/************************************************************ 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_DIX_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include "misc.h" #include "inputstr.h" #include "dix.h" #include "xkbstr.h" #define XKBSRV_NEED_FILE_FUNCS 1 #include #include "xkbgeom.h" #include "xkbfile.h" #define VMOD_HIDE_VALUE 0 #define VMOD_SHOW_VALUE 1 #define VMOD_COMMENT_VALUE 2 static Bool WriteXKBVModDecl(FILE * file, XkbDescPtr xkb, int showValue) { register int i, nMods; Atom *vmodNames; if (xkb == NULL) return FALSE; if (xkb->names != NULL) vmodNames = xkb->names->vmods; else vmodNames = NULL; for (i = nMods = 0; i < XkbNumVirtualMods; i++) { if ((vmodNames != NULL) && (vmodNames[i] != None)) { if (nMods == 0) fprintf(file, " virtual_modifiers "); else fprintf(file, ","); fprintf(file, "%s", XkbAtomText(vmodNames[i], XkbXKBFile)); if ((showValue != VMOD_HIDE_VALUE) && (xkb->server) && (xkb->server->vmods[i] != XkbNoModifierMask)) { if (showValue == VMOD_COMMENT_VALUE) { fprintf(file, "/* = %s */", XkbModMaskText(xkb->server->vmods[i], XkbXKBFile)); } else { fprintf(file, "= %s", XkbModMaskText(xkb->server->vmods[i], XkbXKBFile)); } } nMods++; } } if (nMods > 0) fprintf(file, ";\n\n"); return TRUE; } /***====================================================================***/ static Bool WriteXKBAction(FILE * file, XkbDescPtr xkb, XkbAnyAction * action) { fprintf(file, "%s", XkbActionText(xkb, (XkbAction *) action, XkbXKBFile)); return TRUE; } /***====================================================================***/ Bool XkbWriteXKBKeycodes(FILE * file, XkbDescPtr xkb, Bool topLevel, Bool showImplicit, XkbFileAddOnFunc addOn, void *priv) { Atom kcName; register unsigned i; const char *alternate; if ((!xkb) || (!xkb->names) || (!xkb->names->keys)) { _XkbLibError(_XkbErrMissingNames, "XkbWriteXKBKeycodes", 0); return FALSE; } kcName = xkb->names->keycodes; if (kcName != None) fprintf(file, "xkb_keycodes \"%s\" {\n", XkbAtomText(kcName, XkbXKBFile)); else fprintf(file, "xkb_keycodes {\n"); fprintf(file, " minimum = %d;\n", xkb->min_key_code); fprintf(file, " maximum = %d;\n", xkb->max_key_code); for (i = xkb->min_key_code; i <= xkb->max_key_code; i++) { if (xkb->names->keys[i].name[0] != '\0') { if (XkbFindKeycodeByName(xkb, xkb->names->keys[i].name, TRUE) != i) alternate = "alternate "; else alternate = ""; fprintf(file, " %s%6s = %d;\n", alternate, XkbKeyNameText(xkb->names->keys[i].name, XkbXKBFile), i); } } if (xkb->indicators != NULL) { for (i = 0; i < XkbNumIndicators; i++) { const char *type; if (xkb->indicators->phys_indicators & (1 << i)) type = " "; else type = " virtual "; if (xkb->names->indicators[i] != None) { fprintf(file, "%sindicator %d = \"%s\";\n", type, i + 1, XkbAtomText(xkb->names->indicators[i], XkbXKBFile)); } } } if (xkb->names->key_aliases != NULL) { XkbKeyAliasPtr pAl; pAl = xkb->names->key_aliases; for (i = 0; i < xkb->names->num_key_aliases; i++, pAl++) { fprintf(file, " alias %6s = %6s;\n", XkbKeyNameText(pAl->alias, XkbXKBFile), XkbKeyNameText(pAl->real, XkbXKBFile)); } } if (addOn) (*addOn) (file, xkb, topLevel, showImplicit, XkmKeyNamesIndex, priv); fprintf(file, "};\n\n"); return TRUE; } Bool XkbWriteXKBKeyTypes(FILE * file, XkbDescPtr xkb, Bool topLevel, Bool showImplicit, XkbFileAddOnFunc addOn, void *priv) { register unsigned i, n; XkbKeyTypePtr type; XkbKTMapEntryPtr entry; if ((!xkb) || (!xkb->map) || (!xkb->map->types)) { _XkbLibError(_XkbErrMissingTypes, "XkbWriteXKBKeyTypes", 0); return FALSE; } if (xkb->map->num_types < XkbNumRequiredTypes) { _XkbLibError(_XkbErrMissingReqTypes, "XkbWriteXKBKeyTypes", 0); return 0; } if ((xkb->names == NULL) || (xkb->names->types == None)) fprintf(file, "xkb_types {\n\n"); else fprintf(file, "xkb_types \"%s\" {\n\n", XkbAtomText(xkb->names->types, XkbXKBFile)); WriteXKBVModDecl(file, xkb, (showImplicit ? VMOD_COMMENT_VALUE : VMOD_HIDE_VALUE)); type = xkb->map->types; for (i = 0; i < xkb->map->num_types; i++, type++) { fprintf(file, " type \"%s\" {\n", XkbAtomText(type->name, XkbXKBFile)); fprintf(file, " modifiers= %s;\n", XkbVModMaskText(xkb, type->mods.real_mods, type->mods.vmods, XkbXKBFile)); entry = type->map; for (n = 0; n < type->map_count; n++, entry++) { char *str; str = XkbVModMaskText(xkb, entry->mods.real_mods, entry->mods.vmods, XkbXKBFile); fprintf(file, " map[%s]= Level%d;\n", str, entry->level + 1); if ((type->preserve) && ((type->preserve[n].real_mods) || (type->preserve[n].vmods))) { fprintf(file, " preserve[%s]= ", str); fprintf(file, "%s;\n", XkbVModMaskText(xkb, type->preserve[n]. real_mods, type->preserve[n].vmods, XkbXKBFile)); } } if (type->level_names != NULL) { Atom *name = type->level_names; for (n = 0; n < type->num_levels; n++, name++) { if ((*name) == None) continue; fprintf(file, " level_name[Level%d]= \"%s\";\n", n + 1, XkbAtomText(*name, XkbXKBFile)); } } fprintf(file, " };\n"); } if (addOn) (*addOn) (file, xkb, topLevel, showImplicit, XkmTypesIndex, priv); fprintf(file, "};\n\n"); return TRUE; } static Bool WriteXKBIndicatorMap(FILE * file, XkbDescPtr xkb, Atom name, XkbIndicatorMapPtr led, XkbFileAddOnFunc addOn, void *priv) { fprintf(file, " indicator \"%s\" {\n", NameForAtom(name)); if (led->flags & XkbIM_NoExplicit) fprintf(file, " !allowExplicit;\n"); if (led->flags & XkbIM_LEDDrivesKB) fprintf(file, " indicatorDrivesKeyboard;\n"); if (led->which_groups != 0) { if (led->which_groups != XkbIM_UseEffective) { fprintf(file, " whichGroupState= %s;\n", XkbIMWhichStateMaskText(led->which_groups, XkbXKBFile)); } fprintf(file, " groups= 0x%02x;\n", led->groups); } if (led->which_mods != 0) { if (led->which_mods != XkbIM_UseEffective) { fprintf(file, " whichModState= %s;\n", XkbIMWhichStateMaskText(led->which_mods, XkbXKBFile)); } fprintf(file, " modifiers= %s;\n", XkbVModMaskText(xkb, led->mods.real_mods, led->mods.vmods, XkbXKBFile)); } if (led->ctrls != 0) { fprintf(file, " controls= %s;\n", XkbControlsMaskText(led->ctrls, XkbXKBFile)); } if (addOn) (*addOn) (file, xkb, FALSE, TRUE, XkmIndicatorsIndex, priv); fprintf(file, " };\n"); return TRUE; } Bool XkbWriteXKBCompatMap(FILE * file, XkbDescPtr xkb, Bool topLevel, Bool showImplicit, XkbFileAddOnFunc addOn, void *priv) { register unsigned i; XkbSymInterpretPtr interp; if ((!xkb) || (!xkb->compat) || (!xkb->compat->sym_interpret)) { _XkbLibError(_XkbErrMissingCompatMap, "XkbWriteXKBCompatMap", 0); return FALSE; } if ((xkb->names == NULL) || (xkb->names->compat == None)) fprintf(file, "xkb_compatibility {\n\n"); else fprintf(file, "xkb_compatibility \"%s\" {\n\n", XkbAtomText(xkb->names->compat, XkbXKBFile)); WriteXKBVModDecl(file, xkb, (showImplicit ? VMOD_COMMENT_VALUE : VMOD_HIDE_VALUE)); fprintf(file, " interpret.useModMapMods= AnyLevel;\n"); fprintf(file, " interpret.repeat= FALSE;\n"); fprintf(file, " interpret.locking= FALSE;\n"); interp = xkb->compat->sym_interpret; for (i = 0; i < xkb->compat->num_si; i++, interp++) { fprintf(file, " interpret %s+%s(%s) {\n", ((interp->sym == NoSymbol) ? "Any" : XkbKeysymText(interp->sym, XkbXKBFile)), XkbSIMatchText(interp->match, XkbXKBFile), XkbModMaskText(interp->mods, XkbXKBFile)); if (interp->virtual_mod != XkbNoModifier) { fprintf(file, " virtualModifier= %s;\n", XkbVModIndexText(xkb, interp->virtual_mod, XkbXKBFile)); } if (interp->match & XkbSI_LevelOneOnly) fprintf(file, " useModMapMods=level1;\n"); if (interp->flags & XkbSI_LockingKey) fprintf(file, " locking= TRUE;\n"); if (interp->flags & XkbSI_AutoRepeat) fprintf(file, " repeat= TRUE;\n"); fprintf(file, " action= "); WriteXKBAction(file, xkb, &interp->act); fprintf(file, ";\n"); fprintf(file, " };\n"); } for (i = 0; i < XkbNumKbdGroups; i++) { XkbModsPtr gc; gc = &xkb->compat->groups[i]; if ((gc->real_mods == 0) && (gc->vmods == 0)) continue; fprintf(file, " group %d = %s;\n", i + 1, XkbVModMaskText(xkb, gc-> real_mods, gc->vmods, XkbXKBFile)); } if (xkb->indicators) { for (i = 0; i < XkbNumIndicators; i++) { XkbIndicatorMapPtr map = &xkb->indicators->maps[i]; if ((map->flags != 0) || (map->which_groups != 0) || (map->groups != 0) || (map->which_mods != 0) || (map->mods.real_mods != 0) || (map->mods.vmods != 0) || (map->ctrls != 0)) { WriteXKBIndicatorMap(file, xkb, xkb->names->indicators[i], map, addOn, priv); } } } if (addOn) (*addOn) (file, xkb, topLevel, showImplicit, XkmCompatMapIndex, priv); fprintf(file, "};\n\n"); return TRUE; } Bool XkbWriteXKBSymbols(FILE * file, XkbDescPtr xkb, Bool topLevel, Bool showImplicit, XkbFileAddOnFunc addOn, void *priv) { register unsigned i, tmp; XkbClientMapPtr map; XkbServerMapPtr srv; Bool showActions; if (!xkb) { _XkbLibError(_XkbErrMissingSymbols, "XkbWriteXKBSymbols", 0); return FALSE; } map = xkb->map; if ((!map) || (!map->syms) || (!map->key_sym_map)) { _XkbLibError(_XkbErrMissingSymbols, "XkbWriteXKBSymbols", 0); return FALSE; } if ((!xkb->names) || (!xkb->names->keys)) { _XkbLibError(_XkbErrMissingNames, "XkbWriteXKBSymbols", 0); return FALSE; } if ((xkb->names == NULL) || (xkb->names->symbols == None)) fprintf(file, "xkb_symbols {\n\n"); else fprintf(file, "xkb_symbols \"%s\" {\n\n", XkbAtomText(xkb->names->symbols, XkbXKBFile)); for (tmp = i = 0; i < XkbNumKbdGroups; i++) { if (xkb->names->groups[i] != None) { fprintf(file, " name[group%d]=\"%s\";\n", i + 1, XkbAtomText(xkb->names->groups[i], XkbXKBFile)); tmp++; } } if (tmp > 0) fprintf(file, "\n"); srv = xkb->server; for (i = xkb->min_key_code; i <= xkb->max_key_code; i++) { Bool simple; if ((int) XkbKeyNumSyms(xkb, i) < 1) continue; if (XkbFindKeycodeByName(xkb, xkb->names->keys[i].name, TRUE) != i) continue; simple = TRUE; fprintf(file, " key %6s {", XkbKeyNameText(xkb->names->keys[i].name, XkbXKBFile)); if (srv->explicit) { if (((srv->explicit[i] & XkbExplicitKeyTypesMask) != 0) || (showImplicit)) { int typeNdx, g; Bool multi; const char *comment = " "; if ((srv->explicit[i] & XkbExplicitKeyTypesMask) == 0) comment = "//"; multi = FALSE; typeNdx = XkbKeyKeyTypeIndex(xkb, i, 0); for (g = 1; (g < XkbKeyNumGroups(xkb, i)) && (!multi); g++) { if (XkbKeyKeyTypeIndex(xkb, i, g) != typeNdx) multi = TRUE; } if (multi) { for (g = 0; g < XkbKeyNumGroups(xkb, i); g++) { typeNdx = XkbKeyKeyTypeIndex(xkb, i, g); if (srv->explicit[i] & (1 << g)) { fprintf(file, "\n%s type[group%d]= \"%s\",", comment, g + 1, XkbAtomText(map->types[typeNdx].name, XkbXKBFile)); } else if (showImplicit) { fprintf(file, "\n// type[group%d]= \"%s\",", g + 1, XkbAtomText(map->types[typeNdx].name, XkbXKBFile)); } } } else { fprintf(file, "\n%s type= \"%s\",", comment, XkbAtomText(map->types[typeNdx].name, XkbXKBFile)); } simple = FALSE; } if (((srv->explicit[i] & XkbExplicitAutoRepeatMask) != 0) && (xkb->ctrls != NULL)) { if (xkb->ctrls->per_key_repeat[i / 8] & (1 << (i % 8))) fprintf(file, "\n repeat= Yes,"); else fprintf(file, "\n repeat= No,"); simple = FALSE; } if ((xkb->server != NULL) && (xkb->server->vmodmap != NULL) && (xkb->server->vmodmap[i] != 0)) { if ((srv->explicit[i] & XkbExplicitVModMapMask) != 0) { fprintf(file, "\n virtualMods= %s,", XkbVModMaskText(xkb, 0, xkb->server->vmodmap[i], XkbXKBFile)); } else if (showImplicit) { fprintf(file, "\n// virtualMods= %s,", XkbVModMaskText(xkb, 0, xkb->server->vmodmap[i], XkbXKBFile)); } } } switch (XkbOutOfRangeGroupAction(XkbKeyGroupInfo(xkb, i))) { case XkbClampIntoRange: fprintf(file, "\n groupsClamp,"); break; case XkbRedirectIntoRange: fprintf(file, "\n groupsRedirect= Group%d,", XkbOutOfRangeGroupNumber(XkbKeyGroupInfo(xkb, i)) + 1); break; } if (srv->behaviors != NULL) { unsigned type; type = srv->behaviors[i].type & XkbKB_OpMask; if (type != XkbKB_Default) { simple = FALSE; fprintf(file, "\n %s,", XkbBehaviorText(xkb, &srv->behaviors[i], XkbXKBFile)); } } if ((srv->explicit == NULL) || showImplicit || ((srv->explicit[i] & XkbExplicitInterpretMask) != 0)) showActions = XkbKeyHasActions(xkb, i); else showActions = FALSE; if (((unsigned) XkbKeyNumGroups(xkb, i) > 1) || showActions) simple = FALSE; if (simple) { KeySym *syms; unsigned s; syms = XkbKeySymsPtr(xkb, i); fprintf(file, " [ "); for (s = 0; s < XkbKeyGroupWidth(xkb, i, XkbGroup1Index); s++) { if (s != 0) fprintf(file, ", "); fprintf(file, "%15s", XkbKeysymText(*syms++, XkbXKBFile)); } fprintf(file, " ] };\n"); } else { unsigned g, s; KeySym *syms; XkbAction *acts; syms = XkbKeySymsPtr(xkb, i); acts = XkbKeyActionsPtr(xkb, i); for (g = 0; g < XkbKeyNumGroups(xkb, i); g++) { if (g != 0) fprintf(file, ","); fprintf(file, "\n symbols[Group%d]= [ ", g + 1); for (s = 0; s < XkbKeyGroupWidth(xkb, i, g); s++) { if (s != 0) fprintf(file, ", "); fprintf(file, "%15s", XkbKeysymText(syms[s], XkbXKBFile)); } fprintf(file, " ]"); syms += XkbKeyGroupsWidth(xkb, i); if (showActions) { fprintf(file, ",\n actions[Group%d]= [ ", g + 1); for (s = 0; s < XkbKeyGroupWidth(xkb, i, g); s++) { if (s != 0) fprintf(file, ", "); WriteXKBAction(file, xkb, (XkbAnyAction *) &acts[s]); } fprintf(file, " ]"); acts += XkbKeyGroupsWidth(xkb, i); } } fprintf(file, "\n };\n"); } } if (map && map->modmap) { for (i = xkb->min_key_code; i <= xkb->max_key_code; i++) { if (map->modmap[i] != 0) { register int n, bit; for (bit = 1, n = 0; n < XkbNumModifiers; n++, bit <<= 1) { if (map->modmap[i] & bit) { char buf[5]; memcpy(buf, xkb->names->keys[i].name, 4); buf[4] = '\0'; fprintf(file, " modifier_map %s { <%s> };\n", XkbModIndexText(n, XkbXKBFile), buf); } } } } } if (addOn) (*addOn) (file, xkb, topLevel, showImplicit, XkmSymbolsIndex, priv); fprintf(file, "};\n\n"); return TRUE; } static Bool WriteXKBOutline(FILE * file, XkbShapePtr shape, XkbOutlinePtr outline, int lastRadius, int first, int indent) { register int i; XkbPointPtr pt; char *iStr; fprintf(file, "%s", iStr = XkbIndentText(first)); if (first != indent) iStr = XkbIndentText(indent); if (outline->corner_radius != lastRadius) { fprintf(file, "corner= %s,", XkbGeomFPText(outline->corner_radius, XkbMessage)); if (shape != NULL) { fprintf(file, "\n%s", iStr); } } if (shape) { if (outline == shape->approx) fprintf(file, "approx= "); else if (outline == shape->primary) fprintf(file, "primary= "); } fprintf(file, "{"); for (pt = outline->points, i = 0; i < outline->num_points; i++, pt++) { if (i == 0) fprintf(file, " "); else if ((i % 4) == 0) fprintf(file, ",\n%s ", iStr); else fprintf(file, ", "); fprintf(file, "[ %3s, %3s ]", XkbGeomFPText(pt->x, XkbXKBFile), XkbGeomFPText(pt->y, XkbXKBFile)); } fprintf(file, " }"); return TRUE; } static Bool WriteXKBDoodad(FILE * file, unsigned indent, XkbGeometryPtr geom, XkbDoodadPtr doodad) { register char *i_str; XkbShapePtr shape; XkbColorPtr color; i_str = XkbIndentText(indent); fprintf(file, "%s%s \"%s\" {\n", i_str, XkbDoodadTypeText(doodad->any.type, XkbMessage), XkbAtomText(doodad->any.name, XkbMessage)); fprintf(file, "%s top= %s;\n", i_str, XkbGeomFPText(doodad->any.top, XkbXKBFile)); fprintf(file, "%s left= %s;\n", i_str, XkbGeomFPText(doodad->any.left, XkbXKBFile)); fprintf(file, "%s priority= %d;\n", i_str, doodad->any.priority); switch (doodad->any.type) { case XkbOutlineDoodad: case XkbSolidDoodad: if (doodad->shape.angle != 0) { fprintf(file, "%s angle= %s;\n", i_str, XkbGeomFPText(doodad->shape.angle, XkbXKBFile)); } if (doodad->shape.color_ndx != 0) { fprintf(file, "%s color= \"%s\";\n", i_str, XkbShapeDoodadColor(geom, &doodad->shape)->spec); } shape = XkbShapeDoodadShape(geom, &doodad->shape); fprintf(file, "%s shape= \"%s\";\n", i_str, XkbAtomText(shape->name, XkbXKBFile)); break; case XkbTextDoodad: if (doodad->text.angle != 0) { fprintf(file, "%s angle= %s;\n", i_str, XkbGeomFPText(doodad->text.angle, XkbXKBFile)); } if (doodad->text.width != 0) { fprintf(file, "%s width= %s;\n", i_str, XkbGeomFPText(doodad->text.width, XkbXKBFile)); } if (doodad->text.height != 0) { fprintf(file, "%s height= %s;\n", i_str, XkbGeomFPText(doodad->text.height, XkbXKBFile)); } if (doodad->text.color_ndx != 0) { color = XkbTextDoodadColor(geom, &doodad->text); fprintf(file, "%s color= \"%s\";\n", i_str, XkbStringText(color->spec, XkbXKBFile)); } fprintf(file, "%s XFont= \"%s\";\n", i_str, XkbStringText(doodad->text.font, XkbXKBFile)); fprintf(file, "%s text= \"%s\";\n", i_str, XkbStringText(doodad->text.text, XkbXKBFile)); break; case XkbIndicatorDoodad: shape = XkbIndicatorDoodadShape(geom, &doodad->indicator); color = XkbIndicatorDoodadOnColor(geom, &doodad->indicator); fprintf(file, "%s onColor= \"%s\";\n", i_str, XkbStringText(color->spec, XkbXKBFile)); color = XkbIndicatorDoodadOffColor(geom, &doodad->indicator); fprintf(file, "%s offColor= \"%s\";\n", i_str, XkbStringText(color->spec, XkbXKBFile)); fprintf(file, "%s shape= \"%s\";\n", i_str, XkbAtomText(shape->name, XkbXKBFile)); break; case XkbLogoDoodad: fprintf(file, "%s logoName= \"%s\";\n", i_str, XkbStringText(doodad->logo.logo_name, XkbXKBFile)); if (doodad->shape.angle != 0) { fprintf(file, "%s angle= %s;\n", i_str, XkbGeomFPText(doodad->logo.angle, XkbXKBFile)); } if (doodad->shape.color_ndx != 0) { fprintf(file, "%s color= \"%s\";\n", i_str, XkbLogoDoodadColor(geom, &doodad->logo)->spec); } shape = XkbLogoDoodadShape(geom, &doodad->logo); fprintf(file, "%s shape= \"%s\";\n", i_str, XkbAtomText(shape->name, XkbXKBFile)); break; } fprintf(file, "%s};\n", i_str); return TRUE; } /*ARGSUSED*/ static Bool WriteXKBOverlay(FILE * file, unsigned indent, XkbGeometryPtr geom, XkbOverlayPtr ol) { register char *i_str; int r, k, nOut; XkbOverlayRowPtr row; XkbOverlayKeyPtr key; i_str = XkbIndentText(indent); if (ol->name != None) { fprintf(file, "%soverlay \"%s\" {\n", i_str, XkbAtomText(ol->name, XkbMessage)); } else fprintf(file, "%soverlay {\n", i_str); for (nOut = r = 0, row = ol->rows; r < ol->num_rows; r++, row++) { for (k = 0, key = row->keys; k < row->num_keys; k++, key++) { char *over, *under; over = XkbKeyNameText(key->over.name, XkbXKBFile); under = XkbKeyNameText(key->under.name, XkbXKBFile); if (nOut == 0) fprintf(file, "%s %6s=%6s", i_str, under, over); else if ((nOut % 4) == 0) fprintf(file, ",\n%s %6s=%6s", i_str, under, over); else fprintf(file, ", %6s=%6s", under, over); nOut++; } } fprintf(file, "\n%s};\n", i_str); return TRUE; } static Bool WriteXKBSection(FILE * file, XkbSectionPtr s, XkbGeometryPtr geom) { register int i; XkbRowPtr row; int dfltKeyColor = 0; fprintf(file, " section \"%s\" {\n", XkbAtomText(s->name, XkbXKBFile)); if (s->rows && (s->rows->num_keys > 0)) { dfltKeyColor = s->rows->keys[0].color_ndx; fprintf(file, " key.color= \"%s\";\n", XkbStringText(geom->colors[dfltKeyColor].spec, XkbXKBFile)); } fprintf(file, " priority= %d;\n", s->priority); fprintf(file, " top= %s;\n", XkbGeomFPText(s->top, XkbXKBFile)); fprintf(file, " left= %s;\n", XkbGeomFPText(s->left, XkbXKBFile)); fprintf(file, " width= %s;\n", XkbGeomFPText(s->width, XkbXKBFile)); fprintf(file, " height= %s;\n", XkbGeomFPText(s->height, XkbXKBFile)); if (s->angle != 0) { fprintf(file, " angle= %s;\n", XkbGeomFPText(s->angle, XkbXKBFile)); } for (i = 0, row = s->rows; i < s->num_rows; i++, row++) { fprintf(file, " row {\n"); fprintf(file, " top= %s;\n", XkbGeomFPText(row->top, XkbXKBFile)); fprintf(file, " left= %s;\n", XkbGeomFPText(row->left, XkbXKBFile)); if (row->vertical) fprintf(file, " vertical;\n"); if (row->num_keys > 0) { register int k; register XkbKeyPtr key; int forceNL = 0; int nThisLine = 0; fprintf(file, " keys {\n"); for (k = 0, key = row->keys; k < row->num_keys; k++, key++) { XkbShapePtr shape; if (key->color_ndx != dfltKeyColor) forceNL = 1; if (k == 0) { fprintf(file, " "); nThisLine = 0; } else if (((nThisLine % 2) == 1) || (forceNL)) { fprintf(file, ",\n "); forceNL = nThisLine = 0; } else { fprintf(file, ", "); nThisLine++; } shape = XkbKeyShape(geom, key); fprintf(file, "{ %6s, \"%s\", %3s", XkbKeyNameText(key->name.name, XkbXKBFile), XkbAtomText(shape->name, XkbXKBFile), XkbGeomFPText(key->gap, XkbXKBFile)); if (key->color_ndx != dfltKeyColor) { fprintf(file, ", color=\"%s\"", XkbKeyColor(geom, key)->spec); forceNL = 1; } fprintf(file, " }"); } fprintf(file, "\n };\n"); } fprintf(file, " };\n"); } if (s->doodads != NULL) { XkbDoodadPtr doodad; for (i = 0, doodad = s->doodads; i < s->num_doodads; i++, doodad++) { WriteXKBDoodad(file, 8, geom, doodad); } } if (s->overlays != NULL) { XkbOverlayPtr ol; for (i = 0, ol = s->overlays; i < s->num_overlays; i++, ol++) { WriteXKBOverlay(file, 8, geom, ol); } } fprintf(file, " }; // End of \"%s\" section\n\n", XkbAtomText(s->name, XkbXKBFile)); return TRUE; } Bool XkbWriteXKBGeometry(FILE * file, XkbDescPtr xkb, Bool topLevel, Bool showImplicit, XkbFileAddOnFunc addOn, void *priv) { register unsigned i, n; XkbGeometryPtr geom; if ((!xkb) || (!xkb->geom)) { _XkbLibError(_XkbErrMissingGeometry, "XkbWriteXKBGeometry", 0); return FALSE; } geom = xkb->geom; if (geom->name == None) fprintf(file, "xkb_geometry {\n\n"); else fprintf(file, "xkb_geometry \"%s\" {\n\n", XkbAtomText(geom->name, XkbXKBFile)); fprintf(file, " width= %s;\n", XkbGeomFPText(geom->width_mm, XkbXKBFile)); fprintf(file, " height= %s;\n\n", XkbGeomFPText(geom->height_mm, XkbXKBFile)); if (geom->key_aliases != NULL) { XkbKeyAliasPtr pAl; pAl = geom->key_aliases; for (i = 0; i < geom->num_key_aliases; i++, pAl++) { fprintf(file, " alias %6s = %6s;\n", XkbKeyNameText(pAl->alias, XkbXKBFile), XkbKeyNameText(pAl->real, XkbXKBFile)); } fprintf(file, "\n"); } if (geom->base_color != NULL) fprintf(file, " baseColor= \"%s\";\n", XkbStringText(geom->base_color->spec, XkbXKBFile)); if (geom->label_color != NULL) fprintf(file, " labelColor= \"%s\";\n", XkbStringText(geom->label_color->spec, XkbXKBFile)); if (geom->label_font != NULL) fprintf(file, " xfont= \"%s\";\n", XkbStringText(geom->label_font, XkbXKBFile)); if ((geom->num_colors > 0) && (showImplicit)) { XkbColorPtr color; for (color = geom->colors, i = 0; i < geom->num_colors; i++, color++) { fprintf(file, "// color[%d]= \"%s\"\n", i, XkbStringText(color->spec, XkbXKBFile)); } fprintf(file, "\n"); } if (geom->num_properties > 0) { XkbPropertyPtr prop; for (prop = geom->properties, i = 0; i < geom->num_properties; i++, prop++) { fprintf(file, " %s= \"%s\";\n", prop->name, XkbStringText(prop->value, XkbXKBFile)); } fprintf(file, "\n"); } if (geom->num_shapes > 0) { XkbShapePtr shape; XkbOutlinePtr outline; int lastR; for (shape = geom->shapes, i = 0; i < geom->num_shapes; i++, shape++) { lastR = 0; fprintf(file, " shape \"%s\" {", XkbAtomText(shape->name, XkbXKBFile)); outline = shape->outlines; if (shape->num_outlines > 1) { for (n = 0; n < shape->num_outlines; n++, outline++) { if (n == 0) fprintf(file, "\n"); else fprintf(file, ",\n"); WriteXKBOutline(file, shape, outline, lastR, 8, 8); lastR = outline->corner_radius; } fprintf(file, "\n };\n"); } else { WriteXKBOutline(file, NULL, outline, lastR, 1, 8); fprintf(file, " };\n"); } } } if (geom->num_sections > 0) { XkbSectionPtr section; for (section = geom->sections, i = 0; i < geom->num_sections; i++, section++) { WriteXKBSection(file, section, geom); } } if (geom->num_doodads > 0) { XkbDoodadPtr doodad; for (i = 0, doodad = geom->doodads; i < geom->num_doodads; i++, doodad++) { WriteXKBDoodad(file, 4, geom, doodad); } } if (addOn) (*addOn) (file, xkb, topLevel, showImplicit, XkmGeometryIndex, priv); fprintf(file, "};\n\n"); return TRUE; }