gchar* find_font_with_property (FcConfig* fontconfig, const gchar* characters, const gchar* property) {
FcPattern* pattern;
FcCharSet* character_set;
FcObjectSet* font_properties;
FcFontSet* fonts;
FcPattern* font;
FcChar8* path;
gchar* result;
gchar* remaining_characters;
gunichar character;
if (fontconfig == NULL) {
g_warning("Font config not loaded.");
return NULL;
}
result = NULL;
pattern = FcPatternCreate ();
character_set = FcCharSetCreate ();
remaining_characters = (gchar*) characters;
while (TRUE) {
character = g_utf8_get_char (remaining_characters);
if (character == '\0') {
break;
}
FcCharSetAddChar(character_set, character);
remaining_characters = g_utf8_next_char (remaining_characters);
}
FcPatternAddCharSet (pattern, FC_CHARSET, character_set);
FcCharSetDestroy (character_set);
FcPatternAddInteger (pattern, FC_SLANT, FC_SLANT_ROMAN);
FcPatternAddBool(pattern, FC_SCALABLE, FcTrue);
font_properties = FcObjectSetBuild (property, NULL);
fonts = FcFontList (fontconfig, pattern, font_properties);
if (fonts && fonts->nfont > 0) {
font = fonts->fonts[0];
if (FcPatternGetString(font, property, 0, &path) == FcResultMatch) {
result = g_strdup ((gchar*) path);
}
}
if (fonts) {
FcFontSetDestroy(fonts);
}
if (pattern) {
FcPatternDestroy(pattern);
}
return result;
}
FcPattern* BC_Resources::find_similar_font(FT_ULong char_code, FcPattern *oldfont)
{
FcPattern *pat, *font;
FcFontSet *fs;
FcObjectSet *os;
FcCharSet *fcs;
FcChar8 *file;
double dval;
int ival;
// Do not search control codes
if(char_code < ' ')
return 0;
fontconfig_lock.lock("BC_Resources::find_similar_font");
pat = FcPatternCreate();
os = FcObjectSetBuild(FC_FILE, FC_CHARSET, FC_SCALABLE, FC_FAMILY,
FC_SLANT, FC_WEIGHT, FC_WIDTH, (char *)0);
FcPatternAddBool(pat, FC_SCALABLE, true);
fcs = FcCharSetCreate();
if(FcCharSetAddChar(fcs, char_code))
FcPatternAddCharSet(pat, FC_CHARSET, fcs);
FcCharSetDestroy(fcs);
for(int i = 0; i < LEN_FCPROP; i++)
{
if(FcPatternGetInteger(oldfont, fc_properties[i], 0, &ival) == FcResultMatch)
FcPatternAddInteger(pat, fc_properties[i], ival);
}
fs = FcFontList(0, pat, os);
for(int i = LEN_FCPROP - 1; i >= 0 && fs->nfont == 0; i--)
{
FcFontSetDestroy(fs);
FcPatternDel(pat, fc_properties[i]);
fs = FcFontList(0, pat, os);
}
FcPatternDestroy(pat);
FcObjectSetDestroy(os);
pat = 0;
for (int i = 0; i < fs->nfont; i++)
{
font = fs->fonts[i];
if(FcPatternGetCharSet(font, FC_CHARSET, 0, &fcs) == FcResultMatch)
{
if(FcCharSetHasChar(fcs, char_code))
{
pat = FcPatternDuplicate(font);
break;
}
}
}
FcFontSetDestroy(fs);
fontconfig_lock.unlock();
return pat;
}
static String getFontFamilyForCharacters(const UChar* characters, size_t numCharacters)
{
FcCharSet* cset = FcCharSetCreate();
for (size_t i = 0; i < numCharacters; ++i) {
if (U16_IS_SURROGATE(characters[i])
&& U16_IS_SURROGATE_LEAD(characters[i])
&& i != numCharacters - 1
&& U16_IS_TRAIL(characters[i + 1])) {
if (FcCharSetAddChar(cset, U16_GET_SUPPLEMENTARY(characters[i], characters[i+1])) == FcFalse)
return String();
i++;
} else
if (FcCharSetAddChar(cset, characters[i]) == FcFalse)
return String();
}
FcPattern *pattern = FcPatternCreate();
FcPatternAddCharSet(pattern, FC_CHARSET, cset);
FcConfigSubstitute(0, pattern, FcMatchPattern);
FcDefaultSubstitute(pattern);
FcResult result;
FcPattern *match = FcFontMatch(0, pattern, &result);
FcChar8 *filename;
if (FcPatternGetString(match, FC_FILE, 0, &filename) != FcResultMatch) {
FcCharSetDestroy(cset);
FcPatternDestroy(match);
FcPatternDestroy(pattern);
return String();
}
FcChar8* family;
if (FcPatternGetString(match, FC_FAMILY, 0, &family) == FcResultMatch) {
FcCharSetDestroy(cset);
FcPatternDestroy(match);
FcPatternDestroy(pattern);
const char* charFamily = reinterpret_cast<char*>(family);
return String(charFamily);
}
FcPatternDestroy(match);
FcCharSetDestroy(cset);
FcPatternDestroy(pattern);
return String();
}
static RefPtr<FcPattern> createFontConfigPatternForCharacters(const UChar* characters, int bufferLength)
{
RefPtr<FcPattern> pattern = adoptRef(FcPatternCreate());
FcUniquePtr<FcCharSet> fontConfigCharSet(FcCharSetCreate());
UTF16UChar32Iterator iterator(characters, bufferLength);
UChar32 character = iterator.next();
while (character != iterator.end()) {
FcCharSetAddChar(fontConfigCharSet.get(), character);
character = iterator.next();
}
FcPatternAddCharSet(pattern.get(), FC_CHARSET, fontConfigCharSet.get());
FcPatternAddBool(pattern.get(), FC_SCALABLE, FcTrue);
FcConfigSubstitute(nullptr, pattern.get(), FcMatchPattern);
FcDefaultSubstitute(pattern.get());
return pattern;
}
FcPattern* createFontConfigPatternForCharacters(const UChar* characters, int bufferLength)
{
FcPattern* pattern = FcPatternCreate();
FcCharSet* fontConfigCharSet = FcCharSetCreate();
UTF16UChar32Iterator iterator(characters, bufferLength);
UChar32 character = iterator.next();
while (character != iterator.end()) {
FcCharSetAddChar(fontConfigCharSet, character);
character = iterator.next();
}
FcPatternAddCharSet(pattern, FC_CHARSET, fontConfigCharSet);
FcCharSetDestroy(fontConfigCharSet);
FcPatternAddBool(pattern, FC_SCALABLE, FcTrue);
FcConfigSubstitute(0, pattern, FcMatchPattern);
FcDefaultSubstitute(pattern);
return pattern;
}
FcPattern* createFontConfigPatternForCharacters(const UChar* characters, int length)
{
FcPattern* pattern = FcPatternCreate();
FcCharSet* fontConfigCharSet = FcCharSetCreate();
for (int i = 0; i < length; ++i) {
if (U16_IS_SURROGATE(characters[i]) && U16_IS_SURROGATE_LEAD(characters[i])
&& i != length - 1 && U16_IS_TRAIL(characters[i + 1])) {
FcCharSetAddChar(fontConfigCharSet, U16_GET_SUPPLEMENTARY(characters[i], characters[i+1]));
i++;
} else
FcCharSetAddChar(fontConfigCharSet, characters[i]);
}
FcPatternAddCharSet(pattern, FC_CHARSET, fontConfigCharSet);
FcCharSetDestroy(fontConfigCharSet);
FcPatternAddBool(pattern, FC_SCALABLE, FcTrue);
FcConfigSubstitute(0, pattern, FcMatchPattern);
FcDefaultSubstitute(pattern);
return pattern;
}
static inline XftFont *
get_font(Display *xdisplay, FT_Face face, gint size, FcCharSet *charset)
{
FcPattern *pattern;
XftFont *font;
int screen = DefaultScreen (xdisplay);
pattern = FcPatternBuild(NULL,
FC_FT_FACE, FcTypeFTFace, face,
FC_PIXEL_SIZE, FcTypeDouble, (double)size,
NULL);
if (charset)
FcPatternAddCharSet (pattern, "charset", charset);
FcConfigSubstitute (NULL, pattern, FcMatchPattern);
XftDefaultSubstitute (xdisplay, screen, pattern);
font = XftFontOpenPattern(xdisplay, pattern);
return font;
}
static Lisp_Object
xftfont_open (struct frame *f, Lisp_Object entity, int pixel_size)
{
FcResult result;
Display *display = FRAME_X_DISPLAY (f);
Lisp_Object val, filename, idx, font_object;
FcPattern *pat = NULL, *match;
struct xftfont_info *xftfont_info = NULL;
struct font *font;
double size = 0;
XftFont *xftfont = NULL;
int spacing;
char name[256];
int len, i;
XGlyphInfo extents;
FT_Face ft_face;
FcMatrix *matrix;
val = assq_no_quit (QCfont_entity, AREF (entity, FONT_EXTRA_INDEX));
if (! CONSP (val))
return Qnil;
val = XCDR (val);
filename = XCAR (val);
idx = XCDR (val);
size = XINT (AREF (entity, FONT_SIZE_INDEX));
if (size == 0)
size = pixel_size;
pat = FcPatternCreate ();
FcPatternAddInteger (pat, FC_WEIGHT, FONT_WEIGHT_NUMERIC (entity));
i = FONT_SLANT_NUMERIC (entity) - 100;
if (i < 0) i = 0;
FcPatternAddInteger (pat, FC_SLANT, i);
FcPatternAddInteger (pat, FC_WIDTH, FONT_WIDTH_NUMERIC (entity));
FcPatternAddDouble (pat, FC_PIXEL_SIZE, pixel_size);
val = AREF (entity, FONT_FAMILY_INDEX);
if (! NILP (val))
FcPatternAddString (pat, FC_FAMILY, (FcChar8 *) SDATA (SYMBOL_NAME (val)));
val = AREF (entity, FONT_FOUNDRY_INDEX);
if (! NILP (val))
FcPatternAddString (pat, FC_FOUNDRY, (FcChar8 *) SDATA (SYMBOL_NAME (val)));
val = AREF (entity, FONT_SPACING_INDEX);
if (! NILP (val))
FcPatternAddInteger (pat, FC_SPACING, XINT (val));
val = AREF (entity, FONT_DPI_INDEX);
if (! NILP (val))
{
double dbl = XINT (val);
FcPatternAddDouble (pat, FC_DPI, dbl);
}
val = AREF (entity, FONT_AVGWIDTH_INDEX);
if (INTEGERP (val) && XINT (val) == 0)
FcPatternAddBool (pat, FC_SCALABLE, FcTrue);
/* This is necessary to identify the exact font (e.g. 10x20.pcf.gz
over 10x20-ISO8859-1.pcf.gz). */
FcPatternAddCharSet (pat, FC_CHARSET, ftfont_get_fc_charset (entity));
xftfont_add_rendering_parameters (pat, entity);
FcPatternAddString (pat, FC_FILE, (FcChar8 *) SDATA (filename));
FcPatternAddInteger (pat, FC_INDEX, XINT (idx));
block_input ();
/* Make sure that the Xrender extension is added before the Xft one.
Otherwise, the close-display hook set by Xft is called after the
one for Xrender, and the former tries to re-add the latter. This
results in inconsistency of internal states and leads to X
protocol error when one reconnects to the same X server.
(Bug#1696) */
{
int event_base, error_base;
XRenderQueryExtension (display, &event_base, &error_base);
}
/* Substitute in values from X resources and XftDefaultSet. */
XftDefaultSubstitute (display, FRAME_X_SCREEN_NUMBER (f), pat);
match = XftFontMatch (display, FRAME_X_SCREEN_NUMBER (f), pat, &result);
xftfont_fix_match (pat, match);
FcPatternDestroy (pat);
xftfont = XftFontOpenPattern (display, match);
if (!xftfont)
{
unblock_input ();
XftPatternDestroy (match);
return Qnil;
}
ft_face = XftLockFace (xftfont);
unblock_input ();
/* We should not destroy PAT here because it is kept in XFTFONT and
destroyed automatically when XFTFONT is closed. */
font_object = font_make_object (VECSIZE (struct xftfont_info), entity, size);
ASET (font_object, FONT_TYPE_INDEX, Qxft);
len = font_unparse_xlfd (entity, size, name, 256);
if (len > 0)
ASET (font_object, FONT_NAME_INDEX, make_string (name, len));
len = font_unparse_fcname (entity, size, name, 256);
if (len > 0)
ASET (font_object, FONT_FULLNAME_INDEX, make_string (name, len));
else
ASET (font_object, FONT_FULLNAME_INDEX,
AREF (font_object, FONT_NAME_INDEX));
ASET (font_object, FONT_FILE_INDEX, filename);
ASET (font_object, FONT_FORMAT_INDEX,
ftfont_font_format (xftfont->pattern, filename));
font = XFONT_OBJECT (font_object);
font->pixel_size = size;
font->driver = &xftfont_driver;
font->encoding_charset = font->repertory_charset = -1;
xftfont_info = (struct xftfont_info *) font;
xftfont_info->display = display;
xftfont_info->xftfont = xftfont;
/* This means that there's no need of transformation. */
xftfont_info->matrix.xx = 0;
if (FcPatternGetMatrix (xftfont->pattern, FC_MATRIX, 0, &matrix)
== FcResultMatch)
{
xftfont_info->matrix.xx = 0x10000L * matrix->xx;
xftfont_info->matrix.yy = 0x10000L * matrix->yy;
xftfont_info->matrix.xy = 0x10000L * matrix->xy;
xftfont_info->matrix.yx = 0x10000L * matrix->yx;
}
if (INTEGERP (AREF (entity, FONT_SPACING_INDEX)))
spacing = XINT (AREF (entity, FONT_SPACING_INDEX));
else
spacing = FC_PROPORTIONAL;
if (! ascii_printable[0])
{
int ch;
for (ch = 0; ch < 95; ch++)
ascii_printable[ch] = ' ' + ch;
}
block_input ();
/* Unfortunately Xft doesn't provide a way to get minimum char
width. So, we set min_width to space_width. */
if (spacing != FC_PROPORTIONAL
#ifdef FC_DUAL
&& spacing != FC_DUAL
#endif /* FC_DUAL */
)
{
font->min_width = font->max_width = font->average_width
= font->space_width = xftfont->max_advance_width;
XftTextExtents8 (display, xftfont, ascii_printable + 1, 94, &extents);
}
else
{
XftTextExtents8 (display, xftfont, ascii_printable, 1, &extents);
font->min_width = font->max_width = font->space_width
= extents.xOff;
if (font->space_width <= 0)
/* dirty workaround */
font->space_width = pixel_size;
XftTextExtents8 (display, xftfont, ascii_printable + 1, 94, &extents);
font->average_width = (font->space_width + extents.xOff) / 95;
}
unblock_input ();
font->ascent = xftfont->ascent;
font->descent = xftfont->descent;
if (pixel_size >= 5)
{
/* The above condition is a dirty workaround because
XftTextExtents8 behaves strangely for some fonts
(e.g. "Dejavu Sans Mono") when pixel_size is less than 5. */
if (font->ascent < extents.y)
font->ascent = extents.y;
if (font->descent < extents.height - extents.y)
font->descent = extents.height - extents.y;
}
font->height = font->ascent + font->descent;
if (XINT (AREF (entity, FONT_SIZE_INDEX)) == 0)
{
int upEM = ft_face->units_per_EM;
font->underline_position = -ft_face->underline_position * size / upEM;
font->underline_thickness = ft_face->underline_thickness * size / upEM;
if (font->underline_thickness > 2)
font->underline_position -= font->underline_thickness / 2;
}
else
{
font->underline_position = -1;
font->underline_thickness = 0;
}
#ifdef HAVE_LIBOTF
xftfont_info->maybe_otf = (ft_face->face_flags & FT_FACE_FLAG_SFNT) != 0;
xftfont_info->otf = NULL;
#endif /* HAVE_LIBOTF */
xftfont_info->ft_size = ft_face->size;
font->baseline_offset = 0;
font->relative_compose = 0;
font->default_ascent = 0;
font->vertical_centering = 0;
#ifdef FT_BDF_H
if (! (ft_face->face_flags & FT_FACE_FLAG_SFNT))
{
BDF_PropertyRec rec;
if (FT_Get_BDF_Property (ft_face, "_MULE_BASELINE_OFFSET", &rec) == 0
&& rec.type == BDF_PROPERTY_TYPE_INTEGER)
font->baseline_offset = rec.u.integer;
if (FT_Get_BDF_Property (ft_face, "_MULE_RELATIVE_COMPOSE", &rec) == 0
&& rec.type == BDF_PROPERTY_TYPE_INTEGER)
font->relative_compose = rec.u.integer;
if (FT_Get_BDF_Property (ft_face, "_MULE_DEFAULT_ASCENT", &rec) == 0
&& rec.type == BDF_PROPERTY_TYPE_INTEGER)
font->default_ascent = rec.u.integer;
}
#endif
return font_object;
}
/**
* grx_font_load_full:
* @family: (nullable): the font family name or %NULL
* @size: the preferred size in points or -1 for any size
* @dpi: the screen resolution or -1 to ignore dpi
* @weight: the font weight (e.g. bold) or -1 for any weight
* @slant: the font slant (e.g. italic) or -1 for any slant
* @width: the font width (e.g. narrow) or -1 for any width
* @monospace: set to %TRUE to prefer a monospace font
* @lang: (nullable): a RFC-3066-style language code or %NULL
* @script: (nullable): an ISO 15924 script code or %NULL
* @err: pointer to hold an error
*
* Loads the font that best matches the parameters.
*
* Uses fontconfig for font matching.
*
* Returns: (transfer full) (nullable): the font or %NULL if there was an error
*/
GrxFont *grx_font_load_full(const gchar *family, gint size, gint dpi,
GrxFontWeight weight, GrxFontSlant slant,
GrxFontWidth width, gboolean monospace,
const gchar *lang, const gchar *script, GError **err)
{
FcPattern *pattern, *match;
FcResult result;
GrxFont *font;
FcChar8 *file;
if (!FcInit()) {
g_set_error_literal(err, GRX_ERROR, GRX_ERROR_FONT_ERROR,
"Failed to init fontconfig");
return NULL;
}
pattern = FcPatternCreate();
FcPatternAddBool(pattern, FC_SCALABLE, FcFalse);
FcPatternAddBool(pattern, FC_OUTLINE, FcFalse);
FcPatternAddString(pattern, FC_FONTFORMAT, (FcChar8 *)"PCF");
if (family) {
FcPatternAddString(pattern, FC_FAMILY, (FcChar8 *)family);
}
if (size >= 0) {
FcPatternAddDouble(pattern, FC_SIZE, size);
}
if (dpi >= 0) {
FcPatternAddDouble(pattern, FC_DPI, dpi);
}
switch (weight) {
case GRX_FONT_WEIGHT_REGULAR:
FcPatternAddInteger(pattern, FC_WEIGHT, 80);
break;
case GRX_FONT_WEIGHT_BOLD:
FcPatternAddInteger(pattern, FC_WEIGHT, 200);
break;
}
switch (slant) {
case GRX_FONT_SLANT_REGULAR:
FcPatternAddInteger(pattern, FC_SLANT, 0);
break;
case GRX_FONT_SLANT_ITALIC:
FcPatternAddInteger(pattern, FC_SLANT, 100);
break;
}
switch (width) {
case GRX_FONT_WIDTH_NARROW:
FcPatternAddInteger(pattern, FC_WIDTH, 75);
break;
case GRX_FONT_WIDTH_REGULAR:
FcPatternAddInteger(pattern, FC_WIDTH, 100);
break;
case GRX_FONT_WIDTH_WIDE:
FcPatternAddInteger(pattern, FC_WIDTH, 125);
break;
}
if (monospace) {
FcPatternAddInteger(pattern, FC_SPACING, 100);
}
if (lang) {
FcPatternAddString(pattern, FC_LANG, (FcChar8 *)lang);
}
if (script) {
FcPatternAddCharSet(pattern, FC_CHARSET, script_to_charset(script));
}
{
FcChar8 *pattern_str;
pattern_str = FcNameUnparse(pattern);
g_debug("searching for pattern: %s", pattern_str);
free(pattern_str);
}
FcConfigSubstitute(NULL, pattern, FcMatchPattern);
FcDefaultSubstitute(pattern);
match = FcFontMatch(NULL, pattern, &result);
if (!match) {
// TODO: use result for better error
g_set_error_literal(err, GRX_ERROR, GRX_ERROR_FONT_ERROR,
"Failed to find match");
FcPatternDestroy(pattern);
return NULL;
}
if (FcPatternGetString(match, FC_FILE, 0, &file) != FcResultMatch) {
g_set_error_literal(err, GRX_ERROR, GRX_ERROR_FONT_ERROR,
"Failed to get file name");
FcPatternDestroy(match);
FcPatternDestroy(pattern);
return NULL;
}
font = grx_font_load_from_file((gchar *)file, err);
FcPatternDestroy(match);
FcPatternDestroy(pattern);
return font;
}
int
drw_text(Drw *drw, int x, int y, unsigned int w, unsigned int h, const char *text)
{
char buf[1024];
int tx, ty, th;
Extnts tex;
XftDraw *d = NULL;
Fnt *curfont, *nextfont;
size_t i, len;
int utf8strlen, utf8charlen, render;
long utf8codepoint = 0;
const char *utf8str;
FcCharSet *fccharset;
FcPattern *fcpattern;
FcPattern *match;
XftResult result;
int charexists = 0;
if (!drw->scheme || !drw->fontcount)
return 0;
if (!(render = x || y || w || h)) {
w = ~w;
} else {
XSetForeground(drw->dpy, drw->gc, drw->scheme->bg->pix);
XFillRectangle(drw->dpy, drw->drawable, drw->gc, x, y, w, h);
d = XftDrawCreate(drw->dpy, drw->drawable,
DefaultVisual(drw->dpy, drw->screen),
DefaultColormap(drw->dpy, drw->screen));
}
curfont = drw->fonts[0];
while (1) {
utf8strlen = 0;
utf8str = text;
nextfont = NULL;
while (*text) {
utf8charlen = utf8decode(text, &utf8codepoint, UTF_SIZ);
for (i = 0; i < drw->fontcount; i++) {
charexists = charexists || XftCharExists(drw->dpy, drw->fonts[i]->xfont, utf8codepoint);
if (charexists) {
if (drw->fonts[i] == curfont) {
utf8strlen += utf8charlen;
text += utf8charlen;
} else {
nextfont = drw->fonts[i];
}
break;
}
}
if (!charexists || (nextfont && nextfont != curfont))
break;
else
charexists = 0;
}
if (utf8strlen) {
drw_font_getexts(curfont, utf8str, utf8strlen, &tex);
/* shorten text if necessary */
for (len = MIN(utf8strlen, (sizeof buf) - 1); len && (tex.w > w - drw->fonts[0]->h || w < drw->fonts[0]->h); len--)
drw_font_getexts(curfont, utf8str, len, &tex);
if (len) {
memcpy(buf, utf8str, len);
buf[len] = '\0';
if (len < utf8strlen)
for (i = len; i && i > len - 3; buf[--i] = '.');
if (render) {
th = curfont->ascent + curfont->descent;
ty = y + (h / 2) - (th / 2) + curfont->ascent;
tx = x + (h / 2);
XftDrawStringUtf8(d, &drw->scheme->fg->rgb, curfont->xfont, tx, ty, (XftChar8 *)buf, len);
}
x += tex.w;
w -= tex.w;
}
}
if (!*text) {
break;
} else if (nextfont) {
charexists = 0;
curfont = nextfont;
} else {
/* Regardless of whether or not a fallback font is found, the
* character must be drawn.
*/
charexists = 1;
if (drw->fontcount >= DRW_FONT_CACHE_SIZE)
continue;
fccharset = FcCharSetCreate();
FcCharSetAddChar(fccharset, utf8codepoint);
if (!drw->fonts[0]->pattern) {
/* Refer to the comment in drw_font_xcreate for more
* information. */
die("the first font in the cache must be loaded from a font string.\n");
}
fcpattern = FcPatternDuplicate(drw->fonts[0]->pattern);
FcPatternAddCharSet(fcpattern, FC_CHARSET, fccharset);
FcPatternAddBool(fcpattern, FC_SCALABLE, FcTrue);
FcConfigSubstitute(NULL, fcpattern, FcMatchPattern);
FcDefaultSubstitute(fcpattern);
match = XftFontMatch(drw->dpy, drw->screen, fcpattern, &result);
FcCharSetDestroy(fccharset);
FcPatternDestroy(fcpattern);
if (match) {
curfont = drw_font_xcreate(drw, NULL, match);
if (curfont && XftCharExists(drw->dpy, curfont->xfont, utf8codepoint)) {
drw->fonts[drw->fontcount++] = curfont;
} else {
drw_font_free(curfont);
curfont = drw->fonts[0];
}
}
}
}
if (d)
XftDrawDestroy(d);
return x;
}
bool FontConfigDirect::Match(std::string* result_family,
unsigned* result_filefaceid,
bool filefaceid_valid, unsigned filefaceid,
const std::string& family,
const void* data, size_t characters_bytes,
bool* is_bold, bool* is_italic) {
if (family.length() > kMaxFontFamilyLength)
return false;
SkAutoMutexAcquire ac(mutex_);
// Given |family|, |is_bold| and |is_italic| but not |data|, the result will
// be a function of these three parameters, and thus eligible for caching.
// This is the fast path for |SkTypeface::CreateFromName()|.
bool eligible_for_cache = !family.empty() && is_bold && is_italic && !data;
if (eligible_for_cache) {
int style = (*is_bold ? SkTypeface::kBold : 0 ) |
(*is_italic ? SkTypeface::kItalic : 0);
FontMatchKey key = FontMatchKey(family, style);
const std::map<FontMatchKey, FontMatch>::const_iterator i =
font_match_cache_.find(key);
if (i != font_match_cache_.end()) {
*is_bold = i->second.is_bold;
*is_italic = i->second.is_italic;
if (result_family)
*result_family = i->second.family;
if (result_filefaceid)
*result_filefaceid = i->second.filefaceid;
return true;
}
}
FcPattern* pattern = FcPatternCreate();
if (filefaceid_valid) {
const std::map<unsigned, std::string>::const_iterator
i = fileid_to_filename_.find(FileFaceIdToFileId(filefaceid));
if (i == fileid_to_filename_.end()) {
FcPatternDestroy(pattern);
return false;
}
int face_index = filefaceid & 0xfu;
FcPatternAddString(pattern, FC_FILE,
reinterpret_cast<const FcChar8*>(i->second.c_str()));
// face_index is added only when family is empty because it is not
// necessary to uniquiely identify a font if both file and
// family are given.
if (family.empty())
FcPatternAddInteger(pattern, FC_INDEX, face_index);
}
if (!family.empty()) {
FcPatternAddString(pattern, FC_FAMILY, (FcChar8*) family.c_str());
}
FcCharSet* charset = NULL;
if (data) {
charset = FcCharSetCreate();
const uint16_t* chars = (const uint16_t*) data;
size_t num_chars = characters_bytes / 2;
for (size_t i = 0; i < num_chars; ++i) {
if (U16_IS_SURROGATE(chars[i])
&& U16_IS_SURROGATE_LEAD(chars[i])
&& i != num_chars - 1
&& U16_IS_TRAIL(chars[i + 1])) {
FcCharSetAddChar(charset, U16_GET_SUPPLEMENTARY(chars[i], chars[i+1]));
i++;
} else {
FcCharSetAddChar(charset, chars[i]);
}
}
FcPatternAddCharSet(pattern, FC_CHARSET, charset);
FcCharSetDestroy(charset); // pattern now owns it.
}
FcPatternAddInteger(pattern, FC_WEIGHT,
is_bold && *is_bold ? FC_WEIGHT_BOLD
: FC_WEIGHT_NORMAL);
FcPatternAddInteger(pattern, FC_SLANT,
is_italic && *is_italic ? FC_SLANT_ITALIC
: FC_SLANT_ROMAN);
FcPatternAddBool(pattern, FC_SCALABLE, FcTrue);
FcConfigSubstitute(NULL, pattern, FcMatchPattern);
FcDefaultSubstitute(pattern);
// Font matching:
// CSS often specifies a fallback list of families:
// font-family: a, b, c, serif;
// However, fontconfig will always do its best to find *a* font when asked
// for something so we need a way to tell if the match which it has found is
// "good enough" for us. Otherwise, we can return NULL which gets piped up
// and lets WebKit know to try the next CSS family name. However, fontconfig
// configs allow substitutions (mapping "Arial -> Helvetica" etc) and we
// wish to support that.
//
// Thus, if a specific family is requested we set @family_requested. Then we
// record two strings: the family name after config processing and the
// family name after resolving. If the two are equal, it's a good match.
//
// So consider the case where a user has mapped Arial to Helvetica in their
// config.
// requested family: "Arial"
// post_config_family: "Helvetica"
// post_match_family: "Helvetica"
// -> good match
//
// and for a missing font:
// requested family: "Monaco"
// post_config_family: "Monaco"
// post_match_family: "Times New Roman"
// -> BAD match
//
// However, we special-case fallback fonts; see IsFallbackFontAllowed().
FcChar8* post_config_family;
FcPatternGetString(pattern, FC_FAMILY, 0, &post_config_family);
FcResult result;
FcFontSet* font_set = FcFontSort(0, pattern, 0, 0, &result);
if (!font_set) {
FcPatternDestroy(pattern);
return false;
}
FcPattern* match = MatchFont(font_set, post_config_family, family);
if (!match) {
FcPatternDestroy(pattern);
FcFontSetDestroy(font_set);
return false;
}
FcPatternDestroy(pattern);
FcChar8* c_filename;
if (FcPatternGetString(match, FC_FILE, 0, &c_filename) != FcResultMatch) {
FcFontSetDestroy(font_set);
return false;
}
int face_index;
if (FcPatternGetInteger(match, FC_INDEX, 0, &face_index) != FcResultMatch) {
FcFontSetDestroy(font_set);
return false;
}
FontMatch font_match;
if (filefaceid_valid) {
font_match.filefaceid = filefaceid;
} else {
unsigned out_fileid;
const std::string filename(reinterpret_cast<char*>(c_filename));
const std::map<std::string, unsigned>::const_iterator
i = filename_to_fileid_.find(filename);
if (i == filename_to_fileid_.end()) {
out_fileid = next_file_id_++;
filename_to_fileid_[filename] = out_fileid;
fileid_to_filename_[out_fileid] = filename;
} else {
out_fileid = i->second;
}
// fileid stored in filename_to_fileid_ and fileid_to_filename_ is
// unique only up to the font file. We have to encode face_index for
// the out param.
font_match.filefaceid =
FileIdAndFaceIndexToFileFaceId(out_fileid, face_index);
}
bool success = GetFontProperties(match,
&font_match.family,
&font_match.is_bold,
&font_match.is_italic);
FcFontSetDestroy(font_set);
if (success) {
// If eligible, cache the result of the matching.
if (eligible_for_cache) {
int style = (*is_bold ? SkTypeface::kBold : 0 ) |
(*is_italic ? SkTypeface::kItalic : 0);
font_match_cache_[FontMatchKey(family, style)] = font_match;
}
if (result_family)
*result_family = font_match.family;
if (result_filefaceid)
*result_filefaceid = font_match.filefaceid;
if (is_bold)
*is_bold = font_match.is_bold;
if (is_italic)
*is_italic = font_match.is_italic;
}
return success;
}
