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|
/*
* 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 the author(s) not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. The authors make no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* THE AUTHOR(S) DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL THE AUTHOR(S) 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 "fcint.h"
#include "fcftint.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
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_offset = FcPtrToOffset (p, NULL);
p->ref = 1;
return p;
}
void
FcValueDestroy (FcValue v)
{
switch (v.type) {
case FcTypeString:
if (!FcSharedStrFree (v.u.s))
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)
{
FcValue new;
switch (v->type)
{
case FcTypeString:
new.u.s = FcValueString(v);
new.type = FcTypeString;
break;
case FcTypeCharSet:
new.u.c = FcValueCharSet(v);
new.type = FcTypeCharSet;
break;
case FcTypeLangSet:
new.u.l = FcValueLangSet(v);
new.type = FcTypeLangSet;
break;
default:
new = *v;
break;
}
return new;
}
FcValue
FcValueSave (FcValue v)
{
switch (v.type) {
case FcTypeString:
v.u.s = FcSharedStr (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 (; l; l = next)
{
switch (l->value.type) {
case FcTypeString:
if (!FcSharedStrFree ((FcChar8 *)l->value.u.s))
FcStrFree ((FcChar8 *)l->value.u.s);
break;
case FcTypeMatrix:
FcMatrixFree ((FcMatrix *)l->value.u.m);
break;
case FcTypeCharSet:
FcCharSetDestroy
((FcCharSet *) (l->value.u.c));
break;
case FcTypeLangSet:
FcLangSetDestroy
((FcLangSet *) (l->value.u.l));
break;
default:
break;
}
next = FcValueListNext(l);
FcMemFree (FC_MEM_VALLIST, sizeof (FcValueList));
free(l);
}
}
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 *v)
{
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 (FcValueString(v));
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) FcValueCharSet(v)->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 (FcValueLangSet(v));
}
return FcFalse;
}
static FcBool
FcValueListEqual (FcValueListPtr la, FcValueListPtr lb)
{
if (la == lb)
return FcTrue;
while (la && lb)
{
if (!FcValueEqual (la->value, lb->value))
return FcFalse;
la = FcValueListNext(la);
lb = FcValueListNext(lb);
}
if (la || lb)
return FcFalse;
return FcTrue;
}
static FcChar32
FcValueListHash (FcValueListPtr l)
{
FcChar32 hash = 0;
for (; l; l = FcValueListNext(l))
{
hash = ((hash << 1) | (hash >> 31)) ^ FcValueHash (&l->value);
}
return hash;
}
void
FcPatternDestroy (FcPattern *p)
{
int i;
FcPatternElt *elts;
if (p->ref == FC_REF_CONSTANT)
{
FcCacheObjectDereference (p);
return;
}
if (--p->ref > 0)
return;
elts = FcPatternElts (p);
for (i = 0; i < p->num; i++)
FcValueListDestroy (FcPatternEltValues(&elts[i]));
FcMemFree (FC_MEM_PATELT, p->size * sizeof (FcPatternElt));
free (elts);
FcMemFree (FC_MEM_PATTERN, sizeof (FcPattern));
free (p);
}
static int
FcPatternObjectPosition (const FcPattern *p, FcObject object)
{
int low, high, mid, c;
FcPatternElt *elts = FcPatternElts(p);
low = 0;
high = p->num - 1;
c = 1;
mid = 0;
while (low <= high)
{
mid = (low + high) >> 1;
c = elts[mid].object - object;
if (c == 0)
return mid;
if (c < 0)
low = mid + 1;
else
high = mid - 1;
}
if (c < 0)
mid++;
return -(mid + 1);
}
FcPatternElt *
FcPatternObjectFindElt (const FcPattern *p, FcObject object)
{
int i = FcPatternObjectPosition (p, object);
if (i < 0)
return 0;
return &FcPatternElts(p)[i];
}
FcPatternElt *
FcPatternObjectInsertElt (FcPattern *p, FcObject object)
{
int i;
FcPatternElt *e;
i = FcPatternObjectPosition (p, object);
if (i < 0)
{
i = -i - 1;
/* reallocate array */
if (p->num + 1 >= p->size)
{
int s = p->size + 16;
if (p->size)
{
FcPatternElt *e0 = FcPatternElts(p);
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_offset = FcPtrToOffset (p, e);
if (p->size)
FcMemFree (FC_MEM_PATELT, p->size * sizeof (FcPatternElt));
FcMemAlloc (FC_MEM_PATELT, s * sizeof (FcPatternElt));
while (p->size < s)
{
e[p->size].object = 0;
e[p->size].values = NULL;
p->size++;
}
}
e = FcPatternElts(p);
/* move elts up */
memmove (e + i + 1,
e + i,
sizeof (FcPatternElt) *
(p->num - i));
/* bump count */
p->num++;
e[i].object = object;
e[i].values = NULL;
}
return FcPatternElts(p) + i;
}
FcBool
FcPatternEqual (const FcPattern *pa, const FcPattern *pb)
{
int i;
FcPatternElt *pae, *pbe;
if (pa == pb)
return FcTrue;
if (pa->num != pb->num)
return FcFalse;
pae = FcPatternElts(pa);
pbe = FcPatternElts(pb);
for (i = 0; i < pa->num; i++)
{
if (pae[i].object != pbe[i].object)
return FcFalse;
if (!FcValueListEqual (FcPatternEltValues(&pae[i]),
FcPatternEltValues(&pbe[i])))
return FcFalse;
}
return FcTrue;
}
FcChar32
FcPatternHash (const FcPattern *p)
{
int i;
FcChar32 h = 0;
FcPatternElt *pe = FcPatternElts(p);
for (i = 0; i < p->num; i++)
{
h = (((h << 1) | (h >> 31)) ^
pe[i].object ^
FcValueListHash (FcPatternEltValues(&pe[i])));
}
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++)
{
FcObject object = FcObjectFromName (os->objects[i]);
ea = FcPatternObjectFindElt (pai, object);
eb = FcPatternObjectFindElt (pbi, object);
if (ea)
{
if (!eb)
return FcFalse;
if (!FcValueListEqual (FcPatternEltValues(ea), FcPatternEltValues(eb)))
return FcFalse;
}
else
{
if (eb)
return FcFalse;
}
}
return FcTrue;
}
FcBool
FcPatternObjectAddWithBinding (FcPattern *p,
FcObject object,
FcValue value,
FcValueBinding binding,
FcBool append)
{
FcPatternElt *e;
FcValueListPtr new, *prev;
if (p->ref == FC_REF_CONSTANT)
goto bail0;
new = malloc (sizeof (FcValueList));
if (!new)
goto bail0;
memset(new, 0, sizeof (FcValueList));
FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList));
value = FcValueSave (value);
if (value.type == FcTypeVoid)
goto bail1;
/*
* Make sure the stored type is valid for built-in objects
*/
if (!FcObjectValidType (object, value.type))
{
if (FcDebug() & FC_DBG_OBJTYPES)
{
printf ("FcPattern object %s does not accept value ",
FcObjectName (object));
FcValuePrint (value);
}
goto bail1;
}
new->value = value;
new->binding = binding;
new->next = NULL;
e = FcPatternObjectInsertElt (p, object);
if (!e)
goto bail2;
if (append)
{
for (prev = &e->values; *prev; prev = &(*prev)->next)
;
*prev = new;
}
else
{
new->next = e->values;
e->values = new;
}
return FcTrue;
bail2:
FcValueDestroy (value);
bail1:
FcMemFree (FC_MEM_VALLIST, sizeof (FcValueList));
free (new);
bail0:
return FcFalse;
}
FcBool
FcPatternObjectAdd (FcPattern *p, FcObject object, FcValue value, FcBool append)
{
return FcPatternObjectAddWithBinding (p, object,
value, FcValueBindingStrong, append);
}
FcBool
FcPatternAdd (FcPattern *p, const char *object, FcValue value, FcBool append)
{
return FcPatternObjectAddWithBinding (p, FcObjectFromName (object),
value, FcValueBindingStrong, append);
}
FcBool
FcPatternAddWeak (FcPattern *p, const char *object, FcValue value, FcBool append)
{
return FcPatternObjectAddWithBinding (p, FcObjectFromName (object),
value, FcValueBindingWeak, append);
}
FcBool
FcPatternObjectDel (FcPattern *p, FcObject object)
{
FcPatternElt *e;
e = FcPatternObjectFindElt (p, object);
if (!e)
return FcFalse;
/* destroy value */
FcValueListDestroy (e->values);
/* shuffle existing ones down */
memmove (e, e+1,
(FcPatternElts(p) + p->num - (e + 1)) *
sizeof (FcPatternElt));
p->num--;
e = FcPatternElts(p) + p->num;
e->object = 0;
e->values = NULL;
return FcTrue;
}
FcBool
FcPatternDel (FcPattern *p, const char *object)
{
return FcPatternObjectDel (p, FcObjectFromName (object));
}
FcBool
FcPatternRemove (FcPattern *p, const char *object, int id)
{
FcPatternElt *e;
FcValueListPtr *prev, l;
e = FcPatternObjectFindElt (p, FcObjectFromName (object));
if (!e)
return FcFalse;
for (prev = &e->values; (l = *prev); prev = &l->next)
{
if (!id)
{
*prev = l->next;
l->next = NULL;
FcValueListDestroy (l);
if (!e->values)
FcPatternDel (p, object);
return FcTrue;
}
id--;
}
return FcFalse;
}
FcBool
FcPatternObjectAddInteger (FcPattern *p, FcObject object, int i)
{
FcValue v;
v.type = FcTypeInteger;
v.u.i = i;
return FcPatternObjectAdd (p, object, v, FcTrue);
}
FcBool
FcPatternAddInteger (FcPattern *p, const char *object, int i)
{
return FcPatternObjectAddInteger (p, FcObjectFromName (object), i);
}
FcBool
FcPatternObjectAddDouble (FcPattern *p, FcObject object, double d)
{
FcValue v;
v.type = FcTypeDouble;
v.u.d = d;
return FcPatternObjectAdd (p, object, v, FcTrue);
}
FcBool
FcPatternAddDouble (FcPattern *p, const char *object, double d)
{
return FcPatternObjectAddDouble (p, FcObjectFromName (object), d);
}
FcBool
FcPatternObjectAddString (FcPattern *p, FcObject object, const FcChar8 *s)
{
FcValue v;
if (!s)
{
v.type = FcTypeVoid;
v.u.s = 0;
return FcPatternObjectAdd (p, object, v, FcTrue);
}
v.type = FcTypeString;
v.u.s = s;
return FcPatternObjectAdd (p, object, v, FcTrue);
}
FcBool
FcPatternAddString (FcPattern *p, const char *object, const FcChar8 *s)
{
return FcPatternObjectAddString (p, FcObjectFromName (object), s);
}
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
FcPatternObjectAddBool (FcPattern *p, FcObject object, FcBool b)
{
FcValue v;
v.type = FcTypeBool;
v.u.b = b;
return FcPatternObjectAdd (p, object, v, FcTrue);
}
FcBool
FcPatternAddBool (FcPattern *p, const char *object, FcBool b)
{
return FcPatternObjectAddBool (p, FcObjectFromName (object), b);
}
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
FcPatternObjectGet (const FcPattern *p, FcObject object, int id, FcValue *v)
{
FcPatternElt *e;
FcValueListPtr l;
e = FcPatternObjectFindElt (p, object);
if (!e)
return FcResultNoMatch;
for (l = FcPatternEltValues(e); l; l = FcValueListNext(l))
{
if (!id)
{
*v = FcValueCanonicalize(&l->value);
return FcResultMatch;
}
id--;
}
return FcResultNoId;
}
FcResult
FcPatternGet (const FcPattern *p, const char *object, int id, FcValue *v)
{
return FcPatternObjectGet (p, FcObjectFromName (object), id, v);
}
FcResult
FcPatternObjectGetInteger (const FcPattern *p, FcObject object, int id, int *i)
{
FcValue v;
FcResult r;
r = FcPatternObjectGet (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
FcPatternGetInteger (const FcPattern *p, const char *object, int id, int *i)
{
return FcPatternObjectGetInteger (p, FcObjectFromName (object), id, i);
}
FcResult
FcPatternObjectGetDouble (const FcPattern *p, FcObject object, int id, double *d)
{
FcValue v;
FcResult r;
r = FcPatternObjectGet (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
FcPatternGetDouble (const FcPattern *p, const char *object, int id, double *d)
{
return FcPatternObjectGetDouble (p, FcObjectFromName (object), id, d);
}
FcResult
FcPatternObjectGetString (const FcPattern *p, FcObject object, int id, FcChar8 ** s)
{
FcValue v;
FcResult r;
r = FcPatternObjectGet (p, object, id, &v);
if (r != FcResultMatch)
return r;
if (v.type != FcTypeString)
return FcResultTypeMismatch;
*s = (FcChar8 *) v.u.s;
return FcResultMatch;
}
FcResult
FcPatternGetString (const FcPattern *p, const char *object, int id, FcChar8 ** s)
{
return FcPatternObjectGetString (p, FcObjectFromName (object), id, s);
}
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 = FcPatternElts(orig);
for (i = 0; i < orig->num; i++)
{
for (l = FcPatternEltValues(e + i); l; l = FcValueListNext(l))
{
if (!FcPatternObjectAddWithBinding (new, e[i].object,
FcValueCanonicalize(&l->value),
l->binding,
FcTrue))
goto bail1;
}
}
return new;
bail1:
FcPatternDestroy (new);
bail0:
return 0;
}
void
FcPatternReference (FcPattern *p)
{
if (p->ref != FC_REF_CONSTANT)
p->ref++;
else
FcCacheObjectReference (p);
}
FcPattern *
FcPatternVaBuild (FcPattern *p, va_list va)
{
FcPattern *ret;
FcPatternVapBuild (ret, p, va);
return ret;
}
FcPattern *
FcPatternBuild (FcPattern *p, ...)
{
va_list va;
va_start (va, p);
FcPatternVapBuild (p, p, va);
va_end (va);
return p;
}
/*
* 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 = FcPatternElts(s)+i;
for (v = FcPatternEltValues(e); v; v = FcValueListNext(v))
{
if (!FcPatternObjectAddWithBinding (p, e->object,
FcValueCanonicalize(&v->value),
v->binding, FcTrue))
return FcFalse;
}
}
return FcTrue;
}
FcPattern *
FcPatternFilter (FcPattern *p, const FcObjectSet *os)
{
int i;
FcPattern *ret;
FcPatternElt *e;
FcValueListPtr v;
if (!os)
return FcPatternDuplicate (p);
ret = FcPatternCreate ();
if (!ret)
return NULL;
for (i = 0; i < os->nobject; i++)
{
FcObject object = FcObjectFromName (os->objects[i]);
e = FcPatternObjectFindElt (p, object);
if (e)
{
for (v = FcPatternEltValues(e); v; v = FcValueListNext(v))
{
if (!FcPatternObjectAddWithBinding (ret, e->object,
FcValueCanonicalize(&v->value),
v->binding, FcTrue))
goto bail0;
}
}
}
return ret;
bail0:
FcPatternDestroy (ret);
return NULL;
}
#define OBJECT_HASH_SIZE 251
static struct objectBucket {
struct objectBucket *next;
FcChar32 hash;
int ref_count;
} *FcObjectBuckets[OBJECT_HASH_SIZE];
FcBool
FcSharedStrFree (const FcChar8 *name)
{
FcChar32 hash = FcStringHash (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 && ((char *)name == (char *) (b + 1)))
{
b->ref_count--;
if (!b->ref_count)
{
*p = b->next;
size = sizeof (struct objectBucket) + strlen ((char *)name) + 1;
FcMemFree (FC_MEM_SHAREDSTR, size + sizeof (int));
free (b);
}
return FcTrue;
}
return FcFalse;
}
const FcChar8 *
FcSharedStr (const FcChar8 *name)
{
FcChar32 hash = FcStringHash (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 ((char *)name, (char *) (b + 1)))
{
b->ref_count++;
return (FcChar8 *) (b + 1);
}
size = sizeof (struct objectBucket) + strlen ((char *)name) + 1;
/*
* workaround valgrind warning because glibc takes advantage of how it knows memory is
* allocated to implement strlen by reading in groups of 4
*/
size = (size + 3) & ~3;
b = malloc (size);
FcMemAlloc (FC_MEM_SHAREDSTR, size);
if (!b)
return NULL;
b->next = 0;
b->hash = hash;
b->ref_count = 1;
strcpy ((char *) (b + 1), (char *)name);
*p = b;
return (FcChar8 *) (b + 1);
}
FcBool
FcPatternSerializeAlloc (FcSerialize *serialize, const FcPattern *pat)
{
int i;
FcPatternElt *elts = FcPatternElts(pat);
if (!FcSerializeAlloc (serialize, pat, sizeof (FcPattern)))
return FcFalse;
if (!FcSerializeAlloc (serialize, elts, pat->num * sizeof (FcPatternElt)))
return FcFalse;
for (i = 0; i < pat->num; i++)
if (!FcValueListSerializeAlloc (serialize, FcPatternEltValues(elts+i)))
return FcFalse;
return FcTrue;
}
FcPattern *
FcPatternSerialize (FcSerialize *serialize, const FcPattern *pat)
{
FcPattern *pat_serialized;
FcPatternElt *elts = FcPatternElts (pat);
FcPatternElt *elts_serialized;
FcValueList *values_serialized;
int i;
pat_serialized = FcSerializePtr (serialize, pat);
if (!pat_serialized)
return NULL;
*pat_serialized = *pat;
pat_serialized->size = pat->num;
pat_serialized->ref = FC_REF_CONSTANT;
elts_serialized = FcSerializePtr (serialize, elts);
if (!elts_serialized)
return NULL;
pat_serialized->elts_offset = FcPtrToOffset (pat_serialized,
elts_serialized);
for (i = 0; i < pat->num; i++)
{
values_serialized = FcValueListSerialize (serialize, FcPatternEltValues (elts+i));
if (!values_serialized)
return NULL;
elts_serialized[i].object = elts[i].object;
elts_serialized[i].values = FcPtrToEncodedOffset (&elts_serialized[i],
values_serialized,
FcValueList);
}
if (FcDebug() & FC_DBG_CACHEV) {
printf ("Raw pattern:\n");
FcPatternPrint (pat);
printf ("Serialized pattern:\n");
FcPatternPrint (pat_serialized);
printf ("\n");
}
return pat_serialized;
}
FcBool
FcValueListSerializeAlloc (FcSerialize *serialize, const FcValueList *vl)
{
while (vl)
{
if (!FcSerializeAlloc (serialize, vl, sizeof (FcValueList)))
return FcFalse;
switch (vl->value.type) {
case FcTypeString:
if (!FcStrSerializeAlloc (serialize, vl->value.u.s))
return FcFalse;
break;
case FcTypeCharSet:
if (!FcCharSetSerializeAlloc (serialize, vl->value.u.c))
return FcFalse;
break;
case FcTypeLangSet:
if (!FcLangSetSerializeAlloc (serialize, vl->value.u.l))
return FcFalse;
break;
default:
break;
}
vl = vl->next;
}
return FcTrue;
}
FcValueList *
FcValueListSerialize (FcSerialize *serialize, const FcValueList *vl)
{
FcValueList *vl_serialized;
FcChar8 *s_serialized;
FcCharSet *c_serialized;
FcLangSet *l_serialized;
FcValueList *head_serialized = NULL;
FcValueList *prev_serialized = NULL;
while (vl)
{
vl_serialized = FcSerializePtr (serialize, vl);
if (!vl_serialized)
return NULL;
if (prev_serialized)
prev_serialized->next = FcPtrToEncodedOffset (prev_serialized,
vl_serialized,
FcValueList);
else
head_serialized = vl_serialized;
vl_serialized->next = NULL;
vl_serialized->value.type = vl->value.type;
switch (vl->value.type) {
case FcTypeInteger:
vl_serialized->value.u.i = vl->value.u.i;
break;
case FcTypeDouble:
vl_serialized->value.u.d = vl->value.u.d;
break;
case FcTypeString:
s_serialized = FcStrSerialize (serialize, vl->value.u.s);
if (!s_serialized)
return NULL;
vl_serialized->value.u.s = FcPtrToEncodedOffset (&vl_serialized->value,
s_serialized,
FcChar8);
break;
case FcTypeBool:
vl_serialized->value.u.b = vl->value.u.b;
break;
case FcTypeMatrix:
/* can't happen */
break;
case FcTypeCharSet:
c_serialized = FcCharSetSerialize (serialize, vl->value.u.c);
if (!c_serialized)
return NULL;
vl_serialized->value.u.c = FcPtrToEncodedOffset (&vl_serialized->value,
c_serialized,
FcCharSet);
break;
case FcTypeFTFace:
/* can't happen */
break;
case FcTypeLangSet:
l_serialized = FcLangSetSerialize (serialize, vl->value.u.l);
if (!l_serialized)
return NULL;
vl_serialized->value.u.l = FcPtrToEncodedOffset (&vl_serialized->value,
l_serialized,
FcLangSet);
break;
default:
break;
}
prev_serialized = vl_serialized;
vl = vl->next;
}
return head_serialized;
}
#define __fcpat__
#include "fcaliastail.h"
#include "fcftaliastail.h"
#undef __fcpat__
|