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@zxing/library

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TypeScript port of ZXing multi-format 1D/2D barcode image processing library.

zxing-js.github.io/library/

zxing-js/library

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JavaScript

"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); var DecoderResult_1 = require("../../common/DecoderResult"); var BitSource_1 = require("../../common/BitSource"); var StringBuilder_1 = require("../../util/StringBuilder"); var StringEncoding_1 = require("../../util/StringEncoding"); var StringUtils_1 = require("../../common/StringUtils"); var FormatException_1 = require("../../FormatException"); var IllegalStateException_1 = require("../../IllegalStateException"); /* * Copyright 2008 ZXing authors * * 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. */ var Mode; (function (Mode) { Mode[Mode["PAD_ENCODE"] = 0] = "PAD_ENCODE"; Mode[Mode["ASCII_ENCODE"] = 1] = "ASCII_ENCODE"; Mode[Mode["C40_ENCODE"] = 2] = "C40_ENCODE"; Mode[Mode["TEXT_ENCODE"] = 3] = "TEXT_ENCODE"; Mode[Mode["ANSIX12_ENCODE"] = 4] = "ANSIX12_ENCODE"; Mode[Mode["EDIFACT_ENCODE"] = 5] = "EDIFACT_ENCODE"; Mode[Mode["BASE256_ENCODE"] = 6] = "BASE256_ENCODE"; })(Mode || (Mode = {})); /** * <p>Data Matrix Codes can encode text as bits in one of several modes, and can use multiple modes * in one Data Matrix Code. This class decodes the bits back into text.</p> * * <p>See ISO 16022:2006, 5.2.1 - 5.2.9.2</p> * * @author bbrown@google.com (Brian Brown) * @author Sean Owen */ var DecodedBitStreamParser = /** @class */ (function () { function DecodedBitStreamParser() { } DecodedBitStreamParser.decode = function (bytes) { var bits = new BitSource_1.default(bytes); var result = new StringBuilder_1.default(); var resultTrailer = new StringBuilder_1.default(); var byteSegments = new Array(); var mode = Mode.ASCII_ENCODE; do { if (mode === Mode.ASCII_ENCODE) { mode = this.decodeAsciiSegment(bits, result, resultTrailer); } else { switch (mode) { case Mode.C40_ENCODE: this.decodeC40Segment(bits, result); break; case Mode.TEXT_ENCODE: this.decodeTextSegment(bits, result); break; case Mode.ANSIX12_ENCODE: this.decodeAnsiX12Segment(bits, result); break; case Mode.EDIFACT_ENCODE: this.decodeEdifactSegment(bits, result); break; case Mode.BASE256_ENCODE: this.decodeBase256Segment(bits, result, byteSegments); break; default: throw new FormatException_1.default(); } mode = Mode.ASCII_ENCODE; } } while (mode !== Mode.PAD_ENCODE && bits.available() > 0); if (resultTrailer.length() > 0) { result.append(resultTrailer.toString()); } return new DecoderResult_1.default(bytes, result.toString(), byteSegments.length === 0 ? null : byteSegments, null); }; /** * See ISO 16022:2006, 5.2.3 and Annex C, Table C.2 */ DecodedBitStreamParser.decodeAsciiSegment = function (bits, result, resultTrailer) { var upperShift = false; do { var oneByte = bits.readBits(8); if (oneByte === 0) { throw new FormatException_1.default(); } else if (oneByte <= 128) { // ASCII data (ASCII value + 1) if (upperShift) { oneByte += 128; // upperShift = false; } result.append(String.fromCharCode(oneByte - 1)); return Mode.ASCII_ENCODE; } else if (oneByte === 129) { // Pad return Mode.PAD_ENCODE; } else if (oneByte <= 229) { // 2-digit data 00-99 (Numeric Value + 130) var value = oneByte - 130; if (value < 10) { // pad with '0' for single digit values result.append('0'); } result.append('' + value); } else { switch (oneByte) { case 230: // Latch to C40 encodation return Mode.C40_ENCODE; case 231: // Latch to Base 256 encodation return Mode.BASE256_ENCODE; case 232: // FNC1 result.append(String.fromCharCode(29)); // translate as ASCII 29 break; case 233: // Structured Append case 234: // Reader Programming // Ignore these symbols for now // throw ReaderException.getInstance(); break; case 235: // Upper Shift (shift to Extended ASCII) upperShift = true; break; case 236: // 05 Macro result.append('[)>\u001E05\u001D'); resultTrailer.insert(0, '\u001E\u0004'); break; case 237: // 06 Macro result.append('[)>\u001E06\u001D'); resultTrailer.insert(0, '\u001E\u0004'); break; case 238: // Latch to ANSI X12 encodation return Mode.ANSIX12_ENCODE; case 239: // Latch to Text encodation return Mode.TEXT_ENCODE; case 240: // Latch to EDIFACT encodation return Mode.EDIFACT_ENCODE; case 241: // ECI Character // TODO(bbrown): I think we need to support ECI // throw ReaderException.getInstance(); // Ignore this symbol for now break; default: // Not to be used in ASCII encodation // but work around encoders that end with 254, latch back to ASCII if (oneByte !== 254 || bits.available() !== 0) { throw new FormatException_1.default(); } break; } } } while (bits.available() > 0); return Mode.ASCII_ENCODE; }; /** * See ISO 16022:2006, 5.2.5 and Annex C, Table C.1 */ DecodedBitStreamParser.decodeC40Segment = function (bits, result) { // Three C40 values are encoded in a 16-bit value as // (1600 * C1) + (40 * C2) + C3 + 1 // TODO(bbrown): The Upper Shift with C40 doesn't work in the 4 value scenario all the time var upperShift = false; var cValues = []; var shift = 0; do { // If there is only one byte left then it will be encoded as ASCII if (bits.available() === 8) { return; } var firstByte = bits.readBits(8); if (firstByte === 254) { // Unlatch codeword return; } this.parseTwoBytes(firstByte, bits.readBits(8), cValues); for (var i = 0; i < 3; i++) { var cValue = cValues[i]; switch (shift) { case 0: if (cValue < 3) { shift = cValue + 1; } else if (cValue < this.C40_BASIC_SET_CHARS.length) { var c40char = this.C40_BASIC_SET_CHARS[cValue]; if (upperShift) { result.append(String.fromCharCode(c40char.charCodeAt(0) + 128)); upperShift = false; } else { result.append(c40char); } } else { throw new FormatException_1.default(); } break; case 1: if (upperShift) { result.append(String.fromCharCode(cValue + 128)); upperShift = false; } else { result.append(String.fromCharCode(cValue)); } shift = 0; break; case 2: if (cValue < this.C40_SHIFT2_SET_CHARS.length) { var c40char = this.C40_SHIFT2_SET_CHARS[cValue]; if (upperShift) { result.append(String.fromCharCode(c40char.charCodeAt(0) + 128)); upperShift = false; } else { result.append(c40char); } } else { switch (cValue) { case 27: // FNC1 result.append(String.fromCharCode(29)); // translate as ASCII 29 break; case 30: // Upper Shift upperShift = true; break; default: throw new FormatException_1.default(); } } shift = 0; break; case 3: if (upperShift) { result.append(String.fromCharCode(cValue + 224)); upperShift = false; } else { result.append(String.fromCharCode(cValue + 96)); } shift = 0; break; default: throw new FormatException_1.default(); } } } while (bits.available() > 0); }; /** * See ISO 16022:2006, 5.2.6 and Annex C, Table C.2 */ DecodedBitStreamParser.decodeTextSegment = function (bits, result) { // Three Text values are encoded in a 16-bit value as // (1600 * C1) + (40 * C2) + C3 + 1 // TODO(bbrown): The Upper Shift with Text doesn't work in the 4 value scenario all the time var upperShift = false; var cValues = []; var shift = 0; do { // If there is only one byte left then it will be encoded as ASCII if (bits.available() === 8) { return; } var firstByte = bits.readBits(8); if (firstByte === 254) { // Unlatch codeword return; } this.parseTwoBytes(firstByte, bits.readBits(8), cValues); for (var i = 0; i < 3; i++) { var cValue = cValues[i]; switch (shift) { case 0: if (cValue < 3) { shift = cValue + 1; } else if (cValue < this.TEXT_BASIC_SET_CHARS.length) { var textChar = this.TEXT_BASIC_SET_CHARS[cValue]; if (upperShift) { result.append(String.fromCharCode(textChar.charCodeAt(0) + 128)); upperShift = false; } else { result.append(textChar); } } else { throw new FormatException_1.default(); } break; case 1: if (upperShift) { result.append(String.fromCharCode(cValue + 128)); upperShift = false; } else { result.append(String.fromCharCode(cValue)); } shift = 0; break; case 2: // Shift 2 for Text is the same encoding as C40 if (cValue < this.TEXT_SHIFT2_SET_CHARS.length) { var textChar = this.TEXT_SHIFT2_SET_CHARS[cValue]; if (upperShift) { result.append(String.fromCharCode(textChar.charCodeAt(0) + 128)); upperShift = false; } else { result.append(textChar); } } else { switch (cValue) { case 27: // FNC1 result.append(String.fromCharCode(29)); // translate as ASCII 29 break; case 30: // Upper Shift upperShift = true; break; default: throw new FormatException_1.default(); } } shift = 0; break; case 3: if (cValue < this.TEXT_SHIFT3_SET_CHARS.length) { var textChar = this.TEXT_SHIFT3_SET_CHARS[cValue]; if (upperShift) { result.append(String.fromCharCode(textChar.charCodeAt(0) + 128)); upperShift = false; } else { result.append(textChar); } shift = 0; } else { throw new FormatException_1.default(); } break; default: throw new FormatException_1.default(); } } } while (bits.available() > 0); }; /** * See ISO 16022:2006, 5.2.7 */ DecodedBitStreamParser.decodeAnsiX12Segment = function (bits, result) { // Three ANSI X12 values are encoded in a 16-bit value as // (1600 * C1) + (40 * C2) + C3 + 1 var cValues = []; do { // If there is only one byte left then it will be encoded as ASCII if (bits.available() === 8) { return; } var firstByte = bits.readBits(8); if (firstByte === 254) { // Unlatch codeword return; } this.parseTwoBytes(firstByte, bits.readBits(8), cValues); for (var i = 0; i < 3; i++) { var cValue = cValues[i]; switch (cValue) { case 0: // X12 segment terminator <CR> result.append('\r'); break; case 1: // X12 segment separator * result.append('*'); break; case 2: // X12 sub-element separator > result.append('>'); break; case 3: // space result.append(' '); break; default: if (cValue < 14) { // 0 - 9 result.append(String.fromCharCode(cValue + 44)); } else if (cValue < 40) { // A - Z result.append(String.fromCharCode(cValue + 51)); } else { throw new FormatException_1.default(); } break; } } } while (bits.available() > 0); }; DecodedBitStreamParser.parseTwoBytes = function (firstByte, secondByte, result) { var fullBitValue = (firstByte << 8) + secondByte - 1; var temp = Math.floor(fullBitValue / 1600); result[0] = temp; fullBitValue -= temp * 1600; temp = Math.floor(fullBitValue / 40); result[1] = temp; result[2] = fullBitValue - temp * 40; }; /** * See ISO 16022:2006, 5.2.8 and Annex C Table C.3 */ DecodedBitStreamParser.decodeEdifactSegment = function (bits, result) { do { // If there is only two or less bytes left then it will be encoded as ASCII if (bits.available() <= 16) { return; } for (var i = 0; i < 4; i++) { var edifactValue = bits.readBits(6); // Check for the unlatch character if (edifactValue === 0x1F) { // 011111 // Read rest of byte, which should be 0, and stop var bitsLeft = 8 - bits.getBitOffset(); if (bitsLeft !== 8) { bits.readBits(bitsLeft); } return; } if ((edifactValue & 0x20) === 0) { // no 1 in the leading (6th) bit edifactValue |= 0x40; // Add a leading 01 to the 6 bit binary value } result.append(String.fromCharCode(edifactValue)); } } while (bits.available() > 0); }; /** * See ISO 16022:2006, 5.2.9 and Annex B, B.2 */ DecodedBitStreamParser.decodeBase256Segment = function (bits, result, byteSegments) { // Figure out how long the Base 256 Segment is. var codewordPosition = 1 + bits.getByteOffset(); // position is 1-indexed var d1 = this.unrandomize255State(bits.readBits(8), codewordPosition++); var count; if (d1 === 0) { // Read the remainder of the symbol count = bits.available() / 8 | 0; } else if (d1 < 250) { count = d1; } else { count = 250 * (d1 - 249) + this.unrandomize255State(bits.readBits(8), codewordPosition++); } // We're seeing NegativeArraySizeException errors from users. if (count < 0) { throw new FormatException_1.default(); } var bytes = new Uint8Array(count); for (var i = 0; i < count; i++) { // Have seen this particular error in the wild, such as at // http://www.bcgen.com/demo/IDAutomationStreamingDataMatrix.aspx?MODE=3&D=Fred&PFMT=3&PT=F&X=0.3&O=0&LM=0.2 if (bits.available() < 8) { throw new FormatException_1.default(); } bytes[i] = this.unrandomize255State(bits.readBits(8), codewordPosition++); } byteSegments.push(bytes); try { result.append(StringEncoding_1.default.decode(bytes, StringUtils_1.default.ISO88591)); } catch (uee) { throw new IllegalStateException_1.default('Platform does not support required encoding: ' + uee.message); } }; /** * See ISO 16022:2006, Annex B, B.2 */ DecodedBitStreamParser.unrandomize255State = function (randomizedBase256Codeword, base256CodewordPosition) { var pseudoRandomNumber = ((149 * base256CodewordPosition) % 255) + 1; var tempVariable = randomizedBase256Codeword - pseudoRandomNumber; return tempVariable >= 0 ? tempVariable : tempVariable + 256; }; /** * See ISO 16022:2006, Annex C Table C.1 * The C40 Basic Character Set (*'s used for placeholders for the shift values) */ DecodedBitStreamParser.C40_BASIC_SET_CHARS = [ '*', '*', '*', ' ', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z' ]; DecodedBitStreamParser.C40_SHIFT2_SET_CHARS = [ '!', '"', '#', '$', '%', '&', '\'', '(', ')', '*', '+', ',', '-', '.', '/', ':', ';', '<', '=', '>', '?', '@', '[', '\\', ']', '^', '_' ]; /** * See ISO 16022:2006, Annex C Table C.2 * The Text Basic Character Set (*'s used for placeholders for the shift values) */ DecodedBitStreamParser.TEXT_BASIC_SET_CHARS = [ '*', '*', '*', ' ', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z' ]; // Shift 2 for Text is the same encoding as C40 DecodedBitStreamParser.TEXT_SHIFT2_SET_CHARS = DecodedBitStreamParser.C40_SHIFT2_SET_CHARS; DecodedBitStreamParser.TEXT_SHIFT3_SET_CHARS = [ '`', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '{', '|', '}', '~', String.fromCharCode(127) ]; return DecodedBitStreamParser; }()); exports.default = DecodedBitStreamParser;