/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */ /* 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. */ /* globals bytesToString, ColorSpace, Dict, EOF, error, info, isArray, Jbig2Image, JpegImage, JpxImage, Lexer, PDFJS, shadow, Util, warn */ 'use strict'; var Stream = (function StreamClosure() { function Stream(arrayBuffer, start, length, dict) { this.bytes = (arrayBuffer instanceof Uint8Array ? arrayBuffer : new Uint8Array(arrayBuffer)); this.start = start || 0; this.pos = this.start; this.end = (start + length) || this.bytes.length; this.dict = dict; } // required methods for a stream. if a particular stream does not // implement these, an error should be thrown Stream.prototype = { get length() { return this.end - this.start; }, get isEmpty() { return this.length === 0; }, getByte: function Stream_getByte() { if (this.pos >= this.end) { return -1; } return this.bytes[this.pos++]; }, getUint16: function Stream_getUint16() { var b0 = this.getByte(); var b1 = this.getByte(); if (b0 === -1 || b1 === -1) { return -1; } return (b0 << 8) + b1; }, getInt32: function Stream_getInt32() { var b0 = this.getByte(); var b1 = this.getByte(); var b2 = this.getByte(); var b3 = this.getByte(); return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3; }, // returns subarray of original buffer // should only be read getBytes: function Stream_getBytes(length) { var bytes = this.bytes; var pos = this.pos; var strEnd = this.end; if (!length) { return bytes.subarray(pos, strEnd); } var end = pos + length; if (end > strEnd) { end = strEnd; } this.pos = end; return bytes.subarray(pos, end); }, peekByte: function Stream_peekByte() { var peekedByte = this.getByte(); this.pos--; return peekedByte; }, peekBytes: function Stream_peekBytes(length) { var bytes = this.getBytes(length); this.pos -= bytes.length; return bytes; }, skip: function Stream_skip(n) { if (!n) { n = 1; } this.pos += n; }, reset: function Stream_reset() { this.pos = this.start; }, moveStart: function Stream_moveStart() { this.start = this.pos; }, makeSubStream: function Stream_makeSubStream(start, length, dict) { return new Stream(this.bytes.buffer, start, length, dict); }, isStream: true }; return Stream; })(); var StringStream = (function StringStreamClosure() { function StringStream(str) { var length = str.length; var bytes = new Uint8Array(length); for (var n = 0; n < length; ++n) { bytes[n] = str.charCodeAt(n); } Stream.call(this, bytes); } StringStream.prototype = Stream.prototype; return StringStream; })(); // super class for the decoding streams var DecodeStream = (function DecodeStreamClosure() { // Lots of DecodeStreams are created whose buffers are never used. For these // we share a single empty buffer. This is (a) space-efficient and (b) avoids // having special cases that would be required if we used |null| for an empty // buffer. var emptyBuffer = new Uint8Array(0); function DecodeStream(maybeMinBufferLength) { this.pos = 0; this.bufferLength = 0; this.eof = false; this.buffer = emptyBuffer; this.minBufferLength = 512; if (maybeMinBufferLength) { // Compute the first power of two that is as big as maybeMinBufferLength. while (this.minBufferLength < maybeMinBufferLength) { this.minBufferLength *= 2; } } } DecodeStream.prototype = { get isEmpty() { while (!this.eof && this.bufferLength === 0) { this.readBlock(); } return this.bufferLength === 0; }, ensureBuffer: function DecodeStream_ensureBuffer(requested) { var buffer = this.buffer; if (requested <= buffer.byteLength) { return buffer; } var size = this.minBufferLength; while (size < requested) { size *= 2; } var buffer2 = new Uint8Array(size); buffer2.set(buffer); return (this.buffer = buffer2); }, getByte: function DecodeStream_getByte() { var pos = this.pos; while (this.bufferLength <= pos) { if (this.eof) { return -1; } this.readBlock(); } return this.buffer[this.pos++]; }, getUint16: function DecodeStream_getUint16() { var b0 = this.getByte(); var b1 = this.getByte(); if (b0 === -1 || b1 === -1) { return -1; } return (b0 << 8) + b1; }, getInt32: function DecodeStream_getInt32() { var b0 = this.getByte(); var b1 = this.getByte(); var b2 = this.getByte(); var b3 = this.getByte(); return (b0 << 24) + (b1 << 16) + (b2 << 8) + b3; }, getBytes: function DecodeStream_getBytes(length) { var end, pos = this.pos; if (length) { this.ensureBuffer(pos + length); end = pos + length; while (!this.eof && this.bufferLength < end) { this.readBlock(); } var bufEnd = this.bufferLength; if (end > bufEnd) { end = bufEnd; } } else { while (!this.eof) { this.readBlock(); } end = this.bufferLength; } this.pos = end; return this.buffer.subarray(pos, end); }, peekByte: function DecodeStream_peekByte() { var peekedByte = this.getByte(); this.pos--; return peekedByte; }, peekBytes: function DecodeStream_peekBytes(length) { var bytes = this.getBytes(length); this.pos -= bytes.length; return bytes; }, makeSubStream: function DecodeStream_makeSubStream(start, length, dict) { var end = start + length; while (this.bufferLength <= end && !this.eof) { this.readBlock(); } return new Stream(this.buffer, start, length, dict); }, skip: function DecodeStream_skip(n) { if (!n) { n = 1; } this.pos += n; }, reset: function DecodeStream_reset() { this.pos = 0; }, getBaseStreams: function DecodeStream_getBaseStreams() { if (this.str && this.str.getBaseStreams) { return this.str.getBaseStreams(); } return []; } }; return DecodeStream; })(); var StreamsSequenceStream = (function StreamsSequenceStreamClosure() { function StreamsSequenceStream(streams) { this.streams = streams; DecodeStream.call(this, /* maybeLength = */ null); } StreamsSequenceStream.prototype = Object.create(DecodeStream.prototype); StreamsSequenceStream.prototype.readBlock = function streamSequenceStreamReadBlock() { var streams = this.streams; if (streams.length === 0) { this.eof = true; return; } var stream = streams.shift(); var chunk = stream.getBytes(); var bufferLength = this.bufferLength; var newLength = bufferLength + chunk.length; var buffer = this.ensureBuffer(newLength); buffer.set(chunk, bufferLength); this.bufferLength = newLength; }; StreamsSequenceStream.prototype.getBaseStreams = function StreamsSequenceStream_getBaseStreams() { var baseStreams = []; for (var i = 0, ii = this.streams.length; i < ii; i++) { var stream = this.streams[i]; if (stream.getBaseStreams) { Util.appendToArray(baseStreams, stream.getBaseStreams()); } } return baseStreams; }; return StreamsSequenceStream; })(); var FlateStream = (function FlateStreamClosure() { var codeLenCodeMap = new Int32Array([ 16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15 ]); var lengthDecode = new Int32Array([ 0x00003, 0x00004, 0x00005, 0x00006, 0x00007, 0x00008, 0x00009, 0x0000a, 0x1000b, 0x1000d, 0x1000f, 0x10011, 0x20013, 0x20017, 0x2001b, 0x2001f, 0x30023, 0x3002b, 0x30033, 0x3003b, 0x40043, 0x40053, 0x40063, 0x40073, 0x50083, 0x500a3, 0x500c3, 0x500e3, 0x00102, 0x00102, 0x00102 ]); var distDecode = new Int32Array([ 0x00001, 0x00002, 0x00003, 0x00004, 0x10005, 0x10007, 0x20009, 0x2000d, 0x30011, 0x30019, 0x40021, 0x40031, 0x50041, 0x50061, 0x60081, 0x600c1, 0x70101, 0x70181, 0x80201, 0x80301, 0x90401, 0x90601, 0xa0801, 0xa0c01, 0xb1001, 0xb1801, 0xc2001, 0xc3001, 0xd4001, 0xd6001 ]); var fixedLitCodeTab = [new Int32Array([ 0x70100, 0x80050, 0x80010, 0x80118, 0x70110, 0x80070, 0x80030, 0x900c0, 0x70108, 0x80060, 0x80020, 0x900a0, 0x80000, 0x80080, 0x80040, 0x900e0, 0x70104, 0x80058, 0x80018, 0x90090, 0x70114, 0x80078, 0x80038, 0x900d0, 0x7010c, 0x80068, 0x80028, 0x900b0, 0x80008, 0x80088, 0x80048, 0x900f0, 0x70102, 0x80054, 0x80014, 0x8011c, 0x70112, 0x80074, 0x80034, 0x900c8, 0x7010a, 0x80064, 0x80024, 0x900a8, 0x80004, 0x80084, 0x80044, 0x900e8, 0x70106, 0x8005c, 0x8001c, 0x90098, 0x70116, 0x8007c, 0x8003c, 0x900d8, 0x7010e, 0x8006c, 0x8002c, 0x900b8, 0x8000c, 0x8008c, 0x8004c, 0x900f8, 0x70101, 0x80052, 0x80012, 0x8011a, 0x70111, 0x80072, 0x80032, 0x900c4, 0x70109, 0x80062, 0x80022, 0x900a4, 0x80002, 0x80082, 0x80042, 0x900e4, 0x70105, 0x8005a, 0x8001a, 0x90094, 0x70115, 0x8007a, 0x8003a, 0x900d4, 0x7010d, 0x8006a, 0x8002a, 0x900b4, 0x8000a, 0x8008a, 0x8004a, 0x900f4, 0x70103, 0x80056, 0x80016, 0x8011e, 0x70113, 0x80076, 0x80036, 0x900cc, 0x7010b, 0x80066, 0x80026, 0x900ac, 0x80006, 0x80086, 0x80046, 0x900ec, 0x70107, 0x8005e, 0x8001e, 0x9009c, 0x70117, 0x8007e, 0x8003e, 0x900dc, 0x7010f, 0x8006e, 0x8002e, 0x900bc, 0x8000e, 0x8008e, 0x8004e, 0x900fc, 0x70100, 0x80051, 0x80011, 0x80119, 0x70110, 0x80071, 0x80031, 0x900c2, 0x70108, 0x80061, 0x80021, 0x900a2, 0x80001, 0x80081, 0x80041, 0x900e2, 0x70104, 0x80059, 0x80019, 0x90092, 0x70114, 0x80079, 0x80039, 0x900d2, 0x7010c, 0x80069, 0x80029, 0x900b2, 0x80009, 0x80089, 0x80049, 0x900f2, 0x70102, 0x80055, 0x80015, 0x8011d, 0x70112, 0x80075, 0x80035, 0x900ca, 0x7010a, 0x80065, 0x80025, 0x900aa, 0x80005, 0x80085, 0x80045, 0x900ea, 0x70106, 0x8005d, 0x8001d, 0x9009a, 0x70116, 0x8007d, 0x8003d, 0x900da, 0x7010e, 0x8006d, 0x8002d, 0x900ba, 0x8000d, 0x8008d, 0x8004d, 0x900fa, 0x70101, 0x80053, 0x80013, 0x8011b, 0x70111, 0x80073, 0x80033, 0x900c6, 0x70109, 0x80063, 0x80023, 0x900a6, 0x80003, 0x80083, 0x80043, 0x900e6, 0x70105, 0x8005b, 0x8001b, 0x90096, 0x70115, 0x8007b, 0x8003b, 0x900d6, 0x7010d, 0x8006b, 0x8002b, 0x900b6, 0x8000b, 0x8008b, 0x8004b, 0x900f6, 0x70103, 0x80057, 0x80017, 0x8011f, 0x70113, 0x80077, 0x80037, 0x900ce, 0x7010b, 0x80067, 0x80027, 0x900ae, 0x80007, 0x80087, 0x80047, 0x900ee, 0x70107, 0x8005f, 0x8001f, 0x9009e, 0x70117, 0x8007f, 0x8003f, 0x900de, 0x7010f, 0x8006f, 0x8002f, 0x900be, 0x8000f, 0x8008f, 0x8004f, 0x900fe, 0x70100, 0x80050, 0x80010, 0x80118, 0x70110, 0x80070, 0x80030, 0x900c1, 0x70108, 0x80060, 0x80020, 0x900a1, 0x80000, 0x80080, 0x80040, 0x900e1, 0x70104, 0x80058, 0x80018, 0x90091, 0x70114, 0x80078, 0x80038, 0x900d1, 0x7010c, 0x80068, 0x80028, 0x900b1, 0x80008, 0x80088, 0x80048, 0x900f1, 0x70102, 0x80054, 0x80014, 0x8011c, 0x70112, 0x80074, 0x80034, 0x900c9, 0x7010a, 0x80064, 0x80024, 0x900a9, 0x80004, 0x80084, 0x80044, 0x900e9, 0x70106, 0x8005c, 0x8001c, 0x90099, 0x70116, 0x8007c, 0x8003c, 0x900d9, 0x7010e, 0x8006c, 0x8002c, 0x900b9, 0x8000c, 0x8008c, 0x8004c, 0x900f9, 0x70101, 0x80052, 0x80012, 0x8011a, 0x70111, 0x80072, 0x80032, 0x900c5, 0x70109, 0x80062, 0x80022, 0x900a5, 0x80002, 0x80082, 0x80042, 0x900e5, 0x70105, 0x8005a, 0x8001a, 0x90095, 0x70115, 0x8007a, 0x8003a, 0x900d5, 0x7010d, 0x8006a, 0x8002a, 0x900b5, 0x8000a, 0x8008a, 0x8004a, 0x900f5, 0x70103, 0x80056, 0x80016, 0x8011e, 0x70113, 0x80076, 0x80036, 0x900cd, 0x7010b, 0x80066, 0x80026, 0x900ad, 0x80006, 0x80086, 0x80046, 0x900ed, 0x70107, 0x8005e, 0x8001e, 0x9009d, 0x70117, 0x8007e, 0x8003e, 0x900dd, 0x7010f, 0x8006e, 0x8002e, 0x900bd, 0x8000e, 0x8008e, 0x8004e, 0x900fd, 0x70100, 0x80051, 0x80011, 0x80119, 0x70110, 0x80071, 0x80031, 0x900c3, 0x70108, 0x80061, 0x80021, 0x900a3, 0x80001, 0x80081, 0x80041, 0x900e3, 0x70104, 0x80059, 0x80019, 0x90093, 0x70114, 0x80079, 0x80039, 0x900d3, 0x7010c, 0x80069, 0x80029, 0x900b3, 0x80009, 0x80089, 0x80049, 0x900f3, 0x70102, 0x80055, 0x80015, 0x8011d, 0x70112, 0x80075, 0x80035, 0x900cb, 0x7010a, 0x80065, 0x80025, 0x900ab, 0x80005, 0x80085, 0x80045, 0x900eb, 0x70106, 0x8005d, 0x8001d, 0x9009b, 0x70116, 0x8007d, 0x8003d, 0x900db, 0x7010e, 0x8006d, 0x8002d, 0x900bb, 0x8000d, 0x8008d, 0x8004d, 0x900fb, 0x70101, 0x80053, 0x80013, 0x8011b, 0x70111, 0x80073, 0x80033, 0x900c7, 0x70109, 0x80063, 0x80023, 0x900a7, 0x80003, 0x80083, 0x80043, 0x900e7, 0x70105, 0x8005b, 0x8001b, 0x90097, 0x70115, 0x8007b, 0x8003b, 0x900d7, 0x7010d, 0x8006b, 0x8002b, 0x900b7, 0x8000b, 0x8008b, 0x8004b, 0x900f7, 0x70103, 0x80057, 0x80017, 0x8011f, 0x70113, 0x80077, 0x80037, 0x900cf, 0x7010b, 0x80067, 0x80027, 0x900af, 0x80007, 0x80087, 0x80047, 0x900ef, 0x70107, 0x8005f, 0x8001f, 0x9009f, 0x70117, 0x8007f, 0x8003f, 0x900df, 0x7010f, 0x8006f, 0x8002f, 0x900bf, 0x8000f, 0x8008f, 0x8004f, 0x900ff ]), 9]; var fixedDistCodeTab = [new Int32Array([ 0x50000, 0x50010, 0x50008, 0x50018, 0x50004, 0x50014, 0x5000c, 0x5001c, 0x50002, 0x50012, 0x5000a, 0x5001a, 0x50006, 0x50016, 0x5000e, 0x00000, 0x50001, 0x50011, 0x50009, 0x50019, 0x50005, 0x50015, 0x5000d, 0x5001d, 0x50003, 0x50013, 0x5000b, 0x5001b, 0x50007, 0x50017, 0x5000f, 0x00000 ]), 5]; function FlateStream(str, maybeLength) { this.str = str; this.dict = str.dict; var cmf = str.getByte(); var flg = str.getByte(); if (cmf === -1 || flg === -1) { error('Invalid header in flate stream: ' + cmf + ', ' + flg); } if ((cmf & 0x0f) !== 0x08) { error('Unknown compression method in flate stream: ' + cmf + ', ' + flg); } if ((((cmf << 8) + flg) % 31) !== 0) { error('Bad FCHECK in flate stream: ' + cmf + ', ' + flg); } if (flg & 0x20) { error('FDICT bit set in flate stream: ' + cmf + ', ' + flg); } this.codeSize = 0; this.codeBuf = 0; DecodeStream.call(this, maybeLength); } FlateStream.prototype = Object.create(DecodeStream.prototype); FlateStream.prototype.getBits = function FlateStream_getBits(bits) { var str = this.str; var codeSize = this.codeSize; var codeBuf = this.codeBuf; var b; while (codeSize < bits) { if ((b = str.getByte()) === -1) { error('Bad encoding in flate stream'); } codeBuf |= b << codeSize; codeSize += 8; } b = codeBuf & ((1 << bits) - 1); this.codeBuf = codeBuf >> bits; this.codeSize = codeSize -= bits; return b; }; FlateStream.prototype.getCode = function FlateStream_getCode(table) { var str = this.str; var codes = table[0]; var maxLen = table[1]; var codeSize = this.codeSize; var codeBuf = this.codeBuf; var b; while (codeSize < maxLen) { if ((b = str.getByte()) === -1) { // premature end of stream. code might however still be valid. // codeSize < codeLen check below guards against incomplete codeVal. break; } codeBuf |= (b << codeSize); codeSize += 8; } var code = codes[codeBuf & ((1 << maxLen) - 1)]; var codeLen = code >> 16; var codeVal = code & 0xffff; if (codeLen < 1 || codeSize < codeLen) { error('Bad encoding in flate stream'); } this.codeBuf = (codeBuf >> codeLen); this.codeSize = (codeSize - codeLen); return codeVal; }; FlateStream.prototype.generateHuffmanTable = function flateStreamGenerateHuffmanTable(lengths) { var n = lengths.length; // find max code length var maxLen = 0; var i; for (i = 0; i < n; ++i) { if (lengths[i] > maxLen) { maxLen = lengths[i]; } } // build the table var size = 1 << maxLen; var codes = new Int32Array(size); for (var len = 1, code = 0, skip = 2; len <= maxLen; ++len, code <<= 1, skip <<= 1) { for (var val = 0; val < n; ++val) { if (lengths[val] === len) { // bit-reverse the code var code2 = 0; var t = code; for (i = 0; i < len; ++i) { code2 = (code2 << 1) | (t & 1); t >>= 1; } // fill the table entries for (i = code2; i < size; i += skip) { codes[i] = (len << 16) | val; } ++code; } } } return [codes, maxLen]; }; FlateStream.prototype.readBlock = function FlateStream_readBlock() { var buffer, len; var str = this.str; // read block header var hdr = this.getBits(3); if (hdr & 1) { this.eof = true; } hdr >>= 1; if (hdr === 0) { // uncompressed block var b; if ((b = str.getByte()) === -1) { error('Bad block header in flate stream'); } var blockLen = b; if ((b = str.getByte()) === -1) { error('Bad block header in flate stream'); } blockLen |= (b << 8); if ((b = str.getByte()) === -1) { error('Bad block header in flate stream'); } var check = b; if ((b = str.getByte()) === -1) { error('Bad block header in flate stream'); } check |= (b << 8); if (check !== (~blockLen & 0xffff) && (blockLen !== 0 || check !== 0)) { // Ignoring error for bad "empty" block (see issue 1277) error('Bad uncompressed block length in flate stream'); } this.codeBuf = 0; this.codeSize = 0; var bufferLength = this.bufferLength; buffer = this.ensureBuffer(bufferLength + blockLen); var end = bufferLength + blockLen; this.bufferLength = end; if (blockLen === 0) { if (str.peekByte() === -1) { this.eof = true; } } else { for (var n = bufferLength; n < end; ++n) { if ((b = str.getByte()) === -1) { this.eof = true; break; } buffer[n] = b; } } return; } var litCodeTable; var distCodeTable; if (hdr === 1) { // compressed block, fixed codes litCodeTable = fixedLitCodeTab; distCodeTable = fixedDistCodeTab; } else if (hdr === 2) { // compressed block, dynamic codes var numLitCodes = this.getBits(5) + 257; var numDistCodes = this.getBits(5) + 1; var numCodeLenCodes = this.getBits(4) + 4; // build the code lengths code table var codeLenCodeLengths = new Uint8Array(codeLenCodeMap.length); var i; for (i = 0; i < numCodeLenCodes; ++i) { codeLenCodeLengths[codeLenCodeMap[i]] = this.getBits(3); } var codeLenCodeTab = this.generateHuffmanTable(codeLenCodeLengths); // build the literal and distance code tables len = 0; i = 0; var codes = numLitCodes + numDistCodes; var codeLengths = new Uint8Array(codes); var bitsLength, bitsOffset, what; while (i < codes) { var code = this.getCode(codeLenCodeTab); if (code === 16) { bitsLength = 2; bitsOffset = 3; what = len; } else if (code === 17) { bitsLength = 3; bitsOffset = 3; what = (len = 0); } else if (code === 18) { bitsLength = 7; bitsOffset = 11; what = (len = 0); } else { codeLengths[i++] = len = code; continue; } var repeatLength = this.getBits(bitsLength) + bitsOffset; while (repeatLength-- > 0) { codeLengths[i++] = what; } } litCodeTable = this.generateHuffmanTable(codeLengths.subarray(0, numLitCodes)); distCodeTable = this.generateHuffmanTable(codeLengths.subarray(numLitCodes, codes)); } else { error('Unknown block type in flate stream'); } buffer = this.buffer; var limit = buffer ? buffer.length : 0; var pos = this.bufferLength; while (true) { var code1 = this.getCode(litCodeTable); if (code1 < 256) { if (pos + 1 >= limit) { buffer = this.ensureBuffer(pos + 1); limit = buffer.length; } buffer[pos++] = code1; continue; } if (code1 === 256) { this.bufferLength = pos; return; } code1 -= 257; code1 = lengthDecode[code1]; var code2 = code1 >> 16; if (code2 > 0) { code2 = this.getBits(code2); } len = (code1 & 0xffff) + code2; code1 = this.getCode(distCodeTable); code1 = distDecode[code1]; code2 = code1 >> 16; if (code2 > 0) { code2 = this.getBits(code2); } var dist = (code1 & 0xffff) + code2; if (pos + len >= limit) { buffer = this.ensureBuffer(pos + len); limit = buffer.length; } for (var k = 0; k < len; ++k, ++pos) { buffer[pos] = buffer[pos - dist]; } } }; return FlateStream; })(); var PredictorStream = (function PredictorStreamClosure() { function PredictorStream(str, maybeLength, params) { var predictor = this.predictor = params.get('Predictor') || 1; if (predictor <= 1) { return str; // no prediction } if (predictor !== 2 && (predictor < 10 || predictor > 15)) { error('Unsupported predictor: ' + predictor); } if (predictor === 2) { this.readBlock = this.readBlockTiff; } else { this.readBlock = this.readBlockPng; } this.str = str; this.dict = str.dict; var colors = this.colors = params.get('Colors') || 1; var bits = this.bits = params.get('BitsPerComponent') || 8; var columns = this.columns = params.get('Columns') || 1; this.pixBytes = (colors * bits + 7) >> 3; this.rowBytes = (columns * colors * bits + 7) >> 3; DecodeStream.call(this, maybeLength); return this; } PredictorStream.prototype = Object.create(DecodeStream.prototype); PredictorStream.prototype.readBlockTiff = function predictorStreamReadBlockTiff() { var rowBytes = this.rowBytes; var bufferLength = this.bufferLength; var buffer = this.ensureBuffer(bufferLength + rowBytes); var bits = this.bits; var colors = this.colors; var rawBytes = this.str.getBytes(rowBytes); this.eof = !rawBytes.length; if (this.eof) { return; } var inbuf = 0, outbuf = 0; var inbits = 0, outbits = 0; var pos = bufferLength; var i; if (bits === 1) { for (i = 0; i < rowBytes; ++i) { var c = rawBytes[i]; inbuf = (inbuf << 8) | c; // bitwise addition is exclusive or // first shift inbuf and then add buffer[pos++] = (c ^ (inbuf >> colors)) & 0xFF; // truncate inbuf (assumes colors < 16) inbuf &= 0xFFFF; } } else if (bits === 8) { for (i = 0; i < colors; ++i) { buffer[pos++] = rawBytes[i]; } for (; i < rowBytes; ++i) { buffer[pos] = buffer[pos - colors] + rawBytes[i]; pos++; } } else { var compArray = new Uint8Array(colors + 1); var bitMask = (1 << bits) - 1; var j = 0, k = bufferLength; var columns = this.columns; for (i = 0; i < columns; ++i) { for (var kk = 0; kk < colors; ++kk) { if (inbits < bits) { inbuf = (inbuf << 8) | (rawBytes[j++] & 0xFF); inbits += 8; } compArray[kk] = (compArray[kk] + (inbuf >> (inbits - bits))) & bitMask; inbits -= bits; outbuf = (outbuf << bits) | compArray[kk]; outbits += bits; if (outbits >= 8) { buffer[k++] = (outbuf >> (outbits - 8)) & 0xFF; outbits -= 8; } } } if (outbits > 0) { buffer[k++] = (outbuf << (8 - outbits)) + (inbuf & ((1 << (8 - outbits)) - 1)); } } this.bufferLength += rowBytes; }; PredictorStream.prototype.readBlockPng = function predictorStreamReadBlockPng() { var rowBytes = this.rowBytes; var pixBytes = this.pixBytes; var predictor = this.str.getByte(); var rawBytes = this.str.getBytes(rowBytes); this.eof = !rawBytes.length; if (this.eof) { return; } var bufferLength = this.bufferLength; var buffer = this.ensureBuffer(bufferLength + rowBytes); var prevRow = buffer.subarray(bufferLength - rowBytes, bufferLength); if (prevRow.length === 0) { prevRow = new Uint8Array(rowBytes); } var i, j = bufferLength, up, c; switch (predictor) { case 0: for (i = 0; i < rowBytes; ++i) { buffer[j++] = rawBytes[i]; } break; case 1: for (i = 0; i < pixBytes; ++i) { buffer[j++] = rawBytes[i]; } for (; i < rowBytes; ++i) { buffer[j] = (buffer[j - pixBytes] + rawBytes[i]) & 0xFF; j++; } break; case 2: for (i = 0; i < rowBytes; ++i) { buffer[j++] = (prevRow[i] + rawBytes[i]) & 0xFF; } break; case 3: for (i = 0; i < pixBytes; ++i) { buffer[j++] = (prevRow[i] >> 1) + rawBytes[i]; } for (; i < rowBytes; ++i) { buffer[j] = (((prevRow[i] + buffer[j - pixBytes]) >> 1) + rawBytes[i]) & 0xFF; j++; } break; case 4: // we need to save the up left pixels values. the simplest way // is to create a new buffer for (i = 0; i < pixBytes; ++i) { up = prevRow[i]; c = rawBytes[i]; buffer[j++] = up + c; } for (; i < rowBytes; ++i) { up = prevRow[i]; var upLeft = prevRow[i - pixBytes]; var left = buffer[j - pixBytes]; var p = left + up - upLeft; var pa = p - left; if (pa < 0) { pa = -pa; } var pb = p - up; if (pb < 0) { pb = -pb; } var pc = p - upLeft; if (pc < 0) { pc = -pc; } c = rawBytes[i]; if (pa <= pb && pa <= pc) { buffer[j++] = left + c; } else if (pb <= pc) { buffer[j++] = up + c; } else { buffer[j++] = upLeft + c; } } break; default: error('Unsupported predictor: ' + predictor); } this.bufferLength += rowBytes; }; return PredictorStream; })(); /** * Depending on the type of JPEG a JpegStream is handled in different ways. For * JPEG's that are supported natively such as DeviceGray and DeviceRGB the image * data is stored and then loaded by the browser. For unsupported JPEG's we use * a library to decode these images and the stream behaves like all the other * DecodeStreams. */ var JpegStream = (function JpegStreamClosure() { function JpegStream(stream, maybeLength, dict, xref) { // Some images may contain 'junk' before the SOI (start-of-image) marker. // Note: this seems to mainly affect inline images. var ch; while ((ch = stream.getByte()) !== -1) { if (ch === 0xFF) { // Find the first byte of the SOI marker (0xFFD8). stream.skip(-1); // Reset the stream position to the SOI. break; } } this.stream = stream; this.maybeLength = maybeLength; this.dict = dict; DecodeStream.call(this, maybeLength); } JpegStream.prototype = Object.create(DecodeStream.prototype); Object.defineProperty(JpegStream.prototype, 'bytes', { get: function JpegStream_bytes() { // If this.maybeLength is null, we'll get the entire stream. return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength)); }, configurable: true }); JpegStream.prototype.ensureBuffer = function JpegStream_ensureBuffer(req) { if (this.bufferLength) { return; } try { var jpegImage = new JpegImage(); // checking if values needs to be transformed before conversion if (this.forceRGB && this.dict && isArray(this.dict.get('Decode'))) { var decodeArr = this.dict.get('Decode'); var bitsPerComponent = this.dict.get('BitsPerComponent') || 8; var decodeArrLength = decodeArr.length; var transform = new Int32Array(decodeArrLength); var transformNeeded = false; var maxValue = (1 << bitsPerComponent) - 1; for (var i = 0; i < decodeArrLength; i += 2) { transform[i] = ((decodeArr[i + 1] - decodeArr[i]) * 256) | 0; transform[i + 1] = (decodeArr[i] * maxValue) | 0; if (transform[i] !== 256 || transform[i + 1] !== 0) { transformNeeded = true; } } if (transformNeeded) { jpegImage.decodeTransform = transform; } } jpegImage.parse(this.bytes); var data = jpegImage.getData(this.drawWidth, this.drawHeight, this.forceRGB); this.buffer = data; this.bufferLength = data.length; this.eof = true; } catch (e) { error('JPEG error: ' + e); } }; JpegStream.prototype.getBytes = function JpegStream_getBytes(length) { this.ensureBuffer(); return this.buffer; }; JpegStream.prototype.getIR = function JpegStream_getIR() { return PDFJS.createObjectURL(this.bytes, 'image/jpeg'); }; /** * Checks if the image can be decoded and displayed by the browser without any * further processing such as color space conversions. */ JpegStream.prototype.isNativelySupported = function JpegStream_isNativelySupported(xref, res) { var cs = ColorSpace.parse(this.dict.get('ColorSpace', 'CS'), xref, res); return cs.name === 'DeviceGray' || cs.name === 'DeviceRGB'; }; /** * Checks if the image can be decoded by the browser. */ JpegStream.prototype.isNativelyDecodable = function JpegStream_isNativelyDecodable(xref, res) { var cs = ColorSpace.parse(this.dict.get('ColorSpace', 'CS'), xref, res); var numComps = cs.numComps; return numComps === 1 || numComps === 3; }; return JpegStream; })(); /** * For JPEG 2000's we use a library to decode these images and * the stream behaves like all the other DecodeStreams. */ var JpxStream = (function JpxStreamClosure() { function JpxStream(stream, maybeLength, dict) { this.stream = stream; this.maybeLength = maybeLength; this.dict = dict; DecodeStream.call(this, maybeLength); } JpxStream.prototype = Object.create(DecodeStream.prototype); Object.defineProperty(JpxStream.prototype, 'bytes', { get: function JpxStream_bytes() { // If this.maybeLength is null, we'll get the entire stream. return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength)); }, configurable: true }); JpxStream.prototype.ensureBuffer = function JpxStream_ensureBuffer(req) { if (this.bufferLength) { return; } var jpxImage = new JpxImage(); jpxImage.parse(this.bytes); var width = jpxImage.width; var height = jpxImage.height; var componentsCount = jpxImage.componentsCount; var tileCount = jpxImage.tiles.length; if (tileCount === 1) { this.buffer = jpxImage.tiles[0].items; } else { var data = new Uint8Array(width * height * componentsCount); for (var k = 0; k < tileCount; k++) { var tileComponents = jpxImage.tiles[k]; var tileWidth = tileComponents.width; var tileHeight = tileComponents.height; var tileLeft = tileComponents.left; var tileTop = tileComponents.top; var src = tileComponents.items; var srcPosition = 0; var dataPosition = (width * tileTop + tileLeft) * componentsCount; var imgRowSize = width * componentsCount; var tileRowSize = tileWidth * componentsCount; for (var j = 0; j < tileHeight; j++) { var rowBytes = src.subarray(srcPosition, srcPosition + tileRowSize); data.set(rowBytes, dataPosition); srcPosition += tileRowSize; dataPosition += imgRowSize; } } this.buffer = data; } this.bufferLength = this.buffer.length; this.eof = true; }; return JpxStream; })(); /** * For JBIG2's we use a library to decode these images and * the stream behaves like all the other DecodeStreams. */ var Jbig2Stream = (function Jbig2StreamClosure() { function Jbig2Stream(stream, maybeLength, dict) { this.stream = stream; this.maybeLength = maybeLength; this.dict = dict; DecodeStream.call(this, maybeLength); } Jbig2Stream.prototype = Object.create(DecodeStream.prototype); Object.defineProperty(Jbig2Stream.prototype, 'bytes', { get: function Jbig2Stream_bytes() { // If this.maybeLength is null, we'll get the entire stream. return shadow(this, 'bytes', this.stream.getBytes(this.maybeLength)); }, configurable: true }); Jbig2Stream.prototype.ensureBuffer = function Jbig2Stream_ensureBuffer(req) { if (this.bufferLength) { return; } var jbig2Image = new Jbig2Image(); var chunks = [], xref = this.dict.xref; var decodeParams = xref.fetchIfRef(this.dict.get('DecodeParms')); // According to the PDF specification, DecodeParms can be either // a dictionary, or an array whose elements are dictionaries. if (isArray(decodeParams)) { if (decodeParams.length > 1) { warn('JBIG2 - \'DecodeParms\' array with multiple elements ' + 'not supported.'); } decodeParams = xref.fetchIfRef(decodeParams[0]); } if (decodeParams && decodeParams.has('JBIG2Globals')) { var globalsStream = decodeParams.get('JBIG2Globals'); var globals = globalsStream.getBytes(); chunks.push({data: globals, start: 0, end: globals.length}); } chunks.push({data: this.bytes, start: 0, end: this.bytes.length}); var data = jbig2Image.parseChunks(chunks); var dataLength = data.length; // JBIG2 had black as 1 and white as 0, inverting the colors for (var i = 0; i < dataLength; i++) { data[i] ^= 0xFF; } this.buffer = data; this.bufferLength = dataLength; this.eof = true; }; return Jbig2Stream; })(); var DecryptStream = (function DecryptStreamClosure() { function DecryptStream(str, maybeLength, decrypt) { this.str = str; this.dict = str.dict; this.decrypt = decrypt; this.nextChunk = null; this.initialized = false; DecodeStream.call(this, maybeLength); } var chunkSize = 512; DecryptStream.prototype = Object.create(DecodeStream.prototype); DecryptStream.prototype.readBlock = function DecryptStream_readBlock() { var chunk; if (this.initialized) { chunk = this.nextChunk; } else { chunk = this.str.getBytes(chunkSize); this.initialized = true; } if (!chunk || chunk.length === 0) { this.eof = true; return; } this.nextChunk = this.str.getBytes(chunkSize); var hasMoreData = this.nextChunk && this.nextChunk.length > 0; var decrypt = this.decrypt; chunk = decrypt(chunk, !hasMoreData); var bufferLength = this.bufferLength; var i, n = chunk.length; var buffer = this.ensureBuffer(bufferLength + n); for (i = 0; i < n; i++) { buffer[bufferLength++] = chunk[i]; } this.bufferLength = bufferLength; }; return DecryptStream; })(); var Ascii85Stream = (function Ascii85StreamClosure() { function Ascii85Stream(str, maybeLength) { this.str = str; this.dict = str.dict; this.input = new Uint8Array(5); // Most streams increase in size when decoded, but Ascii85 streams // typically shrink by ~20%. if (maybeLength) { maybeLength = 0.8 * maybeLength; } DecodeStream.call(this, maybeLength); } Ascii85Stream.prototype = Object.create(DecodeStream.prototype); Ascii85Stream.prototype.readBlock = function Ascii85Stream_readBlock() { var TILDA_CHAR = 0x7E; // '~' var Z_LOWER_CHAR = 0x7A; // 'z' var EOF = -1; var str = this.str; var c = str.getByte(); while (Lexer.isSpace(c)) { c = str.getByte(); } if (c === EOF || c === TILDA_CHAR) { this.eof = true; return; } var bufferLength = this.bufferLength, buffer; var i; // special code for z if (c === Z_LOWER_CHAR) { buffer = this.ensureBuffer(bufferLength + 4); for (i = 0; i < 4; ++i) { buffer[bufferLength + i] = 0; } this.bufferLength += 4; } else { var input = this.input; input[0] = c; for (i = 1; i < 5; ++i) { c = str.getByte(); while (Lexer.isSpace(c)) { c = str.getByte(); } input[i] = c; if (c === EOF || c === TILDA_CHAR) { break; } } buffer = this.ensureBuffer(bufferLength + i - 1); this.bufferLength += i - 1; // partial ending; if (i < 5) { for (; i < 5; ++i) { input[i] = 0x21 + 84; } this.eof = true; } var t = 0; for (i = 0; i < 5; ++i) { t = t * 85 + (input[i] - 0x21); } for (i = 3; i >= 0; --i) { buffer[bufferLength + i] = t & 0xFF; t >>= 8; } } }; return Ascii85Stream; })(); var AsciiHexStream = (function AsciiHexStreamClosure() { function AsciiHexStream(str, maybeLength) { this.str = str; this.dict = str.dict; this.firstDigit = -1; // Most streams increase in size when decoded, but AsciiHex streams shrink // by 50%. if (maybeLength) { maybeLength = 0.5 * maybeLength; } DecodeStream.call(this, maybeLength); } AsciiHexStream.prototype = Object.create(DecodeStream.prototype); AsciiHexStream.prototype.readBlock = function AsciiHexStream_readBlock() { var UPSTREAM_BLOCK_SIZE = 8000; var bytes = this.str.getBytes(UPSTREAM_BLOCK_SIZE); if (!bytes.length) { this.eof = true; return; } var maxDecodeLength = (bytes.length + 1) >> 1; var buffer = this.ensureBuffer(this.bufferLength + maxDecodeLength); var bufferLength = this.bufferLength; var firstDigit = this.firstDigit; for (var i = 0, ii = bytes.length; i < ii; i++) { var ch = bytes[i], digit; if (ch >= 0x30 && ch <= 0x39) { // '0'-'9' digit = ch & 0x0F; } else if ((ch >= 0x41 && ch <= 0x46) || (ch >= 0x61 && ch <= 0x66)) { // 'A'-'Z', 'a'-'z' digit = (ch & 0x0F) + 9; } else if (ch === 0x3E) { // '>' this.eof = true; break; } else { // probably whitespace continue; // ignoring } if (firstDigit < 0) { firstDigit = digit; } else { buffer[bufferLength++] = (firstDigit << 4) | digit; firstDigit = -1; } } if (firstDigit >= 0 && this.eof) { // incomplete byte buffer[bufferLength++] = (firstDigit << 4); firstDigit = -1; } this.firstDigit = firstDigit; this.bufferLength = bufferLength; }; return AsciiHexStream; })(); var RunLengthStream = (function RunLengthStreamClosure() { function RunLengthStream(str, maybeLength) { this.str = str; this.dict = str.dict; DecodeStream.call(this, maybeLength); } RunLengthStream.prototype = Object.create(DecodeStream.prototype); RunLengthStream.prototype.readBlock = function RunLengthStream_readBlock() { // The repeatHeader has following format. The first byte defines type of run // and amount of bytes to repeat/copy: n = 0 through 127 - copy next n bytes // (in addition to the second byte from the header), n = 129 through 255 - // duplicate the second byte from the header (257 - n) times, n = 128 - end. var repeatHeader = this.str.getBytes(2); if (!repeatHeader || repeatHeader.length < 2 || repeatHeader[0] === 128) { this.eof = true; return; } var buffer; var bufferLength = this.bufferLength; var n = repeatHeader[0]; if (n < 128) { // copy n bytes buffer = this.ensureBuffer(bufferLength + n + 1); buffer[bufferLength++] = repeatHeader[1]; if (n > 0) { var source = this.str.getBytes(n); buffer.set(source, bufferLength); bufferLength += n; } } else { n = 257 - n; var b = repeatHeader[1]; buffer = this.ensureBuffer(bufferLength + n + 1); for (var i = 0; i < n; i++) { buffer[bufferLength++] = b; } } this.bufferLength = bufferLength; }; return RunLengthStream; })(); var CCITTFaxStream = (function CCITTFaxStreamClosure() { var ccittEOL = -2; var twoDimPass = 0; var twoDimHoriz = 1; var twoDimVert0 = 2; var twoDimVertR1 = 3; var twoDimVertL1 = 4; var twoDimVertR2 = 5; var twoDimVertL2 = 6; var twoDimVertR3 = 7; var twoDimVertL3 = 8; var twoDimTable = [ [-1, -1], [-1, -1], // 000000x [7, twoDimVertL3], // 0000010 [7, twoDimVertR3], // 0000011 [6, twoDimVertL2], [6, twoDimVertL2], // 000010x [6, twoDimVertR2], [6, twoDimVertR2], // 000011x [4, twoDimPass], [4, twoDimPass], // 0001xxx [4, twoDimPass], [4, twoDimPass], [4, twoDimPass], [4, twoDimPass], [4, twoDimPass], [4, twoDimPass], [3, twoDimHoriz], [3, twoDimHoriz], // 001xxxx [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimHoriz], [3, twoDimVertL1], [3, twoDimVertL1], // 010xxxx [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertL1], [3, twoDimVertR1], [3, twoDimVertR1], // 011xxxx [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [3, twoDimVertR1], [1, twoDimVert0], [1, twoDimVert0], // 1xxxxxx [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0], [1, twoDimVert0] ]; var whiteTable1 = [ [-1, -1], // 00000 [12, ccittEOL], // 00001 [-1, -1], [-1, -1], // 0001x [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 001xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 010xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 011xx [11, 1792], [11, 1792], // 1000x [12, 1984], // 10010 [12, 2048], // 10011 [12, 2112], // 10100 [12, 2176], // 10101 [12, 2240], // 10110 [12, 2304], // 10111 [11, 1856], [11, 1856], // 1100x [11, 1920], [11, 1920], // 1101x [12, 2368], // 11100 [12, 2432], // 11101 [12, 2496], // 11110 [12, 2560] // 11111 ]; var whiteTable2 = [ [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 0000000xx [8, 29], [8, 29], // 00000010x [8, 30], [8, 30], // 00000011x [8, 45], [8, 45], // 00000100x [8, 46], [8, 46], // 00000101x [7, 22], [7, 22], [7, 22], [7, 22], // 0000011xx [7, 23], [7, 23], [7, 23], [7, 23], // 0000100xx [8, 47], [8, 47], // 00001010x [8, 48], [8, 48], // 00001011x [6, 13], [6, 13], [6, 13], [6, 13], // 000011xxx [6, 13], [6, 13], [6, 13], [6, 13], [7, 20], [7, 20], [7, 20], [7, 20], // 0001000xx [8, 33], [8, 33], // 00010010x [8, 34], [8, 34], // 00010011x [8, 35], [8, 35], // 00010100x [8, 36], [8, 36], // 00010101x [8, 37], [8, 37], // 00010110x [8, 38], [8, 38], // 00010111x [7, 19], [7, 19], [7, 19], [7, 19], // 0001100xx [8, 31], [8, 31], // 00011010x [8, 32], [8, 32], // 00011011x [6, 1], [6, 1], [6, 1], [6, 1], // 000111xxx [6, 1], [6, 1], [6, 1], [6, 1], [6, 12], [6, 12], [6, 12], [6, 12], // 001000xxx [6, 12], [6, 12], [6, 12], [6, 12], [8, 53], [8, 53], // 00100100x [8, 54], [8, 54], // 00100101x [7, 26], [7, 26], [7, 26], [7, 26], // 0010011xx [8, 39], [8, 39], // 00101000x [8, 40], [8, 40], // 00101001x [8, 41], [8, 41], // 00101010x [8, 42], [8, 42], // 00101011x [8, 43], [8, 43], // 00101100x [8, 44], [8, 44], // 00101101x [7, 21], [7, 21], [7, 21], [7, 21], // 0010111xx [7, 28], [7, 28], [7, 28], [7, 28], // 0011000xx [8, 61], [8, 61], // 00110010x [8, 62], [8, 62], // 00110011x [8, 63], [8, 63], // 00110100x [8, 0], [8, 0], // 00110101x [8, 320], [8, 320], // 00110110x [8, 384], [8, 384], // 00110111x [5, 10], [5, 10], [5, 10], [5, 10], // 00111xxxx [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 10], [5, 11], [5, 11], [5, 11], [5, 11], // 01000xxxx [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [5, 11], [7, 27], [7, 27], [7, 27], [7, 27], // 0100100xx [8, 59], [8, 59], // 01001010x [8, 60], [8, 60], // 01001011x [9, 1472], // 010011000 [9, 1536], // 010011001 [9, 1600], // 010011010 [9, 1728], // 010011011 [7, 18], [7, 18], [7, 18], [7, 18], // 0100111xx [7, 24], [7, 24], [7, 24], [7, 24], // 0101000xx [8, 49], [8, 49], // 01010010x [8, 50], [8, 50], // 01010011x [8, 51], [8, 51], // 01010100x [8, 52], [8, 52], // 01010101x [7, 25], [7, 25], [7, 25], [7, 25], // 0101011xx [8, 55], [8, 55], // 01011000x [8, 56], [8, 56], // 01011001x [8, 57], [8, 57], // 01011010x [8, 58], [8, 58], // 01011011x [6, 192], [6, 192], [6, 192], [6, 192], // 010111xxx [6, 192], [6, 192], [6, 192], [6, 192], [6, 1664], [6, 1664], [6, 1664], [6, 1664], // 011000xxx [6, 1664], [6, 1664], [6, 1664], [6, 1664], [8, 448], [8, 448], // 01100100x [8, 512], [8, 512], // 01100101x [9, 704], // 011001100 [9, 768], // 011001101 [8, 640], [8, 640], // 01100111x [8, 576], [8, 576], // 01101000x [9, 832], // 011010010 [9, 896], // 011010011 [9, 960], // 011010100 [9, 1024], // 011010101 [9, 1088], // 011010110 [9, 1152], // 011010111 [9, 1216], // 011011000 [9, 1280], // 011011001 [9, 1344], // 011011010 [9, 1408], // 011011011 [7, 256], [7, 256], [7, 256], [7, 256], // 0110111xx [4, 2], [4, 2], [4, 2], [4, 2], // 0111xxxxx [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 2], [4, 3], [4, 3], [4, 3], [4, 3], // 1000xxxxx [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [4, 3], [5, 128], [5, 128], [5, 128], [5, 128], // 10010xxxx [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 128], [5, 8], [5, 8], [5, 8], [5, 8], // 10011xxxx [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 8], [5, 9], [5, 9], [5, 9], [5, 9], // 10100xxxx [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [5, 9], [6, 16], [6, 16], [6, 16], [6, 16], // 101010xxx [6, 16], [6, 16], [6, 16], [6, 16], [6, 17], [6, 17], [6, 17], [6, 17], // 101011xxx [6, 17], [6, 17], [6, 17], [6, 17], [4, 4], [4, 4], [4, 4], [4, 4], // 1011xxxxx [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 4], [4, 5], [4, 5], [4, 5], [4, 5], // 1100xxxxx [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [4, 5], [6, 14], [6, 14], [6, 14], [6, 14], // 110100xxx [6, 14], [6, 14], [6, 14], [6, 14], [6, 15], [6, 15], [6, 15], [6, 15], // 110101xxx [6, 15], [6, 15], [6, 15], [6, 15], [5, 64], [5, 64], [5, 64], [5, 64], // 11011xxxx [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [5, 64], [4, 6], [4, 6], [4, 6], [4, 6], // 1110xxxxx [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 6], [4, 7], [4, 7], [4, 7], [4, 7], // 1111xxxxx [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7], [4, 7] ]; var blackTable1 = [ [-1, -1], [-1, -1], // 000000000000x [12, ccittEOL], [12, ccittEOL], // 000000000001x [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000001xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000010xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000011xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000100xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000101xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000110xx [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 00000000111xx [11, 1792], [11, 1792], [11, 1792], [11, 1792], // 00000001000xx [12, 1984], [12, 1984], // 000000010010x [12, 2048], [12, 2048], // 000000010011x [12, 2112], [12, 2112], // 000000010100x [12, 2176], [12, 2176], // 000000010101x [12, 2240], [12, 2240], // 000000010110x [12, 2304], [12, 2304], // 000000010111x [11, 1856], [11, 1856], [11, 1856], [11, 1856], // 00000001100xx [11, 1920], [11, 1920], [11, 1920], [11, 1920], // 00000001101xx [12, 2368], [12, 2368], // 000000011100x [12, 2432], [12, 2432], // 000000011101x [12, 2496], [12, 2496], // 000000011110x [12, 2560], [12, 2560], // 000000011111x [10, 18], [10, 18], [10, 18], [10, 18], // 0000001000xxx [10, 18], [10, 18], [10, 18], [10, 18], [12, 52], [12, 52], // 000000100100x [13, 640], // 0000001001010 [13, 704], // 0000001001011 [13, 768], // 0000001001100 [13, 832], // 0000001001101 [12, 55], [12, 55], // 000000100111x [12, 56], [12, 56], // 000000101000x [13, 1280], // 0000001010010 [13, 1344], // 0000001010011 [13, 1408], // 0000001010100 [13, 1472], // 0000001010101 [12, 59], [12, 59], // 000000101011x [12, 60], [12, 60], // 000000101100x [13, 1536], // 0000001011010 [13, 1600], // 0000001011011 [11, 24], [11, 24], [11, 24], [11, 24], // 00000010111xx [11, 25], [11, 25], [11, 25], [11, 25], // 00000011000xx [13, 1664], // 0000001100100 [13, 1728], // 0000001100101 [12, 320], [12, 320], // 000000110011x [12, 384], [12, 384], // 000000110100x [12, 448], [12, 448], // 000000110101x [13, 512], // 0000001101100 [13, 576], // 0000001101101 [12, 53], [12, 53], // 000000110111x [12, 54], [12, 54], // 000000111000x [13, 896], // 0000001110010 [13, 960], // 0000001110011 [13, 1024], // 0000001110100 [13, 1088], // 0000001110101 [13, 1152], // 0000001110110 [13, 1216], // 0000001110111 [10, 64], [10, 64], [10, 64], [10, 64], // 0000001111xxx [10, 64], [10, 64], [10, 64], [10, 64] ]; var blackTable2 = [ [8, 13], [8, 13], [8, 13], [8, 13], // 00000100xxxx [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [8, 13], [11, 23], [11, 23], // 00000101000x [12, 50], // 000001010010 [12, 51], // 000001010011 [12, 44], // 000001010100 [12, 45], // 000001010101 [12, 46], // 000001010110 [12, 47], // 000001010111 [12, 57], // 000001011000 [12, 58], // 000001011001 [12, 61], // 000001011010 [12, 256], // 000001011011 [10, 16], [10, 16], [10, 16], [10, 16], // 0000010111xx [10, 17], [10, 17], [10, 17], [10, 17], // 0000011000xx [12, 48], // 000001100100 [12, 49], // 000001100101 [12, 62], // 000001100110 [12, 63], // 000001100111 [12, 30], // 000001101000 [12, 31], // 000001101001 [12, 32], // 000001101010 [12, 33], // 000001101011 [12, 40], // 000001101100 [12, 41], // 000001101101 [11, 22], [11, 22], // 00000110111x [8, 14], [8, 14], [8, 14], [8, 14], // 00000111xxxx [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [8, 14], [7, 10], [7, 10], [7, 10], [7, 10], // 0000100xxxxx [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 10], [7, 11], [7, 11], [7, 11], [7, 11], // 0000101xxxxx [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [7, 11], [9, 15], [9, 15], [9, 15], [9, 15], // 000011000xxx [9, 15], [9, 15], [9, 15], [9, 15], [12, 128], // 000011001000 [12, 192], // 000011001001 [12, 26], // 000011001010 [12, 27], // 000011001011 [12, 28], // 000011001100 [12, 29], // 000011001101 [11, 19], [11, 19], // 00001100111x [11, 20], [11, 20], // 00001101000x [12, 34], // 000011010010 [12, 35], // 000011010011 [12, 36], // 000011010100 [12, 37], // 000011010101 [12, 38], // 000011010110 [12, 39], // 000011010111 [11, 21], [11, 21], // 00001101100x [12, 42], // 000011011010 [12, 43], // 000011011011 [10, 0], [10, 0], [10, 0], [10, 0], // 0000110111xx [7, 12], [7, 12], [7, 12], [7, 12], // 0000111xxxxx [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12], [7, 12] ]; var blackTable3 = [ [-1, -1], [-1, -1], [-1, -1], [-1, -1], // 0000xx [6, 9], // 000100 [6, 8], // 000101 [5, 7], [5, 7], // 00011x [4, 6], [4, 6], [4, 6], [4, 6], // 0010xx [4, 5], [4, 5], [4, 5], [4, 5], // 0011xx [3, 1], [3, 1], [3, 1], [3, 1], // 010xxx [3, 1], [3, 1], [3, 1], [3, 1], [3, 4], [3, 4], [3, 4], [3, 4], // 011xxx [3, 4], [3, 4], [3, 4], [3, 4], [2, 3], [2, 3], [2, 3], [2, 3], // 10xxxx [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 3], [2, 2], [2, 2], [2, 2], [2, 2], // 11xxxx [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2], [2, 2] ]; function CCITTFaxStream(str, maybeLength, params) { this.str = str; this.dict = str.dict; params = params || Dict.empty; this.encoding = params.get('K') || 0; this.eoline = params.get('EndOfLine') || false; this.byteAlign = params.get('EncodedByteAlign') || false; this.columns = params.get('Columns') || 1728; this.rows = params.get('Rows') || 0; var eoblock = params.get('EndOfBlock'); if (eoblock === null || eoblock === undefined) { eoblock = true; } this.eoblock = eoblock; this.black = params.get('BlackIs1') || false; this.codingLine = new Uint32Array(this.columns + 1); this.refLine = new Uint32Array(this.columns + 2); this.codingLine[0] = this.columns; this.codingPos = 0; this.row = 0; this.nextLine2D = this.encoding < 0; this.inputBits = 0; this.inputBuf = 0; this.outputBits = 0; var code1; while ((code1 = this.lookBits(12)) === 0) { this.eatBits(1); } if (code1 === 1) { this.eatBits(12); } if (this.encoding > 0) { this.nextLine2D = !this.lookBits(1); this.eatBits(1); } DecodeStream.call(this, maybeLength); } CCITTFaxStream.prototype = Object.create(DecodeStream.prototype); CCITTFaxStream.prototype.readBlock = function CCITTFaxStream_readBlock() { while (!this.eof) { var c = this.lookChar(); this.ensureBuffer(this.bufferLength + 1); this.buffer[this.bufferLength++] = c; } }; CCITTFaxStream.prototype.addPixels = function ccittFaxStreamAddPixels(a1, blackPixels) { var codingLine = this.codingLine; var codingPos = this.codingPos; if (a1 > codingLine[codingPos]) { if (a1 > this.columns) { info('row is wrong length'); this.err = true; a1 = this.columns; } if ((codingPos & 1) ^ blackPixels) { ++codingPos; } codingLine[codingPos] = a1; } this.codingPos = codingPos; }; CCITTFaxStream.prototype.addPixelsNeg = function ccittFaxStreamAddPixelsNeg(a1, blackPixels) { var codingLine = this.codingLine; var codingPos = this.codingPos; if (a1 > codingLine[codingPos]) { if (a1 > this.columns) { info('row is wrong length'); this.err = true; a1 = this.columns; } if ((codingPos & 1) ^ blackPixels) { ++codingPos; } codingLine[codingPos] = a1; } else if (a1 < codingLine[codingPos]) { if (a1 < 0) { info('invalid code'); this.err = true; a1 = 0; } while (codingPos > 0 && a1 < codingLine[codingPos - 1]) { --codingPos; } codingLine[codingPos] = a1; } this.codingPos = codingPos; }; CCITTFaxStream.prototype.lookChar = function CCITTFaxStream_lookChar() { var refLine = this.refLine; var codingLine = this.codingLine; var columns = this.columns; var refPos, blackPixels, bits, i; if (this.outputBits === 0) { if (this.eof) { return null; } this.err = false; var code1, code2, code3; if (this.nextLine2D) { for (i = 0; codingLine[i] < columns; ++i) { refLine[i] = codingLine[i]; } refLine[i++] = columns; refLine[i] = columns; codingLine[0] = 0; this.codingPos = 0; refPos = 0; blackPixels = 0; while (codingLine[this.codingPos] < columns) { code1 = this.getTwoDimCode(); switch (code1) { case twoDimPass: this.addPixels(refLine[refPos + 1], blackPixels); if (refLine[refPos + 1] < columns) { refPos += 2; } break; case twoDimHoriz: code1 = code2 = 0; if (blackPixels) { do { code1 += (code3 = this.getBlackCode()); } while (code3 >= 64); do { code2 += (code3 = this.getWhiteCode()); } while (code3 >= 64); } else { do { code1 += (code3 = this.getWhiteCode()); } while (code3 >= 64); do { code2 += (code3 = this.getBlackCode()); } while (code3 >= 64); } this.addPixels(codingLine[this.codingPos] + code1, blackPixels); if (codingLine[this.codingPos] < columns) { this.addPixels(codingLine[this.codingPos] + code2, blackPixels ^ 1); } while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } break; case twoDimVertR3: this.addPixels(refLine[refPos] + 3, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { ++refPos; while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVertR2: this.addPixels(refLine[refPos] + 2, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { ++refPos; while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVertR1: this.addPixels(refLine[refPos] + 1, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { ++refPos; while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVert0: this.addPixels(refLine[refPos], blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { ++refPos; while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVertL3: this.addPixelsNeg(refLine[refPos] - 3, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { if (refPos > 0) { --refPos; } else { ++refPos; } while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVertL2: this.addPixelsNeg(refLine[refPos] - 2, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { if (refPos > 0) { --refPos; } else { ++refPos; } while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case twoDimVertL1: this.addPixelsNeg(refLine[refPos] - 1, blackPixels); blackPixels ^= 1; if (codingLine[this.codingPos] < columns) { if (refPos > 0) { --refPos; } else { ++refPos; } while (refLine[refPos] <= codingLine[this.codingPos] && refLine[refPos] < columns) { refPos += 2; } } break; case EOF: this.addPixels(columns, 0); this.eof = true; break; default: info('bad 2d code'); this.addPixels(columns, 0); this.err = true; } } } else { codingLine[0] = 0; this.codingPos = 0; blackPixels = 0; while (codingLine[this.codingPos] < columns) { code1 = 0; if (blackPixels) { do { code1 += (code3 = this.getBlackCode()); } while (code3 >= 64); } else { do { code1 += (code3 = this.getWhiteCode()); } while (code3 >= 64); } this.addPixels(codingLine[this.codingPos] + code1, blackPixels); blackPixels ^= 1; } } var gotEOL = false; if (this.byteAlign) { this.inputBits &= ~7; } if (!this.eoblock && this.row === this.rows - 1) { this.eof = true; } else { code1 = this.lookBits(12); if (this.eoline) { while (code1 !== EOF && code1 !== 1) { this.eatBits(1); code1 = this.lookBits(12); } } else { while (code1 === 0) { this.eatBits(1); code1 = this.lookBits(12); } } if (code1 === 1) { this.eatBits(12); gotEOL = true; } else if (code1 === EOF) { this.eof = true; } } if (!this.eof && this.encoding > 0) { this.nextLine2D = !this.lookBits(1); this.eatBits(1); } if (this.eoblock && gotEOL && this.byteAlign) { code1 = this.lookBits(12); if (code1 === 1) { this.eatBits(12); if (this.encoding > 0) { this.lookBits(1); this.eatBits(1); } if (this.encoding >= 0) { for (i = 0; i < 4; ++i) { code1 = this.lookBits(12); if (code1 !== 1) { info('bad rtc code: ' + code1); } this.eatBits(12); if (this.encoding > 0) { this.lookBits(1); this.eatBits(1); } } } this.eof = true; } } else if (this.err && this.eoline) { while (true) { code1 = this.lookBits(13); if (code1 === EOF) { this.eof = true; return null; } if ((code1 >> 1) === 1) { break; } this.eatBits(1); } this.eatBits(12); if (this.encoding > 0) { this.eatBits(1); this.nextLine2D = !(code1 & 1); } } if (codingLine[0] > 0) { this.outputBits = codingLine[this.codingPos = 0]; } else { this.outputBits = codingLine[this.codingPos = 1]; } this.row++; } var c; if (this.outputBits >= 8) { c = (this.codingPos & 1) ? 0 : 0xFF; this.outputBits -= 8; if (this.outputBits === 0 && codingLine[this.codingPos] < columns) { this.codingPos++; this.outputBits = (codingLine[this.codingPos] - codingLine[this.codingPos - 1]); } } else { bits = 8; c = 0; do { if (this.outputBits > bits) { c <<= bits; if (!(this.codingPos & 1)) { c |= 0xFF >> (8 - bits); } this.outputBits -= bits; bits = 0; } else { c <<= this.outputBits; if (!(this.codingPos & 1)) { c |= 0xFF >> (8 - this.outputBits); } bits -= this.outputBits; this.outputBits = 0; if (codingLine[this.codingPos] < columns) { this.codingPos++; this.outputBits = (codingLine[this.codingPos] - codingLine[this.codingPos - 1]); } else if (bits > 0) { c <<= bits; bits = 0; } } } while (bits); } if (this.black) { c ^= 0xFF; } return c; }; // This functions returns the code found from the table. // The start and end parameters set the boundaries for searching the table. // The limit parameter is optional. Function returns an array with three // values. The first array element indicates whether a valid code is being // returned. The second array element is the actual code. The third array // element indicates whether EOF was reached. CCITTFaxStream.prototype.findTableCode = function ccittFaxStreamFindTableCode(start, end, table, limit) { var limitValue = limit || 0; for (var i = start; i <= end; ++i) { var code = this.lookBits(i); if (code === EOF) { return [true, 1, false]; } if (i < end) { code <<= end - i; } if (!limitValue || code >= limitValue) { var p = table[code - limitValue]; if (p[0] === i) { this.eatBits(i); return [true, p[1], true]; } } } return [false, 0, false]; }; CCITTFaxStream.prototype.getTwoDimCode = function ccittFaxStreamGetTwoDimCode() { var code = 0; var p; if (this.eoblock) { code = this.lookBits(7); p = twoDimTable[code]; if (p && p[0] > 0) { this.eatBits(p[0]); return p[1]; } } else { var result = this.findTableCode(1, 7, twoDimTable); if (result[0] && result[2]) { return result[1]; } } info('Bad two dim code'); return EOF; }; CCITTFaxStream.prototype.getWhiteCode = function ccittFaxStreamGetWhiteCode() { var code = 0; var p; if (this.eoblock) { code = this.lookBits(12); if (code === EOF) { return 1; } if ((code >> 5) === 0) { p = whiteTable1[code]; } else { p = whiteTable2[code >> 3]; } if (p[0] > 0) { this.eatBits(p[0]); return p[1]; } } else { var result = this.findTableCode(1, 9, whiteTable2); if (result[0]) { return result[1]; } result = this.findTableCode(11, 12, whiteTable1); if (result[0]) { return result[1]; } } info('bad white code'); this.eatBits(1); return 1; }; CCITTFaxStream.prototype.getBlackCode = function ccittFaxStreamGetBlackCode() { var code, p; if (this.eoblock) { code = this.lookBits(13); if (code === EOF) { return 1; } if ((code >> 7) === 0) { p = blackTable1[code]; } else if ((code >> 9) === 0 && (code >> 7) !== 0) { p = blackTable2[(code >> 1) - 64]; } else { p = blackTable3[code >> 7]; } if (p[0] > 0) { this.eatBits(p[0]); return p[1]; } } else { var result = this.findTableCode(2, 6, blackTable3); if (result[0]) { return result[1]; } result = this.findTableCode(7, 12, blackTable2, 64); if (result[0]) { return result[1]; } result = this.findTableCode(10, 13, blackTable1); if (result[0]) { return result[1]; } } info('bad black code'); this.eatBits(1); return 1; }; CCITTFaxStream.prototype.lookBits = function CCITTFaxStream_lookBits(n) { var c; while (this.inputBits < n) { if ((c = this.str.getByte()) === -1) { if (this.inputBits === 0) { return EOF; } return ((this.inputBuf << (n - this.inputBits)) & (0xFFFF >> (16 - n))); } this.inputBuf = (this.inputBuf << 8) + c; this.inputBits += 8; } return (this.inputBuf >> (this.inputBits - n)) & (0xFFFF >> (16 - n)); }; CCITTFaxStream.prototype.eatBits = function CCITTFaxStream_eatBits(n) { if ((this.inputBits -= n) < 0) { this.inputBits = 0; } }; return CCITTFaxStream; })(); var LZWStream = (function LZWStreamClosure() { function LZWStream(str, maybeLength, earlyChange) { this.str = str; this.dict = str.dict; this.cachedData = 0; this.bitsCached = 0; var maxLzwDictionarySize = 4096; var lzwState = { earlyChange: earlyChange, codeLength: 9, nextCode: 258, dictionaryValues: new Uint8Array(maxLzwDictionarySize), dictionaryLengths: new Uint16Array(maxLzwDictionarySize), dictionaryPrevCodes: new Uint16Array(maxLzwDictionarySize), currentSequence: new Uint8Array(maxLzwDictionarySize), currentSequenceLength: 0 }; for (var i = 0; i < 256; ++i) { lzwState.dictionaryValues[i] = i; lzwState.dictionaryLengths[i] = 1; } this.lzwState = lzwState; DecodeStream.call(this, maybeLength); } LZWStream.prototype = Object.create(DecodeStream.prototype); LZWStream.prototype.readBits = function LZWStream_readBits(n) { var bitsCached = this.bitsCached; var cachedData = this.cachedData; while (bitsCached < n) { var c = this.str.getByte(); if (c === -1) { this.eof = true; return null; } cachedData = (cachedData << 8) | c; bitsCached += 8; } this.bitsCached = (bitsCached -= n); this.cachedData = cachedData; this.lastCode = null; return (cachedData >>> bitsCached) & ((1 << n) - 1); }; LZWStream.prototype.readBlock = function LZWStream_readBlock() { var blockSize = 512; var estimatedDecodedSize = blockSize * 2, decodedSizeDelta = blockSize; var i, j, q; var lzwState = this.lzwState; if (!lzwState) { return; // eof was found } var earlyChange = lzwState.earlyChange; var nextCode = lzwState.nextCode; var dictionaryValues = lzwState.dictionaryValues; var dictionaryLengths = lzwState.dictionaryLengths; var dictionaryPrevCodes = lzwState.dictionaryPrevCodes; var codeLength = lzwState.codeLength; var prevCode = lzwState.prevCode; var currentSequence = lzwState.currentSequence; var currentSequenceLength = lzwState.currentSequenceLength; var decodedLength = 0; var currentBufferLength = this.bufferLength; var buffer = this.ensureBuffer(this.bufferLength + estimatedDecodedSize); for (i = 0; i < blockSize; i++) { var code = this.readBits(codeLength); var hasPrev = currentSequenceLength > 0; if (code < 256) { currentSequence[0] = code; currentSequenceLength = 1; } else if (code >= 258) { if (code < nextCode) { currentSequenceLength = dictionaryLengths[code]; for (j = currentSequenceLength - 1, q = code; j >= 0; j--) { currentSequence[j] = dictionaryValues[q]; q = dictionaryPrevCodes[q]; } } else { currentSequence[currentSequenceLength++] = currentSequence[0]; } } else if (code === 256) { codeLength = 9; nextCode = 258; currentSequenceLength = 0; continue; } else { this.eof = true; delete this.lzwState; break; } if (hasPrev) { dictionaryPrevCodes[nextCode] = prevCode; dictionaryLengths[nextCode] = dictionaryLengths[prevCode] + 1; dictionaryValues[nextCode] = currentSequence[0]; nextCode++; codeLength = (nextCode + earlyChange) & (nextCode + earlyChange - 1) ? codeLength : Math.min(Math.log(nextCode + earlyChange) / 0.6931471805599453 + 1, 12) | 0; } prevCode = code; decodedLength += currentSequenceLength; if (estimatedDecodedSize < decodedLength) { do { estimatedDecodedSize += decodedSizeDelta; } while (estimatedDecodedSize < decodedLength); buffer = this.ensureBuffer(this.bufferLength + estimatedDecodedSize); } for (j = 0; j < currentSequenceLength; j++) { buffer[currentBufferLength++] = currentSequence[j]; } } lzwState.nextCode = nextCode; lzwState.codeLength = codeLength; lzwState.prevCode = prevCode; lzwState.currentSequenceLength = currentSequenceLength; this.bufferLength = currentBufferLength; }; return LZWStream; })(); var NullStream = (function NullStreamClosure() { function NullStream() { Stream.call(this, new Uint8Array(0)); } NullStream.prototype = Stream.prototype; return NullStream; })();