// Copyright (c) 2009 Kazuhiko Arase import QR8bitByte from './QR8bitByte'; import { getLengthInBits, getLostPoint, getPatternPosition, getBCHTypeNumber, getBCHTypeInfo, getMask, getErrorCorrectPolynomial } from './QRUtil'; import QRPolynomial from './QRPolynomial'; import { getRSBlocks, QRRSBlock as RSBlock } from './QRRSBlock'; import QRBitBuffer from './QRBitBuffer'; class QRCode { typeNumber: number; errorCorrectLevel: number; modules: (boolean | null)[][] | null; moduleCount: number; dataCache: number[] | null; dataList: QR8bitByte[]; static PAD0 = 0xEC; static PAD1 = 0x11; constructor (typeNumber: number, errorCorrectLevel: number) { this.typeNumber = typeNumber; this.errorCorrectLevel = errorCorrectLevel; this.modules = null; this.moduleCount = 0; this.dataCache = null; this.dataList = []; } addData (data: string): void { const newData = new QR8bitByte(data); this.dataList.push(newData); this.dataCache = null; } isDark (row: number, col: number): boolean { if (row < 0 || this.moduleCount <= row || col < 0 || this.moduleCount <= col) { throw new Error(`${row},${col}`); } if (this.modules === null || this.modules[row] === null || this.modules[row]![col] === null) { throw new Error(`Module at (${row},${col}) is null`); } return this.modules[row]![col]!; } getModuleCount (): number { return this.moduleCount; } make (): void { if (this.typeNumber < 1) { let typeNumber = 1; for (typeNumber = 1; typeNumber < 40; typeNumber++) { const rsBlocks = getRSBlocks(typeNumber, this.errorCorrectLevel); const buffer = new QRBitBuffer(); let totalDataCount = 0; for (let i = 0; i < rsBlocks.length; i++) { totalDataCount += rsBlocks[i]!.dataCount; } for (let x = 0; x < this.dataList.length; x++) { const data = this.dataList[x]; buffer.put(data!.mode, 4); buffer.put(data!.getLength(), getLengthInBits(data!.mode, typeNumber)); data!.write(buffer); } if (buffer.getLengthInBits() <= totalDataCount * 8) { break; } } this.typeNumber = typeNumber; } this.makeImpl(false, this.getBestMaskPattern()); } makeImpl (test: boolean, maskPattern: number): void { this.moduleCount = this.typeNumber * 4 + 17; this.modules = new Array(this.moduleCount); for (let row = 0; row < this.moduleCount; row++) { this.modules[row] = new Array(this.moduleCount); for (let col = 0; col < this.moduleCount; col++) { this.modules[row]![col] = null; } } 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 (row: number, col: number): void { for (let r = -1; r <= 7; r++) { if (row + r <= -1 || this.moduleCount <= row + r) continue; for (let c = -1; c <= 7; c++) { if (col + c <= -1 || this.moduleCount <= col + c) continue; if ((r >= 0 && r <= 6 && (c === 0 || c === 6)) || (c >= 0 && c <= 6 && (r === 0 || r === 6)) || (r >= 2 && r <= 4 && c >= 2 && c <= 4)) { this.modules![row + r]![col + c] = true; } else { this.modules![row + r]![col + c] = false; } } } } getBestMaskPattern (): number { let minLostPoint = 0; let pattern = 0; for (let i = 0; i < 8; i++) { this.makeImpl(true, i); const lostPoint = getLostPoint(this); if (i === 0 || minLostPoint > lostPoint) { minLostPoint = lostPoint; pattern = i; } } return pattern; } createMovieClip (target_mc: { createEmptyMovieClip: (name: string, depth: number) => { beginFill: (color: number, alpha: number) => void; moveTo: (x: number, y: number) => void; lineTo: (x: number, y: number) => void; endFill: () => void; }; }, instance_name: string, depth: number): { beginFill: (color: number, alpha: number) => void; moveTo: (x: number, y: number) => void; lineTo: (x: number, y: number) => void; endFill: () => void; } { const qr_mc = target_mc.createEmptyMovieClip(instance_name, depth); const cs = 1; this.make(); for (let row = 0; row < this.modules!.length; row++) { const y = row * cs; for (let col = 0; col < this.modules![row]!.length; col++) { const x = col * cs; const 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 (): void { for (let r = 8; r < this.moduleCount - 8; r++) { if (this.modules![r]![6] !== null) { continue; } this.modules![r]![6] = (r % 2 === 0); } for (let c = 8; c < this.moduleCount - 8; c++) { if (this.modules![6]![c] !== null) { continue; } this.modules![6]![c] = (c % 2 === 0); } } setupPositionAdjustPattern (): void { const pos = getPatternPosition(this.typeNumber); for (let i = 0; i < pos.length; i++) { for (let j = 0; j < pos.length; j++) { const row = pos[i]; const col = pos[j]; if (this.modules![row!]![col!] !== null) { continue; } for (let r = -2; r <= 2; r++) { for (let c = -2; c <= 2; c++) { if (Math.abs(r) === 2 || Math.abs(c) === 2 || (r === 0 && c === 0)) { this.modules![row! + r]![col! + c] = true; } else { this.modules![row! + r]![col! + c] = false; } } } } } } setupTypeNumber (test: boolean): void { const bits = getBCHTypeNumber(this.typeNumber); let mod: boolean; for (let i = 0; i < 18; i++) { mod = (!test && ((bits >> i) & 1) === 1); this.modules![Math.floor(i / 3)]![i % 3 + this.moduleCount - 8 - 3] = mod; } for (let x = 0; x < 18; x++) { mod = (!test && ((bits >> x) & 1) === 1); this.modules![x % 3 + this.moduleCount - 8 - 3]![Math.floor(x / 3)] = mod; } } setupTypeInfo (test: boolean, maskPattern: number): void { const data = (this.errorCorrectLevel << 3) | maskPattern; const bits = getBCHTypeInfo(data); let mod: boolean; // vertical for (let v = 0; v < 15; v++) { mod = (!test && ((bits >> v) & 1) === 1); if (v < 6) { this.modules![v]![8] = mod; } else if (v < 8) { this.modules![v + 1]![8] = mod; } else { this.modules![this.moduleCount - 15 + v]![8] = mod; } } // horizontal for (let h = 0; h < 15; h++) { mod = (!test && ((bits >> h) & 1) === 1); if (h < 8) { this.modules![8]![this.moduleCount - h - 1] = mod; } else if (h < 9) { this.modules![8]![15 - h - 1 + 1] = mod; } else { this.modules![8]![15 - h - 1] = mod; } } // fixed module this.modules![this.moduleCount - 8]![8] = (!test); } mapData (data: number[], maskPattern: number): void { let inc = -1; let row = this.moduleCount - 1; let bitIndex = 7; let byteIndex = 0; for (let col = this.moduleCount - 1; col > 0; col -= 2) { if (col === 6) col--; while (true) { for (let c = 0; c < 2; c++) { if (this.modules![row]![col - c] === null) { let dark = false; if (byteIndex < data.length) { dark = (((data[byteIndex] ?? 0) >>> bitIndex) & 1) === 1; } const mask = 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; } } } } static createData (typeNumber: number, errorCorrectLevel: number, dataList: QR8bitByte[]): number[] { const rsBlocks = getRSBlocks(typeNumber, errorCorrectLevel); const buffer = new QRBitBuffer(); for (let i = 0; i < dataList.length; i++) { const data = dataList[i]; buffer.put(data!.mode, 4); buffer.put(data!.getLength(), getLengthInBits(data!.mode, typeNumber)); data!.write(buffer); } // calc num max data. let totalDataCount = 0; for (let x = 0; x < rsBlocks.length; x++) { totalDataCount += rsBlocks[x]!.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); } static createBytes (buffer: QRBitBuffer, rsBlocks: RSBlock[]): number[] { let offset = 0; let maxDcCount = 0; let maxEcCount = 0; const dcdata: number[][] = new Array(rsBlocks.length); const ecdata: number[][] = new Array(rsBlocks.length); for (let r = 0; r < rsBlocks.length; r++) { const dcCount = rsBlocks[r]!.dataCount; const ecCount = rsBlocks[r]!.totalCount - dcCount; maxDcCount = Math.max(maxDcCount, dcCount); maxEcCount = Math.max(maxEcCount, ecCount); dcdata[r] = new Array(dcCount); for (let i = 0; i < dcdata[r]!.length; i++) { dcdata[r]![i] = 0xff & buffer.buffer[i + offset]!; } offset += dcCount; const rsPoly = getErrorCorrectPolynomial(ecCount); const rawPoly = new QRPolynomial(dcdata[r]!, rsPoly.getLength() - 1); const modPoly = rawPoly.mod(rsPoly); ecdata[r] = new Array(rsPoly.getLength() - 1); for (let x = 0; x < ecdata[r]!.length; x++) { const modIndex = x + modPoly.getLength() - ecdata[r]!.length; ecdata[r]![x] = (modIndex >= 0) ? modPoly.get(modIndex) : 0; } } let totalCodeCount = 0; for (let y = 0; y < rsBlocks.length; y++) { totalCodeCount += rsBlocks[y]!.totalCount; } const data: number[] = new Array(totalCodeCount); let index = 0; for (let z = 0; z < maxDcCount; z++) { for (let s = 0; s < rsBlocks.length; s++) { if (z < dcdata[s]!.length) { data[index++] = dcdata[s]![z]!; } } } for (let xx = 0; xx < maxEcCount; xx++) { for (let t = 0; t < rsBlocks.length; t++) { if (xx < ecdata[t]!.length) { data[index++] = ecdata[t]![xx]!; } } } return data; } } export default QRCode;