/* * $RCSId: xc/lib/fontconfig/src/fcname.c,v 1.15 2002/09/26 00:17:28 keithp Exp $ * * Copyright © 2000 Keith Packard * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, 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 Keith Packard not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Keith Packard makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include "fcint.h" /* Please do not revoke any of these bindings. */ /* The __DUMMY__ object enables callers to distinguish the error return * of FcObjectToPtrLookup from FC_FAMILY's FcObjectPtr, which would * otherwise be 0. */ static const FcObjectType _FcBaseObjectTypes[] = { { "__DUMMY__", FcTypeVoid, }, { FC_FAMILY, FcTypeString, }, { FC_FAMILYLANG, FcTypeString, }, { FC_STYLE, FcTypeString, }, { FC_STYLELANG, FcTypeString, }, { FC_FULLNAME, FcTypeString, }, { FC_FULLNAMELANG, FcTypeString, }, { FC_SLANT, FcTypeInteger, }, { FC_WEIGHT, FcTypeInteger, }, { FC_WIDTH, FcTypeInteger, }, { FC_SIZE, FcTypeDouble, }, { FC_ASPECT, FcTypeDouble, }, { FC_PIXEL_SIZE, FcTypeDouble, }, { FC_SPACING, FcTypeInteger, }, { FC_FOUNDRY, FcTypeString, }, /* { FC_CORE, FcTypeBool, }, */ { FC_ANTIALIAS, FcTypeBool, }, { FC_HINT_STYLE, FcTypeInteger, }, { FC_HINTING, FcTypeBool, }, { FC_VERTICAL_LAYOUT, FcTypeBool, }, { FC_AUTOHINT, FcTypeBool, }, { FC_GLOBAL_ADVANCE, FcTypeBool, }, /* { FC_XLFD, FcTypeString, }, */ { FC_FILE, FcTypeString, }, { FC_INDEX, FcTypeInteger, }, { FC_RASTERIZER, FcTypeString, }, { FC_OUTLINE, FcTypeBool, }, { FC_SCALABLE, FcTypeBool, }, { FC_DPI, FcTypeDouble }, { FC_RGBA, FcTypeInteger, }, { FC_SCALE, FcTypeDouble, }, { FC_MINSPACE, FcTypeBool, }, /* { FC_RENDER, FcTypeBool, },*/ { FC_CHAR_WIDTH, FcTypeInteger }, { FC_CHAR_HEIGHT, FcTypeInteger }, { FC_MATRIX, FcTypeMatrix }, { FC_CHARSET, FcTypeCharSet }, { FC_LANG, FcTypeLangSet }, { FC_FONTVERSION, FcTypeInteger }, { FC_CAPABILITY, FcTypeString }, { FC_FONTFORMAT, FcTypeString }, { FC_EMBOLDEN, FcTypeBool }, { FC_EMBEDDED_BITMAP, FcTypeBool }, }; #define NUM_OBJECT_TYPES (sizeof _FcBaseObjectTypes / sizeof _FcBaseObjectTypes[0]) static FcObjectType * _FcUserObjectNames = 0; static int user_obj_alloc = 0; static int next_basic_offset = NUM_OBJECT_TYPES; typedef struct _FcObjectTypeList FcObjectTypeList; struct _FcObjectTypeList { const FcObjectTypeList *next; const FcObjectType *types; int ntypes; int basic_offset; }; static const FcObjectTypeList _FcBaseObjectTypesList = { 0, _FcBaseObjectTypes, NUM_OBJECT_TYPES, 0 }; static const FcObjectTypeList *_FcObjectTypes = &_FcBaseObjectTypesList; FcBool FcNameRegisterObjectTypes (const FcObjectType *types, int ntypes) { FcObjectTypeList *l; l = (FcObjectTypeList *) malloc (sizeof (FcObjectTypeList)); if (!l) return FcFalse; FcMemAlloc (FC_MEM_OBJECTTYPE, sizeof (FcObjectTypeList)); l->types = types; l->ntypes = ntypes; l->next = _FcObjectTypes; l->basic_offset = next_basic_offset; next_basic_offset += ntypes; _FcObjectTypes = l; return FcTrue; } static FcBool FcNameUnregisterObjectTypesFree (const FcObjectType *types, int ntypes, FcBool do_free) { const FcObjectTypeList *l, **prev; for (prev = &_FcObjectTypes; (l = *prev); prev = (const FcObjectTypeList **) &(l->next)) { if (l->types == types && l->ntypes == ntypes) { *prev = l->next; if (do_free) { FcMemFree (FC_MEM_OBJECTTYPE, sizeof (FcObjectTypeList)); free ((void *) l); } return FcTrue; } } return FcFalse; } FcBool FcNameUnregisterObjectTypes (const FcObjectType *types, int ntypes) { return FcNameUnregisterObjectTypesFree (types, ntypes, FcTrue); } const FcObjectType * FcNameGetObjectType (const char *object) { int i; const FcObjectTypeList *l; const FcObjectType *t; for (l = _FcObjectTypes; l; l = l->next) { if (l == (FcObjectTypeList*)_FcUserObjectNames) continue; for (i = 0; i < l->ntypes; i++) { t = &l->types[i]; if (!strcmp (object, t->object)) return t; } } return 0; } #define OBJECT_HASH_SIZE 31 struct objectBucket { struct objectBucket *next; FcChar32 hash; int id; }; static struct objectBucket *FcObjectBuckets[OBJECT_HASH_SIZE]; /* Design constraint: biggest_known_ntypes must never change * after any call to FcNameRegisterObjectTypes. */ static const FcObjectType *biggest_known_types = _FcBaseObjectTypes; static FcBool allocated_biggest_known_types; static int biggest_known_ntypes = NUM_OBJECT_TYPES; static int biggest_known_count = 0; static char * biggest_ptr; static FcObjectPtr FcObjectToPtrLookup (const char * object) { FcObjectPtr i = 0, n; const FcObjectTypeList *l; FcObjectType *t = _FcUserObjectNames; for (l = _FcObjectTypes; l; l = l->next) { for (i = 0; i < l->ntypes; i++) { t = (FcObjectType *)&l->types[i]; if (!strcmp (object, t->object)) { if (l == (FcObjectTypeList*)_FcUserObjectNames) return -i; else return l->basic_offset + i; } } } /* We didn't match. Look for the application's FcObjectTypeList * and replace it in-place. */ for (l = _FcObjectTypes; l; l = l->next) { if (l->types == _FcUserObjectNames) break; } if (!_FcUserObjectNames || (l && l->types == _FcUserObjectNames && user_obj_alloc < l->ntypes)) { int nt = user_obj_alloc + 4; FcObjectType * t = realloc (_FcUserObjectNames, nt * sizeof (FcObjectType)); if (!t) return 0; _FcUserObjectNames = t; user_obj_alloc = nt; } if (l && l->types == _FcUserObjectNames) { n = l->ntypes; FcNameUnregisterObjectTypesFree (l->types, l->ntypes, FcFalse); } else n = 0; FcNameRegisterObjectTypes (_FcUserObjectNames, n+1); for (l = _FcObjectTypes; l; l = l->next) { if (l->types == _FcUserObjectNames) { t = (FcObjectType *)l->types; break; } } if (!t) return 0; t[n].object = object; t[n].type = FcTypeVoid; return -n; } FcObjectPtr FcObjectToPtr (const char * name) { FcChar32 hash = FcStringHash ((const FcChar8 *) name); struct objectBucket **p; struct objectBucket *b; int size; for (p = &FcObjectBuckets[hash % OBJECT_HASH_SIZE]; (b = *p); p = &(b->next) ) if (b->hash == hash && !strcmp (name, (char *) (b + 1))) return b->id; size = sizeof (struct objectBucket) + strlen (name) + 1; /* workaround glibc bug which reads strlen in groups of 4 */ b = malloc (size + sizeof (int)); FcMemAlloc (FC_MEM_STATICSTR, size + sizeof(int)); if (!b) return 0; b->next = 0; b->hash = hash; b->id = FcObjectToPtrLookup (name); strcpy ((char *) (b + 1), name); *p = b; return b->id; } void FcObjectStaticNameFini (void) { int i, size; struct objectBucket *b, *next; char *name; for (i = 0; i < OBJECT_HASH_SIZE; i++) { for (b = FcObjectBuckets[i]; b; b = next) { next = b->next; name = (char *) (b + 1); size = sizeof (struct objectBucket) + strlen (name) + 1; FcMemFree (FC_MEM_STATICSTR, size); free (b); } FcObjectBuckets[i] = 0; } } const char * FcObjectPtrU (FcObjectPtr si) { const FcObjectTypeList *l; int i, j; if (si > 0) { if (si < biggest_known_ntypes) return biggest_known_types[si].object; j = 0; for (l = _FcObjectTypes; l; l = l->next) for (i = 0; i < l->ntypes; i++, j++) if (j == si) return l->types[i].object; } return _FcUserObjectNames[-si].object; } int FcObjectNeededBytes () { int num = 0, i; for (i = 0; i < biggest_known_ntypes; i++) { const char * t = biggest_known_types[i].object; num = num + strlen(t) + 1; } biggest_known_count = num; return num + sizeof(int); } int FcObjectNeededBytesAlign (void) { return __alignof__ (int) + __alignof__ (char); } void * FcObjectDistributeBytes (FcCache * metadata, void * block_ptr) { block_ptr = ALIGN (block_ptr, int); *(int *)block_ptr = biggest_known_ntypes; block_ptr = (int *) block_ptr + 1; block_ptr = ALIGN (block_ptr, char); biggest_ptr = block_ptr; block_ptr = (char *) block_ptr + biggest_known_count; return block_ptr; } void FcObjectSerialize () { int i; for (i = 0; i < biggest_known_ntypes; i++) { const char * t = biggest_known_types[i].object; strcpy (biggest_ptr, t); biggest_ptr = biggest_ptr + strlen(t) + 1; } } void * FcObjectUnserialize (FcCache * metadata, void *block_ptr) { int new_biggest; new_biggest = *(int *)block_ptr; block_ptr = ALIGN (block_ptr, int); block_ptr = (int *) block_ptr + 1; if (biggest_known_ntypes < new_biggest) { int i; char * bp = (char *)block_ptr; FcObjectType * bn; FcObjectTypeList * bnl; bn = malloc (sizeof (const FcObjectType) * (new_biggest + 1)); if (!bn) return 0; bnl = malloc (sizeof (FcObjectTypeList)); if (!bnl) { free (bn); return 0; } for (i = 0; i < new_biggest; i++) { const FcObjectType * t = FcNameGetObjectType(bp); if (t) bn[i].type = t->type; else bn[i].type = FcTypeVoid; bn[i].object = bp; bp = bp + strlen(bp) + 1; } FcNameUnregisterObjectTypesFree (biggest_known_types, biggest_known_ntypes, FcFalse); if (allocated_biggest_known_types) { free ((FcObjectTypeList *)biggest_known_types); } else allocated_biggest_known_types = FcTrue; FcNameRegisterObjectTypes (bn, new_biggest); biggest_known_ntypes = new_biggest; biggest_known_types = (const FcObjectType *)bn; } block_ptr = ALIGN (block_ptr, char); block_ptr = (char *) block_ptr + biggest_known_count; return block_ptr; } static const FcConstant _FcBaseConstants[] = { { (FcChar8 *) "thin", "weight", FC_WEIGHT_THIN, }, { (FcChar8 *) "extralight", "weight", FC_WEIGHT_EXTRALIGHT, }, { (FcChar8 *) "ultralight", "weight", FC_WEIGHT_EXTRALIGHT, }, { (FcChar8 *) "light", "weight", FC_WEIGHT_LIGHT, }, { (FcChar8 *) "book", "weight", FC_WEIGHT_BOOK, }, { (FcChar8 *) "regular", "weight", FC_WEIGHT_REGULAR, }, { (FcChar8 *) "medium", "weight", FC_WEIGHT_MEDIUM, }, { (FcChar8 *) "demibold", "weight", FC_WEIGHT_DEMIBOLD, }, { (FcChar8 *) "semibold", "weight", FC_WEIGHT_DEMIBOLD, }, { (FcChar8 *) "bold", "weight", FC_WEIGHT_BOLD, }, { (FcChar8 *) "extrabold", "weight", FC_WEIGHT_EXTRABOLD, }, { (FcChar8 *) "ultrabold", "weight", FC_WEIGHT_EXTRABOLD, }, { (FcChar8 *) "black", "weight", FC_WEIGHT_BLACK, }, { (FcChar8 *) "roman", "slant", FC_SLANT_ROMAN, }, { (FcChar8 *) "italic", "slant", FC_SLANT_ITALIC, }, { (FcChar8 *) "oblique", "slant", FC_SLANT_OBLIQUE, }, { (FcChar8 *) "ultracondensed", "width", FC_WIDTH_ULTRACONDENSED }, { (FcChar8 *) "extracondensed", "width", FC_WIDTH_EXTRACONDENSED }, { (FcChar8 *) "condensed", "width", FC_WIDTH_CONDENSED }, { (FcChar8 *) "semicondensed", "width", FC_WIDTH_SEMICONDENSED }, { (FcChar8 *) "normal", "width", FC_WIDTH_NORMAL }, { (FcChar8 *) "semiexpanded", "width", FC_WIDTH_SEMIEXPANDED }, { (FcChar8 *) "expanded", "width", FC_WIDTH_EXPANDED }, { (FcChar8 *) "extraexpanded", "width", FC_WIDTH_EXTRAEXPANDED }, { (FcChar8 *) "ultraexpanded", "width", FC_WIDTH_ULTRAEXPANDED }, { (FcChar8 *) "proportional", "spacing", FC_PROPORTIONAL, }, { (FcChar8 *) "dual", "spacing", FC_DUAL, }, { (FcChar8 *) "mono", "spacing", FC_MONO, }, { (FcChar8 *) "charcell", "spacing", FC_CHARCELL, }, { (FcChar8 *) "unknown", "rgba", FC_RGBA_UNKNOWN }, { (FcChar8 *) "rgb", "rgba", FC_RGBA_RGB, }, { (FcChar8 *) "bgr", "rgba", FC_RGBA_BGR, }, { (FcChar8 *) "vrgb", "rgba", FC_RGBA_VRGB }, { (FcChar8 *) "vbgr", "rgba", FC_RGBA_VBGR }, { (FcChar8 *) "none", "rgba", FC_RGBA_NONE }, { (FcChar8 *) "hintnone", "hintstyle", FC_HINT_NONE }, { (FcChar8 *) "hintslight", "hintstyle", FC_HINT_SLIGHT }, { (FcChar8 *) "hintmedium", "hintstyle", FC_HINT_MEDIUM }, { (FcChar8 *) "hintfull", "hintstyle", FC_HINT_FULL }, }; #define NUM_FC_CONSTANTS (sizeof _FcBaseConstants/sizeof _FcBaseConstants[0]) typedef struct _FcConstantList FcConstantList; struct _FcConstantList { const FcConstantList *next; const FcConstant *consts; int nconsts; }; static const FcConstantList _FcBaseConstantList = { 0, _FcBaseConstants, NUM_FC_CONSTANTS }; static const FcConstantList *_FcConstants = &_FcBaseConstantList; FcBool FcNameRegisterConstants (const FcConstant *consts, int nconsts) { FcConstantList *l; l = (FcConstantList *) malloc (sizeof (FcConstantList)); if (!l) return FcFalse; FcMemAlloc (FC_MEM_CONSTANT, sizeof (FcConstantList)); l->consts = consts; l->nconsts = nconsts; l->next = _FcConstants; _FcConstants = l; return FcTrue; } FcBool FcNameUnregisterConstants (const FcConstant *consts, int nconsts) { const FcConstantList *l, **prev; for (prev = &_FcConstants; (l = *prev); prev = (const FcConstantList **) &(l->next)) { if (l->consts == consts && l->nconsts == nconsts) { *prev = l->next; FcMemFree (FC_MEM_CONSTANT, sizeof (FcConstantList)); free ((void *) l); return FcTrue; } } return FcFalse; } const FcConstant * FcNameGetConstant (FcChar8 *string) { const FcConstantList *l; int i; for (l = _FcConstants; l; l = l->next) { for (i = 0; i < l->nconsts; i++) if (!FcStrCmpIgnoreCase (string, l->consts[i].name)) return &l->consts[i]; } return 0; } FcBool FcNameConstant (FcChar8 *string, int *result) { const FcConstant *c; if ((c = FcNameGetConstant(string))) { *result = c->value; return FcTrue; } return FcFalse; } FcBool FcNameBool (const FcChar8 *v, FcBool *result) { char c0, c1; c0 = *v; c0 = FcToLower (c0); if (c0 == 't' || c0 == 'y' || c0 == '1') { *result = FcTrue; return FcTrue; } if (c0 == 'f' || c0 == 'n' || c0 == '0') { *result = FcFalse; return FcTrue; } if (c0 == 'o') { c1 = v[1]; c1 = FcToLower (c1); if (c1 == 'n') { *result = FcTrue; return FcTrue; } if (c1 == 'f') { *result = FcFalse; return FcTrue; } } return FcFalse; } static FcValue FcNameConvert (FcType type, FcChar8 *string, FcMatrix *m) { FcValue v; v.type = type; switch (v.type) { case FcTypeInteger: if (!FcNameConstant (string, &v.u.i)) v.u.i = atoi ((char *) string); break; case FcTypeString: v.u.s = FcStrStaticName(string); break; case FcTypeBool: if (!FcNameBool (string, &v.u.b)) v.u.b = FcFalse; break; case FcTypeDouble: v.u.d = strtod ((char *) string, 0); break; case FcTypeMatrix: v.u.m = m; sscanf ((char *) string, "%lg %lg %lg %lg", &m->xx, &m->xy, &m->yx, &m->yy); break; case FcTypeCharSet: v.u.c = FcNameParseCharSet (string); break; case FcTypeLangSet: v.u.l = FcNameParseLangSet (string); break; default: break; } return v; } static const FcChar8 * FcNameFindNext (const FcChar8 *cur, const char *delim, FcChar8 *save, FcChar8 *last) { FcChar8 c; while ((c = *cur)) { if (c == '\\') { ++cur; if (!(c = *cur)) break; } else if (strchr (delim, c)) break; ++cur; *save++ = c; } *save = 0; *last = *cur; if (*cur) cur++; return cur; } FcPattern * FcNameParse (const FcChar8 *name) { FcChar8 *save; FcPattern *pat; double d; FcChar8 *e; FcChar8 delim; FcValue v; FcMatrix m; const FcObjectType *t; const FcConstant *c; /* freed below */ save = malloc (strlen ((char *) name) + 1); if (!save) goto bail0; pat = FcPatternCreate (); if (!pat) goto bail1; for (;;) { name = FcNameFindNext (name, "-,:", save, &delim); if (save[0]) { if (!FcPatternAddString (pat, FC_FAMILY, save)) goto bail2; } if (delim != ',') break; } if (delim == '-') { for (;;) { name = FcNameFindNext (name, "-,:", save, &delim); d = strtod ((char *) save, (char **) &e); if (e != save) { if (!FcPatternAddDouble (pat, FC_SIZE, d)) goto bail2; } if (delim != ',') break; } } while (delim == ':') { name = FcNameFindNext (name, "=_:", save, &delim); if (save[0]) { if (delim == '=' || delim == '_') { t = FcNameGetObjectType ((char *) save); for (;;) { name = FcNameFindNext (name, ":,", save, &delim); if (t && strcmp (t->object, _FcBaseObjectTypes[0].object)) { v = FcNameConvert (t->type, save, &m); if (!FcPatternAdd (pat, t->object, v, FcTrue)) { switch (v.type) { case FcTypeCharSet: FcCharSetDestroy ((FcCharSet *) v.u.c); break; case FcTypeLangSet: FcLangSetDestroy ((FcLangSet *) v.u.l); break; default: break; } goto bail2; } switch (v.type) { case FcTypeCharSet: FcCharSetDestroy ((FcCharSet *) v.u.c); break; case FcTypeLangSet: FcLangSetDestroy ((FcLangSet *) v.u.l); break; default: break; } } if (delim != ',') break; } } else { if ((c = FcNameGetConstant (save))) { if (!FcPatternAddInteger (pat, c->object, c->value)) goto bail2; } } } } free (save); return pat; bail2: FcPatternDestroy (pat); bail1: free (save); bail0: return 0; } static FcBool FcNameUnparseString (FcStrBuf *buf, const FcChar8 *string, const FcChar8 *escape) { FcChar8 c; while ((c = *string++)) { if (escape && strchr ((char *) escape, (char) c)) { if (!FcStrBufChar (buf, escape[0])) return FcFalse; } if (!FcStrBufChar (buf, c)) return FcFalse; } return FcTrue; } static FcBool FcNameUnparseValue (FcStrBuf *buf, FcValue *v0, FcChar8 *escape) { FcChar8 temp[1024]; FcValue v = FcValueCanonicalize(v0); switch (v.type) { case FcTypeVoid: return FcTrue; case FcTypeInteger: sprintf ((char *) temp, "%d", v.u.i); return FcNameUnparseString (buf, temp, 0); case FcTypeDouble: sprintf ((char *) temp, "%g", v.u.d); return FcNameUnparseString (buf, temp, 0); case FcTypeString: return FcNameUnparseString (buf, v.u.s, escape); case FcTypeBool: return FcNameUnparseString (buf, v.u.b ? (FcChar8 *) "True" : (FcChar8 *) "False", 0); case FcTypeMatrix: sprintf ((char *) temp, "%g %g %g %g", v.u.m->xx, v.u.m->xy, v.u.m->yx, v.u.m->yy); return FcNameUnparseString (buf, temp, 0); case FcTypeCharSet: return FcNameUnparseCharSet (buf, v.u.c); case FcTypeLangSet: return FcNameUnparseLangSet (buf, v.u.l); case FcTypeFTFace: return FcTrue; } return FcFalse; } static FcBool FcNameUnparseValueList (FcStrBuf *buf, FcValueListPtr v, FcChar8 *escape) { while (FcValueListPtrU(v)) { if (!FcNameUnparseValue (buf, &FcValueListPtrU(v)->value, escape)) return FcFalse; if (FcValueListPtrU(v = FcValueListPtrU(v)->next)) if (!FcNameUnparseString (buf, (FcChar8 *) ",", 0)) return FcFalse; } return FcTrue; } #define FC_ESCAPE_FIXED "\\-:," #define FC_ESCAPE_VARIABLE "\\=_:," FcChar8 * FcNameUnparse (FcPattern *pat) { return FcNameUnparseEscaped (pat, FcTrue); } FcChar8 * FcNameUnparseEscaped (FcPattern *pat, FcBool escape) { FcStrBuf buf; FcChar8 buf_static[8192]; int i; FcPatternElt *e; const FcObjectTypeList *l; const FcObjectType *o; FcStrBufInit (&buf, buf_static, sizeof (buf_static)); e = FcPatternFindElt (pat, FC_FAMILY); if (e) { if (!FcNameUnparseValueList (&buf, e->values, escape ? (FcChar8 *) FC_ESCAPE_FIXED : 0)) goto bail0; } e = FcPatternFindElt (pat, FC_SIZE); if (e) { if (!FcNameUnparseString (&buf, (FcChar8 *) "-", 0)) goto bail0; if (!FcNameUnparseValueList (&buf, e->values, escape ? (FcChar8 *) FC_ESCAPE_FIXED : 0)) goto bail0; } for (l = _FcObjectTypes; l; l = l->next) { for (i = 0; i < l->ntypes; i++) { o = &l->types[i]; if (!strcmp (o->object, FC_FAMILY) || !strcmp (o->object, FC_SIZE) || !strcmp (o->object, FC_FILE)) continue; e = FcPatternFindElt (pat, o->object); if (e) { if (!FcNameUnparseString (&buf, (FcChar8 *) ":", 0)) goto bail0; if (!FcNameUnparseString (&buf, (FcChar8 *) o->object, escape ? (FcChar8 *) FC_ESCAPE_VARIABLE : 0)) goto bail0; if (!FcNameUnparseString (&buf, (FcChar8 *) "=", 0)) goto bail0; if (!FcNameUnparseValueList (&buf, e->values, escape ? (FcChar8 *) FC_ESCAPE_VARIABLE : 0)) goto bail0; } } } return FcStrBufDone (&buf); bail0: FcStrBufDestroy (&buf); return 0; }