriteCHdrVMods(file, xkb->dpy, xkb);
ok = WriteCHdrKeycodes(file, xkb) && ok;
ok = WriteCHdrSymbols(file, xkb) && ok;
ok = WriteCHdrGeometry(file, xkb) && ok;
return ok;
}
static Bool
WriteCHdrSemantics(FILE *file, XkbFileInfo *result)
{
Bool ok;
XkbDescPtr xkb;
xkb = result->xkb;
ok = WriteCHdrVMods(file, xkb->dpy, xkb);
ok = WriteCHdrKeyTypes(file, xkb->dpy, xkb) && ok;
ok = WriteCHdrCompatMap(file, xkb->dpy, xkb) && ok;
ok = WriteCHdrIndicators(file, xkb->dpy, xkb) && ok;
return ok;
}
static Bool
WriteCHdrKeymap(FILE *file, XkbFileInfo *result)
{
Bool ok;
XkbDescPtr xkb;
xkb = result->xkb;
ok = WriteCHdrVMods(file, xkb->dpy, xkb);
ok = ok && WriteCHdrKeycodes(file, xkb);
ok = ok && WriteCHdrClientMap(file, xkb->dpy, xkb);
ok = ok && WriteCHdrServerMap(file, xkb->dpy, xkb);
ok = ok && WriteCHdrCompatMap(file, xkb->dpy, xkb);
ok = WriteCHdrIndicators(file, xkb->dpy, xkb) && ok;
ok = ok && WriteCHdrGeometry(file, xkb);
return ok;
}
Bool
XkbWriteCFile(FILE *out, char *name, XkbFileInfo *result)
{
Bool ok;
XkbDescPtr xkb;
Bool (*func) (FILE * /* file */,
XkbFileInfo * /* result */
);
switch (result->type) {
case XkmSemanticsFile:
func = WriteCHdrSemantics;
break;
case XkmLayoutFile:
func = WriteCHdrLayout;
break;
case XkmKeymapFile:
func = WriteCHdrKeymap;
break;
case XkmGeometryIndex:
case XkmGeometryFile:
func = WriteCHdrGeomFile;
break;
default:
_XkbLibError(_XkbErrIllegalContents, "XkbWriteCFile", result->type);
return False;
}
xkb = result->xkb;
if (out == NULL) {
_XkbLibError(_XkbErrFileCannotOpen, "XkbWriteCFile", 0);
ok = False;
}
else {
char *tmp, *hdrdef;
tmp = (char *) strrchr(name, '/');
if (tmp == NULL)
tmp = name;
else
tmp++;
hdrdef = (char *) _XkbCalloc(strlen(tmp) + 1, sizeof(char));
if (hdrdef) {
strcpy(hdrdef, tmp);
tmp = hdrdef;
while (*tmp) {
if (islower(*tmp))
*tmp = toupper(*tmp);
else if (!isalnum(*tmp))
*tmp = '_';
tmp++;
}
fprintf(out, "/* This file generated automatically by xkbcomp */\n");
fprintf(out, "/* DO NOT EDIT */\n");
fprintf(out, "#ifndef %s\n", hdrdef);
fprintf(out, "#define %s 1\n\n", hdrdef);
}
fprintf(out, "#ifndef XKB_IN_SERVER\n");
fprintf(out, "#define GET_ATOM(d,s) XInternAtom(d,s,0)\n");
fprintf(out, "#define DPYTYPE Display *\n");
fprintf(out, "#else\n");
fprintf(out, "#define GET_ATOM(d,s) MakeAtom(s,strlen(s),1)\n");
fprintf(out, "#define DPYTYPE char *\n");
fprintf(out, "#endif\n");
fprintf(out, "#define NUM_KEYS %d\n", xkb->max_key_code + 1);
ok = (*func) (out, result);
if (hdrdef)
fprintf(out, "#endif /* %s */\n", hdrdef);
}
if (!ok) {
return False;
}
return True;
}