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skia / third_party / fontconfig / 922168afe8bf48e872dc0a808fadefaa798a42ce / . / src / fcmatch.c
blob: 289204e7f826c22a985b2f5c4612e412f772a0f2 [file] [log] [blame]
/*
* fontconfig/src/fcmatch.c
*
* 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"
static double
FcCompareNumber (const FcValue *value1, const FcValue *value2, FcValue *bestValue)
{
double v1, v2, v;
switch ((int) value1->type) {
case FcTypeInteger:
v1 = (double) value1->u.i;
break;
case FcTypeDouble:
v1 = value1->u.d;
break;
default:
return -1.0;
}
switch ((int) value2->type) {
case FcTypeInteger:
v2 = (double) value2->u.i;
break;
case FcTypeDouble:
v2 = value2->u.d;
break;
default:
return -1.0;
}
v = v2 - v1;
if (v < 0)
v = -v;
*bestValue = FcValueCanonicalize (value2);
return v;
}
static double
FcCompareString (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
*bestValue = FcValueCanonicalize (v2);
return (double) FcStrCmpIgnoreCase (FcValueString(v1), FcValueString(v2)) != 0;
}
static double
FcCompareFamily (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
/* rely on the guarantee in FcPatternObjectAddWithBinding that
* families are always FcTypeString. */
const FcChar8* v1_string = FcValueString(v1);
const FcChar8* v2_string = FcValueString(v2);
*bestValue = FcValueCanonicalize (v2);
if (FcToLower(*v1_string) != FcToLower(*v2_string) &&
*v1_string != ' ' && *v2_string != ' ')
return 1.0;
return (double) FcStrCmpIgnoreBlanksAndCase (v1_string, v2_string) != 0;
}
static double
FcComparePostScript (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
const FcChar8 *v1_string = FcValueString (v1);
const FcChar8 *v2_string = FcValueString (v2);
int n;
size_t len;
*bestValue = FcValueCanonicalize (v2);
if (FcToLower (*v1_string) != FcToLower (*v2_string) &&
*v1_string != ' ' && *v2_string != ' ')
return 1.0;
n = FcStrMatchIgnoreCaseAndDelims (v1_string, v2_string, (const FcChar8 *)" -");
len = strlen ((const char *)v1_string);
return (double)(len - n) / (double)len;
}
static double
FcCompareLang (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
FcLangResult result;
FcValue value1 = FcValueCanonicalize(v1), value2 = FcValueCanonicalize(v2);
switch ((int) value1.type) {
case FcTypeLangSet:
switch ((int) value2.type) {
case FcTypeLangSet:
result = FcLangSetCompare (value1.u.l, value2.u.l);
break;
case FcTypeString:
result = FcLangSetHasLang (value1.u.l,
value2.u.s);
break;
default:
return -1.0;
}
break;
case FcTypeString:
switch ((int) value2.type) {
case FcTypeLangSet:
result = FcLangSetHasLang (value2.u.l, value1.u.s);
break;
case FcTypeString:
result = FcLangCompare (value1.u.s,
value2.u.s);
break;
default:
return -1.0;
}
break;
default:
return -1.0;
}
*bestValue = FcValueCanonicalize (v2);
switch (result) {
case FcLangEqual:
return 0;
case FcLangDifferentCountry:
return 1;
case FcLangDifferentLang:
default:
return 2;
}
}
static double
FcCompareBool (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
if (v2->type != FcTypeBool || v1->type != FcTypeBool)
return -1.0;
if (v2->u.b != FcDontCare)
*bestValue = FcValueCanonicalize (v2);
else
*bestValue = FcValueCanonicalize (v1);
return (double) ((v2->u.b ^ v1->u.b) == 1);
}
static double
FcCompareCharSet (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
*bestValue = FcValueCanonicalize (v2); /* TODO Improve. */
return (double) FcCharSetSubtractCount (FcValueCharSet(v1), FcValueCharSet(v2));
}
static double
FcCompareRange (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
FcValue value1 = FcValueCanonicalize (v1);
FcValue value2 = FcValueCanonicalize (v2);
double b1, e1, b2, e2, d;
switch ((int) value1.type) {
case FcTypeInteger:
b1 = e1 = value1.u.i;
break;
case FcTypeDouble:
b1 = e1 = value1.u.d;
break;
case FcTypeRange:
b1 = value1.u.r->begin;
e1 = value1.u.r->end;
break;
default:
return -1;
}
switch ((int) value2.type) {
case FcTypeInteger:
b2 = e2 = value2.u.i;
break;
case FcTypeDouble:
b2 = e2 = value2.u.d;
break;
case FcTypeRange:
b2 = value2.u.r->begin;
e2 = value2.u.r->end;
break;
default:
return -1;
}
if (e1 < b2)
d = b2;
else if (e2 < b1)
d = e2;
else
d = (FC_MAX (b1, b2) + FC_MIN (e1, e2)) * .5;
bestValue->type = FcTypeDouble;
bestValue->u.d = d;
/* If the ranges overlap, it's a match, otherwise return closest distance. */
if (e1 < b2 || e2 < b1)
return FC_MIN (fabs (b2 - e1), fabs (b1 - e2));
else
return 0.0;
}
static double
FcCompareSize (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
FcValue value1 = FcValueCanonicalize (v1);
FcValue value2 = FcValueCanonicalize (v2);
double b1, e1, b2, e2;
switch ((int) value1.type) {
case FcTypeInteger:
b1 = e1 = value1.u.i;
break;
case FcTypeDouble:
b1 = e1 = value1.u.d;
break;
case FcTypeRange:
abort();
b1 = value1.u.r->begin;
e1 = value1.u.r->end;
break;
default:
return -1;
}
switch ((int) value2.type) {
case FcTypeInteger:
b2 = e2 = value2.u.i;
break;
case FcTypeDouble:
b2 = e2 = value2.u.d;
break;
case FcTypeRange:
b2 = value2.u.r->begin;
e2 = value2.u.r->end;
break;
default:
return -1;
}
bestValue->type = FcTypeDouble;
bestValue->u.d = (b1 + e1) * .5;
/* If the ranges overlap, it's a match, otherwise return closest distance. */
if (e1 < b2 || e2 < b1)
return FC_MIN (fabs (b2 - e1), fabs (b1 - e2));
if (b2 != e2 && b1 == e2) /* Semi-closed interval. */
return 1e-15;
else
return 0.0;
}
static double
FcCompareFilename (const FcValue *v1, const FcValue *v2, FcValue *bestValue)
{
const FcChar8 *s1 = FcValueString (v1), *s2 = FcValueString (v2);
*bestValue = FcValueCanonicalize (v2);
if (FcStrCmp (s1, s2) == 0)
return 0.0;
else if (FcStrCmpIgnoreCase (s1, s2) == 0)
return 1.0;
else if (FcStrGlobMatch (s1, s2))
return 2.0;
else
return 3.0;
}
/* Define priorities to -1 for objects that don't have a compare function. */
#define PRI_NULL(n) \
PRI_ ## n ## _STRONG = -1, \
PRI_ ## n ## _WEAK = -1,
#define PRI1(n)
#define PRI_FcCompareFamily(n) PRI1(n)
#define PRI_FcCompareString(n) PRI1(n)
#define PRI_FcCompareNumber(n) PRI1(n)
#define PRI_FcCompareBool(n) PRI1(n)
#define PRI_FcCompareFilename(n) PRI1(n)
#define PRI_FcCompareCharSet(n) PRI1(n)
#define PRI_FcCompareLang(n) PRI1(n)
#define PRI_FcComparePostScript(n) PRI1(n)
#define PRI_FcCompareRange(n) PRI1(n)
#define PRI_FcCompareSize(n) PRI1(n)
#define FC_OBJECT(NAME, Type, Cmp) PRI_##Cmp(NAME)
typedef enum _FcMatcherPriorityDummy {
#include "fcobjs.h"
} FcMatcherPriorityDummy;
#undef FC_OBJECT
/* Canonical match priority order. */
#undef PRI1
#define PRI1(n) \
PRI_ ## n, \
PRI_ ## n ## _STRONG = PRI_ ## n, \
PRI_ ## n ## _WEAK = PRI_ ## n
typedef enum _FcMatcherPriority {
PRI1(FILE),
PRI1(FONTFORMAT),
PRI1(VARIABLE),
PRI1(SCALABLE),
PRI1(COLOR),
PRI1(FOUNDRY),
PRI1(CHARSET),
PRI_FAMILY_STRONG,
PRI_POSTSCRIPT_NAME_STRONG,
PRI1(LANG),
PRI_FAMILY_WEAK,
PRI_POSTSCRIPT_NAME_WEAK,
PRI1(SYMBOL),
PRI1(SPACING),
PRI1(SIZE),
PRI1(PIXEL_SIZE),
PRI1(STYLE),
PRI1(SLANT),
PRI1(WEIGHT),
PRI1(WIDTH),
PRI1(FONT_HAS_HINT),
PRI1(DECORATIVE),
PRI1(ANTIALIAS),
PRI1(RASTERIZER),
PRI1(OUTLINE),
PRI1(ORDER),
PRI1(FONTVERSION),
PRI_END
} FcMatcherPriority;
#undef PRI1
typedef struct _FcMatcher {
FcObject object;
double (*compare) (const FcValue *v1, const FcValue *v2, FcValue *bestValue);
int strong, weak;
} FcMatcher;
/*
* Order is significant, it defines the precedence of
* each value, earlier values are more significant than
* later values
*/
#define FC_OBJECT(NAME, Type, Cmp) { FC_##NAME##_OBJECT, Cmp, PRI_##NAME##_STRONG, PRI_##NAME##_WEAK },
static const FcMatcher _FcMatchers [] = {
{ FC_INVALID_OBJECT, NULL, -1, -1 },
#include "fcobjs.h"
};
#undef FC_OBJECT
static const FcMatcher*
FcObjectToMatcher (FcObject object,
FcBool include_lang)
{
if (include_lang)
{
switch (object) {
case FC_FAMILYLANG_OBJECT:
case FC_STYLELANG_OBJECT:
case FC_FULLNAMELANG_OBJECT:
object = FC_LANG_OBJECT;
break;
}
}
if (object > FC_MAX_BASE_OBJECT ||
!_FcMatchers[object].compare ||
_FcMatchers[object].strong == -1 ||
_FcMatchers[object].weak == -1)
return NULL;
return _FcMatchers + object;
}
static FcBool
FcCompareValueList (FcObject object,
const FcMatcher *match,
FcValueListPtr v1orig, /* pattern */
FcValueListPtr v2orig, /* target */
FcValue *bestValue,
double *value,
int *n,
FcResult *result)
{
FcValueListPtr v1, v2;
double v, best, bestStrong, bestWeak;
int j, k, pos = 0;
int weak, strong;
if (!match)
{
if (bestValue)
*bestValue = FcValueCanonicalize(&v2orig->value);
if (n)
*n = 0;
return FcTrue;
}
weak = match->weak;
strong = match->strong;
best = 1e99;
bestStrong = 1e99;
bestWeak = 1e99;
for (v1 = v1orig, j = 0; v1; v1 = FcValueListNext(v1), j++)
{
for (v2 = v2orig, k = 0; v2; v2 = FcValueListNext(v2), k++)
{
FcValue matchValue;
v = (match->compare) (&v1->value, &v2->value, &matchValue);
if (v < 0)
{
*result = FcResultTypeMismatch;
return FcFalse;
}
v = v * 1000 + j;
if (v < best)
{
if (bestValue)
*bestValue = matchValue;
best = v;
pos = k;
}
if (weak == strong)
{
/* found the best possible match */
if (best < 1000)
goto done;
}
else if (v1->binding == FcValueBindingStrong)
{
if (v < bestStrong)
bestStrong = v;
}
else
{
if (v < bestWeak)
bestWeak = v;
}
}
}
done:
if (FcDebug () & FC_DBG_MATCHV)
{
printf (" %s: %g ", FcObjectName (object), best);
FcValueListPrint (v1orig);
printf (", ");
FcValueListPrint (v2orig);
printf ("\n");
}
if (value)
{
if (weak == strong)
value[strong] += best;
else
{
value[weak] += bestWeak;
value[strong] += bestStrong;
}
}
if (n)
*n = pos;
return FcTrue;
}
/* The bulk of the time in FcFontMatch and FcFontSort goes to
* walking long lists of family names. We speed this up with a
* hash table.
*/
typedef struct
{
double strong_value;
double weak_value;
} FamilyEntry;
typedef struct
{
FcHashTable *family_hash;
} FcCompareData;
static void
FcCompareDataClear (FcCompareData *data)
{
FcHashTableDestroy (data->family_hash);
}
static void
FcCompareDataInit (FcPattern *pat,
FcCompareData *data)
{
FcHashTable *table;
FcPatternElt *elt;
FcValueListPtr l;
int i;
const void *key;
FamilyEntry *e;
table = FcHashTableCreate ((FcHashFunc)FcStrHashIgnoreBlanksAndCase,
(FcCompareFunc)FcStrCmpIgnoreBlanksAndCase,
NULL,
NULL,
NULL,
free);
elt = FcPatternObjectFindElt (pat, FC_FAMILY_OBJECT);
for (l = FcPatternEltValues(elt), i = 0; l; l = FcValueListNext(l), i++)
{
key = FcValueString (&l->value);
if (!FcHashTableFind (table, key, (void **)&e))
{
e = malloc (sizeof (FamilyEntry));
e->strong_value = 1e99;
e->weak_value = 1e99;
FcHashTableAdd (table, (void *)key, e);
}
if (l->binding == FcValueBindingWeak)
{
if (i < e->weak_value)
e->weak_value = i;
}
else
{
if (i < e->strong_value)
e->strong_value = i;
}
}
data->family_hash = table;
}
static FcBool
FcCompareFamilies (FcPattern *pat,
FcValueListPtr v1orig,
FcPattern *fnt,
FcValueListPtr v2orig,
double *value,
FcResult *result,
FcHashTable *table)
{
FcValueListPtr v2;
double strong_value;
double weak_value;
const void *key;
FamilyEntry *e;
assert (table != NULL);
strong_value = 1e99;
weak_value = 1e99;
for (v2 = v2orig; v2; v2 = FcValueListNext(v2))
{
key = FcValueString (&v2->value);
if (FcHashTableFind (table, key, (void **)&e))
{
if (e->strong_value < strong_value)
strong_value = e->strong_value;
if (e->weak_value < weak_value)
weak_value = e->weak_value;
}
}
value[PRI_FAMILY_STRONG] = strong_value;
value[PRI_FAMILY_WEAK] = weak_value;
return FcTrue;
}
/*
* Return a value indicating the distance between the two lists of
* values
*/
static FcBool
FcCompare (FcPattern *pat,
FcPattern *fnt,
double *value,
FcResult *result,
FcCompareData *data)
{
int i, i1, i2;
for (i = 0; i < PRI_END; i++)
value[i] = 0.0;
i1 = 0;
i2 = 0;
while (i1 < pat->num && i2 < fnt->num)
{
FcPatternElt *elt_i1 = &FcPatternElts(pat)[i1];
FcPatternElt *elt_i2 = &FcPatternElts(fnt)[i2];
i = FcObjectCompare(elt_i1->object, elt_i2->object);
if (i > 0)
i2++;
else if (i < 0)
i1++;
else if (elt_i1->object == FC_FAMILY_OBJECT && data->family_hash)
{
if (!FcCompareFamilies (pat, FcPatternEltValues(elt_i1),
fnt, FcPatternEltValues(elt_i2),
value, result,
data->family_hash))
return FcFalse;
i1++;
i2++;
}
else
{
const FcMatcher *match = FcObjectToMatcher (elt_i1->object, FcFalse);
if (!FcCompareValueList (elt_i1->object, match,
FcPatternEltValues(elt_i1),
FcPatternEltValues(elt_i2),
NULL, value, NULL, result))
return FcFalse;
i1++;
i2++;
}
}
return FcTrue;
}
FcPattern *
FcFontRenderPrepare (FcConfig *config,
FcPattern *pat,
FcPattern *font)
{
FcPattern *new;
int i;
FcPatternElt *fe, *pe;
FcValue v;
FcResult result;
FcBool variable = FcFalse;
FcStrBuf variations;
assert (pat != NULL);
assert (font != NULL);
FcPatternObjectGetBool (font, FC_VARIABLE_OBJECT, 0, &variable);
assert (variable != FcDontCare);
if (variable)
FcStrBufInit (&variations, NULL, 0);
new = FcPatternCreate ();
if (!new)
return NULL;
for (i = 0; i < font->num; i++)
{
fe = &FcPatternElts(font)[i];
if (fe->object == FC_FAMILYLANG_OBJECT ||
fe->object == FC_STYLELANG_OBJECT ||
fe->object == FC_FULLNAMELANG_OBJECT)
{
/* ignore those objects. we need to deal with them
* another way */
continue;
}
if (fe->object == FC_FAMILY_OBJECT ||
fe->object == FC_STYLE_OBJECT ||
fe->object == FC_FULLNAME_OBJECT)
{
FcPatternElt *fel, *pel;
FC_ASSERT_STATIC ((FC_FAMILY_OBJECT + 1) == FC_FAMILYLANG_OBJECT);
FC_ASSERT_STATIC ((FC_STYLE_OBJECT + 1) == FC_STYLELANG_OBJECT);
FC_ASSERT_STATIC ((FC_FULLNAME_OBJECT + 1) == FC_FULLNAMELANG_OBJECT);
fel = FcPatternObjectFindElt (font, fe->object + 1);
pel = FcPatternObjectFindElt (pat, fe->object + 1);
if (fel && pel)
{
/* The font has name languages, and pattern asks for specific language(s).
* Match on language and and prefer that result.
* Note: Currently the code only give priority to first matching language.
*/
int n = 1, j;
FcValueListPtr l1, l2, ln = NULL, ll = NULL;
const FcMatcher *match = FcObjectToMatcher (pel->object, FcTrue);
if (!FcCompareValueList (pel->object, match,
FcPatternEltValues (pel),
FcPatternEltValues (fel), NULL, NULL, &n, &result))
{
FcPatternDestroy (new);
return NULL;
}
for (j = 0, l1 = FcPatternEltValues (fe), l2 = FcPatternEltValues (fel);
l1 != NULL || l2 != NULL;
j++, l1 = l1 ? FcValueListNext (l1) : NULL, l2 = l2 ? FcValueListNext (l2) : NULL)
{
if (j == n)
{
if (l1)
ln = FcValueListPrepend (ln,
FcValueCanonicalize (&l1->value),
FcValueBindingStrong);
if (l2)
ll = FcValueListPrepend (ll,
FcValueCanonicalize (&l2->value),
FcValueBindingStrong);
}
else
{
if (l1)
ln = FcValueListAppend (ln,
FcValueCanonicalize (&l1->value),
FcValueBindingStrong);
if (l2)
ll = FcValueListAppend (ll,
FcValueCanonicalize (&l2->value),
FcValueBindingStrong);
}
}
FcPatternObjectListAdd (new, fe->object, ln, FcFalse);
FcPatternObjectListAdd (new, fel->object, ll, FcFalse);
continue;
}
else if (fel)
{
/* Pattern doesn't ask for specific language. Copy all for name and
* lang. */
FcValueListPtr l1, l2;
l1 = FcValueListDuplicate (FcPatternEltValues (fe));
l2 = FcValueListDuplicate (FcPatternEltValues (fel));
FcPatternObjectListAdd (new, fe->object, l1, FcFalse);
FcPatternObjectListAdd (new, fel->object, l2, FcFalse);
continue;
}
}
pe = FcPatternObjectFindElt (pat, fe->object);
if (pe)
{
const FcMatcher *match = FcObjectToMatcher (pe->object, FcFalse);
if (!FcCompareValueList (pe->object, match,
FcPatternEltValues(pe),
FcPatternEltValues(fe), &v, NULL, NULL, &result))
{
FcPatternDestroy (new);
return NULL;
}
FcPatternObjectAdd (new, fe->object, v, FcFalse);
/* Set font-variations settings for standard axes in variable fonts. */
if (variable &&
FcPatternEltValues(fe)->value.type == FcTypeRange &&
(fe->object == FC_WEIGHT_OBJECT ||
fe->object == FC_WIDTH_OBJECT ||
fe->object == FC_SIZE_OBJECT))
{
double num;
FcChar8 temp[128];
const char *tag = " ";
assert (v.type == FcTypeDouble);
num = v.u.d;
if (variations.len)
FcStrBufChar (&variations, ',');
switch (fe->object)
{
case FC_WEIGHT_OBJECT:
tag = "wght";
num = FcWeightToOpenType (num);
break;
case FC_WIDTH_OBJECT:
tag = "wdth";
break;
case FC_SIZE_OBJECT:
tag = "opsz";
break;
}
sprintf ((char *) temp, "%4s=%g", tag, num);
FcStrBufString (&variations, temp);
}
}
else
{
FcPatternObjectListAdd (new, fe->object,
FcValueListDuplicate (FcPatternEltValues (fe)),
FcTrue);
}
}
for (i = 0; i < pat->num; i++)
{
pe = &FcPatternElts(pat)[i];
fe = FcPatternObjectFindElt (font, pe->object);
if (!fe &&
pe->object != FC_FAMILYLANG_OBJECT &&
pe->object != FC_STYLELANG_OBJECT &&
pe->object != FC_FULLNAMELANG_OBJECT)
{
FcPatternObjectListAdd (new, pe->object,
FcValueListDuplicate (FcPatternEltValues(pe)),
FcFalse);
}
}
if (variable && variations.len)
{
FcChar8 *vars = NULL;
if (FcPatternObjectGetString (new, FC_FONT_VARIATIONS_OBJECT, 0, &vars) == FcResultMatch)
{
FcStrBufChar (&variations, ',');
FcStrBufString (&variations, vars);
FcPatternObjectDel (new, FC_FONT_VARIATIONS_OBJECT);
}
FcPatternObjectAddString (new, FC_FONT_VARIATIONS_OBJECT, FcStrBufDoneStatic (&variations));
FcStrBufDestroy (&variations);
}
FcConfigSubstituteWithPat (config, new, pat, FcMatchFont);
return new;
}
static FcPattern *
FcFontSetMatchInternal (FcFontSet **sets,
int nsets,
FcPattern *p,
FcResult *result)
{
double score[PRI_END], bestscore[PRI_END];
int f;
FcFontSet *s;
FcPattern *best;
int i;
int set;
FcCompareData data;
for (i = 0; i < PRI_END; i++)
bestscore[i] = 0;
best = 0;
if (FcDebug () & FC_DBG_MATCH)
{
printf ("Match ");
FcPatternPrint (p);
}
FcCompareDataInit (p, &data);
for (set = 0; set < nsets; set++)
{
s = sets[set];
if (!s)
continue;
for (f = 0; f < s->nfont; f++)
{
if (FcDebug () & FC_DBG_MATCHV)
{
printf ("Font %d ", f);
FcPatternPrint (s->fonts[f]);
}
if (!FcCompare (p, s->fonts[f], score, result, &data))
{
FcCompareDataClear (&data);
return 0;
}
if (FcDebug () & FC_DBG_MATCHV)
{
printf ("Score");
for (i = 0; i < PRI_END; i++)
{
printf (" %g", score[i]);
}
printf ("\n");
}
for (i = 0; i < PRI_END; i++)
{
if (best && bestscore[i] < score[i])
break;
if (!best || score[i] < bestscore[i])
{
for (i = 0; i < PRI_END; i++)
bestscore[i] = score[i];
best = s->fonts[f];
break;
}
}
}
}
FcCompareDataClear (&data);
if (FcDebug () & FC_DBG_MATCH)
{
printf ("Best score");
for (i = 0; i < PRI_END; i++)
printf (" %g", bestscore[i]);
printf ("\n");
FcPatternPrint (best);
}
if (FcDebug () & FC_DBG_MATCH2)
{
char *env = getenv ("FC_DBG_MATCH_FILTER");
FcObjectSet *os = NULL;
if (env)
{
char *ss, *s;
char *p;
FcBool f = FcTrue;
ss = s = strdup (env);
os = FcObjectSetCreate ();
while (f)
{
size_t len;
char *x;
if (!(p = strchr (s, ',')))
{
f = FcFalse;
len = strlen (s);
}
else
{
len = (p - s);
}
x = malloc (sizeof (char) * (len + 1));
if (x)
{
strcpy (x, s);
if (FcObjectFromName (x) > 0)
FcObjectSetAdd (os, x);
s = p + 1;
free (x);
}
}
free (ss);
}
FcPatternPrint2 (p, best, os);
if (os)
FcObjectSetDestroy (os);
}
/* assuming that 'result' is initialized with FcResultNoMatch
* outside this function */
if (best)
*result = FcResultMatch;
return best;
}
FcPattern *
FcFontSetMatch (FcConfig *config,
FcFontSet **sets,
int nsets,
FcPattern *p,
FcResult *result)
{
FcPattern *best, *ret = NULL;
assert (sets != NULL);
assert (p != NULL);
assert (result != NULL);
*result = FcResultNoMatch;
config = FcConfigReference (config);
if (!config)
return NULL;
best = FcFontSetMatchInternal (sets, nsets, p, result);
if (best)
ret = FcFontRenderPrepare (config, p, best);
FcConfigDestroy (config);
return ret;
}
FcPattern *
FcFontMatch (FcConfig *config,
FcPattern *p,
FcResult *result)
{
FcFontSet *sets[2];
int nsets;
FcPattern *best, *ret = NULL;
assert (p != NULL);
assert (result != NULL);
*result = FcResultNoMatch;
config = FcConfigReference (config);
if (!config)
return NULL;
nsets = 0;
if (config->fonts[FcSetSystem])
sets[nsets++] = config->fonts[FcSetSystem];
if (config->fonts[FcSetApplication])
sets[nsets++] = config->fonts[FcSetApplication];
best = FcFontSetMatchInternal (sets, nsets, p, result);
if (best)
ret = FcFontRenderPrepare (config, p, best);
FcConfigDestroy (config);
return ret;
}
typedef struct _FcSortNode {
FcPattern *pattern;
double score[PRI_END];
} FcSortNode;
static int
FcSortCompare (const void *aa, const void *ab)
{
FcSortNode *a = *(FcSortNode **) aa;
FcSortNode *b = *(FcSortNode **) ab;
double *as = &a->score[0];
double *bs = &b->score[0];
double ad = 0, bd = 0;
int i;
i = PRI_END;
while (i-- && (ad = *as++) == (bd = *bs++))
;
return ad < bd ? -1 : ad > bd ? 1 : 0;
}
static FcBool
FcSortWalk (FcSortNode **n, int nnode, FcFontSet *fs, FcCharSet **csp, FcBool trim)
{
FcBool ret = FcFalse;
FcCharSet *cs;
int i;
cs = 0;
if (trim || csp)
{
cs = FcCharSetCreate ();
if (cs == NULL)
goto bail;
}
for (i = 0; i < nnode; i++)
{
FcSortNode *node = *n++;
FcBool adds_chars = FcFalse;
/*
* Only fetch node charset if we'd need it
*/
if (cs)
{
FcCharSet *ncs;
if (FcPatternGetCharSet (node->pattern, FC_CHARSET, 0, &ncs) !=
FcResultMatch)
continue;
if (!FcCharSetMerge (cs, ncs, &adds_chars))
goto bail;
}
/*
* If this font isn't a subset of the previous fonts,
* add it to the list
*/
if (!i || !trim || adds_chars)
{
FcPatternReference (node->pattern);
if (FcDebug () & FC_DBG_MATCHV)
{
printf ("Add ");
FcPatternPrint (node->pattern);
}
if (!FcFontSetAdd (fs, node->pattern))
{
FcPatternDestroy (node->pattern);
goto bail;
}
}
}
if (csp)
{
*csp = cs;
cs = 0;
}
ret = FcTrue;
bail:
if (cs)
FcCharSetDestroy (cs);
return ret;
}
void
FcFontSetSortDestroy (FcFontSet *fs)
{
FcFontSetDestroy (fs);
}
FcFontSet *
FcFontSetSort (FcConfig *config FC_UNUSED,
FcFontSet **sets,
int nsets,
FcPattern *p,
FcBool trim,
FcCharSet **csp,
FcResult *result)
{
FcFontSet *ret;
FcFontSet *s;
FcSortNode *nodes;
FcSortNode **nodeps, **nodep;
int nnodes;
FcSortNode *new;
int set;
int f;
int i;
int nPatternLang;
FcBool *patternLangSat;
FcValue patternLang;
FcCompareData data;
assert (sets != NULL);
assert (p != NULL);
assert (result != NULL);
/* There are some implementation that relying on the result of
* "result" to check if the return value of FcFontSetSort
* is valid or not.
* So we should initialize it to the conservative way since
* this function doesn't return NULL anymore.
*/
if (result)
*result = FcResultNoMatch;
if (FcDebug () & FC_DBG_MATCH)
{
printf ("Sort ");
FcPatternPrint (p);
}
nnodes = 0;
for (set = 0; set < nsets; set++)
{
s = sets[set];
if (!s)
continue;
nnodes += s->nfont;
}
if (!nnodes)
return FcFontSetCreate ();
for (nPatternLang = 0;
FcPatternGet (p, FC_LANG, nPatternLang, &patternLang) == FcResultMatch;
nPatternLang++)
;
/* freed below */
nodes = malloc (nnodes * sizeof (FcSortNode) +
nnodes * sizeof (FcSortNode *) +
nPatternLang * sizeof (FcBool));
if (!nodes)
goto bail0;
nodeps = (FcSortNode **) (nodes + nnodes);
patternLangSat = (FcBool *) (nodeps + nnodes);
FcCompareDataInit (p, &data);
new = nodes;
nodep = nodeps;
for (set = 0; set < nsets; set++)
{
s = sets[set];
if (!s)
continue;
for (f = 0; f < s->nfont; f++)
{
if (FcDebug () & FC_DBG_MATCHV)
{
printf ("Font %d ", f);
FcPatternPrint (s->fonts[f]);
}
new->pattern = s->fonts[f];
if (!FcCompare (p, new->pattern, new->score, result, &data))
goto bail1;
if (FcDebug () & FC_DBG_MATCHV)
{
printf ("Score");
for (i = 0; i < PRI_END; i++)
{
printf (" %g", new->score[i]);
}
printf ("\n");
}
*nodep = new;
new++;
nodep++;
}
}
FcCompareDataClear (&data);
nnodes = new - nodes;
qsort (nodeps, nnodes, sizeof (FcSortNode *),
FcSortCompare);
for (i = 0; i < nPatternLang; i++)
patternLangSat[i] = FcFalse;
for (f = 0; f < nnodes; f++)
{
FcBool satisfies = FcFalse;
/*
* If this node matches any language, go check
* which ones and satisfy those entries
*/
if (nodeps[f]->score[PRI_LANG] < 2000)
{
for (i = 0; i < nPatternLang; i++)
{
FcValue nodeLang;
if (!patternLangSat[i] &&
FcPatternGet (p, FC_LANG, i, &patternLang) == FcResultMatch &&
FcPatternGet (nodeps[f]->pattern, FC_LANG, 0, &nodeLang) == FcResultMatch)
{
FcValue matchValue;
double compare = FcCompareLang (&patternLang, &nodeLang, &matchValue);
if (compare >= 0 && compare < 2)
{
if (FcDebug () & FC_DBG_MATCHV)
{
FcChar8 *family;
FcChar8 *style;
if (FcPatternGetString (nodeps[f]->pattern, FC_FAMILY, 0, &family) == FcResultMatch &&
FcPatternGetString (nodeps[f]->pattern, FC_STYLE, 0, &style) == FcResultMatch)
printf ("Font %s:%s matches language %d\n", family, style, i);
}
patternLangSat[i] = FcTrue;
satisfies = FcTrue;
break;
}
}
}
}
if (!satisfies)
{
nodeps[f]->score[PRI_LANG] = 10000.0;
}
}
/*
* Re-sort once the language issues have been settled
*/
qsort (nodeps, nnodes, sizeof (FcSortNode *),
FcSortCompare);
ret = FcFontSetCreate ();
if (!ret)
goto bail1;
if (!FcSortWalk (nodeps, nnodes, ret, csp, trim))
goto bail2;
free (nodes);
if (FcDebug() & FC_DBG_MATCH)
{
printf ("First font ");
FcPatternPrint (ret->fonts[0]);
}
if (ret->nfont > 0)
*result = FcResultMatch;
return ret;
bail2:
FcFontSetDestroy (ret);
bail1:
free (nodes);
bail0:
return 0;
}
FcFontSet *
FcFontSort (FcConfig *config,
FcPattern *p,
FcBool trim,
FcCharSet **csp,
FcResult *result)
{
FcFontSet *sets[2], *ret;
int nsets;
assert (p != NULL);
assert (result != NULL);
*result = FcResultNoMatch;
config = FcConfigReference (config);
if (!config)
return NULL;
nsets = 0;
if (config->fonts[FcSetSystem])
sets[nsets++] = config->fonts[FcSetSystem];
if (config->fonts[FcSetApplication])
sets[nsets++] = config->fonts[FcSetApplication];
ret = FcFontSetSort (config, sets, nsets, p, trim, csp, result);
FcConfigDestroy (config);
return ret;
}
#define __fcmatch__
#include "fcaliastail.h"
#undef __fcmatch__