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pdfjs-dist

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Generic build of Mozilla's PDF.js library.

mozilla.github.io/pdf.js/

mozilla/pdfjs-dist

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JavaScript

/** * @licstart The following is the entire license notice for the * JavaScript code in this page * * Copyright 2023 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 */ (function webpackUniversalModuleDefinition(root, factory) { if(typeof exports === 'object' && typeof module === 'object') module.exports = root.pdfjsImageDecoders = factory(); else if(typeof define === 'function' && define.amd) define("pdfjs-dist/image_decoders/pdf.image_decoders", [], () => { return (root.pdfjsImageDecoders = factory()); }); else if(typeof exports === 'object') exports["pdfjs-dist/image_decoders/pdf.image_decoders"] = root.pdfjsImageDecoders = factory(); else root["pdfjs-dist/image_decoders/pdf.image_decoders"] = root.pdfjsImageDecoders = factory(); })(globalThis, () => { return /******/ (() => { // webpackBootstrap /******/ "use strict"; /******/ var __webpack_modules__ = ([ /* 0 */, /* 1 */ /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.VerbosityLevel = exports.Util = exports.UnknownErrorException = exports.UnexpectedResponseException = exports.TextRenderingMode = exports.RenderingIntentFlag = exports.PromiseCapability = exports.PermissionFlag = exports.PasswordResponses = exports.PasswordException = exports.PageActionEventType = exports.OPS = exports.MissingPDFException = exports.MAX_IMAGE_SIZE_TO_CACHE = exports.LINE_FACTOR = exports.LINE_DESCENT_FACTOR = exports.InvalidPDFException = exports.ImageKind = exports.IDENTITY_MATRIX = exports.FormatError = exports.FeatureTest = exports.FONT_IDENTITY_MATRIX = exports.DocumentActionEventType = exports.CMapCompressionType = exports.BaseException = exports.BASELINE_FACTOR = exports.AnnotationType = exports.AnnotationReplyType = exports.AnnotationPrefix = exports.AnnotationMode = exports.AnnotationFlag = exports.AnnotationFieldFlag = exports.AnnotationEditorType = exports.AnnotationEditorPrefix = exports.AnnotationEditorParamsType = exports.AnnotationBorderStyleType = exports.AnnotationActionEventType = exports.AbortException = void 0; exports.assert = assert; exports.bytesToString = bytesToString; exports.createValidAbsoluteUrl = createValidAbsoluteUrl; exports.getModificationDate = getModificationDate; exports.getUuid = getUuid; exports.getVerbosityLevel = getVerbosityLevel; exports.info = info; exports.isArrayBuffer = isArrayBuffer; exports.isArrayEqual = isArrayEqual; exports.isNodeJS = void 0; exports.normalizeUnicode = normalizeUnicode; exports.objectFromMap = objectFromMap; exports.objectSize = objectSize; exports.setVerbosityLevel = setVerbosityLevel; exports.shadow = shadow; exports.string32 = string32; exports.stringToBytes = stringToBytes; exports.stringToPDFString = stringToPDFString; exports.stringToUTF8String = stringToUTF8String; exports.unreachable = unreachable; exports.utf8StringToString = utf8StringToString; exports.warn = warn; const isNodeJS = typeof process === "object" && process + "" === "[object process]" && !process.versions.nw && !(process.versions.electron && process.type && process.type !== "browser"); exports.isNodeJS = isNodeJS; const IDENTITY_MATRIX = [1, 0, 0, 1, 0, 0]; exports.IDENTITY_MATRIX = IDENTITY_MATRIX; const FONT_IDENTITY_MATRIX = [0.001, 0, 0, 0.001, 0, 0]; exports.FONT_IDENTITY_MATRIX = FONT_IDENTITY_MATRIX; const MAX_IMAGE_SIZE_TO_CACHE = 10e6; exports.MAX_IMAGE_SIZE_TO_CACHE = MAX_IMAGE_SIZE_TO_CACHE; const LINE_FACTOR = 1.35; exports.LINE_FACTOR = LINE_FACTOR; const LINE_DESCENT_FACTOR = 0.35; exports.LINE_DESCENT_FACTOR = LINE_DESCENT_FACTOR; const BASELINE_FACTOR = LINE_DESCENT_FACTOR / LINE_FACTOR; exports.BASELINE_FACTOR = BASELINE_FACTOR; const RenderingIntentFlag = { ANY: 0x01, DISPLAY: 0x02, PRINT: 0x04, SAVE: 0x08, ANNOTATIONS_FORMS: 0x10, ANNOTATIONS_STORAGE: 0x20, ANNOTATIONS_DISABLE: 0x40, OPLIST: 0x100 }; exports.RenderingIntentFlag = RenderingIntentFlag; const AnnotationMode = { DISABLE: 0, ENABLE: 1, ENABLE_FORMS: 2, ENABLE_STORAGE: 3 }; exports.AnnotationMode = AnnotationMode; const AnnotationEditorPrefix = "pdfjs_internal_editor_"; exports.AnnotationEditorPrefix = AnnotationEditorPrefix; const AnnotationEditorType = { DISABLE: -1, NONE: 0, FREETEXT: 3, STAMP: 13, INK: 15 }; exports.AnnotationEditorType = AnnotationEditorType; const AnnotationEditorParamsType = { RESIZE: 1, CREATE: 2, FREETEXT_SIZE: 11, FREETEXT_COLOR: 12, FREETEXT_OPACITY: 13, INK_COLOR: 21, INK_THICKNESS: 22, INK_OPACITY: 23 }; exports.AnnotationEditorParamsType = AnnotationEditorParamsType; const PermissionFlag = { PRINT: 0x04, MODIFY_CONTENTS: 0x08, COPY: 0x10, MODIFY_ANNOTATIONS: 0x20, FILL_INTERACTIVE_FORMS: 0x100, COPY_FOR_ACCESSIBILITY: 0x200, ASSEMBLE: 0x400, PRINT_HIGH_QUALITY: 0x800 }; exports.PermissionFlag = PermissionFlag; const TextRenderingMode = { FILL: 0, STROKE: 1, FILL_STROKE: 2, INVISIBLE: 3, FILL_ADD_TO_PATH: 4, STROKE_ADD_TO_PATH: 5, FILL_STROKE_ADD_TO_PATH: 6, ADD_TO_PATH: 7, FILL_STROKE_MASK: 3, ADD_TO_PATH_FLAG: 4 }; exports.TextRenderingMode = TextRenderingMode; const ImageKind = { GRAYSCALE_1BPP: 1, RGB_24BPP: 2, RGBA_32BPP: 3 }; exports.ImageKind = ImageKind; const AnnotationType = { TEXT: 1, LINK: 2, FREETEXT: 3, LINE: 4, SQUARE: 5, CIRCLE: 6, POLYGON: 7, POLYLINE: 8, HIGHLIGHT: 9, UNDERLINE: 10, SQUIGGLY: 11, STRIKEOUT: 12, STAMP: 13, CARET: 14, INK: 15, POPUP: 16, FILEATTACHMENT: 17, SOUND: 18, MOVIE: 19, WIDGET: 20, SCREEN: 21, PRINTERMARK: 22, TRAPNET: 23, WATERMARK: 24, THREED: 25, REDACT: 26 }; exports.AnnotationType = AnnotationType; const AnnotationReplyType = { GROUP: "Group", REPLY: "R" }; exports.AnnotationReplyType = AnnotationReplyType; const AnnotationFlag = { INVISIBLE: 0x01, HIDDEN: 0x02, PRINT: 0x04, NOZOOM: 0x08, NOROTATE: 0x10, NOVIEW: 0x20, READONLY: 0x40, LOCKED: 0x80, TOGGLENOVIEW: 0x100, LOCKEDCONTENTS: 0x200 }; exports.AnnotationFlag = AnnotationFlag; const AnnotationFieldFlag = { READONLY: 0x0000001, REQUIRED: 0x0000002, NOEXPORT: 0x0000004, MULTILINE: 0x0001000, PASSWORD: 0x0002000, NOTOGGLETOOFF: 0x0004000, RADIO: 0x0008000, PUSHBUTTON: 0x0010000, COMBO: 0x0020000, EDIT: 0x0040000, SORT: 0x0080000, FILESELECT: 0x0100000, MULTISELECT: 0x0200000, DONOTSPELLCHECK: 0x0400000, DONOTSCROLL: 0x0800000, COMB: 0x1000000, RICHTEXT: 0x2000000, RADIOSINUNISON: 0x2000000, COMMITONSELCHANGE: 0x4000000 }; exports.AnnotationFieldFlag = AnnotationFieldFlag; const AnnotationBorderStyleType = { SOLID: 1, DASHED: 2, BEVELED: 3, INSET: 4, UNDERLINE: 5 }; exports.AnnotationBorderStyleType = AnnotationBorderStyleType; const AnnotationActionEventType = { E: "Mouse Enter", X: "Mouse Exit", D: "Mouse Down", U: "Mouse Up", Fo: "Focus", Bl: "Blur", PO: "PageOpen", PC: "PageClose", PV: "PageVisible", PI: "PageInvisible", K: "Keystroke", F: "Format", V: "Validate", C: "Calculate" }; exports.AnnotationActionEventType = AnnotationActionEventType; const DocumentActionEventType = { WC: "WillClose", WS: "WillSave", DS: "DidSave", WP: "WillPrint", DP: "DidPrint" }; exports.DocumentActionEventType = DocumentActionEventType; const PageActionEventType = { O: "PageOpen", C: "PageClose" }; exports.PageActionEventType = PageActionEventType; const VerbosityLevel = { ERRORS: 0, WARNINGS: 1, INFOS: 5 }; exports.VerbosityLevel = VerbosityLevel; const CMapCompressionType = { NONE: 0, BINARY: 1 }; exports.CMapCompressionType = CMapCompressionType; const OPS = { dependency: 1, setLineWidth: 2, setLineCap: 3, setLineJoin: 4, setMiterLimit: 5, setDash: 6, setRenderingIntent: 7, setFlatness: 8, setGState: 9, save: 10, restore: 11, transform: 12, moveTo: 13, lineTo: 14, curveTo: 15, curveTo2: 16, curveTo3: 17, closePath: 18, rectangle: 19, stroke: 20, closeStroke: 21, fill: 22, eoFill: 23, fillStroke: 24, eoFillStroke: 25, closeFillStroke: 26, closeEOFillStroke: 27, endPath: 28, clip: 29, eoClip: 30, beginText: 31, endText: 32, setCharSpacing: 33, setWordSpacing: 34, setHScale: 35, setLeading: 36, setFont: 37, setTextRenderingMode: 38, setTextRise: 39, moveText: 40, setLeadingMoveText: 41, setTextMatrix: 42, nextLine: 43, showText: 44, showSpacedText: 45, nextLineShowText: 46, nextLineSetSpacingShowText: 47, setCharWidth: 48, setCharWidthAndBounds: 49, setStrokeColorSpace: 50, setFillColorSpace: 51, setStrokeColor: 52, setStrokeColorN: 53, setFillColor: 54, setFillColorN: 55, setStrokeGray: 56, setFillGray: 57, setStrokeRGBColor: 58, setFillRGBColor: 59, setStrokeCMYKColor: 60, setFillCMYKColor: 61, shadingFill: 62, beginInlineImage: 63, beginImageData: 64, endInlineImage: 65, paintXObject: 66, markPoint: 67, markPointProps: 68, beginMarkedContent: 69, beginMarkedContentProps: 70, endMarkedContent: 71, beginCompat: 72, endCompat: 73, paintFormXObjectBegin: 74, paintFormXObjectEnd: 75, beginGroup: 76, endGroup: 77, beginAnnotation: 80, endAnnotation: 81, paintImageMaskXObject: 83, paintImageMaskXObjectGroup: 84, paintImageXObject: 85, paintInlineImageXObject: 86, paintInlineImageXObjectGroup: 87, paintImageXObjectRepeat: 88, paintImageMaskXObjectRepeat: 89, paintSolidColorImageMask: 90, constructPath: 91 }; exports.OPS = OPS; const PasswordResponses = { NEED_PASSWORD: 1, INCORRECT_PASSWORD: 2 }; exports.PasswordResponses = PasswordResponses; let verbosity = VerbosityLevel.WARNINGS; function setVerbosityLevel(level) { if (Number.isInteger(level)) { verbosity = level; } } function getVerbosityLevel() { return verbosity; } function info(msg) { if (verbosity >= VerbosityLevel.INFOS) { console.log(`Info: ${msg}`); } } function warn(msg) { if (verbosity >= VerbosityLevel.WARNINGS) { console.log(`Warning: ${msg}`); } } function unreachable(msg) { throw new Error(msg); } function assert(cond, msg) { if (!cond) { unreachable(msg); } } function _isValidProtocol(url) { switch (url?.protocol) { case "http:": case "https:": case "ftp:": case "mailto:": case "tel:": return true; default: return false; } } function createValidAbsoluteUrl(url, baseUrl = null, options = null) { if (!url) { return null; } try { if (options && typeof url === "string") { if (options.addDefaultProtocol && url.startsWith("www.")) { const dots = url.match(/\./g); if (dots?.length >= 2) { url = `http://${url}`; } } if (options.tryConvertEncoding) { try { url = stringToUTF8String(url); } catch {} } } const absoluteUrl = baseUrl ? new URL(url, baseUrl) : new URL(url); if (_isValidProtocol(absoluteUrl)) { return absoluteUrl; } } catch {} return null; } function shadow(obj, prop, value, nonSerializable = false) { Object.defineProperty(obj, prop, { value, enumerable: !nonSerializable, configurable: true, writable: false }); return value; } const BaseException = function BaseExceptionClosure() { function BaseException(message, name) { if (this.constructor === BaseException) { unreachable("Cannot initialize BaseException."); } this.message = message; this.name = name; } BaseException.prototype = new Error(); BaseException.constructor = BaseException; return BaseException; }(); exports.BaseException = BaseException; class PasswordException extends BaseException { constructor(msg, code) { super(msg, "PasswordException"); this.code = code; } } exports.PasswordException = PasswordException; class UnknownErrorException extends BaseException { constructor(msg, details) { super(msg, "UnknownErrorException"); this.details = details; } } exports.UnknownErrorException = UnknownErrorException; class InvalidPDFException extends BaseException { constructor(msg) { super(msg, "InvalidPDFException"); } } exports.InvalidPDFException = InvalidPDFException; class MissingPDFException extends BaseException { constructor(msg) { super(msg, "MissingPDFException"); } } exports.MissingPDFException = MissingPDFException; class UnexpectedResponseException extends BaseException { constructor(msg, status) { super(msg, "UnexpectedResponseException"); this.status = status; } } exports.UnexpectedResponseException = UnexpectedResponseException; class FormatError extends BaseException { constructor(msg) { super(msg, "FormatError"); } } exports.FormatError = FormatError; class AbortException extends BaseException { constructor(msg) { super(msg, "AbortException"); } } exports.AbortException = AbortException; function bytesToString(bytes) { if (typeof bytes !== "object" || bytes?.length === undefined) { unreachable("Invalid argument for bytesToString"); } const length = bytes.length; const MAX_ARGUMENT_COUNT = 8192; if (length < MAX_ARGUMENT_COUNT) { return String.fromCharCode.apply(null, bytes); } const strBuf = []; for (let i = 0; i < length; i += MAX_ARGUMENT_COUNT) { const chunkEnd = Math.min(i + MAX_ARGUMENT_COUNT, length); const chunk = bytes.subarray(i, chunkEnd); strBuf.push(String.fromCharCode.apply(null, chunk)); } return strBuf.join(""); } function stringToBytes(str) { if (typeof str !== "string") { unreachable("Invalid argument for stringToBytes"); } const length = str.length; const bytes = new Uint8Array(length); for (let i = 0; i < length; ++i) { bytes[i] = str.charCodeAt(i) & 0xff; } return bytes; } function string32(value) { return String.fromCharCode(value >> 24 & 0xff, value >> 16 & 0xff, value >> 8 & 0xff, value & 0xff); } function objectSize(obj) { return Object.keys(obj).length; } function objectFromMap(map) { const obj = Object.create(null); for (const [key, value] of map) { obj[key] = value; } return obj; } function isLittleEndian() { const buffer8 = new Uint8Array(4); buffer8[0] = 1; const view32 = new Uint32Array(buffer8.buffer, 0, 1); return view32[0] === 1; } function isEvalSupported() { try { new Function(""); return true; } catch { return false; } } class FeatureTest { static get isLittleEndian() { return shadow(this, "isLittleEndian", isLittleEndian()); } static get isEvalSupported() { return shadow(this, "isEvalSupported", isEvalSupported()); } static get isOffscreenCanvasSupported() { return shadow(this, "isOffscreenCanvasSupported", typeof OffscreenCanvas !== "undefined"); } static get platform() { if (typeof navigator === "undefined") { return shadow(this, "platform", { isWin: false, isMac: false }); } return shadow(this, "platform", { isWin: navigator.platform.includes("Win"), isMac: navigator.platform.includes("Mac") }); } static get isCSSRoundSupported() { return shadow(this, "isCSSRoundSupported", globalThis.CSS?.supports?.("width: round(1.5px, 1px)")); } } exports.FeatureTest = FeatureTest; const hexNumbers = [...Array(256).keys()].map(n => n.toString(16).padStart(2, "0")); class Util { static makeHexColor(r, g, b) { return `#${hexNumbers[r]}${hexNumbers[g]}${hexNumbers[b]}`; } static scaleMinMax(transform, minMax) { let temp; if (transform[0]) { if (transform[0] < 0) { temp = minMax[0]; minMax[0] = minMax[1]; minMax[1] = temp; } minMax[0] *= transform[0]; minMax[1] *= transform[0]; if (transform[3] < 0) { temp = minMax[2]; minMax[2] = minMax[3]; minMax[3] = temp; } minMax[2] *= transform[3]; minMax[3] *= transform[3]; } else { temp = minMax[0]; minMax[0] = minMax[2]; minMax[2] = temp; temp = minMax[1]; minMax[1] = minMax[3]; minMax[3] = temp; if (transform[1] < 0) { temp = minMax[2]; minMax[2] = minMax[3]; minMax[3] = temp; } minMax[2] *= transform[1]; minMax[3] *= transform[1]; if (transform[2] < 0) { temp = minMax[0]; minMax[0] = minMax[1]; minMax[1] = temp; } minMax[0] *= transform[2]; minMax[1] *= transform[2]; } minMax[0] += transform[4]; minMax[1] += transform[4]; minMax[2] += transform[5]; minMax[3] += transform[5]; } static transform(m1, m2) { return [m1[0] * m2[0] + m1[2] * m2[1], m1[1] * m2[0] + m1[3] * m2[1], m1[0] * m2[2] + m1[2] * m2[3], m1[1] * m2[2] + m1[3] * m2[3], m1[0] * m2[4] + m1[2] * m2[5] + m1[4], m1[1] * m2[4] + m1[3] * m2[5] + m1[5]]; } static applyTransform(p, m) { const xt = p[0] * m[0] + p[1] * m[2] + m[4]; const yt = p[0] * m[1] + p[1] * m[3] + m[5]; return [xt, yt]; } static applyInverseTransform(p, m) { const d = m[0] * m[3] - m[1] * m[2]; const xt = (p[0] * m[3] - p[1] * m[2] + m[2] * m[5] - m[4] * m[3]) / d; const yt = (-p[0] * m[1] + p[1] * m[0] + m[4] * m[1] - m[5] * m[0]) / d; return [xt, yt]; } static getAxialAlignedBoundingBox(r, m) { const p1 = this.applyTransform(r, m); const p2 = this.applyTransform(r.slice(2, 4), m); const p3 = this.applyTransform([r[0], r[3]], m); const p4 = this.applyTransform([r[2], r[1]], m); return [Math.min(p1[0], p2[0], p3[0], p4[0]), Math.min(p1[1], p2[1], p3[1], p4[1]), Math.max(p1[0], p2[0], p3[0], p4[0]), Math.max(p1[1], p2[1], p3[1], p4[1])]; } static inverseTransform(m) { const d = m[0] * m[3] - m[1] * m[2]; return [m[3] / d, -m[1] / d, -m[2] / d, m[0] / d, (m[2] * m[5] - m[4] * m[3]) / d, (m[4] * m[1] - m[5] * m[0]) / d]; } static singularValueDecompose2dScale(m) { const transpose = [m[0], m[2], m[1], m[3]]; const a = m[0] * transpose[0] + m[1] * transpose[2]; const b = m[0] * transpose[1] + m[1] * transpose[3]; const c = m[2] * transpose[0] + m[3] * transpose[2]; const d = m[2] * transpose[1] + m[3] * transpose[3]; const first = (a + d) / 2; const second = Math.sqrt((a + d) ** 2 - 4 * (a * d - c * b)) / 2; const sx = first + second || 1; const sy = first - second || 1; return [Math.sqrt(sx), Math.sqrt(sy)]; } static normalizeRect(rect) { const r = rect.slice(0); if (rect[0] > rect[2]) { r[0] = rect[2]; r[2] = rect[0]; } if (rect[1] > rect[3]) { r[1] = rect[3]; r[3] = rect[1]; } return r; } static intersect(rect1, rect2) { const xLow = Math.max(Math.min(rect1[0], rect1[2]), Math.min(rect2[0], rect2[2])); const xHigh = Math.min(Math.max(rect1[0], rect1[2]), Math.max(rect2[0], rect2[2])); if (xLow > xHigh) { return null; } const yLow = Math.max(Math.min(rect1[1], rect1[3]), Math.min(rect2[1], rect2[3])); const yHigh = Math.min(Math.max(rect1[1], rect1[3]), Math.max(rect2[1], rect2[3])); if (yLow > yHigh) { return null; } return [xLow, yLow, xHigh, yHigh]; } static bezierBoundingBox(x0, y0, x1, y1, x2, y2, x3, y3) { const tvalues = [], bounds = [[], []]; let a, b, c, t, t1, t2, b2ac, sqrtb2ac; for (let i = 0; i < 2; ++i) { if (i === 0) { b = 6 * x0 - 12 * x1 + 6 * x2; a = -3 * x0 + 9 * x1 - 9 * x2 + 3 * x3; c = 3 * x1 - 3 * x0; } else { b = 6 * y0 - 12 * y1 + 6 * y2; a = -3 * y0 + 9 * y1 - 9 * y2 + 3 * y3; c = 3 * y1 - 3 * y0; } if (Math.abs(a) < 1e-12) { if (Math.abs(b) < 1e-12) { continue; } t = -c / b; if (0 < t && t < 1) { tvalues.push(t); } continue; } b2ac = b * b - 4 * c * a; sqrtb2ac = Math.sqrt(b2ac); if (b2ac < 0) { continue; } t1 = (-b + sqrtb2ac) / (2 * a); if (0 < t1 && t1 < 1) { tvalues.push(t1); } t2 = (-b - sqrtb2ac) / (2 * a); if (0 < t2 && t2 < 1) { tvalues.push(t2); } } let j = tvalues.length, mt; const jlen = j; while (j--) { t = tvalues[j]; mt = 1 - t; bounds[0][j] = mt * mt * mt * x0 + 3 * mt * mt * t * x1 + 3 * mt * t * t * x2 + t * t * t * x3; bounds[1][j] = mt * mt * mt * y0 + 3 * mt * mt * t * y1 + 3 * mt * t * t * y2 + t * t * t * y3; } bounds[0][jlen] = x0; bounds[1][jlen] = y0; bounds[0][jlen + 1] = x3; bounds[1][jlen + 1] = y3; bounds[0].length = bounds[1].length = jlen + 2; return [Math.min(...bounds[0]), Math.min(...bounds[1]), Math.max(...bounds[0]), Math.max(...bounds[1])]; } } exports.Util = Util; const PDFStringTranslateTable = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2d8, 0x2c7, 0x2c6, 0x2d9, 0x2dd, 0x2db, 0x2da, 0x2dc, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2022, 0x2020, 0x2021, 0x2026, 0x2014, 0x2013, 0x192, 0x2044, 0x2039, 0x203a, 0x2212, 0x2030, 0x201e, 0x201c, 0x201d, 0x2018, 0x2019, 0x201a, 0x2122, 0xfb01, 0xfb02, 0x141, 0x152, 0x160, 0x178, 0x17d, 0x131, 0x142, 0x153, 0x161, 0x17e, 0, 0x20ac]; function stringToPDFString(str) { if (str[0] >= "\xEF") { let encoding; if (str[0] === "\xFE" && str[1] === "\xFF") { encoding = "utf-16be"; } else if (str[0] === "\xFF" && str[1] === "\xFE") { encoding = "utf-16le"; } else if (str[0] === "\xEF" && str[1] === "\xBB" && str[2] === "\xBF") { encoding = "utf-8"; } if (encoding) { try { const decoder = new TextDecoder(encoding, { fatal: true }); const buffer = stringToBytes(str); return decoder.decode(buffer); } catch (ex) { warn(`stringToPDFString: "${ex}".`); } } } const strBuf = []; for (let i = 0, ii = str.length; i < ii; i++) { const code = PDFStringTranslateTable[str.charCodeAt(i)]; strBuf.push(code ? String.fromCharCode(code) : str.charAt(i)); } return strBuf.join(""); } function stringToUTF8String(str) { return decodeURIComponent(escape(str)); } function utf8StringToString(str) { return unescape(encodeURIComponent(str)); } function isArrayBuffer(v) { return typeof v === "object" && v?.byteLength !== undefined; } function isArrayEqual(arr1, arr2) { if (arr1.length !== arr2.length) { return false; } for (let i = 0, ii = arr1.length; i < ii; i++) { if (arr1[i] !== arr2[i]) { return false; } } return true; } function getModificationDate(date = new Date()) { const buffer = [date.getUTCFullYear().toString(), (date.getUTCMonth() + 1).toString().padStart(2, "0"), date.getUTCDate().toString().padStart(2, "0"), date.getUTCHours().toString().padStart(2, "0"), date.getUTCMinutes().toString().padStart(2, "0"), date.getUTCSeconds().toString().padStart(2, "0")]; return buffer.join(""); } class PromiseCapability { #settled = false; constructor() { this.promise = new Promise((resolve, reject) => { this.resolve = data => { this.#settled = true; resolve(data); }; this.reject = reason => { this.#settled = true; reject(reason); }; }); } get settled() { return this.#settled; } } exports.PromiseCapability = PromiseCapability; let NormalizeRegex = null; let NormalizationMap = null; function normalizeUnicode(str) { if (!NormalizeRegex) { NormalizeRegex = /([\u00a0\u00b5\u037e\u0eb3\u2000-\u200a\u202f\u2126\ufb00-\ufb04\ufb06\ufb20-\ufb36\ufb38-\ufb3c\ufb3e\ufb40-\ufb41\ufb43-\ufb44\ufb46-\ufba1\ufba4-\ufba9\ufbae-\ufbb1\ufbd3-\ufbdc\ufbde-\ufbe7\ufbea-\ufbf8\ufbfc-\ufbfd\ufc00-\ufc5d\ufc64-\ufcf1\ufcf5-\ufd3d\ufd88\ufdf4\ufdfa-\ufdfb\ufe71\ufe77\ufe79\ufe7b\ufe7d]+)|(\ufb05+)/gu; NormalizationMap = new Map([["ﬅ", "ſt"]]); } return str.replaceAll(NormalizeRegex, (_, p1, p2) => { return p1 ? p1.normalize("NFKC") : NormalizationMap.get(p2); }); } function getUuid() { if (typeof crypto !== "undefined" && typeof crypto?.randomUUID === "function") { return crypto.randomUUID(); } const buf = new Uint8Array(32); if (typeof crypto !== "undefined" && typeof crypto?.getRandomValues === "function") { crypto.getRandomValues(buf); } else { for (let i = 0; i < 32; i++) { buf[i] = Math.floor(Math.random() * 255); } } return bytesToString(buf); } const AnnotationPrefix = "pdfjs_internal_id_"; exports.AnnotationPrefix = AnnotationPrefix; /***/ }), /* 2 */ /***/ ((__unused_webpack_module, exports, __w_pdfjs_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Jbig2Image = void 0; var _util = __w_pdfjs_require__(1); var _core_utils = __w_pdfjs_require__(3); var _arithmetic_decoder = __w_pdfjs_require__(6); var _ccitt = __w_pdfjs_require__(7); class Jbig2Error extends _util.BaseException { constructor(msg) { super(`JBIG2 error: ${msg}`, "Jbig2Error"); } } class ContextCache { getContexts(id) { if (id in this) { return this[id]; } return this[id] = new Int8Array(1 << 16); } } class DecodingContext { constructor(data, start, end) { this.data = data; this.start = start; this.end = end; } get decoder() { const decoder = new _arithmetic_decoder.ArithmeticDecoder(this.data, this.start, this.end); return (0, _util.shadow)(this, "decoder", decoder); } get contextCache() { const cache = new ContextCache(); return (0, _util.shadow)(this, "contextCache", cache); } } const MAX_INT_32 = 2 ** 31 - 1; const MIN_INT_32 = -(2 ** 31); function decodeInteger(contextCache, procedure, decoder) { const contexts = contextCache.getContexts(procedure); let prev = 1; function readBits(length) { let v = 0; for (let i = 0; i < length; i++) { const bit = decoder.readBit(contexts, prev); prev = prev < 256 ? prev << 1 | bit : (prev << 1 | bit) & 511 | 256; v = v << 1 | bit; } return v >>> 0; } const sign = readBits(1); const value = readBits(1) ? readBits(1) ? readBits(1) ? readBits(1) ? readBits(1) ? readBits(32) + 4436 : readBits(12) + 340 : readBits(8) + 84 : readBits(6) + 20 : readBits(4) + 4 : readBits(2); let signedValue; if (sign === 0) { signedValue = value; } else if (value > 0) { signedValue = -value; } if (signedValue >= MIN_INT_32 && signedValue <= MAX_INT_32) { return signedValue; } return null; } function decodeIAID(contextCache, decoder, codeLength) { const contexts = contextCache.getContexts("IAID"); let prev = 1; for (let i = 0; i < codeLength; i++) { const bit = decoder.readBit(contexts, prev); prev = prev << 1 | bit; } if (codeLength < 31) { return prev & (1 << codeLength) - 1; } return prev & 0x7fffffff; } const SegmentTypes = ["SymbolDictionary", null, null, null, "IntermediateTextRegion", null, "ImmediateTextRegion", "ImmediateLosslessTextRegion", null, null, null, null, null, null, null, null, "PatternDictionary", null, null, null, "IntermediateHalftoneRegion", null, "ImmediateHalftoneRegion", "ImmediateLosslessHalftoneRegion", null, null, null, null, null, null, null, null, null, null, null, null, "IntermediateGenericRegion", null, "ImmediateGenericRegion", "ImmediateLosslessGenericRegion", "IntermediateGenericRefinementRegion", null, "ImmediateGenericRefinementRegion", "ImmediateLosslessGenericRefinementRegion", null, null, null, null, "PageInformation", "EndOfPage", "EndOfStripe", "EndOfFile", "Profiles", "Tables", null, null, null, null, null, null, null, null, "Extension"]; const CodingTemplates = [[{ x: -1, y: -2 }, { x: 0, y: -2 }, { x: 1, y: -2 }, { x: -2, y: -1 }, { x: -1, y: -1 }, { x: 0, y: -1 }, { x: 1, y: -1 }, { x: 2, y: -1 }, { x: -4, y: 0 }, { x: -3, y: 0 }, { x: -2, y: 0 }, { x: -1, y: 0 }], [{ x: -1, y: -2 }, { x: 0, y: -2 }, { x: 1, y: -2 }, { x: 2, y: -2 }, { x: -2, y: -1 }, { x: -1, y: -1 }, { x: 0, y: -1 }, { x: 1, y: -1 }, { x: 2, y: -1 }, { x: -3, y: 0 }, { x: -2, y: 0 }, { x: -1, y: 0 }], [{ x: -1, y: -2 }, { x: 0, y: -2 }, { x: 1, y: -2 }, { x: -2, y: -1 }, { x: -1, y: -1 }, { x: 0, y: -1 }, { x: 1, y: -1 }, { x: -2, y: 0 }, { x: -1, y: 0 }], [{ x: -3, y: -1 }, { x: -2, y: -1 }, { x: -1, y: -1 }, { x: 0, y: -1 }, { x: 1, y: -1 }, { x: -4, y: 0 }, { x: -3, y: 0 }, { x: -2, y: 0 }, { x: -1, y: 0 }]]; const RefinementTemplates = [{ coding: [{ x: 0, y: -1 }, { x: 1, y: -1 }, { x: -1, y: 0 }], reference: [{ x: 0, y: -1 }, { x: 1, y: -1 }, { x: -1, y: 0 }, { x: 0, y: 0 }, { x: 1, y: 0 }, { x: -1, y: 1 }, { x: 0, y: 1 }, { x: 1, y: 1 }] }, { coding: [{ x: -1, y: -1 }, { x: 0, y: -1 }, { x: 1, y: -1 }, { x: -1, y: 0 }], reference: [{ x: 0, y: -1 }, { x: -1, y: 0 }, { x: 0, y: 0 }, { x: 1, y: 0 }, { x: 0, y: 1 }, { x: 1, y: 1 }] }]; const ReusedContexts = [0x9b25, 0x0795, 0x00e5, 0x0195]; const RefinementReusedContexts = [0x0020, 0x0008]; function decodeBitmapTemplate0(width, height, decodingContext) { const decoder = decodingContext.decoder; const contexts = decodingContext.contextCache.getContexts("GB"); const bitmap = []; let contextLabel, i, j, pixel, row, row1, row2; const OLD_PIXEL_MASK = 0x7bf7; for (i = 0; i < height; i++) { row = bitmap[i] = new Uint8Array(width); row1 = i < 1 ? row : bitmap[i - 1]; row2 = i < 2 ? row : bitmap[i - 2]; contextLabel = row2[0] << 13 | row2[1] << 12 | row2[2] << 11 | row1[0] << 7 | row1[1] << 6 | row1[2] << 5 | row1[3] << 4; for (j = 0; j < width; j++) { row[j] = pixel = decoder.readBit(contexts, contextLabel); contextLabel = (contextLabel & OLD_PIXEL_MASK) << 1 | (j + 3 < width ? row2[j + 3] << 11 : 0) | (j + 4 < width ? row1[j + 4] << 4 : 0) | pixel; } } return bitmap; } function decodeBitmap(mmr, width, height, templateIndex, prediction, skip, at, decodingContext) { if (mmr) { const input = new Reader(decodingContext.data, decodingContext.start, decodingContext.end); return decodeMMRBitmap(input, width, height, false); } if (templateIndex === 0 && !skip && !prediction && at.length === 4 && at[0].x === 3 && at[0].y === -1 && at[1].x === -3 && at[1].y === -1 && at[2].x === 2 && at[2].y === -2 && at[3].x === -2 && at[3].y === -2) { return decodeBitmapTemplate0(width, height, decodingContext); } const useskip = !!skip; const template = CodingTemplates[templateIndex].concat(at); template.sort(function (a, b) { return a.y - b.y || a.x - b.x; }); const templateLength = template.length; const templateX = new Int8Array(templateLength); const templateY = new Int8Array(templateLength); const changingTemplateEntries = []; let reuseMask = 0, minX = 0, maxX = 0, minY = 0; let c, k; for (k = 0; k < templateLength; k++) { templateX[k] = template[k].x; templateY[k] = template[k].y; minX = Math.min(minX, template[k].x); maxX = Math.max(maxX, template[k].x); minY = Math.min(minY, template[k].y); if (k < templateLength - 1 && template[k].y === template[k + 1].y && template[k].x === template[k + 1].x - 1) { reuseMask |= 1 << templateLength - 1 - k; } else { changingTemplateEntries.push(k); } } const changingEntriesLength = changingTemplateEntries.length; const changingTemplateX = new Int8Array(changingEntriesLength); const changingTemplateY = new Int8Array(changingEntriesLength); const changingTemplateBit = new Uint16Array(changingEntriesLength); for (c = 0; c < changingEntriesLength; c++) { k = changingTemplateEntries[c]; changingTemplateX[c] = template[k].x; changingTemplateY[c] = template[k].y; changingTemplateBit[c] = 1 << templateLength - 1 - k; } const sbb_left = -minX; const sbb_top = -minY; const sbb_right = width - maxX; const pseudoPixelContext = ReusedContexts[templateIndex]; let row = new Uint8Array(width); const bitmap = []; const decoder = decodingContext.decoder; const contexts = decodingContext.contextCache.getContexts("GB"); let ltp = 0, j, i0, j0, contextLabel = 0, bit, shift; for (let i = 0; i < height; i++) { if (prediction) { const sltp = decoder.readBit(contexts, pseudoPixelContext); ltp ^= sltp; if (ltp) { bitmap.push(row); continue; } } row = new Uint8Array(row); bitmap.push(row); for (j = 0; j < width; j++) { if (useskip && skip[i][j]) { row[j] = 0; continue; } if (j >= sbb_left && j < sbb_right && i >= sbb_top) { contextLabel = contextLabel << 1 & reuseMask; for (k = 0; k < changingEntriesLength; k++) { i0 = i + changingTemplateY[k]; j0 = j + changingTemplateX[k]; bit = bitmap[i0][j0]; if (bit) { bit = changingTemplateBit[k]; contextLabel |= bit; } } } else { contextLabel = 0; shift = templateLength - 1; for (k = 0; k < templateLength; k++, shift--) { j0 = j + templateX[k]; if (j0 >= 0 && j0 < width) { i0 = i + templateY[k]; if (i0 >= 0) { bit = bitmap[i0][j0]; if (bit) { contextLabel |= bit << shift; } } } } } const pixel = decoder.readBit(contexts, contextLabel); row[j] = pixel; } } return bitmap; } function decodeRefinement(width, height, templateIndex, referenceBitmap, offsetX, offsetY, prediction, at, decodingContext) { let codingTemplate = RefinementTemplates[templateIndex].coding; if (templateIndex === 0) { codingTemplate = codingTemplate.concat([at[0]]); } const codingTemplateLength = codingTemplate.length; const codingTemplateX = new Int32Array(codingTemplateLength); const codingTemplateY = new Int32Array(codingTemplateLength); let k; for (k = 0; k < codingTemplateLength; k++) { codingTemplateX[k] = codingTemplate[k].x; codingTemplateY[k] = codingTemplate[k].y; } let referenceTemplate = RefinementTemplates[templateIndex].reference; if (templateIndex === 0) { referenceTemplate = referenceTemplate.concat([at[1]]); } const referenceTemplateLength = referenceTemplate.length; const referenceTemplateX = new Int32Array(referenceTemplateLength); const referenceTemplateY = new Int32Array(referenceTemplateLength); for (k = 0; k < referenceTemplateLength; k++) { referenceTemplateX[k] = referenceTemplate[k].x; referenceTemplateY[k] = referenceTemplate[k].y; } const referenceWidth = referenceBitmap[0].length; const referenceHeight = referenceBitmap.length; const pseudoPixelContext = RefinementReusedContexts[templateIndex]; const bitmap = []; const decoder = decodingContext.decoder; const contexts = decodingContext.contextCache.getContexts("GR"); let ltp = 0; for (let i = 0; i < height; i++) { if (prediction) { const sltp = decoder.readBit(contexts, pseudoPixelContext); ltp ^= sltp; if (ltp) { throw new Jbig2Error("prediction is not supported"); } } const row = new Uint8Array(width); bitmap.push(row); for (let j = 0; j < width; j++) { let i0, j0; let contextLabel = 0; for (k = 0; k < codingTemplateLength; k++) { i0 = i + codingTemplateY[k]; j0 = j + codingTemplateX[k]; if (i0 < 0 || j0 < 0 || j0 >= width) { contextLabel <<= 1; } else { contextLabel = contextLabel << 1 | bitmap[i0][j0]; } } for (k = 0; k < referenceTemplateLength; k++) { i0 = i + referenceTemplateY[k] - offsetY; j0 = j + referenceTemplateX[k] - offsetX; if (i0 < 0 || i0 >= referenceHeight || j0 < 0 || j0 >= referenceWidth) { contextLabel <<= 1; } else { contextLabel = contextLabel << 1 | referenceBitmap[i0][j0]; } } const pixel = decoder.readBit(contexts, contextLabel); row[j] = pixel; } } return bitmap; } function decodeSymbolDictionary(huffman, refinement, symbols, numberOfNewSymbols, numberOfExportedSymbols, huffmanTables, templateIndex, at, refinementTemplateIndex, refinementAt, decodingContext, huffmanInput) { if (huffman && refinement) { throw new Jbig2Error("symbol refinement with Huffman is not supported"); } const newSymbols = []; let currentHeight = 0; let symbolCodeLength = (0, _core_utils.log2)(symbols.length + numberOfNewSymbols); const decoder = decodingContext.decoder; const contextCache = decodingContext.contextCache; let tableB1, symbolWidths; if (huffman) { tableB1 = getStandardTable(1); symbolWidths = []; symbolCodeLength = Math.max(symbolCodeLength, 1); } while (newSymbols.length < numberOfNewSymbols) { const deltaHeight = huffman ? huffmanTables.tableDeltaHeight.decode(huffmanInput) : decodeInteger(contextCache, "IADH", decoder); currentHeight += deltaHeight; let currentWidth = 0, totalWidth = 0; const firstSymbol = huffman ? symbolWidths.length : 0; while (true) { const deltaWidth = huffman ? huffmanTables.tableDeltaWidth.decode(huffmanInput) : decodeInteger(contextCache, "IADW", decoder); if (deltaWidth === null) { break; } currentWidth += deltaWidth; totalWidth += currentWidth; let bitmap; if (refinement) { const numberOfInstances = decodeInteger(contextCache, "IAAI", decoder); if (numberOfInstances > 1) { bitmap = decodeTextRegion(huffman, refinement, currentWidth, currentHeight, 0, numberOfInstances, 1, symbols.concat(newSymbols), symbolCodeLength, 0, 0, 1, 0, huffmanTables, refinementTemplateIndex, refinementAt, decodingContext, 0, huffmanInput); } else { const symbolId = decodeIAID(contextCache, decoder, symbolCodeLength); const rdx = decodeInteger(contextCache, "IARDX", decoder); const rdy = decodeInteger(contextCache, "IARDY", decoder); const symbol = symbolId < symbols.length ? symbols[symbolId] : newSymbols[symbolId - symbols.length]; bitmap = decodeRefinement(currentWidth, currentHeight, refinementTemplateIndex, symbol, rdx, rdy, false, refinementAt, decodingContext); } newSymbols.push(bitmap); } else if (huffman) { symbolWidths.push(currentWidth); } else { bitmap = decodeBitmap(false, currentWidth, currentHeight, templateIndex, false, null, at, decodingContext); newSymbols.push(bitmap); } } if (huffman && !refinement) { const bitmapSize = huffmanTables.tableBitmapSize.decode(huffmanInput); huffmanInput.byteAlign(); let collectiveBitmap; if (bitmapSize === 0) { collectiveBitmap = readUncompressedBitmap(huffmanInput, totalWidth, currentHeight); } else { const originalEnd = huffmanInput.end; const bitmapEnd = huffmanInput.position + bitmapSize; huffmanInput.end = bitmapEnd; collectiveBitmap = decodeMMRBitmap(huffmanInput, totalWidth, currentHeight, false); huffmanInput.end = originalEnd; huffmanInput.position = bitmapEnd; } const numberOfSymbolsDecoded = symbolWidths.length; if (firstSymbol === numberOfSymbolsDecoded - 1) { newSymbols.push(collectiveBitmap); } else { let i, y, xMin = 0, xMax, bitmapWidth, symbolBitmap; for (i = firstSymbol; i < numberOfSymbolsDecoded; i++) { bitmapWidth = symbolWidths[i]; xMax = xMin + bitmapWidth; symbolBitmap = []; for (y = 0; y < currentHeight; y++) { symbolBitmap.push(collectiveBitmap[y].subarray(xMin, xMax)); } newSymbols.push(symbolBitmap); xMin = xMax; } } } } const exportedSymbols = [], flags = []; let currentFlag = false, i, ii; const totalSymbolsLength = symbols.length + numberOfNewSymbols; while (flags.length < totalSymbolsLength) { let runLength = huffman ? tableB1.decode(huffmanInput) : decodeInteger(contextCache, "IAEX", decoder); while (runLength--) { flags.push(currentFlag); } currentFlag = !currentFlag; } for (i = 0, ii = symbols.length; i < ii; i++) { if (flags[i]) { exportedSymbols.push(symbols[i]); } } for (let j = 0; j < numberOfNewSymbols; i++, j++) { if (flags[i]) { exportedSymbols.push(newSymbols[j]); } } return exportedSymbols; } function decodeTextRegion(huffman, refinement, width, height, defaultPixelValue, numberOfSymbolInstances, stripSize, inputSymbols, symbolCodeLength, transposed, dsOffset, referenceCorner, combinationOperator, huffmanTables, refinementTemplateIndex, refinementAt, decodingContext, logStripSize, huffmanInput) { if (huffman && refinement) { throw new Jbig2Error("refinement with Huffman is not supported"); } const bitmap = []; let i, row; for (i = 0; i < height; i++) { row = new Uint8Array(width); if (defaultPixelValue) { for (let j = 0; j < width; j++) { row[j] = defaultPixelValue; } } bitmap.push(row); } const decoder = decodingContext.decoder; const contextCache = decodingContext.contextCache; let stripT = huffman ? -huffmanTables.tableDeltaT.decode(huffmanInput) : -decodeInteger(contextCache, "IADT", decoder); let firstS = 0; i = 0; while (i < numberOfSymbolInstances) { const deltaT = huffman ? huffmanTables.tableDeltaT.decode(huffmanInput) : decodeInteger(contextCache, "IADT", decoder); stripT += deltaT; const deltaFirstS = huffman ? huffmanTables.tableFirstS.decode(huffmanInput) : decodeInteger(contextCache, "IAFS", decoder); firstS += deltaFirstS; let currentS = firstS; do { let currentT = 0; if (stripSize > 1) { currentT = huffman ? huffmanInput.readBits(logStripSize) : decodeInteger(contextCache, "IAIT", decoder); } const t = stripSize * stripT + currentT; const symbolId = huffman ? huffmanTables.symbolIDTable.decode(huffmanInput) : decodeIAID(contextCache, decoder, symbolCodeLength); const applyRefinement = refinement && (huffman ? huffmanInput.readBit() : decodeInteger(contextCache, "IARI", decoder)); let symbolBitmap = inputSymbols[symbolId]; let symbolWidth = symbolBitmap[0].length; let symbolHeight = symbolBitmap.length; if (applyRefinement) { const rdw = decodeInteger(contextCache, "IARDW", decoder); const rdh = decodeInteger(contextCache, "IARDH", decoder); const rdx = decodeInteger(contextCache, "IARDX", decoder); const rdy = decodeInteger(contextCache, "IARDY", decoder); symbolWidth += rdw; symbolHeight += rdh; symbolBitmap = decodeRefinement(symbolWidth, symbolHeight, refinementTemplateIndex, symbolBitmap, (rdw >> 1) + rdx, (rdh >> 1) + rdy, false, refinementAt, decodingContext); } const offsetT = t - (referenceCorner & 1 ? 0 : symbolHeight - 1); const offsetS = currentS - (referenceCorner & 2 ? symbolWidth - 1 : 0); let s2, t2, symbolRow; if (transposed) { for (s2 = 0; s2 < symbolHeight; s2++) { row = bitmap[offsetS + s2]; if (!row) { continue; } symbolRow = symbolBitmap[s2]; const maxWidth = Math.min(width - offsetT, symbolWidth); switch (combinationOperator) { case 0: for (t2 = 0; t2 < maxWidth; t2++) { row[offsetT + t2] |= symbolRow[t2]; } break; case 2: for (t2 = 0; t2 < maxWidth; t2++) { row[offsetT + t2] ^= symbolRow[t2]; } break; default: throw new Jbig2Error(`operator ${combinationOperator} is not supported`); } } currentS += symbolHeight - 1; } else { for (t2 = 0; t2 < symbolHeight; t2++) { row = bitmap[offsetT + t2]; if (!row) { continue; } symbolRow = symbolBitmap[t2]; switch (combinationOperator) { case 0: for (s2 = 0; s2 < symbolWidth; s2++) { row[offsetS + s2] |= symbolRow[s2]; } break; case 2: for (s2 = 0; s2 < symbolWidth; s2++) { row[offsetS + s2] ^= symbolRow[s2]; } break; default: throw new Jbig2Error(`operator ${combinationOperator} is not supported`); } } currentS += symbolWidth - 1; } i++; const deltaS = huffman ? huffmanTables.tableDeltaS.decode(huffmanInput) : decodeInteger(contextCache, "IADS", decoder); if (deltaS === null) { break; } currentS += deltaS + dsOffset; } while (true); } return bitmap; } function decodePatternDictionary(mmr, patternWidth, patternHeight, maxPatternIndex, template, decodingContext) { const at = []; if (!mmr) { at.push({ x: -patternWidth, y: 0 }); if (template === 0) { at.push({ x: -3, y: -1 }, { x: 2, y: -2 }, { x: -2, y: -2 }); } } const collectiveWidth = (maxPatternIndex + 1) * patternWidth; const collectiveBitmap = decodeBitmap(mmr, collectiveWidth, patternHeight, template, false, null, at, decodingContext); const patterns = []; for (let i = 0; i <= maxPatternIndex; i++) { const patternBitmap = []; const xMin = patternWidth * i; const xMax = xMin + patternWidth; for (let y = 0; y < patternHeight; y++) { patternBitmap.push(collectiveBitmap[y].subarray(xMin, xMax)); } patterns.push(patternBitmap); } return patterns; } function decodeHalftoneRegion(mmr, patterns, template, regionWidth, regionHeight, defaultPixelValue, enableSkip, combinationOperator, gridWidth, gridHeight, gridOffsetX, gridOffsetY, gridVectorX, gridVectorY, decodingContext) { const skip = null; if (enableSkip) { throw new Jbig2Error("skip is not supported"); } if (combinationOperator !== 0) { throw new Jbig2Error(`operator "${combinationOperator}" is not supported in halftone region`); } const regionBitmap = []; let i, j, row; for (i = 0; i < regionHeight; i++) { row = new Uint8Array(regionWidth); if (defaultPixelValue) { for (j = 0; j < regionWidth; j++) { row[j] = defaultPixelValue; } } regionBitmap.push(row); } const numberOfPatterns = patterns.length; const pattern0 = patterns[0]; const patternWidth = pattern0[0].length, patternHeight = pattern0.length; const bitsPerValue = (0, _core_utils.log2)(numberOfPatterns); const at = []; if (!mmr) { at.push({ x: template <= 1 ? 3 : 2, y: -1 }); if (template === 0) { at.push({ x: -3, y: -1 }, { x: 2, y: -2 }, { x: -2, y: -2 }); } } const grayScaleBitPlanes = []; let mmrInput, bitmap; if (mmr) { mmrInput = new Reader(decodingContext.data, decodingContext.start, decodingContext.end); } for (i = bitsPerValue - 1; i >= 0; i--) { if (mmr) { bitmap = decodeMMRBitmap(mmrInput, gridWidth, gridHeight, true); } else { bitmap = decodeBitmap(false, gridWidth, gridHeight, template, false, skip, at, decodingContext); } grayScaleBitPlanes[i] = bitmap; } let mg, ng, bit, patternIndex, patternBitmap, x, y, patternRow, regionRow; for (mg = 0; mg < gridHeight; mg++) { for (ng = 0; ng < gridWidth; ng++) { bit = 0; patternIndex = 0; for (j = bitsPerValue - 1; j >= 0; j--) { bit ^= grayScaleBitPlanes[j][mg][ng]; patternIndex |= bit << j; } patternBitmap = patterns[patternIndex]; x = gridOffsetX + mg * gridVectorY + ng * gridVectorX >> 8; y = gridOffsetY + mg * gridVectorX - ng * gridVectorY >> 8; if (x >= 0 && x + patternWidth <= regionWidth && y >= 0 && y + patternHeight <= regionHeight) { for (i = 0; i < patternHeight; i++) { regionRow = regionBitmap[y + i]; patternRow = patternBitmap[i]; for (j = 0; j < patternWidth; j++) { regionRow[x + j] |= patternRow[j]; } } } else { let regionX, regionY; for (i = 0; i < patternHeight; i++) { regionY = y + i; if (regionY < 0 || regionY >= regionHeight) { continue; } regionRow = regionBitmap[regionY]; patternRow = patternBitmap[i];