/* * $RCSId: xc/lib/fontconfig/src/fcpat.c,v 1.18 2002/09/18 17:11:46 tsi 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 "fcint.h" static FcPattern ** fcpatterns = 0; static int fcpattern_bank_count = 0, fcpattern_ptr, fcpattern_count; static FcPatternElt ** fcpatternelts = 0; static int fcpatternelt_ptr, fcpatternelt_count; static FcValueList ** fcvaluelists = 0; static int fcvaluelist_bank_count = 0, fcvaluelist_ptr, fcvaluelist_count; static FcPatternEltPtr FcPatternEltPtrCreateDynamic (FcPatternElt * e); FcPattern * FcPatternCreate (void) { FcPattern *p; p = (FcPattern *) malloc (sizeof (FcPattern)); if (!p) return 0; FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern)); p->num = 0; p->size = 0; p->elts = FcPatternEltPtrCreateDynamic(0); p->bank = FC_BANK_DYNAMIC; p->ref = 1; return p; } void FcValueDestroy (FcValue v) { switch (v.type) { case FcTypeString: FcStrFree ((FcChar8 *) v.u.s); break; case FcTypeMatrix: FcMatrixFree ((FcMatrix *) v.u.m); break; case FcTypeCharSet: FcCharSetDestroy ((FcCharSet *) v.u.c); break; case FcTypeLangSet: FcLangSetDestroy ((FcLangSet *) v.u.l); break; default: break; } } FcValue FcValueCanonicalize (const FcValue *v) { if (v->type & FC_STORAGE_STATIC) { FcValue new = *v; switch (v->type & ~FC_STORAGE_STATIC) { case FcTypeString: new.u.s = fc_value_string(v); new.type = FcTypeString; break; case FcTypeCharSet: new.u.c = fc_value_charset(v); new.type = FcTypeCharSet; break; case FcTypeLangSet: new.u.l = fc_value_langset(v); new.type = FcTypeLangSet; break; } return new; } return *v; } FcValue FcValueSave (FcValue v) { switch (v.type) { case FcTypeString: v.u.s = FcStrCopy (v.u.s); if (!v.u.s) v.type = FcTypeVoid; break; case FcTypeMatrix: v.u.m = FcMatrixCopy (v.u.m); if (!v.u.m) v.type = FcTypeVoid; break; case FcTypeCharSet: v.u.c = FcCharSetCopy ((FcCharSet *) v.u.c); if (!v.u.c) v.type = FcTypeVoid; break; case FcTypeLangSet: v.u.l = FcLangSetCopy (v.u.l); if (!v.u.l) v.type = FcTypeVoid; break; default: break; } return v; } void FcValueListDestroy (FcValueListPtr l) { FcValueListPtr next; for (; FcValueListPtrU(l); l = next) { switch (FcValueListPtrU(l)->value.type) { case FcTypeString: FcStrFree ((FcChar8 *)FcValueListPtrU(l)->value.u.s); break; case FcTypeMatrix: FcMatrixFree ((FcMatrix *)FcValueListPtrU(l)->value.u.m); break; case FcTypeCharSet: FcCharSetDestroy ((FcCharSet *) (FcValueListPtrU(l)->value.u.c)); break; case FcTypeLangSet: FcLangSetDestroy ((FcLangSet *) (FcValueListPtrU(l)->value.u.l)); break; default: break; } next = FcValueListPtrU(l)->next; FcMemFree (FC_MEM_VALLIST, sizeof (FcValueList)); if (l.bank == FC_BANK_DYNAMIC) free(l.u.dyn); } } FcBool FcValueEqual (FcValue va, FcValue vb) { if (va.type != vb.type) { if (va.type == FcTypeInteger) { va.type = FcTypeDouble; va.u.d = va.u.i; } if (vb.type == FcTypeInteger) { vb.type = FcTypeDouble; vb.u.d = vb.u.i; } if (va.type != vb.type) return FcFalse; } switch (va.type) { case FcTypeVoid: return FcTrue; case FcTypeInteger: return va.u.i == vb.u.i; case FcTypeDouble: return va.u.d == vb.u.d; case FcTypeString: return FcStrCmpIgnoreCase (va.u.s, vb.u.s) == 0; case FcTypeBool: return va.u.b == vb.u.b; case FcTypeMatrix: return FcMatrixEqual (va.u.m, vb.u.m); case FcTypeCharSet: return FcCharSetEqual (va.u.c, vb.u.c); case FcTypeFTFace: return va.u.f == vb.u.f; case FcTypeLangSet: return FcLangSetEqual (va.u.l, vb.u.l); } return FcFalse; } static FcChar32 FcDoubleHash (double d) { if (d < 0) d = -d; if (d > 0xffffffff) d = 0xffffffff; return (FcChar32) d; } FcChar32 FcStringHash (const FcChar8 *s) { FcChar8 c; FcChar32 h = 0; if (s) while ((c = *s++)) h = ((h << 1) | (h >> 31)) ^ c; return h; } static FcChar32 FcValueHash (const FcValue *v0) { FcValue v = FcValueCanonicalize(v0); switch (v.type) { case FcTypeVoid: return 0; case FcTypeInteger: return (FcChar32) v.u.i; case FcTypeDouble: return FcDoubleHash (v.u.d); case FcTypeString: return FcStringHash (v.u.s); case FcTypeBool: return (FcChar32) v.u.b; case FcTypeMatrix: return (FcDoubleHash (v.u.m->xx) ^ FcDoubleHash (v.u.m->xy) ^ FcDoubleHash (v.u.m->yx) ^ FcDoubleHash (v.u.m->yy)); case FcTypeCharSet: return (FcChar32) v.u.c->num; case FcTypeFTFace: return FcStringHash ((const FcChar8 *) ((FT_Face) v.u.f)->family_name) ^ FcStringHash ((const FcChar8 *) ((FT_Face) v.u.f)->style_name); case FcTypeLangSet: return FcLangSetHash (v.u.l); } return FcFalse; } static FcBool FcValueListEqual (FcValueListPtr la, FcValueListPtr lb) { if (FcValueListPtrU(la) == FcValueListPtrU(lb)) return FcTrue; while (FcValueListPtrU(la) && FcValueListPtrU(lb)) { if (!FcValueEqual (FcValueListPtrU(la)->value, FcValueListPtrU(lb)->value)) return FcFalse; la = FcValueListPtrU(la)->next; lb = FcValueListPtrU(lb)->next; } if (FcValueListPtrU(la) || FcValueListPtrU(lb)) return FcFalse; return FcTrue; } static FcChar32 FcValueListHash (FcValueListPtr l) { FcChar32 hash = 0; while (FcValueListPtrU(l)) { hash = ((hash << 1) | (hash >> 31)) ^ FcValueHash (&FcValueListPtrU(l)->value); l = FcValueListPtrU(l)->next; } return hash; } void FcPatternDestroy (FcPattern *p) { int i; if (p->ref == FC_REF_CONSTANT || --p->ref > 0) return; for (i = 0; i < p->num; i++) FcValueListDestroy ((FcPatternEltU(p->elts)+i)->values); p->num = 0; if (FcPatternEltU(p->elts) && p->elts.bank == FC_BANK_DYNAMIC) { FcMemFree (FC_MEM_PATELT, p->size * sizeof (FcPatternElt)); free (FcPatternEltU(p->elts)); p->elts = FcPatternEltPtrCreateDynamic(0); } p->size = 0; FcMemFree (FC_MEM_PATTERN, sizeof (FcPattern)); free (p); } #define FC_VALUE_LIST_HASH_SIZE 257 #define FC_PATTERN_HASH_SIZE 67 typedef struct _FcValueListEnt FcValueListEnt; struct _FcValueListEnt { FcValueListEnt *next; FcValueListPtr list; FcChar32 hash, pad; }; typedef union _FcValueListAlign { FcValueListEnt ent; FcValueList list; } FcValueListAlign; static int FcValueListFrozenCount[FcTypeLangSet + 1]; static int FcValueListFrozenBytes[FcTypeLangSet + 1]; static char *FcValueListFrozenName[] = { "Void", "Integer", "Double", "String", "Bool", "Matrix", "CharSet", "FTFace", "LangSet" }; void FcValueListReport (void); void FcValueListReport (void) { FcType t; printf ("Fc Frozen Values:\n"); printf ("\t%8s %9s %9s\n", "Type", "Count", "Bytes"); for (t = FcTypeVoid; t <= FcTypeLangSet; t++) printf ("\t%8s %9d %9d\n", FcValueListFrozenName[t], FcValueListFrozenCount[t], FcValueListFrozenBytes[t]); } static FcValueListEnt * FcValueListEntCreate (FcValueListPtr h) { FcValueListAlign *ea; FcValueListEnt *e; FcValueListPtr l; FcValueList *new; int n; int size; n = 0; for (l = h; FcValueListPtrU(l); l = FcValueListPtrU(l)->next) n++; size = sizeof (FcValueListAlign) + n * sizeof (FcValueList); FcValueListFrozenCount[FcValueListPtrU(h)->value.type]++; FcValueListFrozenBytes[FcValueListPtrU(h)->value.type] += size; // this leaks for some reason ea = malloc (sizeof (FcValueListAlign)); if (!ea) return 0; new = malloc (n * sizeof (FcValueList)); if (!new) return 0; memset(new, 0, n * sizeof (FcValueList)); FcMemAlloc (FC_MEM_VALLIST, size); e = &ea->ent; e->list = (FcValueListPtr) FcValueListPtrCreateDynamic(new); for (l = h; FcValueListPtrU(l); l = FcValueListPtrU(l)->next, new++) { if ((FcValueListPtrU(l)->value.type & ~FC_STORAGE_STATIC) == FcTypeString) { new->value.type = FcTypeString; new->value.u.s = FcStrStaticName (fc_value_string(&FcValueListPtrU(l)->value)); } else { new->value = FcValueSave (FcValueCanonicalize (&FcValueListPtrU(l)->value)); } new->binding = FcValueListPtrU(l)->binding; if (FcValueListPtrU(FcValueListPtrU(l)->next)) { new->next = FcValueListPtrCreateDynamic(new + 1); } else { new->next = FcValueListPtrCreateDynamic(0); } } return e; } static void FcValueListEntDestroy (FcValueListEnt *e) { FcValueListPtr l; FcValueListFrozenCount[FcValueListPtrU(e->list)->value.type]--; /* XXX: We should perform these two operations with "size" as computed in FcValueListEntCreate, but we don't have access to that value here. Without this, the FcValueListFrozenBytes values will be wrong as will the FcMemFree counts. FcValueListFrozenBytes[e->list->value.type] -= size; FcMemFree (FC_MEM_VALLIST, size); */ for (l = e->list; FcValueListPtrU(l); l = FcValueListPtrU(l)->next) { if (FcValueListPtrU(l)->value.type != FcTypeString) FcValueDestroy (FcValueListPtrU(l)->value); } /* XXX: Are we being too chummy with the implementation here to free(e) when it was actually the enclosing FcValueListAlign that was allocated? */ free (e); } static int FcValueListTotal; static int FcValueListUsed; static FcValueListEnt *FcValueListHashTable[FC_VALUE_LIST_HASH_SIZE]; static FcValueListPtr FcValueListFreeze (FcValueListPtr l) { FcChar32 hash = FcValueListHash (l); FcValueListEnt **bucket = &FcValueListHashTable[hash % FC_VALUE_LIST_HASH_SIZE]; FcValueListEnt *ent; FcValueListTotal++; for (ent = *bucket; ent; ent = ent->next) { if (ent->hash == hash && FcValueListEqual (ent->list, l)) return ent->list; } ent = FcValueListEntCreate (l); if (!ent) return FcValueListPtrCreateDynamic(0); FcValueListUsed++; ent->hash = hash; ent->next = *bucket; *bucket = ent; return ent->list; } static void FcValueListThawAll (void) { int i; FcValueListEnt *ent, *next; for (i = 0; i < FC_VALUE_LIST_HASH_SIZE; i++) { for (ent = FcValueListHashTable[i]; ent; ent = next) { next = ent->next; FcValueListEntDestroy (ent); } FcValueListHashTable[i] = 0; } FcValueListTotal = 0; FcValueListUsed = 0; } static FcChar32 FcPatternBaseHash (FcPattern *b) { FcChar32 hash = b->num; int i; for (i = 0; i < b->num; i++) hash = ((hash << 1) | (hash >> 31)) ^ (long) (FcValueListPtrU((FcPatternEltU(b->elts)+i)->values)); return hash; } typedef struct _FcPatternEnt FcPatternEnt; struct _FcPatternEnt { FcPatternEnt *next; FcChar32 hash; FcPattern *pattern; }; static int FcPatternTotal; static int FcPatternUsed; static FcPatternEnt *FcPatternHashTable[FC_VALUE_LIST_HASH_SIZE]; static FcPattern * FcPatternBaseFreeze (FcPattern *b) { FcPattern *ep; FcPatternElt *epp; FcChar32 hash = FcPatternBaseHash (b); FcPatternEnt **bucket = &FcPatternHashTable[hash % FC_VALUE_LIST_HASH_SIZE]; FcPatternEnt *ent; int i; FcPatternTotal++; for (ent = *bucket; ent; ent = ent->next) { if (ent->hash == hash && b->num == ent->pattern->num) { for (i = 0; i < b->num; i++) { if (FcObjectPtrCompare((FcPatternEltU(b->elts)+i)->object, (FcPatternEltU(ent->pattern->elts)+i)->object) != 0) break; if (FcValueListPtrU((FcPatternEltU(b->elts)+i)->values) != FcValueListPtrU((FcPatternEltU(ent->pattern->elts)+i)->values)) break; } if (i == b->num) return ent->pattern; } } /* * Compute size of pattern + elts */ ent = malloc (sizeof (FcPatternEnt)); if (!ent) return 0; FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPatternEnt)); FcPatternUsed++; ep = FcPatternCreate(); if (!ep) return 0; ent->pattern = ep; epp = malloc(b->num * sizeof (FcPatternElt)); if (!epp) goto bail; ep->elts = FcPatternEltPtrCreateDynamic(epp); FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt)*(b->num)); ep->num = b->num; ep->size = b->num; ep->ref = FC_REF_CONSTANT; for (i = 0; i < b->num; i++) { (FcPatternEltU(ep->elts)+i)->values = (FcPatternEltU(b->elts)+i)->values; (FcPatternEltU(ep->elts)+i)->object = (FcPatternEltU(b->elts)+i)->object; } ent->hash = hash; ent->next = *bucket; *bucket = ent; return ent->pattern; bail: free(ent); FcMemFree (FC_MEM_PATTERN, sizeof (FcPatternEnt)); FcPatternUsed--; return 0; } static void FcPatternBaseThawAll (void) { int i; FcPatternEnt *ent, *next; for (i = 0; i < FC_VALUE_LIST_HASH_SIZE; i++) { for (ent = FcPatternHashTable[i]; ent; ent = next) { next = ent->next; free (ent); } FcPatternHashTable[i] = 0; } FcPatternTotal = 0; FcPatternUsed = 0; } FcPattern * FcPatternFreeze (FcPattern *p) { FcPattern *b, *n = 0; FcPatternElt *e; int i; if (p->ref == FC_REF_CONSTANT) return p; b = FcPatternCreate(); if (!b) return 0; b->num = p->num; b->size = b->num; b->ref = 1; e = malloc(b->num * sizeof (FcPatternElt)); if (!e) return 0; b->elts = FcPatternEltPtrCreateDynamic(e); FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt)*(b->num)); /* * Freeze object lists */ for (i = 0; i < p->num; i++) { (FcPatternEltU(b->elts)+i)->object = (FcPatternEltU(p->elts)+i)->object; (FcPatternEltU(b->elts)+i)->values = FcValueListFreeze((FcPatternEltU(p->elts)+i)->values); if (!FcValueListPtrU((FcPatternEltU(p->elts)+i)->values)) goto bail; } /* * Freeze base */ n = FcPatternBaseFreeze (b); #ifdef CHATTY if (FcDebug() & FC_DBG_MEMORY) { printf ("ValueLists: total %9d used %9d\n", FcValueListTotal, FcValueListUsed); printf ("Patterns: total %9d used %9d\n", FcPatternTotal, FcPatternUsed); } #endif bail: free(FcPatternEltU(b->elts)); b->elts = FcPatternEltPtrCreateDynamic(0); FcMemFree (FC_MEM_PATELT, sizeof (FcPatternElt)*(b->num)); b->num = -1; #ifdef DEBUG assert (FcPatternEqual (n, p)); #endif return n; } static int FcPatternPosition (const FcPattern *p, const char *object) { int low, high, mid, c; FcObjectPtr obj; obj = FcObjectToPtr(object); low = 0; high = p->num - 1; c = 1; mid = 0; while (low <= high) { mid = (low + high) >> 1; c = FcObjectPtrCompare((FcPatternEltU(p->elts)+mid)->object, obj); if (c == 0) return mid; if (c < 0) low = mid + 1; else high = mid - 1; } if (c < 0) mid++; return -(mid + 1); } FcPatternElt * FcPatternFindElt (const FcPattern *p, const char *object) { int i = FcPatternPosition (p, object); if (i < 0) return 0; return FcPatternEltU(p->elts)+i; } FcPatternElt * FcPatternInsertElt (FcPattern *p, const char *object) { int i; FcPatternElt *e; i = FcPatternPosition (p, object); if (i < 0) { i = -i - 1; /* reallocate array */ if (p->num + 1 >= p->size) { int s = p->size + 16; if (FcPatternEltU(p->elts)) { FcPatternElt *e0 = FcPatternEltU(p->elts); e = (FcPatternElt *) realloc (e0, s * sizeof (FcPatternElt)); if (!e) /* maybe it was mmapped */ { e = malloc(s * sizeof (FcPatternElt)); if (e) memcpy(e, e0, p->num * sizeof (FcPatternElt)); } } else e = (FcPatternElt *) malloc (s * sizeof (FcPatternElt)); if (!e) return FcFalse; p->elts = FcPatternEltPtrCreateDynamic(e); if (p->size) FcMemFree (FC_MEM_PATELT, p->size * sizeof (FcPatternElt)); FcMemAlloc (FC_MEM_PATELT, s * sizeof (FcPatternElt)); while (p->size < s) { (FcPatternEltU(p->elts)+p->size)->object = 0; (FcPatternEltU(p->elts)+p->size)->values = FcValueListPtrCreateDynamic(0); p->size++; } } /* move elts up */ memmove (FcPatternEltU(p->elts) + i + 1, FcPatternEltU(p->elts) + i, sizeof (FcPatternElt) * (p->num - i)); /* bump count */ p->num++; (FcPatternEltU(p->elts)+i)->object = FcObjectToPtr (object); (FcPatternEltU(p->elts)+i)->values = FcValueListPtrCreateDynamic(0); } return FcPatternEltU(p->elts)+i; } FcBool FcPatternEqual (const FcPattern *pa, const FcPattern *pb) { int i; if (pa == pb) return FcTrue; if (pa->num != pb->num) return FcFalse; for (i = 0; i < pa->num; i++) { if (FcObjectPtrCompare((FcPatternEltU(pa->elts)+i)->object, (FcPatternEltU(pb->elts)+i)->object) != 0) return FcFalse; if (!FcValueListEqual ((FcPatternEltU(pa->elts)+i)->values, (FcPatternEltU(pb->elts)+i)->values)) return FcFalse; } return FcTrue; } FcChar32 FcPatternHash (const FcPattern *p) { int i; FcChar32 h = 0; for (i = 0; i < p->num; i++) { h = (((h << 1) | (h >> 31)) ^ FcStringHash (FcObjectPtrU ((FcPatternEltU(p->elts)+i)->object)) ^ FcValueListHash ((FcPatternEltU(p->elts)+i)->values)); } return h; } FcBool FcPatternEqualSubset (const FcPattern *pai, const FcPattern *pbi, const FcObjectSet *os) { FcPatternElt *ea, *eb; int i; for (i = 0; i < os->nobject; i++) { ea = FcPatternFindElt (pai, os->objects[i]); eb = FcPatternFindElt (pbi, os->objects[i]); if (ea) { if (!eb) return FcFalse; if (!FcValueListEqual (ea->values, eb->values)) return FcFalse; } else { if (eb) return FcFalse; } } return FcTrue; } FcBool FcPatternAddWithBinding (FcPattern *p, const char *object, FcValue value, FcValueBinding binding, FcBool append) { FcPatternElt *e; FcValueListPtr new, *prev; FcValueList * newp; if (p->ref == FC_REF_CONSTANT) goto bail0; newp = malloc (sizeof (FcValueList)); if (!newp) goto bail0; memset(newp, 0, sizeof (FcValueList)); new = FcValueListPtrCreateDynamic(newp); FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList)); /* dup string */ value = FcValueSave (value); if (value.type == FcTypeVoid) goto bail1; FcValueListPtrU(new)->value = value; FcValueListPtrU(new)->binding = binding; FcValueListPtrU(new)->next = FcValueListPtrCreateDynamic(0); e = FcPatternInsertElt (p, object); if (!e) goto bail2; if (append) { for (prev = &e->values; FcValueListPtrU(*prev); prev = &FcValueListPtrU(*prev)->next) ; *prev = new; } else { FcValueListPtrU(new)->next = e->values; e->values = new; } return FcTrue; bail2: switch (value.type) { case FcTypeString: FcStrFree ((FcChar8 *) value.u.s); break; case FcTypeMatrix: FcMatrixFree ((FcMatrix *) value.u.m); break; case FcTypeCharSet: FcCharSetDestroy ((FcCharSet *) value.u.c); break; case FcTypeLangSet: FcLangSetDestroy ((FcLangSet *) value.u.l); break; default: break; } bail1: FcMemFree (FC_MEM_VALLIST, sizeof (FcValueList)); free (FcValueListPtrU(new)); bail0: return FcFalse; } FcBool FcPatternAdd (FcPattern *p, const char *object, FcValue value, FcBool append) { return FcPatternAddWithBinding (p, object, value, FcValueBindingStrong, append); } FcBool FcPatternAddWeak (FcPattern *p, const char *object, FcValue value, FcBool append) { return FcPatternAddWithBinding (p, object, value, FcValueBindingWeak, append); } FcBool FcPatternDel (FcPattern *p, const char *object) { FcPatternElt *e; e = FcPatternFindElt (p, object); if (!e) return FcFalse; /* destroy value */ FcValueListDestroy (e->values); /* shuffle existing ones down */ memmove (e, e+1, (FcPatternEltU(p->elts) + p->num - (e + 1)) * sizeof (FcPatternElt)); p->num--; (FcPatternEltU(p->elts)+p->num)->object = 0; (FcPatternEltU(p->elts)+p->num)->values = FcValueListPtrCreateDynamic(0); return FcTrue; } FcBool FcPatternRemove (FcPattern *p, const char *object, int id) { FcPatternElt *e; FcValueListPtr *prev, l; e = FcPatternFindElt (p, object); if (!e) return FcFalse; for (prev = &e->values; FcValueListPtrU(l = *prev); prev = &FcValueListPtrU(l)->next) { if (!id) { *prev = FcValueListPtrU(l)->next; FcValueListPtrU(l)->next = FcValueListPtrCreateDynamic(0); FcValueListDestroy (l); if (!FcValueListPtrU(e->values)) FcPatternDel (p, object); return FcTrue; } id--; } return FcFalse; } FcBool FcPatternAddInteger (FcPattern *p, const char *object, int i) { FcValue v; v.type = FcTypeInteger; v.u.i = i; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddDouble (FcPattern *p, const char *object, double d) { FcValue v; v.type = FcTypeDouble; v.u.d = d; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddString (FcPattern *p, const char *object, const FcChar8 *s) { FcValue v; v.type = FcTypeString; v.u.s = FcStrStaticName(s); return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddMatrix (FcPattern *p, const char *object, const FcMatrix *s) { FcValue v; v.type = FcTypeMatrix; v.u.m = s; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddBool (FcPattern *p, const char *object, FcBool b) { FcValue v; v.type = FcTypeBool; v.u.b = b; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddCharSet (FcPattern *p, const char *object, const FcCharSet *c) { FcValue v; v.type = FcTypeCharSet; v.u.c = (FcCharSet *)c; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddFTFace (FcPattern *p, const char *object, const FT_Face f) { FcValue v; v.type = FcTypeFTFace; v.u.f = (void *) f; return FcPatternAdd (p, object, v, FcTrue); } FcBool FcPatternAddLangSet (FcPattern *p, const char *object, const FcLangSet *ls) { FcValue v; v.type = FcTypeLangSet; v.u.l = (FcLangSet *)ls; return FcPatternAdd (p, object, v, FcTrue); } FcResult FcPatternGet (const FcPattern *p, const char *object, int id, FcValue *v) { FcPatternElt *e; FcValueListPtr l; e = FcPatternFindElt (p, object); if (!e) return FcResultNoMatch; for (l = e->values; FcValueListPtrU(l); l = FcValueListPtrU(l)->next) { if (!id) { *v = FcValueCanonicalize(&FcValueListPtrU(l)->value); return FcResultMatch; } id--; } return FcResultNoId; } FcResult FcPatternGetInteger (const FcPattern *p, const char *object, int id, int *i) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; switch (v.type) { case FcTypeDouble: *i = (int) v.u.d; break; case FcTypeInteger: *i = v.u.i; break; default: return FcResultTypeMismatch; } return FcResultMatch; } FcResult FcPatternGetDouble (const FcPattern *p, const char *object, int id, double *d) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; switch (v.type) { case FcTypeDouble: *d = v.u.d; break; case FcTypeInteger: *d = (double) v.u.i; break; default: return FcResultTypeMismatch; } return FcResultMatch; } FcResult FcPatternGetString (const FcPattern *p, const char *object, int id, FcChar8 ** s) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeString) return FcResultTypeMismatch; *s = (FcChar8 *) v.u.s; return FcResultMatch; } FcResult FcPatternGetMatrix(const FcPattern *p, const char *object, int id, FcMatrix **m) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeMatrix) return FcResultTypeMismatch; *m = (FcMatrix *)v.u.m; return FcResultMatch; } FcResult FcPatternGetBool(const FcPattern *p, const char *object, int id, FcBool *b) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeBool) return FcResultTypeMismatch; *b = v.u.b; return FcResultMatch; } FcResult FcPatternGetCharSet(const FcPattern *p, const char *object, int id, FcCharSet **c) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeCharSet) return FcResultTypeMismatch; *c = (FcCharSet *)v.u.c; return FcResultMatch; } FcResult FcPatternGetFTFace(const FcPattern *p, const char *object, int id, FT_Face *f) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeFTFace) return FcResultTypeMismatch; *f = (FT_Face) v.u.f; return FcResultMatch; } FcResult FcPatternGetLangSet(const FcPattern *p, const char *object, int id, FcLangSet **ls) { FcValue v; FcResult r; r = FcPatternGet (p, object, id, &v); if (r != FcResultMatch) return r; if (v.type != FcTypeLangSet) return FcResultTypeMismatch; *ls = (FcLangSet *)v.u.l; return FcResultMatch; } FcPattern * FcPatternDuplicate (const FcPattern *orig) { FcPattern *new; FcPatternElt *e; int i; FcValueListPtr l; new = FcPatternCreate (); if (!new) goto bail0; e = FcPatternEltU(orig->elts); for (i = 0; i < orig->num; i++) { for (l = (e + i)->values; FcValueListPtrU(l); l = FcValueListPtrU(l)->next) if (!FcPatternAdd (new, FcObjectPtrU((e + i)->object), FcValueListPtrU(l)->value, FcTrue)) goto bail1; } return new; bail1: FcPatternDestroy (new); bail0: return 0; } void FcPatternReference (FcPattern *p) { if (p->ref != FC_REF_CONSTANT) p->ref++; } FcPattern * FcPatternVaBuild (FcPattern *orig, va_list va) { FcPattern *ret; FcPatternVapBuild (ret, orig, va); return ret; } FcPattern * FcPatternBuild (FcPattern *orig, ...) { va_list va; va_start (va, orig); FcPatternVapBuild (orig, orig, va); va_end (va); return orig; } /* * Add all of the elements in 's' to 'p' */ FcBool FcPatternAppend (FcPattern *p, FcPattern *s) { int i; FcPatternElt *e; FcValueListPtr v; for (i = 0; i < s->num; i++) { e = FcPatternEltU(s->elts)+i; for (v = e->values; FcValueListPtrU(v); v = FcValueListPtrU(v)->next) { if (!FcPatternAddWithBinding (p, FcObjectPtrU(e->object), FcValueCanonicalize(&FcValueListPtrU(v)->value), FcValueListPtrU(v)->binding, FcTrue)) return FcFalse; } } return FcTrue; } #define OBJECT_HASH_SIZE 31 struct objectBucket { struct objectBucket *next; FcChar32 hash; }; static struct objectBucket *FcObjectBuckets[OBJECT_HASH_SIZE]; const char * FcStrStaticName (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 (char *) (b + 1); size = sizeof (struct objectBucket) + strlen (name) + 1; b = malloc (size); FcMemAlloc (FC_MEM_STATICSTR, size); if (!b) return NULL; b->next = 0; b->hash = hash; strcpy ((char *) (b + 1), name); *p = b; return (char *) (b + 1); } static void FcStrStaticNameFini (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; } } void FcPatternFini (void) { FcPatternBaseThawAll (); FcValueListThawAll (); FcStrStaticNameFini (); FcObjectStaticNameFini (); } FcPatternElt * FcPatternEltU (FcPatternEltPtr pei) { if (pei.bank == FC_BANK_DYNAMIC) return pei.u.dyn; return &fcpatternelts[FcCacheBankToIndex(pei.bank)][pei.u.stat]; } static FcPatternEltPtr FcPatternEltPtrCreateDynamic (FcPatternElt * e) { FcPatternEltPtr new; new.bank = FC_BANK_DYNAMIC; new.u.dyn = e; return new; } static FcPatternEltPtr FcPatternEltPtrCreateStatic (int bank, int i) { FcPatternEltPtr new; new.bank = bank; new.u.stat = i; return new; } static void FcStrNewBank (void); static int FcStrNeededBytes (const char * s); static void * FcStrDistributeBytes (FcCache * metadata, void * block_ptr); static const char * FcStrSerialize (int bank, const char * s); static void * FcStrUnserialize (FcCache metadata, void *block_ptr); static void FcValueListNewBank (void); static int FcValueListNeededBytes (FcValueList * vl); static void * FcValueListDistributeBytes (FcCache * metadata, void *block_ptr); static FcValueListPtr FcValueListSerialize(int bank, FcValueList *pi); static void * FcValueListUnserialize (FcCache metadata, void *block_ptr); void FcPatternNewBank (void) { fcpattern_count = 0; fcpatternelt_count = 0; FcStrNewBank(); FcValueListNewBank(); } int FcPatternNeededBytes (FcPattern * p) { int i, cum = 0, c; fcpattern_count++; fcpatternelt_count += p->num; for (i = 0; i < p->num; i++) { c = FcValueListNeededBytes (FcValueListPtrU (((FcPatternEltU(p->elts)+i)->values))); if (c < 0) return c; cum += c; } return cum + sizeof (FcPattern) + sizeof(FcPatternElt)*p->num; } static FcBool FcPatternEnsureBank (int bi) { FcPattern **pp; FcPatternElt **ep; int i; if (!fcpatterns || fcpattern_bank_count <= bi) { int new_count = bi + 4; pp = realloc (fcpatterns, sizeof (FcPattern *) * new_count); if (!pp) return 0; FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern *) * new_count); fcpatterns = pp; ep = realloc (fcpatternelts, sizeof (FcPatternElt *) * new_count); if (!ep) return 0; FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt *) * new_count); fcpatternelts = ep; for (i = fcpattern_bank_count; i < new_count; i++) { fcpatterns[i] = 0; fcpatternelts[i] = 0; } fcpattern_bank_count = new_count; } FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern) * fcpattern_count); return FcTrue; } void * FcPatternDistributeBytes (FcCache * metadata, void * block_ptr) { int bi = FcCacheBankToIndex(metadata->bank); if (!FcPatternEnsureBank(bi)) return 0; fcpattern_ptr = 0; fcpatterns[bi] = (FcPattern *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcPattern) * fcpattern_count)); FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt) * fcpatternelt_count); fcpatternelt_ptr = 0; fcpatternelts[bi] = (FcPatternElt *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcPatternElt) * fcpatternelt_count)); metadata->pattern_count = fcpattern_count; metadata->patternelt_count = fcpatternelt_count; block_ptr = FcStrDistributeBytes (metadata, block_ptr); block_ptr = FcValueListDistributeBytes (metadata, block_ptr); return block_ptr; } FcPattern * FcPatternSerialize (int bank, FcPattern *old) { FcPattern *p; FcPatternElt *e, *nep; FcValueList * nv; FcValueListPtr v, nv_head, nvp; int i, elts, bi = FcCacheBankToIndex(bank); p = &fcpatterns[bi][fcpattern_ptr++]; p->bank = bank; elts = fcpatternelt_ptr; nep = &fcpatternelts[bi][elts]; if (!nep) return FcFalse; fcpatternelt_ptr += old->num; for (e = FcPatternEltU(old->elts), i=0; i < old->num; i++, e++) { v = e->values; nvp = nv_head = FcValueListSerialize(bank, FcValueListPtrU(v)); if (!FcValueListPtrU(nv_head)) return 0; nv = FcValueListPtrU(nvp); for (; FcValueListPtrU(v); v = FcValueListPtrU(v)->next, nv = FcValueListPtrU(nv->next)) { if (FcValueListPtrU(FcValueListPtrU(v)->next)) { nvp = FcValueListSerialize (bank, FcValueListPtrU(FcValueListPtrU(v)->next)); nv->next = nvp; } } nep[i].values = nv_head; nep[i].object = e->object; } p->elts = old->elts; p->elts = FcPatternEltPtrCreateStatic(bank, elts); p->size = old->num; p->num = old->num; p->ref = FC_REF_CONSTANT; return p; } void * FcPatternUnserialize (FcCache metadata, void *block_ptr) { int bi = FcCacheBankToIndex(metadata.bank); if (!FcPatternEnsureBank(bi)) return FcFalse; FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern) * metadata.pattern_count); fcpatterns[bi] = (FcPattern *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcPattern) * metadata.pattern_count)); FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt) * metadata.patternelt_count); fcpatternelts[bi] = (FcPatternElt *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcPatternElt) * metadata.patternelt_count)); block_ptr = FcStrUnserialize (metadata, block_ptr); block_ptr = FcValueListUnserialize (metadata, block_ptr); return block_ptr; } static void FcValueListNewBank (void) { fcvaluelist_count = 0; FcCharSetNewBank(); FcLangSetNewBank(); } static int FcValueListNeededBytes (FcValueList *p) { FcValueList *vl; int cum = 0; for (vl = p; vl; vl = FcValueListPtrU(vl->next)) { FcValue v = FcValueCanonicalize(&vl->value); // unserialize just in case switch (v.type) { case FcTypeCharSet: cum += FcCharSetNeededBytes(v.u.c); break; case FcTypeLangSet: cum += FcLangSetNeededBytes(v.u.l); break; case FcTypeString: cum += FcStrNeededBytes(v.u.s); default: break; } fcvaluelist_count++; cum += sizeof (FcValueList); } return cum; } static FcBool FcValueListEnsureBank (int bi) { FcValueList **pvl; if (!fcvaluelists || fcvaluelist_bank_count <= bi) { int new_count = bi + 2, i; pvl = realloc (fcvaluelists, sizeof (FcValueList *) * new_count); if (!pvl) return FcFalse; FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList *) * new_count); fcvaluelists = pvl; for (i = fcvaluelist_bank_count; i < new_count; i++) fcvaluelists[i] = 0; fcvaluelist_bank_count = new_count; } return FcTrue; } static void * FcValueListDistributeBytes (FcCache * metadata, void *block_ptr) { int bi = FcCacheBankToIndex(metadata->bank); if (!FcValueListEnsureBank(bi)) return 0; FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList) * fcvaluelist_count); fcvaluelist_ptr = 0; fcvaluelists[bi] = (FcValueList *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcValueList) * fcvaluelist_count)); metadata->valuelist_count = fcvaluelist_count; block_ptr = FcCharSetDistributeBytes(metadata, block_ptr); block_ptr = FcLangSetDistributeBytes(metadata, block_ptr); return block_ptr; } static FcValueListPtr FcValueListSerialize(int bank, FcValueList *pi) { FcValueListPtr new; FcValue * v; int bi = FcCacheBankToIndex(bank); if (!pi) { new.bank = FC_BANK_DYNAMIC; new.u.dyn = 0; return new; } fcvaluelists[bi][fcvaluelist_ptr] = *pi; new.bank = bank; new.u.stat = fcvaluelist_ptr++; v = &fcvaluelists[bi][new.u.stat].value; switch (v->type) { case FcTypeString: if (v->u.s) { const char * s = FcStrSerialize(bank, v->u.s); if (!s) return FcValueListPtrCreateDynamic(pi); v->u.s_off = s - (const char *)v; v->type |= FC_STORAGE_STATIC; } break; case FcTypeMatrix: break; case FcTypeCharSet: if (v->u.c) { FcCharSet * c = FcCharSetSerialize(bank, (FcCharSet *)v->u.c); if (!c) return FcValueListPtrCreateDynamic(pi); v->u.c_off = (char *)c - (char *)v; v->type |= FC_STORAGE_STATIC; } break; case FcTypeLangSet: if (v->u.l) { FcLangSet * l = FcLangSetSerialize(bank, (FcLangSet *)v->u.l); if (!l) return FcValueListPtrCreateDynamic(pi); v->u.l_off = (char *)l - (char *)v; v->type |= FC_STORAGE_STATIC; } break; default: break; } return new; } static void * FcValueListUnserialize (FcCache metadata, void *block_ptr) { int bi = FcCacheBankToIndex(metadata.bank); if (!FcValueListEnsureBank(bi)) return 0; FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList) * metadata.valuelist_count); fcvaluelists[bi] = (FcValueList *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (FcValueList) * metadata.valuelist_count)); block_ptr = FcCharSetUnserialize(metadata, block_ptr); block_ptr = FcLangSetUnserialize(metadata, block_ptr); return block_ptr; } FcValueList * FcValueListPtrU (FcValueListPtr pi) { if (pi.bank == FC_BANK_DYNAMIC) return pi.u.dyn; return &fcvaluelists[FcCacheBankToIndex(pi.bank)][pi.u.stat]; } FcValueListPtr FcValueListPtrCreateDynamic(FcValueList * p) { FcValueListPtr r; r.bank = FC_BANK_DYNAMIC; r.u.dyn = p; return r; } static char ** static_strs; static int static_str_bank_count = 0, fcstr_ptr, fcstr_count; static struct objectBucket *FcStrBuckets[OBJECT_HASH_SIZE]; static void FcStrNewBank (void) { int i, size; struct objectBucket *b, *next; char *name; for (i = 0; i < OBJECT_HASH_SIZE; i++) { for (b = FcStrBuckets[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); } FcStrBuckets[i] = 0; } fcstr_count = 0; } static int FcStrNeededBytes (const char * s) { FcChar32 hash = FcStringHash ((const FcChar8 *) s); struct objectBucket **p; struct objectBucket *b; int size; for (p = &FcStrBuckets[hash % OBJECT_HASH_SIZE]; (b = *p); p = &(b->next)) if (b->hash == hash && !strcmp (s, (char *) (b + 1))) return 0; size = sizeof (struct objectBucket) + strlen (s) + 1 + sizeof(char *); b = malloc (size); FcMemAlloc (FC_MEM_STATICSTR, size); if (!b) return -1; b->next = 0; b->hash = hash; strcpy ((char *) (b + 1), s); *(char **)((char *) (b + 1) + strlen(s) + 1) = 0; *p = b; fcstr_count += strlen(s) + 1; return strlen(s) + 1; } static FcBool FcStrEnsureBank (int bi) { char ** ss; if (!static_strs || static_str_bank_count <= bi) { int new_count = bi + 4, i; ss = realloc (static_strs, sizeof (const char *) * new_count); if (!ss) return FcFalse; FcMemAlloc (FC_MEM_STRING, sizeof (const char *) * (new_count-static_str_bank_count)); static_strs = ss; for (i = static_str_bank_count; i < new_count; i++) static_strs[i] = 0; static_str_bank_count = new_count; } return FcTrue; } static void * FcStrDistributeBytes (FcCache * metadata, void * block_ptr) { int bi = FcCacheBankToIndex(metadata->bank); if (!FcStrEnsureBank(bi)) return 0; FcMemAlloc (FC_MEM_STRING, sizeof (char) * fcstr_count); static_strs[bi] = (char *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (char) * fcstr_count)); metadata->str_count = fcstr_count; fcstr_ptr = 0; return block_ptr; } static const char * FcStrSerialize (int bank, const char * s) { FcChar32 hash = FcStringHash ((const FcChar8 *) s); struct objectBucket **p; struct objectBucket *b; int bi = FcCacheBankToIndex(bank); for (p = &FcStrBuckets[hash % OBJECT_HASH_SIZE]; (b = *p); p = &(b->next)) if (b->hash == hash && !strcmp (s, (char *) (b + 1))) { char * t = *(char **)(((char *)(b + 1)) + strlen (s) + 1); if (!t) { strcpy(static_strs[bi] + fcstr_ptr, s); *(char **)((char *) (b + 1) + strlen(s) + 1) = (static_strs[bi] + fcstr_ptr); fcstr_ptr += strlen(s) + 1; t = *(char **)(((char *)(b + 1)) + strlen (s) + 1); } return t; } return 0; } static void * FcStrUnserialize (FcCache metadata, void *block_ptr) { int bi = FcCacheBankToIndex(metadata.bank); if (!FcStrEnsureBank(bi)) return 0; FcMemAlloc (FC_MEM_STRING, sizeof (char) * metadata.str_count); static_strs[bi] = (char *)block_ptr; block_ptr = (void *)((char *)block_ptr + (sizeof (char) * metadata.str_count)); return block_ptr; }