/* Copyright (C) 2000-2012 by George Williams */ /* * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "fontforge.h" #include #include #include #ifdef __CygWin #include #include #include #endif #include "ttf.h" char *TTFFoundry=NULL; /* This file produces a ttf file given a splinefont. */ /* ************************************************************************** */ /* Required tables: cmap encoding head header data hhea horizontal metrics header data hmtx horizontal metrics (widths, lsidebearing) maxp various maxima in the font name various names associated with the font post postscript names and other stuff Required by windows but not mac OS/2 bleah. Required for TrueType loca pointers to the glyphs glyf character shapes Required for OpenType (PostScript) CFF A complete postscript CFF font here with all its internal tables Required for bitmaps bdat/EBDT bitmap data bloc/EBLC pointers to bitmaps bhed for apple bitmap only fonts, replaces head Optional for bitmaps EBSC bitmap scaling table (used in windows "bitmap-only" fonts) "Advanced Typograpy" Apple feat (mapping between morx features and 'name' names) kern (if data are present) lcar (ligature caret, if data present) morx (substitutions, if data present) prop (glyph properties, if data present) opbd (optical bounds, if data present) OpenType GPOS (opentype, if kern,anchor data are present) GSUB (opentype, if ligature (other subs) data are present) GDEF (opentype, if anchor data are present) MATH MATH (MS proposal, if math data present) Apple variation tables (for distortable (multiple master type) fonts) fvar (font variations) gvar (glyph variations) cvar (cvt variations) avar (axis variations) additional tables cvt for hinting gasp to control when things should be hinted fpgm for hinting (currently only copied and dumped verbatim) prep for hinting (currently only copied and dumped verbatim) FontForge PfEd My own table TeX TeX TeX specific info (stuff that used to live in tfm files) */ const char *ttfstandardnames[258] = { ".notdef", ".null", "nonmarkingreturn", "space", "exclam", "quotedbl", "numbersign", "dollar", "percent", "ampersand", "quotesingle", "parenleft", "parenright", "asterisk", "plus", "comma", "hyphen", "period", "slash", "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "colon", "semicolon", "less", "equal", "greater", "question", "at", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", "bracketleft", "backslash", "bracketright", "asciicircum", "underscore", "grave", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z", "braceleft", "bar", "braceright", "asciitilde", "Adieresis", "Aring", "Ccedilla", "Eacute", "Ntilde", "Odieresis", "Udieresis", "aacute", "agrave", "acircumflex", "adieresis", "atilde", "aring", "ccedilla", "eacute", "egrave", "ecircumflex", "edieresis", "iacute", "igrave", "icircumflex", "idieresis", "ntilde", "oacute", "ograve", "ocircumflex", "odieresis", "otilde", "uacute", "ugrave", "ucircumflex", "udieresis", "dagger", "degree", "cent", "sterling", "section", "bullet", "paragraph", "germandbls", "registered", "copyright", "trademark", "acute", "dieresis", "notequal", "AE", "Oslash", "infinity", "plusminus", "lessequal", "greaterequal", "yen", "mu", "partialdiff", "summation", "product", "pi", "integral", "ordfeminine", "ordmasculine", "Omega", "ae", "oslash", "questiondown", "exclamdown", "logicalnot", "radical", "florin", "approxequal", "Delta", "guillemotleft", "guillemotright", "ellipsis", "nonbreakingspace", "Agrave", "Atilde", "Otilde", "OE", "oe", "endash", "emdash", "quotedblleft", "quotedblright", "quoteleft", "quoteright", "divide", "lozenge", "ydieresis", "Ydieresis", "fraction", "currency", "guilsinglleft", "guilsinglright", "fi", "fl", "daggerdbl", "periodcentered", "quotesinglbase", "quotedblbase", "perthousand", "Acircumflex", "Ecircumflex", "Aacute", "Edieresis", "Egrave", "Iacute", "Icircumflex", "Idieresis", "Igrave", "Oacute", "Ocircumflex", "apple", "Ograve", "Uacute", "Ucircumflex", "Ugrave", "dotlessi", "circumflex", "tilde", "macron", "breve", "dotaccent", "ring", "cedilla", "hungarumlaut", "ogonek", "caron", "Lslash", "lslash", "Scaron", "scaron", "Zcaron", "zcaron", "brokenbar", "Eth", "eth", "Yacute", "yacute", "Thorn", "thorn", "minus", "multiply", "onesuperior", "twosuperior", "threesuperior", "onehalf", "onequarter", "threequarters", "franc", "Gbreve", "gbreve", "Idotaccent", "Scedilla", "scedilla", "Cacute", "cacute", "Ccaron", "ccaron", "dcroat" }; /* Relates Unicode blocks as in http://unicode.org/Public/UNIDATA/Blocks.txt to bit positions in the OpenType standard Unicode Character Range field 'ulUnicodeRange'. Note that the OpenType standard specifies bits for a subset of the Unicode blocks. */ static int uniranges[][3] = { { 0x20, 0x7e, 0 }, /* Basic Latin */ { 0xa0, 0xff, 1 }, /* Latin-1 Supplement */ { 0x100, 0x17f, 2 }, /* Latin Extended-A */ { 0x180, 0x24f, 3 }, /* Latin Extended-B */ { 0x250, 0x2af, 4 }, /* IPA Extensions */ { 0x2b0, 0x2ff, 5 }, /* Spacing Modifier Letters */ { 0x300, 0x36f, 6 }, /* Combining Diacritical Marks */ { 0x370, 0x3ff, 7 }, /* Greek and Coptic */ { 0x400, 0x52f, 9 }, /* Cyrillic / Cyrillic Supplement */ { 0x530, 0x58f, 10 }, /* Armenian */ { 0x590, 0x5ff, 11 }, /* Hebrew */ { 0x600, 0x6ff, 13 }, /* Arabic */ { 0x700, 0x74f, 71 }, /* Syriac */ { 0x750, 0x77f, 13 }, /* Arabic Supplement */ { 0x780, 0x7bf, 72 }, /* Thaana */ { 0x7c0, 0x7ff, 14 }, /* N'Ko */ /* { 0x800, 0x83f, ? }, Samaritan */ /* { 0x840, 0x85f, ? }, Mandaic */ { 0x900, 0x97f, 15 }, /* Devanagari */ { 0x980, 0x9ff, 16 }, /* Bengali */ { 0xa00, 0xa7f, 17 }, /* Gurmukhi */ { 0xa80, 0xaff, 18 }, /* Gujarati */ { 0xb00, 0xb7f, 19 }, /* Oriya */ { 0xb80, 0xbff, 20 }, /* Tamil */ { 0xc00, 0xc7f, 21 }, /* Telugu */ { 0xc80, 0xcff, 22 }, /* Kannada */ { 0xd00, 0xd7f, 23 }, /* Malayalam */ { 0xd80, 0xdff, 73 }, /* Sinhala */ { 0xe00, 0xe7f, 24 }, /* Thai */ { 0xe80, 0xeff, 25 }, /* Lao */ { 0xf00, 0xfbf, 70 }, /* Tibetan */ { 0x1000, 0x109f, 74 }, /* Myanmar */ { 0x10a0, 0x10ff, 26 }, /* Georgian */ { 0x1100, 0x11ff, 28 }, /* Hangul Jamo */ { 0x1200, 0x137f, 75 }, /* Ethiopic */ { 0x1380, 0x139f, 75 }, /* Ethiopic Supplement */ { 0x13a0, 0x13ff, 76 }, /* Cherokee */ { 0x1400, 0x167f, 77 }, /* Unified Canadian Aboriginal Symbols */ { 0x1680, 0x169f, 78 }, /* Ogham */ { 0x16a0, 0x16ff, 79 }, /* Runic */ { 0x1700, 0x1714, 84 }, /* Tagalog */ { 0x1720, 0x1736, 84 }, /* Harunoo */ { 0x1740, 0x1753, 84 }, /* Buhid */ { 0x1750, 0x1773, 84 }, /* Tagbanwa */ { 0x1780, 0x17ff, 80 }, /* Khmer */ { 0x1800, 0x18af, 81 }, /* Mongolian */ { 0x18B0, 0x18f5, 77 }, /* Unified Canadian Aboriginal Symbols Extended */ { 0x1900, 0x194f, 93 }, /* Limbu */ { 0x1950, 0x197f, 94 }, /* Tai Le */ { 0x1980, 0x19DF, 95 }, /* New Tai Lue */ { 0x19e0, 0x19ff, 80 }, /* Khmer Symbols */ { 0x1A00, 0x1A1F, 96 }, /* Buginese */ { 0x1B00, 0x1B7f, 27 }, /* Balinese */ { 0x1B80, 0x1BB9, 112 }, /* Sudanese */ /*{ 0x1bc0, 0x1bff, ? }, Batak */ { 0x1C00, 0x1C4F, 113 }, /* Lepcha */ { 0x1C50, 0x1C7F, 114 }, /* Ol Chiki */ /*{ 0x1cd0, 0x1cff, ? }, Vedic Extensions */ { 0x1d00, 0x1dbf, 4 }, /* Phonetic Extensions & Supplement */ { 0x1d80, 0x1dff, 6 }, /* Combining Diacritical Marks Supplement */ { 0x1e00, 0x1eff, 29 }, /* Latin Extended Additional */ { 0x1f00, 0x1fff, 30 }, /* Greek Extended */ { 0x2000, 0x206f, 31 }, /* General Punctuation */ { 0x2070, 0x209f, 32 }, /* Superscripts and Subscripts */ { 0x20a0, 0x20cf, 33 }, /* Currency Symbols */ { 0x20d0, 0x20ff, 34 }, /* Combining Marks for Symbols */ { 0x2100, 0x214f, 35 }, /* Letterlike Symbols */ { 0x2150, 0x218f, 36 }, /* Number Forms */ { 0x2190, 0x21ff, 37 }, /* Arrows */ { 0x2200, 0x22ff, 38 }, /* Mathematical Operators */ { 0x2300, 0x237f, 39 }, /* Miscellaneous Technical */ { 0x2400, 0x243f, 40 }, /* Control Pictures */ { 0x2440, 0x245f, 41 }, /* Optical Character Recognition */ { 0x2460, 0x24ff, 42 }, /* Enclosed Alphanumerics */ { 0x2500, 0x257f, 43 }, /* Box Drawing */ { 0x2580, 0x259f, 44 }, /* Block Elements */ { 0x25a0, 0x25ff, 45 }, /* Geometric Shapes */ { 0x2600, 0x267f, 46 }, /* Miscellaneous Symbols */ { 0x2700, 0x27bf, 47 }, /* Dingbats */ { 0x27c0, 0x27ef, 38 }, /* Miscellaneous Mathematical Symbols-A */ { 0x27f0, 0x27ff, 37 }, /* Supplementary Arrows-A */ { 0x2800, 0x28ff, 82 }, /* Braille Patterns */ { 0x2900, 0x297f, 37 }, /* Supplementary Arrows-B */ { 0x2980, 0x2aff, 38 }, /* Miscellaneous Mathematical Symbols-B / Supplemental Mathematical Operators */ { 0x2b00, 0x2bff, 37 }, /* Miscellaneous Symbols and Arrows */ { 0x2C00, 0x2C5E, 97 }, /* Glagolitic */ { 0x2c60, 0x2c7f, 29 }, /* Latin Extended-C */ { 0x2c80, 0x2cff, 8 }, /* Coptic */ { 0x2D00, 0x2D25, 26 }, /* Georgian Supplement */ { 0x2D30, 0x2D6F, 98 }, /* Tifinagh */ { 0x2d80, 0x2ddf, 75 }, /* Ethiopic Extended */ { 0x2de0, 0x2dff, 9 }, /* Cyrillic Extended-A */ { 0x2e00, 0x2e7f, 31 }, /* Supplemental Punctuation */ { 0x2e80, 0x2fff, 59 }, /* CJK Radicals Supplement / Kangxi Radicals / Ideographic Description Characters */ { 0x3000, 0x303f, 48 }, /* CJK Symbols and Punctuation */ { 0x3040, 0x309f, 49 }, /* Hiragana */ { 0x30a0, 0x30ff, 50 }, /* Katakana */ { 0x3100, 0x312f, 51 }, /* Bopomofo */ { 0x3130, 0x318f, 52 }, /* Hangul Compatibility Jamo */ { 0x3190, 0x319f, 59 }, /* Kanbun */ { 0x31a0, 0x31bf, 51 }, /* Bopomofo Extended */ { 0x31f0, 0x31ff, 50 }, /* Katakana Phonetic Extensions */ { 0x3200, 0x32ff, 54 }, /* Enclosed CJK Letters and Months */ { 0x3300, 0x33ff, 55 }, /* CJK compatability */ { 0x3400, 0x4dbf, 59 }, /* CJK Unified Ideographs Extension A */ { 0x4dc0, 0x4dff, 99 }, /* Yijing Hexagram Symbols */ { 0x4e00, 0x9fff, 59 }, /* CJK Unified Ideographs */ { 0xa000, 0xa4cf, 81 }, /* Yi Syllables / Yi Radicals */ /*{ 0xA4d0, 0xA4ff, ? }, Lisu */ { 0xA500, 0xA62b, 12 }, /* Vai */ { 0xa640, 0xa69f, 9 }, /* Cyrillic Extended-B */ /*{ 0xa6a0, 0xa6ff, ? }, Bamum */ { 0xa700, 0xa71f, 5 }, /* Modifier Tone Letters */ { 0xa720, 0xa7ff, 29 }, /* Latin Extended-D */ { 0xA800, 0xA82F, 100 }, /* Syloti Nagri */ /*{ 0xa830, 0xa83f, ? }, Common Indic Number Forms */ { 0xa840, 0xa87f, 53 }, /* Phags-pa */ { 0xA880, 0xA8D9, 115 }, /* Saurashtra */ /*{ 0xA8E0, 0xA8FF, ? }, Devanagari Extended */ { 0xA900, 0xA92F, 116 }, /* Kayah Li */ { 0xA930, 0xA95F, 117 }, /* Rejang */ /*{ 0xA960, 0xA97F, 28? }, Hangul Jamo Extended-A */ /*{ 0xA980, 0xA9DF, ? }, Javanese */ { 0xAA00, 0xAA5F, 118 }, /* Cham */ /*{ 0xAA60, 0xAA7F, 74? }, Myanmar Extended-A */ /*{ 0xAA80, 0xAADF, ? }, Tai Viet */ /*{ 0xab00, 0xab2f, 75? }, Ethiopic Extended-A */ /*{ 0xabc0, 0xabff, ? }, Meetei Mayek */ { 0xac00, 0xd7af, 56 }, /* Hangul Syllables */ { 0xd800, 0xdfff, 57 }, /* Non-Plane 0 */ { 0xe000, 0xf8ff, 60 }, /* Private Use Area */ { 0xf900, 0xfaff, 61 }, /* CJK Compatibility Ideographs */ /* 12 ideographs in The IBM 32 Compatibility Additions are CJK unified ideographs despite their names: see The Unicode Standard 4.0, p.475 */ { 0xfa0e, 0xfa0f, 59 }, { 0xfa10, 0xfa10, 61 }, { 0xfa11, 0xfa11, 59 }, { 0xfa12, 0xfa12, 61 }, { 0xfa13, 0xfa14, 59 }, { 0xfa15, 0xfa1e, 61 }, { 0xfa1f, 0xfa1f, 59 }, { 0xfa20, 0xfa20, 61 }, { 0xfa21, 0xfa21, 59 }, { 0xfa22, 0xfa22, 61 }, { 0xfa23, 0xfa24, 59 }, { 0xfa25, 0xfa26, 61 }, { 0xfa27, 0xfa29, 59 }, { 0xfa2a, 0xfaff, 61 }, /* CJK Compatibility Ideographs */ { 0xfb00, 0xfb4f, 62 }, /* Alphabetic Presentation Forms */ { 0xfb50, 0xfdff, 63 }, /* Arabic Presentation Forms-A */ { 0xfe00, 0xfe0f, 91 }, /* Variation Selectors */ { 0xfe20, 0xfe2f, 64 }, /* Combining Half Marks */ { 0xfe30, 0xfe4f, 65 }, /* CJK Compatibility Forms */ { 0xfe50, 0xfe6f, 66 }, /* Small Form Variants */ { 0xfe70, 0xfeef, 67 }, /* Arabic Presentation Forms-B */ { 0xff00, 0xffef, 68 }, /* Halfwidth and Fullwidth Forms */ { 0xfff0, 0xffff, 69 }, /* Specials */ { 0x10000, 0x1007f, 101 }, /* Linear B Syllabary */ { 0x10080, 0x100ff, 101 }, /* Linear B Ideograms */ { 0x10100, 0x1013f, 101 }, /* Aegean Numbers */ { 0x10140, 0x1018F, 102 }, /* Ancient Greek Numbers */ { 0x10190, 0x101CF, 119 }, /* Ancient Symbols */ { 0x101D0, 0x101FF, 120 }, /* Phaistos Disc */ { 0x102A0, 0x102D0, 121 }, /* Carian */ { 0x10280, 0x1029C, 121 }, /* Lycian */ { 0x10300, 0x1032f, 85 }, /* Old Italic */ { 0x10330, 0x1034f, 86 }, /* Gothic */ { 0x10380, 0x1039F, 103 }, /* Ugaritic */ { 0x103A0, 0x103D6, 104 }, /* Old Persian */ { 0x10400, 0x1044f, 87 }, /* Deseret */ { 0x10450, 0x1047f, 105 }, /* Shavian */ { 0x10480, 0x104af, 106 }, /* Osmanya */ { 0x10800, 0x1083f, 107 }, /* Cypriot Syllabary */ /*{ 0x10840, 0x1085f, ? }, Imperial Aramaic */ { 0x10900, 0x1091f, 58 }, /* Phoenician */ { 0x10920, 0x10939, 121 }, /* Lydian */ { 0x10A00, 0x10A5F, 108 }, /* Kharoshthi */ /*{ 0x10A60, 0x10A7F, ? }, Old South Arabian */ /*{ 0x10B00, 0x10B3F, ? }, Avestan */ /*{ 0x10B40, 0x10B5F, ? }, Inscriptional Parthian */ /*{ 0x10B60, 0x10B7F, ? }, Inscriptional Pahlavi */ /*{ 0x10C00, 0x10C4F, ? }, Old Turkic */ /*{ 0x10E60, 0x10E7F, ? }, Rumi Numeral Symbols */ /*{ 0x11000, 0x1107F, ? }, Brahmi */ /*{ 0x11000, 0x1107F, ? }, Kaithi */ { 0x12000, 0x1247F, 110 }, /* Cuneiform; Numbers & Punctuation */ /*{ 0x13000, 0x1342F, ? }, Egyptian Hieroglyphs */ /*{ 0x16800, 0x16A3F, ? }, Bamum Supplement */ /*{ 0x1B000, 0x1B0FF, ? }, Kana Supplement */ { 0x1d000, 0x1d1ff, 88 }, /* Byzantine Musical Symbols / Musical Symbols */ /*{ 0x1D200, 0x1D24F, ? }, Ancient Greek Musical Notation */ { 0x1d300, 0x1d35f, 109 }, /* Tai Xuan Jing Symbols */ { 0x1D360, 0x1D37F, 111 }, /* Counting Rod Numerals */ { 0x1d400, 0x1d7ff, 89 }, /* Mathematical Alphanumeric Symbols */ { 0x1F000, 0x1F02B, 122 }, /* Mahjong Tiles */ { 0x1F030, 0x1F093, 122 }, /* Dominos */ /*{ 0x1F0A0, 0x1F0FF, ? }, Playing Cards */ /*{ 0x1F100, 0x1F1FF, ? }, Enclosed Alphanumeric Supplement */ /*{ 0x1F200, 0x1F2FF, ? }, Enclosed Ideographic Supplement */ /*{ 0x1F300, 0x1F5FF, ? }, Miscellaneous Symbols And Pictographs */ /*{ 0x1F600, 0x1F64F, ? }, Emoticons */ /*{ 0x1F680, 0x1F6FF, ? }, Transport And Map Symbols */ /*{ 0x1F700, 0x1F77F, ? }, Alchemical Symbols */ { 0x20000, 0x2a6df, 59 }, /* CJK Unified Ideographs Extension B */ /*{ 0x2A700, 0x2B73F, 59? }, CJK Unified Ideographs Extension C */ /*{ 0x2B740, 0x2B81F, 59? }, CJK Unified Ideographs Extension D */ { 0x2f800, 0x2fa1f, 61 }, /* CJK Compatibility Ideographs Supplement */ { 0xe0000, 0xe007f, 92 }, /* Tags */ { 0xe0100, 0xe01ef, 91 }, /* Variation Selectors Supplement */ { 0xf0000, 0xffffd, 90 }, /* Supplementary Private Use Area-A */ { 0x100000, 0x10fffd, 90 }, /* Supplementary Private Use Area-B */ }; static int32 getuint32(FILE *ttf) { int ch1 = getc(ttf); int ch2 = getc(ttf); int ch3 = getc(ttf); int ch4 = getc(ttf); if ( ch4==EOF ) return( EOF ); return( (ch1<<24)|(ch2<<16)|(ch3<<8)|ch4 ); } static int short_too_long_warned = 0; void putshort(FILE *file,int sval) { if ( sval<-32768 || sval>65535 ) if (!short_too_long_warned) { IError(_("Attempt to output %d into a 16-bit field. It will be truncated and the file may not be useful."), sval ); short_too_long_warned = 1; } putc((sval>>8)&0xff,file); putc(sval&0xff,file); } static void putu24(FILE *file,int val) { putc((val>>16)&0xff,file); putc((val>>8)&0xff,file); putc(val&0xff,file); } void putlong(FILE *file,int val) { putc((val>>24)&0xff,file); putc((val>>16)&0xff,file); putc((val>>8)&0xff,file); putc(val&0xff,file); } #define dumpabsoffset putlong static void dumpoffset(FILE *file,int offsize,int val) { if ( offsize==1 ) putc(val,file); else if ( offsize==2 ) putshort(file,val); else if ( offsize==3 ) { putc((val>>16)&0xff,file); putc((val>>8)&0xff,file); putc(val&0xff,file); } else putlong(file,val); } static void put2d14(FILE *file,real dval) { int val; int mant; val = floor(dval); mant = floor(16384.*(dval-val)); val = (val<<14) | mant; putshort(file,val); } void putfixed(FILE *file,real dval) { int val; int mant; val = floor(dval); mant = floor(65536.*(dval-val)); val = (val<<16) | mant; putlong(file,val); } int ttfcopyfile(FILE *ttf, FILE *other, int pos, const char *tab_name) { int ch; int ret = 1; if ( ferror(ttf) || ferror(other)) { IError("Disk error of some nature. Perhaps no space on device?\nGenerated font will be unusable" ); } else if ( pos!=ftell(ttf)) { IError("File Offset wrong for ttf table (%s), %d expected %d", tab_name, ftell(ttf), pos ); } rewind(other); while (( ch = getc(other))!=EOF ) putc(ch,ttf); if ( ferror(other)) ret = 0; if ( fclose(other)) ret = 0; return( ret ); } static void FigureFullMetricsEnd(SplineFont *sf,struct glyphinfo *gi, int istt ) { /* We can reduce the size of the width array by removing a run at the end */ /* of the same width. So start at the end, find the width of the last */ /* character we'll output, then run backwards as long as we've got the */ /* same width */ /* (do same thing for vertical metrics too */ int i, lasti, lastv, lastdefault = istt ? 3 : 1; int width, vwidth; lasti = lastv = gi->gcnt-1; for ( i=gi->gcnt-1; i>lastdefault && gi->bygid[i]==-1; --i ); if ( i>=lastdefault ) { width = sf->glyphs[gi->bygid[i]]->width; vwidth = sf->glyphs[gi->bygid[i]]->vwidth; lasti = lastv = i; for ( i=lasti-1; i>=lastdefault; --i ) { if ( SCWorthOutputting(sf->glyphs[gi->bygid[i]]) ) { if ( sf->glyphs[gi->bygid[i]]->width!=width ) break; else lasti = i; } } gi->lasthwidth = lasti; if ( sf->hasvmetrics ) { for ( i=lastv-1; i>=lastdefault; --i ) { if ( SCWorthOutputting(sf->glyphs[gi->bygid[i]]) ) { if ( sf->glyphs[gi->bygid[i]]->vwidth!=vwidth ) break; else lastv = i; } } gi->lastvwidth = lastv; } } else { gi->lasthwidth = 0; gi->lastvwidth = 0; } } static void dumpghstruct(struct glyphinfo *gi,struct glyphhead *gh) { putshort(gi->glyphs,gh->numContours); putshort(gi->glyphs,gh->xmin); putshort(gi->glyphs,gh->ymin); putshort(gi->glyphs,gh->xmax); putshort(gi->glyphs,gh->ymax); if ( gh->xminxmin ) gi->xmin = gh->xmin; if ( gh->yminymin ) gi->ymin = gh->ymin; if ( gh->xmax>gi->xmax ) gi->xmax = gh->xmax; if ( gh->ymax>gi->ymax ) gi->ymax = gh->ymax; } static void ttfdumpmetrics(SplineChar *sc,struct glyphinfo *gi,DBounds *b) { int width=sc->width; int vwidth=sc->vwidth; if ( width<0 ) width=0; if ( vwidth<0 ) vwidth=0; if ( sc->ttf_glyph<=gi->lasthwidth ) putshort(gi->hmtx,width); putshort(gi->hmtx,b->minx); if ( sc->parent->hasvmetrics ) { if ( sc->ttf_glyph<=gi->lastvwidth ) putshort(gi->vmtx,vwidth); putshort(gi->vmtx, sc->parent->ascent - b->maxy); } if ( sc->ttf_glyph==gi->lasthwidth ) gi->hfullcnt = sc->ttf_glyph+1; if ( sc->ttf_glyph==gi->lastvwidth ) gi->vfullcnt = sc->ttf_glyph+1; } static SplineSet *SCttfApprox(SplineChar *sc,int layer) { SplineSet *head=NULL, *last, *ss, *tss; RefChar *ref; for ( ss=sc->layers[layer].splines; ss!=NULL; ss=ss->next ) { tss = sc->layers[layer].order2 ? SplinePointListCopy1(ss) : SSttfApprox(ss); if ( head==NULL ) head = tss; else last->next = tss; last = tss; } for ( ref=sc->layers[layer].refs; ref!=NULL; ref=ref->next ) { for ( ss=ref->layers[0].splines; ss!=NULL; ss=ss->next ) { tss = sc->layers[layer].order2 ? SplinePointListCopy1(ss) : SSttfApprox(ss); if ( head==NULL ) head = tss; else last->next = tss; last = tss; } } return( head ); } #define _On_Curve 1 #define _X_Short 2 #define _Y_Short 4 #define _Repeat 8 #define _X_Same 0x10 #define _Y_Same 0x20 int SSAddPoints(SplineSet *ss,int ptcnt,BasePoint *bp, char *flags) { SplinePoint *sp, *first, *nextsp; int startcnt = ptcnt; if ( ss->first->prev!=NULL && ss->first->prev->from->nextcpindex==startcnt ) { if ( flags!=NULL ) flags[ptcnt] = 0; bp[ptcnt].x = rint(ss->first->prevcp.x); bp[ptcnt++].y = rint(ss->first->prevcp.y); } else if ( ss->first->ttfindex!=ptcnt && ss->first->ttfindex!=0xfffe ) IError("Unexpected point count in SSAddPoints" ); first = NULL; for ( sp=ss->first; sp!=first ; ) { if ( sp->ttfindex!=0xffff ) { if ( flags!=NULL ) flags[ptcnt] = _On_Curve; bp[ptcnt].x = rint(sp->me.x); bp[ptcnt].y = rint(sp->me.y); sp->ttfindex = ptcnt++; } else if ( !SPInterpolate( sp ) ) { /* If an on curve point is midway between two off curve points*/ /* it may be omitted and will be interpolated on read in */ if ( flags!=NULL ) flags[ptcnt] = _On_Curve; bp[ptcnt].x = rint(sp->me.x); bp[ptcnt].y = rint(sp->me.y); sp->ttfindex = ptcnt++; } nextsp = sp->next!=NULL ? sp->next->to : NULL; if ( sp->nextcpindex == startcnt ) /* This control point is actually our first point, not our last */ break; if ( (sp->nextcpindex !=0xffff && sp->nextcpindex!=0xfffe ) || !sp->nonextcp ) { if ( flags!=NULL ) flags[ptcnt] = 0; bp[ptcnt].x = rint(sp->nextcp.x); bp[ptcnt++].y = rint(sp->nextcp.y); } if ( nextsp==NULL ) break; if ( first==NULL ) first = sp; sp = nextsp; } return( ptcnt ); } static void dumppointarrays(struct glyphinfo *gi,BasePoint *bp, char *fs, int pc) { BasePoint last; int i,flags; int lastflag, flagcnt; if ( gi->maxp->maxPointsmaxp->maxPoints = pc; /* flags */ last.x = last.y = 0; lastflag = -1; flagcnt = 0; for ( i=0; i-256 && bp[i].x-last.x<255 ) { flags |= _X_Short; if ( bp[i].x>=last.x ) flags |= _X_Same; /* In this context it means positive */ } if ( last.y==bp[i].y ) flags |= _Y_Same; else if ( bp[i].y-last.y>-256 && bp[i].y-last.y<255 ) { flags |= _Y_Short; if ( bp[i].y>=last.y ) flags |= _Y_Same; /* In this context it means positive */ } last = bp[i]; if ( lastflag==-1 ) { lastflag = flags; flagcnt = 0; } else if ( flags!=lastflag ) { if ( flagcnt!=0 ) lastflag |= _Repeat; putc(lastflag,gi->glyphs); if ( flagcnt!=0 ) putc(flagcnt,gi->glyphs); lastflag = flags; flagcnt = 0; } else { if ( ++flagcnt == 255 ) { putc(lastflag|_Repeat,gi->glyphs); putc(255,gi->glyphs); lastflag = -1; flagcnt = 0; } } } if ( lastflag!=-1 ) { if ( flagcnt!=0 ) lastflag |= _Repeat; putc(lastflag,gi->glyphs); if ( flagcnt!=0 ) putc(flagcnt,gi->glyphs); } /* xcoords */ last.x = 0; for ( i=0; i-256 && bp[i].x-last.x<255 ) { if ( bp[i].x>=last.x ) putc(bp[i].x-last.x,gi->glyphs); else putc(last.x-bp[i].x,gi->glyphs); } else putshort(gi->glyphs,bp[i].x-last.x); last.x = bp[i].x; } /* ycoords */ last.y = 0; for ( i=0; i-256 && bp[i].y-last.y<255 ) { if ( bp[i].y>=last.y ) putc(bp[i].y-last.y,gi->glyphs); else putc(last.y-bp[i].y,gi->glyphs); } else putshort(gi->glyphs,bp[i].y-last.y); last.y = bp[i].y; } if ( ftell(gi->glyphs)&1 ) /* Pad the file so that the next glyph */ putc('\0',gi->glyphs); /* on a word boundary */ } static void dumpinstrs(struct glyphinfo *gi,uint8 *instrs,int cnt) { int i; if ( (gi->flags&ttf_flag_nohints) ) { putshort(gi->glyphs,0); return; } /* Do we ever want to call AutoHint and AutoInst here? I think not. */ if ( gi->maxp->maxglyphInstrmaxp->maxglyphInstr=cnt; putshort(gi->glyphs,cnt); for ( i=0; iglyphs ); } static void dumpmissingglyph(SplineFont *sf,struct glyphinfo *gi,int fixedwidth) { /* Or .notdef */ struct glyphhead gh; BasePoint bp[10]; uint8 instrs[50]; int stemcvt, stem; char *stempt; stem = 0; if ( sf->private!=NULL && (stempt=PSDictHasEntry(sf->private,"StdVW"))!=NULL ) stem = strtod(stempt,NULL); else if ( sf->private!=NULL && (stempt=PSDictHasEntry(sf->private,"StdHW"))!=NULL ) stem = strtod(stempt,NULL); if ( stem<=0 ) stem = (sf->ascent+sf->descent)/30; gi->pointcounts[gi->next_glyph] = 8; gi->loca[gi->next_glyph++] = ftell(gi->glyphs); gi->maxp->maxContours = 2; gh.numContours = 2; gh.ymin = 0; gh.ymax = 2*(sf->ascent+sf->descent)/3; gh.xmax = 5*stem+(sf->ascent+sf->descent)/10; gh.xmin = stem; gh.xmax += stem; if ( gh.ymax>sf->ascent ) gh.ymax = sf->ascent; dumpghstruct(gi,&gh); bp[0].x = stem; bp[0].y = 0; bp[1].x = stem; bp[1].y = gh.ymax; bp[2].x = gh.xmax; bp[2].y = gh.ymax; bp[3].x = gh.xmax; bp[3].y = 0; bp[4].x = 2*stem; bp[4].y = stem; bp[5].x = gh.xmax-stem; bp[5].y = stem; bp[6].x = gh.xmax-stem; bp[6].y = gh.ymax-stem; bp[7].x = 2*stem; bp[7].y = gh.ymax-stem; if ( !gi->ttc_composite_font ) { stemcvt = TTF_getcvtval(gi->sf,stem); instrs[0] = 0xb1; /* Pushb, 2byte */ instrs[1] = 1; /* Point 1 */ instrs[2] = 0; /* Point 0 */ instrs[3] = 0x2f; /* MDAP, rounded (pt0) */ instrs[4] = 0x3c; /* ALIGNRP, (pt1 same pos as pt0)*/ instrs[5] = 0xb2; /* Pushb, 3byte */ instrs[6] = 7; /* Point 7 */ instrs[7] = 4; /* Point 4 */ instrs[8] = stemcvt; /* CVT entry for our stem width */ instrs[9] = 0xe0+0x0d; /* MIRP, don't set rp0, minimum, rounded, black */ instrs[10] = 0x32; /* SHP[rp2] (pt7 same pos as pt4) */ instrs[11] = 0xb1; /* Pushb, 2byte */ instrs[12] = 6; /* Point 6 */ instrs[13] = 5; /* Point 5 */ instrs[14] = 0xc0+0x1c; /* MDRP, set rp0, minimum, rounded, grey */ instrs[15] = 0x3c; /* ALIGNRP, (pt6 same pos as pt5)*/ instrs[16] = 0xb2; /* Pushb, 3byte */ instrs[17] = 3; /* Point 3 */ instrs[18] = 2; /* Point 2 */ instrs[19] = stemcvt; /* CVT entry for our stem width */ instrs[20] = 0xe0+0x0d; /* MIRP, dont set rp0, minimum, rounded, black */ instrs[21] = 0x32; /* SHP[rp2] (pt3 same pos as pt2) */ instrs[22] = 0x00; /* SVTCA, y axis */ instrs[23] = 0xb1; /* Pushb, 2byte */ instrs[24] = 3; /* Point 3 */ instrs[25] = 0; /* Point 0 */ instrs[26] = 0x2f; /* MDAP, rounded */ instrs[27] = 0x3c; /* ALIGNRP, (pt3 same height as pt0)*/ instrs[28] = 0xb2; /* Pushb, 3byte */ instrs[29] = 5; /* Point 5 */ instrs[30] = 4; /* Point 4 */ instrs[31] = stemcvt; /* CVT entry for our stem width */ instrs[32] = 0xe0+0x0d; /* MIRP, don't set rp0, minimum, rounded, black */ instrs[33] = 0x32; /* SHP[rp2] (pt5 same height as pt4) */ instrs[34] = 0xb2; /* Pushb, 3byte */ instrs[35] = 7; /* Point 7 */ instrs[36] = 6; /* Point 6 */ instrs[37] = TTF_getcvtval(gi->sf,bp[6].y); /* CVT entry for top height */ instrs[38] = 0xe0+0x1c; /* MIRP, set rp0, minimum, rounded, grey */ instrs[39] = 0x3c; /* ALIGNRP (pt7 same height as pt6) */ instrs[40] = 0xb2; /* Pushb, 3byte */ instrs[41] = 1; /* Point 1 */ instrs[42] = 2; /* Point 2 */ instrs[43] = stemcvt; /* CVT entry for our stem width */ instrs[44] = 0xe0+0x0d; /* MIRP, dont set rp0, minimum, rounded, black */ instrs[45] = 0x32; /* SHP[rp2] (pt1 same height as pt2) */ /* We've touched all points in all dimensions */ /* Don't need any IUP */ } /* end contours array */ putshort(gi->glyphs,4-1); putshort(gi->glyphs,8-1); /* instruction length&instructions */ if ( !gi->ttc_composite_font ) dumpinstrs(gi,instrs,46); else dumpinstrs(gi,NULL,0); dumppointarrays(gi,bp,NULL,8); if ( fixedwidth<=0 ) putshort(gi->hmtx,gh.xmax + 2*stem); else putshort(gi->hmtx,fixedwidth); putshort(gi->hmtx,stem); if ( sf->hasvmetrics ) { putshort(gi->vmtx,sf->ascent+sf->descent); putshort(gi->vmtx,/*sf->vertical_origin-*/gh.ymax); } } static void dumpblankglyph(struct glyphinfo *gi,SplineFont *sf,int fixedwidth) { int advance = gi->next_glyph==1?0:fixedwidth<=0?(sf->ascent+sf->descent)/3: fixedwidth; /* For reasons quite obscure to me, glyph 1 has an advance width of 0 */ /* even in a mono-spaced font like CourierNew.ttf */ /* These don't get a glyph header, because there are no contours */ gi->pointcounts[gi->next_glyph] = 0; gi->loca[gi->next_glyph++] = ftell(gi->glyphs); putshort(gi->hmtx,advance); putshort(gi->hmtx,0); if ( sf->hasvmetrics ) { putshort(gi->vmtx,gi->next_glyph==2?0:(sf->ascent+sf->descent)); putshort(gi->vmtx,0); } } static void dumpspace(SplineChar *sc, struct glyphinfo *gi) { /* These don't get a glyph header, because there are no contours */ DBounds b; gi->pointcounts[gi->next_glyph] = 0; gi->loca[gi->next_glyph++] = ftell(gi->glyphs); memset(&b,0,sizeof(b)); ttfdumpmetrics(sc,gi,&b); } static int IsTTFRefable(SplineChar *sc,int layer) { RefChar *ref; if ( sc->layers[layer].refs==NULL || sc->layers[layer].splines!=NULL ) return( false ); for ( ref=sc->layers[layer].refs; ref!=NULL; ref=ref->next ) { if ( ref->transform[0]<-2 || ref->transform[0]>1.999939 || ref->transform[1]<-2 || ref->transform[1]>1.999939 || ref->transform[2]<-2 || ref->transform[2]>1.999939 || ref->transform[3]<-2 || ref->transform[3]>1.999939 ) return( false ); } return( true ); } int RefDepth(RefChar *ref,int layer) { int rd, temp; SplineChar *sc = ref->sc; if ( sc->layers[layer].refs==NULL || sc->layers[layer].splines!=NULL ) return( 1 ); rd = 0; for ( ref = sc->layers[layer].refs; ref!=NULL; ref=ref->next ) { if ( ref->transform[0]>=-2 || ref->transform[0]<=1.999939 || ref->transform[1]>=-2 || ref->transform[1]<=1.999939 || ref->transform[2]>=-2 || ref->transform[2]<=1.999939 || ref->transform[3]>=-2 || ref->transform[3]<=1.999939 ) { temp = RefDepth(ref,layer); if ( temp>rd ) rd = temp; } } return( rd+1 ); } static void CountCompositeMaxPts(SplineChar *sc,struct glyphinfo *gi) { RefChar *ref; int ptcnt = 0, index; for ( ref=sc->layers[gi->layer].refs; ref!=NULL; ref=ref->next ) { if ( ref->sc->ttf_glyph==-1 ) continue; index = ref->sc->ttf_glyph; if ( gi->pointcounts[index]==-1 ) CountCompositeMaxPts(ref->sc,gi); ptcnt += gi->pointcounts[index]; } gi->pointcounts[sc->ttf_glyph] = ptcnt; if ( gi->maxp->maxCompositPtsmaxp->maxCompositPts=ptcnt; } /* In order3 fonts we figure out the composite point counts at the end */ /* when we know how many points are in each sub-glyph */ static void RefigureCompositeMaxPts(SplineFont *sf,struct glyphinfo *gi) { int i; for ( i=0; igcnt; ++i ) if ( gi->bygid[i]!=-1 && sf->glyphs[gi->bygid[i]]->ttf_glyph!=-1 ) { if ( sf->glyphs[gi->bygid[i]]->layers[gi->layer].splines==NULL && sf->glyphs[gi->bygid[i]]->layers[gi->layer].refs!=NULL && gi->pointcounts[i]== -1 ) CountCompositeMaxPts(sf->glyphs[gi->bygid[i]],gi); } } static void dumpcomposite(SplineChar *sc, struct glyphinfo *gi) { struct glyphhead gh; DBounds bb; int i, ptcnt, ctcnt, flags, sptcnt, rd; SplineSet *ss; RefChar *ref; SplineChar *isc = sc->ttf_instrs==NULL && sc->parent->mm!=NULL && sc->parent->mm->apple ? sc->parent->mm->normal->glyphs[sc->orig_pos] : sc; int arg1, arg2; if ( gi->next_glyph!=sc->ttf_glyph ) IError("Glyph count wrong in ttf output"); if ( gi->next_glyph>=gi->maxp->numGlyphs ) IError("max glyph count wrong in ttf output"); gi->loca[gi->next_glyph] = ftell(gi->glyphs); SplineCharLayerQuickBounds(sc,gi->layer,&bb); gh.numContours = -1; gh.xmin = floor(bb.minx); gh.ymin = floor(bb.miny); gh.xmax = ceil(bb.maxx); gh.ymax = ceil(bb.maxy); dumpghstruct(gi,&gh); i=ptcnt=ctcnt=0; for ( ref=sc->layers[gi->layer].refs; ref!=NULL; ref=ref->next, ++i ) { if ( ref->sc->ttf_glyph==-1 ) { /*if ( sc->layers[gi->layer].refs->next==NULL || any )*/ continue; } flags = 0; if ( ref->round_translation_to_grid ) flags |= _ROUND; if ( ref->use_my_metrics ) flags |= _USE_MY_METRICS; if ( ref->next!=NULL ) flags |= _MORE; /* More components */ else if ( isc->ttf_instrs_len!=0 ) /* Composits also inherit instructions */ flags |= _INSTR; /* Instructions appear after last ref */ if ( ref->transform[1]!=0 || ref->transform[2]!=0 ) flags |= _MATRIX; /* Need a full matrix */ else if ( ref->transform[0]!=ref->transform[3] ) flags |= _XY_SCALE; /* different xy scales */ else if ( ref->transform[0]!=1. ) flags |= _SCALE; /* xy scale is same */ if ( ref->point_match ) { arg1 = ref->match_pt_base; arg2 = ref->match_pt_ref; } else { arg1 = rint(ref->transform[4]); arg2 = rint(ref->transform[5]); flags |= _ARGS_ARE_XY|_UNSCALED_OFFSETS; /* The values I output are the values I want to see */ /* There is some very strange stuff wrongly-documented on the apple*/ /* site about how these should be interpretted when there are */ /* scale factors, or rotations */ /* That description does not match the behavior of their rasterizer*/ /* I've reverse engineered something else (see parsettf.c) */ /* http://fonts.apple.com/TTRefMan/RM06/Chap6glyf.html */ /* Adobe says that setting bit 12 means that this will not happen */ /* Apple doesn't mention bit 12 though...(but they do support it) */ } if ( arg1<-128 || arg1>127 || arg2<-128 || arg2>127 ) flags |= _ARGS_ARE_WORDS; putshort(gi->glyphs,flags); putshort(gi->glyphs,ref->sc->ttf_glyph==-1?0:ref->sc->ttf_glyph); if ( flags&_ARGS_ARE_WORDS ) { putshort(gi->glyphs,(short)arg1); putshort(gi->glyphs,(short)arg2); } else { putc((char) arg1,gi->glyphs); putc((char) arg2,gi->glyphs); } if ( flags&_MATRIX ) { put2d14(gi->glyphs,ref->transform[0]); put2d14(gi->glyphs,ref->transform[1]); put2d14(gi->glyphs,ref->transform[2]); put2d14(gi->glyphs,ref->transform[3]); } else if ( flags&_XY_SCALE ) { put2d14(gi->glyphs,ref->transform[0]); put2d14(gi->glyphs,ref->transform[3]); } else if ( flags&_SCALE ) { put2d14(gi->glyphs,ref->transform[0]); } sptcnt = SSTtfNumberPoints(ref->layers[0].splines); for ( ss=ref->layers[0].splines; ss!=NULL ; ss=ss->next ) { ++ctcnt; } if ( sc->layers[gi->layer].order2 ) ptcnt += sptcnt; else if ( ptcnt>=0 && gi->pointcounts[ref->sc->ttf_glyph==-1?0:ref->sc->ttf_glyph]>=0 ) ptcnt += gi->pointcounts[ref->sc->ttf_glyph==-1?0:ref->sc->ttf_glyph]; else ptcnt = -1; rd = RefDepth(ref,gi->layer); if ( rd>gi->maxp->maxcomponentdepth ) gi->maxp->maxcomponentdepth = rd; } if ( isc->ttf_instrs_len!=0 ) dumpinstrs(gi,isc->ttf_instrs,isc->ttf_instrs_len); gi->pointcounts[gi->next_glyph++] = ptcnt; if ( gi->maxp->maxnumcomponentsmaxp->maxnumcomponents = i; if ( gi->maxp->maxCompositPtsmaxp->maxCompositPts=ptcnt; if ( gi->maxp->maxCompositCtrsmaxp->maxCompositCtrs=ctcnt; ttfdumpmetrics(sc,gi,&bb); if ( ftell(gi->glyphs)&1 ) /* Pad the file so that the next glyph */ putc('\0',gi->glyphs); /* on a word boundary, can only happen if odd number of instrs */ } static void dumpglyph(SplineChar *sc, struct glyphinfo *gi) { struct glyphhead gh; DBounds bb; SplineSet *ss, *ttfss; int contourcnt, ptcnt, origptcnt; BasePoint *bp; char *fs; SplineChar *isc = sc->ttf_instrs==NULL && sc->parent->mm!=NULL && sc->parent->mm->apple ? sc->parent->mm->normal->glyphs[sc->orig_pos] : sc; /* This must have been an error on my part, can't just remove points */ /* they might be matched to anchors or something */ /* I haven't seen this documented, but ttf rasterizers are unhappy with a */ /* glyph that consists of a single point. Glyphs containing two single points*/ /* are ok, glyphs with a single point and anything else are ok, glyphs with */ /* a line are ok. But a single point is not ok. Dunno why */ if ( sc->layers[gi->layer].splines==NULL && sc->layers[gi->layer].refs==NULL ) { dumpspace(sc,gi); return; } if ( gi->next_glyph!=sc->ttf_glyph ) IError("Glyph count wrong in ttf output"); if ( gi->next_glyph>=gi->maxp->numGlyphs ) IError("max glyph count wrong in ttf output"); gi->loca[gi->next_glyph] = ftell(gi->glyphs); ttfss = SCttfApprox(sc,gi->layer); ptcnt = SSTtfNumberPoints(ttfss); for ( ss=ttfss, contourcnt=0; ss!=NULL; ss=ss->next ) { ++contourcnt; } origptcnt = ptcnt; SplineSetQuickBounds(ttfss,&bb); gh.numContours = contourcnt; gh.xmin = floor(bb.minx); gh.ymin = floor(bb.miny); gh.xmax = ceil(bb.maxx); gh.ymax = ceil(bb.maxy); dumpghstruct(gi,&gh); if ( contourcnt>gi->maxp->maxContours ) gi->maxp->maxContours = contourcnt; if ( ptcnt>gi->maxp->maxPoints ) gi->maxp->maxPoints = ptcnt; bp = malloc(ptcnt*sizeof(BasePoint)); fs = malloc(ptcnt); ptcnt = contourcnt = 0; for ( ss=ttfss; ss!=NULL; ss=ss->next ) { ptcnt = SSAddPoints(ss,ptcnt,bp,fs); putshort(gi->glyphs,ptcnt-1); } if ( ptcnt!=origptcnt ) IError( "Point count wrong calculated=%d, actual=%d in %.20s", origptcnt, ptcnt, sc->name ); gi->pointcounts[gi->next_glyph++] = ptcnt; dumpinstrs(gi,isc->ttf_instrs,isc->ttf_instrs_len); dumppointarrays(gi,bp,fs,ptcnt); SplinePointListsFree(ttfss); free(bp); free(fs); ttfdumpmetrics(sc,gi,&bb); } void SFDummyUpCIDs(struct glyphinfo *gi,SplineFont *sf) { int i,j,k,max; int *bygid; max = 0; for ( k=0; ksubfontcnt; ++k ) if ( sf->subfonts[k]->glyphcnt>max ) max = sf->subfonts[k]->glyphcnt; if ( max == 0 ) return; sf->glyphs = calloc(max,sizeof(SplineChar *)); sf->glyphcnt = sf->glyphmax = max; for ( k=0; ksubfontcnt; ++k ) for ( i=0; isubfonts[k]->glyphcnt; ++i ) if ( sf->subfonts[k]->glyphs[i]!=NULL ) sf->glyphs[i] = sf->subfonts[k]->glyphs[i]; if ( gi==NULL ) return; bygid = malloc((sf->glyphcnt+3)*sizeof(int)); memset(bygid,0xff, (sf->glyphcnt+3)*sizeof(int)); j=1; for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { if ( bygid[0]== -1 && strcmp(sf->glyphs[i]->name,".notdef")==0 ) { sf->glyphs[i]->ttf_glyph = 0; bygid[0] = i; } else if ( SCWorthOutputting(sf->glyphs[i])) { sf->glyphs[i]->ttf_glyph = j; bygid[j++] = i; } } gi->bygid = bygid; gi->gcnt = j; } static void AssignNotdefNull(SplineFont *sf,int *bygid, int iscff) { int i; /* The first three glyphs are magic, glyph 0 is .notdef */ /* glyph 1 is .null and glyph 2 is nonmarking return */ /* We may generate them automagically */ for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { if ( bygid[0]== -1 && strcmp(sf->glyphs[i]->name,".notdef")==0 ) { sf->glyphs[i]->ttf_glyph = 0; bygid[0] = i; } else if ( !iscff && bygid[1]== -1 && (strcmp(sf->glyphs[i]->name,".null")==0 || strcmp(sf->glyphs[i]->name,"uni0000")==0 || (i==1 && strcmp(sf->glyphs[1]->name,"glyph1")==0)) ) { sf->glyphs[i]->ttf_glyph = 1; bygid[1] = i; } else if ( !iscff && bygid[2]== -1 && (strcmp(sf->glyphs[i]->name,"nonmarkingreturn")==0 || strcmp(sf->glyphs[i]->name,"uni000D")==0 || (i==2 && strcmp(sf->glyphs[2]->name,"glyph2")==0)) ) { sf->glyphs[i]->ttf_glyph = 2; bygid[2] = i; } } } static int AssignTTFGlyph(struct glyphinfo *gi,SplineFont *sf,EncMap *map,int iscff) { int *bygid = malloc((sf->glyphcnt+3)*sizeof(int)); int i,j; memset(bygid,0xff, (sf->glyphcnt+3)*sizeof(int)); AssignNotdefNull(sf,bygid,iscff); j = iscff ? 1 : 3; for ( i=0; ienccount; ++i ) if ( map->map[i]!=-1 ) { SplineChar *sc = sf->glyphs[map->map[i]]; if ( SCWorthOutputting(sc) && sc->ttf_glyph==-1 #if HANYANG && (!iscff || !sc->compositionunit) #endif ) { sc->ttf_glyph = j; bygid[j++] = sc->orig_pos; } } for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { SplineChar *sc = sf->glyphs[i]; if ( SCWorthOutputting(sc) && sc->ttf_glyph==-1 #if HANYANG && (!iscff || !sc->compositionunit) #endif ) { sc->ttf_glyph = j; bygid[j++] = i; } } gi->bygid = bygid; gi->gcnt = j; return j; } static int dumpglyphs(SplineFont *sf,struct glyphinfo *gi) { int i; int fixed = gi->fixed_width; ff_progress_change_stages(2+gi->strikecnt); QuickBlues(sf,gi->layer,&gi->bd); /*FindBlues(sf,gi->blues,NULL);*/ ff_progress_next_stage(); if ( !gi->onlybitmaps ) { if ( sf->layers[gi->layer].order2 ) for ( i=0; iglyphcnt; ++i ) { SplineChar *sc = sf->glyphs[i]; if ( SCWorthOutputting(sc) ) if ( !SCPointsNumberedProperly(sc,gi->layer)) { free(sc->ttf_instrs); sc->ttf_instrs = NULL; sc->ttf_instrs_len = 0; SCNumberPoints(sc,gi->layer); } } } gi->maxp->numGlyphs = gi->gcnt; gi->loca = malloc((gi->maxp->numGlyphs+1)*sizeof(uint32)); gi->pointcounts = malloc((gi->maxp->numGlyphs+1)*sizeof(int32)); memset(gi->pointcounts,-1,(gi->maxp->numGlyphs+1)*sizeof(int32)); gi->next_glyph = 0; gi->glyphs = tmpfile2(); gi->hmtx = tmpfile2(); if ( sf->hasvmetrics ) gi->vmtx = tmpfile2(); FigureFullMetricsEnd(sf,gi,true); if ( fixed>0 ) { gi->lasthwidth = 3; gi->hfullcnt = 3; } for ( i=0; igcnt; ++i ) { if ( i==0 ) { if ( gi->bygid[0]!=-1 && (fixed<=0 || sf->glyphs[gi->bygid[0]]->width==fixed)) dumpglyph(sf->glyphs[gi->bygid[0]],gi); else dumpmissingglyph(sf,gi,fixed); } else if ( i<=2 && gi->bygid[i]==-1 ) dumpblankglyph(gi,sf,fixed); else if ( gi->onlybitmaps ) { if ( gi->bygid[i]!=-1 && sf->glyphs[gi->bygid[i]]->ttf_glyph>0 ) dumpspace(sf->glyphs[gi->bygid[i]],gi); } else { if ( gi->bygid[i]!=-1 && sf->glyphs[gi->bygid[i]]->ttf_glyph>0 ) { if ( IsTTFRefable(sf->glyphs[gi->bygid[i]],gi->layer) ) dumpcomposite(sf->glyphs[gi->bygid[i]],gi); else dumpglyph(sf->glyphs[gi->bygid[i]],gi); } } if ( (ftell(gi->glyphs)&3) != 0 ) { /* Apple says glyphs must be 16bit aligned */ if ( ftell(gi->glyphs)&1 ) putc('\0',gi->glyphs); /* MS says glyphs should be 32bit aligned */ if ( ftell(gi->glyphs)&2 ) putshort(gi->glyphs,0); } if ( !ff_progress_next()) return( false ); } /* extra location entry points to end of last glyph */ gi->loca[gi->next_glyph] = ftell(gi->glyphs); /* Microsoft's Font Validator wants the last loca entry to point into the */ /* glyph table. I think that's an error on their part, but it's so easy */ /* to fix, I might as well (instead of pointing to right after the table)*/ /* Sigh. But if I do that, it complains that there's extra stuff in the */ /* glyph table. There's just no pleasing them */ /* putlong(gi->glyphs,0);*/ gi->glyph_len = ftell(gi->glyphs); gi->hmtxlen = ftell(gi->hmtx); /* pad out to four bytes */ if ( gi->hmtxlen&2 ) putshort(gi->hmtx,0); if ( gi->loca[gi->next_glyph]&3 ) { for ( i=4-(gi->loca[gi->next_glyph]&3); i>0; --i ) putc('\0',gi->glyphs); } if ( sf->hasvmetrics ) { gi->vmtxlen = ftell(gi->vmtx); if ( gi->vmtxlen&2 ) putshort(gi->vmtx,0); } if ( !sf->layers[gi->layer].order2 ) RefigureCompositeMaxPts(sf,gi); free(gi->pointcounts); return( true ); } static int storesid(struct alltabs *at,const char *str) { int i; FILE *news; const char *pt; long pos; if ( str!=NULL ) { /* NULL is the magic string at end of array */ for ( i=0; cffnames[i]!=NULL; ++i ) { if ( strcmp(cffnames[i],str)==0 ) return( i ); } } pos = ftell(at->sidf)+1; if ( pos>=65536 && !at->sidlongoffset ) { at->sidlongoffset = true; news = tmpfile2(); rewind(at->sidh); for ( i=0; isidcnt; ++i ) putlong(news,getushort(at->sidh)); fclose(at->sidh); at->sidh = news; } if ( at->sidlongoffset ) putlong(at->sidh,pos); else putshort(at->sidh,pos); if ( str!=NULL ) { for ( pt=str; *pt; ++pt ) putc(*pt,at->sidf); } return( at->sidcnt++ + nStdStrings ); } static void dumpint(FILE *cfff,int num) { if ( num>=-107 && num<=107 ) putc(num+139,cfff); else if ( num>=108 && num<=1131 ) { num -= 108; putc((num>>8)+247,cfff); putc(num&0xff,cfff); } else if ( num>=-1131 && num<=-108 ) { num = -num; num -= 108; putc((num>>8)+251,cfff); putc(num&0xff,cfff); } else if ( num>=-32768 && num<32768 ) { putc(28,cfff); putc(num>>8,cfff); putc(num&0xff,cfff); } else { /* In dict data we have 4 byte ints, in type2 strings we don't */ putc(29,cfff); putc((num>>24)&0xff,cfff); putc((num>>16)&0xff,cfff); putc((num>>8)&0xff,cfff); putc(num&0xff,cfff); } } static void dumpdbl(FILE *cfff,double d) { if ( d-rint(d)>-.00001 && d-rint(d)<.00001 ) dumpint(cfff,(int) d); else { /* The type2 strings have a fixed format, but the dict data does not */ char buffer[20], *pt; int sofar,n,odd; sprintf( buffer, "%g", d); sofar = 0; odd=true; putc(30,cfff); /* Start a double */ for ( pt=buffer; *pt; ++pt ) { if ( isdigit(*pt) ) n = *pt-'0'; else if ( *pt=='.' ) n = 0xa; else if ( *pt=='-' ) n = 0xe; else if (( *pt=='E' || *pt=='e') && pt[1]=='-' ) { n = 0xc; ++pt; } else if ( *pt=='E' || *pt=='e') n = 0xb; else n = 0; /* Should never happen */ if ( odd ) { sofar = n<<4; odd = false; } else { putc(sofar|n,cfff); sofar=0; odd = true; } } if ( sofar==0 ) putc(0xff,cfff); else putc(sofar|0xf,cfff); } } static void dumpoper(FILE *cfff,int oper ) { if ( oper!=-1 ) { if ( oper>=256 ) putc(oper>>8,cfff); putc(oper&0xff,cfff); } } static void dumpdbloper(FILE *cfff,double d, int oper ) { dumpdbl(cfff,d); dumpoper(cfff,oper); } static void dumpintoper(FILE *cfff,int v, int oper ) { dumpint(cfff,v); dumpoper(cfff,oper); } static void dumpsizedint(FILE *cfff,int big,int num, int oper ) { if ( big ) { putc(29,cfff); putc((num>>24)&0xff,cfff); putc((num>>16)&0xff,cfff); putc((num>>8)&0xff,cfff); putc(num&0xff,cfff); } else { putc(28,cfff); putc(num>>8,cfff); putc(num&0xff,cfff); } dumpoper(cfff,oper); } static void dumpsid(FILE *cfff,struct alltabs *at,char *str,int oper) { if ( str==NULL ) return; dumpint(cfff,storesid(at,str)); dumpoper(cfff,oper); } static void DumpStrDouble(char *pt,FILE *cfff,int oper) { real d; if ( *pt=='[' ) ++pt; /* For StdHW, StdVW */ d = strtod(pt,NULL); dumpdbloper(cfff,d,oper); } static void DumpDblArray(real *arr,int n,FILE *cfff, int oper) { int mi,i; for ( mi=n-1; mi>=0 && arr[mi]==0; --mi ); if ( mi<0 ) return; dumpdbl(cfff,arr[0]); for ( i=1; i<=mi; ++i ) dumpdbl(cfff,arr[i]-arr[i-1]); dumpoper(cfff,oper); } static void DumpStrArray(char *pt,FILE *cfff,int oper) { real d, last=0; char *end; while ( *pt==' ' ) ++pt; if ( *pt=='\0' ) return; if ( *pt=='[' ) ++pt; while ( *pt==' ' ) ++pt; while ( *pt!=']' && *pt!='\0' ) { d = strtod(pt,&end); if ( pt==end ) /* User screwed up. Should be a number */ break; dumpdbl(cfff,d-last); last = d; pt = end; while ( *pt==' ' ) ++pt; } dumpoper(cfff,oper); } static void dumpcffheader(FILE *cfff) { putc('\1',cfff); /* Major version: 1 */ putc('\0',cfff); /* Minor version: 0 */ putc('\4',cfff); /* Header size in bytes */ putc('\4',cfff); /* Absolute Offset size. */ /* I don't think there are any absolute offsets that aren't encoded */ /* in a dict as numbers (ie. inherently variable sized items) */ } static void dumpcffnames(SplineFont *sf,FILE *cfff) { char *pt; putshort(cfff,1); /* One font name */ putc('\1',cfff); /* Offset size */ putc('\1',cfff); /* Offset to first name */ putc('\1'+strlen(sf->fontname),cfff); for ( pt=sf->fontname; *pt; ++pt ) putc(*pt,cfff); } static void dumpcffcharset(SplineFont *sf,struct alltabs *at) { int i; at->gn_sid = calloc(at->gi.gcnt,sizeof(uint32)); putc(0,at->charset); /* I always use a format 0 charset. ie. an array of SIDs in random order */ /* First element must be ".notdef" and is omitted */ for ( i=1; igi.gcnt; ++i ) if ( at->gi.bygid[i]!=-1 && SCWorthOutputting(sf->glyphs[at->gi.bygid[i]])) { at->gn_sid[i] = storesid(at,sf->glyphs[at->gi.bygid[i]]->name); putshort(at->charset,at->gn_sid[i]); } } static void dumpcffcidset(struct alltabs *at) { int gid, start; putc(2,at->charset); start = -1; /* Glyph 0 always maps to CID 0, and is omitted */ for ( gid = 1; gidgi.gcnt; ++gid ) { if ( start==-1 ) start = gid; else if ( at->gi.bygid[gid]-at->gi.bygid[start]!=gid-start ) { putshort(at->charset,at->gi.bygid[start]); putshort(at->charset,at->gi.bygid[gid-1]-at->gi.bygid[start]); start = gid; } } if ( start!=-1 ) { putshort(at->charset,at->gi.bygid[start]); putshort(at->charset,at->gi.bygid[gid-1]-at->gi.bygid[start]); } } static void dumpcfffdselect(SplineFont *sf,struct alltabs *at) { int cid, k, lastfd, cnt; int gid; putc(3,at->fdselect); putshort(at->fdselect,0); /* number of ranges, fill in later */ for ( k=0; ksubfontcnt; ++k ) if ( SCWorthOutputting(sf->subfonts[k]->glyphs[0])) break; if ( k==sf->subfontcnt ) --k; /* If CID 0 not defined, put it in last font */ putshort(at->fdselect,0); putc(k,at->fdselect); lastfd = k; cnt = 1; for ( gid = 1; gidgi.gcnt; ++gid ) { cid = at->gi.bygid[gid]; for ( k=0; ksubfontcnt; ++k ) { if ( cidsubfonts[k]->glyphcnt && SCWorthOutputting(sf->subfonts[k]->glyphs[cid]) ) break; } if ( k==sf->subfontcnt ) /* Doesn't map to a glyph, irrelevant */; else { if ( k!=lastfd ) { putshort(at->fdselect,gid); putc(k,at->fdselect); lastfd = k; ++cnt; } } } putshort(at->fdselect,gid); fseek(at->fdselect,1,SEEK_SET); putshort(at->fdselect,cnt); fseek(at->fdselect,0,SEEK_END); } static void dumpcffencoding(SplineFont *sf,struct alltabs *at) { int i, cnt, anydups; uint32 start_pos = ftell(at->encoding); SplineChar *sc; EncMap *map = at->map; putc(0,at->encoding); /* I always use a format 0 encoding. ie. an array of glyph indexes */ putc(0xff,at->encoding); /* fixup later */ for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) sf->glyphs[i]->ticked = false; cnt = 0; anydups = 0; for ( i=0; i<256 && ienccount; ++i ) if ( map->map[i]!=-1 && (sc=sf->glyphs[map->map[i]])!=NULL ) { if ( sc->ttf_glyph>255 ) continue; if ( sc->ticked ) { ++anydups; } else if ( sc->ttf_glyph>0 ) { if ( cnt>=255 ) break; putc(i,at->encoding); ++cnt; sc->ticked = true; } } if ( anydups ) { fseek(at->encoding,start_pos,SEEK_SET); putc(0x80,at->encoding); putc(cnt,at->encoding); fseek(at->encoding,0,SEEK_END); putc(anydups,at->encoding); for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) sf->glyphs[i]->ticked = false; for ( i=0; i<256 && ienccount; ++i ) if ( map->map[i]!=-1 && (sc=sf->glyphs[map->map[i]])!=NULL ) { if ( sc->ttf_glyph>255 ) continue; if ( sc->ticked ) { putc(i,at->encoding); putshort(at->encoding,at->gn_sid[sc->ttf_glyph]); } sc->ticked = true; } } else { fseek(at->encoding,start_pos+1,SEEK_SET); putc(cnt,at->encoding); fseek(at->encoding,0,SEEK_END); } free( at->gn_sid ); at->gn_sid = NULL; } static void _dumpcffstrings(FILE *file, struct pschars *strs) { int i, len, offsize; /* First figure out the offset size */ len = 1; for ( i=0; inext; ++i ) len += strs->lens[i]; /* Then output the index size and offsets */ putshort( file, strs->next ); if ( strs->next!=0 ) { /* presumably offsets are unsigned. But the docs don't state this in the obvious place */ offsize = len<=255?1:len<=65535?2:len<=0xffffff?3:4; putc(offsize,file); len = 1; for ( i=0; inext; ++i ) { dumpoffset(file,offsize,len); len += strs->lens[i]; } dumpoffset(file,offsize,len); /* last of all the strings */ for ( i=0; inext; ++i ) { uint8 *pt = strs->values[i], *end = pt+strs->lens[i]; while ( ptglyphcnt; ++i ) if ( SCWorthOutputting(sf->glyphs[i]) ) { if ( maxwglyphs[i]->width ) maxw = sf->glyphs[i]->width; if ( sameval == 0x8000000 ) sameval = sf->glyphs[i]->width; else if ( sameval!=sf->glyphs[i]->width ) allsame = false; } if ( allsame ) { nomwid = defwid = sameval; } else { ++maxw; if ( maxw>65535 ) maxw = 3*(sf->ascent+sf->descent); widths = calloc(maxw,sizeof(uint16)); cumwid = calloc(maxw,sizeof(uint32)); defwid = 0; cnt=0; for ( i=0; iglyphcnt; ++i ) if ( SCWorthOutputting(sf->glyphs[i]) && sf->glyphs[i]->width>=0 && sf->glyphs[i]->widthglyphs[i]->width] > cnt ) { defwid = sf->glyphs[i]->width; cnt = widths[defwid]; } widths[defwid] = 0; for ( i=0; i=0 && i+jdefwid = defwid; else at->fds[subfont].defwid = defwid; if ( subfont==-1 ) at->nomwid = nomwid; else at->fds[subfont].nomwid = nomwid; } static void dumpcffprivate(SplineFont *sf,struct alltabs *at,int subfont, int subrcnt) { char *pt; FILE *private = subfont==-1?at->private:at->fds[subfont].private; int mi,i; real bluevalues[14], otherblues[10]; real snapcnt[12]; real stemsnaph[12], stemsnapv[12]; real stdhw[1], stdvw[1]; int hasblue=0, hash=0, hasv=0, bs; int nomwid, defwid; EncMap *map = at->map; double bluescale; /* The private dict is not in an index, so no index header. Just the data */ if ( subfont==-1 ) defwid = at->defwid; else defwid = at->fds[subfont].defwid; dumpintoper(private,defwid,20); /* Default Width */ if ( subfont==-1 ) nomwid = at->nomwid; else nomwid = at->fds[subfont].nomwid; dumpintoper(private,nomwid,21); /* Nominative Width */ bs = SplineFontIsFlexible(sf,at->gi.layer,at->gi.flags); hasblue = PSDictHasEntry(sf->private,"BlueValues")!=NULL; hash = PSDictHasEntry(sf->private,"StdHW")!=NULL; hasv = PSDictHasEntry(sf->private,"StdVW")!=NULL; ff_progress_change_stages(2+autohint_before_generate+!hasblue); if ( autohint_before_generate ) { ff_progress_change_line1(_("Auto Hinting Font...")); SplineFontAutoHint(sf,at->gi.layer); ff_progress_next_stage(); } otherblues[0] = otherblues[1] = bluevalues[0] = bluevalues[1] = 0; if ( !hasblue ) { FindBlues(sf,at->gi.layer,bluevalues,otherblues); ff_progress_next_stage(); } stdhw[0] = stdvw[0] = 0; if ( !hash ) { FindHStems(sf,stemsnaph,snapcnt); mi = -1; for ( i=0; i<12 && stemsnaph[i]!=0; ++i ) if ( mi==-1 ) mi = i; else if ( snapcnt[i]>snapcnt[mi] ) mi = i; if ( mi!=-1 ) stdhw[0] = stemsnaph[mi]; } if ( !hasv ) { FindVStems(sf,stemsnapv,snapcnt); mi = -1; for ( i=0; i<12 && stemsnapv[i]!=0; ++i ) if ( mi==-1 ) mi = i; else if ( snapcnt[i]>snapcnt[mi] ) mi = i; if ( mi!=-1 ) stdvw[0] = stemsnapv[mi]; } ff_progress_change_line1(_("Saving OpenType Font")); if ( hasblue ) DumpStrArray(PSDictHasEntry(sf->private,"BlueValues"),private,6); else DumpDblArray(bluevalues,sizeof(bluevalues)/sizeof(bluevalues[0]),private,6); if ( (pt=PSDictHasEntry(sf->private,"OtherBlues"))!=NULL ) DumpStrArray(pt,private,7); else if ( !hasblue ) DumpDblArray(otherblues,sizeof(otherblues)/sizeof(otherblues[0]),private,7); if ( (pt=PSDictHasEntry(sf->private,"FamilyBlues"))!=NULL ) DumpStrArray(pt,private,8); bluescale = BlueScaleFigure(sf->private,bluevalues,otherblues); if ( (pt=PSDictHasEntry(sf->private,"FamilyOtherBlues"))!=NULL ) DumpStrArray(pt,private,9); if ( (pt=PSDictHasEntry(sf->private,"BlueScale"))!=NULL ) DumpStrDouble(pt,private,(12<<8)+9); else if ( bluescale!=-1 ) dumpdbloper(private,bluescale,(12<<8)+9); if ( (pt=PSDictHasEntry(sf->private,"BlueShift"))!=NULL ) DumpStrDouble(pt,private,(12<<8)+10); else dumpintoper(private,bs,(12<<8)+10); if ( (pt=PSDictHasEntry(sf->private,"BlueFuzz"))!=NULL ) DumpStrDouble(pt,private,(12<<8)+11); if ( hash ) { DumpStrDouble(PSDictHasEntry(sf->private,"StdHW"),private,10); if ( (pt=PSDictHasEntry(sf->private,"StemSnapH"))!=NULL ) DumpStrArray(pt,private,(12<<8)|12); } else { if ( stdhw[0]!=0 ) dumpdbloper(private,stdhw[0],10); DumpDblArray(stemsnaph,sizeof(stemsnaph)/sizeof(stemsnaph[0]),private,(12<<8)|12); } if ( hasv ) { DumpStrDouble(PSDictHasEntry(sf->private,"StdVW"),private,11); if ( (pt=PSDictHasEntry(sf->private,"StemSnapV"))!=NULL ) DumpStrArray(pt,private,(12<<8)|13); } else { if ( stdvw[0]!=0 ) dumpdbloper(private,stdvw[0],11); DumpDblArray(stemsnapv,sizeof(stemsnapv)/sizeof(stemsnapv[0]),private,(12<<8)|13); } if ( (pt=PSDictHasEntry(sf->private,"ForceBold"))!=NULL ) { dumpintoper(private,*pt=='t'||*pt=='T',(12<<8)|14); } else if ( sf->weight!=NULL && (strstrmatch(sf->weight,"Bold")!=NULL || strstrmatch(sf->weight,"Demi")!=NULL || strstrmatch(sf->weight,"Fett")!=NULL || strstrmatch(sf->weight,"Gras")!=NULL || strstrmatch(sf->weight,"Heavy")!=NULL || strstrmatch(sf->weight,"Black")!=NULL)) dumpintoper(private,1,(12<<8)|14); if ( (pt=PSDictHasEntry(sf->private,"LanguageGroup"))!=NULL ) DumpStrDouble(pt,private,(12<<8)+17); else if ( map==NULL ) /* Do Nothing */; else if ( map->enc->is_japanese || map->enc->is_korean || map->enc->is_tradchinese || map->enc->is_simplechinese ) dumpintoper(private,1,(12<<8)|17); if ( (pt=PSDictHasEntry(sf->private,"ExpansionFactor"))!=NULL ) DumpStrDouble(pt,private,(12<<8)+18); if ( subrcnt!=0 ) dumpsizedint(private,false,ftell(private)+3+1,19); /* Subrs */ if ( subfont==-1 ) at->privatelen = ftell(private); else at->fds[subfont].privatelen = ftell(private); } /* When we exit this the topdict is not complete, we still need to fill in */ /* values for charset,encoding,charstrings and private. Then we need to go */ /* back and fill in the table length (at lenpos) */ static void dumpcfftopdict(SplineFont *sf,struct alltabs *at) { char *pt, *end; FILE *cfff = at->cfff; DBounds b; putshort(cfff,1); /* One top dict */ putc('\2',cfff); /* Offset size */ putshort(cfff,1); /* Offset to topdict */ at->lenpos = ftell(cfff); putshort(cfff,0); /* placeholder for final position (final offset in index points beyond last element) */ dumpsid(cfff,at,sf->version,0); dumpsid(cfff,at,sf->copyright,1); dumpsid(cfff,at,sf->fullname?sf->fullname:sf->fontname,2); dumpsid(cfff,at,sf->familyname,3); dumpsid(cfff,at,sf->weight,4); if ( at->gi.fixed_width>0 ) dumpintoper(cfff,1,(12<<8)|1); if ( sf->italicangle!=0 ) dumpdbloper(cfff,sf->italicangle,(12<<8)|2); if ( sf->upos!=-100 ) dumpdbloper(cfff,sf->upos,(12<<8)|3); if ( sf->uwidth!=50 ) dumpdbloper(cfff,sf->uwidth,(12<<8)|4); if ( sf->strokedfont ) { dumpintoper(cfff,2,(12<<8)|5); dumpdbloper(cfff,sf->strokewidth,(12<<8)|8); } /* We'll never set CharstringType */ if ( sf->ascent+sf->descent!=1000 ) { dumpdbl(cfff,1.0/(sf->ascent+sf->descent)); dumpint(cfff,0); dumpint(cfff,0); dumpdbl(cfff,1.0/(sf->ascent+sf->descent)); dumpint(cfff,0); dumpintoper(cfff,0,(12<<8)|7); } if ( sf->uniqueid!=-1 && sf->use_uniqueid ) dumpintoper(cfff, sf->uniqueid?sf->uniqueid:4000000 + (rand()&0x3ffff), 13 ); SplineFontLayerFindBounds(sf,at->gi.layer,&b); at->gi.xmin = b.minx; at->gi.ymin = b.miny; at->gi.xmax = b.maxx; at->gi.ymax = b.maxy; dumpdbl(cfff,floor(b.minx)); dumpdbl(cfff,floor(b.miny)); dumpdbl(cfff,ceil(b.maxx)); dumpdbloper(cfff,ceil(b.maxy),5); /* We'll never set StrokeWidth */ if ( sf->xuid!=NULL && sf->use_xuid ) { pt = sf->xuid; if ( *pt=='[' ) ++pt; while ( *pt && *pt!=']' ) { dumpint(cfff,strtol(pt,&end,10)); if ( pt==end ) /* garbage in XUID */ break; for ( pt = end; *pt==' '; ++pt ); } putc(14,cfff); if ( sf->changed_since_xuidchanged ) SFIncrementXUID(sf); } /* Offset to charset (oper=15) needed here */ /* Offset to encoding (oper=16) needed here (not for CID )*/ /* Offset to charstrings (oper=17) needed here */ /* Length of, and Offset to private (oper=18) needed here (not for CID )*/ } static int dumpcffdict(SplineFont *sf,struct alltabs *at) { FILE *fdarray = at->fdarray; int pstart; /* according to the PSRef Man v3, only fontname, fontmatrix and private */ /* appear in this dictionary */ dumpsid(fdarray,at,sf->fontname,(12<<8)|38); if ( sf->ascent+sf->descent!=1000 ) { dumpdbl(fdarray,1.0/(sf->ascent+sf->descent)); dumpint(fdarray,0); dumpint(fdarray,0); dumpdbl(fdarray,1.0/(sf->ascent+sf->descent)); dumpint(fdarray,0); dumpintoper(fdarray,0,(12<<8)|7); } pstart = ftell(fdarray); dumpsizedint(fdarray,false,0,-1); /* private length */ dumpsizedint(fdarray,true,0,18); /* private offset */ return( pstart ); } static void dumpcffdictindex(SplineFont *sf,struct alltabs *at) { int i; int pos; putshort(at->fdarray,sf->subfontcnt); putc('\2',at->fdarray); /* DICTs aren't very big, and there are at most 255 */ putshort(at->fdarray,1); /* Offset to first dict */ for ( i=0; isubfontcnt; ++i ) putshort(at->fdarray,0); /* Dump offset placeholders (note there's one extra to mark the end) */ pos = ftell(at->fdarray)-1; for ( i=0; isubfontcnt; ++i ) { at->fds[i].fillindictmark = dumpcffdict(sf->subfonts[i],at); at->fds[i].eodictmark = ftell(at->fdarray); if ( at->fds[i].eodictmark>65536 ) IError("The DICT INDEX got too big, result won't work"); } fseek(at->fdarray,2*sizeof(short)+sizeof(char),SEEK_SET); for ( i=0; isubfontcnt; ++i ) putshort(at->fdarray,at->fds[i].eodictmark-pos); fseek(at->fdarray,0,SEEK_END); } static void dumpcffcidtopdict(SplineFont *sf,struct alltabs *at) { char *pt, *end; FILE *cfff = at->cfff; DBounds b; int cidcnt=0, k; for ( k=0; ksubfontcnt; ++k ) if ( sf->subfonts[k]->glyphcnt>cidcnt ) cidcnt = sf->subfonts[k]->glyphcnt; putshort(cfff,1); /* One top dict */ putc('\2',cfff); /* Offset size */ putshort(cfff,1); /* Offset to topdict */ at->lenpos = ftell(cfff); putshort(cfff,0); /* placeholder for final position */ dumpsid(cfff,at,sf->cidregistry,-1); dumpsid(cfff,at,sf->ordering,-1); dumpintoper(cfff,sf->supplement,(12<<8)|30); /* ROS operator must be first */ dumpdbloper(cfff,sf->cidversion,(12<<8)|31); dumpintoper(cfff,cidcnt,(12<<8)|34); if ( sf->use_uniqueid ) dumpintoper(cfff, sf->uniqueid?sf->uniqueid:4000000 + (rand()&0x3ffff), (12<<8)|35 ); dumpsid(cfff,at,sf->copyright,1); dumpsid(cfff,at,sf->fullname?sf->fullname:sf->fontname,2); dumpsid(cfff,at,sf->familyname,3); dumpsid(cfff,at,sf->weight,4); /* FontMatrix (identity here, real ones in sub fonts)*/ /* Actually there is no fontmatrix in the adobe cid font I'm looking at */ /* which means it should default to [.001...] but it doesn't so the */ /* docs aren't completely accurate */ /* I now see I've no idea what the FontMatrix means in a CID keyed font */ /* it seems to be ignored everywhere, so we omit it */ CIDLayerFindBounds(sf,at->gi.layer,&b); at->gi.xmin = b.minx; at->gi.ymin = b.miny; at->gi.xmax = b.maxx; at->gi.ymax = b.maxy; dumpdbl(cfff,floor(b.minx)); dumpdbl(cfff,floor(b.miny)); dumpdbl(cfff,ceil(b.maxx)); dumpdbloper(cfff,ceil(b.maxy),5); /* We'll never set StrokeWidth */ if ( sf->xuid!=NULL && sf->use_xuid ) { pt = sf->xuid; if ( *pt=='[' ) ++pt; while ( *pt && *pt!=']' ) { dumpint(cfff,strtol(pt,&end,10)); for ( pt = end; *pt==' '; ++pt ); } putc(14,cfff); if ( sf->changed_since_xuidchanged ) SFIncrementXUID(sf); } /* Acrobat doesn't seem to care about a private dict here. Ghostscript */ /* dies. Tech Note: 5176.CFF.PDF, top of page 23 says: */ /* A Private DICT is required, but may be specified as having */ /* a length of 0 if there are no non-default values to be stored*/ /* No indication >where< it is required. I assumed everywhere. Perhaps */ /* just in basefonts? */ /* Omit it. */ /* Offset to charset (oper=15) needed here */ /* Offset to charstrings (oper=17) needed here */ /* Offset to FDArray (oper=12,36) needed here */ /* Offset to FDSelect (oper=12,37) needed here */ } static int isStdEncoding(SplineFont *sf,EncMap *map) { int i; for ( i=0; i<256 && ienccount; ++i ) if ( map->map[i]!=-1 && sf->glyphs[map->map[i]]!=NULL ) if ( sf->glyphs[map->map[i]]->unicodeenc!=-1 ) if ( sf->glyphs[map->map[i]]->unicodeenc!=unicode_from_adobestd[i] ) return( 0 ); return( 1 ); } static void finishup(SplineFont *sf,struct alltabs *at) { int strlen, shlen, glen,enclen,csetlen,cstrlen,prvlen; int base, eotop, strhead; int output_enc = ( at->format==ff_cff && !isStdEncoding(sf,at->map)); storesid(at,NULL); /* end the strings index */ strlen = ftell(at->sidf) + (shlen = ftell(at->sidh)); glen = sizeof(short); /* Single entry: 0, no globals */ enclen = ftell(at->encoding); csetlen = ftell(at->charset); cstrlen = ftell(at->charstrings); prvlen = ftell(at->private); base = ftell(at->cfff); if ( base+6*3+strlen+glen+enclen+csetlen+cstrlen+prvlen > 32767 ) { at->cfflongoffset = true; base += 5*5+4; } else base += 5*3+4; strhead = 2+(at->sidcnt>1); base += strhead; dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen,15); /* Charset */ if ( output_enc ) /* encoding offset */ dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen,16); /* encoding offset */ else { dumpsizedint(at->cfff,at->cfflongoffset,0,16); enclen = 0; } dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen+enclen,17);/* charstrings */ dumpsizedint(at->cfff,at->cfflongoffset,at->privatelen,-1); dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen+enclen+cstrlen,18); /* private size */ eotop = base-strhead-at->lenpos-1; if ( at->cfflongoffset ) { fseek(at->cfff,3,SEEK_SET); putc(4,at->cfff); } fseek(at->cfff,at->lenpos,SEEK_SET); putshort(at->cfff,eotop); fseek(at->cfff,0,SEEK_END); /* String Index */ putshort(at->cfff,at->sidcnt-1); if ( at->sidcnt!=1 ) { /* Everybody gets an added NULL */ putc(at->sidlongoffset?4:2,at->cfff); if ( !ttfcopyfile(at->cfff,at->sidh,base,"CFF-StringBase")) at->error = true; if ( !ttfcopyfile(at->cfff,at->sidf,base+shlen,"CFF-StringData")) at->error = true; } /* Global Subrs */ putshort(at->cfff,0); /* Charset */ if ( !ttfcopyfile(at->cfff,at->charset,base+strlen+glen,"CFF-Charset")) at->error = true; /* Encoding */ if ( !ttfcopyfile(at->cfff,at->encoding,base+strlen+glen+csetlen,"CFF-Encoding")) at->error = true; /* Char Strings */ if ( !ttfcopyfile(at->cfff,at->charstrings,base+strlen+glen+csetlen+enclen,"CFF-CharStrings")) at->error = true; /* Private & Subrs */ if ( !ttfcopyfile(at->cfff,at->private,base+strlen+glen+csetlen+enclen+cstrlen,"CFF-Private")) at->error = true; } static void finishupcid(SplineFont *sf,struct alltabs *at) { int strlen, shlen, glen,csetlen,cstrlen,fdsellen,fdarrlen,prvlen; int base, eotop, strhead; int i; storesid(at,NULL); /* end the strings index */ strlen = ftell(at->sidf) + (shlen = ftell(at->sidh)); glen = ftell(at->globalsubrs); /* No encodings */ csetlen = ftell(at->charset); fdsellen = ftell(at->fdselect); cstrlen = ftell(at->charstrings); fdarrlen = ftell(at->fdarray); base = ftell(at->cfff); at->cfflongoffset = true; base += 5*4+4+2; /* two of the opers below are two byte opers */ strhead = 2+(at->sidcnt>1); base += strhead; prvlen = 0; for ( i=0; isubfontcnt; ++i ) { fseek(at->fdarray,at->fds[i].fillindictmark,SEEK_SET); dumpsizedint(at->fdarray,false,at->fds[i].privatelen,-1); /* Private len */ dumpsizedint(at->fdarray,true,base+strlen+glen+csetlen+fdsellen+cstrlen+fdarrlen+prvlen,18); /* Private offset */ prvlen += ftell(at->fds[i].private); /* private & subrs */ } dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen,15); /* charset */ dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen,(12<<8)|37); /* fdselect */ dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen+fdsellen,17); /* charstrings */ dumpsizedint(at->cfff,at->cfflongoffset,base+strlen+glen+csetlen+fdsellen+cstrlen,(12<<8)|36); /* fdarray */ eotop = base-strhead-at->lenpos-1; fseek(at->cfff,at->lenpos,SEEK_SET); putshort(at->cfff,eotop); fseek(at->cfff,0,SEEK_END); /* String Index */ putshort(at->cfff,at->sidcnt-1); if ( at->sidcnt!=1 ) { /* Everybody gets an added NULL */ putc(at->sidlongoffset?4:2,at->cfff); if ( !ttfcopyfile(at->cfff,at->sidh,base,"CFF-StringBase")) at->error = true; if ( !ttfcopyfile(at->cfff,at->sidf,base+shlen,"CFF-StringData")) at->error = true; } /* Global Subrs */ if ( !ttfcopyfile(at->cfff,at->globalsubrs,base+strlen,"CFF-GlobalSubrs")) at->error = true; /* Charset */ if ( !ttfcopyfile(at->cfff,at->charset,base+strlen+glen,"CFF-Charset")) at->error = true; /* FDSelect */ if ( !ttfcopyfile(at->cfff,at->fdselect,base+strlen+glen+csetlen,"CFF-FDSelect")) at->error = true; /* Char Strings */ if ( !ttfcopyfile(at->cfff,at->charstrings,base+strlen+glen+csetlen+fdsellen,"CFF-CharStrings")) at->error = true; /* FDArray (DICT Index) */ if ( !ttfcopyfile(at->cfff,at->fdarray,base+strlen+glen+csetlen+fdsellen+cstrlen,"CFF-FDArray")) at->error = true; /* Private & Subrs */ prvlen = 0; for ( i=0; isubfontcnt; ++i ) { int temp = ftell(at->fds[i].private); if ( !ttfcopyfile(at->cfff,at->fds[i].private, base+strlen+glen+csetlen+fdsellen+cstrlen+fdarrlen+prvlen,"CFF-PrivateSubrs")) at->error = true; prvlen += temp; } free(at->fds); } static int dumpcffhmtx(struct alltabs *at,SplineFont *sf,int bitmaps) { DBounds b; SplineChar *sc; int i,cnt; int dovmetrics = sf->hasvmetrics; int width = at->gi.fixed_width; at->gi.hmtx = tmpfile2(); if ( dovmetrics ) at->gi.vmtx = tmpfile2(); FigureFullMetricsEnd(sf,&at->gi,bitmaps); /* Bitmap fonts use ttf convention of 3 magic glyphs */ if ( at->gi.bygid[0]!=-1 && (sf->glyphs[at->gi.bygid[0]]->width==width || width<=0 )) { putshort(at->gi.hmtx,sf->glyphs[at->gi.bygid[0]]->width); SplineCharLayerFindBounds(sf->glyphs[at->gi.bygid[0]],at->gi.layer,&b); putshort(at->gi.hmtx,b.minx); if ( dovmetrics ) { putshort(at->gi.vmtx,sf->glyphs[at->gi.bygid[0]]->vwidth); putshort(at->gi.vmtx,/*sf->vertical_origin-*/b.miny); } } else { putshort(at->gi.hmtx,width<=0?(sf->ascent+sf->descent)/2:width); putshort(at->gi.hmtx,0); if ( dovmetrics ) { putshort(at->gi.vmtx,sf->ascent+sf->descent); putshort(at->gi.vmtx,0); } } cnt = 1; if ( bitmaps ) { if ( width<=0 ) width = (sf->ascent+sf->descent)/3; putshort(at->gi.hmtx,width); putshort(at->gi.hmtx,0); if ( dovmetrics ) { putshort(at->gi.vmtx,sf->ascent+sf->descent); putshort(at->gi.vmtx,0); } putshort(at->gi.hmtx,width); putshort(at->gi.hmtx,0); if ( dovmetrics ) { putshort(at->gi.vmtx,sf->ascent+sf->descent); putshort(at->gi.vmtx,0); } cnt = 3; } for ( i=cnt; igi.gcnt; ++i ) if ( at->gi.bygid[i]!=-1 ) { sc = sf->glyphs[at->gi.bygid[i]]; if ( SCWorthOutputting(sc) ) { if ( i<=at->gi.lasthwidth ) putshort(at->gi.hmtx,sc->width); SplineCharLayerFindBounds(sc,at->gi.layer,&b); putshort(at->gi.hmtx,b.minx); if ( dovmetrics ) { if ( i<=at->gi.lastvwidth ) putshort(at->gi.vmtx,sc->vwidth); putshort(at->gi.vmtx,/*sf->vertical_origin-*/b.maxy); } ++cnt; if ( i==at->gi.lasthwidth ) at->gi.hfullcnt = cnt; if ( i==at->gi.lastvwidth ) at->gi.vfullcnt = cnt; } } at->gi.hmtxlen = ftell(at->gi.hmtx); if ( at->gi.hmtxlen&2 ) putshort(at->gi.hmtx,0); if ( dovmetrics ) { at->gi.vmtxlen = ftell(at->gi.vmtx); if ( at->gi.vmtxlen&2 ) putshort(at->gi.vmtx,0); } at->gi.maxp->numGlyphs = cnt; return( true ); } static void dumpcffcidhmtx(struct alltabs *at,SplineFont *_sf) { DBounds b; SplineChar *sc; int cid,i,cnt=0,max; SplineFont *sf; int dovmetrics = _sf->hasvmetrics; at->gi.hmtx = tmpfile2(); if ( dovmetrics ) at->gi.vmtx = tmpfile2(); FigureFullMetricsEnd(_sf,&at->gi,false); max = 0; for ( i=0; i<_sf->subfontcnt; ++i ) if ( max<_sf->subfonts[i]->glyphcnt ) max = _sf->subfonts[i]->glyphcnt; for ( cid = 0; cidsubfontcnt; ++i ) { sf = _sf->subfonts[i]; if ( cidglyphcnt && SCWorthOutputting(sf->glyphs[cid])) break; } if ( i!=_sf->subfontcnt ) { sc = sf->glyphs[cid]; if ( sc->ttf_glyph<=at->gi.lasthwidth ) putshort(at->gi.hmtx,sc->width); SplineCharLayerFindBounds(sc,at->gi.layer,&b); putshort(at->gi.hmtx,b.minx); if ( dovmetrics ) { if ( sc->ttf_glyph<=at->gi.lastvwidth ) putshort(at->gi.vmtx,sc->vwidth); putshort(at->gi.vmtx,/*sf->vertical_origin-*/b.maxy); } ++cnt; if ( sc->ttf_glyph==at->gi.lasthwidth ) at->gi.hfullcnt = cnt; if ( sc->ttf_glyph==at->gi.lastvwidth ) at->gi.vfullcnt = cnt; } else if ( cid==0 ) { /* Create a dummy entry for .notdef */ sf = _sf->subfonts[0]; putshort(at->gi.hmtx,sf->ascent+sf->descent); putshort(at->gi.hmtx,0); ++cnt; if ( dovmetrics ) { putshort(at->gi.vmtx,sf->ascent+sf->descent); putshort(at->gi.vmtx,0); } } } at->gi.hmtxlen = ftell(at->gi.hmtx); if ( at->gi.hmtxlen&2 ) putshort(at->gi.hmtx,0); if ( dovmetrics ) { at->gi.vmtxlen = ftell(at->gi.vmtx); if ( at->gi.vmtxlen&2 ) putshort(at->gi.vmtx,0); } at->gi.maxp->numGlyphs = cnt; } static int dumptype2glyphs(SplineFont *sf,struct alltabs *at) { int i; struct pschars *subrs, *chrs; at->cfff = tmpfile2(); at->sidf = tmpfile2(); at->sidh = tmpfile2(); at->charset = tmpfile2(); at->encoding = tmpfile2(); at->private = tmpfile2(); dumpcffheader(at->cfff); dumpcffnames(sf,at->cfff); dumpcffcharset(sf,at); ff_progress_change_stages(2+at->gi.strikecnt); ATFigureDefWidth(sf,at,-1); if ((chrs =SplineFont2ChrsSubrs2(sf,at->nomwid,at->defwid,at->gi.bygid,at->gi.gcnt,at->gi.flags,&subrs,at->gi.layer))==NULL ) return( false ); dumpcffprivate(sf,at,-1,subrs->next); if ( subrs->next!=0 ) _dumpcffstrings(at->private,subrs); ff_progress_next_stage(); at->charstrings = dumpcffstrings(chrs); PSCharsFree(subrs); if ( at->charstrings == NULL ) return( false ); if ( at->format==ff_cff && !isStdEncoding(sf,at->map)) dumpcffencoding(sf,at); /* Do this after we've assigned glyph ids */ dumpcfftopdict(sf,at); finishup(sf,at); at->cfflen = ftell(at->cfff); if ( at->cfflen&3 ) { for ( i=4-(at->cfflen&3); i>0; --i ) putc('\0',at->cfff); } if ( at->format!=ff_cff ) dumpcffhmtx(at,sf,false); free(at->gn_sid); at->gn_sid=NULL; return( true ); } static int dumpcidglyphs(SplineFont *sf,struct alltabs *at) { int i; struct pschars *glbls = NULL, *chrs; at->cfff = tmpfile2(); at->sidf = tmpfile2(); at->sidh = tmpfile2(); at->charset = tmpfile2(); at->fdselect = tmpfile2(); at->fdarray = tmpfile2(); at->globalsubrs = tmpfile2(); at->fds = calloc(sf->subfontcnt,sizeof(struct fd2data)); for ( i=0; isubfontcnt; ++i ) { at->fds[i].private = tmpfile2(); ATFigureDefWidth(sf->subfonts[i],at,i); } if ( (chrs = CID2ChrsSubrs2(sf,at->fds,at->gi.flags,&glbls,at->gi.layer))==NULL ) return( false ); for ( i=0; isubfontcnt; ++i ) { dumpcffprivate(sf->subfonts[i],at,i,at->fds[i].subrs->next); if ( at->fds[i].subrs->next!=0 ) _dumpcffstrings(at->fds[i].private,at->fds[i].subrs); PSCharsFree(at->fds[i].subrs); } _dumpcffstrings(at->globalsubrs,glbls); PSCharsFree(glbls); dumpcffheader(at->cfff); dumpcffnames(sf,at->cfff); dumpcffcidset(at); dumpcfffdselect(sf,at); dumpcffdictindex(sf,at); if ( (at->charstrings = dumpcffstrings(chrs))==NULL ) return( false ); dumpcffcidtopdict(sf,at); finishupcid(sf,at); at->cfflen = ftell(at->cfff); if ( at->cfflen&3 ) { for ( i=4-(at->cfflen&3); i>0; --i ) putc('\0',at->cfff); } if ( at->format!=ff_cffcid ) dumpcffcidhmtx(at,sf); return( true ); } static int AnyInstructions(SplineFont *sf) { int i; if ( sf->subfontcnt!=0 ) { for ( i=0; isubfontcnt; ++i ) if ( AnyInstructions(sf->subfonts[i])) return( true ); } else { for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { if ( sf->glyphs[i]->ttf_instrs_len!=0 ) return( true ); } } return( false ); } void cvt_unix_to_1904( long long time, int32 result[2]) { uint32 date1970[4], tm[4]; uint32 year[2]; int i; tm[0] = time &0xffff; tm[1] = (time>>16)&0xffff; tm[2] = (time>>32)&0xffff; tm[3] = (time>>48)&0xffff; memset(date1970,0,sizeof(date1970)); year[0] = (60*60*24*365L)&0xffff; year[1] = (60*60*24*365L)>>16; for ( i=1904; i<1970; ++i ) { date1970[0] += year[0]; date1970[1] += year[1]; if ( (i&3)==0 && (i%100!=0 || i%400==0)) date1970[0] += 24*60*60L; /* Leap year */ date1970[1] += (date1970[0]>>16); date1970[0] &= 0xffff; date1970[2] += date1970[1]>>16; date1970[1] &= 0xffff; date1970[3] += date1970[2]>>16; date1970[2] &= 0xffff; } for ( i=0; i<3; ++i ) { tm[i] += date1970[i]; tm[i+1] += tm[i]>>16; tm[i] &= 0xffff; } tm[3] -= date1970[3]; result[0] = (tm[1]<<16) | tm[0]; result[1] = (tm[3]<<16) | tm[2]; } static void sethead(struct head *head,SplineFont *sf,struct alltabs *at, enum fontformat format, int32 *bsizes) { int i, lr, rl, indic_rearrange, arabic; ASM *sm; struct ttflangname *useng; float vn; if ( at->gi.xmin==15000 ) at->gi.xmin = 0; if ( at->gi.ymin==15000 ) at->gi.ymin = 0; if ( bsizes!=NULL && format==ff_none ) { if ( sf->ascent >at->gi.ymax ) at->gi.ymax = sf->ascent; if ( -sf->descentgi.ymin ) at->gi.ymin = -sf->descent; } head->xmin = at->gi.xmin; head->ymin = at->gi.ymin; head->xmax = at->gi.xmax; head->ymax = at->gi.ymax; lr = rl = arabic = 0; for ( i=0; igi.gcnt; ++i ) if ( at->gi.bygid[i]!=-1 ) { SplineChar *sc = sf->glyphs[at->gi.bygid[i]]; int uni = sc->unicodeenc ; if ( SCRightToLeft(sc) ) rl = 1; else if (( uni!=-1 && uni<0x10000 && islefttoright(uni)) || (uni>=0x10300 && uni<0x107ff)) lr = 1; if ( SCScriptFromUnicode(sc)==CHR('a','r','a','b') ) arabic = 1; } head->version = 0x00010000; head->revision = sf->sfntRevision; if ( sf->sfntRevision==sfntRevisionUnset ) { head->revision = 0x00010000; for ( useng=sf->names; useng!=NULL; useng=useng->next ) if ( useng->lang==0x409 ) break; if ( useng!=NULL && useng->names[ttf_version]!=NULL && sscanf(useng->names[ttf_version], "Version %f", &vn)==1 ) { head->revision = vn*65536; } else if ( sf->subfontcnt!=0 ) { int val, mant; val = floor(sf->cidversion); mant = floor(65536.*((double)sf->cidversion-val)); head->revision = (val<<16) | mant; } else if ( sf->version!=NULL ) { char *pt=sf->version; double dval; int val, mant; while ( *pt && !isdigit(*pt) && *pt!='.' ) ++pt; if ( *pt ) { dval = strtod(pt,NULL); val = floor(dval); mant = floor(65536.*(dval-val)); head->revision = (val<<16) | mant; } } } head->checksumAdj = 0; head->magicNum = 0x5f0f3cf5; head->flags = 8|2|1; /* baseline at 0, lsbline at 0, round ppem */ if ( format>=ff_ttf && format<=ff_ttfdfont ) { if ( AnyInstructions(sf) ) head->flags = 0x10|8|4|2|1; /* baseline at 0, lsbline at 0, round ppem, instructions may depend on point size, instructions change metrics */ } /* If a font contains embedded bitmaps, and if some of those bitmaps have */ /* a different advance width from that expected by scaling, then windows */ /* will only notice the fact if the 0x10 bit is set (even though this has*/ /* nothing to do with instructions) */ /* Apple flags */ if ( sf->hasvmetrics ) head->flags |= (1<<5); /* designed to be layed out vertically */ /* Bit 6 must be zero */ if ( arabic ) head->flags |= (1<<7); if ( sf->sm ) head->flags |= (1<<8); /* has metamorphesis effects */ if ( rl ) head->flags |= (1<<9); indic_rearrange = 0; for ( sm = sf->sm; sm!=NULL; sm=sm->next ) if ( sm->type == asm_indic ) indic_rearrange = true; if ( indic_rearrange ) head->flags |= (1<<10); /* End apple flags */ if ( sf->head_optimized_for_cleartype ) head->flags |= (1<<13); head->emunits = sf->ascent+sf->descent; head->macstyle = MacStyleCode(sf,NULL); head->lowestreadable = 8; head->locais32 = 1; if ( at->gi.glyph_len<0x20000 ) head->locais32 = 0; /* I assume we've always got some neutrals (spaces, punctuation) */ if ( lr && rl ) head->dirhint = 0; else if ( rl ) head->dirhint = -2; else head->dirhint = 2; if ( rl ) head->flags |= (1<<9); /* Apple documents this */ /* if there are any indic characters, set bit 10 */ cvt_unix_to_1904(sf->creationtime,head->createtime); cvt_unix_to_1904(sf->modificationtime,head->modtime); } static void sethhead(struct hhead *hhead,struct hhead *vhead,struct alltabs *at, SplineFont *sf) { int i, width, rbearing, height, bbearing; int ymax, ymin, xmax, xmin, off; DBounds bb; /* Might as well fill in the vhead even if we don't use it */ /* we just won't dump it out if we don't want it */ width = 0x80000000; rbearing = 0x7fffffff; height = 0x80000000; bbearing=0x7fffffff; xmax = ymax = 0x80000000; xmin = ymin = 0x7fffffff; for ( i=0; igi.gcnt; ++i ) if ( at->gi.bygid[i]!=-1 ) { SplineChar *sc = sf->glyphs[at->gi.bygid[i]]; SplineCharLayerFindBounds(sc,at->gi.layer,&bb); if ( sc->width>width ) width = sc->width; if ( sc->vwidth>height ) height = sc->vwidth; if ( sc->width-bb.maxx < rbearing ) rbearing = sc->width-bb.maxx; if ( sc->vwidth-bb.maxy < bbearing ) bbearing = sc->vwidth-bb.maxy; if ( bb.maxy > ymax ) ymax = bb.maxy; if ( bb.miny < ymin ) ymin = bb.miny; if ( bb.maxx > xmax ) xmax = bb.maxx; if ( bb.minx < xmin ) xmin = bb.minx; } if ( at->head.ymax>ymax ) ymax = at->head.ymax; /* If generated .notdef glyph is bigger than real glyphs */ if ( at->head.yminhead.ymin; if ( ymax==0 && ymin==0 ) { /* this can happen in a bitmap only font */ ymax = sf->ascent; ymin = -sf->descent; } hhead->version = 0x00010000; if ( sf->pfminfo.hheadascent_add ) hhead->ascender = ymax + sf->pfminfo.hhead_ascent; else hhead->ascender = sf->pfminfo.hhead_ascent; if ( sf->pfminfo.hheaddescent_add ) hhead->descender = ymin + sf->pfminfo.hhead_descent; else hhead->descender = sf->pfminfo.hhead_descent; hhead->linegap = sf->pfminfo.linegap; vhead->version = 0x00011000; off = (sf->ascent+sf->descent)/2; vhead->ascender = xmax-off; vhead->descender = xmin-off; vhead->linegap = sf->pfminfo.linegap; at->isfixed = at->gi.fixed_width>0; hhead->maxwidth = width; hhead->minlsb = at->head.xmin; hhead->minrsb = rbearing; /* Apple's ftxvalidator says the min sidebearing should be 0 even if it isn't */ if ( hhead->minlsb>0 ) hhead->minlsb = 0; if ( hhead->minrsb>0 ) hhead->minrsb = 0; hhead->maxextent = at->head.xmax; if ( sf->italicangle==0 ) hhead->caretSlopeRise = 1; else { hhead->caretSlopeRise = 100; hhead->caretSlopeRun = (int) rint(100*tan(-sf->italicangle*3.1415926535897/180.)); } vhead->maxwidth = height; vhead->minlsb = at->head.ymin; vhead->minrsb = bbearing; vhead->maxextent = at->head.ymax; vhead->caretSlopeRise = 0; vhead->caretSlopeRun = 1; /* Are there vertical oblique fonts? */ hhead->numMetrics = at->gi.hfullcnt; vhead->numMetrics = at->gi.vfullcnt; } static void OS2WeightCheck(struct pfminfo *pfminfo,char *weight) { if ( weight==NULL ) { /* default it */ } else if ( strstrmatch(weight,"medi")!=NULL ) { pfminfo->weight = 500; pfminfo->panose[2] = 6; } else if ( strstrmatch(weight,"demi")!=NULL || strstrmatch(weight,"halb")!=NULL || (strstrmatch(weight,"semi")!=NULL && strstrmatch(weight,"bold")!=NULL) ) { pfminfo->weight = 600; pfminfo->panose[2] = 7; } else if ( strstrmatch(weight,"bold")!=NULL || strstrmatch(weight,"fett")!=NULL || strstrmatch(weight,"gras")!=NULL ) { pfminfo->weight = 700; pfminfo->panose[2] = 8; } else if ( strstrmatch(weight,"heavy")!=NULL ) { pfminfo->weight = 800; pfminfo->panose[2] = 9; } else if ( strstrmatch(weight,"black")!=NULL ) { pfminfo->weight = 900; pfminfo->panose[2] = 10; } else if ( strstrmatch(weight,"nord")!=NULL ) { pfminfo->weight = 950; pfminfo->panose[2] = 11; } else if ( strstrmatch(weight,"thin")!=NULL ) { pfminfo->weight = 100; pfminfo->panose[2] = 2; } else if ( strstrmatch(weight,"extra")!=NULL || strstrmatch(weight,"light")!=NULL ) { pfminfo->weight = 200; pfminfo->panose[2] = 3; } else if ( strstrmatch(weight,"light")!=NULL ) { pfminfo->weight = 300; pfminfo->panose[2] = 4; } } void SFDefaultOS2Simple(struct pfminfo *pfminfo,SplineFont *sf) { pfminfo->pfmfamily = 0x11; pfminfo->panose[0] = 2; pfminfo->weight = 400; pfminfo->panose[2] = 5; pfminfo->width = 5; pfminfo->panose[3] = 3; pfminfo->winascent_add = pfminfo->windescent_add = true; pfminfo->hheadascent_add = pfminfo->hheaddescent_add = true; pfminfo->typoascent_add = pfminfo->typodescent_add = true; pfminfo->os2_winascent = pfminfo->os2_windescent = 0; if ( sf->subfonts!=NULL ) sf = sf->subfonts[0]; pfminfo->linegap = pfminfo->vlinegap = pfminfo->os2_typolinegap = rint(.09*(sf->ascent+sf->descent)); } void SFDefaultOS2SubSuper(struct pfminfo *pfminfo,int emsize,double italic_angle) { double s = sin(italic_angle*3.1415926535897932/180.0); pfminfo->os2_supysize = pfminfo->os2_subysize = .7*emsize; pfminfo->os2_supxsize = pfminfo->os2_subxsize = .65*emsize; pfminfo->os2_subyoff = .14*emsize; pfminfo->os2_supyoff = .48*emsize; pfminfo->os2_supxoff = s*pfminfo->os2_supyoff; pfminfo->os2_subxoff = -s*pfminfo->os2_subyoff; pfminfo->os2_strikeysize = 102*emsize/2048; pfminfo->os2_strikeypos = 530*emsize/2048; } void SFDefaultOS2Info(struct pfminfo *pfminfo,SplineFont *sf,char *fontname) { int samewid= -1; char *weight = sf->cidmaster==NULL ? sf->weight : sf->cidmaster->weight; if ( sf->pfminfo.pfmset ) { if ( pfminfo!=&sf->pfminfo ) *pfminfo = sf->pfminfo; if ( !pfminfo->panose_set ) { struct pfminfo info; memset(&info,0,sizeof(info)); sf->pfminfo.pfmset = false; SFDefaultOS2Info(&info,sf,fontname); sf->pfminfo.pfmset = true; memcpy(pfminfo->panose,info.panose,sizeof(info.panose)); } } else { struct pfminfo hold; if ( pfminfo->hheadset || pfminfo->vheadset ) hold = *pfminfo; else hold.hheadset = hold.vheadset = false; memset(pfminfo,'\0',sizeof(*pfminfo)); SFDefaultOS2Simple(pfminfo,sf); samewid = CIDOneWidth(sf); pfminfo->pfmfamily = 0x10; if ( samewid>0 ) { pfminfo->pfmfamily = 0x30; /* pfminfo->panose[3] = 9; */ /* This is done later */ } else if ( strstrmatch(fontname,"sans")!=NULL ) pfminfo->pfmfamily = 0x20; else if ( strstrmatch(fontname,"script")!=NULL ) { pfminfo->pfmfamily = 0x40; pfminfo->panose[0] = 3; } if ( samewid==-1 ) pfminfo->pfmfamily |= 0x1; /* Else it assumes monospace */ /* urw uses 4 character abreviations */ if ( weight!=NULL ) OS2WeightCheck(pfminfo,weight); OS2WeightCheck(pfminfo,fontname); if ( strstrmatch(fontname,"ultra")!=NULL && strstrmatch(fontname,"condensed")!=NULL ) { pfminfo->width = 1; pfminfo->panose[3] = 8; } else if ( strstrmatch(fontname,"extra")!=NULL && strstrmatch(fontname,"condensed")!=NULL ) { pfminfo->width = 2; pfminfo->panose[3] = 8; } else if ( strstrmatch(fontname,"semi")!=NULL && strstrmatch(fontname,"condensed")!=NULL ) { pfminfo->width = 4; pfminfo->panose[3] = 6; } else if ( strstrmatch(fontname,"condensed")!=NULL || strstrmatch(fontname,"narrow")!=NULL ) { pfminfo->width = 3; pfminfo->panose[3] = 6; } else if ( strstrmatch(fontname,"ultra")!=NULL && strstrmatch(fontname,"expanded")!=NULL ) { pfminfo->width = 9; pfminfo->panose[3] = 7; } else if ( strstrmatch(fontname,"extra")!=NULL && strstrmatch(fontname,"expanded")!=NULL ) { pfminfo->width = 8; pfminfo->panose[3] = 7; } else if ( strstrmatch(fontname,"semi")!=NULL && strstrmatch(fontname,"expanded")!=NULL ) { pfminfo->width = 6; pfminfo->panose[3] = 5; } else if ( strstrmatch(fontname,"expanded")!=NULL ) { pfminfo->width = 7; pfminfo->panose[3] = 5; } if ( samewid>0 ) pfminfo->panose[3] = 9; if ( hold.hheadset ) { pfminfo->hheadset = true; pfminfo->hheadascent_add = hold.hheadascent_add; pfminfo->hheaddescent_add = hold.hheaddescent_add; pfminfo->hhead_ascent = hold.hhead_ascent; pfminfo->hhead_descent = hold.hhead_descent; pfminfo->linegap = hold.linegap; } if ( hold.vheadset ) { pfminfo->vheadset = true; pfminfo->vlinegap = hold.vlinegap; } } if ( !pfminfo->subsuper_set ) SFDefaultOS2SubSuper(pfminfo,sf->ascent+sf->descent,sf->italicangle); } int AlreadyMSSymbolArea(SplineFont *sf,EncMap *map) { int i; int acnt=0, pcnt=0; for ( i=0; ienccount && i<0xffff; ++i ) { if ( map->map[i]!=-1 && sf->glyphs[map->map[i]]!=NULL && sf->glyphs[map->map[i]]->ttf_glyph!=-1 ) { if ( i>=0xf000 && i<=0xf0ff ) ++pcnt; else if ( i>=0x20 && i<=0xff ) ++acnt; } } return( pcnt>acnt ); } void OS2FigureCodePages(SplineFont *sf, uint32 CodePage[2]) { int i; uint32 latin1[8]; int has_ascii, has_lineart=0, has_radical=0, has_summation=0; int cp852=0, cp775=0, cp861=0, cp860=0, cp857=0, cp855=0, cp862=0, cp863=0; int cp864=0, cp865=0, cp866=0, cp869=0, cp737=0, cp708=0, mac=0; int k; SplineChar *sc; SplineFont *sub; memset(latin1,0,sizeof(latin1)); k=0; do { sub = ksubfontcnt? sf->subfonts[k] : sf; for ( i=0; iglyphcnt; ++i ) if ( (sc = sub->glyphs[i])!=NULL ) { if ( sc->unicodeenc<256 && sc->unicodeenc>=0 ) latin1[(sc->unicodeenc>>5)] |= 1<<(sc->unicodeenc&31); } ++k; } while ( ksubfontcnt ); has_ascii = latin1[1]==0xffffffff && latin1[2]==0xffffffff && (latin1[3]&0x7fffffff)==0x7fffffff; /* DEL is not a char */ CodePage[0] = CodePage[1] = 0; k=0; do { sub = ksubfontcnt? sf->subfonts[k] : sf; for ( i=0; iglyphcnt; ++i ) if ( (sc = sub->glyphs[i])!=NULL ) { int uni = sc->unicodeenc; if ( uni==0xde && has_ascii ) CodePage[0] |= 1<<0; /* (ANSI) Latin1 */ else if ( uni==0x255a && has_ascii ) { CodePage[1] |= 1U<<30; /* WE/latin1 */ /* Not latin1 at all */ CodePage[1] |= 1U<<31; /* US */ } else if ( uni==0x13d && has_ascii ) { CodePage[0] |= 1<<1; /* latin2 */ ++cp852; } else if ( uni==0x411 ) { CodePage[0] |= 1<<2; /* cyrillic */ ++cp866; ++cp855; } else if ( uni==0x405 ) { ++cp855; } else if ( uni==0x386 ) { CodePage[0] |= 1<<3; /* greek */ ++cp869; ++cp737; } else if ( uni==0x130 && has_ascii ) { CodePage[0] |= 1<<4; /* turkish */ ++cp857; } else if ( uni==0x5d0 ) { CodePage[0] |= 1<<5; /* hebrew */ ++cp862; } else if ( uni==0x631 ) { CodePage[0] |= 1<<6; /* arabic */ ++cp864; ++cp708; } else if ( uni==0x157 && has_ascii ) { CodePage[0] |= 1<<7; /* baltic */ ++cp775; } else if ( uni==0x20AB && has_ascii ) { CodePage[0] |= 1<<8; /* vietnamese */ } else if ( uni==0xe45 ) CodePage[0] |= 1<<16; /* thai */ else if ( uni==0x30a8 ) CodePage[0] |= 1<<17; /* japanese */ else if ( uni==0x3105 ) CodePage[0] |= 1<<18; /* simplified chinese */ else if ( uni==0x3131 ) CodePage[0] |= 1<<19; /* korean wansung */ else if ( uni==0x592E ) CodePage[0] |= 1<<20; /* traditional chinese */ else if ( uni==0xacf4 ) CodePage[0] |= 1<<21; /* korean Johab */ else if ( uni==0x2030 && has_ascii ) ++mac; else if ( uni==0x2665 && has_ascii ) CodePage[0] |= 1U<<30; /* OEM */ /* the symbol bit doesn't mean it contains the glyphs in symbol */ /* rather that one is using a symbol encoding. Or that there are */ /* glyphs with unicode encoding between 0xf000 and 0xf0ff, in which */ /* case those guys should be given a symbol encoding */ /* There's a bug in the way otf fonts handle this (but not ttf) and */ /* they only seem to list the symbol glyphs. */ /* Hence we don't test uni==0x21d4 */ /* This doesn't work well either. In ttf fonts the bit is ignored */ /* in otf fonts the bit means "ignore all other bits" */ else if ( uni>=0xf000 && uni<=0xf0ff ) CodePage[0] |= 1U<<31; /* symbol */ else if ( uni==0xc5 && has_ascii ) ++cp865; else if ( uni==0xe9 && has_ascii ) ++cp863; else if ( uni==0xf5 && has_ascii ) ++cp860; else if ( uni==0xfe && has_ascii ) ++cp861; else if ( uni==0x2524 ) ++has_lineart; else if ( uni==0x255c ) ++cp866; else if ( uni==0xbd ) ++cp869; else if ( uni==0x221A ) has_radical=true; else if ( uni==0x2211 ) has_summation=true; } ++k; } while ( ksubfontcnt ); if ( cp852 && has_lineart ) CodePage[1] |= 1<<26; /* latin2 */ if ( cp775 && has_lineart ) CodePage[1] |= 1<<27; /* baltic */ if ( cp861 && has_lineart ) CodePage[1] |= 1<<22; /* MS-DOS Icelandic */ if ( cp866==2 && has_lineart ) CodePage[1] |= 1<<17; /* MS DOS Russian */ if ( cp855==2 && has_lineart ) CodePage[1] |= 1<<25; /* IBM Cyrillic */ if ( cp869==2 && has_lineart ) CodePage[1] |= 1<<16; /* IBM Greek */ if ( cp737 && has_lineart && has_radical ) CodePage[1] |= 1<<28; /* Greek, former 437 G */ if ( cp857 && has_lineart ) CodePage[1] |= 1<<24; /* IBM turkish */ if ( cp862 && has_lineart && has_radical ) CodePage[1] |= 1<<21; /* hebrew */ if ( cp864 && has_radical ) CodePage[1] |= 1<<19; /* arabic */ if ( cp708 && has_lineart) CodePage[1] |= 1<<29; /* arabic; ASMO 708 */ if ( cp863 && has_lineart && has_radical ) CodePage[1] |= 1<<20; /* MS-DOS Canadian French */ if ( cp865 && has_lineart && has_radical ) CodePage[1] |= 1<<18; /* MS-DOS Nordic */ if ( cp860 && has_lineart && has_radical ) CodePage[1] |= 1<<23; /* MS-DOS Portuguese */ if ( mac && has_summation ) CodePage[0] |= 1U<<29; /* mac roman */ } void OS2FigureUnicodeRanges(SplineFont *sf, uint32 Ranges[4]) { int i, k; unsigned j; SplineChar *sc; SplineFont *sub; memset(Ranges,0,4*sizeof(uint32)); k=0; do { sub = ksubfontcnt? sf->subfonts[k] : sf; for ( i=0; iglyphcnt; ++i ) if ( (sc = sub->glyphs[i])!=NULL ) { if ( SCWorthOutputting(sc) && sc->unicodeenc!=-1 ) { if ( sc->unicodeenc > 0xffff ) Ranges[57>>5] |= (1<<(57&31)); for ( j=0; junicodeenc>=uniranges[j][0] && sc->unicodeenc<=uniranges[j][1] ) { int bit = uniranges[j][2]; Ranges[bit>>5] |= (1<<(bit&31)); break; } } } ++k; } while ( ksubfontcnt ); } static void WinBB(SplineFont *sf,uint16 *winascent,uint16 *windescent,struct alltabs *at) { /* The windows ascent/descent is calculated on the ymin/max of the */ /* glyphs in the so called ANSI character set. I'm going to pretend */ /* that's Latin1 with a few additions */ /* Well, that's what is documented, but the documentation says contradictory */ /* things. I believe that winAscent should be the same as hhea.ascent */ *winascent = at->head.ymax; *windescent = -at->head.ymin; /* Should be positive */ if ( sf->cidmaster!=NULL ) sf = sf->cidmaster; if ( sf->pfminfo.winascent_add ) *winascent += sf->pfminfo.os2_winascent; else *winascent = sf->pfminfo.os2_winascent; if ( sf->pfminfo.windescent_add ) *windescent += sf->pfminfo.os2_windescent; else *windescent = sf->pfminfo.os2_windescent; } static void redohead(struct alltabs *at); static void setos2(struct os2 *os2,struct alltabs *at, SplineFont *sf, enum fontformat format) { int i,cnt1,cnt2,first,last,avg1,avg2,gid; char *pt; static int const weightFactors[26] = { 64, 14, 27, 35, 100, 20, 14, 42, 63, 3, 6, 35, 20, 56, 56, 17, 4, 49, 56, 71, 31, 10, 18, 3, 18, 2 }; EncMap *map; SplineChar *sc; int modformat = format; os2->version = 1; if ( format==ff_otf || format==ff_otfcid ) os2->version = 3; if ( sf->use_typo_metrics || sf->weight_width_slope_only ) os2->version = 4; if ( sf->os2_version > os2->version ) os2->version = sf->os2_version; if (( format>=ff_ttf && format<=ff_otfdfont) && (at->gi.flags&ttf_flag_symbol)) modformat = ff_ttfsym; os2->weightClass = sf->pfminfo.weight; os2->widthClass = sf->pfminfo.width; os2->fstype = 0x8; if ( sf->pfminfo.fstype!=-1 ) os2->fstype = sf->pfminfo.fstype; if ( !sf->pfminfo.subsuper_set ) SFDefaultOS2SubSuper(&sf->pfminfo,sf->ascent+sf->descent,sf->italicangle); os2->ysupYSize = sf->pfminfo.os2_supysize; os2->ysubXSize = sf->pfminfo.os2_subxsize; os2->ysubYSize = sf->pfminfo.os2_subysize; os2->ysupXSize = sf->pfminfo.os2_supxsize; os2->ysubYOff = sf->pfminfo.os2_subyoff; os2->ysubXOff = sf->pfminfo.os2_subxoff; os2->ysupXOff = sf->pfminfo.os2_supxoff; os2->ysupYOff = sf->pfminfo.os2_supyoff; os2->yStrikeoutSize = sf->pfminfo.os2_strikeysize; os2->yStrikeoutPos = sf->pfminfo.os2_strikeypos; if ( sf->pfminfo.stylemap!=-1 ) { int changed = 0; os2->fsSel = sf->pfminfo.stylemap; /* Make sure fsSel and macStyle don't contradict */ if (at->head.macstyle&1 && !(os2->fsSel&32)) {at->head.macstyle &= 0x7E; changed=1;} if (at->head.macstyle&2 && !(os2->fsSel&1)) {at->head.macstyle &= 0x7D; changed=1;} if (changed) redohead(at); } else { os2->fsSel = (at->head.macstyle&1?32:0)|(at->head.macstyle&2?1:0); if ( os2->fsSel==0 && sf->pfminfo.weight==400 ) os2->fsSel = 64; /* Regular */ } if ( sf->fullname!=NULL && strstrmatch(sf->fullname,"outline")!=NULL ) os2->fsSel |= 8; if ( os2->version>=4 ) { if ( strstrmatch(sf->fontname,"Obli")!=NULL ) { os2->fsSel &= ~1; /* Turn off Italic */ os2->fsSel |= 512; /* Turn on Oblique */ } if ( sf->use_typo_metrics ) os2->fsSel |= 128; /* Don't use win ascent/descent for line spacing */ if ( sf->weight_width_slope_only ) os2->fsSel |= 256; } /* David Lemon @Adobe.COM 1) The sTypoAscender and sTypoDescender values should sum to 2048 in a 2048-unit font. They indicate the position of the em square relative to the baseline. GWW: Almost, sTypoAscender-sTypoDescender == EmSize 2) The usWinAscent and usWinDescent values represent the maximum height and depth of specific glyphs within the font, and some applications will treat them as the top and bottom of the font bounding box. (the "ANSI" glyphs) GWW: That's what's documented. But it means non-ANSI glyphs get clipped. So the docs are wrong. */ if ( sf->pfminfo.typoascent_add ) os2->ascender = sf->ascent + sf->pfminfo.os2_typoascent; else os2->ascender = sf->pfminfo.os2_typoascent; if ( sf->pfminfo.typodescent_add ) os2->descender = -sf->descent + sf->pfminfo.os2_typodescent; /* Should be neg */ else os2->descender = sf->pfminfo.os2_typodescent; WinBB(sf,&os2->winascent,&os2->windescent,at); os2->linegap = sf->pfminfo.os2_typolinegap; os2->sFamilyClass = sf->pfminfo.os2_family_class; avg1 = avg2 = last = 0; first = 0xffff; cnt1 = cnt2 = 0; for ( i=0; iglyphcnt; ++i ) if ( (sc = sf->glyphs[i])!=NULL ) { if ( SCWorthOutputting(sc) && sc->unicodeenc!=-1 ) { /* Don't include the dummy glyphs (.notdef, .null, etc.) they aren't */ /* really encoded. Don't include glyphs out of BMP, OS/2 uses shorts */ /* for the first/last char and can't represent them. */ /* If no BMP glyphs, then first should be 0xffff. If any outside */ /* BMP then last is 0xffff */ /* sc->ttf_glyph>2 is to skip the first few truetype glyphs but */ /* that doesn't work for cff files which only have .notdef to ignore */ if ( ( format>=ff_ttf && format<=ff_otfdfont && sc->ttf_glyph>2) || ( format>=ff_ttf && format<=ff_otfdfont && sc->ttf_glyph>0) ) { if ( sc->unicodeenc<=0xffff ) { if ( sc->unicodeencunicodeenc; if ( sc->unicodeenc>last ) last = sc->unicodeenc; } else { last = 0xffff; } } if ( sc->width!=0 ) { avg2 += sc->width; ++cnt2; } if ( sc->unicodeenc==' ') { avg1 += sc->width * 166; ++cnt1; } else if (sc->unicodeenc>='a' && sc->unicodeenc<='z') { avg1 += sc->width * weightFactors[sc->unicodeenc-'a']; ++cnt1; } } } if ( sf->pfminfo.hasunicoderanges ) memcpy(os2->unicoderange,sf->pfminfo.unicoderanges,sizeof(os2->unicoderange)); else OS2FigureUnicodeRanges(sf,os2->unicoderange); if ( modformat==ff_ttfsym ) /* MS Symbol font has this set to zero. Does it matter? */ memset(os2->unicoderange,0,sizeof(os2->unicoderange)); if ( sf->pfminfo.pfmset ) strncpy(os2->achVendID,sf->pfminfo.os2_vendor,4); else if ( TTFFoundry!=NULL ) strncpy(os2->achVendID,TTFFoundry,4); else memcpy(os2->achVendID,"PfEd",4); for ( pt=os2->achVendID; ptachVendID && *pt!='\0'; ++pt ); while ( ptachVendID ) *pt++ = ' '; /* Pad with spaces not NUL */ /* v1,2 & v3,4 have different ways of calculating avgCharWid. */ /* but I'm told that using the v3 way breaks display of CJK fonts in windows */ os2->avgCharWid = 500; os2->v1_avgCharWid = os2->v3_avgCharWid = 0; if ( cnt1==27 ) os2->v1_avgCharWid = avg1/1000; if ( cnt2!=0 ) os2->v3_avgCharWid = avg2/cnt2; memcpy(os2->panose,sf->pfminfo.panose,sizeof(os2->panose)); map = at->map; if ( modformat==ff_ttfsym ) { if ( sf->pfminfo.hascodepages ) memcpy(os2->ulCodePage,sf->pfminfo.codepages,sizeof(os2->ulCodePage)); else { os2->ulCodePage[0] = 0x80000000; os2->ulCodePage[1] = 0; } if ( AlreadyMSSymbolArea(sf,map)) { first = 0xf0ff; last = 0; for ( i=0xf020; ienccount && i<=0xf0ff; ++i ) if ( (gid=map->map[i])!=-1 && sf->glyphs[gid]!=NULL && sf->glyphs[gid]->ttf_glyph!=-1 ) { if ( ilast ) last = i; } for ( i=0; ienccount && i<=255; ++i ) if ( (gid=map->map[i])!=-1 && sf->glyphs[gid]!=NULL && sf->glyphs[gid]->ttf_glyph!=-1 ) { if ( i+0xf000last ) last = i+0xf000; } os2->firstcharindex = first; /* This gets mapped to space */ os2->lastcharindex = last; } else { first = 255; last = 0; for ( i=0; ienccount && i<=255; ++i ) if ( (gid=map->map[i])!=-1 && sf->glyphs[gid]!=NULL && sf->glyphs[gid]->ttf_glyph!=-1 ) { if ( ilast ) last = i; } for ( i=0xf020; ienccount && i<=0xf0ff; ++i ) if ( (gid=map->map[i])!=-1 && sf->glyphs[gid]!=NULL && sf->glyphs[gid]->ttf_glyph!=-1 ) { if ( i-0xf000last ) last = i-0xf000; } if ( first<' ' ) first = ' '; os2->firstcharindex = 0xf000 + first; /* This gets mapped to space */ os2->lastcharindex = 0xf000 + last; } } else { os2->firstcharindex = first; os2->lastcharindex = last; if ( sf->pfminfo.hascodepages ) memcpy(os2->ulCodePage,sf->pfminfo.codepages,sizeof(os2->ulCodePage)); else OS2FigureCodePages(sf, os2->ulCodePage); /* Herbert Duerr: */ /* Some old versions of Windows do not provide access to all */ /* glyphs in a font if the fonts contains non-PUA symbols */ /* and thus only has sets the codepage flag for symbol */ /* => a workaround for this problem on Windows legacy versions */ /* is to use an OS2-table version without codepage flags */ /* GWW: */ /* This sounds to me like a windows bug rather than one in ff */ /* and this is a work-around for windows. As far as I can tell */ /* ff is setting the codepage field properly, it's just that */ /* windows doesn't interpret that bit correctly */ /* GWW: Things get worse. Windows no longer accepts a version 0 */ /* for OS/2. FontLab simply lies and says we have a latin1 */ /* code page when we don't. */ if( !sf->pfminfo.hascodepages ) if( (os2->ulCodePage[0]&~(1U<<31))==0 && os2->ulCodePage[1]==0 ) os2->ulCodePage[0] |= 1; } if ( os2->version>=2 ) { if ( sf->pfminfo.os2_xheight!=0 ) os2->xHeight = sf->pfminfo.os2_xheight; else { double xh = SFXHeight(sf,at->gi.layer,true); os2->xHeight = (xh >= 0.0 ? xh : 0); } if ( sf->pfminfo.os2_capheight!=0 ) os2->capHeight = sf->pfminfo.os2_capheight; else { double caph = SFCapHeight(sf,at->gi.layer,true); os2->capHeight = (caph >= 0.0 ? caph : 0); } os2->defChar = 0; if ( format==ff_otf || format==ff_otfcid ) os2->defChar = ' '; os2->breakChar = ' '; os2->maxContext = 1; /* Kerning will set this to 2, ligature to whatever */ } if ( os2->version>=3 && os2->v3_avgCharWid!=0 ) os2->avgCharWid = os2->v3_avgCharWid; else if ( os2->v1_avgCharWid!=0 ) os2->avgCharWid = os2->v1_avgCharWid; else if ( os2->v3_avgCharWid!=0 ) os2->avgCharWid = os2->v3_avgCharWid; } static void redoloca(struct alltabs *at) { int i; at->loca = tmpfile2(); if ( at->head.locais32 ) { for ( i=0; i<=at->maxp.numGlyphs; ++i ) putlong(at->loca,at->gi.loca[i]); at->localen = sizeof(int32)*(at->maxp.numGlyphs+1); } else { for ( i=0; i<=at->maxp.numGlyphs; ++i ) putshort(at->loca,at->gi.loca[i]/2); at->localen = sizeof(int16)*(at->maxp.numGlyphs+1); if ( ftell(at->loca)&2 ) putshort(at->loca,0); } if ( at->format!=ff_type42 && at->format!=ff_type42cid ) { free(at->gi.loca); at->gi.loca = NULL; } } static void dummyloca(struct alltabs *at) { at->loca = tmpfile2(); if ( at->head.locais32 ) { putlong(at->loca,0); at->localen = sizeof(int32); } else { putshort(at->loca,0); at->localen = sizeof(int16); putshort(at->loca,0); /* pad it */ } } static void redohead(struct alltabs *at) { at->headf = tmpfile2(); putlong(at->headf,at->head.version); putlong(at->headf,at->head.revision); putlong(at->headf,at->head.checksumAdj); putlong(at->headf,at->head.magicNum); putshort(at->headf,at->head.flags); putshort(at->headf,at->head.emunits); putlong(at->headf,at->head.createtime[1]); putlong(at->headf,at->head.createtime[0]); putlong(at->headf,at->head.modtime[1]); putlong(at->headf,at->head.modtime[0]); putshort(at->headf,at->head.xmin); putshort(at->headf,at->head.ymin); putshort(at->headf,at->head.xmax); putshort(at->headf,at->head.ymax); putshort(at->headf,at->head.macstyle); putshort(at->headf,at->head.lowestreadable); putshort(at->headf,at->head.dirhint); putshort(at->headf,at->head.locais32); putshort(at->headf,at->head.glyphformat); at->headlen = ftell(at->headf); if ( (at->headlen&2)!=0 ) putshort(at->headf,0); } static void redohhead(struct alltabs *at,int isv) { int i; struct hhead *head; FILE *f; if ( !isv ) { f = at->hheadf = tmpfile2(); head = &at->hhead; } else { f = at->vheadf = tmpfile2(); head = &at->vhead; } putlong(f,head->version); putshort(f,head->ascender); putshort(f,head->descender); putshort(f,head->linegap); putshort(f,head->maxwidth); putshort(f,head->minlsb); putshort(f,head->minrsb); putshort(f,head->maxextent); putshort(f,head->caretSlopeRise); putshort(f,head->caretSlopeRun); for ( i=0; i<5; ++i ) putshort(f,head->mbz[i]); putshort(f,head->metricformat); putshort(f,head->numMetrics); if ( !isv ) { at->hheadlen = ftell(f); if ( (at->hheadlen&2)!=0 ) putshort(f,0); } else { at->vheadlen = ftell(f); if ( (at->vheadlen&2)!=0 ) putshort(f,0); } } static void redomaxp(struct alltabs *at,enum fontformat format) { at->maxpf = tmpfile2(); putlong(at->maxpf,at->maxp.version); putshort(at->maxpf,at->maxp.numGlyphs); if ( format!=ff_otf && format!=ff_otfcid ) { putshort(at->maxpf,at->maxp.maxPoints); putshort(at->maxpf,at->maxp.maxContours); putshort(at->maxpf,at->maxp.maxCompositPts); putshort(at->maxpf,at->maxp.maxCompositCtrs); putshort(at->maxpf,at->maxp.maxZones); putshort(at->maxpf,at->maxp.maxTwilightPts); putshort(at->maxpf,at->maxp.maxStorage); putshort(at->maxpf,at->maxp.maxFDEFs); putshort(at->maxpf,at->maxp.maxIDEFs); putshort(at->maxpf,at->maxp.maxStack); putshort(at->maxpf,at->maxp.maxglyphInstr); putshort(at->maxpf,at->maxp.maxnumcomponents); putshort(at->maxpf,at->maxp.maxcomponentdepth); } at->maxplen = ftell(at->maxpf); if ( (at->maxplen&2)!=0 ) putshort(at->maxpf,0); } static void redoos2(struct alltabs *at) { int i; at->os2f = tmpfile2(); putshort(at->os2f,at->os2.version); putshort(at->os2f,at->os2.avgCharWid); putshort(at->os2f,at->os2.weightClass); putshort(at->os2f,at->os2.widthClass); putshort(at->os2f,at->os2.fstype); putshort(at->os2f,at->os2.ysubXSize); putshort(at->os2f,at->os2.ysubYSize); putshort(at->os2f,at->os2.ysubXOff); putshort(at->os2f,at->os2.ysubYOff); putshort(at->os2f,at->os2.ysupXSize); putshort(at->os2f,at->os2.ysupYSize); putshort(at->os2f,at->os2.ysupXOff); putshort(at->os2f,at->os2.ysupYOff); putshort(at->os2f,at->os2.yStrikeoutSize); putshort(at->os2f,at->os2.yStrikeoutPos); putshort(at->os2f,at->os2.sFamilyClass); for ( i=0; i<10; ++i ) putc(at->os2.panose[i],at->os2f); for ( i=0; i<4; ++i ) putlong(at->os2f,at->os2.unicoderange[i]); for ( i=0; i<4; ++i ) putc(at->os2.achVendID[i],at->os2f); putshort(at->os2f,at->os2.fsSel); putshort(at->os2f,at->os2.firstcharindex); putshort(at->os2f,at->os2.lastcharindex); putshort(at->os2f,at->os2.ascender); putshort(at->os2f,at->os2.descender); putshort(at->os2f,at->os2.linegap); putshort(at->os2f,at->os2.winascent); putshort(at->os2f,at->os2.windescent); if ( at->os2.version>=1 ) { putlong(at->os2f,at->os2.ulCodePage[0]); putlong(at->os2f,at->os2.ulCodePage[1]); } if ( at->os2.version>=2 ) { putshort(at->os2f,at->os2.xHeight); putshort(at->os2f,at->os2.capHeight); putshort(at->os2f,at->os2.defChar); putshort(at->os2f,at->os2.breakChar); putshort(at->os2f,at->os2.maxContext); } at->os2len = ftell(at->os2f); if ( (at->os2len&2)!=0 ) putshort(at->os2f,0); } static void dumpgasp(struct alltabs *at, SplineFont *sf) { int i; at->gaspf = tmpfile2(); if ( sf->gasp_cnt==0 ) { putshort(at->gaspf,0); /* Old version number */ /* For fonts with no instructions always dump a gasp table which */ /* asks for grey and no grid fit */ putshort(at->gaspf,1); putshort(at->gaspf,0xffff); /* Upper bound on pixels/em for this range */ putshort(at->gaspf,0x2); /* Grey scale, no gridfitting */ /* No hints, so no grids to fit */ } else { putshort(at->gaspf,sf->gasp_version); /* New version number, with clear type info */ putshort(at->gaspf,sf->gasp_cnt); for ( i=0; igasp_cnt; ++i ) { putshort(at->gaspf,sf->gasp[i].ppem); putshort(at->gaspf,sf->gasp[i].flags); } } at->gasplen = ftell(at->gaspf); /* This table is always 32 bit aligned */ } static void dumpstr(FILE *file,char *str) { do { putc(*str,file); } while ( *str++!='\0' ); } static void dumpustr(FILE *file,char *utf8_str) { unichar_t *ustr = utf82u_copy(utf8_str), *pt=ustr; do { putc(*pt>>8,file); putc(*pt&0xff,file); } while ( *pt++!='\0' ); free(ustr); } static void dumppstr(FILE *file,const char *str) { putc(strlen(str),file); fwrite(str,sizeof(char),strlen(str),file); } char *utf8_verify_copy(const char *str) { /* When given a postscript string it SHOULD be in ASCII. But it will often*/ /* contain a copyright symbol (sometimes in latin1, sometimes in macroman)*/ /* unfortunately both encodings use 0xa9 for copyright so we can't distinguish */ /* guess that it's latin1 (or that copyright is the only odd char which */ /* means a latin1 conversion will work for macs too). */ if ( str==NULL ) return( NULL ); if ( utf8_valid(str)) return( copy(str)); /* Either in ASCII (good) or appears to be utf8*/ return( latin1_2_utf8_copy(str)); } /* Oh. If the encoding is symbol (platform=3, specific=0) then Windows won't */ /* accept the font unless the name table also has entries for (3,0). I'm not */ /* sure if this is the case for the CJK encodings (docs don't mention that) */ /* but let's do it just in case */ void DefaultTTFEnglishNames(struct ttflangname *dummy, SplineFont *sf) { time_t now; struct tm *tm; char buffer[200]; if ( dummy->names[ttf_copyright]==NULL || *dummy->names[ttf_copyright]=='\0' ) dummy->names[ttf_copyright] = utf8_verify_copy(sf->copyright); if ( dummy->names[ttf_family]==NULL || *dummy->names[ttf_family]=='\0' ) dummy->names[ttf_family] = utf8_verify_copy(sf->familyname); if ( dummy->names[ttf_subfamily]==NULL || *dummy->names[ttf_subfamily]=='\0' ) dummy->names[ttf_subfamily] = utf8_verify_copy(SFGetModifiers(sf)); if ( dummy->names[ttf_uniqueid]==NULL || *dummy->names[ttf_uniqueid]=='\0' ) { time(&now); tm = localtime(&now); sprintf( buffer, "%s : %s : %d-%d-%d", TTFFoundry?TTFFoundry:"FontForge 2.0", sf->fullname!=NULL?sf->fullname:sf->fontname, tm->tm_mday, tm->tm_mon+1, tm->tm_year+1900 ); dummy->names[ttf_uniqueid] = copy(buffer); } if ( dummy->names[ttf_fullname]==NULL || *dummy->names[ttf_fullname]=='\0' ) dummy->names[ttf_fullname] = utf8_verify_copy(sf->fullname); if ( dummy->names[ttf_version]==NULL || *dummy->names[ttf_version]=='\0' ) { if ( sf->subfontcnt!=0 ) sprintf( buffer, "Version %f ", (double)sf->cidversion ); else if ( sf->version!=NULL ) sprintf(buffer,"Version %.20s ", sf->version); else strcpy(buffer,"Version 1.0" ); dummy->names[ttf_version] = copy(buffer); } if ( dummy->names[ttf_postscriptname]==NULL || *dummy->names[ttf_postscriptname]=='\0' ) dummy->names[ttf_postscriptname] = utf8_verify_copy(sf->fontname); } typedef struct { uint16 platform; uint16 specific; uint16 lang; uint16 strid; uint16 len; uint16 offset; } NameEntry; typedef struct { FILE *strings; int cur, max; enum fontformat format; Encoding *encoding_name; NameEntry *entries; int applemode; } NamTab; static int compare_entry(const void *_mn1, const void *_mn2) { const NameEntry *mn1 = _mn1, *mn2 = _mn2; if ( mn1->platform!=mn2->platform ) return( mn1->platform - mn2->platform ); if ( mn1->specific!=mn2->specific ) return( mn1->specific - mn2->specific ); if ( mn1->lang!=mn2->lang ) return( mn1->lang - mn2->lang ); return( mn1->strid-mn2->strid ); } static void AddEncodedName(NamTab *nt,char *utf8name,uint16 lang,uint16 strid) { NameEntry *ne; int maclang, macenc= -1, specific; char *macname = NULL; if ( strid==ttf_postscriptname && lang!=0x409 ) return; /* Should not happen, but it did */ if ( nt->cur+6>=nt->max ) { if ( nt->cur==0 ) nt->entries = malloc((nt->max=100)*sizeof(NameEntry)); else nt->entries = realloc(nt->entries,(nt->max+=100)*sizeof(NameEntry)); } ne = nt->entries + nt->cur; ne->platform = 3; /* Windows */ ne->specific = 1; /* unicode */ ne->lang = lang; ne->strid = strid; ne->offset = ftell(nt->strings); ne->len = 2*utf82u_strlen(utf8name); dumpustr(nt->strings,utf8name); ++ne; if ( nt->format==ff_ttfsym ) { *ne = ne[-1]; ne->specific = 0; /* Windows "symbol" */ ++ne; } maclang = WinLangToMac(lang); if ( !nt->applemode && lang!=0x409 ) maclang = 0xffff; if ( maclang!=0xffff ) { #ifdef FONTFORGE_CONFIG_APPLE_UNICODE_NAMES if ( strid!=ttf_postscriptname ) { *ne = ne[-1]; ne->platform = 0; /* Mac unicode */ ne->specific = 0; /* 3 => Unicode 2.0 semantics */ /* 0 ("default") is also a reasonable value */ ne->lang = maclang; ++ne; } #endif macenc = MacEncFromMacLang(maclang); macname = Utf8ToMacStr(utf8name,macenc,maclang); if ( macname!=NULL ) { ne->platform = 1; /* apple non-unicode encoding */ ne->specific = macenc; /* whatever */ ne->lang = maclang; ne->strid = strid; ne->offset = ftell(nt->strings); ne->len = strlen(macname); dumpstr(nt->strings,macname); ++ne; free(macname); } } specific = nt->encoding_name->is_korean ? 5 : /* Wansung, korean */ nt->encoding_name->is_japanese ? 2 : /* SJIS */ nt->encoding_name->is_simplechinese ? 3 :/* packed gb2312, don't know the real name */ strmatch(nt->encoding_name->enc_name,"EUC-GB12345")==0 ? 3 :/* Lie */ nt->encoding_name->is_tradchinese ? 4 : /* Big5, traditional Chinese */ -1; if ( specific != -1 ) { ne->platform = 3; /* windows */ ne->specific = specific; /* whatever */ ne->lang = lang; ne->strid = strid; if ( macname!=NULL && (( specific== 2 && macenc==1 ) || /* Japanese */ ( specific== 3 && macenc==25 ) || /* simplified chinese */ ( specific== 4 && macenc==2 ) || /* traditional chinese */ ( specific== 5 && macenc==3 )) ) { /* wansung korean */ ne->offset = ne[-1].offset; ne->len = ne[-1].len; } else { char *space, *out; const char *encname; ICONV_CONST char *in; Encoding *enc; size_t inlen, outlen; ne->offset = ftell(nt->strings); encname = nt->encoding_name->is_japanese ? "SJIS" : strmatch(nt->encoding_name->enc_name,"JOHAB")==0 ? "JOHAB" : nt->encoding_name->is_korean ? "EUC-KR" : nt->encoding_name->is_simplechinese ? "EUC-CN" : nt->encoding_name->enc_name; enc = FindOrMakeEncoding(encname); if ( enc==NULL ) --ne; else { unichar_t *uin = utf82u_copy(utf8name); outlen = 3*strlen(utf8name)+10; out = space = malloc(outlen+2); in = (char *) uin; inlen = 2*u_strlen(uin); iconv(enc->fromunicode,NULL,NULL,NULL,NULL); /* should not be needed, but just in case */ iconv(enc->fromunicode,&in,&inlen,&out,&outlen); out[0] = '\0'; out[1] = '\0'; ne->offset = ftell(nt->strings); ne->len = strlen(space); dumpstr(nt->strings,space); free(space); free(uin); } } ++ne; } nt->cur = ne - nt->entries; } static void AddMacName(NamTab *nt,struct macname *mn, int strid) { NameEntry *ne; if ( nt->cur+1>=nt->max ) { if ( nt->cur==0 ) nt->entries = malloc((nt->max=100)*sizeof(NameEntry)); else nt->entries = realloc(nt->entries,(nt->max+=100)*sizeof(NameEntry)); } ne = nt->entries + nt->cur; ne->platform = 1; /* apple non-unicode encoding */ ne->specific = mn->enc; /* whatever */ ne->lang = mn->lang; ne->strid = strid; ne->offset = ftell(nt->strings); ne->len = strlen(mn->name); dumpstr(nt->strings,mn->name); ++nt->cur; } /* There's an inconsistancy here. Apple's docs say there most be only one */ /* nameid==6 and that name must be ascii (presumably plat=1, spec=0, lang=0) */ /* The opentype docs say there must be two (psl=1,0,0 & psl=3,1,0x409) any */ /* others are to be ignored */ /* A representative from Apple says they will change their spec to accept */ /* the opentype version, and tells me that they don't currently care */ /* So ignore this */ /* Undocumented fact: Windows insists on having a UniqueID string 3,1 */ static void dumpnames(struct alltabs *at, SplineFont *sf,enum fontformat format) { int i,j; struct ttflangname dummy, *cur, *useng = NULL; struct macname *mn; struct other_names *on, *onn; NamTab nt; struct otfname *otfn; struct otffeatname *fn; memset(&nt,0,sizeof(nt)); nt.encoding_name = at->map->enc; nt.format = format; nt.applemode = at->applemode; nt.strings = tmpfile2(); if (( format>=ff_ttf && format<=ff_otfdfont) && (at->gi.flags&ttf_flag_symbol)) nt.format = ff_ttfsym; memset(&dummy,0,sizeof(dummy)); for ( cur=sf->names; cur!=NULL; cur=cur->next ) { if ( cur->lang==0x409 ) { dummy = *cur; useng = cur; break; } } DefaultTTFEnglishNames(&dummy, sf); for ( i=0; inames; cur!=NULL; cur=cur->next ) { if ( cur->lang!=0x409 ) for ( i=0; inames[i]!=NULL ) AddEncodedName(&nt,cur->names[i],cur->lang,i); } /* The examples I've seen of the feature table only contain platform==mac */ /* so I'm not including apple unicode */ if ( at->feat_name!=NULL ) { for ( i=0; at->feat_name[i].strid!=0; ++i ) { for ( mn=at->feat_name[i].mn; mn!=NULL; mn=mn->next ) AddMacName(&nt,mn,at->feat_name[i].strid); /* I'm not sure why I keep track of these alternates (feat_name[i].smn) */ /* Dumping them out is a bad idea. It might be worth */ /* something if we searched through the alternate sets for languages */ /* not found in the main set, but at the moment I don't think so */ /* What happens now if I do it is that I get duplicate names output. */ } } /* And the names used by the fvar table aren't mac unicode either */ for ( on = at->other_names; on!=NULL; on=onn ) { for ( mn = on->mn; mn!=NULL ; mn = mn->next ) AddMacName(&nt,mn,on->strid); onn = on->next; chunkfree(on,sizeof(*on)); } /* Wow, the GPOS 'size' feature uses the name table in a very mac-like way*/ if ( at->fontstyle_name_strid!=0 && sf->fontstyle_name!=NULL ) { for ( otfn = sf->fontstyle_name; otfn!=NULL; otfn = otfn->next ) AddEncodedName(&nt,otfn->name,otfn->lang,at->fontstyle_name_strid); } /* As do some other features now */ for ( fn = sf->feat_names; fn!=NULL; fn=fn->next ) { for ( otfn = fn->names; otfn!=NULL; otfn = otfn->next ) AddEncodedName(&nt,otfn->name,otfn->lang,fn->nid); } qsort(nt.entries,nt.cur,sizeof(NameEntry),compare_entry); at->name = tmpfile2(); putshort(at->name,0); /* format */ putshort(at->name,nt.cur); /* numrec */ putshort(at->name,(3+nt.cur*6)*sizeof(int16)); /* offset to strings */ for ( i=0; iname,nt.entries[i].platform); putshort(at->name,nt.entries[i].specific); putshort(at->name,nt.entries[i].lang); putshort(at->name,nt.entries[i].strid); putshort(at->name,nt.entries[i].len); putshort(at->name,nt.entries[i].offset); } if ( !ttfcopyfile(at->name,nt.strings,(3+nt.cur*6)*sizeof(int16),"name-data")) at->error = true; at->namelen = ftell(at->name); if ( (at->namelen&3)!=0 ) for ( j= 4-(at->namelen&3); j>0; --j ) putc('\0',at->name); for ( i=0; inames[i] ) free( dummy.names[i]); free( nt.entries ); free( at->feat_name ); /* Windows at one point refused to load fonts with 'name' tables bigger than 5K (decided they were insecure). */ } static void dumppost(struct alltabs *at, SplineFont *sf, enum fontformat format) { int pos, i,j, shouldbe; int shorttable = (format==ff_otf || format==ff_otfcid || (at->gi.flags&ttf_flag_shortps)); uint32 here; at->post = tmpfile2(); putlong(at->post,shorttable?0x00030000:0x00020000); /* formattype */ putfixed(at->post,sf->italicangle); putshort(at->post,sf->upos-sf->uwidth/2); /* 'post' defn says top of rect, while FontInfo def says center of rect */ putshort(at->post,sf->uwidth); putlong(at->post,at->isfixed); putlong(at->post,0); /* no idea about memory */ putlong(at->post,0); /* no idea about memory */ putlong(at->post,0); /* no idea about memory */ putlong(at->post,0); /* no idea about memory */ if ( !shorttable ) { here = ftell(at->post); putshort(at->post,at->maxp.numGlyphs); shouldbe = 0; for ( i=0, pos=0; imaxp.numGlyphs; ++i ) { if ( at->gi.bygid[i]!=-1 && sf->glyphs[at->gi.bygid[i]]!=NULL ) { SplineChar *sc = sf->glyphs[at->gi.bygid[i]]; while ( i>shouldbe ) { if ( shouldbe==0 ) putshort(at->post,0); /* glyph 0 is named .notdef */ else if ( shouldbe==1 ) putshort(at->post,1); /* glyphs 1&2 are .null and cr */ else if ( shouldbe==2 ) putshort(at->post,2); /* or something */ else putshort(at->post,0); ++shouldbe; } if ( strcmp(sc->name,".notdef")==0 ) putshort(at->post,0); else { for ( j=0; j<258; ++j ) if ( strcmp(sc->name,ttfstandardnames[j])==0 ) break; if ( j!=258 ) putshort(at->post,j); else { putshort(at->post,pos+258); ++pos; } } ++shouldbe; } } if ( shouldbe!=at->maxp.numGlyphs ) { fseek(at->post,here,SEEK_SET); putshort(at->post,shouldbe); fseek(at->post,0,SEEK_END); } if ( pos!=0 ) { for ( i=0; imaxp.numGlyphs; ++i ) if ( at->gi.bygid[i]!=-1 ) { SplineChar *sc = sf->glyphs[at->gi.bygid[i]]; if ( strcmp(sc->name,".notdef")==0 ) /* Do Nothing */; else { for ( j=0; j<258; ++j ) if ( strcmp(sc->name,ttfstandardnames[j])==0 ) break; if ( j!=258 ) /* Do Nothing */; else dumppstr(at->post,sc->name); } } } } at->postlen = ftell(at->post); if ( (at->postlen&3)!=0 ) for ( j= 4-(at->postlen&3); j>0; --j ) putc('\0',at->post); } static FILE *_Gen816Enc(SplineFont *sf,int *tlen,EncMap *map) { int i, j, complained, pos, k, subheadindex, jj, isbig5=false; uint16 table[256]; struct subhead subheads[128]; uint16 *glyphs; uint16 tempglyphs[256]; int base, lbase, basebound, subheadcnt, planesize, plane0size; int base2, base2bound; FILE *sub; const char *encname = map->enc->iconv_name!=NULL ? map->enc->iconv_name : map->enc->enc_name; *tlen = 0; base2 = -1; base2bound = -2; if ( map->enc->is_tradchinese && strstrmatch(encname,"hkscs")!=NULL ) { base = 0x81; basebound = 0xfe; subheadcnt = basebound-base+1; lbase = 0x40; planesize = 191; } else if ( map->enc->is_tradchinese || sf->uni_interp==ui_trad_chinese) { base = 0xa1; basebound = 0xf9; /* wcl-02.ttf's cmap claims to go up to fc, but everything after f9 is invalid (according to what I know of big5, f9 should be the end) */ subheadcnt = basebound-base+1; lbase = 0x40; planesize = 191; isbig5 = true; } else if ( strstrmatch(encname,"euc")!=NULL ) { base = 0xa1; basebound = 0xfd; lbase = 0xa1; subheadcnt = basebound-base+1; planesize = 0xfe - lbase +1; } else if ( strstrmatch(encname,"johab")!=NULL ) { base = 0x84; basebound = 0xf9; lbase = 0x31; subheadcnt = basebound-base+1; planesize = 0xfe -0x31+1; /* Stupid gcc bug, thinks 0xfe- is ambiguous (exponant) */ } else if ( strstrmatch(encname,"sjis")!=NULL || strstrmatch(encname,"cp932")!=NULL ) { base = 129; basebound = 159; lbase = 64; planesize = 252 - lbase +1; base2 = 0xe0; /* SJIS supports "user defined characters" between 0xf040 and 0xfcfc */ /* there probably won't be any, but allow space for them if there are*/ for ( base2bound=0xfc00; base2bound>0xefff; --base2bound ) if ( base2boundenccount && map->map[base2bound]!=-1 && SCWorthOutputting(sf->glyphs[map->map[base2bound]])) break; base2bound >>= 8; subheadcnt = basebound-base + 1 + base2bound-base2 + 1; } else { IError( "Unsupported 8/16 encoding %s\n", map->enc->enc_name ); return( NULL ); } plane0size = base2==-1? base : base2; i=0; if ( base2!=-1 ) { for ( i=basebound; ienccount; ++i ) if ( map->map[i]==-1 ) continue; else if ( SCWorthOutputting(sf->glyphs[map->map[i]])) break; if ( i==base2 || i==map->enccount ) i = 0; } if ( i==0 ) { for ( i=0; ienccount; ++i ) if ( map->map[i]==-1 ) continue; else if ( SCWorthOutputting(sf->glyphs[map->map[i]])) break; } if ( base2!=-1 ) { for ( i=base; i<=basebound && ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]])) { ff_post_error(_("Bad Encoding"),_("There is a single byte character (%d) using one of the slots needed for double byte characters"),i); break; } if ( i==basebound+1 ) for ( i=base2; i<256 && ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]])) { ff_post_error(_("Bad Encoding"),_("There is a single byte character (%d) using one of the slots needed for double byte characters"),i); break; } } else { for ( i=base; i<=256 && ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]])) { ff_post_error(_("Bad Encoding"),_("There is a single byte character (%d) using one of the slots needed for double byte characters"),i); break; } } for ( i=256; i<(base<<8) && ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]])) { ff_post_error(_("Bad Encoding"),_("There is a character (%d) which cannot be encoded"),i); break; } if ( i==(base<<8) && base2==-1 ) for ( i=((basebound+1)<<8); i<0x10000 && ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]])) { ff_post_error(_("Bad Encoding"),_("There is a character (%d) which cannot be encoded"),i); break; } memset(table,'\0',sizeof(table)); for ( i=base; i<=basebound; ++i ) table[i] = 8*(i-base+1); for ( i=base2; i<=base2bound; ++i ) table[i] = 8*(i-base2+basebound-base+1+1); memset(subheads,'\0',sizeof(subheads)); subheads[0].first = 0; subheads[0].cnt = plane0size; for ( i=1; ienccount; ++i ) if ( map->map[i]!=-1 && sf->glyphs[map->map[i]]!=NULL && sf->glyphs[map->map[i]]->ttf_glyph!=-1 ) glyphs[i] = sf->glyphs[map->map[i]]->ttf_glyph; pos = 1; complained = false; subheadindex = 1; for ( jj=0; jj<2 || (base2==-1 && jj<1); ++jj ) for ( j=((jj==0?base:base2)<<8); j<=((jj==0?basebound:base2bound)<<8); j+= 0x100 ) { for ( i=0; imap[i+j]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i+j]])) { ff_post_error(_("Bad Encoding"),_("There is a character (%d) which is not normally in the encoding"),i+j); complained = true; } if ( isbig5 ) { /* big5 has a gap here. Does johab? */ for ( i=0x7f; i<0xa1; ++i ) if ( !complained && map->map[i+j]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i+j]])) { ff_post_error(_("Bad Encoding"),_("There is a character (%d) which is not normally in the encoding"),i+j); complained = true; } } memset(tempglyphs,0,sizeof(tempglyphs)); for ( i=0; imap[j+lbase+i]!=-1 && sf->glyphs[map->map[j+lbase+i]]!=NULL && sf->glyphs[map->map[j+lbase+i]]->ttf_glyph!=-1 ) tempglyphs[i] = sf->glyphs[map->map[j+lbase+i]]->ttf_glyph; for ( i=1; ienc->iconv_name!=NULL ? map->enc->iconv_name : map->enc->enc_name; EncMap *oldmap = map; EncMap *applemap = NULL; Encoding *enc; *tlen = 0; if ( apple!=NULL ) { *apple = NULL; *appletlen = 0; } if ( sf->cidmaster!=NULL || sf->subfontcnt!=0 ) return( NULL ); if ( (strstrmatch(encname,"big")!=NULL && strchr(encname,'5')!=NULL) || strstrmatch(encname,"johab")!=NULL || strstrmatch(encname,"sjis")!=NULL || strstrmatch(encname,"cp932")!=NULL || strstrmatch(encname,"euc-kr")!=NULL || strstrmatch(encname,"euc-cn")!=NULL ) /* Already properly encoded */; else if ( strstrmatch(encname,"2022")!=NULL && (strstrmatch(encname,"JP2")!=NULL || strstrmatch(encname,"JP-2")!=NULL || strstrmatch(encname,"JP-3")!=NULL )) return( NULL ); /* No 8/16 encoding for JP2 nor JP3 */ else if ( sf->uni_interp>=ui_japanese && sf->uni_interp<=ui_korean ) { enc = FindOrMakeEncoding( sf->uni_interp==ui_japanese ? "sjis" : sf->uni_interp==ui_trad_chinese ? "big5" : sf->uni_interp==ui_simp_chinese ? "euc-cn" : "euc-kr"); if ( map->enc!=enc ) { map = EncMapFromEncoding(sf,enc); encname = map->enc->iconv_name!=NULL ? map->enc->iconv_name : map->enc->enc_name; } } else return( NULL ); /* Both MS and Apple extend sjis. I don't know how to get iconv to give me*/ /* apple's encoding though. So I generate one 8/16 table for MS based on */ /* their extension (cp932), and another table based on plain sjis for Apple*/ /* Don't know if this is true of other cjk encodings... for the moment I */ /* will just use standard encodings for them */ if ( strstrmatch(encname,"sjis")!=NULL ) { enc = FindOrMakeEncoding("cp932"); if ( enc!=NULL ) { applemap = map; map = EncMapFromEncoding(sf,enc); } } else if ( strstrmatch(encname,"cp932")!=NULL ) applemap = EncMapFromEncoding(sf,FindOrMakeEncoding("sjis")); if ( applemap!=NULL ) *apple = _Gen816Enc(sf,appletlen,applemap); sub = _Gen816Enc(sf,tlen,map); if ( applemap!=NULL && applemap!=oldmap ) EncMapFree(applemap); if ( map!=oldmap ) EncMapFree(map); return( sub ); } static FILE *NeedsUCS4Table(SplineFont *sf,int *ucs4len,EncMap *map) { int i=0,j,group; FILE *format12; SplineChar *sc; EncMap *freeme = NULL; struct altuni *altuni; if ( map->enc->is_unicodefull ) i=0x10000; else if ( map->enc->is_custom ) i = 0; else i = map->enc->char_cnt; for ( ; ienccount; ++i ) { if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]]) ) { if ( sf->glyphs[map->map[i]]->unicodeenc>=0x10000 ) break; for ( altuni=sf->glyphs[map->map[i]]->altuni; altuni!=NULL && (altuni->unienc<0x10000 || altuni->vs!=-1 || altuni->fid!=0); altuni=altuni->next ); if ( altuni!=NULL ) break; } } if ( i>=map->enccount ) return(NULL); if ( !map->enc->is_unicodefull ) map = freeme = EncMapFromEncoding(sf,FindOrMakeEncoding("ucs4")); format12 = tmpfile2(); if ( format12==NULL ) return( NULL ); putshort(format12,12); /* Subtable format */ putshort(format12,0); /* padding */ putlong(format12,0); /* Length, we'll come back to this */ putlong(format12,0); /* language */ putlong(format12,0); /* Number of groups, we'll come back to this */ group = 0; for ( i=0; ienccount; ++i ) if ( map->map[i]!=-1 && SCWorthOutputting(sf->glyphs[map->map[i]]) && sf->glyphs[map->map[i]]->unicodeenc!=-1 ) { sc = sf->glyphs[map->map[i]]; for ( j=i+1; jenccount && map->map[j]!=-1 && SCWorthOutputting(sf->glyphs[map->map[j]]) && sf->glyphs[map->map[j]]->unicodeenc!=-1 && sf->glyphs[map->map[j]]->ttf_glyph==sc->ttf_glyph+j-i; ++j ); --j; putlong(format12,i); /* start char code */ putlong(format12,j); /* end char code */ putlong(format12,sc->ttf_glyph); ++group; i=j; /* move to the start of the next group */ } *ucs4len = ftell(format12); fseek(format12,4,SEEK_SET); putlong(format12,*ucs4len); /* Length, I said we'd come back to it */ putlong(format12,0); /* language */ putlong(format12,group); /* Number of groups */ rewind( format12 ); if ( freeme!=NULL ) EncMapFree(freeme); return( format12 ); } static FILE *NeedsUCS2Table(SplineFont *sf,int *ucs2len,EncMap *map,int issymbol) { /* We always want a format 4 2byte unicode encoding map */ /* But if it's symbol, only include encodings 0xff20 - 0xffff */ uint32 *avail = malloc(65536*sizeof(uint32)); int i,j,l; int segcnt, cnt=0, delta, rpos; struct cmapseg { uint16 start, end; uint16 delta; uint16 rangeoff; } *cmapseg; uint16 *ranges; SplineChar *sc; FILE *format4 = tmpfile2(); memset(avail,0xff,65536*sizeof(uint32)); if ( map->enc->is_unicodebmp || map->enc->is_unicodefull ) { int gid; for ( i=0; i<65536 && ienccount; ++i ) if ( (gid=map->map[i])!=-1 && sf->glyphs[gid]!=NULL && sf->glyphs[gid]->ttf_glyph!=-1 ) { avail[i] = gid; ++cnt; } } else { struct altuni *altuni; for ( i=0; iglyphcnt; ++i ) { if ( (sc=sf->glyphs[i])!=NULL && sc->ttf_glyph!=-1 ) { if ( sc->unicodeenc>=0 && sc->unicodeenc<=0xffff ) { avail[sc->unicodeenc] = i; ++cnt; } for ( altuni=sc->altuni; altuni!=NULL; altuni = altuni->next ) { if ( altuni->unienc<=0xffff && altuni->vs==-1 && altuni->fid==0 ) { avail[altuni->unienc] = i; ++cnt; } } } } } if ( issymbol ) { /* Clear out all entries we don't want */ memset(avail ,0xff,0xf020*sizeof(uint32)); memset(avail+0xf100,0xff,0x0eff*sizeof(uint32)); } j = -1; for ( i=segcnt=0; i<65536; ++i ) { if ( avail[i]!=0xffffffff && j==-1 ) { j=i; ++segcnt; } else if ( j!=-1 && avail[i]==0xffffffff ) j = -1; } cmapseg = calloc(segcnt+1,sizeof(struct cmapseg)); ranges = malloc(cnt*sizeof(int16)); j = -1; for ( i=segcnt=0; i<65536; ++i ) { if ( avail[i]!=0xffffffff && j==-1 ) { j=i; cmapseg[segcnt].start = j; ++segcnt; } else if ( j!=-1 && avail[i]==0xffffffff ) { cmapseg[segcnt-1].end = i-1; j = -1; } } if ( j!=-1 ) cmapseg[segcnt-1].end = i-1; /* create a dummy segment to mark the end of the table */ cmapseg[segcnt].start = cmapseg[segcnt].end = 0xffff; cmapseg[segcnt++].delta = 1; rpos = 0; for ( i=0; iglyphs[l]; delta = sc->ttf_glyph-cmapseg[i].start; for ( j=cmapseg[i].start; j<=cmapseg[i].end; ++j ) { l = avail[j]; sc = sf->glyphs[l]; if ( delta != sc->ttf_glyph-j ) break; } if ( j>cmapseg[i].end ) cmapseg[i].delta = delta; else { cmapseg[i].rangeoff = (rpos + (segcnt-i)) * sizeof(int16); for ( j=cmapseg[i].start; j<=cmapseg[i].end; ++j ) { l = avail[j]; sc = sf->glyphs[l]; ranges[rpos++] = sc->ttf_glyph; } } } free(avail); putshort(format4,4); /* format */ putshort(format4,(8+4*segcnt+rpos)*sizeof(int16)); putshort(format4,0); /* language/version */ putshort(format4,2*segcnt); /* segcnt */ for ( j=0,i=1; i<=segcnt; i<<=1, ++j ); putshort(format4,i); /* 2*2^floor(log2(segcnt)) */ putshort(format4,j-1); putshort(format4,2*segcnt-i); for ( i=0; iglyphcnt; ++gid ) if ( (sc = sf->glyphs[gid])!=NULL ) { for ( altuni = sc->altuni; altuni!=NULL; altuni=altuni->next ) { if ( altuni->unienc!=-1 && (uint32)altuni->uniencvs!=-1 && altuni->fid==0 ) { for ( i=0; ivs ) break; if ( i>=vs_cnt ) { if ( i>=vs_max ) { if ( vses==vsbuf ) { vses = malloc((vs_max*=2)*sizeof(uint32)); memcpy(vses,vsbuf,sizeof(vsbuf)); } else vses = realloc(vses,(vs_max+=512)*sizeof(uint32)); } vses[vs_cnt++] = altuni->vs; } if ( mingid==-1 ) mingid = maxgid = gid; else maxgid = gid; } } } if ( vs_cnt==0 ) { *vslen = 0; return( NULL ); /* No variation selectors */ } /* Sort the variation selectors */ for ( i=0; ivses[j] ) { int temp = vses[i]; vses[i] = vses[j]; vses[j] = temp; } } avail = malloc(unicode4_size*sizeof(uint32)); format14 = tmpfile2(); putshort(format14,14); putlong(format14,0); /* Length, fixup later */ putlong(format14,vs_cnt); /* number of selectors */ /* Variation selector records */ for ( i=0; iglyphs[gid])!=NULL ) { for ( altuni = sc->altuni; altuni!=NULL; altuni=altuni->next ) { if ( altuni->unienc!=-1 && altuni->unienc < (int)unicode4_size && altuni->vs==vses[i] && altuni->fid==0 ) { for ( au=sc->altuni; au!=NULL; au=au->next ) if ( au->unienc==altuni->unienc && au->vs==-1 && au->fid==0 ) break; if ( altuni->unienc==sc->unicodeenc || au!=NULL ) { avail[altuni->unienc] = gid | vs_default; any |= vs_default; } else { avail[altuni->unienc] = gid | vs_nondefault; any |= vs_nondefault; } } } } if ( any&vs_default ) { here = ftell(format14); fseek(format14,10+ i*11 + 3, SEEK_SET); /* Seek to defaultUVSOffset */ putlong(format14,here); fseek(format14,0,SEEK_END); cnt = 0; for ( j=0; (unsigned)j256 ) k=j+256; /* Each range is limited to 255 code points, as the count is a byte */ ++cnt; j = k-1; } putlong(format14,cnt); for ( j=0; (unsigned)j256 ) k=j+256; putu24(format14,j); putc(k-j-1,format14); j = k-1; } } if ( any&vs_nondefault ) { here = ftell(format14); fseek(format14,10+ i*11 + 7, SEEK_SET); /* Seek to nonDefaultUVSOffset */ putlong(format14,here); fseek(format14,0,SEEK_END); cnt = 0; for ( j=0; (unsigned)jglyphs[avail[j]&0xffff]->ttf_glyph); } } } here = ftell(format14); fseek(format14,2,SEEK_SET); putlong(format14,here); fseek(format14,0,SEEK_END); if ( here&1 ) { putc('\0',format14); ++here; } if ( here&2 ) { putshort(format14,0); here += 2; } *vslen = here; free(avail); if ( vses!=vsbuf ) free(vses); return( format14 ); } extern unichar_t MacRomanEnc[]; static void dumpcmap(struct alltabs *at, SplineFont *sf,enum fontformat format) { int i,enccnt, issmall, hasmac; uint16 table[256]; SplineChar *sc; int alreadyprivate = false; int wasotf = format==ff_otf || format==ff_otfcid; EncMap *map = at->map; int ucs4len=0, ucs2len=0, cjklen=0, applecjklen=0, vslen=0; FILE *format12, *format4, *format2, *apple2, *format14; int mspos, ucs4pos, cjkpos, applecjkpos, vspos, start_of_macroman; int modformat = format; if (( format>=ff_ttf && format<=ff_otfdfont) && (at->gi.flags&ttf_flag_symbol)) modformat = ff_ttfsym; at->cmap = tmpfile2(); /* MacRoman encoding table */ /* Not going to bother with making this work for cid fonts */ /* I now see that Apple doesn't restrict us to format 0 sub-tables (as */ /* the docs imply) but instead also uses format 6 tables. Wildly in- */ /* appropriate as they are for 2byte encodings, but Apple uses them */ /* for one byte ones too */ memset(table,'\0',sizeof(table)); if ( !wasotf ) { table[29] = table[8] = table[0] = 1; table[9] = table[13] = 2; } for ( i=0; i<256 ; ++i ) { sc = SFGetChar(sf,MacRomanEnc[i],NULL); if ( sc!=NULL && sc->ttf_glyph!=-1 ) table[i] = sc->ttf_glyph; } if ( table[0]==0 ) table[0] = 1; if ( modformat==ff_ttfsym ) { alreadyprivate = AlreadyMSSymbolArea(sf,map); memset(table,'\0',sizeof(table)); if ( !wasotf ) { table[29] = table[8] = table[0] = 1; table[9] = table[13] = 2; } if ( !alreadyprivate ) { for ( i=0; ienccount && i<256; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL && sc->ttf_glyph!=-1 ) table[i] = sc->ttf_glyph; } for ( i=0xf020; i<=0xf0ff && iglyphcnt; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL && sc->ttf_glyph!=-1 && table[i-0xf000]==0 ) table[i-0xf000] = sc->ttf_glyph; } } else { for ( i=0xf020; i<=0xf0ff && iglyphcnt; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL && sc->ttf_glyph!=-1 ) table[i-0xf000] = sc->ttf_glyph; } for ( i=0; ienccount && i<256; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL && sc->ttf_glyph!=-1 && table[i]==0 ) table[i] = sc->ttf_glyph; } } /* if the user has read in a ttf symbol file then it will already have */ /* the right private use encoding, and we don't want to mess it up. */ /* The alreadyprivate flag should detect this case */ if ( !alreadyprivate ) { for ( i=0; ienccount && i<256; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL ) { sc->orig_pos = sc->unicodeenc; sc->unicodeenc = 0xf000 + i; } } for ( ; ienccount; ++i ) { if ( map->map[i]!=-1 && (sc = sf->glyphs[map->map[i]])!=NULL ) { sc->orig_pos = sc->unicodeenc; sc->unicodeenc = -1; } } } } format4 = NeedsUCS2Table(sf,&ucs2len,map,modformat==ff_ttfsym); apple2 = NULL; if ( modformat!=ff_ttfsym ) { format12 = NeedsUCS4Table(sf,&ucs4len,map); format2 = Needs816Enc(sf,&cjklen,map,&apple2,&applecjklen); format14 = NeedsVariationSequenceTable(sf,&vslen); } else format12 = format2 = format14 = apple2 = NULL; /* Two/Three/Four encoding table pointers, one for ms, one for mac */ /* usually one for mac big, just a copy of ms */ /* plus we may have a format12 encoding for ucs4, mac doesn't support */ /* plus we may have a format2 encoding for cjk, sometimes I know the codes for the mac... */ /* sometimes the mac will have a slightly different cjk table */ /* Sometimes we want a variation sequence subtable (format=14) for */ /* unicode platform */ if ( modformat==ff_ttfsym ) { enccnt = 2; hasmac = 0; } else { hasmac = 1; enccnt = 3; if ( format12!=NULL ) enccnt = 5; if ( format2!=NULL ) { if ( strstrmatch(map->enc->enc_name,"johab")!=NULL ) { ++enccnt; } else { enccnt+=2; hasmac=3; } } if ( format14!=NULL ) ++enccnt; } putshort(at->cmap,0); /* version */ putshort(at->cmap,enccnt); /* num tables */ mspos = 2*sizeof(uint16)+enccnt*(2*sizeof(uint16)+sizeof(uint32)); ucs4pos = mspos+ucs2len; cjkpos = ucs4pos+ucs4len; if ( apple2==NULL ) { applecjkpos = cjkpos; applecjklen = cjklen; } else applecjkpos = cjkpos + cjklen; /* applecjklen set above */ vspos = applecjkpos + applecjklen; start_of_macroman = vspos + vslen; if ( hasmac&1 ) { /* big mac table, just a copy of the ms table */ putshort(at->cmap,0); /* mac unicode platform */ putshort(at->cmap,3); /* Unicode 2.0 */ putlong(at->cmap,mspos); } if ( format12!=NULL ) { /* full unicode mac table, just a copy of the ms table */ putshort(at->cmap,0); /* mac unicode platform */ if( map->enc->is_unicodefull ) { putshort(at->cmap,10); /* Unicode 2.0, unicode beyond BMP */ } else { putshort(at->cmap,4); /* Unicode 2.0, unicode BMP */ } putlong(at->cmap,ucs4pos); } if ( format14!=NULL ) { /* variation sequence subtable. Only for platform 0. */ putshort(at->cmap,0); /* mac unicode platform */ putshort(at->cmap,5); /* Variation sequence table */ putlong(at->cmap,vspos); } putshort(at->cmap,1); /* mac platform */ putshort(at->cmap,0); /* plat specific enc, script=roman */ /* Even the symbol font on the mac claims a mac roman encoding */ /* although it actually contains a symbol encoding. There is an*/ /* "RSymbol" language listed for Mac (specific=8) but it isn't used*/ putlong(at->cmap,start_of_macroman); /* offset from tab start to sub tab start */ if ( format2!=NULL && (hasmac&2) ) { /* mac cjk table, often a copy of the ms table */ putshort(at->cmap,1); /* mac platform */ putshort(at->cmap, map->enc->is_japanese || sf->uni_interp==ui_japanese ? 1 : /* SJIS */ map->enc->is_korean || sf->uni_interp==ui_korean ? 3 : /* Korean */ map->enc->is_simplechinese || sf->uni_interp==ui_simp_chinese ? 25 :/* Simplified Chinese */ 2 ); /* Big5 */ putlong(at->cmap,applecjkpos); } putshort(at->cmap,3); /* ms platform */ putshort(at->cmap, /* plat specific enc */ modformat==ff_ttfsym ? 0 : /* Symbol */ 1 ); /* Unicode */ putlong(at->cmap,mspos); /* offset from tab start to sub tab start */ if ( format2!=NULL ) { putshort(at->cmap,3); /* ms platform */ putshort(at->cmap, /* plat specific enc */ strstrmatch(map->enc->enc_name,"johab")!=NULL ? 6 : map->enc->is_korean || sf->uni_interp==ui_korean ? 5 : map->enc->is_japanese || sf->uni_interp==ui_japanese ? 2 : map->enc->is_simplechinese || sf->uni_interp==ui_simp_chinese ? 3 : 4); /* Big5 */ putlong(at->cmap,cjkpos); /* offset from tab start to sub tab start */ } if ( format12!=NULL ) { putshort(at->cmap,3); /* ms platform */ putshort(at->cmap,10); /* plat specific enc, ucs4 */ putlong(at->cmap,ucs4pos); /* offset from tab start to sub tab start */ } if ( format4!=NULL ) { if ( !ttfcopyfile(at->cmap,format4,mspos,"cmap-Unicode16")) at->error = true; } if ( format12!=NULL ) { if ( !ttfcopyfile(at->cmap,format12,ucs4pos,"cmap-Unicode32")) at->error = true; } if ( format2!=NULL ) { if ( !ttfcopyfile(at->cmap,format2,cjkpos,"cmap-cjk")) at->error = true; } if ( apple2!=NULL ) { if ( !ttfcopyfile(at->cmap,apple2,applecjkpos,"cmap-applecjk")) at->error = true; } if ( format14!=NULL ) { if ( !ttfcopyfile(at->cmap,format14,vspos,"cmap-uniVariations")) at->error = true; } /* Mac table */ issmall = true; for ( i=0; i<256; ++i ) if ( table[i]>=256 ) { issmall = false; break; } if ( issmall ) { putshort(at->cmap,0); /* format */ putshort(at->cmap,262); /* length = 256bytes + 6 header bytes */ putshort(at->cmap,0); /* language = english */ for ( i=0; i<256; ++i ) putc(table[i],at->cmap); } else { putshort(at->cmap,6); /* format 6 */ putshort(at->cmap,522); /* length = 256short +10 header bytes */ putshort(at->cmap,0); /* language = english */ putshort(at->cmap,0); /* first code */ putshort(at->cmap,256); /* entry count */ for ( i=0; i<256; ++i ) putshort(at->cmap,table[i]); } at->cmaplen = ftell(at->cmap); if ( (at->cmaplen&2)!=0 ) putshort(at->cmap,0); if ( modformat==ff_ttfsym ) { if ( !alreadyprivate ) { for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { sf->glyphs[i]->unicodeenc = sf->glyphs[i]->orig_pos; sf->glyphs[i]->orig_pos = i; } } } } int32 filechecksum(FILE *file) { uint32 sum = 0, chunk; rewind(file); while ( 1 ) { chunk = getuint32(file); if ( feof(file) || ferror(file)) break; sum += chunk; } return( sum ); } static void AbortTTF(struct alltabs *at, SplineFont *sf) { int i; if ( at->loca!=NULL ) fclose(at->loca); if ( at->name!=NULL ) fclose(at->name); if ( at->post!=NULL ) fclose(at->post); if ( at->gpos!=NULL ) fclose(at->gpos); if ( at->gsub!=NULL ) fclose(at->gsub); if ( at->gdef!=NULL ) fclose(at->gdef); if ( at->kern!=NULL ) fclose(at->kern); if ( at->cmap!=NULL ) fclose(at->cmap); if ( at->headf!=NULL ) fclose(at->headf); if ( at->hheadf!=NULL ) fclose(at->hheadf); if ( at->maxpf!=NULL ) fclose(at->maxpf); if ( at->os2f!=NULL ) fclose(at->os2f); if ( at->cvtf!=NULL ) fclose(at->cvtf); if ( at->vheadf!=NULL ) fclose(at->vheadf); if ( at->vorgf!=NULL ) fclose(at->vorgf); if ( at->cfff!=NULL ) fclose(at->cfff); if ( at->gi.glyphs!=NULL ) fclose(at->gi.glyphs); if ( at->gi.hmtx!=NULL ) fclose(at->gi.hmtx); if ( at->gi.vmtx!=NULL ) fclose(at->gi.vmtx); if ( at->fpgmf!=NULL ) fclose(at->fpgmf); if ( at->prepf!=NULL ) fclose(at->prepf); if ( at->gaspf!=NULL ) fclose(at->gaspf); if ( at->sidf!=NULL ) fclose(at->sidf); if ( at->sidh!=NULL ) fclose(at->sidh); if ( at->charset!=NULL ) fclose(at->charset); if ( at->encoding!=NULL ) fclose(at->encoding); if ( at->private!=NULL ) fclose(at->private); if ( at->charstrings!=NULL ) fclose(at->charstrings); if ( at->fdselect!=NULL ) fclose(at->fdselect); if ( at->fdarray!=NULL ) fclose(at->fdarray); if ( at->bdat!=NULL ) fclose(at->bdat); if ( at->bloc!=NULL ) fclose(at->bloc); if ( at->ebsc!=NULL ) fclose(at->ebsc); if ( at->prop!=NULL ) fclose(at->prop); if ( at->opbd!=NULL ) fclose(at->opbd); if ( at->acnt!=NULL ) fclose(at->acnt); if ( at->lcar!=NULL ) fclose(at->lcar); if ( at->feat!=NULL ) fclose(at->feat); if ( at->morx!=NULL ) fclose(at->morx); if ( at->pfed!=NULL ) fclose(at->pfed); if ( at->tex!=NULL ) fclose(at->tex); if ( at->gvar!=NULL ) fclose(at->gvar); if ( at->fvar!=NULL ) fclose(at->fvar); if ( at->cvar!=NULL ) fclose(at->cvar); if ( at->avar!=NULL ) fclose(at->avar); for ( i=0; isubfontcnt; ++i ) { if ( at->fds[i].private!=NULL ) fclose(at->fds[i].private); } if ( sf->subfontcnt!=0 ) { free(sf->glyphs); sf->glyphs = NULL; sf->glyphcnt = sf->glyphmax = 0; } free( at->fds ); free( at->gi.bygid ); } int SFHasInstructions(SplineFont *sf) { int i; if ( sf->mm!=NULL && sf->mm->apple ) sf = sf->mm->normal; if ( sf->subfontcnt!=0 ) return( false ); /* Truetype doesn't support cid keyed fonts */ for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) { if ( strcmp(sf->glyphs[i]->name,".notdef")==0 ) continue; /* ff produces fonts with instructions in .notdef & not elsewhere. Ignore these */ if ( sf->glyphs[i]->ttf_instrs!=NULL ) return( true ); } return( false ); } static void MaxpFromTable(struct alltabs *at,SplineFont *sf) { struct ttf_table *maxp; maxp = SFFindTable(sf,CHR('m','a','x','p')); if ( maxp==NULL && sf->mm!=NULL && sf->mm->apple ) maxp = SFFindTable(sf->mm->normal,CHR('m','a','x','p')); if ( maxp==NULL || maxp->len<13*sizeof(uint16) ) return; /* We can figure out the others ourselves, but these depend on the contents */ /* of uninterpretted tables */ at->maxp.maxZones = memushort(maxp->data,maxp->len, 7*sizeof(uint16)); at->maxp.maxTwilightPts = memushort(maxp->data,maxp->len, 8*sizeof(uint16)); at->maxp.maxStorage = memushort(maxp->data,maxp->len, 9*sizeof(uint16)); at->maxp.maxFDEFs = memushort(maxp->data,maxp->len, 10*sizeof(uint16)); at->maxp.maxIDEFs = memushort(maxp->data,maxp->len, 11*sizeof(uint16)); at->maxp.maxStack = memushort(maxp->data,maxp->len, 12*sizeof(uint16)); } static FILE *dumpstoredtable(SplineFont *sf,uint32 tag,int *len) { struct ttf_table *tab = SFFindTable(sf,tag); FILE *out; if ( tab==NULL && sf->mm!=NULL && sf->mm->apple ) tab = SFFindTable(sf->mm->normal,tag); if ( tab==NULL ) { *len = 0; return( NULL ); } out = tmpfile2(); fwrite(tab->data,1,tab->len,out); if ( (tab->len&1)) putc('\0',out); if ( (tab->len+1)&2 ) putshort(out,0); *len = tab->len; return( out ); } static FILE *dumpsavedtable(struct ttf_table *tab) { FILE *out; if ( tab==NULL ) return( NULL ); out = tmpfile2(); fwrite(tab->data,1,tab->len,out); if ( (tab->len&1)) putc('\0',out); if ( (tab->len+1)&2 ) putshort(out,0); return( out ); } static int tagcomp(const void *_t1, const void *_t2) { struct taboff *t1 = *((struct taboff **) _t1), *t2 = *((struct taboff **) _t2); return( (int) (t1->tag - t2->tag) ); } static int tcomp(const void *_t1, const void *_t2) { struct taboff *t1 = *((struct taboff **) _t1), *t2 = *((struct taboff **) _t2); return( t1->orderingval - t2->orderingval ); } static void ATmaxpInit(struct alltabs *at,SplineFont *sf, enum fontformat format) { at->maxp.version = 0x00010000; if ( format==ff_otf || format==ff_otfcid || (format==ff_none && at->applemode) ) at->maxp.version = 0x00005000; at->maxp.maxnumcomponents = 0; at->maxp.maxcomponentdepth = 0; at->maxp.maxZones = 2; /* 1 would probably do, don't use twilight */ at->maxp.maxFDEFs = 1; /* Not even 1 */ at->maxp.maxStorage = 1; /* Not even 1 */ at->maxp.maxStack = 64; /* A guess, it's probably more like 8 */ if ( format==ff_otf || format==ff_otfcid || (format==ff_none && at->applemode) ) at->maxp.version = 0x00005000; else MaxpFromTable(at,sf); at->gi.maxp = &at->maxp; } static void initATTables(struct alltabs *at, SplineFont *sf, enum fontformat format) { setos2(&at->os2,at,sf,format); /* should precede kern/ligature output */ if ( at->opentypemode ) { SFFindUnusedLookups(sf); otf_dumpgpos(at,sf); otf_dumpgsub(at,sf); otf_dumpgdef(at,sf); otf_dumpjstf(at,sf); otf_dumpbase(at,sf); otf_dump_math(at,sf); /* Not strictly OpenType yet */ if ( at->gi.flags & ttf_flag_dummyDSIG ) otf_dump_dummydsig(at,sf); } if ( at->dovariations ) ttf_dumpvariations(at,sf); if ( at->applemode ) { if ( !at->opentypemode ) SFFindUnusedLookups(sf); ttf_dumpkerns(at,sf); aat_dumplcar(at,sf); aat_dumpmorx(at,sf); /* Sets the feat table too */ aat_dumpopbd(at,sf); aat_dumpprop(at,sf); aat_dumpbsln(at,sf); } if ( !at->applemode && (!at->opentypemode || (at->gi.flags&ttf_flag_oldkern)) ) ttf_dumpkerns(at,sf); /* everybody supports a mimimal kern table */ dumpnames(at,sf,format); /* Must be after dumpmorx which may create extra names */ /* GPOS 'size' can also create names (so must be after that too) */ redoos2(at); } static struct taboff *findtabindir(struct tabdir *td, uint32 tag ) { int i; for ( i=0; inumtab; ++i ) if ( td->tabs[i].tag == tag ) return( &td->tabs[i] ); return( NULL ); } static void buildtablestructures(struct alltabs *at, SplineFont *sf, enum fontformat format) { int i; int ebdtpos, eblcpos; struct ttf_table *tab; if ( format==ff_otf || format==ff_otfcid ) { at->tabdir.version = CHR('O','T','T','O'); #ifdef FONTFORGE_CONFIG_APPLE_ONLY_TTF /* This means that Windows will reject the font. In general not a good idea */ } else if ( at->applemode && !at->opentypemode ) { at->tabdir.version = CHR('t','r','u','e'); #endif } else { at->tabdir.version = 0x00010000; } i = 0; if ( at->base!=NULL ) { at->tabdir.tabs[i].tag = CHR('B','A','S','E'); at->tabdir.tabs[i].data = at->base; at->tabdir.tabs[i++].length = at->baselen; } if ( at->bsln!=NULL ) { at->tabdir.tabs[i].tag = CHR('b','s','l','n'); at->tabdir.tabs[i].data = at->bsln; at->tabdir.tabs[i++].length = at->bslnlen; } if ( at->bdf!=NULL ) { at->tabdir.tabs[i].tag = CHR('B','D','F',' '); at->tabdir.tabs[i].data = at->bdf; at->tabdir.tabs[i++].length = at->bdflen; } if ( format==ff_otf || format==ff_otfcid ) { at->tabdir.tabs[i].tag = CHR('C','F','F',' '); at->tabdir.tabs[i].length = at->cfflen; at->tabdir.tabs[i++].data = at->cfff; } if ( at->dsigf!=NULL ) { ebdtpos = i; at->tabdir.tabs[i].tag = CHR('D','S','I','G'); at->tabdir.tabs[i].length = at->dsiglen; at->tabdir.tabs[i++].data = at->dsigf; } if ( at->bdat!=NULL && (at->msbitmaps || at->otbbitmaps)) { ebdtpos = i; at->tabdir.tabs[i].tag = CHR('E','B','D','T'); at->tabdir.tabs[i].length = at->bdatlen; at->tabdir.tabs[i++].data = at->bdat; } if ( at->bloc!=NULL && (at->msbitmaps || at->otbbitmaps)) { eblcpos = i; at->tabdir.tabs[i].tag = CHR('E','B','L','C'); at->tabdir.tabs[i].data = at->bloc; at->tabdir.tabs[i++].length = at->bloclen; } if ( at->ebsc!=NULL ) { at->tabdir.tabs[i].tag = CHR('E','B','S','C'); at->tabdir.tabs[i].data = at->ebsc; at->tabdir.tabs[i++].length = at->ebsclen; } if ( at->fftmf!=NULL ) { at->tabdir.tabs[i].tag = CHR('F','F','T','M'); at->tabdir.tabs[i].data = at->fftmf; at->tabdir.tabs[i++].length = at->fftmlen; } if ( at->gdef!=NULL ) { at->tabdir.tabs[i].tag = CHR('G','D','E','F'); at->tabdir.tabs[i].data = at->gdef; at->tabdir.tabs[i++].length = at->gdeflen; } if ( at->gpos!=NULL ) { at->tabdir.tabs[i].tag = CHR('G','P','O','S'); at->tabdir.tabs[i].data = at->gpos; at->tabdir.tabs[i++].length = at->gposlen; } if ( at->gsub!=NULL ) { at->tabdir.tabs[i].tag = CHR('G','S','U','B'); at->tabdir.tabs[i].data = at->gsub; at->tabdir.tabs[i++].length = at->gsublen; } if ( at->jstf!=NULL ) { at->tabdir.tabs[i].tag = CHR('J','S','T','F'); at->tabdir.tabs[i].data = at->jstf; at->tabdir.tabs[i++].length = at->jstflen; } if ( at->os2f!=NULL ) { at->tabdir.tabs[i].tag = CHR('O','S','/','2'); at->tabdir.tabs[i].data = at->os2f; at->tabdir.tabs[i++].length = at->os2len; } if ( at->pfed!=NULL ) { at->tabdir.tabs[i].tag = CHR('P','f','E','d'); at->tabdir.tabs[i].data = at->pfed; at->tabdir.tabs[i++].length = at->pfedlen; } if ( at->tex!=NULL ) { at->tabdir.tabs[i].tag = CHR('T','e','X',' '); at->tabdir.tabs[i].data = at->tex; at->tabdir.tabs[i++].length = at->texlen; } if ( at->math!=NULL ) { at->tabdir.tabs[i].tag = CHR('M','A','T','H'); at->tabdir.tabs[i].data = at->math; at->tabdir.tabs[i++].length = at->mathlen; } if ( at->vorgf!=NULL ) { /* No longer generated */ at->tabdir.tabs[i].tag = CHR('V','O','R','G'); at->tabdir.tabs[i].data = at->vorgf; at->tabdir.tabs[i++].length = at->vorglen; } if ( at->acnt!=NULL ) { at->tabdir.tabs[i].tag = CHR('a','c','n','t'); at->tabdir.tabs[i].data = at->acnt; at->tabdir.tabs[i++].length = at->acntlen; } if ( at->bdat!=NULL && at->applebitmaps ) { at->tabdir.tabs[i].tag = CHR('b','d','a','t'); if ( !at->msbitmaps ) { at->tabdir.tabs[i].data = at->bdat; at->tabdir.tabs[i++].length = at->bdatlen; } else { at->tabdir.tabs[i].data = NULL; at->tabdir.tabs[i].dup_of = ebdtpos; at->tabdir.tabs[i++].length = at->tabdir.tabs[ebdtpos].length; } } if ( format==ff_none && at->applebitmaps ) { /* Bitmap only fonts get a bhed table rather than a head */ at->tabdir.tabs[i].tag = CHR('b','h','e','d'); at->tabdir.tabs[i].data = at->headf; at->tabdir.tabs[i++].length = at->headlen; } if ( at->bloc!=NULL && at->applebitmaps ) { at->tabdir.tabs[i].tag = CHR('b','l','o','c'); if ( !at->msbitmaps ) { at->tabdir.tabs[i].data = at->bloc; at->tabdir.tabs[i++].length = at->bloclen; } else { at->tabdir.tabs[i].data = NULL; at->tabdir.tabs[i].dup_of = eblcpos; at->tabdir.tabs[i++].length = at->tabdir.tabs[eblcpos].length; } } if ( at->cmap!=NULL ) { at->tabdir.tabs[i].tag = CHR('c','m','a','p'); at->tabdir.tabs[i].data = at->cmap; at->tabdir.tabs[i++].length = at->cmaplen; } if ( format!=ff_otf && format!=ff_otfcid && format!=ff_none ) { if ( at->cvtf!=NULL ) { at->tabdir.tabs[i].tag = CHR('c','v','t',' '); at->tabdir.tabs[i].data = at->cvtf; at->tabdir.tabs[i++].length = at->cvtlen; } } if ( at->feat!=NULL ) { at->tabdir.tabs[i].tag = CHR('f','e','a','t'); at->tabdir.tabs[i].data = at->feat; at->tabdir.tabs[i++].length = at->featlen; } if ( at->fpgmf!=NULL ) { at->tabdir.tabs[i].tag = CHR('f','p','g','m'); at->tabdir.tabs[i].data = at->fpgmf; at->tabdir.tabs[i++].length = at->fpgmlen; } if ( at->gaspf!=NULL ) { at->tabdir.tabs[i].tag = CHR('g','a','s','p'); at->tabdir.tabs[i].data = at->gaspf; at->tabdir.tabs[i++].length = at->gasplen; } if ( at->gi.glyphs!=NULL ) { at->tabdir.tabs[i].tag = CHR('g','l','y','f'); at->tabdir.tabs[i].data = at->gi.glyphs; at->tabdir.tabs[i++].length = at->gi.glyph_len; } if ( at->hdmxf!=NULL ) { at->tabdir.tabs[i].tag = CHR('h','d','m','x'); at->tabdir.tabs[i].data = at->hdmxf; at->tabdir.tabs[i++].length = at->hdmxlen; } if ( format!=ff_none || !at->applebitmaps ) { at->tabdir.tabs[i].tag = CHR('h','e','a','d'); at->tabdir.tabs[i].data = at->headf; at->tabdir.tabs[i++].length = at->headlen; } if ( format!=ff_none || !at->applemode ) { at->tabdir.tabs[i].tag = CHR('h','h','e','a'); at->tabdir.tabs[i].data = at->hheadf; at->tabdir.tabs[i++].length = at->hheadlen; } else if ( at->hheadf!=NULL ) { fclose(at->hheadf); at->hheadf = NULL; } if ( format!=ff_none || !at->applemode ) { at->tabdir.tabs[i].tag = CHR('h','m','t','x'); at->tabdir.tabs[i].data = at->gi.hmtx; at->tabdir.tabs[i++].length = at->gi.hmtxlen; } if ( at->kern!=NULL ) { at->tabdir.tabs[i].tag = CHR('k','e','r','n'); at->tabdir.tabs[i].data = at->kern; at->tabdir.tabs[i++].length = at->kernlen; } if ( at->lcar!=NULL ) { at->tabdir.tabs[i].tag = CHR('l','c','a','r'); at->tabdir.tabs[i].data = at->lcar; at->tabdir.tabs[i++].length = at->lcarlen; } if ( at->loca!=NULL ) { at->tabdir.tabs[i].tag = CHR('l','o','c','a'); at->tabdir.tabs[i].data = at->loca; at->tabdir.tabs[i++].length = at->localen; } at->tabdir.tabs[i].tag = CHR('m','a','x','p'); at->tabdir.tabs[i].data = at->maxpf; at->tabdir.tabs[i++].length = at->maxplen; if ( at->morx!=NULL ) { at->tabdir.tabs[i].tag = CHR('m','o','r','x'); at->tabdir.tabs[i].data = at->morx; at->tabdir.tabs[i++].length = at->morxlen; } if ( at->name!=NULL ) { at->tabdir.tabs[i].tag = CHR('n','a','m','e'); at->tabdir.tabs[i].data = at->name; at->tabdir.tabs[i++].length = at->namelen; } if ( at->opbd!=NULL ) { at->tabdir.tabs[i].tag = CHR('o','p','b','d'); at->tabdir.tabs[i].data = at->opbd; at->tabdir.tabs[i++].length = at->opbdlen; } if ( at->post!=NULL ) { at->tabdir.tabs[i].tag = CHR('p','o','s','t'); at->tabdir.tabs[i].data = at->post; at->tabdir.tabs[i++].length = at->postlen; } if ( format!=ff_otf && format!=ff_otfcid && format!=ff_none ) { if ( at->prepf!=NULL ) { at->tabdir.tabs[i].tag = CHR('p','r','e','p'); at->tabdir.tabs[i].data = at->prepf; at->tabdir.tabs[i++].length = at->preplen; } } if ( at->prop!=NULL ) { at->tabdir.tabs[i].tag = CHR('p','r','o','p'); at->tabdir.tabs[i].data = at->prop; at->tabdir.tabs[i++].length = at->proplen; } if ( at->vheadf!=NULL ) { at->tabdir.tabs[i].tag = CHR('v','h','e','a'); at->tabdir.tabs[i].data = at->vheadf; at->tabdir.tabs[i++].length = at->vheadlen; at->tabdir.tabs[i].tag = CHR('v','m','t','x'); at->tabdir.tabs[i].data = at->gi.vmtx; at->tabdir.tabs[i++].length = at->gi.vmtxlen; } if ( at->fvar!=NULL ) { at->tabdir.tabs[i].tag = CHR('f','v','a','r'); at->tabdir.tabs[i].data = at->fvar; at->tabdir.tabs[i++].length = at->fvarlen; } if ( at->gvar!=NULL ) { at->tabdir.tabs[i].tag = CHR('g','v','a','r'); at->tabdir.tabs[i].data = at->gvar; at->tabdir.tabs[i++].length = at->gvarlen; } if ( at->cvar!=NULL ) { at->tabdir.tabs[i].tag = CHR('c','v','a','r'); at->tabdir.tabs[i].data = at->cvar; at->tabdir.tabs[i++].length = at->cvarlen; } if ( at->avar!=NULL ) { at->tabdir.tabs[i].tag = CHR('a','v','a','r'); at->tabdir.tabs[i].data = at->avar; at->tabdir.tabs[i++].length = at->avarlen; } if ( i>=MAX_TAB ) IError("Miscalculation of number of tables needed. Up sizeof tabs array in struct tabdir in ttf.h" ); for ( tab=sf->ttf_tab_saved; tab!=NULL && inext ) { at->tabdir.tabs[i].tag = tab->tag; at->tabdir.tabs[i].data = tab->temp; at->tabdir.tabs[i++].length = tab->len; } if ( tab!=NULL ) IError("Some user supplied tables omitted. Up sizeof tabs array in struct tabdir in ttf.h" ); at->tabdir.numtab = i; at->tabdir.searchRange = (i<16?8:i<32?16:i<64?32:64)*16; at->tabdir.entrySel = (i<16?3:i<32?4:i<64?5:6); at->tabdir.rangeShift = at->tabdir.numtab*16-at->tabdir.searchRange; } static int initTables(struct alltabs *at, SplineFont *sf, enum fontformat format, int32 *bsizes, enum bitmapformat bf) { int i, aborted, offset; struct ttf_table *tab; if (strmatch(at->map->enc->enc_name, "symbol") == 0 && format == ff_ttf) format = ff_ttfsym; tab = SFFindTable(sf, CHR('c', 'v', 't', ' ')); if (tab != NULL) { at->oldcvt = tab; at->oldcvtlen = tab->len; } SFDefaultOS2Info(&sf->pfminfo, sf, sf->fontname); at->gi.xmin = at->gi.ymin = 15000; at->gi.sf = sf; bsizes = NULL; if (sf->subfonts != NULL) { SFDummyUpCIDs(&at->gi, sf); /* life is easier if we ignore the separate fonts of a cid keyed fonts and treat it as flat */ } else if (format != ff_none) AssignTTFGlyph(&at->gi, sf, at->map, format == ff_otf); else { if (bsizes == NULL) { ff_post_error(_("No bitmap strikes"), _("No bitmap strikes")); AbortTTF(at, sf); return ( false); } // AssignTTFBitGlyph(&at->gi, sf, at->map, bsizes); } if (at->gi.gcnt > 65535) { ff_post_error(_("Too many glyphs"), _("The 'sfnt' format is currently limited to 65535 glyphs, and your font has %d of them."), at->gi.gcnt); AbortTTF(at, sf); return ( false); } else if (at->gi.gcnt == 65535) { /* GID 65535 is used as a "No Glyph" mark in many places (cmap tables, mac substitutions to delete a glyph */ LogError(_("Your font has exactly 65535 glyphs. Encoding 65535 is the limit and is often used as a magic \ value, so it may cause quirks.\n")); } ATmaxpInit(at,sf,format); if ( format==ff_otf ) aborted = !dumptype2glyphs(sf,at); else if ( format==ff_otfcid ) aborted = !dumpcidglyphs(sf,at); else { /* if format==ff_none the following will put out lots of space glyphs */ aborted = !dumpglyphs(sf,&at->gi); } if ( aborted ) { AbortTTF(at,sf); return( false ); } sethead(&at->head,sf,at,format,bsizes); sethhead(&at->hhead,&at->vhead,at,sf); if ( format==ff_none && at->otbbitmaps ) dummyloca(at); else if ( format!=ff_otf && format!=ff_otfcid && bf!=bf_sfnt_dfont && (format!=ff_none || (bsizes!=NULL && !at->applemode && at->opentypemode)) ) redoloca(at); redohead(at); if ( format!=ff_none || !at->applemode ) /* No 'hhea' table for apple bitmap-only fonts */ redohhead(at,false); if ( sf->hasvmetrics ) { redohhead(at,true); } ttf_fftm_dump(sf,at); if ( format!=ff_type42 && format!=ff_type42cid && !sf->internal_temp ) { initATTables(at, sf, format); } redomaxp(at,format); if ( format!=ff_otf && format!=ff_otfcid && format!=ff_none ) { if (( sf->gasp_cnt!=0 || !SFHasInstructions(sf)) && format!=ff_type42 && format!=ff_type42cid ) dumpgasp(at, sf); at->fpgmf = dumpstoredtable(sf,CHR('f','p','g','m'),&at->fpgmlen); at->prepf = dumpstoredtable(sf,CHR('p','r','e','p'),&at->preplen); at->cvtf = dumpstoredtable(sf,CHR('c','v','t',' '),&at->cvtlen); } for ( tab=sf->ttf_tab_saved; tab!=NULL; tab=tab->next ) tab->temp = dumpsavedtable(tab); if ( format!=ff_type42 && format!=ff_type42cid ) { dumppost(at,sf,format); dumpcmap(at,sf,format); pfed_dump(at,sf); tex_dump(at,sf); } if ( sf->subfonts!=NULL ) { free(sf->glyphs); sf->glyphs = NULL; sf->glyphcnt = sf->glyphmax = 0; } free( at->gi.bygid ); at->gi.gcnt = 0; buildtablestructures(at,sf,format); for ( i=0; itabdir.numtab; ++i ) { struct taboff *tab = &at->tabdir.tabs[i]; at->tabdir.ordered[i] = tab; at->tabdir.alpha[i] = tab; /* This is the ordering of tables in ARIAL. I've no idea why it makes a */ /* difference to order them, time to do a seek seems likely to be small, but */ /* other people make a big thing about ordering them so I'll do it. */ /* I got bored after glyph. Adobe follows the same scheme for their otf fonts */ /* so at least the world is consistant */ /* On the other hand, MS Font validator has a different idea. Oh well */ /* From: http://partners.adobe.com/asn/tech/type/opentype/recom.jsp */ /* TrueType Ordering */ /* head, hhea, maxp, OS/2, hmtx, LTSH, VDMX, hdmx, cmap, fpgm, prep, cvt, */ /* loca, glyf, kern, name, post, gasp, PCLT, DSIG */ /* CFF in OpenType Ordering */ /* head, hhea, maxp, OS/2, name, cmap, post, CFF, (other tables, as convenient) */ if ( format==ff_otf || format==ff_otfcid ) { tab->orderingval = tab->tag==CHR('h','e','a','d')? 1 : tab->tag==CHR('h','h','e','a')? 2 : tab->tag==CHR('m','a','x','p')? 3 : tab->tag==CHR('O','S','/','2')? 4 : tab->tag==CHR('n','a','m','e')? 5 : tab->tag==CHR('c','m','a','p')? 6 : tab->tag==CHR('p','o','s','t')? 7 : tab->tag==CHR('C','F','F',' ')? 8 : tab->tag==CHR('G','D','E','F')? 17 : tab->tag==CHR('G','S','U','B')? 18 : tab->tag==CHR('G','P','O','S')? 19 : 20; } else { tab->orderingval = tab->tag==CHR('h','e','a','d')? 1 : tab->tag==CHR('h','h','e','a')? 2 : tab->tag==CHR('m','a','x','p')? 3 : tab->tag==CHR('O','S','/','2')? 4 : tab->tag==CHR('h','m','t','x')? 5 : tab->tag==CHR('L','T','S','H')? 6 : tab->tag==CHR('V','D','M','X')? 7 : tab->tag==CHR('h','d','m','x')? 8 : tab->tag==CHR('c','m','a','p')? 9 : tab->tag==CHR('f','p','g','m')? 10 : tab->tag==CHR('p','r','e','p')? 11 : tab->tag==CHR('c','v','t',' ')? 12 : tab->tag==CHR('l','o','c','a')? 13 : tab->tag==CHR('g','l','y','f')? 14 : tab->tag==CHR('k','e','r','n')? 15 : tab->tag==CHR('n','a','m','e')? 16 : tab->tag==CHR('p','o','s','t')? 17 : tab->tag==CHR('g','a','s','p')? 18 : tab->tag==CHR('P','C','L','T')? 19 : tab->tag==CHR('D','S','I','G')? 20 : tab->tag==CHR('G','D','E','F')? 21 : tab->tag==CHR('G','S','U','B')? 22 : tab->tag==CHR('G','P','O','S')? 23 : 24; } } qsort(at->tabdir.ordered,at->tabdir.numtab,sizeof(struct taboff *),tcomp); qsort(at->tabdir.alpha,i,sizeof(struct taboff *),tagcomp); offset = sizeof(int32)+4*sizeof(int16) + at->tabdir.numtab*4*sizeof(int32); for ( i=0; itabdir.numtab; ++i ) if ( at->tabdir.ordered[i]->data!=NULL ) { at->tabdir.ordered[i]->offset = offset; offset += ((at->tabdir.ordered[i]->length+3)>>2)<<2; at->tabdir.ordered[i]->checksum = filechecksum(at->tabdir.ordered[i]->data); } for ( i=0; itabdir.numtab; ++i ) if ( at->tabdir.ordered[i]->data==NULL ) { struct taboff *tab = &at->tabdir.tabs[at->tabdir.ordered[i]->dup_of]; at->tabdir.ordered[i]->offset = tab->offset; at->tabdir.ordered[i]->checksum = tab->checksum; } tab = SFFindTable(sf,CHR('c','v','t',' ')); if ( tab!=NULL ) { if ( at->oldcvt!=NULL && at->oldcvtlenlen ) tab->len = at->oldcvtlen; else if ( at->oldcvt==NULL ) { /* We created a cvt table when we output the .notdef glyph */ /* now that means AutoInstr thinks it no longer has a blank */ /* slate to work with, and will complain, much to the user's */ /* surprise. So get rid of it */ struct ttf_table *prev = NULL; for ( tab = sf->ttf_tables; tab!=NULL ; prev = tab, tab=tab->next ) if ( tab->tag==CHR('c','v','t',' ') ) break; if ( tab!=NULL ) { if ( prev==NULL ) sf->ttf_tables = tab->next; else prev->next = tab->next; tab->next = NULL; TtfTablesFree(tab); } } } return( true ); } static char *Tag2String(uint32 tag) { static char buffer[8]; buffer[0] = tag>>24; buffer[1] = tag>>16; buffer[2] = tag>>8; buffer[3] = tag; buffer[4] = 0; return( buffer ); } static void dumpttf(FILE *ttf,struct alltabs *at) { int32 checksum; int i, head_index=-1; /* I can't use fwrite because I (may) have to byte swap everything */ putlong(ttf,at->tabdir.version); putshort(ttf,at->tabdir.numtab); putshort(ttf,at->tabdir.searchRange); putshort(ttf,at->tabdir.entrySel); putshort(ttf,at->tabdir.rangeShift); for ( i=0; itabdir.numtab; ++i ) { if ( at->tabdir.alpha[i]->tag==CHR('h','e','a','d') || at->tabdir.alpha[i]->tag==CHR('b','h','e','d') ) head_index = i; putlong(ttf,at->tabdir.alpha[i]->tag); putlong(ttf,at->tabdir.alpha[i]->checksum); putlong(ttf,at->tabdir.alpha[i]->offset); putlong(ttf,at->tabdir.alpha[i]->length); } for ( i=0; itabdir.numtab; ++i ) if ( at->tabdir.ordered[i]->data!=NULL ) { if ( !ttfcopyfile(ttf,at->tabdir.ordered[i]->data, at->tabdir.ordered[i]->offset,Tag2String(at->tabdir.ordered[i]->tag))) at->error = true; } if ( head_index!=-1 ) { checksum = filechecksum(ttf); checksum = 0xb1b0afba-checksum; fseek(ttf,at->tabdir.alpha[head_index]->offset+2*sizeof(int32),SEEK_SET); putlong(ttf,checksum); } /* ttfcopyfile closed all the files (except ttf) */ } static void DumpGlyphToNameMap(char *fontname,SplineFont *sf) { char *d, *e; char *newname = malloc(strlen(fontname)+10); FILE *file; int i,k,max; SplineChar *sc; strcpy(newname,fontname); d = strrchr(newname,'/'); if ( d==NULL ) d=newname; e = strrchr(d,'.'); if ( e==NULL ) e = newname+strlen(newname); strcpy(e,".g2n"); file = fopen(newname,"wb"); if ( file==NULL ) { LogError( _("Failed to open glyph to name map file for writing: %s\n"), newname ); free(newname); return; } if ( sf->subfontcnt==0 ) max = sf->glyphcnt; else { for ( k=max=0; ksubfontcnt; ++k ) if ( sf->subfonts[k]->glyphcnt > max ) max = sf->subfonts[k]->glyphcnt; } for ( i=0; isubfontcnt==0 ) sc = sf->glyphs[i]; else { for ( k=0; ksubfontcnt; ++k ) if ( isubfonts[k]->glyphcnt ) if ( (sc=sf->subfonts[k]->glyphs[i])!=NULL ) break; } if ( sc!=NULL && sc->ttf_glyph!=-1 ) { fprintf( file, "GLYPHID %d\tPSNAME %s", sc->ttf_glyph, sc->name ); if ( sc->unicodeenc!=-1 ) fprintf( file, "\tUNICODE %04X", sc->unicodeenc ); putc('\n',file); } } fclose(file); free(newname); } static int dumpcff(struct alltabs *at,SplineFont *sf,enum fontformat format, FILE *cff) { int ret; if ( format==ff_cff ) { AssignTTFGlyph(&at->gi,sf,at->map,true); ret = dumptype2glyphs(sf,at); } else { SFDummyUpCIDs(&at->gi,sf); /* life is easier if we ignore the separate fonts of a cid keyed fonts and treat it as flat */ ret = dumpcidglyphs(sf,at); free(sf->glyphs); sf->glyphs = NULL; sf->glyphcnt = sf->glyphmax = 0; } free( at->gi.bygid ); if ( !ret ) at->error = true; else if ( at->gi.flags & ps_flag_nocffsugar ) { if ( !ttfcopyfile(cff,at->cfff,0,"CFF")) at->error = true; } else { long len; char buffer[80]; fprintf(cff,"%%!PS-Adobe-3.0 Resource-FontSet\n"); fprintf(cff,"%%%%DocumentNeedResources:ProcSet (FontSetInit)\n"); fprintf(cff,"%%%%Title: (FontSet/%s)\n", sf->fontname); fprintf(cff,"%%%%EndComments\n" ); fprintf(cff,"%%%%IncludeResource: ProcSet(FontSetInit)\n" ); fprintf(cff,"%%%%BeginResource: FontSet(%s)\n", sf->fontname ); fprintf(cff,"/FontSetInit /ProcSet findresource begin\n" ); fseek(at->cfff,0,SEEK_END); len = ftell(at->cfff); rewind(at->cfff); sprintf( buffer, "/%s %ld StartData\n", sf->fontname, len ); fprintf(cff,"%%%%BeginData: %ld Binary Bytes\n", (long) (len+strlen(buffer)) ); fputs(buffer,cff); if ( !ttfcopyfile(cff,at->cfff,ftell(cff),"CFF")) at->error = true; fprintf(cff,"\n%%%%EndData\n" ); fprintf(cff,"%%%%EndResource\n" ); fprintf(cff,"%%%%EOF\n" ); } return( !at->error ); } static void ATinit(struct alltabs *at,SplineFont *sf,EncMap *map,int flags, int layer, enum fontformat format, enum bitmapformat bf,int *bsizes) { at->gi.flags = flags; at->gi.layer = layer; at->gi.is_ttf = format == ff_ttf || format==ff_ttfsym || format==ff_ttfmacbin || format==ff_ttfdfont; at->gi.sf = sf; at->applemode = (flags&ttf_flag_applemode)?1:0; at->opentypemode = (flags&ttf_flag_otmode)?1:0; at->msbitmaps = bsizes!=NULL && at->opentypemode; at->applebitmaps = bsizes!=NULL && at->applemode; at->gi.onlybitmaps = format==ff_none; if ( bf==bf_sfnt_dfont ) { at->msbitmaps = false; at->applebitmaps=true; at->opentypemode=false; at->gi.onlybitmaps=true;} if ( bf==bf_sfnt_ms ) { at->msbitmaps = true; at->applebitmaps=false; at->applemode=false; at->gi.onlybitmaps=true;} if ( bf==bf_otb ) { at->otbbitmaps = true; at->applebitmaps=at->msbitmaps=false; at->applemode=false; at->gi.onlybitmaps=true;} if ( bsizes!=NULL && !at->applebitmaps && !at->otbbitmaps && !at->msbitmaps ) at->msbitmaps = true; /* They asked for bitmaps, but no bitmap type selected */ at->gi.bsizes = bsizes; at->gi.fixed_width = CIDOneWidth(sf); at->isotf = format==ff_otf || format==ff_otfcid; at->format = format; at->next_strid = 256; if ( at->applemode && sf->mm!=NULL && sf->mm->apple && (format==ff_ttf || format==ff_ttfsym || format==ff_ttfmacbin || format==ff_ttfdfont) && MMValid(sf->mm,false)) { at->dovariations = true; at->gi.dovariations = true; sf = sf->mm->normal; } at->sf = sf; at->map = map; } int _WriteTTFFont(FILE *ttf,SplineFont *sf,enum fontformat format, int32 *bsizes, enum bitmapformat bf,int flags,EncMap *map, int layer) { struct alltabs at; int i, anyglyphs; short_too_long_warned = 0; // This is a static variable defined for putshort. /* TrueType probably doesn't need this, but OpenType does for floats in dictionaries */ ff_locale_t tmplocale, oldlocale; // Declare temporary locale storage. switch_to_c_locale(&tmplocale, &oldlocale); // Switch to the C locale temporarily and cache the old locale. if ( format==ff_otfcid || format== ff_cffcid ) { if ( sf->cidmaster ) sf = sf->cidmaster; } else { if ( sf->subfontcnt!=0 ) sf = sf->subfonts[0]; } if ( sf->subfontcnt==0 ) { anyglyphs = false; for ( i=sf->glyphcnt-1; i>=0 ; --i ) { if ( SCWorthOutputting(sf->glyphs[i])) { anyglyphs = true; if ( sf->glyphs[i]->unicodeenc!=-1 ) break; } } if ( !anyglyphs && !sf->internal_temp ) { ff_post_error(_("No Encoded Glyphs"),_("Warning: Font contained no glyphs")); } if ( format!=ff_ttfsym && !(flags&ttf_flag_symbol) && !sf->internal_temp ) { if ( i<0 && anyglyphs ) { if ( map->enccount<=256 ) { char *buts[3]; buts[0] = _("_Yes"); buts[1] = _("_No"); buts[2] = NULL; if ( ff_ask(_("No Encoded Glyphs"),(const char **) buts,0,1,_("This font contains no glyphs with unicode encodings.\nWould you like to use a \"Symbol\" encoding instead of Unicode?"))==0 ) flags |= ttf_flag_symbol; } else ff_post_error(_("No Encoded Glyphs"),_("This font contains no glyphs with unicode encodings.\nYou will probably not be able to use the output.")); } } } for ( i=0; iglyphcnt; ++i ) if ( sf->glyphs[i]!=NULL ) sf->glyphs[i]->ttf_glyph = -1; memset(&at,'\0',sizeof(struct alltabs)); ATinit(&at,sf,map,flags,layer,format,bf,bsizes); if ( format==ff_cff || format==ff_cffcid ) { dumpcff(&at,sf,format,ttf); } else { if ( initTables(&at,sf,format,bsizes,bf)) dumpttf(ttf,&at); } switch_to_old_locale(&tmplocale, &oldlocale); // Switch to the cached locale. if ( at.error || ferror(ttf)) return( 0 ); #ifdef __CygWin /* Modern versions of windows want the execute bit set on a ttf file */ /* I've no idea what this corresponds to in windows, nor any idea on */ /* how to set it from the windows UI, but this seems to work */ { struct stat buf; fstat(fileno(ttf),&buf); fchmod(fileno(ttf),S_IXUSR | buf.st_mode ); } #endif return( 1 ); } int WriteTTFFont(char *fontname,SplineFont *sf,enum fontformat format, int32 *bsizes, enum bitmapformat bf,int flags,EncMap *map, int layer) { FILE *ttf; int ret; if ( strstr(fontname,"://")!=NULL ) { if (( ttf = tmpfile2())==NULL ) return( 0 ); } else { if (( ttf=fopen(fontname,"wb+"))==NULL ) return( 0 ); } ret = _WriteTTFFont(ttf,sf,format,bsizes,bf,flags,map,layer); if ( ret && (flags&ttf_flag_glyphmap) ) DumpGlyphToNameMap(fontname,sf); if ( fclose(ttf)==-1 ) return( 0 ); return( ret ); } /* ************************************************************************** */ /* ****************************** Type42 stuff ****************************** */ /* ************************************************************************** */ /* ******************************* TTC stuff ******************************** */ /* ************************************************************************** */ typedef struct splinecharlist *UHash[65536]; typedef struct splinecharlist *NHash[257]; static unsigned int hashname(const char *name) { unsigned int hash = 0; while ( *name ) { unsigned int extra = (hash>>27); hash<<=5; hash += *name&0x1f; hash ^= extra; ++name; } return( hash % 257 ); } static int glyphmatches(SplineChar *sc,SplineChar *sc2,int layer) { RefChar *r, *r2; SplineSet *ss, *ss2; SplinePoint *sp, *sp2; if ( sc->width!=sc2->width ) return( false ); if ( sc->ttf_instrs_len != sc2->ttf_instrs_len ) return( false ); if ( sc->ttf_instrs_len!=0 && memcmp(sc->ttf_instrs,sc2->ttf_instrs,sc->ttf_instrs_len)!=0 ) return( false ); for ( r=sc->layers[layer].refs, r2=sc2->layers[layer].refs; r!=NULL && r2!=NULL; r = r->next, r2 = r2->next ) { if ( r->transform[0] != r2->transform[0] || r->transform[1] != r2->transform[1] || r->transform[2] != r2->transform[2] || r->transform[3] != r2->transform[3] || r->transform[4] != r2->transform[4] || r->transform[5] != r2->transform[5] ) return( false ); if ( r->sc->unicodeenc!=r2->sc->unicodeenc ) return( false ); if ( r->sc->unicodeenc==-1 && strcmp(r->sc->name,r2->sc->name)!=0 ) return( false ); } if ( r!=NULL || r2!=NULL ) return( false ); for ( ss=sc->layers[layer].splines, ss2=sc2->layers[layer].splines; ss!=NULL && ss2!=NULL; ss = ss->next, ss2 = ss2->next ) { for ( sp=ss->first, sp2=ss2->first; sp!=NULL && sp2!=NULL; ) { if ( sp->me.x != sp2->me.x || sp->me.y != sp2->me.y || sp->nextcp.x != sp2->nextcp.x || sp->nextcp.y != sp2->nextcp.y || sp->prevcp.x != sp2->prevcp.x || sp->prevcp.y != sp2->prevcp.y ) return( false ); sp = (sp->next ? sp->next->to : NULL); sp2 = (sp2->next ? sp2->next->to : NULL); if ( sp==ss->first ) { if ( sp2==ss2->first ) break; return( false ); } else if ( sp2==ss2->first ) return( false ); } if (( sp==NULL && sp2!=NULL ) || ( sp!=NULL && sp2==NULL )) return( false ); } if ( ss==NULL && ss2==NULL ) return( true ); return( false ); } static SplineChar *hashglyphfound(SplineChar *sc,UHash *uhash,NHash *nhash,int layer) { int hash; struct splinecharlist *test; struct altuni *alt; /* the unicodeenc might be unset and we might still have altunis if the */ /* glyph is controlled by a variant selector */ if ( sc->unicodeenc==-1 && sc->altuni==NULL ) { hash = hashname(sc->name); for ( test=(*nhash)[hash]; test!=NULL; test=test->next ) if ( strcmp(test->sc->name,sc->name)==0 && glyphmatches(sc,test->sc,layer)) return( test->sc ); } else if ( sc->unicodeenc!=-1 ) { hash = sc->unicodeenc&0xffff; for ( test=(*uhash)[hash]; test!=NULL; test=test->next ) if ( glyphmatches(sc,test->sc,layer)) return( test->sc ); } for ( alt=sc->altuni; alt!=NULL; alt=alt->next ) { hash = alt->unienc&0xffff; for ( test=(*uhash)[hash]; test!=NULL; test=test->next ) if ( glyphmatches(sc,test->sc,layer)) return( test->sc ); } return( NULL ); } static void hashglyphadd(SplineChar *sc,UHash *uhash,NHash *nhash) { int hash; struct splinecharlist *test; struct altuni *alt; if ( sc->unicodeenc==-1 && sc->altuni==NULL ) { hash = hashname(sc->name); test = chunkalloc(sizeof(struct splinecharlist)); test->sc = sc; test->next = (*nhash)[hash]; (*nhash)[hash] = test; } else if ( sc->unicodeenc!=-1 ) { hash = sc->unicodeenc&0xffff; test = chunkalloc(sizeof(struct splinecharlist)); test->sc = sc; test->next = (*uhash)[hash]; (*uhash)[hash] = test; } for ( alt=sc->altuni; alt!=NULL; alt=alt->next ) { hash = alt->unienc&0xffff; test = chunkalloc(sizeof(struct splinecharlist)); test->sc = sc; test->next = (*uhash)[hash]; (*uhash)[hash] = test; } } static struct alltabs *ttc_prep(struct sflist *sfs, enum fontformat format, enum bitmapformat bf,int flags, int layer,SplineFont *dummysf) { struct alltabs *ret; int fcnt, cnt, gcnt=3; struct sflist *sfitem; int emsize = -1; UHash *uhash; /* hash glyphs by unicode */ NHash *nhash; /* hash glyphs by name if no unicode */ int anyvmetrics = false; int *bygid; SplineFont *sf; SplineChar *sc, *test; int i, aborted; for ( sfitem= sfs, cnt=0; sfitem!=NULL; sfitem=sfitem->next, ++cnt ) { sf = sfitem->sf; /* to share the same 'head' table all must be the same emsize */ if ( emsize==-1 ) emsize = sf->ascent + sf->descent; else if ( emsize != sf->ascent + sf->descent ) return( NULL ); if ( format==ff_otf && !PSDictSame(sf->private,sfs->sf->private)) return( NULL ); if ( sf->hasvmetrics ) anyvmetrics = true; for ( i=0; iglyphcnt; ++i ) if ( (sc = sf->glyphs[i])!=NULL ) sc->ttf_glyph = -1; gcnt += sf->glyphcnt; } if ( cnt==0 ) return( NULL ); fcnt = cnt; uhash = calloc(1,sizeof(UHash)); nhash = calloc(1,sizeof(NHash)); *dummysf = *sfs->sf; dummysf->glyphmax = gcnt; dummysf->glyphs = calloc(gcnt,sizeof(SplineChar *)); dummysf->glyphcnt = 0; dummysf->hasvmetrics = anyvmetrics; bygid = malloc((gcnt+3)*sizeof(int)); memset(bygid,0xff, (gcnt+3)*sizeof(int)); for ( sfitem= sfs; sfitem!=NULL; sfitem=sfitem->next ) { AssignNotdefNull(sfitem->sf,bygid,false); if ( bygid[0]!=-1 && dummysf->glyphs[0]==NULL ) { dummysf->glyphs[0] = sfitem->sf->glyphs[bygid[0]]; bygid[0]=0; } if ( format==ff_ttf ) { if ( bygid[1]!=-1 && dummysf->glyphs[1]==NULL ) { dummysf->glyphs[1] = sfitem->sf->glyphs[bygid[1]]; bygid[1]=1; } if ( bygid[2]!=-1 && dummysf->glyphs[2]==NULL ) { dummysf->glyphs[2] = sfitem->sf->glyphs[bygid[2]]; bygid[2]=2; } if ( bygid[0]!=-1 && bygid[1]!=-1 && bygid[2]!=-1 ) break; } else { if ( bygid[0]!=-1 ) break; } } dummysf->glyphcnt = format==ff_ttf ? 3 : 1; ret = calloc(fcnt+2,sizeof(struct alltabs)); ATinit(&ret[fcnt],dummysf,sfs->map,flags&~ttf_flag_dummyDSIG, layer,format,bf,NULL); ret[fcnt].gi.ttc_composite_font = true; ATmaxpInit(&ret[fcnt],dummysf,format); for ( sfitem= sfs, cnt=0; sfitem!=NULL; sfitem=sfitem->next, ++cnt ) { sf = sfitem->sf; ATinit(&ret[cnt],sf,sfitem->map,flags&~ttf_flag_dummyDSIG, layer,format,bf,sfitem->sizes); ret[cnt].gi.bygid = malloc((gcnt+3)*sizeof(int)); memset(ret[cnt].gi.bygid,-1,(gcnt+3)*sizeof(int)); for ( i=0; iglyphcnt; ++i ) { if ( SCWorthOutputting(sc = sf->glyphs[i])) { if ( sc->ttf_glyph==-1 ) { if ( strcmp(sc->name,".notdef")==0 ) sc->ttf_glyph = bygid[0]; else if ( format==ff_ttf && (strcmp(sf->glyphs[i]->name,".null")==0 || strcmp(sf->glyphs[i]->name,"uni0000")==0 || (i==1 && strcmp(sf->glyphs[1]->name,"glyph1")==0)) ) sc->ttf_glyph = bygid[1]; else if ( format==ff_ttf && (strcmp(sf->glyphs[i]->name,"nonmarkingreturn")==0 || strcmp(sf->glyphs[i]->name,"uni000D")==0 || (i==2 && strcmp(sf->glyphs[2]->name,"glyph2")==0))) sc->ttf_glyph = bygid[2]; else { test = hashglyphfound(sc,uhash,nhash,layer); if ( test!=NULL ) sc->ttf_glyph = test->ttf_glyph; else { sc->ttf_glyph = dummysf->glyphcnt++; bygid[sc->ttf_glyph] = sc->ttf_glyph; dummysf->glyphs[sc->ttf_glyph] = sc; hashglyphadd(sc,uhash,nhash); } } } if ( sc->ttf_glyph!=-1 ) { ret[cnt].gi.bygid[sc->ttf_glyph] = i; if ( sc->ttf_glyph>=ret[cnt].gi.gcnt ) ret[cnt].gi.gcnt = sc->ttf_glyph+1; } } if ( sc!=NULL ) sc->lsidebearing = 0x7fff; } MaxpFromTable(&ret[cnt],sf); if ( ret[cnt].maxp.maxZones > ret[fcnt].maxp.maxZones ) ret[fcnt].maxp.maxZones = ret[cnt].maxp.maxZones; if ( ret[cnt].maxp.maxTwilightPts > ret[fcnt].maxp.maxTwilightPts ) ret[fcnt].maxp.maxTwilightPts = ret[cnt].maxp.maxTwilightPts; if ( ret[cnt].maxp.maxStorage > ret[fcnt].maxp.maxStorage ) ret[fcnt].maxp.maxStorage = ret[cnt].maxp.maxStorage; if ( ret[cnt].maxp.maxFDEFs > ret[fcnt].maxp.maxFDEFs ) ret[fcnt].maxp.maxFDEFs = ret[cnt].maxp.maxFDEFs; if ( ret[cnt].maxp.maxIDEFs > ret[fcnt].maxp.maxIDEFs ) ret[fcnt].maxp.maxIDEFs = ret[cnt].maxp.maxIDEFs; if ( ret[cnt].maxp.maxStack > ret[fcnt].maxp.maxStack ) ret[fcnt].maxp.maxStack = ret[cnt].maxp.maxStack; } free(uhash); free(nhash); if ( dummysf->glyphcnt>0xffff ) { free(dummysf->glyphs); free(bygid); for ( sfitem= sfs, cnt=0; sfitem!=NULL; sfitem=sfitem->next, ++cnt ) free(ret[cnt].gi.bygid); free(ret); return( NULL ); } ret[fcnt].gi.fixed_width = CIDOneWidth(sf); ret[fcnt].gi.bygid = bygid; ret[fcnt].gi.gcnt = ret[fcnt].maxp.numGlyphs = dummysf->glyphcnt; if ( format==ff_ttf ) aborted = !dumpglyphs(dummysf,&ret[cnt].gi); else aborted = !dumptype2glyphs(dummysf,&ret[cnt]); if ( aborted ) { free(dummysf->glyphs); free(bygid); for ( sfitem= sfs, cnt=0; sfitem!=NULL; sfitem=sfitem->next, ++cnt ) free(ret[cnt].gi.bygid); free(ret); return( NULL ); } sethhead(&ret[fcnt].hhead,&ret[fcnt].vhead,&ret[fcnt],dummysf); for ( sfitem= sfs, cnt=0; sfitem!=NULL; sfitem=sfitem->next, ++cnt ) ret[cnt].maxp = ret[fcnt].maxp; /* Just to get a timestamp for all other heads */ /* and to figure out whether 'loca' is 4byte or 2 */ sethead(&ret[fcnt].head,dummysf,&ret[fcnt],format,NULL); if ( format==ff_ttf ) redoloca(&ret[fcnt]); redohhead(&ret[fcnt],false); if ( dummysf->hasvmetrics ) redohhead(&ret[fcnt],true); ttf_fftm_dump(dummysf,&ret[fcnt]); return( ret ); } static FILE *checkdupstoredtable(SplineFont *sf,uint32 tag,int *len, struct alltabs *all, int me) { int i; struct ttf_table *tab = SFFindTable(sf,tag), *test; if ( tab==NULL ) { *len = 0; return( NULL ); } for ( i=0; ilen==tab->len && memcmp(test->data,tab->data,tab->len)==0 ) { *len = i; return( (FILE *) (intpt) -1 ); } } return( dumpstoredtable(sf,tag,len)); } static void ttc_perfonttables(struct alltabs *all, int me, int mainpos, enum fontformat format ) { struct alltabs *at = &all[me]; struct alltabs *tabsmain = &all[mainpos]; SplineFont *sf = at->sf; struct ttf_table *tab; at->gi.xmin = tabsmain->gi.xmin; at->gi.xmax = tabsmain->gi.xmax; at->gi.ymin = tabsmain->gi.ymin; at->gi.ymax = tabsmain->gi.ymax; at->gi.glyph_len = tabsmain->gi.glyph_len; at->gi.gcnt = tabsmain->maxp.numGlyphs; sethead(&at->head,sf,at,format,NULL); memcpy(at->head.modtime,tabsmain->head.modtime,sizeof(at->head.modtime)); memcpy(at->head.createtime,at->head.modtime,sizeof(at->head.modtime)); initATTables(at, sf, format); /* also name and OS/2 */ if ( format==ff_ttf ) { if ( sf->gasp_cnt!=0 || !SFHasInstructions(sf) ) dumpgasp(at, sf); at->fpgmf = checkdupstoredtable(sf,CHR('f','p','g','m'),&at->fpgmlen, all, me); at->prepf = checkdupstoredtable(sf,CHR('p','r','e','p'),&at->preplen, all, me); at->cvtf = checkdupstoredtable(sf,CHR('c','v','t',' '),&at->cvtlen, all, me); } for ( tab=sf->ttf_tab_saved; tab!=NULL; tab=tab->next ) tab->temp = dumpsavedtable(tab); { /* post table is expected to have names for every glyph (or none) even*/ /* those not used in this font. Now it might seem we could just share*/ /* the post table, but it also contains a few font specific things */ /* (italic angle, etc.) so dump one for each font and hope that we'll*/ /* be able to coalesce them later when we check if any tables are the*/ /* same across fonts */ int cnt = sf->glyphcnt; SplineChar **g = sf->glyphs; int *bygid = at->gi.bygid; sf->glyphcnt = tabsmain->sf->glyphcnt; sf->glyphs = tabsmain->sf->glyphs; at->gi.bygid = tabsmain->gi.bygid; dumppost(at,sf,format); sf->glyphcnt = cnt; sf->glyphs = g; at->gi.bygid = bygid; } dumpcmap(at,sf,format); redohead(at); pfed_dump(at,sf); tex_dump(at,sf); /* These tables are always to be shared and are found in the extra structure */ /* called main */ if ( format==ff_ttf ) { at->loca = (void *) (intpt) -1; at->localen = mainpos; at->gi.glyphs = (void *) (intpt) -1; at->gi.glyph_len = mainpos; } else { at->cfff = (void *) (intpt) -1; at->cfflen = mainpos; } at->fftmf = (void *) (intpt) -1; at->fftmlen = mainpos; at->hheadf = (void *) (intpt) -1; at->hheadlen = mainpos; at->gi.hmtx = (void *) (intpt) -1; at->gi.hmtxlen = mainpos; at->maxpf = (void *) (intpt) -1; at->maxplen = mainpos; if ( all[mainpos].vheadf!=NULL ) { at->vheadf = (void *) (intpt) -1; at->vheadlen = mainpos; at->gi.vmtx = (void *) (intpt) -1; at->gi.vmtxlen = mainpos; } free(at->gi.bygid); } static int tablefilematch(struct taboff *tab,FILE *ttc,struct alltabs *all,int pos) { int i, ch1, ch2; struct taboff *test; unsigned len; /* See if this table (which lives in its own file) matches any tables */ /* with the same tag in an earlier font */ for ( i=0; itag); if ( test==NULL || test->data==(void *) (intpt) -1 || test->length!=tab->length ) continue; rewind(tab->data); fseek(ttc,test->offset,SEEK_SET); for ( len=0; lenlength && (ch1=getc(tab->data))!=EOF && (ch2=getc(ttc))!=EOF; ++len ) { if ( ch1!=ch2 ) break; } if ( len==tab->length ) { rewind(tab->data); fseek(ttc,0,SEEK_END); return( i ); } } rewind(tab->data); fseek(ttc,0,SEEK_END); return( -1 ); } static void ttc_dump(FILE *ttc,struct alltabs *all, enum fontformat format, int flags, enum ttc_flags ttc_flags ) { int i,j,cnt,tot,ch,dup; int offset, startoffset; struct taboff *tab; for ( cnt=0; all[cnt].sf!=NULL; ++cnt ); --cnt; /* Last one is dummysf */ putlong(ttc,CHR('t','t','c','f')); if ( flags&ttf_flag_dummyDSIG ) { putlong(ttc,0x00020000); startoffset = 4*(3+cnt+4); } else { putlong(ttc,0x00010000); startoffset = 4*(3+cnt); } putlong(ttc,cnt); offset = startoffset; for ( i=0; ioffset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; tab = findtabindir(&all[cnt].tabdir,CHR('v','h','e','a')); if ( tab!=NULL ) { tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; } tab = findtabindir(&all[cnt].tabdir,CHR('m','a','x','p')); tab->offset = ftell(ttc); for ( i=0; i<64; ++i ) /* maxp table is 64 bytes, fill in later */ putc('\0', ttc); tab = findtabindir(&all[cnt].tabdir,CHR('F','F','T','M')); tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; for ( i=0; iglyphs); free(all[cnt].gi.bygid); /* Now dump the big shared tables */ tab = findtabindir(&all[cnt].tabdir,CHR('h','m','t','x')); tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; tab = findtabindir(&all[cnt].tabdir,CHR('v','m','t','x')); if ( tab!=NULL ) { tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; } if ( format==ff_ttf ) { tab = findtabindir(&all[cnt].tabdir,CHR('l','o','c','a')); tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; tab = findtabindir(&all[cnt].tabdir,CHR('g','l','y','f')); tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; } else { tab = findtabindir(&all[cnt].tabdir,CHR('C','F','F',' ')); tab->offset = ftell(ttc); tab->checksum = filechecksum(tab->data); if ( !ttfcopyfile(ttc,tab->data, tab->offset,Tag2String(tab->tag))) all[cnt].error = true; } /* Do maxp last, in case generating other tables changed it */ redomaxp(&all[cnt],format); tab = findtabindir(&all[cnt].tabdir,CHR('m','a','x','p')); fseek(ttc,tab->offset,SEEK_SET); tab->checksum = filechecksum(all[cnt].maxpf); tab->length = all[cnt].maxplen; rewind(all[cnt].maxpf); while ( (ch=getc(all[cnt].maxpf))!=EOF ) putc(ch,ttc); /* Now output the font headers */ for ( offset=startoffset, i=0; itabdir.numtab; ++j ) { struct taboff *curtab = &at->tabdir.tabs[j]; if ( curtab->data == (void *) (intpt) -1 ) { tab = findtabindir(&all[curtab->length].tabdir,curtab->tag); if ( tab==NULL ) { IError("Failed to find tab"); curtab->length = 0; curtab->offset = 0; curtab->checksum = 0; } else { curtab->offset = tab->offset; curtab->length = tab->length; curtab->checksum = tab->checksum; } } } fseek(ttc,offset,SEEK_SET); /* Put in alphabetic order */ for ( j=0; jtabdir.numtab; ++j ) at->tabdir.alpha[j] = &at->tabdir.tabs[j]; qsort(at->tabdir.alpha,at->tabdir.numtab,sizeof(struct taboff *),tagcomp); putlong(ttc,at->tabdir.version); putshort(ttc,at->tabdir.numtab); putshort(ttc,at->tabdir.searchRange); putshort(ttc,at->tabdir.entrySel); putshort(ttc,at->tabdir.rangeShift); for ( j=0; jtabdir.numtab; ++j ) { putlong(ttc,at->tabdir.alpha[j]->tag); putlong(ttc,at->tabdir.alpha[j]->checksum); putlong(ttc,at->tabdir.alpha[j]->offset); putlong(ttc,at->tabdir.alpha[j]->length); } } tab = findtabindir(&all[0].tabdir,CHR('h','e','a','d')); if ( tab!=NULL ) { /* As far as I can tell the file checksum is ignored */ int checksum; checksum = filechecksum(ttc); checksum = 0xb1b0afba-checksum; fseek(ttc,tab->offset+2*sizeof(int32),SEEK_SET); putlong(ttc,checksum); } } static void CopySFNTAndFixup(FILE *ttc,FILE *ttf) { /* ttf contains a truetype file which we want to copy into ttc */ /* Mostly this is just a dump copy, but the offset table at the */ /* start of the file must be adjusted to reflect the absolute */ /* locations of the tables in the ttc */ int offset = ftell(ttc); int val, table_cnt, i; fseek(ttf,0,SEEK_SET); val = getlong(ttf); putlong(ttc,val); /* sfnt version */ table_cnt = getushort(ttf); putshort(ttc,table_cnt); val = getushort(ttf); putshort(ttc,val); val = getushort(ttf); putshort(ttc,val); val = getushort(ttf); putshort(ttc,val); for ( i=0; inext, ++cnt ) { sfitem->tempttf = tmpfile2(); if ( sfitem->tempttf==NULL ) ok=0; else ok = _WriteTTFFont(sfitem->tempttf,sfitem->sf,format,sfitem->sizes, bf,flags&~ttf_flag_dummyDSIG,sfitem->map,layer); if ( !ok ) { for ( sfi2=sfs; sfi2!=NULL; sfi2 = sfi2->next ) if ( sfi2->tempttf!=NULL ) fclose(sfi2->tempttf ); fclose(ttc); return( true ); } fseek(sfitem->tempttf,0,SEEK_END); sfitem->len = ftell(sfitem->tempttf); } putlong(ttc,CHR('t','t','c','f')); if ( flags&ttf_flag_dummyDSIG ) { putlong(ttc,0x00020000); offset = 4*(3+cnt+4); } else { putlong(ttc,0x00010000); offset = 4*(3+cnt); } putlong(ttc,cnt); for ( sfitem= sfs; sfitem!=NULL; sfitem=sfitem->next ) { putlong(ttc,offset); offset += ((sfitem->len+3)>>2)<<2; /* Align on 4 byte boundary */ } if ( flags&ttf_flag_dummyDSIG ) { putlong(ttc,CHR('D','S','I','G')); putlong(ttc,8); /* Length of dummy DSIG table */ putlong(ttc,0x00000001); /* Standard DSIG version */ putlong(ttc,0); /* No Signatures, no flags */ } for ( sfitem= sfs; sfitem!=NULL; sfitem=sfitem->next ) CopySFNTAndFixup(ttc,sfitem->tempttf); if ( ftell(ttc)!=offset ) IError("Miscalculated offsets in ttc"); } else if ( ferror(ttc)) ok = false; if ( fclose(ttc)==-1 ) ok = false; if ( !ok ) LogError(_("Something went wrong")); return( ok ); }