/* * $XFree86: xc/lib/fontconfig/src/fccfg.c,v 1.3 2002/02/19 08:33:23 keithp Exp $ * * Copyright © 2000 Keith Packard, member of The XFree86 Project, Inc. * * 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 "fcint.h" FcConfig *_fcConfig; FcConfig * FcConfigCreate (void) { FcSetName set; FcConfig *config; config = malloc (sizeof (FcConfig)); if (!config) goto bail0; config->dirs = malloc (sizeof (char *)); if (!config->dirs) goto bail1; config->dirs[0] = 0; config->configFiles = malloc (sizeof (char *)); if (!config->configFiles) goto bail2; config->configFiles[0] = 0; config->cache = 0; if (!FcConfigSetCache (config, (FcChar8 *) ("~/" FC_USER_CACHE_FILE))) goto bail3; config->blanks = 0; config->substPattern = 0; config->substFont = 0; config->maxObjects = 0; for (set = FcSetSystem; set <= FcSetApplication; set++) config->fonts[set] = 0; return config; bail3: free (config->configFiles); bail2: free (config->dirs); bail1: free (config); bail0: return 0; } static void FcSubstDestroy (FcSubst *s) { FcSubst *n; while (s) { n = s->next; FcTestDestroy (s->test); FcEditDestroy (s->edit); s = n; } } static void FcConfigDestroyStrings (FcChar8 **strings) { FcChar8 **s; for (s = strings; s && *s; s++) free (*s); if (strings) free (strings); } static FcBool FcConfigAddString (FcChar8 ***strings, FcChar8 *string) { int n; FcChar8 **s; n = 0; for (s = *strings; s && *s; s++) n++; s = malloc ((n + 2) * sizeof (FcChar8 *)); if (!s) return FcFalse; s[n] = string; s[n+1] = 0; memcpy (s, *strings, n * sizeof (FcChar8 *)); free (*strings); *strings = s; return FcTrue; } void FcConfigDestroy (FcConfig *config) { FcSetName set; FcConfigDestroyStrings (config->dirs); FcConfigDestroyStrings (config->configFiles); free (config->cache); FcSubstDestroy (config->substPattern); FcSubstDestroy (config->substFont); for (set = FcSetSystem; set <= FcSetApplication; set++) if (config->fonts[set]) FcFontSetDestroy (config->fonts[set]); } /* * Scan the current list of directories in the configuration * and build the set of available fonts. Update the * per-user cache file to reflect the new configuration */ FcBool FcConfigBuildFonts (FcConfig *config) { FcFontSet *fonts; FcFileCache *cache; FcChar8 **d; fonts = FcFontSetCreate (); if (!fonts) goto bail0; cache = FcFileCacheCreate (); if (!cache) goto bail1; FcFileCacheLoad (cache, config->cache); for (d = config->dirs; d && *d; d++) { if (FcDebug () & FC_DBG_FONTSET) printf ("scan dir %s\n", *d); FcDirScan (fonts, cache, config->blanks, *d, FcFalse); } if (FcDebug () & FC_DBG_FONTSET) FcFontSetPrint (fonts); FcFileCacheSave (cache, config->cache); FcFileCacheDestroy (cache); FcConfigSetFonts (config, fonts, FcSetSystem); return FcTrue; bail1: FcFontSetDestroy (fonts); bail0: return FcFalse; } FcBool FcConfigSetCurrent (FcConfig *config) { if (!config->fonts) if (!FcConfigBuildFonts (config)) return FcFalse; if (_fcConfig) FcConfigDestroy (_fcConfig); _fcConfig = config; return FcTrue; } FcConfig * FcConfigGetCurrent (void) { if (!_fcConfig) if (!FcInit ()) return 0; return _fcConfig; } FcBool FcConfigAddDir (FcConfig *config, const FcChar8 *d) { FcChar8 *dir; FcChar8 *h; if (*d == '~') { h = (FcChar8 *) getenv ("HOME"); if (!h) return FcFalse; dir = (FcChar8 *) malloc (strlen ((char *) h) + strlen ((char *) d)); if (!dir) return FcFalse; strcpy ((char *) dir, (char *) h); strcat ((char *) dir, (char *) d+1); } else { dir = (FcChar8 *) malloc (strlen ((char *) d) + 1); if (!dir) return FcFalse; strcpy (dir, d); } if (!FcConfigAddString (&config->dirs, dir)) { free (dir); return FcFalse; } return FcTrue; } FcChar8 ** FcConfigGetDirs (FcConfig *config) { if (!config) { config = FcConfigGetCurrent (); if (!config) return 0; } return config->dirs; } FcBool FcConfigAddConfigFile (FcConfig *config, const FcChar8 *f) { FcChar8 *file; file = FcConfigFilename (f); if (!file) return FcFalse; if (!FcConfigAddString (&config->configFiles, file)) { free (file); return FcFalse; } return FcTrue; } FcChar8 ** FcConfigGetConfigFiles (FcConfig *config) { if (!config) { config = FcConfigGetCurrent (); if (!config) return 0; } return config->configFiles; } FcBool FcConfigSetCache (FcConfig *config, const FcChar8 *c) { FcChar8 *new; FcChar8 *h; if (*c == '~') { h = (FcChar8 *) getenv ("HOME"); if (!h) return FcFalse; new = (FcChar8 *) malloc (strlen ((char *) h) + strlen ((char *) c)); if (!new) return FcFalse; strcpy ((char *) new, (char *) h); strcat ((char *) new, (char *) c+1); } else { new = FcStrCopy (c); } if (config->cache) free (config->cache); config->cache = new; return FcTrue; } FcChar8 * FcConfigGetCache (FcConfig *config) { if (!config) { config = FcConfigGetCurrent (); if (!config) return 0; } return config->cache; } FcFontSet * FcConfigGetFonts (FcConfig *config, FcSetName set) { if (!config) { config = FcConfigGetCurrent (); if (!config) return 0; } return config->fonts[set]; } void FcConfigSetFonts (FcConfig *config, FcFontSet *fonts, FcSetName set) { if (config->fonts[set]) FcFontSetDestroy (config->fonts[set]); config->fonts[set] = fonts; } FcBlanks * FcConfigGetBlanks (FcConfig *config) { if (!config) { config = FcConfigGetCurrent (); if (!config) return 0; } return config->blanks; } FcBool FcConfigAddBlank (FcConfig *config, FcChar32 blank) { FcBlanks *b; b = config->blanks; if (!b) { b = FcBlanksCreate (); if (!b) return FcFalse; } if (!FcBlanksAdd (b, blank)) return FcFalse; config->blanks = b; return FcTrue; } FcBool FcConfigAddEdit (FcConfig *config, FcTest *test, FcEdit *edit, FcMatchKind kind) { FcSubst *subst, **prev; FcTest *t; int num; subst = (FcSubst *) malloc (sizeof (FcSubst)); if (!subst) return FcFalse; if (kind == FcMatchPattern) prev = &config->substPattern; else prev = &config->substFont; for (; *prev; prev = &(*prev)->next); *prev = subst; subst->next = 0; subst->test = test; subst->edit = edit; if (FcDebug () & FC_DBG_EDIT) { printf ("Add Subst "); FcSubstPrint (subst); } num = 0; for (t = test; t; t = t->next) num++; if (config->maxObjects < num) config->maxObjects = num; return FcTrue; } typedef struct _FcSubState { FcPatternElt *elt; FcValueList *value; } FcSubState; static const FcMatrix FcIdentityMatrix = { 1, 0, 0, 1 }; static FcValue FcConfigPromote (FcValue v, FcValue u) { if (v.type == FcTypeInteger) { v.type = FcTypeDouble; v.u.d = (double) v.u.i; } else if (v.type == FcTypeVoid && u.type == FcTypeMatrix) { v.u.m = (FcMatrix *) &FcIdentityMatrix; v.type = FcTypeMatrix; } return v; } FcBool FcConfigCompareValue (FcValue m, FcOp op, FcValue v) { FcBool ret = FcFalse; m = FcConfigPromote (m, v); v = FcConfigPromote (v, m); if (m.type == v.type) { ret = FcFalse; switch (m.type) { case FcTypeInteger: break; /* FcConfigPromote prevents this from happening */ case FcTypeDouble: switch (op) { case FcOpEqual: case FcOpContains: ret = m.u.d == v.u.d; break; case FcOpNotEqual: ret = m.u.d != v.u.d; break; case FcOpLess: ret = m.u.d < v.u.d; break; case FcOpLessEqual: ret = m.u.d <= v.u.d; break; case FcOpMore: ret = m.u.d > v.u.d; break; case FcOpMoreEqual: ret = m.u.d >= v.u.d; break; default: break; } break; case FcTypeBool: switch (op) { case FcOpEqual: case FcOpContains: ret = m.u.b == v.u.b; break; case FcOpNotEqual: ret = m.u.b != v.u.b; break; default: break; } break; case FcTypeString: switch (op) { case FcOpEqual: case FcOpContains: ret = FcStrCmpIgnoreCase (m.u.s, v.u.s) == 0; break; case FcOpNotEqual: ret = FcStrCmpIgnoreCase (m.u.s, v.u.s) != 0; break; default: break; } break; case FcTypeMatrix: switch (op) { case FcOpEqual: case FcOpContains: ret = FcMatrixEqual (m.u.m, v.u.m); break; case FcOpNotEqual: ret = !FcMatrixEqual (m.u.m, v.u.m); break; default: break; } break; case FcTypeCharSet: switch (op) { case FcOpContains: /* m contains v if v - m is empty */ ret = FcCharSetSubtractCount (v.u.c, m.u.c) == 0; break; case FcOpEqual: ret = FcCharSetEqual (m.u.c, v.u.c); break; case FcOpNotEqual: ret = !FcCharSetEqual (m.u.c, v.u.c); break; default: break; } break; case FcTypeVoid: switch (op) { case FcOpEqual: case FcOpContains: ret = FcTrue; break; default: break; } break; } } else { if (op == FcOpNotEqual) ret = FcTrue; } return ret; } static FcValue FcConfigEvaluate (FcPattern *p, FcExpr *e) { FcValue v, vl, vr; FcResult r; FcMatrix *m; switch (e->op) { case FcOpInteger: v.type = FcTypeInteger; v.u.i = e->u.ival; break; case FcOpDouble: v.type = FcTypeDouble; v.u.d = e->u.dval; break; case FcOpString: v.type = FcTypeString; v.u.s = e->u.sval; v = FcValueSave (v); break; case FcOpMatrix: v.type = FcTypeMatrix; v.u.m = e->u.mval; v = FcValueSave (v); break; case FcOpCharSet: v.type = FcTypeCharSet; v.u.c = e->u.cval; v = FcValueSave (v); break; case FcOpBool: v.type = FcTypeBool; v.u.b = e->u.bval; break; case FcOpField: r = FcPatternGet (p, e->u.field, 0, &v); if (r != FcResultMatch) v.type = FcTypeVoid; break; case FcOpConst: if (FcNameConstant (e->u.constant, &v.u.i)) v.type = FcTypeInteger; else v.type = FcTypeVoid; break; case FcOpQuest: vl = FcConfigEvaluate (p, e->u.tree.left); if (vl.type == FcTypeBool) { if (vl.u.b) v = FcConfigEvaluate (p, e->u.tree.right->u.tree.left); else v = FcConfigEvaluate (p, e->u.tree.right->u.tree.right); } else v.type = FcTypeVoid; FcValueDestroy (vl); break; case FcOpOr: case FcOpAnd: case FcOpEqual: case FcOpContains: case FcOpNotEqual: case FcOpLess: case FcOpLessEqual: case FcOpMore: case FcOpMoreEqual: case FcOpPlus: case FcOpMinus: case FcOpTimes: case FcOpDivide: vl = FcConfigEvaluate (p, e->u.tree.left); vr = FcConfigEvaluate (p, e->u.tree.right); vl = FcConfigPromote (vl, vr); vr = FcConfigPromote (vr, vl); if (vl.type == vr.type) { switch (vl.type) { case FcTypeDouble: switch (e->op) { case FcOpPlus: v.type = FcTypeDouble; v.u.d = vl.u.d + vr.u.d; break; case FcOpMinus: v.type = FcTypeDouble; v.u.d = vl.u.d - vr.u.d; break; case FcOpTimes: v.type = FcTypeDouble; v.u.d = vl.u.d * vr.u.d; break; case FcOpDivide: v.type = FcTypeDouble; v.u.d = vl.u.d / vr.u.d; break; case FcOpEqual: case FcOpContains: v.type = FcTypeBool; v.u.b = vl.u.d == vr.u.d; break; case FcOpNotEqual: v.type = FcTypeBool; v.u.b = vl.u.d != vr.u.d; break; case FcOpLess: v.type = FcTypeBool; v.u.b = vl.u.d < vr.u.d; break; case FcOpLessEqual: v.type = FcTypeBool; v.u.b = vl.u.d <= vr.u.d; break; case FcOpMore: v.type = FcTypeBool; v.u.b = vl.u.d > vr.u.d; break; case FcOpMoreEqual: v.type = FcTypeBool; v.u.b = vl.u.d >= vr.u.d; break; default: v.type = FcTypeVoid; break; } if (v.type == FcTypeDouble && v.u.d == (double) (int) v.u.d) { v.type = FcTypeInteger; v.u.i = (int) v.u.d; } break; case FcTypeBool: switch (e->op) { case FcOpOr: v.type = FcTypeBool; v.u.b = vl.u.b || vr.u.b; break; case FcOpAnd: v.type = FcTypeBool; v.u.b = vl.u.b && vr.u.b; break; case FcOpEqual: case FcOpContains: v.type = FcTypeBool; v.u.b = vl.u.b == vr.u.b; break; case FcOpNotEqual: v.type = FcTypeBool; v.u.b = vl.u.b != vr.u.b; break; default: v.type = FcTypeVoid; break; } break; case FcTypeString: switch (e->op) { case FcOpEqual: case FcOpContains: v.type = FcTypeBool; v.u.b = FcStrCmpIgnoreCase (vl.u.s, vr.u.s) == 0; break; case FcOpNotEqual: v.type = FcTypeBool; v.u.b = FcStrCmpIgnoreCase (vl.u.s, vr.u.s) != 0; break; case FcOpPlus: v.type = FcTypeString; v.u.s = FcStrPlus (vl.u.s, vr.u.s); if (!v.u.s) v.type = FcTypeVoid; break; default: v.type = FcTypeVoid; break; } case FcTypeMatrix: switch (e->op) { case FcOpEqual: case FcOpContains: v.type = FcTypeBool; v.u.b = FcMatrixEqual (vl.u.m, vr.u.m); break; case FcOpNotEqual: v.type = FcTypeBool; v.u.b = FcMatrixEqual (vl.u.m, vr.u.m); break; case FcOpTimes: v.type = FcTypeMatrix; m = malloc (sizeof (FcMatrix)); if (m) { FcMemAlloc (FC_MEM_MATRIX, sizeof (FcMatrix)); FcMatrixMultiply (m, vl.u.m, vr.u.m); v.u.m = m; } else { v.type = FcTypeVoid; } break; default: v.type = FcTypeVoid; break; } break; case FcTypeCharSet: switch (e->op) { case FcOpContains: /* vl contains vr if vr - vl is empty */ v.type = FcTypeBool; v.u.b = FcCharSetSubtractCount (vr.u.c, vl.u.c) == 0; break; case FcOpEqual: v.type = FcTypeBool; v.u.b = FcCharSetEqual (vl.u.c, vr.u.c); break; case FcOpNotEqual: v.type = FcTypeBool; v.u.b = !FcCharSetEqual (vl.u.c, vr.u.c); break; default: v.type = FcTypeVoid; break; } break; default: v.type = FcTypeVoid; break; } } else v.type = FcTypeVoid; FcValueDestroy (vl); FcValueDestroy (vr); break; case FcOpNot: vl = FcConfigEvaluate (p, e->u.tree.left); switch (vl.type) { case FcTypeBool: v.type = FcTypeBool; v.u.b = !vl.u.b; break; default: v.type = FcTypeVoid; break; } FcValueDestroy (vl); break; default: v.type = FcTypeVoid; break; } return v; } static FcValueList * FcConfigMatchValueList (FcPattern *p, FcTest *t, FcValueList *v) { FcValueList *ret = 0; FcValue value = FcConfigEvaluate (p, t->expr); for (; v; v = v->next) { if (FcConfigCompareValue (v->value, t->op, value)) { if (!ret) ret = v; } else { if (t->qual == FcQualAll) { ret = 0; break; } } } FcValueDestroy (value); return ret; } static FcValueList * FcConfigValues (FcPattern *p, FcExpr *e) { FcValueList *l; if (!e) return 0; l = (FcValueList *) malloc (sizeof (FcValueList)); if (!l) return 0; FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList)); if (e->op == FcOpComma) { l->value = FcConfigEvaluate (p, e->u.tree.left); l->next = FcConfigValues (p, e->u.tree.right); } else { l->value = FcConfigEvaluate (p, e); l->next = 0; } while (l && l->value.type == FcTypeVoid) { FcValueList *next = l->next; FcMemFree (FC_MEM_VALLIST, sizeof (FcValueList)); free (l); l = next; } return l; } static FcBool FcConfigAdd (FcValueList **head, FcValueList *position, FcBool append, FcValueList *new) { FcValueList **prev, *last; if (append) { if (position) prev = &position->next; else for (prev = head; *prev; prev = &(*prev)->next) ; } else { if (position) { for (prev = head; *prev; prev = &(*prev)->next) { if (*prev == position) break; } } else prev = head; if (FcDebug () & FC_DBG_EDIT) { if (!*prev) printf ("position not on list\n"); } } if (FcDebug () & FC_DBG_EDIT) { printf ("%s list before ", append ? "Append" : "Prepend"); FcValueListPrint (*head); printf ("\n"); } if (new) { last = new; while (last->next) last = last->next; last->next = *prev; *prev = new; } if (FcDebug () & FC_DBG_EDIT) { printf ("%s list after ", append ? "Append" : "Prepend"); FcValueListPrint (*head); printf ("\n"); } return FcTrue; } static void FcConfigDel (FcValueList **head, FcValueList *position) { FcValueList **prev; for (prev = head; *prev; prev = &(*prev)->next) { if (*prev == position) { *prev = position->next; position->next = 0; FcValueListDestroy (position); break; } } } static void FcConfigPatternAdd (FcPattern *p, const char *object, FcValueList *list, FcBool append) { if (list) { FcPatternElt *e = FcPatternFind (p, object, FcTrue); if (!e) return; FcConfigAdd (&e->values, 0, append, list); } } /* * Delete all values associated with a field */ static void FcConfigPatternDel (FcPattern *p, const char *object) { FcPatternElt *e = FcPatternFind (p, object, FcFalse); if (!e) return; while (e->values) FcConfigDel (&e->values, e->values); } static void FcConfigPatternCanon (FcPattern *p, const char *object) { FcPatternElt *e = FcPatternFind (p, object, FcFalse); if (!e) return; if (!e->values) FcPatternDel (p, object); } FcBool FcConfigSubstitute (FcConfig *config, FcPattern *p, FcMatchKind kind) { FcSubst *s; FcSubState *st; int i; FcTest *t; FcEdit *e; FcValueList *l; if (!config) { config = FcConfigGetCurrent (); if (!config) return FcFalse; } st = (FcSubState *) malloc (config->maxObjects * sizeof (FcSubState)); if (!st && config->maxObjects) return FcFalse; FcMemAlloc (FC_MEM_SUBSTATE, config->maxObjects * sizeof (FcSubState)); if (FcDebug () & FC_DBG_EDIT) { printf ("FcConfigSubstitute "); FcPatternPrint (p); } if (kind == FcMatchPattern) s = config->substPattern; else s = config->substFont; for (; s; s = s->next) { /* * Check the tests to see if * they all match the pattern */ for (t = s->test, i = 0; t; t = t->next, i++) { if (FcDebug () & FC_DBG_EDIT) { printf ("FcConfigSubstitute test "); FcTestPrint (t); } st[i].elt = FcPatternFind (p, t->field, FcFalse); /* * If there's no such field in the font, * then FcQualAll matches while FcQualAny does not */ if (!st[i].elt) { if (t->qual == FcQualAll) { st[i].value = 0; continue; } else break; } /* * Check to see if there is a match, mark the location * to apply match-relative edits */ st[i].value = FcConfigMatchValueList (p, t, st[i].elt->values); if (!st[i].value) break; } if (t) { if (FcDebug () & FC_DBG_EDIT) printf ("No match\n"); continue; } if (FcDebug () & FC_DBG_EDIT) { printf ("Substitute "); FcSubstPrint (s); } for (e = s->edit; e; e = e->next) { /* * Evaluate the list of expressions */ l = FcConfigValues (p, e->expr); /* * Locate any test associated with this field */ for (t = s->test, i = 0; t; t = t->next, i++) if (!FcStrCmpIgnoreCase ((FcChar8 *) t->field, (FcChar8 *) e->field)) break; switch (e->op) { case FcOpAssign: /* * If there was a test, then replace the matched * value with the new list of values */ if (t) { FcValueList *thisValue = st[i].value; FcValueList *nextValue = thisValue ? thisValue->next : 0; /* * Append the new list of values after the current value */ FcConfigAdd (&st[i].elt->values, thisValue, FcTrue, l); /* * Delete the marked value */ FcConfigDel (&st[i].elt->values, thisValue); /* * Adjust any pointers into the value list to ensure * future edits occur at the same place */ for (t = s->test, i = 0; t; t = t->next, i++) { if (st[i].value == thisValue) st[i].value = nextValue; } break; } /* fall through ... */ case FcOpAssignReplace: /* * Delete all of the values and insert * the new set */ FcConfigPatternDel (p, e->field); FcConfigPatternAdd (p, e->field, l, FcTrue); /* * Adjust any pointers into the value list as they no * longer point to anything valid */ if (t) { FcPatternElt *thisElt = st[i].elt; for (t = s->test, i = 0; t; t = t->next, i++) { if (st[i].elt == thisElt) st[i].value = 0; } } break; case FcOpPrepend: if (t) { FcConfigAdd (&st[i].elt->values, st[i].value, FcFalse, l); break; } /* fall through ... */ case FcOpPrependFirst: FcConfigPatternAdd (p, e->field, l, FcFalse); break; case FcOpAppend: if (t) { FcConfigAdd (&st[i].elt->values, st[i].value, FcTrue, l); break; } /* fall through ... */ case FcOpAppendLast: FcConfigPatternAdd (p, e->field, l, FcTrue); break; default: break; } } /* * Now go through the pattern and eliminate * any properties without data */ for (e = s->edit; e; e = e->next) FcConfigPatternCanon (p, e->field); if (FcDebug () & FC_DBG_EDIT) { printf ("FcConfigSubstitute edit"); FcPatternPrint (p); } } FcMemFree (FC_MEM_SUBSTATE, config->maxObjects * sizeof (FcSubState)); free (st); if (FcDebug () & FC_DBG_EDIT) { printf ("FcConfigSubstitute done"); FcPatternPrint (p); } return FcTrue; } #ifndef FONTCONFIG_PATH #define FONTCONFIG_PATH "/etc/fonts" #endif #ifndef FONTCONFIG_FILE #define FONTCONFIG_FILE "fonts.conf" #endif static FcChar8 * FcConfigFileExists (const FcChar8 *dir, const FcChar8 *file) { FcChar8 *path; if (!dir) dir = (FcChar8 *) ""; path = malloc (strlen ((char *) dir) + 1 + strlen ((char *) file) + 1); if (!path) return 0; strcpy (path, dir); /* make sure there's a single separating / */ if ((!path[0] || path[strlen((char *) path)-1] != '/') && file[0] != '/') strcat ((char *) path, "/"); strcat ((char *) path, (char *) file); if (access ((char *) path, R_OK) == 0) return path; free (path); return 0; } static FcChar8 ** FcConfigGetPath (void) { FcChar8 **path; FcChar8 *env, *e, *colon; FcChar8 *dir; int npath; int i; npath = 2; /* default dir + null */ env = (FcChar8 *) getenv ("FONTCONFIG_PATH"); if (env) { e = env; npath++; while (*e) if (*e++ == ':') npath++; } path = calloc (npath, sizeof (FcChar8 *)); if (!path) goto bail0; i = 0; if (env) { e = env; while (*e) { colon = (FcChar8 *) strchr ((char *) e, ':'); if (!colon) colon = e + strlen ((char *) e); path[i] = malloc (colon - e + 1); if (!path[i]) goto bail1; strncpy (path[i], e, colon - e); path[i][colon - e] = '\0'; if (*colon) e = colon + 1; else e = colon; i++; } } dir = (FcChar8 *) FONTCONFIG_PATH; path[i] = malloc (strlen ((char *) dir) + 1); if (!path[i]) goto bail1; strcpy (path[i], dir); return path; bail1: for (i = 0; path[i]; i++) free (path[i]); free (path); bail0: return 0; } static void FcConfigFreePath (FcChar8 **path) { FcChar8 **p; for (p = path; *p; p++) free (*p); free (path); } FcChar8 * FcConfigFilename (const FcChar8 *url) { FcChar8 *file, *dir, **path, **p; if (!url || !*url) { url = (FcChar8 *) getenv ("FONTCONFIG_FILE"); if (!url) url = (FcChar8 *) FONTCONFIG_FILE; } file = 0; switch (*url) { case '~': dir = (FcChar8 *) getenv ("HOME"); if (dir) file = FcConfigFileExists (dir, url + 1); else file = 0; break; case '/': file = FcConfigFileExists (0, url); break; default: path = FcConfigGetPath (); if (!path) return 0; for (p = path; *p; p++) { file = FcConfigFileExists (*p, url); if (file) break; } FcConfigFreePath (path); break; } return file; } /* * Manage the application-specific fonts */ FcBool FcConfigAppFontAddFile (FcConfig *config, const FcChar8 *file) { FcFontSet *set; if (!config) { config = FcConfigGetCurrent (); if (!config) return FcFalse; } set = FcConfigGetFonts (config, FcSetApplication); if (!set) { set = FcFontSetCreate (); if (!set) return FcFalse; FcConfigSetFonts (config, set, FcSetApplication); } return FcFileScan (set, 0, config->blanks, file, FcFalse); } FcBool FcConfigAppFontAddDir (FcConfig *config, const FcChar8 *dir) { FcFontSet *set; if (!config) { config = FcConfigGetCurrent (); if (!config) return FcFalse; } set = FcConfigGetFonts (config, FcSetApplication); if (!set) { set = FcFontSetCreate (); if (!set) return FcFalse; FcConfigSetFonts (config, set, FcSetApplication); } return FcDirScan (set, 0, config->blanks, dir, FcFalse); } void FcConfigAppFontClear (FcConfig *config) { FcConfigSetFonts (config, 0, FcSetApplication); }