/* ftfont.c -- FreeType font driver. Copyright (C) 2006-2017 Free Software Foundation, Inc. Copyright (C) 2006, 2007, 2008, 2009, 2010, 2011 National Institute of Advanced Industrial Science and Technology (AIST) Registration Number H13PRO009 This file is part of GNU Emacs. GNU Emacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs. If not, see . */ #include #include #include #include #include #include "lisp.h" #include "dispextern.h" #include "character.h" #include "charset.h" #include "category.h" #include "composite.h" #include "font.h" #include "ftfont.h" static struct font_driver const ftfont_driver; /* Flag to tell if FcInit is already called or not. */ static bool fc_initialized; /* Handle to a FreeType library instance. */ static FT_Library ft_library; /* Cache for FreeType fonts. */ static Lisp_Object freetype_font_cache; /* Cache for FT_Face and FcCharSet. */ static Lisp_Object ft_face_cache; /* The actual structure for FreeType font that can be cast to struct font. */ struct ftfont_info { struct font font; #ifdef HAVE_LIBOTF /* The following four members must be here in this order to be compatible with struct xftfont_info (in xftfont.c). */ bool maybe_otf; /* Flag to tell if this may be OTF or not. */ OTF *otf; #endif /* HAVE_LIBOTF */ FT_Size ft_size; int index; FT_Matrix matrix; }; size_t ftfont_info_size = sizeof (struct ftfont_info); enum ftfont_cache_for { FTFONT_CACHE_FOR_FACE, FTFONT_CACHE_FOR_CHARSET, FTFONT_CACHE_FOR_ENTITY }; static Lisp_Object ftfont_lookup_cache (Lisp_Object, enum ftfont_cache_for); #define SYMBOL_FcChar8(SYM) (FcChar8 *) SDATA (SYMBOL_NAME (SYM)) static struct { /* registry name */ const char *name; /* characters to distinguish the charset from the others */ int uniquifier[6]; /* additional constraint by language */ const char *lang; /* set on demand */ FcCharSet *fc_charset; } fc_charset_table[] = { { "iso8859-1", { 0x00A0, 0x00A1, 0x00B4, 0x00BC, 0x00D0 } }, { "iso8859-2", { 0x00A0, 0x010E }}, { "iso8859-3", { 0x00A0, 0x0108 }}, { "iso8859-4", { 0x00A0, 0x00AF, 0x0128, 0x0156, 0x02C7 }}, { "iso8859-5", { 0x00A0, 0x0401 }}, { "iso8859-6", { 0x00A0, 0x060C }}, { "iso8859-7", { 0x00A0, 0x0384 }}, { "iso8859-8", { 0x00A0, 0x05D0 }}, { "iso8859-9", { 0x00A0, 0x00A1, 0x00BC, 0x011E }}, { "iso8859-10", { 0x00A0, 0x00D0, 0x0128, 0x2015 }}, { "iso8859-11", { 0x00A0, 0x0E01 }}, { "iso8859-13", { 0x00A0, 0x201C }}, { "iso8859-14", { 0x00A0, 0x0174 }}, { "iso8859-15", { 0x00A0, 0x00A1, 0x00D0, 0x0152 }}, { "iso8859-16", { 0x00A0, 0x0218}}, { "gb2312.1980-0", { 0x4E13 }, "zh-cn"}, { "big5-0", { 0xF6B1 }, "zh-tw" }, { "jisx0208.1983-0", { 0x4E55 }, "ja"}, { "ksc5601.1985-0", { 0xAC00 }, "ko"}, { "cns11643.1992-1", { 0xFE32 }, "zh-tw"}, { "cns11643.1992-2", { 0x4E33, 0x7934 }}, { "cns11643.1992-3", { 0x201A9 }}, { "cns11643.1992-4", { 0x20057 }}, { "cns11643.1992-5", { 0x20000 }}, { "cns11643.1992-6", { 0x20003 }}, { "cns11643.1992-7", { 0x20055 }}, { "gbk-0", { 0x4E06 }, "zh-cn"}, { "jisx0212.1990-0", { 0x4E44 }}, { "jisx0213.2000-1", { 0xFA10 }, "ja"}, { "jisx0213.2000-2", { 0xFA49 }}, { "jisx0213.2004-1", { 0x20B9F }}, { "viscii1.1-1", { 0x1EA0, 0x1EAE, 0x1ED2 }, "vi"}, { "tis620.2529-1", { 0x0E01 }, "th"}, { "windows-1251", { 0x0401, 0x0490 }, "ru"}, { "koi8-r", { 0x0401, 0x2219 }, "ru"}, { "mulelao-1", { 0x0E81 }, "lo"}, { "unicode-sip", { 0x20000 }}, { NULL } }; static bool matching_prefix (char const *str, ptrdiff_t len, char const *pat) { return len == strlen (pat) && c_strncasecmp (str, pat, len) == 0; } /* Dirty hack for handing ADSTYLE property. Fontconfig (actually the underlying FreeType) gives such ADSTYLE font property of PCF/BDF fonts in FC_STYLE. And, "Bold", "Oblique", "Italic", or any non-normal SWIDTH property names (e.g. SemiCondensed) are appended. In addition, if there's no ADSTYLE property nor non-normal WEIGHT/SLANT/SWIDTH properties, "Regular" is used for FC_STYLE (see the function pcf_interpret_style in src/pcf/pcfread.c of FreeType). Unfortunately this behavior is not documented, so the following code may fail if FreeType changes the behavior in the future. */ static Lisp_Object get_adstyle_property (FcPattern *p) { FcChar8 *fcstr; char *str, *end; Lisp_Object adstyle; #ifdef FC_FONTFORMAT if ((FcPatternGetString (p, FC_FONTFORMAT, 0, &fcstr) == FcResultMatch) && xstrcasecmp ((char *) fcstr, "bdf") != 0 && xstrcasecmp ((char *) fcstr, "pcf") != 0) /* Not a BDF nor PCF font. */ return Qnil; #endif if (FcPatternGetString (p, FC_STYLE, 0, &fcstr) != FcResultMatch) return Qnil; str = (char *) fcstr; for (end = str; *end && *end != ' '; end++); if (matching_prefix (str, end - str, "Regular") || matching_prefix (str, end - str, "Bold") || matching_prefix (str, end - str, "Oblique") || matching_prefix (str, end - str, "Italic")) return Qnil; adstyle = font_intern_prop (str, end - str, 1); if (font_style_to_value (FONT_WIDTH_INDEX, adstyle, 0) >= 0) return Qnil; return adstyle; } static Lisp_Object ftfont_pattern_entity (FcPattern *p, Lisp_Object extra) { Lisp_Object key, cache, entity; FcChar8 *str; char *file; int idx; int numeric; double dbl; FcBool b; if (FcPatternGetString (p, FC_FILE, 0, &str) != FcResultMatch) return Qnil; if (FcPatternGetInteger (p, FC_INDEX, 0, &idx) != FcResultMatch) return Qnil; file = (char *) str; key = Fcons (build_unibyte_string (file), make_number (idx)); cache = ftfont_lookup_cache (key, FTFONT_CACHE_FOR_ENTITY); entity = XCAR (cache); if (! NILP (entity)) { Lisp_Object val = font_make_entity (); int i; for (i = 0; i < FONT_OBJLIST_INDEX; i++) ASET (val, i, AREF (entity, i)); ASET (val, FONT_EXTRA_INDEX, Fcopy_sequence (extra)); font_put_extra (val, QCfont_entity, key); return val; } entity = font_make_entity (); XSETCAR (cache, entity); ASET (entity, FONT_TYPE_INDEX, Qfreetype); ASET (entity, FONT_REGISTRY_INDEX, Qiso10646_1); if (FcPatternGetString (p, FC_FOUNDRY, 0, &str) == FcResultMatch) { char *s = (char *) str; ASET (entity, FONT_FOUNDRY_INDEX, font_intern_prop (s, strlen (s), 1)); } if (FcPatternGetString (p, FC_FAMILY, 0, &str) == FcResultMatch) { char *s = (char *) str; ASET (entity, FONT_FAMILY_INDEX, font_intern_prop (s, strlen (s), 1)); } if (FcPatternGetInteger (p, FC_WEIGHT, 0, &numeric) == FcResultMatch) { if (numeric >= FC_WEIGHT_REGULAR && numeric < FC_WEIGHT_MEDIUM) numeric = FC_WEIGHT_MEDIUM; FONT_SET_STYLE (entity, FONT_WEIGHT_INDEX, make_number (numeric)); } if (FcPatternGetInteger (p, FC_SLANT, 0, &numeric) == FcResultMatch) { numeric += 100; FONT_SET_STYLE (entity, FONT_SLANT_INDEX, make_number (numeric)); } if (FcPatternGetInteger (p, FC_WIDTH, 0, &numeric) == FcResultMatch) { FONT_SET_STYLE (entity, FONT_WIDTH_INDEX, make_number (numeric)); } if (FcPatternGetDouble (p, FC_PIXEL_SIZE, 0, &dbl) == FcResultMatch) { ASET (entity, FONT_SIZE_INDEX, make_number (dbl)); } else ASET (entity, FONT_SIZE_INDEX, make_number (0)); if (FcPatternGetInteger (p, FC_SPACING, 0, &numeric) == FcResultMatch) ASET (entity, FONT_SPACING_INDEX, make_number (numeric)); if (FcPatternGetDouble (p, FC_DPI, 0, &dbl) == FcResultMatch) { int dpi = dbl; ASET (entity, FONT_DPI_INDEX, make_number (dpi)); } if (FcPatternGetBool (p, FC_SCALABLE, 0, &b) == FcResultMatch && b == FcTrue) { ASET (entity, FONT_SIZE_INDEX, make_number (0)); ASET (entity, FONT_AVGWIDTH_INDEX, make_number (0)); } else { /* As this font is not scalable, perhaps this is a BDF or PCF font. */ FT_Face ft_face; ASET (entity, FONT_ADSTYLE_INDEX, get_adstyle_property (p)); if ((ft_library || FT_Init_FreeType (&ft_library) == 0) && FT_New_Face (ft_library, file, idx, &ft_face) == 0) { BDF_PropertyRec rec; if (FT_Get_BDF_Property (ft_face, "AVERAGE_WIDTH", &rec) == 0 && rec.type == BDF_PROPERTY_TYPE_INTEGER) ASET (entity, FONT_AVGWIDTH_INDEX, make_number (rec.u.integer)); FT_Done_Face (ft_face); } } ASET (entity, FONT_EXTRA_INDEX, Fcopy_sequence (extra)); font_put_extra (entity, QCfont_entity, key); return entity; } static Lisp_Object ftfont_generic_family_list; static Lisp_Object ftfont_resolve_generic_family (Lisp_Object family, FcPattern *pattern) { Lisp_Object slot; FcPattern *match; FcResult result; FcLangSet *langset; family = Fintern (Fdowncase (SYMBOL_NAME (family)), Qnil); if (EQ (family, Qmono)) family = Qmonospace; else if (EQ (family, Qsans) || EQ (family, Qsans__serif)) family = Qsans_serif; slot = assq_no_quit (family, ftfont_generic_family_list); if (! CONSP (slot)) return Qnil; if (! EQ (XCDR (slot), Qt)) return XCDR (slot); pattern = FcPatternDuplicate (pattern); if (! pattern) goto err; FcPatternDel (pattern, FC_FOUNDRY); FcPatternDel (pattern, FC_FAMILY); FcPatternAddString (pattern, FC_FAMILY, SYMBOL_FcChar8 (family)); if (FcPatternGetLangSet (pattern, FC_LANG, 0, &langset) != FcResultMatch) { /* This is to avoid the effect of locale. */ static const FcChar8 lang[] = "en"; langset = FcLangSetCreate (); FcLangSetAdd (langset, lang); FcPatternAddLangSet (pattern, FC_LANG, langset); FcLangSetDestroy (langset); } FcConfigSubstitute (NULL, pattern, FcMatchPattern); FcDefaultSubstitute (pattern); match = FcFontMatch (NULL, pattern, &result); if (match) { FcChar8 *fam; if (FcPatternGetString (match, FC_FAMILY, 0, &fam) == FcResultMatch) family = intern ((char *) fam); } else family = Qnil; XSETCDR (slot, family); if (match) FcPatternDestroy (match); err: if (pattern) FcPatternDestroy (pattern); return family; } struct ftfont_cache_data { FT_Face ft_face; FcCharSet *fc_charset; }; static Lisp_Object ftfont_lookup_cache (Lisp_Object key, enum ftfont_cache_for cache_for) { Lisp_Object cache, val, entity; struct ftfont_cache_data *cache_data; if (FONT_ENTITY_P (key)) { entity = key; val = assq_no_quit (QCfont_entity, AREF (entity, FONT_EXTRA_INDEX)); eassert (CONSP (val)); key = XCDR (val); } else entity = Qnil; if (NILP (ft_face_cache)) cache = Qnil; else cache = Fgethash (key, ft_face_cache, Qnil); if (NILP (cache)) { if (NILP (ft_face_cache)) ft_face_cache = CALLN (Fmake_hash_table, QCtest, Qequal); cache_data = xmalloc (sizeof *cache_data); cache_data->ft_face = NULL; cache_data->fc_charset = NULL; val = make_save_ptr_int (cache_data, 0); cache = Fcons (Qnil, val); Fputhash (key, cache, ft_face_cache); } else { val = XCDR (cache); cache_data = XSAVE_POINTER (val, 0); } if (cache_for == FTFONT_CACHE_FOR_ENTITY) return cache; if (cache_for == FTFONT_CACHE_FOR_FACE ? ! cache_data->ft_face : ! cache_data->fc_charset) { char *filename = SSDATA (XCAR (key)); int idx = XINT (XCDR (key)); if (cache_for == FTFONT_CACHE_FOR_FACE) { if (! ft_library && FT_Init_FreeType (&ft_library) != 0) return Qnil; if (FT_New_Face (ft_library, filename, idx, &cache_data->ft_face) != 0) return Qnil; } else { FcPattern *pat = NULL; FcFontSet *fontset = NULL; FcObjectSet *objset = NULL; FcCharSet *charset = NULL; pat = FcPatternBuild (0, FC_FILE, FcTypeString, (FcChar8 *) filename, FC_INDEX, FcTypeInteger, idx, NULL); if (! pat) goto finish; objset = FcObjectSetBuild (FC_CHARSET, FC_STYLE, NULL); if (! objset) goto finish; fontset = FcFontList (NULL, pat, objset); if (! fontset) goto finish; if (fontset && fontset->nfont > 0 && (FcPatternGetCharSet (fontset->fonts[0], FC_CHARSET, 0, &charset) == FcResultMatch)) cache_data->fc_charset = FcCharSetCopy (charset); else cache_data->fc_charset = FcCharSetCreate (); finish: if (fontset) FcFontSetDestroy (fontset); if (objset) FcObjectSetDestroy (objset); if (pat) FcPatternDestroy (pat); } } return cache; } FcCharSet * ftfont_get_fc_charset (Lisp_Object entity) { Lisp_Object val, cache; struct ftfont_cache_data *cache_data; cache = ftfont_lookup_cache (entity, FTFONT_CACHE_FOR_CHARSET); val = XCDR (cache); cache_data = XSAVE_POINTER (val, 0); return cache_data->fc_charset; } #ifdef HAVE_LIBOTF static OTF * ftfont_get_otf (struct ftfont_info *ftfont_info) { OTF *otf; if (ftfont_info->otf) return ftfont_info->otf; if (! ftfont_info->maybe_otf) return NULL; otf = OTF_open_ft_face (ftfont_info->ft_size->face); if (! otf || OTF_get_table (otf, "head") < 0) { if (otf) OTF_close (otf); ftfont_info->maybe_otf = 0; return NULL; } ftfont_info->otf = otf; return otf; } #endif /* HAVE_LIBOTF */ Lisp_Object ftfont_get_cache (struct frame *f) { return freetype_font_cache; } static int ftfont_get_charset (Lisp_Object registry) { char *str = SSDATA (SYMBOL_NAME (registry)); USE_SAFE_ALLOCA; char *re = SAFE_ALLOCA (SBYTES (SYMBOL_NAME (registry)) * 2 + 1); int i, j; for (i = j = 0; i < SBYTES (SYMBOL_NAME (registry)); i++, j++) { if (str[i] == '.') re[j++] = '\\'; else if (str[i] == '*') re[j++] = '.'; re[j] = str[i]; if (re[j] == '?') re[j] = '.'; } re[j] = '\0'; AUTO_STRING_WITH_LEN (regexp, re, j); for (i = 0; fc_charset_table[i].name; i++) if (fast_c_string_match_ignore_case (regexp, fc_charset_table[i].name, strlen (fc_charset_table[i].name)) >= 0) break; SAFE_FREE (); if (! fc_charset_table[i].name) return -1; if (! fc_charset_table[i].fc_charset) { FcCharSet *charset = FcCharSetCreate (); int *uniquifier = fc_charset_table[i].uniquifier; if (! charset) return -1; for (j = 0; uniquifier[j]; j++) if (! FcCharSetAddChar (charset, uniquifier[j])) { FcCharSetDestroy (charset); return -1; } fc_charset_table[i].fc_charset = charset; } return i; } struct OpenTypeSpec { Lisp_Object script; unsigned int script_tag, langsys_tag; int nfeatures[2]; unsigned int *features[2]; }; #define OTF_SYM_TAG(SYM, TAG) \ do { \ unsigned char *p = SDATA (SYMBOL_NAME (SYM)); \ TAG = (p[0] << 24) | (p[1] << 16) | (p[2] << 8) | p[3]; \ } while (0) #define OTF_TAG_STR(TAG, P) \ do { \ (P)[0] = (char) (TAG >> 24); \ (P)[1] = (char) ((TAG >> 16) & 0xFF); \ (P)[2] = (char) ((TAG >> 8) & 0xFF); \ (P)[3] = (char) (TAG & 0xFF); \ (P)[4] = '\0'; \ } while (0) #ifdef HAVE_LIBOTF #define OTF_TAG_SYM(SYM, TAG) \ do { \ char str[5]; \ \ OTF_TAG_STR (TAG, str); \ (SYM) = font_intern_prop (str, 4, 1); \ } while (0) #endif static struct OpenTypeSpec * ftfont_get_open_type_spec (Lisp_Object otf_spec) { struct OpenTypeSpec *spec = malloc (sizeof *spec); Lisp_Object val; int i, j; bool negative; if (! spec) return NULL; spec->script = XCAR (otf_spec); if (! NILP (spec->script)) { OTF_SYM_TAG (spec->script, spec->script_tag); val = assq_no_quit (spec->script, Votf_script_alist); if (CONSP (val) && SYMBOLP (XCDR (val))) spec->script = XCDR (val); else spec->script = Qnil; } else spec->script_tag = 0x44464C54; /* "DFLT" */ otf_spec = XCDR (otf_spec); spec->langsys_tag = 0; if (! NILP (otf_spec)) { val = XCAR (otf_spec); if (! NILP (val)) OTF_SYM_TAG (val, spec->langsys_tag); otf_spec = XCDR (otf_spec); } spec->nfeatures[0] = spec->nfeatures[1] = 0; for (i = 0; i < 2 && ! NILP (otf_spec); i++, otf_spec = XCDR (otf_spec)) { Lisp_Object len; val = XCAR (otf_spec); if (NILP (val)) continue; len = Flength (val); spec->features[i] = (min (PTRDIFF_MAX, SIZE_MAX) / sizeof (int) < XINT (len) ? 0 : malloc (XINT (len) * sizeof *spec->features[i])); if (! spec->features[i]) { if (i > 0 && spec->features[0]) free (spec->features[0]); free (spec); return NULL; } for (j = 0, negative = 0; CONSP (val); val = XCDR (val)) { if (NILP (XCAR (val))) negative = 1; else { unsigned int tag; OTF_SYM_TAG (XCAR (val), tag); spec->features[i][j++] = negative ? tag & 0x80000000 : tag; } } spec->nfeatures[i] = j; } return spec; } static FcPattern * ftfont_spec_pattern (Lisp_Object spec, char *otlayout, struct OpenTypeSpec **otspec, const char **langname) { Lisp_Object tmp, extra; FcPattern *pattern = NULL; FcCharSet *charset = NULL; FcLangSet *langset = NULL; int n; int dpi = -1; int scalable = -1; Lisp_Object script = Qnil; Lisp_Object registry; int fc_charset_idx; if ((n = FONT_SLANT_NUMERIC (spec)) >= 0 && n < 100) /* Fontconfig doesn't support reverse-italic/oblique. */ return NULL; if (INTEGERP (AREF (spec, FONT_DPI_INDEX))) dpi = XINT (AREF (spec, FONT_DPI_INDEX)); if (INTEGERP (AREF (spec, FONT_AVGWIDTH_INDEX)) && XINT (AREF (spec, FONT_AVGWIDTH_INDEX)) == 0) scalable = 1; registry = AREF (spec, FONT_REGISTRY_INDEX); if (NILP (registry) || EQ (registry, Qascii_0) || EQ (registry, Qiso10646_1) || EQ (registry, Qunicode_bmp)) fc_charset_idx = -1; else { FcChar8 *lang; fc_charset_idx = ftfont_get_charset (registry); if (fc_charset_idx < 0) return NULL; charset = fc_charset_table[fc_charset_idx].fc_charset; *langname = fc_charset_table[fc_charset_idx].lang; lang = (FcChar8 *) *langname; if (lang) { langset = FcLangSetCreate (); if (! langset) goto err; FcLangSetAdd (langset, lang); } } otlayout[0] = '\0'; for (extra = AREF (spec, FONT_EXTRA_INDEX); CONSP (extra); extra = XCDR (extra)) { Lisp_Object key, val; key = XCAR (XCAR (extra)), val = XCDR (XCAR (extra)); if (EQ (key, QCdpi)) { if (INTEGERP (val)) dpi = XINT (val); } else if (EQ (key, QClang)) { if (! langset) langset = FcLangSetCreate (); if (! langset) goto err; if (SYMBOLP (val)) { if (! FcLangSetAdd (langset, SYMBOL_FcChar8 (val))) goto err; } else for (; CONSP (val); val = XCDR (val)) if (SYMBOLP (XCAR (val)) && ! FcLangSetAdd (langset, SYMBOL_FcChar8 (XCAR (val)))) goto err; } else if (EQ (key, QCotf)) { if (CONSP (val)) { *otspec = ftfont_get_open_type_spec (val); if (! *otspec) return NULL; strcpy (otlayout, "otlayout:"); OTF_TAG_STR ((*otspec)->script_tag, otlayout + 9); script = (*otspec)->script; } } else if (EQ (key, QCscript)) script = val; else if (EQ (key, QCscalable)) scalable = ! NILP (val); } if (! NILP (script) && ! charset) { Lisp_Object chars = assq_no_quit (script, Vscript_representative_chars); if (CONSP (chars) && CONSP (CDR (chars))) { charset = FcCharSetCreate (); if (! charset) goto err; for (chars = XCDR (chars); CONSP (chars); chars = XCDR (chars)) if (CHARACTERP (XCAR (chars)) && ! FcCharSetAddChar (charset, XFASTINT (XCAR (chars)))) goto err; } } pattern = FcPatternCreate (); if (! pattern) goto err; tmp = AREF (spec, FONT_FOUNDRY_INDEX); if (! NILP (tmp) && ! FcPatternAddString (pattern, FC_FOUNDRY, SYMBOL_FcChar8 (tmp))) goto err; tmp = AREF (spec, FONT_FAMILY_INDEX); if (! NILP (tmp) && ! FcPatternAddString (pattern, FC_FAMILY, SYMBOL_FcChar8 (tmp))) goto err; if (charset && ! FcPatternAddCharSet (pattern, FC_CHARSET, charset)) goto err; if (langset && ! FcPatternAddLangSet (pattern, FC_LANG, langset)) goto err; if (dpi >= 0 && ! FcPatternAddDouble (pattern, FC_DPI, dpi)) goto err; if (scalable >= 0 && ! FcPatternAddBool (pattern, FC_SCALABLE, scalable ? FcTrue : FcFalse)) goto err; goto finish; err: /* We come here because of unexpected error in fontconfig API call (usually insufficient memory). */ if (pattern) { FcPatternDestroy (pattern); pattern = NULL; } if (*otspec) { if ((*otspec)->nfeatures[0] > 0) free ((*otspec)->features[0]); if ((*otspec)->nfeatures[1] > 0) free ((*otspec)->features[1]); free (*otspec); *otspec = NULL; } finish: if (langset) FcLangSetDestroy (langset); if (charset && fc_charset_idx < 0) FcCharSetDestroy (charset); return pattern; } Lisp_Object ftfont_list (struct frame *f, Lisp_Object spec) { Lisp_Object val = Qnil, family, adstyle; int i; FcPattern *pattern; FcFontSet *fontset = NULL; FcObjectSet *objset = NULL; FcCharSet *charset; Lisp_Object chars = Qnil; char otlayout[15]; /* For "otlayout:XXXX" */ struct OpenTypeSpec *otspec = NULL; int spacing = -1; const char *langname = NULL; if (! fc_initialized) { FcInit (); fc_initialized = 1; } pattern = ftfont_spec_pattern (spec, otlayout, &otspec, &langname); if (! pattern) return Qnil; if (FcPatternGetCharSet (pattern, FC_CHARSET, 0, &charset) != FcResultMatch) { val = assq_no_quit (QCscript, AREF (spec, FONT_EXTRA_INDEX)); if (! NILP (val)) { val = assq_no_quit (XCDR (val), Vscript_representative_chars); if (CONSP (val) && VECTORP (XCDR (val))) chars = XCDR (val); } val = Qnil; } if (INTEGERP (AREF (spec, FONT_SPACING_INDEX))) spacing = XINT (AREF (spec, FONT_SPACING_INDEX)); family = AREF (spec, FONT_FAMILY_INDEX); if (! NILP (family)) { Lisp_Object resolved; resolved = ftfont_resolve_generic_family (family, pattern); if (! NILP (resolved)) { FcPatternDel (pattern, FC_FAMILY); if (! FcPatternAddString (pattern, FC_FAMILY, SYMBOL_FcChar8 (resolved))) goto err; } } adstyle = AREF (spec, FONT_ADSTYLE_INDEX); if (! NILP (adstyle) && SBYTES (SYMBOL_NAME (adstyle)) == 0) adstyle = Qnil; objset = FcObjectSetBuild (FC_FOUNDRY, FC_FAMILY, FC_WEIGHT, FC_SLANT, FC_WIDTH, FC_PIXEL_SIZE, FC_SPACING, FC_SCALABLE, FC_STYLE, FC_FILE, FC_INDEX, #ifdef FC_CAPABILITY FC_CAPABILITY, #endif /* FC_CAPABILITY */ #ifdef FC_FONTFORMAT FC_FONTFORMAT, #endif NULL); if (! objset) goto err; if (! NILP (chars)) FcObjectSetAdd (objset, FC_CHARSET); fontset = FcFontList (NULL, pattern, objset); if (! fontset || fontset->nfont == 0) goto finish; #if 0 /* Need fix because this finds any fonts. */ if (fontset->nfont == 0 && ! NILP (family)) { /* Try matching with configuration. For instance, the configuration may specify "Nimbus Mono L" as an alias of "Courier". */ FcPattern *pat = FcPatternBuild (0, FC_FAMILY, FcTypeString, SYMBOL_FcChar8 (family), NULL); FcChar8 *fam; if (FcConfigSubstitute (NULL, pat, FcMatchPattern) == FcTrue) { for (i = 0; FcPatternGetString (pat, FC_FAMILY, i, &fam) == FcResultMatch; i++) { FcPatternDel (pattern, FC_FAMILY); FcPatternAddString (pattern, FC_FAMILY, fam); FcFontSetDestroy (fontset); fontset = FcFontList (NULL, pattern, objset); if (fontset && fontset->nfont > 0) break; } } } #endif for (i = 0; i < fontset->nfont; i++) { Lisp_Object entity; if (spacing >= 0) { int this; if ((FcPatternGetInteger (fontset->fonts[i], FC_SPACING, 0, &this) == FcResultMatch) && spacing != this) continue; } #ifdef FC_CAPABILITY if (otlayout[0]) { FcChar8 *this; if (FcPatternGetString (fontset->fonts[i], FC_CAPABILITY, 0, &this) != FcResultMatch || ! strstr ((char *) this, otlayout)) continue; } #endif /* FC_CAPABILITY */ #ifdef HAVE_LIBOTF if (otspec) { FcChar8 *file; bool passed; OTF *otf; if (FcPatternGetString (fontset->fonts[i], FC_FILE, 0, &file) != FcResultMatch) continue; otf = OTF_open ((char *) file); if (! otf) continue; passed = (OTF_check_features (otf, 1, otspec->script_tag, otspec->langsys_tag, otspec->features[0], otspec->nfeatures[0]) == 1 && OTF_check_features (otf, 0, otspec->script_tag, otspec->langsys_tag, otspec->features[1], otspec->nfeatures[1]) == 1); OTF_close (otf); if (!passed) continue; } #endif /* HAVE_LIBOTF */ if (VECTORP (chars)) { ptrdiff_t j; if (FcPatternGetCharSet (fontset->fonts[i], FC_CHARSET, 0, &charset) != FcResultMatch) continue; for (j = 0; j < ASIZE (chars); j++) if (TYPE_RANGED_INTEGERP (FcChar32, AREF (chars, j)) && FcCharSetHasChar (charset, XFASTINT (AREF (chars, j)))) break; if (j == ASIZE (chars)) continue; } if (! NILP (adstyle) || langname) { Lisp_Object this_adstyle = get_adstyle_property (fontset->fonts[i]); if (! NILP (adstyle) && (NILP (this_adstyle) || xstrcasecmp (SSDATA (SYMBOL_NAME (adstyle)), SSDATA (SYMBOL_NAME (this_adstyle))) != 0)) continue; if (langname && ! NILP (this_adstyle) && xstrcasecmp (langname, SSDATA (SYMBOL_NAME (this_adstyle)))) continue; } entity = ftfont_pattern_entity (fontset->fonts[i], AREF (spec, FONT_EXTRA_INDEX)); if (! NILP (entity)) val = Fcons (entity, val); } val = Fnreverse (val); goto finish; err: /* We come here because of unexpected error in fontconfig API call (usually insufficient memory). */ val = Qnil; finish: FONT_ADD_LOG ("ftfont-list", spec, val); if (objset) FcObjectSetDestroy (objset); if (fontset) FcFontSetDestroy (fontset); if (pattern) FcPatternDestroy (pattern); return val; } Lisp_Object ftfont_match (struct frame *f, Lisp_Object spec) { Lisp_Object entity = Qnil; FcPattern *pattern, *match = NULL; FcResult result; char otlayout[15]; /* For "otlayout:XXXX" */ struct OpenTypeSpec *otspec = NULL; const char *langname = NULL; if (! fc_initialized) { FcInit (); fc_initialized = 1; } pattern = ftfont_spec_pattern (spec, otlayout, &otspec, &langname); if (! pattern) return Qnil; if (INTEGERP (AREF (spec, FONT_SIZE_INDEX))) { FcValue value; value.type = FcTypeDouble; value.u.d = XINT (AREF (spec, FONT_SIZE_INDEX)); FcPatternAdd (pattern, FC_PIXEL_SIZE, value, FcFalse); } if (FcConfigSubstitute (NULL, pattern, FcMatchPattern) == FcTrue) { FcDefaultSubstitute (pattern); match = FcFontMatch (NULL, pattern, &result); if (match) { entity = ftfont_pattern_entity (match, AREF (spec, FONT_EXTRA_INDEX)); FcPatternDestroy (match); if (! NILP (AREF (spec, FONT_FAMILY_INDEX)) && NILP (assq_no_quit (AREF (spec, FONT_FAMILY_INDEX), ftfont_generic_family_list)) && NILP (Fstring_equal (AREF (spec, FONT_FAMILY_INDEX), AREF (entity, FONT_FAMILY_INDEX)))) entity = Qnil; } } FcPatternDestroy (pattern); FONT_ADD_LOG ("ftfont-match", spec, entity); return entity; } Lisp_Object ftfont_list_family (struct frame *f) { Lisp_Object list = Qnil; FcPattern *pattern = NULL; FcFontSet *fontset = NULL; FcObjectSet *objset = NULL; int i; if (! fc_initialized) { FcInit (); fc_initialized = 1; } pattern = FcPatternCreate (); if (! pattern) goto finish; objset = FcObjectSetBuild (FC_FAMILY, NULL); if (! objset) goto finish; fontset = FcFontList (NULL, pattern, objset); if (! fontset) goto finish; for (i = 0; i < fontset->nfont; i++) { FcPattern *pat = fontset->fonts[i]; FcChar8 *str; if (FcPatternGetString (pat, FC_FAMILY, 0, &str) == FcResultMatch) list = Fcons (intern ((char *) str), list); } finish: if (objset) FcObjectSetDestroy (objset); if (fontset) FcFontSetDestroy (fontset); if (pattern) FcPatternDestroy (pattern); return list; } Lisp_Object ftfont_open2 (struct frame *f, Lisp_Object entity, int pixel_size, Lisp_Object font_object) { struct ftfont_info *ftfont_info; struct font *font; struct ftfont_cache_data *cache_data; FT_Face ft_face; FT_Size ft_size; FT_UInt size; Lisp_Object val, filename, idx, cache; bool scalable; int spacing; int i; double upEM; val = assq_no_quit (QCfont_entity, AREF (entity, FONT_EXTRA_INDEX)); if (! CONSP (val)) return Qnil; val = XCDR (val); cache = ftfont_lookup_cache (entity, FTFONT_CACHE_FOR_FACE); if (NILP (cache)) return Qnil; filename = XCAR (val); idx = XCDR (val); val = XCDR (cache); cache_data = XSAVE_POINTER (XCDR (cache), 0); ft_face = cache_data->ft_face; if (XSAVE_INTEGER (val, 1) > 0) { /* FT_Face in this cache is already used by the different size. */ if (FT_New_Size (ft_face, &ft_size) != 0) return Qnil; if (FT_Activate_Size (ft_size) != 0) { FT_Done_Size (ft_size); return Qnil; } } set_save_integer (val, 1, XSAVE_INTEGER (val, 1) + 1); size = XINT (AREF (entity, FONT_SIZE_INDEX)); if (size == 0) size = pixel_size; if (FT_Set_Pixel_Sizes (ft_face, size, size) != 0) { if (XSAVE_INTEGER (val, 1) == 0) FT_Done_Face (ft_face); return Qnil; } ASET (font_object, FONT_FILE_INDEX, filename); font = XFONT_OBJECT (font_object); ftfont_info = (struct ftfont_info *) font; ftfont_info->ft_size = ft_face->size; ftfont_info->index = XINT (idx); #ifdef HAVE_LIBOTF ftfont_info->maybe_otf = (ft_face->face_flags & FT_FACE_FLAG_SFNT) != 0; ftfont_info->otf = NULL; #endif /* HAVE_LIBOTF */ /* This means that there's no need of transformation. */ ftfont_info->matrix.xx = 0; font->pixel_size = size; font->driver = &ftfont_driver; font->encoding_charset = font->repertory_charset = -1; upEM = ft_face->units_per_EM; scalable = (INTEGERP (AREF (entity, FONT_AVGWIDTH_INDEX)) && XINT (AREF (entity, FONT_AVGWIDTH_INDEX)) == 0); if (scalable) { font->ascent = ft_face->ascender * size / upEM + 0.5; font->descent = - ft_face->descender * size / upEM + 0.5; font->height = ft_face->height * size / upEM + 0.5; } else { font->ascent = ft_face->size->metrics.ascender >> 6; font->descent = - ft_face->size->metrics.descender >> 6; font->height = ft_face->size->metrics.height >> 6; } if (INTEGERP (AREF (entity, FONT_SPACING_INDEX))) spacing = XINT (AREF (entity, FONT_SPACING_INDEX)); else spacing = FC_PROPORTIONAL; if (spacing != FC_PROPORTIONAL #ifdef FC_DUAL && spacing != FC_DUAL #endif /* FC_DUAL */ ) font->min_width = font->average_width = font->space_width = (scalable ? ft_face->max_advance_width * size / upEM + 0.5 : ft_face->size->metrics.max_advance >> 6); else { int n; font->min_width = font->average_width = font->space_width = 0; for (i = 32, n = 0; i < 127; i++) if (FT_Load_Char (ft_face, i, FT_LOAD_DEFAULT) == 0) { int this_width = ft_face->glyph->metrics.horiAdvance >> 6; if (this_width > 0 && (! font->min_width || font->min_width > this_width)) font->min_width = this_width; if (i == 32) font->space_width = this_width; font->average_width += this_width; n++; } if (n > 0) font->average_width /= n; } font->baseline_offset = 0; font->relative_compose = 0; font->default_ascent = 0; font->vertical_centering = 0; if (scalable) { font->underline_position = (-ft_face->underline_position * size / upEM + 0.5); font->underline_thickness = (ft_face->underline_thickness * size / upEM + 0.5); } else { font->underline_position = -1; font->underline_thickness = 0; } return font_object; } Lisp_Object ftfont_open (struct frame *f, Lisp_Object entity, int pixel_size) { Lisp_Object font_object; FT_UInt size; size = XINT (AREF (entity, FONT_SIZE_INDEX)); if (size == 0) size = pixel_size; font_object = font_build_object (VECSIZE (struct ftfont_info), Qfreetype, entity, size); return ftfont_open2 (f, entity, pixel_size, font_object); } void ftfont_close (struct font *font) { /* FIXME: Although this function can be called while garbage-collecting, the function assumes that Lisp data structures are properly-formed. This invalid assumption can lead to core dumps (Bug#20890). */ struct ftfont_info *ftfont_info = (struct ftfont_info *) font; Lisp_Object val, cache; val = Fcons (font->props[FONT_FILE_INDEX], make_number (ftfont_info->index)); cache = ftfont_lookup_cache (val, FTFONT_CACHE_FOR_FACE); eassert (CONSP (cache)); val = XCDR (cache); set_save_integer (val, 1, XSAVE_INTEGER (val, 1) - 1); if (XSAVE_INTEGER (val, 1) == 0) { struct ftfont_cache_data *cache_data = XSAVE_POINTER (val, 0); FT_Done_Face (cache_data->ft_face); #ifdef HAVE_LIBOTF if (ftfont_info->otf) OTF_close (ftfont_info->otf); #endif cache_data->ft_face = NULL; } else FT_Done_Size (ftfont_info->ft_size); } int ftfont_has_char (Lisp_Object font, int c) { struct charset *cs = NULL; if (EQ (AREF (font, FONT_ADSTYLE_INDEX), Qja) && charset_jisx0208 >= 0) cs = CHARSET_FROM_ID (charset_jisx0208); else if (EQ (AREF (font, FONT_ADSTYLE_INDEX), Qko) && charset_ksc5601 >= 0) cs = CHARSET_FROM_ID (charset_ksc5601); if (cs) return (ENCODE_CHAR (cs, c) != CHARSET_INVALID_CODE (cs)); if (FONT_ENTITY_P (font)) { FcCharSet *charset = ftfont_get_fc_charset (font); return (FcCharSetHasChar (charset, c) == FcTrue); } else { struct ftfont_info *ftfont_info; ftfont_info = (struct ftfont_info *) XFONT_OBJECT (font); return (FT_Get_Char_Index (ftfont_info->ft_size->face, (FT_ULong) c) != 0); } } unsigned ftfont_encode_char (struct font *font, int c) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; FT_Face ft_face = ftfont_info->ft_size->face; FT_ULong charcode = c; FT_UInt code = FT_Get_Char_Index (ft_face, charcode); return (code > 0 ? code : FONT_INVALID_CODE); } void ftfont_text_extents (struct font *font, unsigned int *code, int nglyphs, struct font_metrics *metrics) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; FT_Face ft_face = ftfont_info->ft_size->face; int i, width = 0; bool first; if (ftfont_info->ft_size != ft_face->size) FT_Activate_Size (ftfont_info->ft_size); for (i = 0, first = 1; i < nglyphs; i++) { if (FT_Load_Glyph (ft_face, code[i], FT_LOAD_DEFAULT) == 0) { FT_Glyph_Metrics *m = &ft_face->glyph->metrics; if (first) { metrics->lbearing = m->horiBearingX >> 6; metrics->rbearing = (m->horiBearingX + m->width) >> 6; metrics->ascent = m->horiBearingY >> 6; metrics->descent = (m->height - m->horiBearingY) >> 6; first = 0; } if (metrics->lbearing > width + (m->horiBearingX >> 6)) metrics->lbearing = width + (m->horiBearingX >> 6); if (metrics->rbearing < width + ((m->horiBearingX + m->width) >> 6)) metrics->rbearing = width + ((m->horiBearingX + m->width) >> 6); if (metrics->ascent < (m->horiBearingY >> 6)) metrics->ascent = m->horiBearingY >> 6; if (metrics->descent > ((m->height - m->horiBearingY) >> 6)) metrics->descent = (m->height - m->horiBearingY) >> 6; width += m->horiAdvance >> 6; } else width += font->space_width; } metrics->width = width; } int ftfont_get_bitmap (struct font *font, unsigned int code, struct font_bitmap *bitmap, int bits_per_pixel) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; FT_Face ft_face = ftfont_info->ft_size->face; FT_Int32 load_flags = FT_LOAD_RENDER; if (ftfont_info->ft_size != ft_face->size) FT_Activate_Size (ftfont_info->ft_size); if (bits_per_pixel == 1) { #ifdef FT_LOAD_TARGET_MONO load_flags |= FT_LOAD_TARGET_MONO; #else load_flags |= FT_LOAD_MONOCHROME; #endif } else if (bits_per_pixel != 8) /* We don't support such a rendering. */ return -1; if (FT_Load_Glyph (ft_face, code, load_flags) != 0) return -1; bitmap->bits_per_pixel = (ft_face->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_MONO ? 1 : ft_face->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_GRAY ? 8 : ft_face->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_LCD ? 8 : ft_face->glyph->bitmap.pixel_mode == FT_PIXEL_MODE_LCD_V ? 8 : -1); if (bitmap->bits_per_pixel < 0) /* We don't support that kind of pixel mode. */ return -1; bitmap->rows = ft_face->glyph->bitmap.rows; bitmap->width = ft_face->glyph->bitmap.width; bitmap->pitch = ft_face->glyph->bitmap.pitch; bitmap->buffer = ft_face->glyph->bitmap.buffer; bitmap->left = ft_face->glyph->bitmap_left; bitmap->top = ft_face->glyph->bitmap_top; bitmap->advance = ft_face->glyph->metrics.horiAdvance >> 6; return 0; } int ftfont_anchor_point (struct font *font, unsigned int code, int idx, int *x, int *y) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; FT_Face ft_face = ftfont_info->ft_size->face; if (ftfont_info->ft_size != ft_face->size) FT_Activate_Size (ftfont_info->ft_size); if (FT_Load_Glyph (ft_face, code, FT_LOAD_DEFAULT) != 0) return -1; if (ft_face->glyph->format != FT_GLYPH_FORMAT_OUTLINE) return -1; if (idx >= ft_face->glyph->outline.n_points) return -1; *x = ft_face->glyph->outline.points[idx].x; *y = ft_face->glyph->outline.points[idx].y; return 0; } #ifdef HAVE_LIBOTF static Lisp_Object ftfont_otf_features (OTF_GSUB_GPOS *gsub_gpos) { Lisp_Object scripts, langsyses, features, sym; int i, j, k, l; for (scripts = Qnil, i = gsub_gpos->ScriptList.ScriptCount - 1; i >= 0; i--) { OTF_Script *otf_script = gsub_gpos->ScriptList.Script + i; for (langsyses = Qnil, j = otf_script->LangSysCount - 1; j >= -1; j--) { OTF_LangSys *otf_langsys; if (j >= 0) otf_langsys = otf_script->LangSys + j; else if (otf_script->DefaultLangSysOffset) otf_langsys = &otf_script->DefaultLangSys; else break; for (features = Qnil, k = otf_langsys->FeatureCount - 1; k >= 0; k--) { l = otf_langsys->FeatureIndex[k]; if (l >= gsub_gpos->FeatureList.FeatureCount) continue; OTF_TAG_SYM (sym, gsub_gpos->FeatureList.Feature[l].FeatureTag); features = Fcons (sym, features); } if (j >= 0) OTF_TAG_SYM (sym, otf_script->LangSysRecord[j].LangSysTag); else sym = Qnil; langsyses = Fcons (Fcons (sym, features), langsyses); } OTF_TAG_SYM (sym, gsub_gpos->ScriptList.Script[i].ScriptTag); scripts = Fcons (Fcons (sym, langsyses), scripts); } return scripts; } Lisp_Object ftfont_otf_capability (struct font *font) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; OTF *otf = ftfont_get_otf (ftfont_info); Lisp_Object gsub_gpos; if (! otf) return Qnil; gsub_gpos = Fcons (Qnil, Qnil); if (OTF_get_table (otf, "GSUB") == 0 && otf->gsub->FeatureList.FeatureCount > 0) XSETCAR (gsub_gpos, ftfont_otf_features (otf->gsub)); if (OTF_get_table (otf, "GPOS") == 0 && otf->gpos->FeatureList.FeatureCount > 0) XSETCDR (gsub_gpos, ftfont_otf_features (otf->gpos)); return gsub_gpos; } #ifdef HAVE_M17N_FLT #if (((LIBOTF_MAJOR_VERSION > 1) || (LIBOTF_RELEASE_NUMBER >= 10)) \ && ((M17NLIB_MAJOR_VERSION > 1) || (M17NLIB_MINOR_VERSION >= 6))) /* We can use the new feature of libotf and m17n-flt to handle the character encoding scheme introduced in Unicode 5.1 and 5.2 for some Agian scripts. */ #define M17N_FLT_USE_NEW_FEATURE #endif struct MFLTFontFT { MFLTFont flt_font; struct font *font; FT_Face ft_face; OTF *otf; FT_Matrix *matrix; }; /* The actual type of elements in the array MFLTGlyphString.glyphs. We use this structure instead of MFLTGlyph to utilize the new feature of libotf ver.0.9.15 which requires saving and restoring the value of OTF_GlyphString.positioning_type in the succeeding calls of the callback function MFLTFont.drive_otf (which is set to ftfont_drive_otf). */ typedef struct { MFLTGlyph g; unsigned int libotf_positioning_type; } MFLTGlyphFT; static int ftfont_get_glyph_id (MFLTFont *font, MFLTGlyphString *gstring, int from, int to) { struct MFLTFontFT *flt_font_ft = (struct MFLTFontFT *) font; FT_Face ft_face = flt_font_ft->ft_face; MFLTGlyphFT *g; for (g = (MFLTGlyphFT *) (gstring->glyphs) + from; from < to; g++, from++) if (! g->g.encoded) { FT_UInt code = FT_Get_Char_Index (ft_face, g->g.code); g->g.code = code > 0 ? code : FONT_INVALID_CODE; g->g.encoded = 1; } return 0; } /* Operators for 26.6 fixed fractional pixel format */ #define FLOOR(x) ((x) & -64) #define CEIL(x) (((x)+63) & -64) #define ROUND(x) (((x)+32) & -64) static int ftfont_get_metrics (MFLTFont *font, MFLTGlyphString *gstring, int from, int to) { struct MFLTFontFT *flt_font_ft = (struct MFLTFontFT *) font; FT_Face ft_face = flt_font_ft->ft_face; MFLTGlyphFT *g; for (g = (MFLTGlyphFT *) (gstring->glyphs) + from; from < to; g++, from++) if (! g->g.measured) { if (g->g.code != FONT_INVALID_CODE) { FT_Glyph_Metrics *m; if (FT_Load_Glyph (ft_face, g->g.code, FT_LOAD_DEFAULT) != 0) emacs_abort (); m = &ft_face->glyph->metrics; if (flt_font_ft->matrix) { FT_Vector v[4]; int i; v[0].x = v[1].x = m->horiBearingX; v[2].x = v[3].x = m->horiBearingX + m->width; v[0].y = v[2].y = m->horiBearingY; v[1].y = v[3].y = m->horiBearingY - m->height; for (i = 0; i < 4; i++) FT_Vector_Transform (v + i, flt_font_ft->matrix); g->g.lbearing = v[0].x < v[1].x ? FLOOR (v[0].x) : FLOOR (v[1].x); g->g.rbearing = v[2].x > v[3].x ? CEIL (v[2].x) : CEIL (v[3].x); g->g.ascent = v[0].y > v[2].y ? CEIL (v[0].y) : CEIL (v[2].y); g->g.descent = v[1].y < v[3].y ? - FLOOR (v[1].y) : - FLOOR (v[3].y); } else { g->g.lbearing = FLOOR (m->horiBearingX); g->g.rbearing = CEIL (m->horiBearingX + m->width); g->g.ascent = CEIL (m->horiBearingY); g->g.descent = - FLOOR (m->horiBearingY - m->height); } g->g.xadv = ROUND (ft_face->glyph->advance.x); } else { g->g.lbearing = 0; g->g.rbearing = g->g.xadv = flt_font_ft->font->space_width << 6; g->g.ascent = flt_font_ft->font->ascent << 6; g->g.descent = flt_font_ft->font->descent << 6; } g->g.yadv = 0; g->g.measured = 1; } return 0; } static int ftfont_check_otf (MFLTFont *font, MFLTOtfSpec *spec) { #define FEATURE_NONE(IDX) (! spec->features[IDX]) #define FEATURE_ANY(IDX) \ (spec->features[IDX] \ && spec->features[IDX][0] == 0xFFFFFFFF && spec->features[IDX][1] == 0) struct MFLTFontFT *flt_font_ft = (struct MFLTFontFT *) font; OTF *otf = flt_font_ft->otf; OTF_Tag *tags; int i, n; bool negative; if (FEATURE_ANY (0) && FEATURE_ANY (1)) /* Return true iff any of GSUB or GPOS support the script (and language). */ return (otf && (OTF_check_features (otf, 0, spec->script, spec->langsys, NULL, 0) > 0 || OTF_check_features (otf, 1, spec->script, spec->langsys, NULL, 0) > 0)); for (i = 0; i < 2; i++) if (! FEATURE_ANY (i)) { if (FEATURE_NONE (i)) { if (otf && OTF_check_features (otf, i == 0, spec->script, spec->langsys, NULL, 0) > 0) return 0; continue; } if (spec->features[i][0] == 0xFFFFFFFF) { if (! otf || OTF_check_features (otf, i == 0, spec->script, spec->langsys, NULL, 0) <= 0) continue; } else if (! otf) return 0; for (n = 1; spec->features[i][n]; n++); USE_SAFE_ALLOCA; SAFE_NALLOCA (tags, 1, n); for (n = 0, negative = 0; spec->features[i][n]; n++) { if (spec->features[i][n] == 0xFFFFFFFF) negative = 1; else if (negative) tags[n - 1] = spec->features[i][n] | 0x80000000; else tags[n] = spec->features[i][n]; } bool passed = true; #ifndef M17N_FLT_USE_NEW_FEATURE passed = n - negative > 0; #endif if (passed) passed = (OTF_check_features (otf, i == 0, spec->script, spec->langsys, tags, n - negative) != 1); SAFE_FREE (); if (passed) return 0; } return 1; #undef FEATURE_NONE #undef FEATURE_ANY } #define DEVICE_DELTA(table, size) \ (((size) >= (table).StartSize && (size) <= (table).EndSize) \ ? (table).DeltaValue[(size) - (table).StartSize] << 6 \ : 0) static void adjust_anchor (FT_Face ft_face, OTF_Anchor *anchor, unsigned code, int x_ppem, int y_ppem, int *x, int *y) { if (anchor->AnchorFormat == 2) { FT_Outline *outline; int ap = anchor->f.f1.AnchorPoint; FT_Load_Glyph (ft_face, (FT_UInt) code, FT_LOAD_MONOCHROME); outline = &ft_face->glyph->outline; if (ap < outline->n_points) { *x = outline->points[ap].x << 6; *y = outline->points[ap].y << 6; } } else if (anchor->AnchorFormat == 3) { if (anchor->f.f2.XDeviceTable.offset && anchor->f.f2.XDeviceTable.DeltaValue) *x += DEVICE_DELTA (anchor->f.f2.XDeviceTable, x_ppem); if (anchor->f.f2.YDeviceTable.offset && anchor->f.f2.YDeviceTable.DeltaValue) *y += DEVICE_DELTA (anchor->f.f2.YDeviceTable, y_ppem); } } static OTF_GlyphString otf_gstring; static void setup_otf_gstring (int size) { if (otf_gstring.size < size) { ptrdiff_t new_size = otf_gstring.size; xfree (otf_gstring.glyphs); otf_gstring.glyphs = xpalloc (NULL, &new_size, size - otf_gstring.size, INT_MAX, sizeof *otf_gstring.glyphs); otf_gstring.size = new_size; } otf_gstring.used = size; memset (otf_gstring.glyphs, 0, sizeof (OTF_Glyph) * size); } #ifdef M17N_FLT_USE_NEW_FEATURE /* Pack 32-bit OTF tag (0x7F7F7F7F) into 28-bit (0x0FFFFFFF). */ #define PACK_OTF_TAG(TAG) \ ((((TAG) & 0x7F000000) >> 3) \ | (((TAG) & 0x7F0000) >> 2) \ | (((TAG) & 0x7F00) >> 1) \ | ((TAG) & 0x7F)) /* Assuming that FONT is an OpenType font, apply OpenType features specified in SPEC on glyphs between FROM and TO of IN, and record the lastly applied feature in each glyph of IN. If OUT is not NULL, append the resulting glyphs to OUT while storing glyph position adjustment information in ADJUSTMENT. */ static int ftfont_drive_otf (MFLTFont *font, MFLTOtfSpec *spec, MFLTGlyphString *in, int from, int to, MFLTGlyphString *out, MFLTGlyphAdjustment *adjustment) { struct MFLTFontFT *flt_font_ft = (struct MFLTFontFT *) font; MFLTGlyphFT *in_glyphs = (MFLTGlyphFT *) (in->glyphs) + from; MFLTGlyphFT *out_glyphs = out ? (MFLTGlyphFT *) (out->glyphs) : NULL; FT_Face ft_face = flt_font_ft->ft_face; OTF *otf = flt_font_ft->otf; int len = to - from; int i, j, gidx; OTF_Glyph *otfg; char script[5], *langsys = NULL; char *gsub_features = NULL, *gpos_features = NULL; OTF_Feature *features; if (len == 0) return from; OTF_tag_name (spec->script, script); char langsysbuf[5]; if (spec->langsys) { langsys = langsysbuf; OTF_tag_name (spec->langsys, langsys); } USE_SAFE_ALLOCA; for (i = 0; i < 2; i++) { char *p; if (spec->features[i] && spec->features[i][1] != 0xFFFFFFFF) { for (j = 0; spec->features[i][j]; j++); SAFE_NALLOCA (p, 6, j); if (i == 0) gsub_features = p; else gpos_features = p; for (j = 0; spec->features[i][j]; j++) { if (spec->features[i][j] == 0xFFFFFFFF) *p++ = '*', *p++ = ','; else { OTF_tag_name (spec->features[i][j], p); p[4] = ','; p += 5; } } *--p = '\0'; } } setup_otf_gstring (len); for (i = 0; i < len; i++) { otf_gstring.glyphs[i].c = in_glyphs[i].g.c & 0x11FFFF; otf_gstring.glyphs[i].glyph_id = in_glyphs[i].g.code; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT otf_gstring.glyphs[i].positioning_type = in_glyphs[i].libotf_positioning_type; #endif } OTF_drive_gdef (otf, &otf_gstring); gidx = out ? out->used : from; if (gsub_features && out) { #ifdef OTF_POSITIONING_TYPE_GET_FORMAT if (OTF_drive_gsub_features (otf, &otf_gstring, script, langsys, gsub_features) < 0) goto simple_copy; #else if (OTF_drive_gsub_with_log (otf, &otf_gstring, script, langsys, gsub_features) < 0) goto simple_copy; #endif if (out->allocated < out->used + otf_gstring.used) { SAFE_FREE (); return -2; } features = otf->gsub->FeatureList.Feature; for (i = 0, otfg = otf_gstring.glyphs; i < otf_gstring.used; ) { MFLTGlyphFT *g; int min_from, max_to; int feature_idx; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT feature_idx = OTF_POSITIONING_TYPE_GET_FEATURE (otfg); #else feature_idx = otfg->positioning_type >> 4; #endif g = out_glyphs + out->used; *g = in_glyphs[otfg->f.index.from]; if (g->g.code != otfg->glyph_id) { g->g.c = 0; g->g.code = otfg->glyph_id; g->g.measured = 0; } out->used++; min_from = g->g.from; max_to = g->g.to; if (otfg->f.index.from < otfg->f.index.to) { /* OTFG substitutes multiple glyphs in IN. */ for (j = otfg->f.index.from + 1; j <= otfg->f.index.to; j++) { if (min_from > in_glyphs[j].g.from) min_from = in_glyphs[j].g.from; if (max_to < in_glyphs[j].g.to) max_to = in_glyphs[j].g.to; } g->g.from = min_from; g->g.to = max_to; } if (feature_idx) { unsigned int tag = features[feature_idx - 1].FeatureTag; tag = PACK_OTF_TAG (tag); g->g.internal = (g->g.internal & ~0x1FFFFFFF) | tag; } #ifdef OTF_POSITIONING_TYPE_GET_FORMAT g->libotf_positioning_type = otfg->positioning_type & OTF_positioning_type_components_mask; #endif for (i++, otfg++; (i < otf_gstring.used && otfg->f.index.from == otfg[-1].f.index.from); i++, otfg++) { g = out_glyphs + out->used; *g = in_glyphs[otfg->f.index.to]; if (g->g.code != otfg->glyph_id) { g->g.c = 0; g->g.code = otfg->glyph_id; g->g.measured = 0; } #ifdef OTF_POSITIONING_TYPE_GET_FORMAT feature_idx = OTF_POSITIONING_TYPE_GET_FEATURE (otfg); #else feature_idx = otfg->positioning_type >> 4; #endif if (feature_idx) { unsigned int tag = features[feature_idx - 1].FeatureTag; tag = PACK_OTF_TAG (tag); g->g.internal = (g->g.internal & ~0x1FFFFFFF) | tag; } #ifdef OTF_POSITIONING_TYPE_GET_FORMAT g->libotf_positioning_type = otfg->positioning_type & OTF_positioning_type_components_mask; #endif out->used++; } } } else if (gsub_features) { /* Just for checking which features will be applied. */ #ifdef OTF_POSITIONING_TYPE_GET_FORMAT if (OTF_drive_gsub_features (otf, &otf_gstring, script, langsys, gsub_features) < 0) goto simple_copy; #else if (OTF_drive_gsub_with_log (otf, &otf_gstring, script, langsys, gsub_features) < 0) goto simple_copy; #endif features = otf->gsub->FeatureList.Feature; for (i = 0, otfg = otf_gstring.glyphs; i < otf_gstring.used; i++, otfg++) { int feature_idx; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT feature_idx = OTF_POSITIONING_TYPE_GET_FEATURE (otfg); #else feature_idx = otfg->positioning_type >> 4; #endif if (feature_idx) { unsigned int tag = features[feature_idx - 1].FeatureTag; tag = PACK_OTF_TAG (tag); for (j = otfg->f.index.from; j <= otfg->f.index.to; j++) { MFLTGlyphFT *g = in_glyphs + j; g->g.internal = (g->g.internal & ~0x1FFFFFFF) | tag; } } } } else if (out) { if (out->allocated < out->used + len) { SAFE_FREE (); return -2; } for (i = 0; i < len; i++) out_glyphs[out->used++] = in_glyphs[i]; } if (gpos_features && out) { MFLTGlyphFT *base = NULL, *mark = NULL, *g; int x_ppem, y_ppem, x_scale, y_scale; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT if (OTF_drive_gpos_features (otf, &otf_gstring, script, langsys, gpos_features) < 0) { SAFE_FREE (); return to; } #else if (OTF_drive_gpos_with_log (otf, &otf_gstring, script, langsys, gpos_features) < 0) { SAFE_FREE (); return to; } #endif features = otf->gpos->FeatureList.Feature; x_ppem = ft_face->size->metrics.x_ppem; y_ppem = ft_face->size->metrics.y_ppem; x_scale = ft_face->size->metrics.x_scale; y_scale = ft_face->size->metrics.y_scale; for (i = 0, otfg = otf_gstring.glyphs, g = out_glyphs + gidx; i < otf_gstring.used; i++, otfg++) { MFLTGlyphAdjustment *adjust = adjustment; MFLTGlyphFT *prev; int positioning_type, feature_idx; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT positioning_type = OTF_POSITIONING_TYPE_GET_FORMAT (otfg); feature_idx = OTF_POSITIONING_TYPE_GET_FEATURE (otfg); #else positioning_type = otfg->positioning_type & 0xF; feature_idx = otfg->positioning_type >> 4; #endif if (feature_idx) { unsigned int tag = features[feature_idx - 1].FeatureTag; tag = PACK_OTF_TAG (tag); g->g.internal = (g->g.internal & ~0x1FFFFFFF) | tag; } if (! otfg->glyph_id) /* This is a pseudo glyph that contains positioning information to be accumulated to a real glyph. */ adjust--; switch (positioning_type) { case 0: break; case 1: /* Single */ case 2: /* Pair */ { int format = otfg->f.f1.format; if (format & OTF_XPlacement) adjust->xoff = otfg->f.f1.value->XPlacement * x_scale / 0x10000; if (format & OTF_XPlaDevice) adjust->xoff += DEVICE_DELTA (otfg->f.f1.value->XPlaDevice, x_ppem); if (format & OTF_YPlacement) adjust->yoff = - (otfg->f.f1.value->YPlacement * y_scale / 0x10000); if (format & OTF_YPlaDevice) adjust->yoff -= DEVICE_DELTA (otfg->f.f1.value->YPlaDevice, y_ppem); if (format & OTF_XAdvance) adjust->xadv += otfg->f.f1.value->XAdvance * x_scale / 0x10000; if (format & OTF_XAdvDevice) adjust->xadv += DEVICE_DELTA (otfg->f.f1.value->XAdvDevice, x_ppem); if (format & OTF_YAdvance) adjust->yadv += otfg->f.f1.value->YAdvance * y_scale / 0x10000; if (format & OTF_YAdvDevice) adjust->yadv += DEVICE_DELTA (otfg->f.f1.value->YAdvDevice, y_ppem); adjust->set = 1; } break; case 3: /* Cursive */ /* Not yet supported. */ break; case 4: /* Mark-to-Base */ case 5: /* Mark-to-Ligature */ if (! base) break; prev = base; goto label_adjust_anchor; default: /* i.e. case 6 Mark-to-Mark */ if (! mark) break; prev = mark; #ifdef OTF_POSITIONING_TYPE_GET_FORMAT { int distance = OTF_POSITIONING_TYPE_GET_MARKDISTANCE (otfg); if (distance > 0) { prev = g - distance; if (prev < out_glyphs) prev = mark; } } #endif label_adjust_anchor: { int base_x, base_y, mark_x, mark_y; int this_from, this_to; base_x = otfg->f.f4.base_anchor->XCoordinate * x_scale / 0x10000; base_y = otfg->f.f4.base_anchor->YCoordinate * y_scale / 0x10000; mark_x = otfg->f.f4.mark_anchor->XCoordinate * x_scale / 0x10000; mark_y = otfg->f.f4.mark_anchor->YCoordinate * y_scale / 0x10000; if (otfg->f.f4.base_anchor->AnchorFormat != 1) adjust_anchor (ft_face, otfg->f.f4.base_anchor, prev->g.code, x_ppem, y_ppem, &base_x, &base_y); if (otfg->f.f4.mark_anchor->AnchorFormat != 1) adjust_anchor (ft_face, otfg->f.f4.mark_anchor, g->g.code, x_ppem, y_ppem, &mark_x, &mark_y); adjust->xoff = (base_x - mark_x); adjust->yoff = - (base_y - mark_y); adjust->back = (g - prev); adjust->xadv = 0; adjust->advance_is_absolute = 1; adjust->set = 1; this_from = g->g.from; this_to = g->g.to; for (j = 0; prev + j < g; j++) { if (this_from > prev[j].g.from) this_from = prev[j].g.from; if (this_to < prev[j].g.to) this_to = prev[j].g.to; } for (; prev <= g; prev++) { prev->g.from = this_from; prev->g.to = this_to; } } } if (otfg->glyph_id) { if (otfg->GlyphClass == OTF_GlyphClass0) base = mark = g; else if (otfg->GlyphClass == OTF_GlyphClassMark) mark = g; else base = g; g++, adjustment++; } } } else if (gpos_features) { if (OTF_drive_gpos_with_log (otf, &otf_gstring, script, langsys, gpos_features) < 0) { SAFE_FREE (); return to; } features = otf->gpos->FeatureList.Feature; for (i = 0, otfg = otf_gstring.glyphs; i < otf_gstring.used; i++, otfg++) if (otfg->positioning_type & 0xF) { int feature_idx = otfg->positioning_type >> 4; if (feature_idx) { unsigned int tag = features[feature_idx - 1].FeatureTag; tag = PACK_OTF_TAG (tag); for (j = otfg->f.index.from; j <= otfg->f.index.to; j++) { MFLTGlyphFT *g = in_glyphs + j; g->g.internal = (g->g.internal & ~0x1FFFFFFF) | tag; } } } } SAFE_FREE (); return to; simple_copy: SAFE_FREE (); if (! out) return to; if (out->allocated < out->used + len) return -2; font->get_metrics (font, in, from, to); memcpy (out->glyphs + out->used, in_glyphs, sizeof (MFLTGlyphFT) * len); out->used += len; return to; } static int ftfont_try_otf (MFLTFont *font, MFLTOtfSpec *spec, MFLTGlyphString *in, int from, int to) { return ftfont_drive_otf (font, spec, in, from, to, NULL, NULL); } #else /* not M17N_FLT_USE_NEW_FEATURE */ static int ftfont_drive_otf (MFLTFont *font, MFLTOtfSpec *spec, MFLTGlyphString *in, int from, int to, MFLTGlyphString *out, MFLTGlyphAdjustment *adjustment) { struct MFLTFontFT *flt_font_ft = (struct MFLTFontFT *) font; MFLTGlyphFT *in_glyphs = (MFLTGlyphFT *) (in->glyphs) + from; MFLTGlyphFT *out_glyphs = out ? (MFLTGlyphFT *) (out->glyphs) : NULL; FT_Face ft_face = flt_font_ft->ft_face; OTF *otf = flt_font_ft->otf; int len = to - from; int i, j, gidx; OTF_Glyph *otfg; char script[5], *langsys = NULL; char *gsub_features = NULL, *gpos_features = NULL; if (len == 0) return from; OTF_tag_name (spec->script, script); char langsysbuf[5]; if (spec->langsys) { langsys = langsysbuf; OTF_tag_name (spec->langsys, langsys); } USE_SAFE_ALLOCA; for (i = 0; i < 2; i++) { char *p; if (spec->features[i] && spec->features[i][1] != 0xFFFFFFFF) { for (j = 0; spec->features[i][j]; j++); SAFE_NALLOCA (p, 6, j); if (i == 0) gsub_features = p; else gpos_features = p; for (j = 0; spec->features[i][j]; j++) { if (spec->features[i][j] == 0xFFFFFFFF) *p++ = '*', *p++ = ','; else { OTF_tag_name (spec->features[i][j], p); p[4] = ','; p += 5; } } *--p = '\0'; } } setup_otf_gstring (len); for (i = 0; i < len; i++) { otf_gstring.glyphs[i].c = in_glyphs[i].g.c; otf_gstring.glyphs[i].glyph_id = in_glyphs[i].g.code; } OTF_drive_gdef (otf, &otf_gstring); gidx = out->used; if (gsub_features) { if (OTF_drive_gsub (otf, &otf_gstring, script, langsys, gsub_features) < 0) goto simple_copy; if (out->allocated < out->used + otf_gstring.used) { SAFE_FREE (); return -2; } for (i = 0, otfg = otf_gstring.glyphs; i < otf_gstring.used; ) { MFLTGlyphFT *g; int min_from, max_to; int j; g = out_glyphs + out->used; *g = in_glyphs[otfg->f.index.from]; if (g->g.code != otfg->glyph_id) { g->g.c = 0; g->g.code = otfg->glyph_id; g->g.measured = 0; } out->used++; min_from = g->g.from; max_to = g->g.to; if (otfg->f.index.from < otfg->f.index.to) { /* OTFG substitutes multiple glyphs in IN. */ for (j = from + otfg->f.index.from + 1; j <= from + otfg->f.index.to; j++) { if (min_from > in->glyphs[j].from) min_from = in->glyphs[j].from; if (max_to < in->glyphs[j].to) max_to = in->glyphs[j].to; } g->g.from = min_from; g->g.to = max_to; } for (i++, otfg++; (i < otf_gstring.used && otfg->f.index.from == otfg[-1].f.index.from); i++, otfg++) { g = out_glyphs + out->used; *g = in_glyphs[otfg->f.index.to]; if (g->g.code != otfg->glyph_id) { g->g.c = 0; g->g.code = otfg->glyph_id; g->g.measured = 0; } out->used++; } } } else { if (out->allocated < out->used + len) { SAFE_FREE (); return -2; } for (i = 0; i < len; i++) out_glyphs[out->used++] = in_glyphs[i]; } if (gpos_features) { MFLTGlyphFT *base = NULL, *mark = NULL, *g; int x_ppem, y_ppem, x_scale, y_scale; if (OTF_drive_gpos (otf, &otf_gstring, script, langsys, gpos_features) < 0) { SAFE_FREE (); return to; } x_ppem = ft_face->size->metrics.x_ppem; y_ppem = ft_face->size->metrics.y_ppem; x_scale = ft_face->size->metrics.x_scale; y_scale = ft_face->size->metrics.y_scale; for (i = 0, otfg = otf_gstring.glyphs, g = out_glyphs + gidx; i < otf_gstring.used; i++, otfg++, g++) { MFLTGlyphFT *prev; if (! otfg->glyph_id) continue; switch (otfg->positioning_type) { case 0: break; case 1: /* Single */ case 2: /* Pair */ { int format = otfg->f.f1.format; if (format & OTF_XPlacement) adjustment[i].xoff = otfg->f.f1.value->XPlacement * x_scale / 0x10000; if (format & OTF_XPlaDevice) adjustment[i].xoff += DEVICE_DELTA (otfg->f.f1.value->XPlaDevice, x_ppem); if (format & OTF_YPlacement) adjustment[i].yoff = - (otfg->f.f1.value->YPlacement * y_scale / 0x10000); if (format & OTF_YPlaDevice) adjustment[i].yoff -= DEVICE_DELTA (otfg->f.f1.value->YPlaDevice, y_ppem); if (format & OTF_XAdvance) adjustment[i].xadv += otfg->f.f1.value->XAdvance * x_scale / 0x10000; if (format & OTF_XAdvDevice) adjustment[i].xadv += DEVICE_DELTA (otfg->f.f1.value->XAdvDevice, x_ppem); if (format & OTF_YAdvance) adjustment[i].yadv += otfg->f.f1.value->YAdvance * y_scale / 0x10000; if (format & OTF_YAdvDevice) adjustment[i].yadv += DEVICE_DELTA (otfg->f.f1.value->YAdvDevice, y_ppem); adjustment[i].set = 1; } break; case 3: /* Cursive */ /* Not yet supported. */ break; case 4: /* Mark-to-Base */ case 5: /* Mark-to-Ligature */ if (! base) break; prev = base; goto label_adjust_anchor; default: /* i.e. case 6 Mark-to-Mark */ if (! mark) break; prev = mark; label_adjust_anchor: { int base_x, base_y, mark_x, mark_y; int this_from, this_to; base_x = otfg->f.f4.base_anchor->XCoordinate * x_scale / 0x10000; base_y = otfg->f.f4.base_anchor->YCoordinate * y_scale / 0x10000; mark_x = otfg->f.f4.mark_anchor->XCoordinate * x_scale / 0x10000; mark_y = otfg->f.f4.mark_anchor->YCoordinate * y_scale / 0x10000; if (otfg->f.f4.base_anchor->AnchorFormat != 1) adjust_anchor (ft_face, otfg->f.f4.base_anchor, prev->g.code, x_ppem, y_ppem, &base_x, &base_y); if (otfg->f.f4.mark_anchor->AnchorFormat != 1) adjust_anchor (ft_face, otfg->f.f4.mark_anchor, g->g.code, x_ppem, y_ppem, &mark_x, &mark_y); adjustment[i].xoff = (base_x - mark_x); adjustment[i].yoff = - (base_y - mark_y); adjustment[i].back = (g - prev); adjustment[i].xadv = 0; adjustment[i].advance_is_absolute = 1; adjustment[i].set = 1; this_from = g->g.from; this_to = g->g.to; for (j = 0; prev + j < g; j++) { if (this_from > prev[j].g.from) this_from = prev[j].g.from; if (this_to < prev[j].g.to) this_to = prev[j].g.to; } for (; prev <= g; prev++) { prev->g.from = this_from; prev->g.to = this_to; } } } if (otfg->GlyphClass == OTF_GlyphClass0) base = mark = g; else if (otfg->GlyphClass == OTF_GlyphClassMark) mark = g; else base = g; } } SAFE_FREE (); return to; simple_copy: SAFE_FREE (); if (out->allocated < out->used + len) return -2; font->get_metrics (font, in, from, to); memcpy (out_glyphs + out->used, in_glyphs, sizeof (MFLTGlyphFT) * len); out->used += len; return to; } #endif /* not M17N_FLT_USE_NEW_FEATURE */ static MFLTGlyphString gstring; static bool m17n_flt_initialized; static Lisp_Object ftfont_shape_by_flt (Lisp_Object lgstring, struct font *font, FT_Face ft_face, OTF *otf, FT_Matrix *matrix) { ptrdiff_t len = LGSTRING_GLYPH_LEN (lgstring); ptrdiff_t i; struct MFLTFontFT flt_font_ft; MFLT *flt = NULL; bool with_variation_selector = false; if (! m17n_flt_initialized) { M17N_INIT (); #ifdef M17N_FLT_USE_NEW_FEATURE mflt_enable_new_feature = 1; mflt_try_otf = ftfont_try_otf; #endif /* M17N_FLT_USE_NEW_FEATURE */ m17n_flt_initialized = 1; } for (i = 0; i < len; i++) { Lisp_Object g = LGSTRING_GLYPH (lgstring, i); int c; if (NILP (g)) break; c = LGLYPH_CHAR (g); if (CHAR_VARIATION_SELECTOR_P (c)) with_variation_selector = true; } len = i; if (otf && with_variation_selector) { setup_otf_gstring (len); for (i = 0; i < len; i++) { Lisp_Object g = LGSTRING_GLYPH (lgstring, i); otf_gstring.glyphs[i].c = LGLYPH_CHAR (g); otf_gstring.glyphs[i].f.index.from = LGLYPH_FROM (g); otf_gstring.glyphs[i].f.index.to = LGLYPH_TO (g); } OTF_drive_cmap (otf, &otf_gstring); for (i = 0; i < otf_gstring.used; i++) { OTF_Glyph *otfg = otf_gstring.glyphs + i; Lisp_Object g0 = LGSTRING_GLYPH (lgstring, otfg->f.index.from); Lisp_Object g1 = LGSTRING_GLYPH (lgstring, otfg->f.index.to); LGLYPH_SET_CODE (g0, otfg->glyph_id); LGLYPH_SET_TO (g0, LGLYPH_TO (g1)); LGSTRING_SET_GLYPH (lgstring, i, g0); } if (len > otf_gstring.used) { len = otf_gstring.used; LGSTRING_SET_GLYPH (lgstring, len, Qnil); } } { Lisp_Object family = Ffont_get (LGSTRING_FONT (lgstring), QCfamily); if (NILP (family)) flt_font_ft.flt_font.family = Mnil; else flt_font_ft.flt_font.family = msymbol (SSDATA (Fdowncase (SYMBOL_NAME (family)))); } flt_font_ft.flt_font.x_ppem = ft_face->size->metrics.x_ppem; flt_font_ft.flt_font.y_ppem = ft_face->size->metrics.y_ppem; flt_font_ft.flt_font.get_glyph_id = ftfont_get_glyph_id; flt_font_ft.flt_font.get_metrics = ftfont_get_metrics; flt_font_ft.flt_font.check_otf = ftfont_check_otf; flt_font_ft.flt_font.drive_otf = ftfont_drive_otf; flt_font_ft.flt_font.internal = NULL; flt_font_ft.font = font; flt_font_ft.ft_face = ft_face; flt_font_ft.otf = otf; flt_font_ft.matrix = matrix->xx != 0 ? matrix : 0; if (1 < len) { /* A little bit ad hoc. Perhaps, shaper must get script and language information, and select a proper flt for them here. */ int c1 = LGLYPH_CHAR (LGSTRING_GLYPH (lgstring, 1)); /* For the combining characters in the range U+300..U+36F, "combining" is the sole FLT provided by the m17n-lib. In addition, it is the sole FLT that can handle the other combining characters with non-OTF fonts. */ if ((0x300 <= c1 && c1 <= 0x36F) || (! otf && CHAR_HAS_CATEGORY (c1, '^'))) flt = mflt_get (msymbol ("combining")); } if (! flt && ! otf) { flt = mflt_find (LGLYPH_CHAR (LGSTRING_GLYPH (lgstring, 0)), &flt_font_ft.flt_font); if (! flt) return make_number (0); } MFLTGlyphFT *glyphs = (MFLTGlyphFT *) gstring.glyphs; ptrdiff_t allocated = gstring.allocated; ptrdiff_t incr_min = len - allocated; do { if (0 < incr_min) { xfree (glyphs); glyphs = xpalloc (NULL, &allocated, incr_min, INT_MAX, sizeof *glyphs); } incr_min = 1; for (i = 0; i < len; i++) { Lisp_Object g = LGSTRING_GLYPH (lgstring, i); memset (&glyphs[i], 0, sizeof glyphs[i]); glyphs[i].g.c = LGLYPH_CHAR (g); if (with_variation_selector) { glyphs[i].g.code = LGLYPH_CODE (g); glyphs[i].g.encoded = 1; } } gstring.glyph_size = sizeof *glyphs; gstring.glyphs = (MFLTGlyph *) glyphs; gstring.allocated = allocated; gstring.used = len; gstring.r2l = 0; } while (mflt_run (&gstring, 0, len, &flt_font_ft.flt_font, flt) == -2); if (gstring.used > LGSTRING_GLYPH_LEN (lgstring)) return Qnil; for (i = 0; i < gstring.used; i++) { MFLTGlyphFT *g = (MFLTGlyphFT *) (gstring.glyphs) + i; g->g.from = LGLYPH_FROM (LGSTRING_GLYPH (lgstring, g->g.from)); g->g.to = LGLYPH_TO (LGSTRING_GLYPH (lgstring, g->g.to)); } for (i = 0; i < gstring.used; i++) { Lisp_Object lglyph = LGSTRING_GLYPH (lgstring, i); MFLTGlyphFT *g = (MFLTGlyphFT *) (gstring.glyphs) + i; if (NILP (lglyph)) { lglyph = LGLYPH_NEW (); LGSTRING_SET_GLYPH (lgstring, i, lglyph); } LGLYPH_SET_FROM (lglyph, g->g.from); LGLYPH_SET_TO (lglyph, g->g.to); LGLYPH_SET_CHAR (lglyph, g->g.c); LGLYPH_SET_CODE (lglyph, g->g.code); LGLYPH_SET_WIDTH (lglyph, g->g.xadv >> 6); LGLYPH_SET_LBEARING (lglyph, g->g.lbearing >> 6); LGLYPH_SET_RBEARING (lglyph, g->g.rbearing >> 6); LGLYPH_SET_ASCENT (lglyph, g->g.ascent >> 6); LGLYPH_SET_DESCENT (lglyph, g->g.descent >> 6); if (g->g.adjusted) { Lisp_Object vec = make_uninit_vector (3); ASET (vec, 0, make_number (g->g.xoff >> 6)); ASET (vec, 1, make_number (g->g.yoff >> 6)); ASET (vec, 2, make_number (g->g.xadv >> 6)); LGLYPH_SET_ADJUSTMENT (lglyph, vec); } } return make_number (i); } Lisp_Object ftfont_shape (Lisp_Object lgstring) { struct font *font = CHECK_FONT_GET_OBJECT (LGSTRING_FONT (lgstring)); struct ftfont_info *ftfont_info = (struct ftfont_info *) font; OTF *otf = ftfont_get_otf (ftfont_info); return ftfont_shape_by_flt (lgstring, font, ftfont_info->ft_size->face, otf, &ftfont_info->matrix); } #endif /* HAVE_M17N_FLT */ #ifdef HAVE_OTF_GET_VARIATION_GLYPHS int ftfont_variation_glyphs (struct font *font, int c, unsigned variations[256]) { struct ftfont_info *ftfont_info = (struct ftfont_info *) font; OTF *otf = ftfont_get_otf (ftfont_info); if (! otf) return 0; return OTF_get_variation_glyphs (otf, c, variations); } #endif /* HAVE_OTF_GET_VARIATION_GLYPHS */ #endif /* HAVE_LIBOTF */ static const char *const ftfont_booleans [] = { ":antialias", ":hinting", ":verticallayout", ":autohint", ":globaladvance", ":outline", ":scalable", ":minspace", ":embolden", NULL, }; static const char *const ftfont_non_booleans [] = { ":family", ":familylang", ":style", ":stylelang", ":fullname", ":fullnamelang", ":slant", ":weight", ":size", ":width", ":aspect", ":pixelsize", ":spacing", ":foundry", ":hintstyle", ":file", ":index", ":ftface", ":rasterizer", ":scale", ":dpi", ":rgba", ":lcdfilter", ":charset", ":lang", ":fontversion", ":capability", NULL, }; void ftfont_filter_properties (Lisp_Object font, Lisp_Object alist) { font_filter_properties (font, alist, ftfont_booleans, ftfont_non_booleans); } Lisp_Object ftfont_combining_capability (struct font *font) { #ifdef HAVE_M17N_FLT return Qt; #else return Qnil; #endif } static struct font_driver const ftfont_driver = { /* We can't draw a text without device dependent functions. */ .type = LISPSYM_INITIALLY (Qfreetype), .get_cache = ftfont_get_cache, .list = ftfont_list, .match = ftfont_match, .list_family = ftfont_list_family, .open = ftfont_open, .close = ftfont_close, .has_char = ftfont_has_char, .encode_char = ftfont_encode_char, .text_extents = ftfont_text_extents, .get_bitmap = ftfont_get_bitmap, .anchor_point = ftfont_anchor_point, #ifdef HAVE_LIBOTF .otf_capability = ftfont_otf_capability, #endif #if defined HAVE_M17N_FLT && defined HAVE_LIBOTF .shape = ftfont_shape, #endif #ifdef HAVE_OTF_GET_VARIATION_GLYPHS .get_variation_glyphs = ftfont_variation_glyphs, #endif .filter_properties = ftfont_filter_properties, .combining_capability = ftfont_combining_capability, }; void syms_of_ftfont (void) { /* Symbolic type of this font-driver. */ DEFSYM (Qfreetype, "freetype"); /* Fontconfig's generic families and their aliases. */ DEFSYM (Qmonospace, "monospace"); DEFSYM (Qsans_serif, "sans-serif"); DEFSYM (Qsans, "sans"); DEFSYM (Qsans__serif, "sans serif"); staticpro (&freetype_font_cache); freetype_font_cache = list1 (Qt); staticpro (&ftfont_generic_family_list); ftfont_generic_family_list = list3 (Fcons (Qmonospace, Qt), Fcons (Qsans_serif, Qt), Fcons (Qsans, Qt)); staticpro (&ft_face_cache); ft_face_cache = Qnil; register_font_driver (&ftfont_driver, NULL); }