//--------------------------------------------------------------------- // QRCode for JavaScript // // Copyright (c) 2009 Kazuhiko Arase // // URL: http://www.d-project.com/ // // Licensed under the MIT license: // http://www.opensource.org/licenses/mit-license.php // // The word "QR Code" is registered trademark of // DENSO WAVE INCORPORATED // http://www.denso-wave.com/qrcode/faqpatent-e.html // //--------------------------------------------------------------------- (function () { //--------------------------------------------------------------------- // QRCode //--------------------------------------------------------------------- var QRCode = window.QRCode = function (typeNumber, errorCorrectLevel) { this.typeNumber = typeNumber; this.errorCorrectLevel = errorCorrectLevel; this.modules = null; this.moduleCount = 0; this.dataCache = null; this.dataList = new Array(); } QRCode.prototype = { addData: function (data) { var newData = new QRCode.QR8bitByte(data); this.dataList.push(newData); this.dataCache = null; }, isDark: function (row, col) { if (row < 0 || this.moduleCount <= row || col < 0 || this.moduleCount <= col) { throw new Error(row + "," + col); } return this.modules[row][col]; }, getModuleCount: function () { return this.moduleCount; }, make: function () { this.makeImpl(false, this.getBestMaskPattern()); }, makeImpl: function (test, maskPattern) { this.moduleCount = this.typeNumber * 4 + 17; this.modules = new Array(this.moduleCount); for (var row = 0; row < this.moduleCount; row++) { this.modules[row] = new Array(this.moduleCount); for (var col = 0; col < this.moduleCount; col++) { this.modules[row][col] = null; //(col + row) % 3; } } this.setupPositionProbePattern(0, 0); this.setupPositionProbePattern(this.moduleCount - 7, 0); this.setupPositionProbePattern(0, this.moduleCount - 7); this.setupPositionAdjustPattern(); this.setupTimingPattern(); this.setupTypeInfo(test, maskPattern); if (this.typeNumber >= 7) { this.setupTypeNumber(test); } if (this.dataCache == null) { this.dataCache = QRCode.createData(this.typeNumber, this.errorCorrectLevel, this.dataList); } this.mapData(this.dataCache, maskPattern); }, setupPositionProbePattern: function (row, col) { for (var r = -1; r <= 7; r++) { if (row + r <= -1 || this.moduleCount <= row + r) continue; for (var c = -1; c <= 7; c++) { if (col + c <= -1 || this.moduleCount <= col + c) continue; if ((0 <= r && r <= 6 && (c == 0 || c == 6)) || (0 <= c && c <= 6 && (r == 0 || r == 6)) || (2 <= r && r <= 4 && 2 <= c && c <= 4)) { this.modules[row + r][col + c] = true; } else { this.modules[row + r][col + c] = false; } } } }, getBestMaskPattern: function () { var minLostPoint = 0; var pattern = 0; for (var i = 0; i < 8; i++) { this.makeImpl(true, i); var lostPoint = QRCode.Util.getLostPoint(this); if (i == 0 || minLostPoint > lostPoint) { minLostPoint = lostPoint; pattern = i; } } return pattern; }, createMovieClip: function (target_mc, instance_name, depth) { var qr_mc = target_mc.createEmptyMovieClip(instance_name, depth); var cs = 1; this.make(); for (var row = 0; row < this.modules.length; row++) { var y = row * cs; for (var col = 0; col < this.modules[row].length; col++) { var x = col * cs; var dark = this.modules[row][col]; if (dark) { qr_mc.beginFill(0, 100); qr_mc.moveTo(x, y); qr_mc.lineTo(x + cs, y); qr_mc.lineTo(x + cs, y + cs); qr_mc.lineTo(x, y + cs); qr_mc.endFill(); } } } return qr_mc; }, setupTimingPattern: function () { for (var r = 8; r < this.moduleCount - 8; r++) { if (this.modules[r][6] != null) { continue; } this.modules[r][6] = (r % 2 == 0); } for (var c = 8; c < this.moduleCount - 8; c++) { if (this.modules[6][c] != null) { continue; } this.modules[6][c] = (c % 2 == 0); } }, setupPositionAdjustPattern: function () { var pos = QRCode.Util.getPatternPosition(this.typeNumber); for (var i = 0; i < pos.length; i++) { for (var j = 0; j < pos.length; j++) { var row = pos[i]; var col = pos[j]; if (this.modules[row][col] != null) { continue; } for (var r = -2; r <= 2; r++) { for (var c = -2; c <= 2; c++) { if (r == -2 || r == 2 || c == -2 || c == 2 || (r == 0 && c == 0)) { this.modules[row + r][col + c] = true; } else { this.modules[row + r][col + c] = false; } } } } } }, setupTypeNumber: function (test) { var bits = QRCode.Util.getBCHTypeNumber(this.typeNumber); for (var i = 0; i < 18; i++) { var mod = (!test && ((bits >> i) & 1) == 1); this.modules[Math.floor(i / 3)][i % 3 + this.moduleCount - 8 - 3] = mod; } for (var i = 0; i < 18; i++) { var mod = (!test && ((bits >> i) & 1) == 1); this.modules[i % 3 + this.moduleCount - 8 - 3][Math.floor(i / 3)] = mod; } }, setupTypeInfo: function (test, maskPattern) { var data = (this.errorCorrectLevel << 3) | maskPattern; var bits = QRCode.Util.getBCHTypeInfo(data); // vertical for (var i = 0; i < 15; i++) { var mod = (!test && ((bits >> i) & 1) == 1); if (i < 6) { this.modules[i][8] = mod; } else if (i < 8) { this.modules[i + 1][8] = mod; } else { this.modules[this.moduleCount - 15 + i][8] = mod; } } // horizontal for (var i = 0; i < 15; i++) { var mod = (!test && ((bits >> i) & 1) == 1); if (i < 8) { this.modules[8][this.moduleCount - i - 1] = mod; } else if (i < 9) { this.modules[8][15 - i - 1 + 1] = mod; } else { this.modules[8][15 - i - 1] = mod; } } // fixed module this.modules[this.moduleCount - 8][8] = (!test); }, mapData: function (data, maskPattern) { var inc = -1; var row = this.moduleCount - 1; var bitIndex = 7; var byteIndex = 0; for (var col = this.moduleCount - 1; col > 0; col -= 2) { if (col == 6) col--; while (true) { for (var c = 0; c < 2; c++) { if (this.modules[row][col - c] == null) { var dark = false; if (byteIndex < data.length) { dark = (((data[byteIndex] >>> bitIndex) & 1) == 1); } var mask = QRCode.Util.getMask(maskPattern, row, col - c); if (mask) { dark = !dark; } this.modules[row][col - c] = dark; bitIndex--; if (bitIndex == -1) { byteIndex++; bitIndex = 7; } } } row += inc; if (row < 0 || this.moduleCount <= row) { row -= inc; inc = -inc; break; } } } } }; QRCode.PAD0 = 0xEC; QRCode.PAD1 = 0x11; QRCode.createData = function (typeNumber, errorCorrectLevel, dataList) { var rsBlocks = QRCode.RSBlock.getRSBlocks(typeNumber, errorCorrectLevel); var buffer = new QRCode.BitBuffer(); for (var i = 0; i < dataList.length; i++) { var data = dataList[i]; buffer.put(data.mode, 4); buffer.put(data.getLength(), QRCode.Util.getLengthInBits(data.mode, typeNumber)); data.write(buffer); } // calc num max data. var totalDataCount = 0; for (var i = 0; i < rsBlocks.length; i++) { totalDataCount += rsBlocks[i].dataCount; } if (buffer.getLengthInBits() > totalDataCount * 8) { throw new Error("code length overflow. (" + buffer.getLengthInBits() + ">" + totalDataCount * 8 + ")"); } // end code if (buffer.getLengthInBits() + 4 <= totalDataCount * 8) { buffer.put(0, 4); } // padding while (buffer.getLengthInBits() % 8 != 0) { buffer.putBit(false); } // padding while (true) { if (buffer.getLengthInBits() >= totalDataCount * 8) { break; } buffer.put(QRCode.PAD0, 8); if (buffer.getLengthInBits() >= totalDataCount * 8) { break; } buffer.put(QRCode.PAD1, 8); } return QRCode.createBytes(buffer, rsBlocks); }; QRCode.createBytes = function (buffer, rsBlocks) { var offset = 0; var maxDcCount = 0; var maxEcCount = 0; var dcdata = new Array(rsBlocks.length); var ecdata = new Array(rsBlocks.length); for (var r = 0; r < rsBlocks.length; r++) { var dcCount = rsBlocks[r].dataCount; var ecCount = rsBlocks[r].totalCount - dcCount; maxDcCount = Math.max(maxDcCount, dcCount); maxEcCount = Math.max(maxEcCount, ecCount); dcdata[r] = new Array(dcCount); for (var i = 0; i < dcdata[r].length; i++) { dcdata[r][i] = 0xff & buffer.buffer[i + offset]; } offset += dcCount; var rsPoly = QRCode.Util.getErrorCorrectPolynomial(ecCount); var rawPoly = new QRCode.Polynomial(dcdata[r], rsPoly.getLength() - 1); var modPoly = rawPoly.mod(rsPoly); ecdata[r] = new Array(rsPoly.getLength() - 1); for (var i = 0; i < ecdata[r].length; i++) { var modIndex = i + modPoly.getLength() - ecdata[r].length; ecdata[r][i] = (modIndex >= 0) ? modPoly.get(modIndex) : 0; } } var totalCodeCount = 0; for (var i = 0; i < rsBlocks.length; i++) { totalCodeCount += rsBlocks[i].totalCount; } var data = new Array(totalCodeCount); var index = 0; for (var i = 0; i < maxDcCount; i++) { for (var r = 0; r < rsBlocks.length; r++) { if (i < dcdata[r].length) { data[index++] = dcdata[r][i]; } } } for (var i = 0; i < maxEcCount; i++) { for (var r = 0; r < rsBlocks.length; r++) { if (i < ecdata[r].length) { data[index++] = ecdata[r][i]; } } } return data; }; //--------------------------------------------------------------------- // QR8bitByte //--------------------------------------------------------------------- QRCode.QR8bitByte = function (data) { this.mode = QRCode.Mode.MODE_8BIT_BYTE; this.data = data; } QRCode.QR8bitByte.prototype = { getLength: function (buffer) { return this.data.length; }, write: function (buffer) { for (var i = 0; i < this.data.length; i++) { // not JIS ... buffer.put(this.data.charCodeAt(i), 8); } } }; //--------------------------------------------------------------------- // QRMode //--------------------------------------------------------------------- QRCode.Mode = { MODE_NUMBER: 1 << 0, MODE_ALPHA_NUM: 1 << 1, MODE_8BIT_BYTE: 1 << 2, MODE_KANJI: 1 << 3 }; //--------------------------------------------------------------------- // QRErrorCorrectLevel //--------------------------------------------------------------------- QRCode.ErrorCorrectLevel = { L: 1, M: 0, Q: 3, H: 2 }; //--------------------------------------------------------------------- // QRMaskPattern //--------------------------------------------------------------------- QRCode.MaskPattern = { PATTERN000: 0, PATTERN001: 1, PATTERN010: 2, PATTERN011: 3, PATTERN100: 4, PATTERN101: 5, PATTERN110: 6, PATTERN111: 7 }; //--------------------------------------------------------------------- // QRUtil //--------------------------------------------------------------------- QRCode.Util = { PATTERN_POSITION_TABLE: [ [], [6, 18], [6, 22], [6, 26], [6, 30], [6, 34], [6, 22, 38], [6, 24, 42], [6, 26, 46], [6, 28, 50], [6, 30, 54], [6, 32, 58], [6, 34, 62], [6, 26, 46, 66], [6, 26, 48, 70], [6, 26, 50, 74], [6, 30, 54, 78], [6, 30, 56, 82], [6, 30, 58, 86], [6, 34, 62, 90], [6, 28, 50, 72, 94], [6, 26, 50, 74, 98], [6, 30, 54, 78, 102], [6, 28, 54, 80, 106], [6, 32, 58, 84, 110], [6, 30, 58, 86, 114], [6, 34, 62, 90, 118], [6, 26, 50, 74, 98, 122], [6, 30, 54, 78, 102, 126], [6, 26, 52, 78, 104, 130], [6, 30, 56, 82, 108, 134], [6, 34, 60, 86, 112, 138], [6, 30, 58, 86, 114, 142], [6, 34, 62, 90, 118, 146], [6, 30, 54, 78, 102, 126, 150], [6, 24, 50, 76, 102, 128, 154], [6, 28, 54, 80, 106, 132, 158], [6, 32, 58, 84, 110, 136, 162], [6, 26, 54, 82, 110, 138, 166], [6, 30, 58, 86, 114, 142, 170] ], G15: (1 << 10) | (1 << 8) | (1 << 5) | (1 << 4) | (1 << 2) | (1 << 1) | (1 << 0), G18: (1 << 12) | (1 << 11) | (1 << 10) | (1 << 9) | (1 << 8) | (1 << 5) | (1 << 2) | (1 << 0), G15_MASK: (1 << 14) | (1 << 12) | (1 << 10) | (1 << 4) | (1 << 1), getBCHTypeInfo: function (data) { var d = data << 10; while (QRCode.Util.getBCHDigit(d) - QRCode.Util.getBCHDigit(QRCode.Util.G15) >= 0) { d ^= (QRCode.Util.G15 << (QRCode.Util.getBCHDigit(d) - QRCode.Util.getBCHDigit(QRCode.Util.G15))); } return ((data << 10) | d) ^ QRCode.Util.G15_MASK; }, getBCHTypeNumber: function (data) { var d = data << 12; while (QRCode.Util.getBCHDigit(d) - QRCode.Util.getBCHDigit(QRCode.Util.G18) >= 0) { d ^= (QRCode.Util.G18 << (QRCode.Util.getBCHDigit(d) - QRCode.Util.getBCHDigit(QRCode.Util.G18))); } return (data << 12) | d; }, getBCHDigit: function (data) { var digit = 0; while (data != 0) { digit++; data >>>= 1; } return digit; }, getPatternPosition: function (typeNumber) { return QRCode.Util.PATTERN_POSITION_TABLE[typeNumber - 1]; }, getMask: function (maskPattern, i, j) { switch (maskPattern) { case QRCode.MaskPattern.PATTERN000: return (i + j) % 2 == 0; case QRCode.MaskPattern.PATTERN001: return i % 2 == 0; case QRCode.MaskPattern.PATTERN010: return j % 3 == 0; case QRCode.MaskPattern.PATTERN011: return (i + j) % 3 == 0; case QRCode.MaskPattern.PATTERN100: return (Math.floor(i / 2) + Math.floor(j / 3)) % 2 == 0; case QRCode.MaskPattern.PATTERN101: return (i * j) % 2 + (i * j) % 3 == 0; case QRCode.MaskPattern.PATTERN110: return ((i * j) % 2 + (i * j) % 3) % 2 == 0; case QRCode.MaskPattern.PATTERN111: return ((i * j) % 3 + (i + j) % 2) % 2 == 0; default: throw new Error("bad maskPattern:" + maskPattern); } }, getErrorCorrectPolynomial: function (errorCorrectLength) { var a = new QRCode.Polynomial([1], 0); for (var i = 0; i < errorCorrectLength; i++) { a = a.multiply(new QRCode.Polynomial([1, QRCode.Math.gexp(i)], 0)); } return a; }, getLengthInBits: function (mode, type) { if (1 <= type && type < 10) { // 1 - 9 switch (mode) { case QRCode.Mode.MODE_NUMBER: return 10; case QRCode.Mode.MODE_ALPHA_NUM: return 9; case QRCode.Mode.MODE_8BIT_BYTE: return 8; case QRCode.Mode.MODE_KANJI: return 8; default: throw new Error("mode:" + mode); } } else if (type < 27) { // 10 - 26 switch (mode) { case QRCode.Mode.MODE_NUMBER: return 12; case QRCode.Mode.MODE_ALPHA_NUM: return 11; case QRCode.Mode.MODE_8BIT_BYTE: return 16; case QRCode.Mode.MODE_KANJI: return 10; default: throw new Error("mode:" + mode); } } else if (type < 41) { // 27 - 40 switch (mode) { case QRCode.Mode.MODE_NUMBER: return 14; case QRCode.Mode.MODE_ALPHA_NUM: return 13; case QRCode.Mode.MODE_8BIT_BYTE: return 16; case QRCode.Mode.MODE_KANJI: return 12; default: throw new Error("mode:" + mode); } } else { throw new Error("type:" + type); } }, getLostPoint: function (qrCode) { var moduleCount = qrCode.getModuleCount(); var lostPoint = 0; // LEVEL1 for (var row = 0; row < moduleCount; row++) { for (var col = 0; col < moduleCount; col++) { var sameCount = 0; var dark = qrCode.isDark(row, col); for (var r = -1; r <= 1; r++) { if (row + r < 0 || moduleCount <= row + r) { continue; } for (var c = -1; c <= 1; c++) { if (col + c < 0 || moduleCount <= col + c) { continue; } if (r == 0 && c == 0) { continue; } if (dark == qrCode.isDark(row + r, col + c)) { sameCount++; } } } if (sameCount > 5) { lostPoint += (3 + sameCount - 5); } } } // LEVEL2 for (var row = 0; row < moduleCount - 1; row++) { for (var col = 0; col < moduleCount - 1; col++) { var count = 0; if (qrCode.isDark(row, col)) count++; if (qrCode.isDark(row + 1, col)) count++; if (qrCode.isDark(row, col + 1)) count++; if (qrCode.isDark(row + 1, col + 1)) count++; if (count == 0 || count == 4) { lostPoint += 3; } } } // LEVEL3 for (var row = 0; row < moduleCount; row++) { for (var col = 0; col < moduleCount - 6; col++) { if (qrCode.isDark(row, col) && !qrCode.isDark(row, col + 1) && qrCode.isDark(row, col + 2) && qrCode.isDark(row, col + 3) && qrCode.isDark(row, col + 4) && !qrCode.isDark(row, col + 5) && qrCode.isDark(row, col + 6)) { lostPoint += 40; } } } for (var col = 0; col < moduleCount; col++) { for (var row = 0; row < moduleCount - 6; row++) { if (qrCode.isDark(row, col) && !qrCode.isDark(row + 1, col) && qrCode.isDark(row + 2, col) && qrCode.isDark(row + 3, col) && qrCode.isDark(row + 4, col) && !qrCode.isDark(row + 5, col) && qrCode.isDark(row + 6, col)) { lostPoint += 40; } } } // LEVEL4 var darkCount = 0; for (var col = 0; col < moduleCount; col++) { for (var row = 0; row < moduleCount; row++) { if (qrCode.isDark(row, col)) { darkCount++; } } } var ratio = Math.abs(100 * darkCount / moduleCount / moduleCount - 50) / 5; lostPoint += ratio * 10; return lostPoint; } }; //--------------------------------------------------------------------- // QRMath //--------------------------------------------------------------------- QRCode.Math = { glog: function (n) { if (n < 1) { throw new Error("glog(" + n + ")"); } return QRCode.Math.LOG_TABLE[n]; }, gexp: function (n) { while (n < 0) { n += 255; } while (n >= 256) { n -= 255; } return QRCode.Math.EXP_TABLE[n]; }, EXP_TABLE: new Array(256), LOG_TABLE: new Array(256) }; for (var i = 0; i < 8; i++) { QRCode.Math.EXP_TABLE[i] = 1 << i; } for (var i = 8; i < 256; i++) { QRCode.Math.EXP_TABLE[i] = QRCode.Math.EXP_TABLE[i - 4] ^ QRCode.Math.EXP_TABLE[i - 5] ^ QRCode.Math.EXP_TABLE[i - 6] ^ QRCode.Math.EXP_TABLE[i - 8]; } for (var i = 0; i < 255; i++) { QRCode.Math.LOG_TABLE[QRCode.Math.EXP_TABLE[i]] = i; } //--------------------------------------------------------------------- // QRPolynomial //--------------------------------------------------------------------- QRCode.Polynomial = function (num, shift) { if (num.length == undefined) { throw new Error(num.length + "/" + shift); } var offset = 0; while (offset < num.length && num[offset] == 0) { offset++; } this.num = new Array(num.length - offset + shift); for (var i = 0; i < num.length - offset; i++) { this.num[i] = num[i + offset]; } } QRCode.Polynomial.prototype = { get: function (index) { return this.num[index]; }, getLength: function () { return this.num.length; }, multiply: function (e) { var num = new Array(this.getLength() + e.getLength() - 1); for (var i = 0; i < this.getLength(); i++) { for (var j = 0; j < e.getLength(); j++) { num[i + j] ^= QRCode.Math.gexp(QRCode.Math.glog(this.get(i)) + QRCode.Math.glog(e.get(j))); } } return new QRCode.Polynomial(num, 0); }, mod: function (e) { if (this.getLength() - e.getLength() < 0) { return this; } var ratio = QRCode.Math.glog(this.get(0)) - QRCode.Math.glog(e.get(0)); var num = new Array(this.getLength()); for (var i = 0; i < this.getLength(); i++) { num[i] = this.get(i); } for (var i = 0; i < e.getLength(); i++) { num[i] ^= QRCode.Math.gexp(QRCode.Math.glog(e.get(i)) + ratio); } // recursive call return new QRCode.Polynomial(num, 0).mod(e); } }; //--------------------------------------------------------------------- // QRRSBlock //--------------------------------------------------------------------- QRCode.RSBlock = function (totalCount, dataCount) { this.totalCount = totalCount; this.dataCount = dataCount; } QRCode.RSBlock.RS_BLOCK_TABLE = [ // L // M // Q // H // 1 [1, 26, 19], [1, 26, 16], [1, 26, 13], [1, 26, 9], // 2 [1, 44, 34], [1, 44, 28], [1, 44, 22], [1, 44, 16], // 3 [1, 70, 55], [1, 70, 44], [2, 35, 17], [2, 35, 13], // 4 [1, 100, 80], [2, 50, 32], [2, 50, 24], [4, 25, 9], // 5 [1, 134, 108], [2, 67, 43], [2, 33, 15, 2, 34, 16], [2, 33, 11, 2, 34, 12], // 6 [2, 86, 68], [4, 43, 27], [4, 43, 19], [4, 43, 15], // 7 [2, 98, 78], [4, 49, 31], [2, 32, 14, 4, 33, 15], [4, 39, 13, 1, 40, 14], // 8 [2, 121, 97], [2, 60, 38, 2, 61, 39], [4, 40, 18, 2, 41, 19], [4, 40, 14, 2, 41, 15], // 9 [2, 146, 116], [3, 58, 36, 2, 59, 37], [4, 36, 16, 4, 37, 17], [4, 36, 12, 4, 37, 13], // 10 [2, 86, 68, 2, 87, 69], [4, 69, 43, 1, 70, 44], [6, 43, 19, 2, 44, 20], [6, 43, 15, 2, 44, 16] ]; QRCode.RSBlock.getRSBlocks = function (typeNumber, errorCorrectLevel) { var rsBlock = QRCode.RSBlock.getRsBlockTable(typeNumber, errorCorrectLevel); if (rsBlock == undefined) { throw new Error("bad rs block @ typeNumber:" + typeNumber + "/errorCorrectLevel:" + errorCorrectLevel); } var length = rsBlock.length / 3; var list = new Array(); for (var i = 0; i < length; i++) { var count = rsBlock[i * 3 + 0]; var totalCount = rsBlock[i * 3 + 1]; var dataCount = rsBlock[i * 3 + 2]; for (var j = 0; j < count; j++) { list.push(new QRCode.RSBlock(totalCount, dataCount)); } } return list; }; QRCode.RSBlock.getRsBlockTable = function (typeNumber, errorCorrectLevel) { switch (errorCorrectLevel) { case QRCode.ErrorCorrectLevel.L: return QRCode.RSBlock.RS_BLOCK_TABLE[(typeNumber - 1) * 4 + 0]; case QRCode.ErrorCorrectLevel.M: return QRCode.RSBlock.RS_BLOCK_TABLE[(typeNumber - 1) * 4 + 1]; case QRCode.ErrorCorrectLevel.Q: return QRCode.RSBlock.RS_BLOCK_TABLE[(typeNumber - 1) * 4 + 2]; case QRCode.ErrorCorrectLevel.H: return QRCode.RSBlock.RS_BLOCK_TABLE[(typeNumber - 1) * 4 + 3]; default: return undefined; } }; //--------------------------------------------------------------------- // QRBitBuffer //--------------------------------------------------------------------- QRCode.BitBuffer = function () { this.buffer = new Array(); this.length = 0; } QRCode.BitBuffer.prototype = { get: function (index) { var bufIndex = Math.floor(index / 8); return ((this.buffer[bufIndex] >>> (7 - index % 8)) & 1) == 1; }, put: function (num, length) { for (var i = 0; i < length; i++) { this.putBit(((num >>> (length - i - 1)) & 1) == 1); } }, getLengthInBits: function () { return this.length; }, putBit: function (bit) { var bufIndex = Math.floor(this.length / 8); if (this.buffer.length <= bufIndex) { this.buffer.push(0); } if (bit) { this.buffer[bufIndex] |= (0x80 >>> (this.length % 8)); } this.length++; } }; })();