/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */ /* globals error, shadow */ /* Copyright 2012 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. */ 'use strict'; var Jbig2Image = (function Jbig2ImageClosure() { // Annex E. Arithmetic Coding var ArithmeticDecoder = (function ArithmeticDecoderClosure() { var QeTable = [ {qe: 0x5601, nmps: 1, nlps: 1, switchFlag: 1}, {qe: 0x3401, nmps: 2, nlps: 6, switchFlag: 0}, {qe: 0x1801, nmps: 3, nlps: 9, switchFlag: 0}, {qe: 0x0AC1, nmps: 4, nlps: 12, switchFlag: 0}, {qe: 0x0521, nmps: 5, nlps: 29, switchFlag: 0}, {qe: 0x0221, nmps: 38, nlps: 33, switchFlag: 0}, {qe: 0x5601, nmps: 7, nlps: 6, switchFlag: 1}, {qe: 0x5401, nmps: 8, nlps: 14, switchFlag: 0}, {qe: 0x4801, nmps: 9, nlps: 14, switchFlag: 0}, {qe: 0x3801, nmps: 10, nlps: 14, switchFlag: 0}, {qe: 0x3001, nmps: 11, nlps: 17, switchFlag: 0}, {qe: 0x2401, nmps: 12, nlps: 18, switchFlag: 0}, {qe: 0x1C01, nmps: 13, nlps: 20, switchFlag: 0}, {qe: 0x1601, nmps: 29, nlps: 21, switchFlag: 0}, {qe: 0x5601, nmps: 15, nlps: 14, switchFlag: 1}, {qe: 0x5401, nmps: 16, nlps: 14, switchFlag: 0}, {qe: 0x5101, nmps: 17, nlps: 15, switchFlag: 0}, {qe: 0x4801, nmps: 18, nlps: 16, switchFlag: 0}, {qe: 0x3801, nmps: 19, nlps: 17, switchFlag: 0}, {qe: 0x3401, nmps: 20, nlps: 18, switchFlag: 0}, {qe: 0x3001, nmps: 21, nlps: 19, switchFlag: 0}, {qe: 0x2801, nmps: 22, nlps: 19, switchFlag: 0}, {qe: 0x2401, nmps: 23, nlps: 20, switchFlag: 0}, {qe: 0x2201, nmps: 24, nlps: 21, switchFlag: 0}, {qe: 0x1C01, nmps: 25, nlps: 22, switchFlag: 0}, {qe: 0x1801, nmps: 26, nlps: 23, switchFlag: 0}, {qe: 0x1601, nmps: 27, nlps: 24, switchFlag: 0}, {qe: 0x1401, nmps: 28, nlps: 25, switchFlag: 0}, {qe: 0x1201, nmps: 29, nlps: 26, switchFlag: 0}, {qe: 0x1101, nmps: 30, nlps: 27, switchFlag: 0}, {qe: 0x0AC1, nmps: 31, nlps: 28, switchFlag: 0}, {qe: 0x09C1, nmps: 32, nlps: 29, switchFlag: 0}, {qe: 0x08A1, nmps: 33, nlps: 30, switchFlag: 0}, {qe: 0x0521, nmps: 34, nlps: 31, switchFlag: 0}, {qe: 0x0441, nmps: 35, nlps: 32, switchFlag: 0}, {qe: 0x02A1, nmps: 36, nlps: 33, switchFlag: 0}, {qe: 0x0221, nmps: 37, nlps: 34, switchFlag: 0}, {qe: 0x0141, nmps: 38, nlps: 35, switchFlag: 0}, {qe: 0x0111, nmps: 39, nlps: 36, switchFlag: 0}, {qe: 0x0085, nmps: 40, nlps: 37, switchFlag: 0}, {qe: 0x0049, nmps: 41, nlps: 38, switchFlag: 0}, {qe: 0x0025, nmps: 42, nlps: 39, switchFlag: 0}, {qe: 0x0015, nmps: 43, nlps: 40, switchFlag: 0}, {qe: 0x0009, nmps: 44, nlps: 41, switchFlag: 0}, {qe: 0x0005, nmps: 45, nlps: 42, switchFlag: 0}, {qe: 0x0001, nmps: 45, nlps: 43, switchFlag: 0}, {qe: 0x5601, nmps: 46, nlps: 46, switchFlag: 0} ]; function ArithmeticDecoder(data, start, end) { this.data = data; this.bp = start; this.dataEnd = end; this.chigh = data[start]; this.clow = 0; this.byteIn(); this.chigh = ((this.chigh << 7) & 0xFFFF) | ((this.clow >> 9) & 0x7F); this.clow = (this.clow << 7) & 0xFFFF; this.ct -= 7; this.a = 0x8000; } ArithmeticDecoder.prototype = { byteIn: function ArithmeticDecoder_byteIn() { var data = this.data; var bp = this.bp; if (data[bp] == 0xFF) { var b1 = data[bp + 1]; if (b1 > 0x8F) { this.clow += 0xFF00; this.ct = 8; } else { bp++; this.clow += (data[bp] << 9); this.ct = 7; this.bp = bp; } } else { bp++; this.clow += bp < this.dataEnd ? (data[bp] << 8) : 0xFF00; this.ct = 8; this.bp = bp; } if (this.clow > 0xFFFF) { this.chigh += (this.clow >> 16); this.clow &= 0xFFFF; } }, readBit: function ArithmeticDecoder_readBit(cx) { var qeIcx = QeTable[cx.index].qe; this.a -= qeIcx; if (this.chigh < qeIcx) { var d = this.exchangeLps(cx); this.renormD(); return d; } else { this.chigh -= qeIcx; if ((this.a & 0x8000) === 0) { var d = this.exchangeMps(cx); this.renormD(); return d; } else { return cx.mps; } } }, renormD: function ArithmeticDecoder_renormD() { do { if (this.ct === 0) this.byteIn(); this.a <<= 1; this.chigh = ((this.chigh << 1) & 0xFFFF) | ((this.clow >> 15) & 1); this.clow = (this.clow << 1) & 0xFFFF; this.ct--; } while ((this.a & 0x8000) === 0); }, exchangeMps: function ArithmeticDecoder_exchangeMps(cx) { var d; var qeTableIcx = QeTable[cx.index]; if (this.a < qeTableIcx.qe) { d = 1 - cx.mps; if (qeTableIcx.switchFlag == 1) { cx.mps = 1 - cx.mps; } cx.index = qeTableIcx.nlps; } else { d = cx.mps; cx.index = qeTableIcx.nmps; } return d; }, exchangeLps: function ArithmeticDecoder_exchangeLps(cx) { var d; var qeTableIcx = QeTable[cx.index]; if (this.a < qeTableIcx.qe) { this.a = qeTableIcx.qe; d = cx.mps; cx.index = qeTableIcx.nmps; } else { this.a = qeTableIcx.qe; d = 1 - cx.mps; if (qeTableIcx.switchFlag == 1) { cx.mps = 1 - cx.mps; } cx.index = qeTableIcx.nlps; } return d; } }; return ArithmeticDecoder; })(); // Utility data structures function ContextCache() {} ContextCache.prototype = { getContexts: function(id) { if (id in this) return this[id]; return (this[id] = []); } }; function DecodingContext(data, start, end) { this.data = data; this.start = start; this.end = end; } DecodingContext.prototype = { get decoder() { var decoder = new ArithmeticDecoder(this.data, this.start, this.end); return shadow(this, 'decoder', decoder); }, get contextCache() { var cache = new ContextCache(); return shadow(this, 'contextCache', cache); } }; // Annex A. Arithmetic Integer Decoding Procedure // A.2 Procedure for decoding values function decodeInteger(contextCache, procedure, decoder) { var contexts = contextCache.getContexts(procedure); var prev = 1; var state = 1, v = 0, s; var toRead = 32, offset = 4436; // defaults for state 7 while (state) { var cx = contexts[prev]; if (!cx) contexts[prev] = cx = {index: 0, mps: 0}; var bit = decoder.readBit(cx); prev = prev < 256 ? (prev << 1) | bit : (((prev << 1) | bit) & 511) | 256; switch (state) { case 1: s = !!bit; break; case 2: if (bit) break; state = 7; toRead = 2; offset = 0; break; case 3: if (bit) break; state = 7; toRead = 4; offset = 4; break; case 4: if (bit) break; state = 7; toRead = 6; offset = 20; break; case 5: if (bit) break; state = 7; toRead = 8; offset = 84; break; case 6: if (bit) break; state = 7; toRead = 12; offset = 340; break; default: v = v * 2 + bit; if (--toRead === 0) state = 0; continue; } state++; } v += offset; return !s ? v : v > 0 ? -v : null; } // A.3 The IAID decoding procedure function decodeIAID(contextCache, decoder, codeLength) { var contexts = contextCache.getContexts('IAID'); var prev = 1; for (var i = 0; i < codeLength; i++) { var cx = contexts[prev]; if (!cx) contexts[prev] = cx = {index: 0, mps: 0}; var bit = decoder.readBit(cx); prev = (prev * 2) + bit; } if (codeLength < 31) return prev & ((1 << codeLength) - 1); else return prev - Math.pow(2, codeLength); } // 7.3 Segment types var 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' ]; var 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}] ]; var 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}] } ]; var ReusedContexts = [ 0x1CD3, // '00111001101' (template) + '0011' (at), 0x079A, // '001111001101' + '0', 0x00E3, // '001110001' + '1', 0x018B // '011000101' + '1' ]; var RefinementReusedContexts = [ 0x0020, // '000' + '0' (coding) + '00010000' + '0' (reference) 0x0008 // '0000' + '001000' ]; function log2(x) { var n = 1, i = 0; while (x > n) { n <<= 1; i++; } return i; } function readInt32(data, start) { return (data[start] << 24) | (data[start + 1] << 16) | (data[start + 2] << 8) | data[start + 3]; } function readUint32(data, start) { var value = readInt32(data, start); return value & 0x80000000 ? (value + 4294967296) : value; } function readUint16(data, start) { return (data[start] << 8) | data[start + 1]; } function readInt8(data, start) { return (data[start] << 24) >> 24; } // 6.2 Generic Region Decoding Procedure function decodeBitmap(mmr, width, height, templateIndex, prediction, skip, at, decodingContext) { if (mmr) error('JBIG2 error: MMR encoding is not supported'); var useskip = !!skip; var template = CodingTemplates[templateIndex].concat(at); var templateLength = template.length; var templateX = new Int32Array(templateLength); var templateY = new Int32Array(templateLength); for (var k = 0; k < templateLength; k++) { templateX[k] = template[k].x; templateY[k] = template[k].y; } var pseudoPixelContext = ReusedContexts[templateIndex]; var bitmap = []; var decoder = decodingContext.decoder; var contexts = decodingContext.contextCache.getContexts('GB'); var ltp = 0; for (var i = 0; i < height; i++) { if (prediction) { var cx = contexts[pseudoPixelContext]; if (!cx) contexts[pseudoPixelContext] = cx = {index: 0, mps: 0}; var sltp = decoder.readBit(cx); ltp ^= sltp; } if (ltp) { bitmap.push(bitmap[bitmap.length - 1]); // duplicate previous row continue; } var row = new Uint8Array(width); bitmap.push(row); for (var j = 0; j < width; j++) { if (useskip && skip[i][j]) { row[j] = 0; continue; } var contextLabel = 0; for (var k = 0; k < templateLength; k++) { var i0 = i + templateY[k], j0 = j + templateX[k]; if (i0 < 0 || j0 < 0 || j0 >= width) contextLabel <<= 1; // out of bound pixel else contextLabel = (contextLabel << 1) | bitmap[i0][j0]; } var cx = contexts[contextLabel]; if (!cx) contexts[contextLabel] = cx = {index: 0, mps: 0}; var pixel = decoder.readBit(cx); row[j] = pixel; } } return bitmap; } // 6.3.2 Generic Refinement Region Decoding Procedure function decodeRefinement(width, height, templateIndex, referenceBitmap, offsetX, offsetY, prediction, at, decodingContext) { var codingTemplate = RefinementTemplates[templateIndex].coding; if (templateIndex === 0) codingTemplate = codingTemplate.concat([at[0]]); var codingTemplateLength = codingTemplate.length; var codingTemplateX = new Int32Array(codingTemplateLength); var codingTemplateY = new Int32Array(codingTemplateLength); for (var k = 0; k < codingTemplateLength; k++) { codingTemplateX[k] = codingTemplate[k].x; codingTemplateY[k] = codingTemplate[k].y; } var referenceTemplate = RefinementTemplates[templateIndex].reference; if (templateIndex === 0) referenceTemplate = referenceTemplate.concat([at[1]]); var referenceTemplateLength = referenceTemplate.length; var referenceTemplateX = new Int32Array(referenceTemplateLength); var referenceTemplateY = new Int32Array(referenceTemplateLength); for (var k = 0; k < referenceTemplateLength; k++) { referenceTemplateX[k] = referenceTemplate[k].x; referenceTemplateY[k] = referenceTemplate[k].y; } var referenceWidth = referenceBitmap[0].length; var referenceHeight = referenceBitmap.length; var pseudoPixelContext = RefinementReusedContexts[templateIndex]; var bitmap = []; var decoder = decodingContext.decoder; var contexts = decodingContext.contextCache.getContexts('GR'); var ltp = 0; for (var i = 0; i < height; i++) { if (prediction) { var cx = contexts[pseudoPixelContext]; if (!cx) contexts[pseudoPixelContext] = cx = {index: 0, mps: 0}; var sltp = decoder.readBit(cx); ltp ^= sltp; } var row = new Uint8Array(width); bitmap.push(row); for (var j = 0; j < width; j++) { if (ltp) error('JBIG2 error: prediction is not supported'); var contextLabel = 0; for (var k = 0; k < codingTemplateLength; k++) { var i0 = i + codingTemplateY[k], j0 = j + codingTemplateX[k]; if (i0 < 0 || j0 < 0 || j0 >= width) contextLabel <<= 1; // out of bound pixel else contextLabel = (contextLabel << 1) | bitmap[i0][j0]; } for (var k = 0; k < referenceTemplateLength; k++) { var i0 = i + referenceTemplateY[k] + offsetY; var j0 = j + referenceTemplateX[k] + offsetX; if (i0 < 0 || i0 >= referenceHeight || j0 < 0 || j0 >= referenceWidth) contextLabel <<= 1; // out of bound pixel else contextLabel = (contextLabel << 1) | referenceBitmap[i0][j0]; } var cx = contexts[contextLabel]; if (!cx) contexts[contextLabel] = cx = {index: 0, mps: 0}; var pixel = decoder.readBit(cx); row[j] = pixel; } } return bitmap; } // 6.5.5 Decoding the symbol dictionary function decodeSymbolDictionary(huffman, refinement, symbols, numberOfNewSymbols, numberOfExportedSymbols, huffmanTables, templateIndex, at, refinementTemplateIndex, refinementAt, decodingContext) { if (huffman) error('JBIG2 error: huffman is not supported'); var newSymbols = []; var currentHeight = 0; var symbolCodeLength = log2(symbols.length + numberOfNewSymbols); var decoder = decodingContext.decoder; var contextCache = decodingContext.contextCache; while (newSymbols.length < numberOfNewSymbols) { var deltaHeight = decodeInteger(contextCache, 'IADH', decoder); // 6.5.6 currentHeight += deltaHeight; var currentWidth = 0; var totalWidth = 0; while (true) { var deltaWidth = decodeInteger(contextCache, 'IADW', decoder); // 6.5.7 if (deltaWidth === null) break; // OOB currentWidth += deltaWidth; totalWidth += currentWidth; var bitmap; if (refinement) { // 6.5.8.2 Refinement/aggregate-coded symbol bitmap var numberOfInstances = decodeInteger(contextCache, 'IAAI', decoder); if (numberOfInstances > 1) error('JBIG2 error: number of instances > 1 is not supported'); var symbolId = decodeIAID(contextCache, decoder, symbolCodeLength); var rdx = decodeInteger(contextCache, 'IARDX', decoder); // 6.4.11.3 var rdy = decodeInteger(contextCache, 'IARDY', decoder); // 6.4.11.4 var symbol = symbolId < symbols.length ? symbols[symbolId] : newSymbols[symbolId - symbols.length]; bitmap = decodeRefinement(currentWidth, currentHeight, refinementTemplateIndex, symbol, rdx, rdy, false, refinementAt, decodingContext); } else { // 6.5.8.1 Direct-coded symbol bitmap bitmap = decodeBitmap(false, currentWidth, currentHeight, templateIndex, false, null, at, decodingContext); } newSymbols.push(bitmap); } } // 6.5.10 Exported symbols var exportedSymbols = []; var flags = [], currentFlag = false; var totalSymbolsLength = symbols.length + numberOfNewSymbols; while (flags.length < totalSymbolsLength) { var runLength = decodeInteger(contextCache, 'IAEX', decoder); while (runLength--) flags.push(currentFlag); currentFlag = !currentFlag; } for (var i = 0, ii = symbols.length; i < ii; i++) if (flags[i]) exportedSymbols.push(symbols[i]); for (var 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) { if (huffman) error('JBIG2 error: huffman is not supported'); // Prepare bitmap var bitmap = []; for (var i = 0; i < height; i++) { var row = new Uint8Array(width); if (defaultPixelValue) { for (var j = 0; j < width; j++) row[j] = defaultPixelValue; } bitmap.push(row); } var decoder = decodingContext.decoder; var contextCache = decodingContext.contextCache; if (transposed) error('JBIG2 error: transposed is not supported'); var stripT = -decodeInteger(contextCache, 'IADT', decoder); // 6.4.6 var firstS = 0; var i = 0; while (i < numberOfSymbolInstances) { var deltaT = decodeInteger(contextCache, 'IADT', decoder); // 6.4.6 stripT += deltaT; var deltaFirstS = decodeInteger(contextCache, 'IAFS', decoder); // 6.4.7 firstS += deltaFirstS; var currentS = firstS; do { var currentT = stripSize == 1 ? 0 : decodeInteger(contextCache, 'IAIT', decoder); // 6.4.9 var t = stripSize * stripT + currentT; var symbolId = decodeIAID(contextCache, decoder, symbolCodeLength); var applyRefinement = refinement && decodeInteger(contextCache, 'IARI', decoder); var symbolBitmap = inputSymbols[symbolId]; var symbolWidth = symbolBitmap[0].length; var symbolHeight = symbolBitmap.length; if (applyRefinement) { var rdw = decodeInteger(contextCache, 'IARDW', decoder); // 6.4.11.1 var rdh = decodeInteger(contextCache, 'IARDH', decoder); // 6.4.11.2 var rdx = decodeInteger(contextCache, 'IARDX', decoder); // 6.4.11.3 var rdy = decodeInteger(contextCache, 'IARDY', decoder); // 6.4.11.4 symbolWidth += rdw; symbolHeight += rdh; symbolBitmap = decodeRefinement(symbolWidth, symbolHeight, refinementTemplateIndex, symbolBitmap, (rdw >> 1) + rdx, (rdh >> 1) + rdy, false, refinementAt, decodingContext); } var offsetT = t - ((referenceCorner & 1) ? 0 : symbolHeight); var offsetS = currentS - ((referenceCorner & 2) ? symbolWidth : 0); for (var t2 = 0; t2 < symbolHeight; t2++) { var row = bitmap[offsetT + t2]; if (!row) continue; var symbolRow = symbolBitmap[t2]; switch (combinationOperator) { case 0: // OR for (var s2 = 0; s2 < symbolWidth; s2++) row[offsetS + s2] |= symbolRow[s2]; break; case 2: // XOR for (var s2 = 0; s2 < symbolWidth; s2++) row[offsetS + s2] ^= symbolRow[s2]; break; default: error('JBIG2 error: operator ' + combinationOperator + ' is not supported'); } } currentS += symbolWidth - 1; i++; var deltaS = decodeInteger(contextCache, 'IADS', decoder); // 6.4.8 if (deltaS === null) break; // OOB currentS += deltaS + dsOffset; } while (true); } return bitmap; } function readSegmentHeader(data, start) { var segmentHeader = {}; segmentHeader.number = readUint32(data, start); var flags = data[start + 4]; var segmentType = flags & 0x3F; if (!SegmentTypes[segmentType]) error('JBIG2 error: invalid segment type: ' + segmentType); segmentHeader.type = segmentType; segmentHeader.typeName = SegmentTypes[segmentType]; segmentHeader.deferredNonRetain = !!(flags & 0x80); var pageAssociationFieldSize = !!(flags & 0x40); var referredFlags = data[start + 5]; var referredToCount = (referredFlags >> 5) & 7; var retainBits = [referredFlags & 31]; var position = start + 6; if (referredFlags == 7) { referredToCount = readInt32(data, position - 1) & 0x1FFFFFFF; position += 3; var bytes = (referredToCount + 7) >> 3; retainBits[0] = data[position++]; while (--bytes > 0) { retainBits.push(data[position++]); } } else if (referredFlags == 5 || referredFlags == 6) error('JBIG2 error: invalid referred-to flags'); segmentHeader.retainBits = retainBits; var referredToSegmentNumberSize = segmentHeader.number <= 256 ? 1 : segmentHeader.number <= 65536 ? 2 : 4; var referredTo = []; for (var i = 0; i < referredToCount; i++) { var number = referredToSegmentNumberSize == 1 ? data[position] : referredToSegmentNumberSize == 2 ? readUint16(data, position) : readUint32(data, position); referredTo.push(number); position += referredToSegmentNumberSize; } segmentHeader.referredTo = referredTo; if (!pageAssociationFieldSize) segmentHeader.pageAssociation = data[position++]; else { segmentHeader.pageAssociation = readUint32(data, position); position += 4; } segmentHeader.length = readUint32(data, position); position += 4; if (segmentHeader.length == 0xFFFFFFFF) { // 7.2.7 Segment data length, unknown segment length if (segmentType === 38) { // ImmediateGenericRegion var genericRegionInfo = readRegionSegmentInformation(data, position); var genericRegionSegmentFlags = data[position + RegionSegmentInformationFieldLength]; var genericRegionMmr = !!(genericRegionSegmentFlags & 1); // searching for the segment end var searchPatternLength = 6; var searchPattern = new Uint8Array(searchPatternLength); if (!genericRegionMmr) { searchPattern[0] = 0xFF; searchPattern[1] = 0xAC; } searchPattern[2] = (genericRegionInfo.height >>> 24) & 0xFF; searchPattern[3] = (genericRegionInfo.height >> 16) & 0xFF; searchPattern[4] = (genericRegionInfo.height >> 8) & 0xFF; searchPattern[5] = genericRegionInfo.height & 0xFF; for (var i = position, ii = data.length; i < ii; i++) { var j = 0; while (j < searchPatternLength && searchPattern[j] === data[i + j]) { j++; } if (j == searchPatternLength) { segmentHeader.length = i + searchPatternLength; break; } } if (segmentHeader.length == 0xFFFFFFFF) { error('JBIG2 error: segment end was not found'); } } else { error('JBIG2 error: invalid unknown segment length'); } } segmentHeader.headerEnd = position; return segmentHeader; } function readSegments(header, data, start, end) { var segments = []; var position = start; while (position < end) { var segmentHeader = readSegmentHeader(data, position); position = segmentHeader.headerEnd; var segment = { header: segmentHeader, data: data }; if (!header.randomAccess) { segment.start = position; position += segmentHeader.length; segment.end = position; } segments.push(segment); if (segmentHeader.type == 51) break; // end of file is found } if (header.randomAccess) { for (var i = 0, ii = segments.length; i < ii; i++) { segments[i].start = position; position += segments[i].header.length; segments[i].end = position; } } return segments; } // 7.4.1 Region segment information field function readRegionSegmentInformation(data, start) { return { width: readUint32(data, start), height: readUint32(data, start + 4), x: readUint32(data, start + 8), y: readUint32(data, start + 12), combinationOperator: data[start + 16] & 7 }; } var RegionSegmentInformationFieldLength = 17; function processSegment(segment, visitor) { var header = segment.header; var data = segment.data, position = segment.start, end = segment.end; var args; switch (header.type) { case 0: // SymbolDictionary // 7.4.2 Symbol dictionary segment syntax var dictionary = {}; var dictionaryFlags = readUint16(data, position); // 7.4.2.1.1 dictionary.huffman = !!(dictionaryFlags & 1); dictionary.refinement = !!(dictionaryFlags & 2); dictionary.huffmanDHSelector = (dictionaryFlags >> 2) & 3; dictionary.huffmanDWSelector = (dictionaryFlags >> 4) & 3; dictionary.bitmapSizeSelector = (dictionaryFlags >> 6) & 1; dictionary.aggregationInstancesSelector = (dictionaryFlags >> 7) & 1; dictionary.bitmapCodingContextUsed = !!(dictionaryFlags & 256); dictionary.bitmapCodingContextRetained = !!(dictionaryFlags & 512); dictionary.template = (dictionaryFlags >> 10) & 3; dictionary.refinementTemplate = (dictionaryFlags >> 12) & 1; position += 2; if (!dictionary.huffman) { var atLength = dictionary.template === 0 ? 4 : 1; var at = []; for (var i = 0; i < atLength; i++) { at.push({ x: readInt8(data, position), y: readInt8(data, position + 1) }); position += 2; } dictionary.at = at; } if (dictionary.refinement && !dictionary.refinementTemplate) { var at = []; for (var i = 0; i < 2; i++) { at.push({ x: readInt8(data, position), y: readInt8(data, position + 1) }); position += 2; } dictionary.refinementAt = at; } dictionary.numberOfExportedSymbols = readUint32(data, position); position += 4; dictionary.numberOfNewSymbols = readUint32(data, position); position += 4; args = [dictionary, header.number, header.referredTo, data, position, end]; break; case 6: // ImmediateTextRegion case 7: // ImmediateLosslessTextRegion var textRegion = {}; textRegion.info = readRegionSegmentInformation(data, position); position += RegionSegmentInformationFieldLength; var textRegionSegmentFlags = readUint16(data, position); position += 2; textRegion.huffman = !!(textRegionSegmentFlags & 1); textRegion.refinement = !!(textRegionSegmentFlags & 2); textRegion.stripSize = 1 << ((textRegionSegmentFlags >> 2) & 3); textRegion.referenceCorner = (textRegionSegmentFlags >> 4) & 3; textRegion.transposed = !!(textRegionSegmentFlags & 64); textRegion.combinationOperator = (textRegionSegmentFlags >> 7) & 3; textRegion.defaultPixelValue = (textRegionSegmentFlags >> 9) & 1; textRegion.dsOffset = (textRegionSegmentFlags << 17) >> 27; textRegion.refinementTemplate = (textRegionSegmentFlags >> 15) & 1; if (textRegion.huffman) { var textRegionHuffmanFlags = readUint16(data, position); position += 2; textRegion.huffmanFS = (textRegionHuffmanFlags) & 3; textRegion.huffmanDS = (textRegionHuffmanFlags >> 2) & 3; textRegion.huffmanDT = (textRegionHuffmanFlags >> 4) & 3; textRegion.huffmanRefinementDW = (textRegionHuffmanFlags >> 6) & 3; textRegion.huffmanRefinementDH = (textRegionHuffmanFlags >> 8) & 3; textRegion.huffmanRefinementDX = (textRegionHuffmanFlags >> 10) & 3; textRegion.huffmanRefinementDY = (textRegionHuffmanFlags >> 12) & 3; textRegion.huffmanRefinementSizeSelector = !!(textRegionHuffmanFlags & 14); } if (textRegion.refinement && !textRegion.refinementTemplate) { var at = []; for (var i = 0; i < 2; i++) { at.push({ x: readInt8(data, position), y: readInt8(data, position + 1) }); position += 2; } textRegion.refinementAt = at; } textRegion.numberOfSymbolInstances = readUint32(data, position); position += 4; // TODO 7.4.3.1.7 Symbol ID Huffman table decoding if (textRegion.huffman) error('JBIG2 error: huffman is not supported'); args = [textRegion, header.referredTo, data, position, end]; break; case 38: // ImmediateGenericRegion case 39: // ImmediateLosslessGenericRegion var genericRegion = {}; genericRegion.info = readRegionSegmentInformation(data, position); position += RegionSegmentInformationFieldLength; var genericRegionSegmentFlags = data[position++]; genericRegion.mmr = !!(genericRegionSegmentFlags & 1); genericRegion.template = (genericRegionSegmentFlags >> 1) & 3; genericRegion.prediction = !!(genericRegionSegmentFlags & 8); if (!genericRegion.mmr) { var atLength = genericRegion.template === 0 ? 4 : 1; var at = []; for (var i = 0; i < atLength; i++) { at.push({ x: readInt8(data, position), y: readInt8(data, position + 1) }); position += 2; } genericRegion.at = at; } args = [genericRegion, data, position, end]; break; case 48: // PageInformation var pageInfo = { width: readUint32(data, position), height: readUint32(data, position + 4), resolutionX: readUint32(data, position + 8), resolutionY: readUint32(data, position + 12) }; if (pageInfo.height == 0xFFFFFFFF) delete pageInfo.height; var pageSegmentFlags = data[position + 16]; var pageStripingInformatiom = readUint16(data, position + 17); pageInfo.lossless = !!(pageSegmentFlags & 1); pageInfo.refinement = !!(pageSegmentFlags & 2); pageInfo.defaultPixelValue = (pageSegmentFlags >> 2) & 1; pageInfo.combinationOperator = (pageSegmentFlags >> 3) & 3; pageInfo.requiresBuffer = !!(pageSegmentFlags & 32); pageInfo.combinationOperatorOverride = !!(pageSegmentFlags & 64); args = [pageInfo]; break; case 49: // EndOfPage break; case 50: // EndOfStripe break; case 51: // EndOfFile break; default: error('JBIG2 error: segment type ' + header.typeName + '(' + header.type + ') is not implemented'); } var callbackName = 'on' + header.typeName; if (callbackName in visitor) visitor[callbackName].apply(visitor, args); } function processSegments(segments, visitor) { for (var i = 0, ii = segments.length; i < ii; i++) processSegment(segments[i], visitor); } function parseJbig2(data, start, end) { var position = start; if (data[position] != 0x97 || data[position + 1] != 0x4A || data[position + 2] != 0x42 || data[position + 3] != 0x32 || data[position + 4] != 0x0D || data[position + 5] != 0x0A || data[position + 6] != 0x1A || data[position + 7] != 0x0A) error('JBIG2 error: invalid header'); var header = {}; position += 8; var flags = data[position++]; header.randomAccess = !(flags & 1); if (!(flags & 2)) { header.numberOfPages = readUint32(data, position); position += 4; } var segments = readSegments(header, data, position, end); error('Not implemented'); // processSegments(segments, new SimpleSegmentVisitor()); } function parseJbig2Chunks(chunks) { var visitor = new SimpleSegmentVisitor(); for (var i = 0, ii = chunks.length; i < ii; i++) { var chunk = chunks[i]; var segments = readSegments({}, chunk.data, chunk.start, chunk.end); processSegments(segments, visitor); } return visitor.buffer; } function SimpleSegmentVisitor() {} SimpleSegmentVisitor.prototype = { onPageInformation: function SimpleSegmentVisitor_onPageInformation(info) { this.currentPageInfo = info; var rowSize = (info.width + 7) >> 3; var buffer = new Uint8Array(rowSize * info.height); var fill = info.defaultPixelValue ? 0xFF : 0; for (var i = 0, ii = buffer.length; i < ii; i++) buffer[i] = fill; this.buffer = buffer; }, drawBitmap: function SimpleSegmentVisitor_drawBitmap(regionInfo, bitmap) { var pageInfo = this.currentPageInfo; var width = regionInfo.width, height = regionInfo.height; var rowSize = (pageInfo.width + 7) >> 3; var combinationOperator = pageInfo.combinationOperatorOverride ? regionInfo.combinationOperator : pageInfo.combinationOperator; var buffer = this.buffer; for (var i = 0; i < height; i++) { var mask = 128 >> (regionInfo.x & 7); var offset = (i + regionInfo.y) * rowSize + (regionInfo.x >> 3); switch (combinationOperator) { case 0: // OR for (var j = 0; j < width; j++) { buffer[offset] |= bitmap[i][j] ? mask : 0; mask >>= 1; if (!mask) { mask = 128; offset++; } } break; case 2: // XOR for (var j = 0; j < width; j++) { buffer[offset] ^= bitmap[i][j] ? mask : 0; mask >>= 1; if (!mask) { mask = 128; offset++; } } break; default: error('JBIG2 error: operator ' + combinationOperator + ' is not supported'); } } }, onImmediateGenericRegion: function SimpleSegmentVisitor_onImmediateGenericRegion(region, data, start, end) { var regionInfo = region.info; var decodingContext = new DecodingContext(data, start, end); var bitmap = decodeBitmap(region.mmr, regionInfo.width, regionInfo.height, region.template, region.prediction, null, region.at, decodingContext); this.drawBitmap(regionInfo, bitmap); }, onImmediateLosslessGenericRegion: function SimpleSegmentVisitor_onImmediateLosslessGenericRegion() { this.onImmediateGenericRegion.apply(this, arguments); }, onSymbolDictionary: function SimpleSegmentVisitor_onSymbolDictionary(dictionary, currentSegment, referredSegments, data, start, end) { var huffmanTables; if (dictionary.huffman) error('JBIG2 error: huffman is not supported'); // Combines exported symbols from all referred segments var symbols = this.symbols; if (!symbols) this.symbols = symbols = {}; var inputSymbols = []; for (var i = 0, ii = referredSegments.length; i < ii; i++) inputSymbols = inputSymbols.concat(symbols[referredSegments[i]]); var decodingContext = new DecodingContext(data, start, end); symbols[currentSegment] = decodeSymbolDictionary(dictionary.huffman, dictionary.refinement, inputSymbols, dictionary.numberOfNewSymbols, dictionary.numberOfExportedSymbols, huffmanTables, dictionary.template, dictionary.at, dictionary.refinementTemplate, dictionary.refinementAt, decodingContext); }, onImmediateTextRegion: function SimpleSegmentVisitor_onImmediateTextRegion(region, referredSegments, data, start, end) { var regionInfo = region.info; var huffmanTables; // Combines exported symbols from all referred segments var symbols = this.symbols; var inputSymbols = []; for (var i = 0, ii = referredSegments.length; i < ii; i++) inputSymbols = inputSymbols.concat(symbols[referredSegments[i]]); var symbolCodeLength = log2(inputSymbols.length); var decodingContext = new DecodingContext(data, start, end); var bitmap = decodeTextRegion(region.huffman, region.refinement, regionInfo.width, regionInfo.height, region.defaultPixelValue, region.numberOfSymbolInstances, region.stripSize, inputSymbols, symbolCodeLength, region.transposed, region.dsOffset, region.referenceCorner, region.combinationOperator, huffmanTables, region.refinementTemplate, region.refinementAt, decodingContext); this.drawBitmap(regionInfo, bitmap); }, onImmediateLosslessTextRegion: function SimpleSegmentVisitor_onImmediateLosslessTextRegion() { this.onImmediateTextRegion.apply(this, arguments); } }; function Jbig2Image() {} Jbig2Image.prototype = { parseChunks: function Jbig2Image_parseChunks(chunks) { return parseJbig2Chunks(chunks); } }; return Jbig2Image; })();