//======================================================================== // // GfxFont.cc // // Copyright 1996-2003 Glyph & Cog, LLC // //======================================================================== #include #ifdef USE_GCC_PRAGMAS #pragma implementation #endif #include #include #include #include #include "gmem.h" #include "Error.h" #include "Object.h" #include "Dict.h" #include "GlobalParams.h" #include "CMap.h" #include "CharCodeToUnicode.h" #include "FontEncodingTables.h" #include "BuiltinFontTables.h" #include "FontFile.h" #include "GfxFont.h" //------------------------------------------------------------------------ struct StdFontMapEntry { char *altName; char *properName; }; // Acrobat 4.0 and earlier substituted Base14-compatible fonts without // providing Widths and a FontDescriptor, so we munge the names into // the proper Base14 names. This table is from implementation note 44 // in the PDF 1.4 spec, with some additions based on empirical // evidence. static StdFontMapEntry stdFontMap[] = { { "Arial", "Helvetica" }, { "Arial,Bold", "Helvetica-Bold" }, { "Arial,BoldItalic", "Helvetica-BoldOblique" }, { "Arial,Italic", "Helvetica-Oblique" }, { "Arial-Bold", "Helvetica-Bold" }, { "Arial-BoldItalic", "Helvetica-BoldOblique" }, { "Arial-BoldItalicMT", "Helvetica-BoldOblique" }, { "Arial-BoldMT", "Helvetica-Bold" }, { "Arial-Italic", "Helvetica-Oblique" }, { "Arial-ItalicMT", "Helvetica-Oblique" }, { "ArialMT", "Helvetica" }, { "Courier,Bold", "Courier-Bold" }, { "Courier,Italic", "Courier-Oblique" }, { "Courier,BoldItalic", "Courier-BoldOblique" }, { "CourierNew", "Courier" }, { "CourierNew,Bold", "Courier-Bold" }, { "CourierNew,BoldItalic", "Courier-BoldOblique" }, { "CourierNew,Italic", "Courier-Oblique" }, { "CourierNew-Bold", "Courier-Bold" }, { "CourierNew-BoldItalic", "Courier-BoldOblique" }, { "CourierNew-Italic", "Courier-Oblique" }, { "CourierNewPS-BoldItalicMT", "Courier-BoldOblique" }, { "CourierNewPS-BoldMT", "Courier-Bold" }, { "CourierNewPS-ItalicMT", "Courier-Oblique" }, { "CourierNewPSMT", "Courier" }, { "Helvetica,Bold", "Helvetica-Bold" }, { "Helvetica,BoldItalic", "Helvetica-BoldOblique" }, { "Helvetica,Italic", "Helvetica-Oblique" }, { "Helvetica-BoldItalic", "Helvetica-BoldOblique" }, { "Helvetica-Italic", "Helvetica-Oblique" }, { "Symbol,Bold", "Symbol" }, { "Symbol,BoldItalic", "Symbol" }, { "Symbol,Italic", "Symbol" }, { "TimesNewRoman", "Times-Roman" }, { "TimesNewRoman,Bold", "Times-Bold" }, { "TimesNewRoman,BoldItalic", "Times-BoldItalic" }, { "TimesNewRoman,Italic", "Times-Italic" }, { "TimesNewRoman-Bold", "Times-Bold" }, { "TimesNewRoman-BoldItalic", "Times-BoldItalic" }, { "TimesNewRoman-Italic", "Times-Italic" }, { "TimesNewRomanPS", "Times-Roman" }, { "TimesNewRomanPS-Bold", "Times-Bold" }, { "TimesNewRomanPS-BoldItalic", "Times-BoldItalic" }, { "TimesNewRomanPS-BoldItalicMT", "Times-BoldItalic" }, { "TimesNewRomanPS-BoldMT", "Times-Bold" }, { "TimesNewRomanPS-Italic", "Times-Italic" }, { "TimesNewRomanPS-ItalicMT", "Times-Italic" }, { "TimesNewRomanPSMT", "Times-Roman" } }; //------------------------------------------------------------------------ // GfxFont //------------------------------------------------------------------------ GfxFont *GfxFont::makeFont(XRef *xref, char *tagA, Ref idA, Dict *fontDict) { GString *nameA; GfxFont *font; Object obj1; // get base font name nameA = NULL; fontDict->lookup("BaseFont", &obj1); if (obj1.isName()) { nameA = new GString(obj1.getName()); } obj1.free(); // get font type font = NULL; fontDict->lookup("Subtype", &obj1); if (obj1.isName("Type1") || obj1.isName("MMType1")) { font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType1, fontDict); } else if (obj1.isName("Type1C")) { font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType1C, fontDict); } else if (obj1.isName("Type3")) { font = new Gfx8BitFont(xref, tagA, idA, nameA, fontType3, fontDict); } else if (obj1.isName("TrueType")) { font = new Gfx8BitFont(xref, tagA, idA, nameA, fontTrueType, fontDict); } else if (obj1.isName("Type0")) { font = new GfxCIDFont(xref, tagA, idA, nameA, fontDict); } else { error(-1, "Unknown font type: '%s'", obj1.isName() ? obj1.getName() : "???"); font = new Gfx8BitFont(xref, tagA, idA, nameA, fontUnknownType, fontDict); } obj1.free(); return font; } GfxFont::GfxFont(char *tagA, Ref idA, GString *nameA) { ok = gFalse; tag = new GString(tagA); id = idA; name = nameA; embFontName = NULL; extFontFile = NULL; } GfxFont::~GfxFont() { delete tag; if (name) { delete name; } if (embFontName) { delete embFontName; } if (extFontFile) { delete extFontFile; } } void GfxFont::readFontDescriptor(XRef *xref, Dict *fontDict) { Object obj1, obj2, obj3, obj4; double t; int i; // assume Times-Roman by default (for substitution purposes) flags = fontSerif; embFontID.num = -1; embFontID.gen = -1; missingWidth = 0; if (fontDict->lookup("FontDescriptor", &obj1)->isDict()) { // get flags if (obj1.dictLookup("Flags", &obj2)->isInt()) { flags = obj2.getInt(); } obj2.free(); // get name obj1.dictLookup("FontName", &obj2); if (obj2.isName()) { embFontName = new GString(obj2.getName()); } obj2.free(); // look for embedded font file if (obj1.dictLookupNF("FontFile", &obj2)->isRef()) { if (type == fontType1) { embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } obj2.free(); if (embFontID.num == -1 && obj1.dictLookupNF("FontFile2", &obj2)->isRef()) { if (type == fontTrueType || type == fontCIDType2) { embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } obj2.free(); if (embFontID.num == -1 && obj1.dictLookupNF("FontFile3", &obj2)->isRef()) { if (obj2.fetch(xref, &obj3)->isStream()) { obj3.streamGetDict()->lookup("Subtype", &obj4); if (obj4.isName("Type1")) { if (type == fontType1) { embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } else if (obj4.isName("Type1C")) { if (type == fontType1) { type = fontType1C; embFontID = obj2.getRef(); } else if (type == fontType1C) { embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } else if (obj4.isName("TrueType")) { if (type == fontTrueType) { embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } else if (obj4.isName("CIDFontType0C")) { if (type == fontCIDType0) { type = fontCIDType0C; embFontID = obj2.getRef(); } else { error(-1, "Mismatch between font type and embedded font file"); } } else { error(-1, "Unknown embedded font type '%s'", obj4.isName() ? obj4.getName() : "???"); } obj4.free(); } obj3.free(); } obj2.free(); // look for MissingWidth obj1.dictLookup("MissingWidth", &obj2); if (obj2.isNum()) { missingWidth = obj2.getNum(); } obj2.free(); // get Ascent and Descent obj1.dictLookup("Ascent", &obj2); if (obj2.isNum()) { t = 0.001 * obj2.getNum(); // some broken font descriptors set ascent and descent to 0 if (t != 0) { ascent = t; } } obj2.free(); obj1.dictLookup("Descent", &obj2); if (obj2.isNum()) { t = 0.001 * obj2.getNum(); // some broken font descriptors set ascent and descent to 0 if (t != 0) { descent = t; } // some broken font descriptors specify a positive descent if (descent > 0) { descent = -descent; } } obj2.free(); // font FontBBox if (obj1.dictLookup("FontBBox", &obj2)->isArray()) { for (i = 0; i < 4 && i < obj2.arrayGetLength(); ++i) { if (obj2.arrayGet(i, &obj3)->isNum()) { fontBBox[i] = 0.001 * obj3.getNum(); } obj3.free(); } } obj2.free(); } obj1.free(); } CharCodeToUnicode *GfxFont::readToUnicodeCMap(Dict *fontDict, int nBits) { CharCodeToUnicode *ctu; GString *buf; Object obj1; int c; if (!fontDict->lookup("ToUnicode", &obj1)->isStream()) { obj1.free(); return NULL; } buf = new GString(); obj1.streamReset(); while ((c = obj1.streamGetChar()) != EOF) { buf->append(c); } obj1.streamClose(); obj1.free(); ctu = CharCodeToUnicode::parseCMap(buf, nBits); delete buf; return ctu; } void GfxFont::findExtFontFile() { static char *type1Exts[] = { ".pfa", ".pfb", ".ps", "", NULL }; static char *ttExts[] = { ".ttf", NULL }; if (name) { if (type == fontType1) { extFontFile = globalParams->findFontFile(name, type1Exts); } else if (type == fontTrueType) { extFontFile = globalParams->findFontFile(name, ttExts); } } } char *GfxFont::readExtFontFile(int *len) { FILE *f; char *buf; if (!(f = fopen(extFontFile->getCString(), "rb"))) { error(-1, "External font file '%s' vanished", extFontFile->getCString()); return NULL; } fseek(f, 0, SEEK_END); *len = (int)ftell(f); fseek(f, 0, SEEK_SET); buf = (char *)gmalloc(*len); if ((int)fread(buf, 1, *len, f) != *len) { error(-1, "Error reading external font file '%s'", extFontFile); } fclose(f); return buf; } char *GfxFont::readEmbFontFile(XRef *xref, int *len) { char *buf; Object obj1, obj2; Stream *str; int c; int size, i; obj1.initRef(embFontID.num, embFontID.gen); obj1.fetch(xref, &obj2); if (!obj2.isStream()) { error(-1, "Embedded font file is not a stream"); obj2.free(); obj1.free(); embFontID.num = -1; return NULL; } str = obj2.getStream(); buf = NULL; i = size = 0; str->reset(); while ((c = str->getChar()) != EOF) { if (i == size) { size += 4096; buf = (char *)grealloc(buf, size); } buf[i++] = c; } *len = i; str->close(); obj2.free(); obj1.free(); return buf; } //------------------------------------------------------------------------ // Gfx8BitFont //------------------------------------------------------------------------ Gfx8BitFont::Gfx8BitFont(XRef *xref, char *tagA, Ref idA, GString *nameA, GfxFontType typeA, Dict *fontDict): GfxFont(tagA, idA, nameA) { BuiltinFont *builtinFont; char **baseEnc; GBool baseEncFromFontFile; char *buf; int len; FontFile *fontFile; int code, code2; char *charName; GBool missing, hex; Unicode toUnicode[256]; double mul; int firstChar, lastChar; Gushort w; Object obj1, obj2, obj3; int n, i, a, b, m; type = typeA; ctu = NULL; // do font name substitution for various aliases of the Base 14 font // names if (name) { a = 0; b = sizeof(stdFontMap) / sizeof(StdFontMapEntry); // invariant: stdFontMap[a].altName <= name < stdFontMap[b].altName while (b - a > 1) { m = (a + b) / 2; if (name->cmp(stdFontMap[m].altName) >= 0) { a = m; } else { b = m; } } if (!name->cmp(stdFontMap[a].altName)) { delete name; name = new GString(stdFontMap[a].properName); } } // is it a built-in font? builtinFont = NULL; if (name) { for (i = 0; i < nBuiltinFonts; ++i) { if (!name->cmp(builtinFonts[i].name)) { builtinFont = &builtinFonts[i]; break; } } } // default ascent/descent values if (builtinFont) { ascent = 0.001 * builtinFont->ascent; descent = 0.001 * builtinFont->descent; fontBBox[0] = 0.001 * builtinFont->bbox[0]; fontBBox[1] = 0.001 * builtinFont->bbox[1]; fontBBox[2] = 0.001 * builtinFont->bbox[2]; fontBBox[3] = 0.001 * builtinFont->bbox[3]; } else { ascent = 0.95; descent = -0.35; fontBBox[0] = fontBBox[1] = fontBBox[2] = fontBBox[3] = 0; } // get info from font descriptor readFontDescriptor(xref, fontDict); // look for an external font file findExtFontFile(); // get font matrix fontMat[0] = fontMat[3] = 1; fontMat[1] = fontMat[2] = fontMat[4] = fontMat[5] = 0; if (fontDict->lookup("FontMatrix", &obj1)->isArray()) { for (i = 0; i < 6 && i < obj1.arrayGetLength(); ++i) { if (obj1.arrayGet(i, &obj2)->isNum()) { fontMat[i] = obj2.getNum(); } obj2.free(); } } obj1.free(); // get Type 3 bounding box, font definition, and resources if (type == fontType3) { if (fontDict->lookup("FontBBox", &obj1)->isArray()) { for (i = 0; i < 4 && i < obj1.arrayGetLength(); ++i) { if (obj1.arrayGet(i, &obj2)->isNum()) { fontBBox[i] = obj2.getNum(); } obj2.free(); } } obj1.free(); if (!fontDict->lookup("CharProcs", &charProcs)->isDict()) { error(-1, "Missing or invalid CharProcs dictionary in Type 3 font"); charProcs.free(); } if (!fontDict->lookup("Resources", &resources)->isDict()) { resources.free(); } } //----- build the font encoding ----- // Encodings start with a base encoding, which can come from // (in order of priority): // 1. FontDict.Encoding or FontDict.Encoding.BaseEncoding // - MacRoman / MacExpert / WinAnsi / Standard // 2. embedded or external font file // 3. default: // - builtin --> builtin encoding // - TrueType --> MacRomanEncoding // - others --> StandardEncoding // and then add a list of differences (if any) from // FontDict.Encoding.Differences. // check FontDict for base encoding hasEncoding = gFalse; baseEnc = NULL; baseEncFromFontFile = gFalse; fontDict->lookup("Encoding", &obj1); if (obj1.isDict()) { obj1.dictLookup("BaseEncoding", &obj2); if (obj2.isName("MacRomanEncoding")) { hasEncoding = gTrue; baseEnc = macRomanEncoding; } else if (obj2.isName("MacExpertEncoding")) { hasEncoding = gTrue; baseEnc = macExpertEncoding; } else if (obj2.isName("WinAnsiEncoding")) { hasEncoding = gTrue; baseEnc = winAnsiEncoding; } else if (obj2.isName("StandardEncoding")) { hasEncoding = gTrue; baseEnc = standardEncoding; } obj2.free(); } else if (obj1.isName("MacRomanEncoding")) { hasEncoding = gTrue; baseEnc = macRomanEncoding; } else if (obj1.isName("MacExpertEncoding")) { hasEncoding = gTrue; baseEnc = macExpertEncoding; } else if (obj1.isName("WinAnsiEncoding")) { hasEncoding = gTrue; baseEnc = winAnsiEncoding; } else if (obj1.isName("StandardEncoding")) { hasEncoding = gTrue; baseEnc = standardEncoding; } // check embedded or external font file for base encoding // (only for Type 1 fonts - trying to get an encoding out of a // TrueType font is a losing proposition) fontFile = NULL; buf = NULL; if ((type == fontType1 || type == fontType1C) && (extFontFile || embFontID.num >= 0)) { if (extFontFile) { buf = readExtFontFile(&len); } else { buf = readEmbFontFile(xref, &len); } if (buf) { if (type == fontType1C && !strncmp(buf, "%!", 2)) { // various tools (including Adobe's) occasionally embed Type 1 // fonts but label them Type 1C type = fontType1; } if (type == fontType1) { fontFile = new Type1FontFile(buf, len); } else { fontFile = new Type1CFontFile(buf, len); if (!((Type1CFontFile *)fontFile)->isOk()) { delete fontFile; fontFile = NULL; } } if (fontFile && fontFile->getName()) { if (embFontName) { delete embFontName; } embFontName = new GString(fontFile->getName()); } if (fontFile && !baseEnc) { baseEnc = fontFile->getEncoding(); baseEncFromFontFile = gTrue; } gfree(buf); } } // get default base encoding if (!baseEnc) { if (builtinFont) { baseEnc = builtinFont->defaultBaseEnc; hasEncoding = gTrue; } else if (type == fontTrueType) { baseEnc = winAnsiEncoding; } else { baseEnc = standardEncoding; } } // copy the base encoding for (i = 0; i < 256; ++i) { enc[i] = baseEnc[i]; if ((encFree[i] = baseEncFromFontFile) && enc[i]) { enc[i] = copyString(baseEnc[i]); } } // merge differences into encoding if (obj1.isDict()) { obj1.dictLookup("Differences", &obj2); if (obj2.isArray()) { hasEncoding = gTrue; code = 0; for (i = 0; i < obj2.arrayGetLength(); ++i) { obj2.arrayGet(i, &obj3); if (obj3.isInt()) { code = obj3.getInt(); } else if (obj3.isName()) { if (code < 256) { if (encFree[code]) { gfree(enc[code]); } enc[code] = copyString(obj3.getName()); encFree[code] = gTrue; } ++code; } else { error(-1, "Wrong type in font encoding resource differences (%s)", obj3.getTypeName()); } obj3.free(); } } obj2.free(); } obj1.free(); if (fontFile) { delete fontFile; } //----- build the mapping to Unicode ----- // look for a ToUnicode CMap if (!(ctu = readToUnicodeCMap(fontDict, 8))) { // no ToUnicode CMap, so use the char names // pass 1: use the name-to-Unicode mapping table missing = hex = gFalse; for (code = 0; code < 256; ++code) { if ((charName = enc[code])) { if (!(toUnicode[code] = globalParams->mapNameToUnicode(charName)) && strcmp(charName, ".notdef")) { // if it wasn't in the name-to-Unicode table, check for a // name that looks like 'Axx' or 'xx', where 'A' is any letter // and 'xx' is two hex digits if ((strlen(charName) == 3 && isalpha(charName[0]) && isxdigit(charName[1]) && isxdigit(charName[2]) && ((charName[1] >= 'a' && charName[1] <= 'f') || (charName[1] >= 'A' && charName[1] <= 'F') || (charName[2] >= 'a' && charName[2] <= 'f') || (charName[2] >= 'A' && charName[2] <= 'F'))) || (strlen(charName) == 2 && isxdigit(charName[0]) && isxdigit(charName[1]) && ((charName[0] >= 'a' && charName[0] <= 'f') || (charName[0] >= 'A' && charName[0] <= 'F') || (charName[1] >= 'a' && charName[1] <= 'f') || (charName[1] >= 'A' && charName[1] <= 'F')))) { hex = gTrue; } missing = gTrue; } } else { toUnicode[code] = 0; } } // pass 2: try to fill in the missing chars, looking for names of // the form 'Axx', 'xx', 'Ann', 'ABnn', or 'nn', where 'A' and 'B' // are any letters, 'xx' is two hex digits, and 'nn' is 2-4 // decimal digits if (missing && globalParams->getMapNumericCharNames()) { for (code = 0; code < 256; ++code) { if ((charName = enc[code]) && !toUnicode[code] && strcmp(charName, ".notdef")) { n = strlen(charName); code2 = -1; if (hex && n == 3 && isalpha(charName[0]) && isxdigit(charName[1]) && isxdigit(charName[2])) { sscanf(charName+1, "%x", &code2); } else if (hex && n == 2 && isxdigit(charName[0]) && isxdigit(charName[1])) { sscanf(charName, "%x", &code2); } else if (!hex && n >= 2 && n <= 4 && isdigit(charName[0]) && isdigit(charName[1])) { code2 = atoi(charName); } else if (n >= 3 && n <= 5 && isdigit(charName[1]) && isdigit(charName[2])) { code2 = atoi(charName+1); } else if (n >= 4 && n <= 6 && isdigit(charName[2]) && isdigit(charName[3])) { code2 = atoi(charName+2); } if (code2 >= 0 && code2 <= 0xff) { toUnicode[code] = (Unicode)code2; } } } } ctu = CharCodeToUnicode::make8BitToUnicode(toUnicode); } //----- get the character widths ----- // initialize all widths for (code = 0; code < 256; ++code) { widths[code] = missingWidth * 0.001; } // use widths from font dict, if present fontDict->lookup("FirstChar", &obj1); firstChar = obj1.isInt() ? obj1.getInt() : 0; obj1.free(); fontDict->lookup("LastChar", &obj1); lastChar = obj1.isInt() ? obj1.getInt() : 255; obj1.free(); mul = (type == fontType3) ? fontMat[0] : 0.001; fontDict->lookup("Widths", &obj1); if (obj1.isArray()) { flags |= fontFixedWidth; if (obj1.arrayGetLength() < lastChar - firstChar + 1) { lastChar = firstChar + obj1.arrayGetLength() - 1; } for (code = firstChar; code <= lastChar; ++code) { obj1.arrayGet(code - firstChar, &obj2); if (obj2.isNum()) { widths[code] = obj2.getNum() * mul; if (widths[code] != widths[firstChar]) { flags &= ~fontFixedWidth; } } obj2.free(); } // use widths from built-in font } else if (builtinFont) { // this is a kludge for broken PDF files that encode char 32 // as .notdef if (builtinFont->widths->getWidth("space", &w)) { widths[32] = 0.001 * w; } for (code = 0; code < 256; ++code) { if (enc[code] && builtinFont->widths->getWidth(enc[code], &w)) { widths[code] = 0.001 * w; } } // couldn't find widths -- use defaults } else { // this is technically an error -- the Widths entry is required // for all but the Base-14 fonts -- but certain PDF generators // apparently don't include widths for Arial and TimesNewRoman if (isFixedWidth()) { i = 0; } else if (isSerif()) { i = 8; } else { i = 4; } if (isBold()) { i += 2; } if (isItalic()) { i += 1; } builtinFont = builtinFontSubst[i]; // this is a kludge for broken PDF files that encode char 32 // as .notdef if (builtinFont->widths->getWidth("space", &w)) { widths[32] = 0.001 * w; } for (code = 0; code < 256; ++code) { if (enc[code] && builtinFont->widths->getWidth(enc[code], &w)) { widths[code] = 0.001 * w; } } } obj1.free(); ok = gTrue; } Gfx8BitFont::~Gfx8BitFont() { int i; for (i = 0; i < 256; ++i) { if (encFree[i] && enc[i]) { gfree(enc[i]); } } ctu->decRefCnt(); if (charProcs.isDict()) { charProcs.free(); } if (resources.isDict()) { resources.free(); } } int Gfx8BitFont::getNextChar(char *s, int len, CharCode *code, Unicode *u, int uSize, int *uLen, double *dx, double *dy, double *ox, double *oy) { CharCode c; *code = c = (CharCode)(*s & 0xff); *uLen = ctu->mapToUnicode(c, u, uSize); *dx = widths[c]; *dy = *ox = *oy = 0; return 1; } CharCodeToUnicode *Gfx8BitFont::getToUnicode() { ctu->incRefCnt(); return ctu; } Dict *Gfx8BitFont::getCharProcs() { return charProcs.isDict() ? charProcs.getDict() : (Dict *)NULL; } Object *Gfx8BitFont::getCharProc(int code, Object *proc) { if (charProcs.isDict()) { charProcs.dictLookup(enc[code], proc); } else { proc->initNull(); } return proc; } Dict *Gfx8BitFont::getResources() { return resources.isDict() ? resources.getDict() : (Dict *)NULL; } //------------------------------------------------------------------------ // GfxCIDFont //------------------------------------------------------------------------ static int CDECL cmpWidthExcep(const void *w1, const void *w2) { return ((GfxFontCIDWidthExcep *)w1)->first - ((GfxFontCIDWidthExcep *)w2)->first; } static int CDECL cmpWidthExcepV(const void *w1, const void *w2) { return ((GfxFontCIDWidthExcepV *)w1)->first - ((GfxFontCIDWidthExcepV *)w2)->first; } GfxCIDFont::GfxCIDFont(XRef *xref, char *tagA, Ref idA, GString *nameA, Dict *fontDict): GfxFont(tagA, idA, nameA) { Dict *desFontDict; GString *collection, *cMapName; Object desFontDictObj; Object obj1, obj2, obj3, obj4, obj5, obj6; int c1, c2; int excepsSize, i, j, k; ascent = 0.95; descent = -0.35; fontBBox[0] = fontBBox[1] = fontBBox[2] = fontBBox[3] = 0; cMap = NULL; ctu = NULL; widths.defWidth = 1.0; widths.defHeight = -1.0; widths.defVY = 0.880; widths.exceps = NULL; widths.nExceps = 0; widths.excepsV = NULL; widths.nExcepsV = 0; cidToGID = NULL; cidToGIDLen = 0; // get the descendant font if (!fontDict->lookup("DescendantFonts", &obj1)->isArray()) { error(-1, "Missing DescendantFonts entry in Type 0 font"); obj1.free(); goto err1; } if (!obj1.arrayGet(0, &desFontDictObj)->isDict()) { error(-1, "Bad descendant font in Type 0 font"); goto err3; } obj1.free(); desFontDict = desFontDictObj.getDict(); // font type if (!desFontDict->lookup("Subtype", &obj1)) { error(-1, "Missing Subtype entry in Type 0 descendant font"); goto err3; } if (obj1.isName("CIDFontType0")) { type = fontCIDType0; } else if (obj1.isName("CIDFontType2")) { type = fontCIDType2; } else { error(-1, "Unknown Type 0 descendant font type '%s'", obj1.isName() ? obj1.getName() : "???"); goto err3; } obj1.free(); // get info from font descriptor readFontDescriptor(xref, desFontDict); // look for an external font file findExtFontFile(); //----- encoding info ----- // char collection if (!desFontDict->lookup("CIDSystemInfo", &obj1)->isDict()) { error(-1, "Missing CIDSystemInfo dictionary in Type 0 descendant font"); goto err3; } obj1.dictLookup("Registry", &obj2); obj1.dictLookup("Ordering", &obj3); if (!obj2.isString() || !obj3.isString()) { error(-1, "Invalid CIDSystemInfo dictionary in Type 0 descendant font"); goto err4; } collection = obj2.getString()->copy()->append('-')->append(obj3.getString()); obj3.free(); obj2.free(); obj1.free(); // look for a ToUnicode CMap if (!(ctu = readToUnicodeCMap(fontDict, 16))) { // the "Adobe-Identity" and "Adobe-UCS" collections don't have // cidToUnicode files if (collection->cmp("Adobe-Identity") && collection->cmp("Adobe-UCS")) { // look for a user-supplied .cidToUnicode file if (!(ctu = globalParams->getCIDToUnicode(collection))) { error(-1, "Unknown character collection '%s'", collection->getCString()); delete collection; goto err2; } } } // encoding (i.e., CMap) //~ need to handle a CMap stream here //~ also need to deal with the UseCMap entry in the stream dict if (!fontDict->lookup("Encoding", &obj1)->isName()) { error(-1, "Missing or invalid Encoding entry in Type 0 font"); delete collection; goto err3; } cMapName = new GString(obj1.getName()); obj1.free(); if (!(cMap = globalParams->getCMap(collection, cMapName))) { error(-1, "Unknown CMap '%s' for character collection '%s'", cMapName->getCString(), collection->getCString()); delete collection; delete cMapName; goto err2; } delete collection; delete cMapName; // CIDToGIDMap (for embedded TrueType fonts) if (type == fontCIDType2) { desFontDict->lookup("CIDToGIDMap", &obj1); if (obj1.isStream()) { cidToGIDLen = 0; i = 64; cidToGID = (Gushort *)gmalloc(i * sizeof(Gushort)); obj1.streamReset(); while ((c1 = obj1.streamGetChar()) != EOF && (c2 = obj1.streamGetChar()) != EOF) { if (cidToGIDLen == i) { i *= 2; cidToGID = (Gushort *)grealloc(cidToGID, i * sizeof(Gushort)); } cidToGID[cidToGIDLen++] = (Gushort)((c1 << 8) + c2); } } else if (!obj1.isName("Identity") && !obj1.isNull()) { error(-1, "Invalid CIDToGIDMap entry in CID font"); } obj1.free(); } //----- character metrics ----- // default char width if (desFontDict->lookup("DW", &obj1)->isInt()) { widths.defWidth = obj1.getInt() * 0.001; } obj1.free(); // char width exceptions if (desFontDict->lookup("W", &obj1)->isArray()) { excepsSize = 0; i = 0; while (i + 1 < obj1.arrayGetLength()) { obj1.arrayGet(i, &obj2); obj1.arrayGet(i + 1, &obj3); if (obj2.isInt() && obj3.isInt() && i + 2 < obj1.arrayGetLength()) { if (obj1.arrayGet(i + 2, &obj4)->isNum()) { if (widths.nExceps == excepsSize) { excepsSize += 16; widths.exceps = (GfxFontCIDWidthExcep *) grealloc(widths.exceps, excepsSize * sizeof(GfxFontCIDWidthExcep)); } widths.exceps[widths.nExceps].first = obj2.getInt(); widths.exceps[widths.nExceps].last = obj3.getInt(); widths.exceps[widths.nExceps].width = obj4.getNum() * 0.001; ++widths.nExceps; } else { error(-1, "Bad widths array in Type 0 font"); } obj4.free(); i += 3; } else if (obj2.isInt() && obj3.isArray()) { if (widths.nExceps + obj3.arrayGetLength() > excepsSize) { excepsSize = (widths.nExceps + obj3.arrayGetLength() + 15) & ~15; widths.exceps = (GfxFontCIDWidthExcep *) grealloc(widths.exceps, excepsSize * sizeof(GfxFontCIDWidthExcep)); } j = obj2.getInt(); for (k = 0; k < obj3.arrayGetLength(); ++k) { if (obj3.arrayGet(k, &obj4)->isNum()) { widths.exceps[widths.nExceps].first = j; widths.exceps[widths.nExceps].last = j; widths.exceps[widths.nExceps].width = obj4.getNum() * 0.001; ++j; ++widths.nExceps; } else { error(-1, "Bad widths array in Type 0 font"); } obj4.free(); } i += 2; } else { error(-1, "Bad widths array in Type 0 font"); ++i; } obj3.free(); obj2.free(); } qsort(widths.exceps, widths.nExceps, sizeof(GfxFontCIDWidthExcep), &cmpWidthExcep); } obj1.free(); // default metrics for vertical font if (desFontDict->lookup("DW2", &obj1)->isArray() && obj1.arrayGetLength() == 2) { if (obj1.arrayGet(0, &obj2)->isNum()) { widths.defVY = obj1.getNum() * 0.001; } obj2.free(); if (obj1.arrayGet(1, &obj2)->isNum()) { widths.defHeight = obj1.getNum() * 0.001; } obj2.free(); } obj1.free(); // char metric exceptions for vertical font if (desFontDict->lookup("W2", &obj1)->isArray()) { excepsSize = 0; i = 0; while (i + 1 < obj1.arrayGetLength()) { obj1.arrayGet(0, &obj2); obj2.arrayGet(0, &obj3); if (obj2.isInt() && obj3.isInt() && i + 4 < obj1.arrayGetLength()) { if (obj1.arrayGet(i + 2, &obj4)->isNum() && obj1.arrayGet(i + 3, &obj5)->isNum() && obj1.arrayGet(i + 4, &obj6)->isNum()) { if (widths.nExcepsV == excepsSize) { excepsSize += 16; widths.excepsV = (GfxFontCIDWidthExcepV *) grealloc(widths.excepsV, excepsSize * sizeof(GfxFontCIDWidthExcepV)); } widths.excepsV[widths.nExcepsV].first = obj2.getInt(); widths.excepsV[widths.nExcepsV].last = obj3.getInt(); widths.excepsV[widths.nExcepsV].height = obj4.getNum() * 0.001; widths.excepsV[widths.nExcepsV].vx = obj5.getNum() * 0.001; widths.excepsV[widths.nExcepsV].vy = obj6.getNum() * 0.001; ++widths.nExcepsV; } else { error(-1, "Bad widths (W2) array in Type 0 font"); } obj6.free(); obj5.free(); obj4.free(); i += 5; } else if (obj2.isInt() && obj3.isArray()) { if (widths.nExcepsV + obj3.arrayGetLength() / 3 > excepsSize) { excepsSize = (widths.nExcepsV + obj3.arrayGetLength() / 3 + 15) & ~15; widths.excepsV = (GfxFontCIDWidthExcepV *) grealloc(widths.excepsV, excepsSize * sizeof(GfxFontCIDWidthExcepV)); } j = obj2.getInt(); for (k = 0; k < obj3.arrayGetLength(); ++k) { if (obj3.arrayGet(k, &obj4)->isNum() && obj3.arrayGet(k, &obj5)->isNum() && obj3.arrayGet(k, &obj6)->isNum()) { widths.excepsV[widths.nExceps].first = j; widths.excepsV[widths.nExceps].last = j; widths.excepsV[widths.nExceps].height = obj4.getNum() * 0.001; widths.excepsV[widths.nExceps].vx = obj5.getNum() * 0.001; widths.excepsV[widths.nExceps].vy = obj6.getNum() * 0.001; ++j; ++widths.nExcepsV; } else { error(-1, "Bad widths (W2) array in Type 0 font"); } obj6.free(); obj5.free(); obj4.free(); } i += 2; } else { error(-1, "Bad widths (W2) array in Type 0 font"); ++i; } obj3.free(); obj2.free(); } qsort(widths.excepsV, widths.nExcepsV, sizeof(GfxFontCIDWidthExcepV), &cmpWidthExcepV); } obj1.free(); desFontDictObj.free(); ok = gTrue; return; err4: obj3.free(); obj2.free(); err3: obj1.free(); err2: desFontDictObj.free(); err1:; } GfxCIDFont::~GfxCIDFont() { if (cMap) { cMap->decRefCnt(); } if (ctu) { ctu->decRefCnt(); } gfree(widths.exceps); gfree(widths.excepsV); if (cidToGID) { gfree(cidToGID); } } int GfxCIDFont::getNextChar(char *s, int len, CharCode *code, Unicode *u, int uSize, int *uLen, double *dx, double *dy, double *ox, double *oy) { CID cid; double w, h, vx, vy; int n, a, b, m; if (!cMap) { *code = 0; *uLen = 0; *dx = *dy = 0; return 1; } *code = (CharCode)(cid = cMap->getCID(s, len, &n)); if (ctu) { *uLen = ctu->mapToUnicode(cid, u, uSize); } else { *uLen = 0; } // horizontal if (cMap->getWMode() == 0) { w = widths.defWidth; h = vx = vy = 0; if (widths.nExceps > 0 && cid >= widths.exceps[0].first) { a = 0; b = widths.nExceps; // invariant: widths.exceps[a].first <= cid < widths.exceps[b].first while (b - a > 1) { m = (a + b) / 2; if (widths.exceps[m].first <= cid) { a = m; } else { b = m; } } if (cid <= widths.exceps[a].last) { w = widths.exceps[a].width; } } // vertical } else { w = 0; h = widths.defHeight; vx = widths.defWidth / 2; vy = widths.defVY; if (widths.nExcepsV > 0 && cid >= widths.excepsV[0].first) { a = 0; b = widths.nExcepsV; // invariant: widths.excepsV[a].first <= cid < widths.excepsV[b].first while (b - a > 1) { m = (a + b) / 2; if (widths.excepsV[m].last <= cid) { a = m; } else { b = m; } } if (cid <= widths.excepsV[a].last) { h = widths.excepsV[a].height; vx = widths.excepsV[a].vx; vy = widths.excepsV[a].vy; } } } *dx = w; *dy = h; *ox = vx; *oy = vy; return n; } int GfxCIDFont::getWMode() { return cMap ? cMap->getWMode() : 0; } CharCodeToUnicode *GfxCIDFont::getToUnicode() { ctu->incRefCnt(); return ctu; } GString *GfxCIDFont::getCollection() { return cMap ? cMap->getCollection() : (GString *)NULL; } //------------------------------------------------------------------------ // GfxFontDict //------------------------------------------------------------------------ GfxFontDict::GfxFontDict(XRef *xref, Dict *fontDict) { int i; Object obj1, obj2; Ref r; numFonts = fontDict->getLength(); fonts = (GfxFont **)gmalloc(numFonts * sizeof(GfxFont *)); for (i = 0; i < numFonts; ++i) { fontDict->getValNF(i, &obj1); obj1.fetch(xref, &obj2); if (obj2.isDict()) { if (obj1.isRef()) { r = obj1.getRef(); } else { // no indirect reference for this font, so invent a unique one // (legal generation numbers are five digits, so any 6-digit // number would be safe) r.num = i; r.gen = 999999; } fonts[i] = GfxFont::makeFont(xref, fontDict->getKey(i), r, obj2.getDict()); if (fonts[i] && !fonts[i]->isOk()) { delete fonts[i]; fonts[i] = NULL; } } else { error(-1, "font resource is not a dictionary"); fonts[i] = NULL; } obj1.free(); obj2.free(); } } GfxFontDict::~GfxFontDict() { int i; for (i = 0; i < numFonts; ++i) { if (fonts[i]) { delete fonts[i]; } } gfree(fonts); } GfxFont *GfxFontDict::lookup(char *tag) { int i; for (i = 0; i < numFonts; ++i) { if (fonts[i] && fonts[i]->matches(tag)) { return fonts[i]; } } return NULL; }