/** * @licstart The following is the entire license notice for the * JavaScript code in this page * * Copyright 2022 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * @licend The above is the entire license notice for the * JavaScript code in this page */ "use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.Font = exports.ErrorFont = void 0; var _util = require("../shared/util.js"); var _cff_parser = require("./cff_parser.js"); var _fonts_utils = require("./fonts_utils.js"); var _unicode = require("./unicode.js"); var _glyphlist = require("./glyphlist.js"); var _encodings = require("./encodings.js"); var _standard_fonts = require("./standard_fonts.js"); var _to_unicode_map = require("./to_unicode_map.js"); var _cff_font = require("./cff_font.js"); var _font_renderer = require("./font_renderer.js"); var _metrics = require("./metrics.js"); var _glyf = require("./glyf.js"); var _cmap = require("./cmap.js"); var _opentype_file_builder = require("./opentype_file_builder.js"); var _core_utils = require("./core_utils.js"); var _stream = require("./stream.js"); var _type1_font = require("./type1_font.js"); const PRIVATE_USE_AREAS = [[0xe000, 0xf8ff], [0x100000, 0x10fffd]]; const PDF_GLYPH_SPACE_UNITS = 1000; const EXPORT_DATA_PROPERTIES = ["ascent", "bbox", "black", "bold", "charProcOperatorList", "composite", "cssFontInfo", "data", "defaultVMetrics", "defaultWidth", "descent", "fallbackName", "fontMatrix", "fontType", "isType3Font", "italic", "loadedName", "mimetype", "missingFile", "name", "remeasure", "subtype", "type", "vertical"]; const EXPORT_DATA_EXTRA_PROPERTIES = ["cMap", "defaultEncoding", "differences", "isMonospace", "isSerifFont", "isSymbolicFont", "seacMap", "toFontChar", "toUnicode", "vmetrics", "widths"]; function adjustWidths(properties) { if (!properties.fontMatrix) { return; } if (properties.fontMatrix[0] === _util.FONT_IDENTITY_MATRIX[0]) { return; } const scale = 0.001 / properties.fontMatrix[0]; const glyphsWidths = properties.widths; for (const glyph in glyphsWidths) { glyphsWidths[glyph] *= scale; } properties.defaultWidth *= scale; } function adjustToUnicode(properties, builtInEncoding) { if (properties.isInternalFont) { return; } if (builtInEncoding === properties.defaultEncoding) { return; } if (properties.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap) { return; } const toUnicode = [], glyphsUnicodeMap = (0, _glyphlist.getGlyphsUnicode)(); for (const charCode in builtInEncoding) { if (properties.hasIncludedToUnicodeMap) { if (properties.toUnicode.has(charCode)) { continue; } } else if (properties.hasEncoding) { if (properties.differences.length === 0 || properties.differences[charCode] !== undefined) { continue; } } const glyphName = builtInEncoding[charCode]; const unicode = (0, _unicode.getUnicodeForGlyph)(glyphName, glyphsUnicodeMap); if (unicode !== -1) { toUnicode[charCode] = String.fromCharCode(unicode); } } if (toUnicode.length > 0) { properties.toUnicode.amend(toUnicode); } } function amendFallbackToUnicode(properties) { if (!properties.fallbackToUnicode) { return; } if (properties.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap) { return; } const toUnicode = []; for (const charCode in properties.fallbackToUnicode) { if (properties.toUnicode.has(charCode)) { continue; } toUnicode[charCode] = properties.fallbackToUnicode[charCode]; } if (toUnicode.length > 0) { properties.toUnicode.amend(toUnicode); } } class Glyph { constructor(originalCharCode, fontChar, unicode, accent, width, vmetric, operatorListId, isSpace, isInFont) { this.originalCharCode = originalCharCode; this.fontChar = fontChar; this.unicode = unicode; this.accent = accent; this.width = width; this.vmetric = vmetric; this.operatorListId = operatorListId; this.isSpace = isSpace; this.isInFont = isInFont; const category = (0, _unicode.getCharUnicodeCategory)(unicode); this.isWhitespace = category.isWhitespace; this.isZeroWidthDiacritic = category.isZeroWidthDiacritic; this.isInvisibleFormatMark = category.isInvisibleFormatMark; } matchesForCache(originalCharCode, fontChar, unicode, accent, width, vmetric, operatorListId, isSpace, isInFont) { return this.originalCharCode === originalCharCode && this.fontChar === fontChar && this.unicode === unicode && this.accent === accent && this.width === width && this.vmetric === vmetric && this.operatorListId === operatorListId && this.isSpace === isSpace && this.isInFont === isInFont; } } function int16(b0, b1) { return (b0 << 8) + b1; } function writeSignedInt16(bytes, index, value) { bytes[index + 1] = value; bytes[index] = value >>> 8; } function signedInt16(b0, b1) { const value = (b0 << 8) + b1; return value & 1 << 15 ? value - 0x10000 : value; } function int32(b0, b1, b2, b3) { return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3; } function string16(value) { return String.fromCharCode(value >> 8 & 0xff, value & 0xff); } function safeString16(value) { if (value > 0x7fff) { value = 0x7fff; } else if (value < -0x8000) { value = -0x8000; } return String.fromCharCode(value >> 8 & 0xff, value & 0xff); } function isTrueTypeFile(file) { const header = file.peekBytes(4); return (0, _core_utils.readUint32)(header, 0) === 0x00010000 || (0, _util.bytesToString)(header) === "true"; } function isTrueTypeCollectionFile(file) { const header = file.peekBytes(4); return (0, _util.bytesToString)(header) === "ttcf"; } function isOpenTypeFile(file) { const header = file.peekBytes(4); return (0, _util.bytesToString)(header) === "OTTO"; } function isType1File(file) { const header = file.peekBytes(2); if (header[0] === 0x25 && header[1] === 0x21) { return true; } if (header[0] === 0x80 && header[1] === 0x01) { return true; } return false; } function isCFFFile(file) { const header = file.peekBytes(4); if (header[0] >= 1 && header[3] >= 1 && header[3] <= 4) { return true; } return false; } function getFontFileType(file, { type, subtype, composite }) { let fileType, fileSubtype; if (isTrueTypeFile(file) || isTrueTypeCollectionFile(file)) { if (composite) { fileType = "CIDFontType2"; } else { fileType = "TrueType"; } } else if (isOpenTypeFile(file)) { if (composite) { fileType = "CIDFontType2"; } else { fileType = "OpenType"; } } else if (isType1File(file)) { if (composite) { fileType = "CIDFontType0"; } else { fileType = type === "MMType1" ? "MMType1" : "Type1"; } } else if (isCFFFile(file)) { if (composite) { fileType = "CIDFontType0"; fileSubtype = "CIDFontType0C"; } else { fileType = type === "MMType1" ? "MMType1" : "Type1"; fileSubtype = "Type1C"; } } else { (0, _util.warn)("getFontFileType: Unable to detect correct font file Type/Subtype."); fileType = type; fileSubtype = subtype; } return [fileType, fileSubtype]; } function applyStandardFontGlyphMap(map, glyphMap) { for (const charCode in glyphMap) { map[+charCode] = glyphMap[charCode]; } } function buildToFontChar(encoding, glyphsUnicodeMap, differences) { const toFontChar = []; let unicode; for (let i = 0, ii = encoding.length; i < ii; i++) { unicode = (0, _unicode.getUnicodeForGlyph)(encoding[i], glyphsUnicodeMap); if (unicode !== -1) { toFontChar[i] = unicode; } } for (const charCode in differences) { unicode = (0, _unicode.getUnicodeForGlyph)(differences[charCode], glyphsUnicodeMap); if (unicode !== -1) { toFontChar[+charCode] = unicode; } } return toFontChar; } function convertCidString(charCode, cid, shouldThrow = false) { switch (cid.length) { case 1: return cid.charCodeAt(0); case 2: return cid.charCodeAt(0) << 8 | cid.charCodeAt(1); } const msg = `Unsupported CID string (charCode ${charCode}): "${cid}".`; if (shouldThrow) { throw new _util.FormatError(msg); } (0, _util.warn)(msg); return cid; } function adjustMapping(charCodeToGlyphId, hasGlyph, newGlyphZeroId, toUnicode) { const newMap = Object.create(null); const toUnicodeExtraMap = new Map(); const toFontChar = []; const usedGlyphIds = new Set(); let privateUseAreaIndex = 0; const privateUseOffetStart = PRIVATE_USE_AREAS[privateUseAreaIndex][0]; let nextAvailableFontCharCode = privateUseOffetStart; let privateUseOffetEnd = PRIVATE_USE_AREAS[privateUseAreaIndex][1]; for (let originalCharCode in charCodeToGlyphId) { originalCharCode |= 0; let glyphId = charCodeToGlyphId[originalCharCode]; if (!hasGlyph(glyphId)) { continue; } if (nextAvailableFontCharCode > privateUseOffetEnd) { privateUseAreaIndex++; if (privateUseAreaIndex >= PRIVATE_USE_AREAS.length) { (0, _util.warn)("Ran out of space in font private use area."); break; } nextAvailableFontCharCode = PRIVATE_USE_AREAS[privateUseAreaIndex][0]; privateUseOffetEnd = PRIVATE_USE_AREAS[privateUseAreaIndex][1]; } const fontCharCode = nextAvailableFontCharCode++; if (glyphId === 0) { glyphId = newGlyphZeroId; } let unicode = toUnicode.get(originalCharCode); if (typeof unicode === "string") { unicode = unicode.codePointAt(0); } if (unicode && unicode < privateUseOffetStart && !usedGlyphIds.has(glyphId)) { toUnicodeExtraMap.set(unicode, glyphId); usedGlyphIds.add(glyphId); } newMap[fontCharCode] = glyphId; toFontChar[originalCharCode] = fontCharCode; } return { toFontChar, charCodeToGlyphId: newMap, toUnicodeExtraMap, nextAvailableFontCharCode }; } function getRanges(glyphs, toUnicodeExtraMap, numGlyphs) { const codes = []; for (const charCode in glyphs) { if (glyphs[charCode] >= numGlyphs) { continue; } codes.push({ fontCharCode: charCode | 0, glyphId: glyphs[charCode] }); } if (toUnicodeExtraMap) { for (const [unicode, glyphId] of toUnicodeExtraMap) { if (glyphId >= numGlyphs) { continue; } codes.push({ fontCharCode: unicode, glyphId }); } } if (codes.length === 0) { codes.push({ fontCharCode: 0, glyphId: 0 }); } codes.sort(function fontGetRangesSort(a, b) { return a.fontCharCode - b.fontCharCode; }); const ranges = []; const length = codes.length; for (let n = 0; n < length;) { const start = codes[n].fontCharCode; const codeIndices = [codes[n].glyphId]; ++n; let end = start; while (n < length && end + 1 === codes[n].fontCharCode) { codeIndices.push(codes[n].glyphId); ++end; ++n; if (end === 0xffff) { break; } } ranges.push([start, end, codeIndices]); } return ranges; } function createCmapTable(glyphs, toUnicodeExtraMap, numGlyphs) { const ranges = getRanges(glyphs, toUnicodeExtraMap, numGlyphs); const numTables = ranges.at(-1)[1] > 0xffff ? 2 : 1; let cmap = "\x00\x00" + string16(numTables) + "\x00\x03" + "\x00\x01" + (0, _util.string32)(4 + numTables * 8); let i, ii, j, jj; for (i = ranges.length - 1; i >= 0; --i) { if (ranges[i][0] <= 0xffff) { break; } } const bmpLength = i + 1; if (ranges[i][0] < 0xffff && ranges[i][1] === 0xffff) { ranges[i][1] = 0xfffe; } const trailingRangesCount = ranges[i][1] < 0xffff ? 1 : 0; const segCount = bmpLength + trailingRangesCount; const searchParams = _opentype_file_builder.OpenTypeFileBuilder.getSearchParams(segCount, 2); let startCount = ""; let endCount = ""; let idDeltas = ""; let idRangeOffsets = ""; let glyphsIds = ""; let bias = 0; let range, start, end, codes; for (i = 0, ii = bmpLength; i < ii; i++) { range = ranges[i]; start = range[0]; end = range[1]; startCount += string16(start); endCount += string16(end); codes = range[2]; let contiguous = true; for (j = 1, jj = codes.length; j < jj; ++j) { if (codes[j] !== codes[j - 1] + 1) { contiguous = false; break; } } if (!contiguous) { const offset = (segCount - i) * 2 + bias * 2; bias += end - start + 1; idDeltas += string16(0); idRangeOffsets += string16(offset); for (j = 0, jj = codes.length; j < jj; ++j) { glyphsIds += string16(codes[j]); } } else { const startCode = codes[0]; idDeltas += string16(startCode - start & 0xffff); idRangeOffsets += string16(0); } } if (trailingRangesCount > 0) { endCount += "\xFF\xFF"; startCount += "\xFF\xFF"; idDeltas += "\x00\x01"; idRangeOffsets += "\x00\x00"; } const format314 = "\x00\x00" + string16(2 * segCount) + string16(searchParams.range) + string16(searchParams.entry) + string16(searchParams.rangeShift) + endCount + "\x00\x00" + startCount + idDeltas + idRangeOffsets + glyphsIds; let format31012 = ""; let header31012 = ""; if (numTables > 1) { cmap += "\x00\x03" + "\x00\x0A" + (0, _util.string32)(4 + numTables * 8 + 4 + format314.length); format31012 = ""; for (i = 0, ii = ranges.length; i < ii; i++) { range = ranges[i]; start = range[0]; codes = range[2]; let code = codes[0]; for (j = 1, jj = codes.length; j < jj; ++j) { if (codes[j] !== codes[j - 1] + 1) { end = range[0] + j - 1; format31012 += (0, _util.string32)(start) + (0, _util.string32)(end) + (0, _util.string32)(code); start = end + 1; code = codes[j]; } } format31012 += (0, _util.string32)(start) + (0, _util.string32)(range[1]) + (0, _util.string32)(code); } header31012 = "\x00\x0C" + "\x00\x00" + (0, _util.string32)(format31012.length + 16) + "\x00\x00\x00\x00" + (0, _util.string32)(format31012.length / 12); } return cmap + "\x00\x04" + string16(format314.length + 4) + format314 + header31012 + format31012; } function validateOS2Table(os2, file) { file.pos = (file.start || 0) + os2.offset; const version = file.getUint16(); file.skip(60); const selection = file.getUint16(); if (version < 4 && selection & 0x0300) { return false; } const firstChar = file.getUint16(); const lastChar = file.getUint16(); if (firstChar > lastChar) { return false; } file.skip(6); const usWinAscent = file.getUint16(); if (usWinAscent === 0) { return false; } os2.data[8] = os2.data[9] = 0; return true; } function createOS2Table(properties, charstrings, override) { override = override || { unitsPerEm: 0, yMax: 0, yMin: 0, ascent: 0, descent: 0 }; let ulUnicodeRange1 = 0; let ulUnicodeRange2 = 0; let ulUnicodeRange3 = 0; let ulUnicodeRange4 = 0; let firstCharIndex = null; let lastCharIndex = 0; if (charstrings) { for (let code in charstrings) { code |= 0; if (firstCharIndex > code || !firstCharIndex) { firstCharIndex = code; } if (lastCharIndex < code) { lastCharIndex = code; } const position = (0, _unicode.getUnicodeRangeFor)(code); if (position < 32) { ulUnicodeRange1 |= 1 << position; } else if (position < 64) { ulUnicodeRange2 |= 1 << position - 32; } else if (position < 96) { ulUnicodeRange3 |= 1 << position - 64; } else if (position < 123) { ulUnicodeRange4 |= 1 << position - 96; } else { throw new _util.FormatError("Unicode ranges Bits > 123 are reserved for internal usage"); } } if (lastCharIndex > 0xffff) { lastCharIndex = 0xffff; } } else { firstCharIndex = 0; lastCharIndex = 255; } const bbox = properties.bbox || [0, 0, 0, 0]; const unitsPerEm = override.unitsPerEm || 1 / (properties.fontMatrix || _util.FONT_IDENTITY_MATRIX)[0]; const scale = properties.ascentScaled ? 1.0 : unitsPerEm / PDF_GLYPH_SPACE_UNITS; const typoAscent = override.ascent || Math.round(scale * (properties.ascent || bbox[3])); let typoDescent = override.descent || Math.round(scale * (properties.descent || bbox[1])); if (typoDescent > 0 && properties.descent > 0 && bbox[1] < 0) { typoDescent = -typoDescent; } const winAscent = override.yMax || typoAscent; const winDescent = -override.yMin || -typoDescent; return "\x00\x03" + "\x02\x24" + "\x01\xF4" + "\x00\x05" + "\x00\x00" + "\x02\x8A" + "\x02\xBB" + "\x00\x00" + "\x00\x8C" + "\x02\x8A" + "\x02\xBB" + "\x00\x00" + "\x01\xDF" + "\x00\x31" + "\x01\x02" + "\x00\x00" + "\x00\x00\x06" + String.fromCharCode(properties.fixedPitch ? 0x09 : 0x00) + "\x00\x00\x00\x00\x00\x00" + (0, _util.string32)(ulUnicodeRange1) + (0, _util.string32)(ulUnicodeRange2) + (0, _util.string32)(ulUnicodeRange3) + (0, _util.string32)(ulUnicodeRange4) + "\x2A\x32\x31\x2A" + string16(properties.italicAngle ? 1 : 0) + string16(firstCharIndex || properties.firstChar) + string16(lastCharIndex || properties.lastChar) + string16(typoAscent) + string16(typoDescent) + "\x00\x64" + string16(winAscent) + string16(winDescent) + "\x00\x00\x00\x00" + "\x00\x00\x00\x00" + string16(properties.xHeight) + string16(properties.capHeight) + string16(0) + string16(firstCharIndex || properties.firstChar) + "\x00\x03"; } function createPostTable(properties) { const angle = Math.floor(properties.italicAngle * 2 ** 16); return "\x00\x03\x00\x00" + (0, _util.string32)(angle) + "\x00\x00" + "\x00\x00" + (0, _util.string32)(properties.fixedPitch ? 1 : 0) + "\x00\x00\x00\x00" + "\x00\x00\x00\x00" + "\x00\x00\x00\x00" + "\x00\x00\x00\x00"; } function createPostscriptName(name) { return name.replace(/[^\x21-\x7E]|[[\](){}<>/%]/g, "").slice(0, 63); } function createNameTable(name, proto) { if (!proto) { proto = [[], []]; } const strings = [proto[0][0] || "Original licence", proto[0][1] || name, proto[0][2] || "Unknown", proto[0][3] || "uniqueID", proto[0][4] || name, proto[0][5] || "Version 0.11", proto[0][6] || createPostscriptName(name), proto[0][7] || "Unknown", proto[0][8] || "Unknown", proto[0][9] || "Unknown"]; const stringsUnicode = []; let i, ii, j, jj, str; for (i = 0, ii = strings.length; i < ii; i++) { str = proto[1][i] || strings[i]; const strBufUnicode = []; for (j = 0, jj = str.length; j < jj; j++) { strBufUnicode.push(string16(str.charCodeAt(j))); } stringsUnicode.push(strBufUnicode.join("")); } const names = [strings, stringsUnicode]; const platforms = ["\x00\x01", "\x00\x03"]; const encodings = ["\x00\x00", "\x00\x01"]; const languages = ["\x00\x00", "\x04\x09"]; const namesRecordCount = strings.length * platforms.length; let nameTable = "\x00\x00" + string16(namesRecordCount) + string16(namesRecordCount * 12 + 6); let strOffset = 0; for (i = 0, ii = platforms.length; i < ii; i++) { const strs = names[i]; for (j = 0, jj = strs.length; j < jj; j++) { str = strs[j]; const nameRecord = platforms[i] + encodings[i] + languages[i] + string16(j) + string16(str.length) + string16(strOffset); nameTable += nameRecord; strOffset += str.length; } } nameTable += strings.join("") + stringsUnicode.join(""); return nameTable; } class Font { constructor(name, file, properties) { this.name = name; this.psName = null; this.mimetype = null; this.disableFontFace = false; this.loadedName = properties.loadedName; this.isType3Font = properties.isType3Font; this.missingFile = false; this.cssFontInfo = properties.cssFontInfo; this._charsCache = Object.create(null); this._glyphCache = Object.create(null); let isSerifFont = !!(properties.flags & _fonts_utils.FontFlags.Serif); if (!isSerifFont && !properties.isSimulatedFlags) { const baseName = name.replace(/[,_]/g, "-").split("-")[0], serifFonts = (0, _standard_fonts.getSerifFonts)(); for (const namePart of baseName.split("+")) { if (serifFonts[namePart]) { isSerifFont = true; break; } } } this.isSerifFont = isSerifFont; this.isSymbolicFont = !!(properties.flags & _fonts_utils.FontFlags.Symbolic); this.isMonospace = !!(properties.flags & _fonts_utils.FontFlags.FixedPitch); let type = properties.type; let subtype = properties.subtype; this.type = type; this.subtype = subtype; let fallbackName = "sans-serif"; if (this.isMonospace) { fallbackName = "monospace"; } else if (this.isSerifFont) { fallbackName = "serif"; } this.fallbackName = fallbackName; this.differences = properties.differences; this.widths = properties.widths; this.defaultWidth = properties.defaultWidth; this.composite = properties.composite; this.cMap = properties.cMap; this.capHeight = properties.capHeight / PDF_GLYPH_SPACE_UNITS; this.ascent = properties.ascent / PDF_GLYPH_SPACE_UNITS; this.descent = properties.descent / PDF_GLYPH_SPACE_UNITS; this.lineHeight = this.ascent - this.descent; this.fontMatrix = properties.fontMatrix; this.bbox = properties.bbox; this.defaultEncoding = properties.defaultEncoding; this.toUnicode = properties.toUnicode; this.toFontChar = []; if (properties.type === "Type3") { for (let charCode = 0; charCode < 256; charCode++) { this.toFontChar[charCode] = this.differences[charCode] || properties.defaultEncoding[charCode]; } this.fontType = _util.FontType.TYPE3; return; } this.cidEncoding = properties.cidEncoding || ""; this.vertical = !!properties.vertical; if (this.vertical) { this.vmetrics = properties.vmetrics; this.defaultVMetrics = properties.defaultVMetrics; } if (!file || file.isEmpty) { if (file) { (0, _util.warn)('Font file is empty in "' + name + '" (' + this.loadedName + ")"); } this.fallbackToSystemFont(properties); return; } [type, subtype] = getFontFileType(file, properties); if (type !== this.type || subtype !== this.subtype) { (0, _util.info)("Inconsistent font file Type/SubType, expected: " + `${this.type}/${this.subtype} but found: ${type}/${subtype}.`); } let data; try { switch (type) { case "MMType1": (0, _util.info)("MMType1 font (" + name + "), falling back to Type1."); case "Type1": case "CIDFontType0": this.mimetype = "font/opentype"; const cff = subtype === "Type1C" || subtype === "CIDFontType0C" ? new _cff_font.CFFFont(file, properties) : new _type1_font.Type1Font(name, file, properties); adjustWidths(properties); data = this.convert(name, cff, properties); break; case "OpenType": case "TrueType": case "CIDFontType2": this.mimetype = "font/opentype"; data = this.checkAndRepair(name, file, properties); if (this.isOpenType) { adjustWidths(properties); type = "OpenType"; } break; default: throw new _util.FormatError(`Font ${type} is not supported`); } } catch (e) { (0, _util.warn)(e); this.fallbackToSystemFont(properties); return; } amendFallbackToUnicode(properties); this.data = data; this.fontType = (0, _fonts_utils.getFontType)(type, subtype, properties.isStandardFont); this.fontMatrix = properties.fontMatrix; this.widths = properties.widths; this.defaultWidth = properties.defaultWidth; this.toUnicode = properties.toUnicode; this.seacMap = properties.seacMap; } get renderer() { const renderer = _font_renderer.FontRendererFactory.create(this, _fonts_utils.SEAC_ANALYSIS_ENABLED); return (0, _util.shadow)(this, "renderer", renderer); } exportData(extraProperties = false) { const exportDataProperties = extraProperties ? [...EXPORT_DATA_PROPERTIES, ...EXPORT_DATA_EXTRA_PROPERTIES] : EXPORT_DATA_PROPERTIES; const data = Object.create(null); let property, value; for (property of exportDataProperties) { value = this[property]; if (value !== undefined) { data[property] = value; } } return data; } fallbackToSystemFont(properties) { this.missingFile = true; const name = this.name; const type = this.type; const subtype = this.subtype; let fontName = (0, _fonts_utils.normalizeFontName)(name); const stdFontMap = (0, _standard_fonts.getStdFontMap)(), nonStdFontMap = (0, _standard_fonts.getNonStdFontMap)(); const isStandardFont = !!stdFontMap[fontName]; const isMappedToStandardFont = !!(nonStdFontMap[fontName] && stdFontMap[nonStdFontMap[fontName]]); fontName = stdFontMap[fontName] || nonStdFontMap[fontName] || fontName; const fontBasicMetricsMap = (0, _metrics.getFontBasicMetrics)(); const metrics = fontBasicMetricsMap[fontName]; if (metrics) { if (isNaN(this.ascent)) { this.ascent = metrics.ascent / PDF_GLYPH_SPACE_UNITS; } if (isNaN(this.descent)) { this.descent = metrics.descent / PDF_GLYPH_SPACE_UNITS; } if (isNaN(this.capHeight)) { this.capHeight = metrics.capHeight / PDF_GLYPH_SPACE_UNITS; } } this.bold = fontName.search(/bold/gi) !== -1; this.italic = fontName.search(/oblique/gi) !== -1 || fontName.search(/italic/gi) !== -1; this.black = name.search(/Black/g) !== -1; const isNarrow = name.search(/Narrow/g) !== -1; this.remeasure = (!isStandardFont || isNarrow) && Object.keys(this.widths).length > 0; if ((isStandardFont || isMappedToStandardFont) && type === "CIDFontType2" && this.cidEncoding.startsWith("Identity-")) { const cidToGidMap = properties.cidToGidMap; const map = []; applyStandardFontGlyphMap(map, (0, _standard_fonts.getGlyphMapForStandardFonts)()); if (/Arial-?Black/i.test(name)) { applyStandardFontGlyphMap(map, (0, _standard_fonts.getSupplementalGlyphMapForArialBlack)()); } else if (/Calibri/i.test(name)) { applyStandardFontGlyphMap(map, (0, _standard_fonts.getSupplementalGlyphMapForCalibri)()); } if (cidToGidMap) { for (const charCode in map) { const cid = map[charCode]; if (cidToGidMap[cid] !== undefined) { map[+charCode] = cidToGidMap[cid]; } } if (cidToGidMap.length !== this.toUnicode.length && properties.hasIncludedToUnicodeMap && this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap) { this.toUnicode.forEach(function (charCode, unicodeCharCode) { const cid = map[charCode]; if (cidToGidMap[cid] === undefined) { map[+charCode] = unicodeCharCode; } }); } } if (!(this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap)) { this.toUnicode.forEach(function (charCode, unicodeCharCode) { map[+charCode] = unicodeCharCode; }); } this.toFontChar = map; this.toUnicode = new _to_unicode_map.ToUnicodeMap(map); } else if (/Symbol/i.test(fontName)) { this.toFontChar = buildToFontChar(_encodings.SymbolSetEncoding, (0, _glyphlist.getGlyphsUnicode)(), this.differences); } else if (/Dingbats/i.test(fontName)) { if (/Wingdings/i.test(name)) { (0, _util.warn)("Non-embedded Wingdings font, falling back to ZapfDingbats."); } this.toFontChar = buildToFontChar(_encodings.ZapfDingbatsEncoding, (0, _glyphlist.getDingbatsGlyphsUnicode)(), this.differences); } else if (isStandardFont) { const map = buildToFontChar(this.defaultEncoding, (0, _glyphlist.getGlyphsUnicode)(), this.differences); if (type === "CIDFontType2" && !this.cidEncoding.startsWith("Identity-") && !(this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap)) { this.toUnicode.forEach(function (charCode, unicodeCharCode) { map[+charCode] = unicodeCharCode; }); } this.toFontChar = map; } else { const glyphsUnicodeMap = (0, _glyphlist.getGlyphsUnicode)(); const map = []; this.toUnicode.forEach((charCode, unicodeCharCode) => { if (!this.composite) { const glyphName = this.differences[charCode] || this.defaultEncoding[charCode]; const unicode = (0, _unicode.getUnicodeForGlyph)(glyphName, glyphsUnicodeMap); if (unicode !== -1) { unicodeCharCode = unicode; } } map[+charCode] = unicodeCharCode; }); if (this.composite && this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap) { if (/Verdana/i.test(name)) { applyStandardFontGlyphMap(map, (0, _standard_fonts.getGlyphMapForStandardFonts)()); } } this.toFontChar = map; } amendFallbackToUnicode(properties); this.loadedName = fontName.split("-")[0]; this.fontType = (0, _fonts_utils.getFontType)(type, subtype, properties.isStandardFont); } checkAndRepair(name, font, properties) { const VALID_TABLES = ["OS/2", "cmap", "head", "hhea", "hmtx", "maxp", "name", "post", "loca", "glyf", "fpgm", "prep", "cvt ", "CFF "]; function readTables(file, numTables) { const tables = Object.create(null); tables["OS/2"] = null; tables.cmap = null; tables.head = null; tables.hhea = null; tables.hmtx = null; tables.maxp = null; tables.name = null; tables.post = null; for (let i = 0; i < numTables; i++) { const table = readTableEntry(file); if (!VALID_TABLES.includes(table.tag)) { continue; } if (table.length === 0) { continue; } tables[table.tag] = table; } return tables; } function readTableEntry(file) { const tag = file.getString(4); const checksum = file.getInt32() >>> 0; const offset = file.getInt32() >>> 0; const length = file.getInt32() >>> 0; const previousPosition = file.pos; file.pos = file.start || 0; file.skip(offset); const data = file.getBytes(length); file.pos = previousPosition; if (tag === "head") { data[8] = data[9] = data[10] = data[11] = 0; data[17] |= 0x20; } return { tag, checksum, length, offset, data }; } function readOpenTypeHeader(ttf) { return { version: ttf.getString(4), numTables: ttf.getUint16(), searchRange: ttf.getUint16(), entrySelector: ttf.getUint16(), rangeShift: ttf.getUint16() }; } function readTrueTypeCollectionHeader(ttc) { const ttcTag = ttc.getString(4); (0, _util.assert)(ttcTag === "ttcf", "Must be a TrueType Collection font."); const majorVersion = ttc.getUint16(); const minorVersion = ttc.getUint16(); const numFonts = ttc.getInt32() >>> 0; const offsetTable = []; for (let i = 0; i < numFonts; i++) { offsetTable.push(ttc.getInt32() >>> 0); } const header = { ttcTag, majorVersion, minorVersion, numFonts, offsetTable }; switch (majorVersion) { case 1: return header; case 2: header.dsigTag = ttc.getInt32() >>> 0; header.dsigLength = ttc.getInt32() >>> 0; header.dsigOffset = ttc.getInt32() >>> 0; return header; } throw new _util.FormatError(`Invalid TrueType Collection majorVersion: ${majorVersion}.`); } function readTrueTypeCollectionData(ttc, fontName) { const { numFonts, offsetTable } = readTrueTypeCollectionHeader(ttc); const fontNameParts = fontName.split("+"); let fallbackData; for (let i = 0; i < numFonts; i++) { ttc.pos = (ttc.start || 0) + offsetTable[i]; const potentialHeader = readOpenTypeHeader(ttc); const potentialTables = readTables(ttc, potentialHeader.numTables); if (!potentialTables.name) { throw new _util.FormatError('TrueType Collection font must contain a "name" table.'); } const nameTable = readNameTable(potentialTables.name); for (let j = 0, jj = nameTable.length; j < jj; j++) { for (let k = 0, kk = nameTable[j].length; k < kk; k++) { const nameEntry = nameTable[j][k] && nameTable[j][k].replace(/\s/g, ""); if (!nameEntry) { continue; } if (nameEntry === fontName) { return { header: potentialHeader, tables: potentialTables }; } if (fontNameParts.length < 2) { continue; } for (const part of fontNameParts) { if (nameEntry === part) { fallbackData = { name: part, header: potentialHeader, tables: potentialTables }; } } } } } if (fallbackData) { (0, _util.warn)(`TrueType Collection does not contain "${fontName}" font, ` + `falling back to "${fallbackData.name}" font instead.`); return { header: fallbackData.header, tables: fallbackData.tables }; } throw new _util.FormatError(`TrueType Collection does not contain "${fontName}" font.`); } function readCmapTable(cmap, file, isSymbolicFont, hasEncoding) { if (!cmap) { (0, _util.warn)("No cmap table available."); return { platformId: -1, encodingId: -1, mappings: [], hasShortCmap: false }; } let segment; let start = (file.start || 0) + cmap.offset; file.pos = start; file.skip(2); const numTables = file.getUint16(); let potentialTable; let canBreak = false; for (let i = 0; i < numTables; i++) { const platformId = file.getUint16(); const encodingId = file.getUint16(); const offset = file.getInt32() >>> 0; let useTable = false; if (potentialTable && potentialTable.platformId === platformId && potentialTable.encodingId === encodingId) { continue; } if (platformId === 0 && (encodingId === 0 || encodingId === 1 || encodingId === 3)) { useTable = true; } else if (platformId === 1 && encodingId === 0) { useTable = true; } else if (platformId === 3 && encodingId === 1 && (hasEncoding || !potentialTable)) { useTable = true; if (!isSymbolicFont) { canBreak = true; } } else if (isSymbolicFont && platformId === 3 && encodingId === 0) { useTable = true; let correctlySorted = true; if (i < numTables - 1) { const nextBytes = file.peekBytes(2), nextPlatformId = int16(nextBytes[0], nextBytes[1]); if (nextPlatformId < platformId) { correctlySorted = false; } } if (correctlySorted) { canBreak = true; } } if (useTable) { potentialTable = { platformId, encodingId, offset }; } if (canBreak) { break; } } if (potentialTable) { file.pos = start + potentialTable.offset; } if (!potentialTable || file.peekByte() === -1) { (0, _util.warn)("Could not find a preferred cmap table."); return { platformId: -1, encodingId: -1, mappings: [], hasShortCmap: false }; } const format = file.getUint16(); let hasShortCmap = false; const mappings = []; let j, glyphId; if (format === 0) { file.skip(2 + 2); for (j = 0; j < 256; j++) { const index = file.getByte(); if (!index) { continue; } mappings.push({ charCode: j, glyphId: index }); } hasShortCmap = true; } else if (format === 2) { file.skip(2 + 2); const subHeaderKeys = []; let maxSubHeaderKey = 0; for (let i = 0; i < 256; i++) { const subHeaderKey = file.getUint16() >> 3; subHeaderKeys.push(subHeaderKey); maxSubHeaderKey = Math.max(subHeaderKey, maxSubHeaderKey); } const subHeaders = []; for (let i = 0; i <= maxSubHeaderKey; i++) { subHeaders.push({ firstCode: file.getUint16(), entryCount: file.getUint16(), idDelta: signedInt16(file.getByte(), file.getByte()), idRangePos: file.pos + file.getUint16() }); } for (let i = 0; i < 256; i++) { if (subHeaderKeys[i] === 0) { file.pos = subHeaders[0].idRangePos + 2 * i; glyphId = file.getUint16(); mappings.push({ charCode: i, glyphId }); } else { const s = subHeaders[subHeaderKeys[i]]; for (j = 0; j < s.entryCount; j++) { const charCode = (i << 8) + j + s.firstCode; file.pos = s.idRangePos + 2 * j; glyphId = file.getUint16(); if (glyphId !== 0) { glyphId = (glyphId + s.idDelta) % 65536; } mappings.push({ charCode, glyphId }); } } } } else if (format === 4) { file.skip(2 + 2); const segCount = file.getUint16() >> 1; file.skip(6); const segments = []; let segIndex; for (segIndex = 0; segIndex < segCount; segIndex++) { segments.push({ end: file.getUint16() }); } file.skip(2); for (segIndex = 0; segIndex < segCount; segIndex++) { segments[segIndex].start = file.getUint16(); } for (segIndex = 0; segIndex < segCount; segIndex++) { segments[segIndex].delta = file.getUint16(); } let offsetsCount = 0, offsetIndex; for (segIndex = 0; segIndex < segCount; segIndex++) { segment = segments[segIndex]; const rangeOffset = file.getUint16(); if (!rangeOffset) { segment.offsetIndex = -1; continue; } offsetIndex = (rangeOffset >> 1) - (segCount - segIndex); segment.offsetIndex = offsetIndex; offsetsCount = Math.max(offsetsCount, offsetIndex + segment.end - segment.start + 1); } const offsets = []; for (j = 0; j < offsetsCount; j++) { offsets.push(file.getUint16()); } for (segIndex = 0; segIndex < segCount; segIndex++) { segment = segments[segIndex]; start = segment.start; const end = segment.end; const delta = segment.delta; offsetIndex = segment.offsetIndex; for (j = start; j <= end; j++) { if (j === 0xffff) { continue; } glyphId = offsetIndex < 0 ? j : offsets[offsetIndex + j - start]; glyphId = glyphId + delta & 0xffff; mappings.push({ charCode: j, glyphId }); } } } else if (format === 6) { file.skip(2 + 2); const firstCode = file.getUint16(); const entryCount = file.getUint16(); for (j = 0; j < entryCount; j++) { glyphId = file.getUint16(); const charCode = firstCode + j; mappings.push({ charCode, glyphId }); } } else if (format === 12) { file.skip(2 + 4 + 4); const nGroups = file.getInt32() >>> 0; for (j = 0; j < nGroups; j++) { const startCharCode = file.getInt32() >>> 0; const endCharCode = file.getInt32() >>> 0; let glyphCode = file.getInt32() >>> 0; for (let charCode = startCharCode; charCode <= endCharCode; charCode++) { mappings.push({ charCode, glyphId: glyphCode++ }); } } } else { (0, _util.warn)("cmap table has unsupported format: " + format); return { platformId: -1, encodingId: -1, mappings: [], hasShortCmap: false }; } mappings.sort(function (a, b) { return a.charCode - b.charCode; }); for (let i = 1; i < mappings.length; i++) { if (mappings[i - 1].charCode === mappings[i].charCode) { mappings.splice(i, 1); i--; } } return { platformId: potentialTable.platformId, encodingId: potentialTable.encodingId, mappings, hasShortCmap }; } function sanitizeMetrics(file, header, metrics, headTable, numGlyphs, dupFirstEntry) { if (!header) { if (metrics) { metrics.data = null; } return; } file.pos = (file.start || 0) + header.offset; file.pos += 4; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; file.pos += 2; const caretOffset = file.getUint16(); file.pos += 8; file.pos += 2; let numOfMetrics = file.getUint16(); if (caretOffset !== 0) { const macStyle = int16(headTable.data[44], headTable.data[45]); if (!(macStyle & 2)) { header.data[22] = 0; header.data[23] = 0; } } if (numOfMetrics > numGlyphs) { (0, _util.info)(`The numOfMetrics (${numOfMetrics}) should not be ` + `greater than the numGlyphs (${numGlyphs}).`); numOfMetrics = numGlyphs; header.data[34] = (numOfMetrics & 0xff00) >> 8; header.data[35] = numOfMetrics & 0x00ff; } const numOfSidebearings = numGlyphs - numOfMetrics; const numMissing = numOfSidebearings - (metrics.length - numOfMetrics * 4 >> 1); if (numMissing > 0) { const entries = new Uint8Array(metrics.length + numMissing * 2); entries.set(metrics.data); if (dupFirstEntry) { entries[metrics.length] = metrics.data[2]; entries[metrics.length + 1] = metrics.data[3]; } metrics.data = entries; } } function sanitizeGlyph(source, sourceStart, sourceEnd, dest, destStart, hintsValid) { const glyphProfile = { length: 0, sizeOfInstructions: 0 }; if (sourceEnd - sourceStart <= 12) { return glyphProfile; } const glyf = source.subarray(sourceStart, sourceEnd); let contoursCount = signedInt16(glyf[0], glyf[1]); if (contoursCount < 0) { contoursCount = -1; writeSignedInt16(glyf, 0, contoursCount); dest.set(glyf, destStart); glyphProfile.length = glyf.length; return glyphProfile; } let i, j = 10, flagsCount = 0; for (i = 0; i < contoursCount; i++) { const endPoint = glyf[j] << 8 | glyf[j + 1]; flagsCount = endPoint + 1; j += 2; } const instructionsStart = j; const instructionsLength = glyf[j] << 8 | glyf[j + 1]; glyphProfile.sizeOfInstructions = instructionsLength; j += 2 + instructionsLength; const instructionsEnd = j; let coordinatesLength = 0; for (i = 0; i < flagsCount; i++) { const flag = glyf[j++]; if (flag & 0xc0) { glyf[j - 1] = flag & 0x3f; } let xLength = 2; if (flag & 2) { xLength = 1; } else if (flag & 16) { xLength = 0; } let yLength = 2; if (flag & 4) { yLength = 1; } else if (flag & 32) { yLength = 0; } const xyLength = xLength + yLength; coordinatesLength += xyLength; if (flag & 8) { const repeat = glyf[j++]; i += repeat; coordinatesLength += repeat * xyLength; } } if (coordinatesLength === 0) { return glyphProfile; } let glyphDataLength = j + coordinatesLength; if (glyphDataLength > glyf.length) { return glyphProfile; } if (!hintsValid && instructionsLength > 0) { dest.set(glyf.subarray(0, instructionsStart), destStart); dest.set([0, 0], destStart + instructionsStart); dest.set(glyf.subarray(instructionsEnd, glyphDataLength), destStart + instructionsStart + 2); glyphDataLength -= instructionsLength; if (glyf.length - glyphDataLength > 3) { glyphDataLength = glyphDataLength + 3 & ~3; } glyphProfile.length = glyphDataLength; return glyphProfile; } if (glyf.length - glyphDataLength > 3) { glyphDataLength = glyphDataLength + 3 & ~3; dest.set(glyf.subarray(0, glyphDataLength), destStart); glyphProfile.length = glyphDataLength; return glyphProfile; } dest.set(glyf, destStart); glyphProfile.length = glyf.length; return glyphProfile; } function sanitizeHead(head, numGlyphs, locaLength) { const data = head.data; const version = int32(data[0], data[1], data[2], data[3]); if (version >> 16 !== 1) { (0, _util.info)("Attempting to fix invalid version in head table: " + version); data[0] = 0; data[1] = 1; data[2] = 0; data[3] = 0; } const indexToLocFormat = int16(data[50], data[51]); if (indexToLocFormat < 0 || indexToLocFormat > 1) { (0, _util.info)("Attempting to fix invalid indexToLocFormat in head table: " + indexToLocFormat); const numGlyphsPlusOne = numGlyphs + 1; if (locaLength === numGlyphsPlusOne << 1) { data[50] = 0; data[51] = 0; } else if (locaLength === numGlyphsPlusOne << 2) { data[50] = 0; data[51] = 1; } else { throw new _util.FormatError("Could not fix indexToLocFormat: " + indexToLocFormat); } } } function sanitizeGlyphLocations(loca, glyf, numGlyphs, isGlyphLocationsLong, hintsValid, dupFirstEntry, maxSizeOfInstructions) { let itemSize, itemDecode, itemEncode; if (isGlyphLocationsLong) { itemSize = 4; itemDecode = function fontItemDecodeLong(data, offset) { return data[offset] << 24 | data[offset + 1] << 16 | data[offset + 2] << 8 | data[offset + 3]; }; itemEncode = function fontItemEncodeLong(data, offset, value) { data[offset] = value >>> 24 & 0xff; data[offset + 1] = value >> 16 & 0xff; data[offset + 2] = value >> 8 & 0xff; data[offset + 3] = value & 0xff; }; } else { itemSize = 2; itemDecode = function fontItemDecode(data, offset) { return data[offset] << 9 | data[offset + 1] << 1; }; itemEncode = function fontItemEncode(data, offset, value) { data[offset] = value >> 9 & 0xff; data[offset + 1] = value >> 1 & 0xff; }; } const numGlyphsOut = dupFirstEntry ? numGlyphs + 1 : numGlyphs; const locaDataSize = itemSize * (1 + numGlyphsOut); const locaData = new Uint8Array(locaDataSize); locaData.set(loca.data.subarray(0, locaDataSize)); loca.data = locaData; const oldGlyfData = glyf.data; const oldGlyfDataLength = oldGlyfData.length; const newGlyfData = new Uint8Array(oldGlyfDataLength); let i, j; const locaEntries = []; for (i = 0, j = 0; i < numGlyphs + 1; i++, j += itemSize) { let offset = itemDecode(locaData, j); if (offset > oldGlyfDataLength) { offset = oldGlyfDataLength; } locaEntries.push({ index: i, offset, endOffset: 0 }); } locaEntries.sort((a, b) => { return a.offset - b.offset; }); for (i = 0; i < numGlyphs; i++) { locaEntries[i].endOffset = locaEntries[i + 1].offset; } locaEntries.sort((a, b) => { return a.index - b.index; }); for (i = 0; i < numGlyphs; i++) { const { offset, endOffset } = locaEntries[i]; if (offset !== 0 || endOffset !== 0) { break; } const nextOffset = locaEntries[i + 1].offset; if (nextOffset === 0) { continue; } locaEntries[i].endOffset = nextOffset; break; } const missingGlyphs = Object.create(null); let writeOffset = 0; itemEncode(locaData, 0, writeOffset); for (i = 0, j = itemSize; i < numGlyphs; i++, j += itemSize) { const glyphProfile = sanitizeGlyph(oldGlyfData, locaEntries[i].offset, locaEntries[i].endOffset, newGlyfData, writeOffset, hintsValid); const newLength = glyphProfile.length; if (newLength === 0) { missingGlyphs[i] = true; } if (glyphProfile.sizeOfInstructions > maxSizeOfInstructions) { maxSizeOfInstructions = glyphProfile.sizeOfInstructions; } writeOffset += newLength; itemEncode(locaData, j, writeOffset); } if (writeOffset === 0) { const simpleGlyph = new Uint8Array([0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 49, 0]); for (i = 0, j = itemSize; i < numGlyphsOut; i++, j += itemSize) { itemEncode(locaData, j, simpleGlyph.length); } glyf.data = simpleGlyph; } else if (dupFirstEntry) { const firstEntryLength = itemDecode(locaData, itemSize); if (newGlyfData.length > firstEntryLength + writeOffset) { glyf.data = newGlyfData.subarray(0, firstEntryLength + writeOffset); } else { glyf.data = new Uint8Array(firstEntryLength + writeOffset); glyf.data.set(newGlyfData.subarray(0, writeOffset)); } glyf.data.set(newGlyfData.subarray(0, firstEntryLength), writeOffset); itemEncode(loca.data, locaData.length - itemSize, writeOffset + firstEntryLength); } else { glyf.data = newGlyfData.subarray(0, writeOffset); } return { missingGlyphs, maxSizeOfInstructions }; } function readPostScriptTable(post, propertiesObj, maxpNumGlyphs) { const start = (font.start || 0) + post.offset; font.pos = start; const length = post.length, end = start + length; const version = font.getInt32(); font.skip(28); let glyphNames; let valid = true; let i; switch (version) { case 0x00010000: glyphNames = _fonts_utils.MacStandardGlyphOrdering; break; case 0x00020000: const numGlyphs = font.getUint16(); if (numGlyphs !== maxpNumGlyphs) { valid = false; break; } const glyphNameIndexes = []; for (i = 0; i < numGlyphs; ++i) { const index = font.getUint16(); if (index >= 32768) { valid = false; break; } glyphNameIndexes.push(index); } if (!valid) { break; } const customNames = [], strBuf = []; while (font.pos < end) { const stringLength = font.getByte(); strBuf.length = stringLength; for (i = 0; i < stringLength; ++i) { strBuf[i] = String.fromCharCode(font.getByte()); } customNames.push(strBuf.join("")); } glyphNames = []; for (i = 0; i < numGlyphs; ++i) { const j = glyphNameIndexes[i]; if (j < 258) { glyphNames.push(_fonts_utils.MacStandardGlyphOrdering[j]); continue; } glyphNames.push(customNames[j - 258]); } break; case 0x00030000: break; default: (0, _util.warn)("Unknown/unsupported post table version " + version); valid = false; if (propertiesObj.defaultEncoding) { glyphNames = propertiesObj.defaultEncoding; } break; } propertiesObj.glyphNames = glyphNames; return valid; } function readNameTable(nameTable) { const start = (font.start || 0) + nameTable.offset; font.pos = start; const names = [[], []]; const length = nameTable.length, end = start + length; const format = font.getUint16(); const FORMAT_0_HEADER_LENGTH = 6; if (format !== 0 || length < FORMAT_0_HEADER_LENGTH) { return names; } const numRecords = font.getUint16(); const stringsStart = font.getUint16(); const records = []; const NAME_RECORD_LENGTH = 12; let i, ii; for (i = 0; i < numRecords && font.pos + NAME_RECORD_LENGTH <= end; i++) { const r = { platform: font.getUint16(), encoding: font.getUint16(), language: font.getUint16(), name: font.getUint16(), length: font.getUint16(), offset: font.getUint16() }; if (r.platform === 1 && r.encoding === 0 && r.language === 0 || r.platform === 3 && r.encoding === 1 && r.language === 0x409) { records.push(r); } } for (i = 0, ii = records.length; i < ii; i++) { const record = records[i]; if (record.length <= 0) { continue; } const pos = start + stringsStart + record.offset; if (pos + record.length > end) { continue; } font.pos = pos; const nameIndex = record.name; if (record.encoding) { let str = ""; for (let j = 0, jj = record.length; j < jj; j += 2) { str += String.fromCharCode(font.getUint16()); } names[1][nameIndex] = str; } else { names[0][nameIndex] = font.getString(record.length); } } return names; } const TTOpsStackDeltas = [0, 0, 0, 0, 0, 0, 0, 0, -2, -2, -2, -2, 0, 0, -2, -5, -1, -1, -1, -1, -1, -1, -1, -1, 0, 0, -1, 0, -1, -1, -1, -1, 1, -1, -999, 0, 1, 0, -1, -2, 0, -1, -2, -1, -1, 0, -1, -1, 0, 0, -999, -999, -1, -1, -1, -1, -2, -999, -2, -2, -999, 0, -2, -2, 0, 0, -2, 0, -2, 0, 0, 0, -2, -1, -1, 1, 1, 0, 0, -1, -1, -1, -1, -1, -1, -1, 0, 0, -1, 0, -1, -1, 0, -999, -1, -1, -1, -1, -1, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -2, -999, -999, -999, -999, -999, -1, -1, -2, -2, 0, 0, 0, 0, -1, -1, -999, -2, -2, 0, 0, -1, -2, -2, 0, 0, 0, -1, -1, -1, -2]; function sanitizeTTProgram(table, ttContext) { let data = table.data; let i = 0, j, n, b, funcId, pc, lastEndf = 0, lastDeff = 0; const stack = []; const callstack = []; const functionsCalled = []; let tooComplexToFollowFunctions = ttContext.tooComplexToFollowFunctions; let inFDEF = false, ifLevel = 0, inELSE = 0; for (let ii = data.length; i < ii;) { const op = data[i++]; if (op === 0x40) { n = data[i++]; if (inFDEF || inELSE) { i += n; } else { for (j = 0; j < n; j++) { stack.push(data[i++]); } } } else if (op === 0x41) { n = data[i++]; if (inFDEF || inELSE) { i += n * 2; } else { for (j = 0; j < n; j++) { b = data[i++]; stack.push(b << 8 | data[i++]); } } } else if ((op & 0xf8) === 0xb0) { n = op - 0xb0 + 1; if (inFDEF || inELSE) { i += n; } else { for (j = 0; j < n; j++) { stack.push(data[i++]); } } } else if ((op & 0xf8) === 0xb8) { n = op - 0xb8 + 1; if (inFDEF || inELSE) { i += n * 2; } else { for (j = 0; j < n; j++) { b = data[i++]; stack.push(b << 8 | data[i++]); } } } else if (op === 0x2b && !tooComplexToFollowFunctions) { if (!inFDEF && !inELSE) { funcId = stack.at(-1); if (isNaN(funcId)) { (0, _util.info)("TT: CALL empty stack (or invalid entry)."); } else { ttContext.functionsUsed[funcId] = true; if (funcId in ttContext.functionsStackDeltas) { const newStackLength = stack.length + ttContext.functionsStackDeltas[funcId]; if (newStackLength < 0) { (0, _util.warn)("TT: CALL invalid functions stack delta."); ttContext.hintsValid = false; return; } stack.length = newStackLength; } else if (funcId in ttContext.functionsDefined && !functionsCalled.includes(funcId)) { callstack.push({ data, i, stackTop: stack.length - 1 }); functionsCalled.push(funcId); pc = ttContext.functionsDefined[funcId]; if (!pc) { (0, _util.warn)("TT: CALL non-existent function"); ttContext.hintsValid = false; return; } data = pc.data; i = pc.i; } } } } else if (op === 0x2c && !tooComplexToFollowFunctions) { if (inFDEF || inELSE) { (0, _util.warn)("TT: nested FDEFs not allowed"); tooComplexToFollowFunctions = true; } inFDEF = true; lastDeff = i; funcId = stack.pop(); ttContext.functionsDefined[funcId] = { data, i }; } else if (op === 0x2d) { if (inFDEF) { inFDEF = false; lastEndf = i; } else { pc = callstack.pop(); if (!pc) { (0, _util.warn)("TT: ENDF bad stack"); ttContext.hintsValid = false; return; } funcId = functionsCalled.pop(); data = pc.data; i = pc.i; ttContext.functionsStackDeltas[funcId] = stack.length - pc.stackTop; } } else if (op === 0x89) { if (inFDEF || inELSE) { (0, _util.warn)("TT: nested IDEFs not allowed"); tooComplexToFollowFunctions = true; } inFDEF = true; lastDeff = i; } else if (op === 0x58) { ++ifLevel; } else if (op === 0x1b) { inELSE = ifLevel; } else if (op === 0x59) { if (inELSE === ifLevel) { inELSE = 0; } --ifLevel; } else if (op === 0x1c) { if (!inFDEF && !inELSE) { const offset = stack.at(-1); if (offset > 0) { i += offset - 1; } } } if (!inFDEF && !inELSE) { let stackDelta = 0; if (op <= 0x8e) { stackDelta = TTOpsStackDeltas[op]; } else if (op >= 0xc0 && op <= 0xdf) { stackDelta = -1; } else if (op >= 0xe0) { stackDelta = -2; } if (op >= 0x71 && op <= 0x75) { n = stack.pop(); if (!isNaN(n)) { stackDelta = -n * 2; } } while (stackDelta < 0 && stack.length > 0) { stack.pop(); stackDelta++; } while (stackDelta > 0) { stack.push(NaN); stackDelta--; } } } ttContext.tooComplexToFollowFunctions = tooComplexToFollowFunctions; const content = [data]; if (i > data.length) { content.push(new Uint8Array(i - data.length)); } if (lastDeff > lastEndf) { (0, _util.warn)("TT: complementing a missing function tail"); content.push(new Uint8Array([0x22, 0x2d])); } foldTTTable(table, content); } function checkInvalidFunctions(ttContext, maxFunctionDefs) { if (ttContext.tooComplexToFollowFunctions) { return; } if (ttContext.functionsDefined.length > maxFunctionDefs) { (0, _util.warn)("TT: more functions defined than expected"); ttContext.hintsValid = false; return; } for (let j = 0, jj = ttContext.functionsUsed.length; j < jj; j++) { if (j > maxFunctionDefs) { (0, _util.warn)("TT: invalid function id: " + j); ttContext.hintsValid = false; return; } if (ttContext.functionsUsed[j] && !ttContext.functionsDefined[j]) { (0, _util.warn)("TT: undefined function: " + j); ttContext.hintsValid = false; return; } } } function foldTTTable(table, content) { if (content.length > 1) { let newLength = 0; let j, jj; for (j = 0, jj = content.length; j < jj; j++) { newLength += content[j].length; } newLength = newLength + 3 & ~3; const result = new Uint8Array(newLength); let pos = 0; for (j = 0, jj = content.length; j < jj; j++) { result.set(content[j], pos); pos += content[j].length; } table.data = result; table.length = newLength; } } function sanitizeTTPrograms(fpgm, prep, cvt, maxFunctionDefs) { const ttContext = { functionsDefined: [], functionsUsed: [], functionsStackDeltas: [], tooComplexToFollowFunctions: false, hintsValid: true }; if (fpgm) { sanitizeTTProgram(fpgm, ttContext); } if (prep) { sanitizeTTProgram(prep, ttContext); } if (fpgm) { checkInvalidFunctions(ttContext, maxFunctionDefs); } if (cvt && cvt.length & 1) { const cvtData = new Uint8Array(cvt.length + 1); cvtData.set(cvt.data); cvt.data = cvtData; } return ttContext.hintsValid; } font = new _stream.Stream(new Uint8Array(font.getBytes())); let header, tables; if (isTrueTypeCollectionFile(font)) { const ttcData = readTrueTypeCollectionData(font, this.name); header = ttcData.header; tables = ttcData.tables; } else { header = readOpenTypeHeader(font); tables = readTables(font, header.numTables); } let cff, cffFile; const isTrueType = !tables["CFF "]; if (!isTrueType) { const isComposite = properties.composite && ((properties.cidToGidMap || []).length > 0 || !(properties.cMap instanceof _cmap.IdentityCMap)); if (header.version === "OTTO" && !isComposite || !tables.head || !tables.hhea || !tables.maxp || !tables.post) { cffFile = new _stream.Stream(tables["CFF "].data); cff = new _cff_font.CFFFont(cffFile, properties); adjustWidths(properties); return this.convert(name, cff, properties); } delete tables.glyf; delete tables.loca; delete tables.fpgm; delete tables.prep; delete tables["cvt "]; this.isOpenType = true; } else { if (!tables.loca) { throw new _util.FormatError('Required "loca" table is not found'); } if (!tables.glyf) { (0, _util.warn)('Required "glyf" table is not found -- trying to recover.'); tables.glyf = { tag: "glyf", data: new Uint8Array(0) }; } this.isOpenType = false; } if (!tables.maxp) { throw new _util.FormatError('Required "maxp" table is not found'); } font.pos = (font.start || 0) + tables.maxp.offset; const version = font.getInt32(); const numGlyphs = font.getUint16(); if (properties.scaleFactors && properties.scaleFactors.length === numGlyphs && isTrueType) { const { scaleFactors } = properties; const isGlyphLocationsLong = int16(tables.head.data[50], tables.head.data[51]); const glyphs = new _glyf.GlyfTable({ glyfTable: tables.glyf.data, isGlyphLocationsLong, locaTable: tables.loca.data, numGlyphs }); glyphs.scale(scaleFactors); const { glyf, loca, isLocationLong } = glyphs.write(); tables.glyf.data = glyf; tables.loca.data = loca; if (isLocationLong !== !!isGlyphLocationsLong) { tables.head.data[50] = 0; tables.head.data[51] = isLocationLong ? 1 : 0; } const metrics = tables.hmtx.data; for (let i = 0; i < numGlyphs; i++) { const j = 4 * i; const advanceWidth = Math.round(scaleFactors[i] * int16(metrics[j], metrics[j + 1])); metrics[j] = advanceWidth >> 8 & 0xff; metrics[j + 1] = advanceWidth & 0xff; const lsb = Math.round(scaleFactors[i] * signedInt16(metrics[j + 2], metrics[j + 3])); writeSignedInt16(metrics, j + 2, lsb); } } let numGlyphsOut = numGlyphs + 1; let dupFirstEntry = true; if (numGlyphsOut > 0xffff) { dupFirstEntry = false; numGlyphsOut = numGlyphs; (0, _util.warn)("Not enough space in glyfs to duplicate first glyph."); } let maxFunctionDefs = 0; let maxSizeOfInstructions = 0; if (version >= 0x00010000 && tables.maxp.length >= 22) { font.pos += 8; const maxZones = font.getUint16(); if (maxZones > 2) { tables.maxp.data[14] = 0; tables.maxp.data[15] = 2; } font.pos += 4; maxFunctionDefs = font.getUint16(); font.pos += 4; maxSizeOfInstructions = font.getUint16(); } tables.maxp.data[4] = numGlyphsOut >> 8; tables.maxp.data[5] = numGlyphsOut & 255; const hintsValid = sanitizeTTPrograms(tables.fpgm, tables.prep, tables["cvt "], maxFunctionDefs); if (!hintsValid) { delete tables.fpgm; delete tables.prep; delete tables["cvt "]; } sanitizeMetrics(font, tables.hhea, tables.hmtx, tables.head, numGlyphsOut, dupFirstEntry); if (!tables.head) { throw new _util.FormatError('Required "head" table is not found'); } sanitizeHead(tables.head, numGlyphs, isTrueType ? tables.loca.length : 0); let missingGlyphs = Object.create(null); if (isTrueType) { const isGlyphLocationsLong = int16(tables.head.data[50], tables.head.data[51]); const glyphsInfo = sanitizeGlyphLocations(tables.loca, tables.glyf, numGlyphs, isGlyphLocationsLong, hintsValid, dupFirstEntry, maxSizeOfInstructions); missingGlyphs = glyphsInfo.missingGlyphs; if (version >= 0x00010000 && tables.maxp.length >= 22) { tables.maxp.data[26] = glyphsInfo.maxSizeOfInstructions >> 8; tables.maxp.data[27] = glyphsInfo.maxSizeOfInstructions & 255; } } if (!tables.hhea) { throw new _util.FormatError('Required "hhea" table is not found'); } if (tables.hhea.data[10] === 0 && tables.hhea.data[11] === 0) { tables.hhea.data[10] = 0xff; tables.hhea.data[11] = 0xff; } const metricsOverride = { unitsPerEm: int16(tables.head.data[18], tables.head.data[19]), yMax: int16(tables.head.data[42], tables.head.data[43]), yMin: signedInt16(tables.head.data[38], tables.head.data[39]), ascent: signedInt16(tables.hhea.data[4], tables.hhea.data[5]), descent: signedInt16(tables.hhea.data[6], tables.hhea.data[7]), lineGap: signedInt16(tables.hhea.data[8], tables.hhea.data[9]) }; this.ascent = metricsOverride.ascent / metricsOverride.unitsPerEm; this.descent = metricsOverride.descent / metricsOverride.unitsPerEm; this.lineGap = metricsOverride.lineGap / metricsOverride.unitsPerEm; if (this.cssFontInfo && this.cssFontInfo.lineHeight) { this.lineHeight = this.cssFontInfo.metrics.lineHeight; this.lineGap = this.cssFontInfo.metrics.lineGap; } else { this.lineHeight = this.ascent - this.descent + this.lineGap; } if (tables.post) { readPostScriptTable(tables.post, properties, numGlyphs); } tables.post = { tag: "post", data: createPostTable(properties) }; const charCodeToGlyphId = []; function hasGlyph(glyphId) { return !missingGlyphs[glyphId]; } if (properties.composite) { const cidToGidMap = properties.cidToGidMap || []; const isCidToGidMapEmpty = cidToGidMap.length === 0; properties.cMap.forEach(function (charCode, cid) { if (typeof cid === "string") { cid = convertCidString(charCode, cid, true); } if (cid > 0xffff) { throw new _util.FormatError("Max size of CID is 65,535"); } let glyphId = -1; if (isCidToGidMapEmpty) { glyphId = cid; } else if (cidToGidMap[cid] !== undefined) { glyphId = cidToGidMap[cid]; } if (glyphId >= 0 && glyphId < numGlyphs && hasGlyph(glyphId)) { charCodeToGlyphId[charCode] = glyphId; } }); } else { const cmapTable = readCmapTable(tables.cmap, font, this.isSymbolicFont, properties.hasEncoding); const cmapPlatformId = cmapTable.platformId; const cmapEncodingId = cmapTable.encodingId; const cmapMappings = cmapTable.mappings; const cmapMappingsLength = cmapMappings.length; let baseEncoding = [], forcePostTable = false; if (properties.hasEncoding && (properties.baseEncodingName === "MacRomanEncoding" || properties.baseEncodingName === "WinAnsiEncoding")) { baseEncoding = (0, _encodings.getEncoding)(properties.baseEncodingName); } if (properties.hasEncoding && !this.isSymbolicFont && (cmapPlatformId === 3 && cmapEncodingId === 1 || cmapPlatformId === 1 && cmapEncodingId === 0)) { const glyphsUnicodeMap = (0, _glyphlist.getGlyphsUnicode)(); for (let charCode = 0; charCode < 256; charCode++) { let glyphName; if (this.differences[charCode] !== undefined) { glyphName = this.differences[charCode]; } else if (baseEncoding.length && baseEncoding[charCode] !== "") { glyphName = baseEncoding[charCode]; } else { glyphName = _encodings.StandardEncoding[charCode]; } if (!glyphName) { continue; } const standardGlyphName = (0, _fonts_utils.recoverGlyphName)(glyphName, glyphsUnicodeMap); let unicodeOrCharCode; if (cmapPlatformId === 3 && cmapEncodingId === 1) { unicodeOrCharCode = glyphsUnicodeMap[standardGlyphName]; } else if (cmapPlatformId === 1 && cmapEncodingId === 0) { unicodeOrCharCode = _encodings.MacRomanEncoding.indexOf(standardGlyphName); } if (unicodeOrCharCode === undefined) { if (!properties.glyphNames && properties.hasIncludedToUnicodeMap && !(this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap)) { const unicode = this.toUnicode.get(charCode); if (unicode) { unicodeOrCharCode = unicode.codePointAt(0); } } if (unicodeOrCharCode === undefined) { continue; } } for (let i = 0; i < cmapMappingsLength; ++i) { if (cmapMappings[i].charCode !== unicodeOrCharCode) { continue; } charCodeToGlyphId[charCode] = cmapMappings[i].glyphId; break; } } } else if (cmapPlatformId === 0) { for (let i = 0; i < cmapMappingsLength; ++i) { charCodeToGlyphId[cmapMappings[i].charCode] = cmapMappings[i].glyphId; } forcePostTable = true; } else { for (let i = 0; i < cmapMappingsLength; ++i) { let charCode = cmapMappings[i].charCode; if (cmapPlatformId === 3 && charCode >= 0xf000 && charCode <= 0xf0ff) { charCode &= 0xff; } charCodeToGlyphId[charCode] = cmapMappings[i].glyphId; } } if (properties.glyphNames && (baseEncoding.length || this.differences.length)) { for (let i = 0; i < 256; ++i) { if (!forcePostTable && charCodeToGlyphId[i] !== undefined) { continue; } const glyphName = this.differences[i] || baseEncoding[i]; if (!glyphName) { continue; } const glyphId = properties.glyphNames.indexOf(glyphName); if (glyphId > 0 && hasGlyph(glyphId)) { charCodeToGlyphId[i] = glyphId; } } } } if (charCodeToGlyphId.length === 0) { charCodeToGlyphId[0] = 0; } let glyphZeroId = numGlyphsOut - 1; if (!dupFirstEntry) { glyphZeroId = 0; } if (!properties.cssFontInfo) { const newMapping = adjustMapping(charCodeToGlyphId, hasGlyph, glyphZeroId, this.toUnicode); this.toFontChar = newMapping.toFontChar; tables.cmap = { tag: "cmap", data: createCmapTable(newMapping.charCodeToGlyphId, newMapping.toUnicodeExtraMap, numGlyphsOut) }; if (!tables["OS/2"] || !validateOS2Table(tables["OS/2"], font)) { tables["OS/2"] = { tag: "OS/2", data: createOS2Table(properties, newMapping.charCodeToGlyphId, metricsOverride) }; } } if (!isTrueType) { try { cffFile = new _stream.Stream(tables["CFF "].data); const parser = new _cff_parser.CFFParser(cffFile, properties, _fonts_utils.SEAC_ANALYSIS_ENABLED); cff = parser.parse(); cff.duplicateFirstGlyph(); const compiler = new _cff_parser.CFFCompiler(cff); tables["CFF "].data = compiler.compile(); } catch (e) { (0, _util.warn)("Failed to compile font " + properties.loadedName); } } if (!tables.name) { tables.name = { tag: "name", data: createNameTable(this.name) }; } else { const namePrototype = readNameTable(tables.name); tables.name.data = createNameTable(name, namePrototype); this.psName = namePrototype[0][6] || null; } const builder = new _opentype_file_builder.OpenTypeFileBuilder(header.version); for (const tableTag in tables) { builder.addTable(tableTag, tables[tableTag].data); } return builder.toArray(); } convert(fontName, font, properties) { properties.fixedPitch = false; if (properties.builtInEncoding) { adjustToUnicode(properties, properties.builtInEncoding); } let glyphZeroId = 1; if (font instanceof _cff_font.CFFFont) { glyphZeroId = font.numGlyphs - 1; } const mapping = font.getGlyphMapping(properties); let newMapping = null; let newCharCodeToGlyphId = mapping; let toUnicodeExtraMap = null; if (!properties.cssFontInfo) { newMapping = adjustMapping(mapping, font.hasGlyphId.bind(font), glyphZeroId, this.toUnicode); this.toFontChar = newMapping.toFontChar; newCharCodeToGlyphId = newMapping.charCodeToGlyphId; toUnicodeExtraMap = newMapping.toUnicodeExtraMap; } const numGlyphs = font.numGlyphs; function getCharCodes(charCodeToGlyphId, glyphId) { let charCodes = null; for (const charCode in charCodeToGlyphId) { if (glyphId === charCodeToGlyphId[charCode]) { if (!charCodes) { charCodes = []; } charCodes.push(charCode | 0); } } return charCodes; } function createCharCode(charCodeToGlyphId, glyphId) { for (const charCode in charCodeToGlyphId) { if (glyphId === charCodeToGlyphId[charCode]) { return charCode | 0; } } newMapping.charCodeToGlyphId[newMapping.nextAvailableFontCharCode] = glyphId; return newMapping.nextAvailableFontCharCode++; } const seacs = font.seacs; if (newMapping && _fonts_utils.SEAC_ANALYSIS_ENABLED && seacs && seacs.length) { const matrix = properties.fontMatrix || _util.FONT_IDENTITY_MATRIX; const charset = font.getCharset(); const seacMap = Object.create(null); for (let glyphId in seacs) { glyphId |= 0; const seac = seacs[glyphId]; const baseGlyphName = _encodings.StandardEncoding[seac[2]]; const accentGlyphName = _encodings.StandardEncoding[seac[3]]; const baseGlyphId = charset.indexOf(baseGlyphName); const accentGlyphId = charset.indexOf(accentGlyphName); if (baseGlyphId < 0 || accentGlyphId < 0) { continue; } const accentOffset = { x: seac[0] * matrix[0] + seac[1] * matrix[2] + matrix[4], y: seac[0] * matrix[1] + seac[1] * matrix[3] + matrix[5] }; const charCodes = getCharCodes(mapping, glyphId); if (!charCodes) { continue; } for (let i = 0, ii = charCodes.length; i < ii; i++) { const charCode = charCodes[i]; const charCodeToGlyphId = newMapping.charCodeToGlyphId; const baseFontCharCode = createCharCode(charCodeToGlyphId, baseGlyphId); const accentFontCharCode = createCharCode(charCodeToGlyphId, accentGlyphId); seacMap[charCode] = { baseFontCharCode, accentFontCharCode, accentOffset }; } } properties.seacMap = seacMap; } const unitsPerEm = 1 / (properties.fontMatrix || _util.FONT_IDENTITY_MATRIX)[0]; const builder = new _opentype_file_builder.OpenTypeFileBuilder("\x4F\x54\x54\x4F"); builder.addTable("CFF ", font.data); builder.addTable("OS/2", createOS2Table(properties, newCharCodeToGlyphId)); builder.addTable("cmap", createCmapTable(newCharCodeToGlyphId, toUnicodeExtraMap, numGlyphs)); builder.addTable("head", "\x00\x01\x00\x00" + "\x00\x00\x10\x00" + "\x00\x00\x00\x00" + "\x5F\x0F\x3C\xF5" + "\x00\x00" + safeString16(unitsPerEm) + "\x00\x00\x00\x00\x9e\x0b\x7e\x27" + "\x00\x00\x00\x00\x9e\x0b\x7e\x27" + "\x00\x00" + safeString16(properties.descent) + "\x0F\xFF" + safeString16(properties.ascent) + string16(properties.italicAngle ? 2 : 0) + "\x00\x11" + "\x00\x00" + "\x00\x00" + "\x00\x00"); builder.addTable("hhea", "\x00\x01\x00\x00" + safeString16(properties.ascent) + safeString16(properties.descent) + "\x00\x00" + "\xFF\xFF" + "\x00\x00" + "\x00\x00" + "\x00\x00" + safeString16(properties.capHeight) + safeString16(Math.tan(properties.italicAngle) * properties.xHeight) + "\x00\x00" + "\x00\x00" + "\x00\x00" + "\x00\x00" + "\x00\x00" + "\x00\x00" + string16(numGlyphs)); builder.addTable("hmtx", function fontFieldsHmtx() { const charstrings = font.charstrings; const cffWidths = font.cff ? font.cff.widths : null; let hmtx = "\x00\x00\x00\x00"; for (let i = 1, ii = numGlyphs; i < ii; i++) { let width = 0; if (charstrings) { const charstring = charstrings[i - 1]; width = "width" in charstring ? charstring.width : 0; } else if (cffWidths) { width = Math.ceil(cffWidths[i] || 0); } hmtx += string16(width) + string16(0); } return hmtx; }()); builder.addTable("maxp", "\x00\x00\x50\x00" + string16(numGlyphs)); builder.addTable("name", createNameTable(fontName)); builder.addTable("post", createPostTable(properties)); return builder.toArray(); } get spaceWidth() { const possibleSpaceReplacements = ["space", "minus", "one", "i", "I"]; let width; for (let i = 0, ii = possibleSpaceReplacements.length; i < ii; i++) { const glyphName = possibleSpaceReplacements[i]; if (glyphName in this.widths) { width = this.widths[glyphName]; break; } const glyphsUnicodeMap = (0, _glyphlist.getGlyphsUnicode)(); const glyphUnicode = glyphsUnicodeMap[glyphName]; let charcode = 0; if (this.composite && this.cMap.contains(glyphUnicode)) { charcode = this.cMap.lookup(glyphUnicode); if (typeof charcode === "string") { charcode = convertCidString(glyphUnicode, charcode); } } if (!charcode && this.toUnicode) { charcode = this.toUnicode.charCodeOf(glyphUnicode); } if (charcode <= 0) { charcode = glyphUnicode; } width = this.widths[charcode]; if (width) { break; } } width = width || this.defaultWidth; return (0, _util.shadow)(this, "spaceWidth", width); } _charToGlyph(charcode, isSpace = false) { let fontCharCode, width, operatorListId; let widthCode = charcode; if (this.cMap && this.cMap.contains(charcode)) { widthCode = this.cMap.lookup(charcode); if (typeof widthCode === "string") { widthCode = convertCidString(charcode, widthCode); } } width = this.widths[widthCode]; if (typeof width !== "number") { width = this.defaultWidth; } const vmetric = this.vmetrics && this.vmetrics[widthCode]; let unicode = this.toUnicode.get(charcode) || charcode; if (typeof unicode === "number") { unicode = String.fromCharCode(unicode); } let isInFont = this.toFontChar[charcode] !== undefined; fontCharCode = this.toFontChar[charcode] || charcode; if (this.missingFile) { const glyphName = this.differences[charcode] || this.defaultEncoding[charcode]; if ((glyphName === ".notdef" || glyphName === "") && this.type === "Type1") { fontCharCode = 0x20; } fontCharCode = (0, _unicode.mapSpecialUnicodeValues)(fontCharCode); } if (this.isType3Font) { operatorListId = fontCharCode; } let accent = null; if (this.seacMap && this.seacMap[charcode]) { isInFont = true; const seac = this.seacMap[charcode]; fontCharCode = seac.baseFontCharCode; accent = { fontChar: String.fromCodePoint(seac.accentFontCharCode), offset: seac.accentOffset }; } let fontChar = ""; if (typeof fontCharCode === "number") { if (fontCharCode <= 0x10ffff) { fontChar = String.fromCodePoint(fontCharCode); } else { (0, _util.warn)(`charToGlyph - invalid fontCharCode: ${fontCharCode}`); } } let glyph = this._glyphCache[charcode]; if (!glyph || !glyph.matchesForCache(charcode, fontChar, unicode, accent, width, vmetric, operatorListId, isSpace, isInFont)) { glyph = new Glyph(charcode, fontChar, unicode, accent, width, vmetric, operatorListId, isSpace, isInFont); this._glyphCache[charcode] = glyph; } return glyph; } charsToGlyphs(chars) { let glyphs = this._charsCache[chars]; if (glyphs) { return glyphs; } glyphs = []; if (this.cMap) { const c = Object.create(null), ii = chars.length; let i = 0; while (i < ii) { this.cMap.readCharCode(chars, i, c); const { charcode, length } = c; i += length; const glyph = this._charToGlyph(charcode, length === 1 && chars.charCodeAt(i - 1) === 0x20); glyphs.push(glyph); } } else { for (let i = 0, ii = chars.length; i < ii; ++i) { const charcode = chars.charCodeAt(i); const glyph = this._charToGlyph(charcode, charcode === 0x20); glyphs.push(glyph); } } return this._charsCache[chars] = glyphs; } getCharPositions(chars) { const positions = []; if (this.cMap) { const c = Object.create(null); let i = 0; while (i < chars.length) { this.cMap.readCharCode(chars, i, c); const length = c.length; positions.push([i, i + length]); i += length; } } else { for (let i = 0, ii = chars.length; i < ii; ++i) { positions.push([i, i + 1]); } } return positions; } get glyphCacheValues() { return Object.values(this._glyphCache); } encodeString(str) { const buffers = []; const currentBuf = []; const hasCurrentBufErrors = () => buffers.length % 2 === 1; const getCharCode = this.toUnicode instanceof _to_unicode_map.IdentityToUnicodeMap ? unicode => this.toUnicode.charCodeOf(unicode) : unicode => this.toUnicode.charCodeOf(String.fromCodePoint(unicode)); for (let i = 0, ii = str.length; i < ii; i++) { const unicode = str.codePointAt(i); if (unicode > 0xd7ff && (unicode < 0xe000 || unicode > 0xfffd)) { i++; } if (this.toUnicode) { const charCode = getCharCode(unicode); if (charCode !== -1) { if (hasCurrentBufErrors()) { buffers.push(currentBuf.join("")); currentBuf.length = 0; } const charCodeLength = this.cMap ? this.cMap.getCharCodeLength(charCode) : 1; for (let j = charCodeLength - 1; j >= 0; j--) { currentBuf.push(String.fromCharCode(charCode >> 8 * j & 0xff)); } continue; } } if (!hasCurrentBufErrors()) { buffers.push(currentBuf.join("")); currentBuf.length = 0; } currentBuf.push(String.fromCodePoint(unicode)); } buffers.push(currentBuf.join("")); return buffers; } } exports.Font = Font; class ErrorFont { constructor(error) { this.error = error; this.loadedName = "g_font_error"; this.missingFile = true; } charsToGlyphs() { return []; } encodeString(chars) { return [chars]; } exportData(extraProperties = false) { return { error: this.error }; } } exports.ErrorFont = ErrorFont;