#include <assert.h>
#include "fcint.h"
-static FcPattern ** fcpatterns = 0;
+static FcPattern ** _fcPatterns = 0;
static int fcpattern_bank_count = 0, fcpattern_ptr, fcpattern_count;
-static FcPatternElt ** fcpatternelts = 0;
+FcPatternElt ** _fcPatternElts = 0;
static int fcpatternelt_ptr, fcpatternelt_count;
-static FcValueList ** fcvaluelists = 0;
+FcValueList ** _fcValueLists = 0;
static int fcvaluelist_bank_count = 0, fcvaluelist_ptr, fcvaluelist_count;
-static const char *
-FcPatternFindFullFname (const FcPattern *p);
static FcPatternEltPtr
FcPatternEltPtrCreateDynamic (FcPatternElt * e);
+static FcBool
+FcStrHashed (const FcChar8 *name);
+
+static const char *
+FcPatternFindFullFname (const FcPattern *p);
/* If you are trying to duplicate an FcPattern which will be used for
* rendering, be aware that (internally) you also have to use
{
switch (v.type) {
case FcTypeString:
- FcStrFree ((FcChar8 *) v.u.s);
+ if (!FcStrHashed (v.u.s))
+ FcStrFree ((FcChar8 *) v.u.s);
break;
case FcTypeMatrix:
FcMatrixFree ((FcMatrix *) v.u.m);
{
switch (FcValueListPtrU(l)->value.type) {
case FcTypeString:
- FcStrFree ((FcChar8 *)FcValueListPtrU(l)->value.u.s);
+ if (!FcStrHashed ((FcChar8 *)FcValueListPtrU(l)->value.u.s))
+ FcStrFree ((FcChar8 *)FcValueListPtrU(l)->value.u.s);
break;
case FcTypeMatrix:
FcMatrixFree ((FcMatrix *)FcValueListPtrU(l)->value.u.m);
{
FcPatternElt *e;
FcValueListPtr new, *prev;
- FcValueList * newp;
+ FcValueList *newp;
+ FcObjectPtr objectPtr;
if (p->ref == FC_REF_CONSTANT)
goto bail0;
if (value.type == FcTypeVoid)
goto bail1;
- /* quick and dirty hack to enable FcCompareFamily speedup:
- * only allow strings to be added under the FC_FAMILY key.
+ /* quick and dirty hack to enable FcCompareFamily/FcCompareString
+ * speedup: only allow strings to be added under the FC_FAMILY,
+ * FC_FOUNDRY, FC_STYLE, FC_RASTERIZER keys.
+ * and charsets under FC_CHARSET key.
+ * This is slightly semantically different from the old behaviour,
+ * but fonts shouldn't be getting non-strings here anyway.
* a better hack would use FcBaseObjectTypes to check all objects. */
- if (FcObjectToPtr(object) == FcObjectToPtr(FC_FAMILY) &&
- value.type != FcTypeString)
+ objectPtr = FcObjectToPtr(object);
+ if ((objectPtr == FcObjectToPtr(FC_FAMILY)
+ || objectPtr == FcObjectToPtr(FC_FOUNDRY)
+ || objectPtr == FcObjectToPtr(FC_STYLE)
+ || objectPtr == FcObjectToPtr(FC_RASTERIZER))
+ && value.type != FcTypeString)
+ goto bail1;
+ if (objectPtr == FcObjectToPtr(FC_CHARSET)
+ && value.type != FcTypeCharSet)
goto bail1;
FcValueListPtrU(new)->value = value;
{
FcValue v;
+ if (!s)
+ {
+ v.type = FcTypeVoid;
+ v.u.s = 0;
+ return FcPatternAdd (p, object, v, FcTrue);
+ }
+
v.type = FcTypeString;
v.u.s = FcStrStaticName(s);
return FcPatternAdd (p, object, v, FcTrue);
FcChar32 hash;
} *FcObjectBuckets[OBJECT_HASH_SIZE];
+static FcBool
+FcStrHashed (const FcChar8 *name)
+{
+ FcChar32 hash = FcStringHash (name);
+ struct objectBucket **p;
+ struct objectBucket *b;
+
+ for (p = &FcObjectBuckets[hash % OBJECT_HASH_SIZE]; (b = *p); p = &(b->next))
+ if (b->hash == hash && !strcmp ((char *)name, (char *) (b + 1)))
+ return FcTrue;
+ return FcFalse;
+}
+
const FcChar8 *
FcStrStaticName (const FcChar8 *name)
{
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)
{
static const FcChar8 *
FcStrSerialize (int bank, const FcChar8 * s);
static void *
-FcStrUnserialize (FcCache metadata, void *block_ptr);
+FcStrUnserialize (FcCache * metadata, void *block_ptr);
static void
FcValueListNewBank (void);
static FcValueListPtr
FcValueListSerialize(int bank, FcValueList *pi);
static void *
-FcValueListUnserialize (FcCache metadata, void *block_ptr);
+FcValueListUnserialize (FcCache * metadata, void *block_ptr);
void
FcPatternElt **ep;
int i;
- if (!fcpatterns || fcpattern_bank_count <= bi)
+ if (!_fcPatterns || fcpattern_bank_count <= bi)
{
int new_count = bi + 4;
- pp = realloc (fcpatterns, sizeof (FcPattern *) * new_count);
+ pp = realloc (_fcPatterns, sizeof (FcPattern *) * new_count);
if (!pp)
return 0;
FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern *) * new_count);
- fcpatterns = pp;
+ _fcPatterns = pp;
- ep = realloc (fcpatternelts, sizeof (FcPatternElt *) * new_count);
+ ep = realloc (_fcPatternElts, sizeof (FcPatternElt *) * new_count);
if (!ep)
return 0;
FcMemAlloc (FC_MEM_PATELT, sizeof (FcPatternElt *) * new_count);
- fcpatternelts = ep;
+ _fcPatternElts = ep;
for (i = fcpattern_bank_count; i < new_count; i++)
{
- fcpatterns[i] = 0;
- fcpatternelts[i] = 0;
+ _fcPatterns[i] = 0;
+ _fcPatternElts[i] = 0;
}
fcpattern_bank_count = new_count;
fcpattern_ptr = 0;
block_ptr = ALIGN(block_ptr, FcPattern);
- fcpatterns[bi] = (FcPattern *)block_ptr;
+ _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;
block_ptr = ALIGN(block_ptr, FcPatternElt);
- fcpatternelts[bi] = (FcPatternElt *)block_ptr;
+ _fcPatternElts[bi] = (FcPatternElt *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
(sizeof (FcPatternElt) * fcpatternelt_count));
FcValueListPtr v, nv_head, nvp;
int i, elts, bi = FcCacheBankToIndex(bank);
- p = &fcpatterns[bi][fcpattern_ptr++];
+ p = &_fcPatterns[bi][fcpattern_ptr++];
p->bank = bank;
elts = fcpatternelt_ptr;
- nep = &fcpatternelts[bi][elts];
+ nep = &_fcPatternElts[bi][elts];
if (!nep)
return FcFalse;
}
void *
-FcPatternUnserialize (FcCache metadata, void *block_ptr)
+FcPatternUnserialize (FcCache * metadata, void *block_ptr)
{
- int bi = FcCacheBankToIndex(metadata.bank);
+ int bi = FcCacheBankToIndex(metadata->bank);
if (!FcPatternEnsureBank(bi))
return FcFalse;
- FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern) * metadata.pattern_count);
+ FcMemAlloc (FC_MEM_PATTERN, sizeof (FcPattern) * metadata->pattern_count);
block_ptr = ALIGN(block_ptr, FcPattern);
- fcpatterns[bi] = (FcPattern *)block_ptr;
+ _fcPatterns[bi] = (FcPattern *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
- (sizeof (FcPattern) * metadata.pattern_count));
+ (sizeof (FcPattern) * metadata->pattern_count));
FcMemAlloc (FC_MEM_PATELT,
- sizeof (FcPatternElt) * metadata.patternelt_count);
+ sizeof (FcPatternElt) * metadata->patternelt_count);
block_ptr = ALIGN(block_ptr, FcPatternElt);
- fcpatternelts[bi] = (FcPatternElt *)block_ptr;
+ _fcPatternElts[bi] = (FcPatternElt *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
- (sizeof (FcPatternElt) * metadata.patternelt_count));
+ (sizeof (FcPatternElt) * metadata->patternelt_count));
block_ptr = FcStrUnserialize (metadata, block_ptr);
block_ptr = FcValueListUnserialize (metadata, block_ptr);
{
FcValueList **pvl;
- if (!fcvaluelists || fcvaluelist_bank_count <= bi)
+ if (!_fcValueLists || fcvaluelist_bank_count <= bi)
{
int new_count = bi + 2, i;
- pvl = realloc (fcvaluelists, sizeof (FcValueList *) * new_count);
+ pvl = realloc (_fcValueLists, sizeof (FcValueList *) * new_count);
if (!pvl)
return FcFalse;
FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList *) * new_count);
- fcvaluelists = pvl;
+ _fcValueLists = pvl;
for (i = fcvaluelist_bank_count; i < new_count; i++)
- fcvaluelists[i] = 0;
+ _fcValueLists[i] = 0;
fcvaluelist_bank_count = new_count;
}
FcMemAlloc (FC_MEM_VALLIST, sizeof (FcValueList) * fcvaluelist_count);
fcvaluelist_ptr = 0;
block_ptr = ALIGN(block_ptr, FcValueList);
- fcvaluelists[bi] = (FcValueList *)block_ptr;
+ _fcValueLists[bi] = (FcValueList *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
(sizeof (FcValueList) * fcvaluelist_count));
metadata->valuelist_count = fcvaluelist_count;
return new;
}
- fcvaluelists[bi][fcvaluelist_ptr] = *pi;
+ _fcValueLists[bi][fcvaluelist_ptr] = *pi;
new.bank = bank;
new.u.stat = fcvaluelist_ptr++;
- fcvaluelists[bi][new.u.stat].value = FcValueCanonicalize (&pi->value);
- v = &fcvaluelists[bi][new.u.stat].value;
+ _fcValueLists[bi][new.u.stat].value = FcValueCanonicalize (&pi->value);
+ v = &_fcValueLists[bi][new.u.stat].value;
switch (v->type)
{
case FcTypeString:
}
static void *
-FcValueListUnserialize (FcCache metadata, void *block_ptr)
+FcValueListUnserialize (FcCache * metadata, void *block_ptr)
{
- int bi = FcCacheBankToIndex(metadata.bank);
+ int bi = FcCacheBankToIndex(metadata->bank);
if (!FcValueListEnsureBank(bi))
return 0;
FcMemAlloc (FC_MEM_VALLIST,
- sizeof (FcValueList) * metadata.valuelist_count);
+ sizeof (FcValueList) * metadata->valuelist_count);
block_ptr = ALIGN(block_ptr, FcValueList);
- fcvaluelists[bi] = (FcValueList *)block_ptr;
+ _fcValueLists[bi] = (FcValueList *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
- (sizeof (FcValueList) * metadata.valuelist_count));
+ (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)
{
}
static void *
-FcStrUnserialize (FcCache metadata, void *block_ptr)
+FcStrUnserialize (FcCache * metadata, void *block_ptr)
{
- int bi = FcCacheBankToIndex(metadata.bank);
+ int bi = FcCacheBankToIndex(metadata->bank);
if (!FcStrEnsureBank(bi))
return 0;
- FcMemAlloc (FC_MEM_STRING, sizeof (char) * metadata.str_count);
+ FcMemAlloc (FC_MEM_STRING, sizeof (char) * metadata->str_count);
block_ptr = ALIGN (block_ptr, FcChar8);
static_strs[bi] = (FcChar8 *)block_ptr;
block_ptr = (void *)((char *)block_ptr +
- (sizeof (char) * metadata.str_count));
+ (sizeof (char) * metadata->str_count));
return block_ptr;
}