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depositroy/target/classes/static/js/ZXing.js

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!function (t, e) {
"object" == typeof exports && "undefined" != typeof module ? e(exports) : "function" == typeof define && define.amd ? define(["exports"], e) : e((t = "undefined" != typeof globalThis ? globalThis : t || self).ZXing = {})
}(this, (function (t) {
"use strict";
/*! *****************************************************************************
Copyright (c) Microsoft Corporation. All rights reserved.
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
THIS CODE IS PROVIDED ON AN *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
MERCHANTABLITY OR NON-INFRINGEMENT.
See the Apache Version 2.0 License for specific language governing permissions
and limitations under the License.
***************************************************************************** */
var e = Object.setPrototypeOf || {__proto__: []} instanceof Array && function (t, e) {
t.__proto__ = e
} || function (t, e) {
for (var r in e) e.hasOwnProperty(r) && (t[r] = e[r])
};
var r, n = function (t) {
function r(e) {
var r, n, i, s = this.constructor, o = t.call(this, e) || this;
return Object.defineProperty(o, "name", {
value: s.name,
enumerable: !1
}), r = o, n = s.prototype, (i = Object.setPrototypeOf) ? i(r, n) : r.__proto__ = n, function (t, e) {
void 0 === e && (e = t.constructor);
var r = Error.captureStackTrace;
r && r(t, e)
}(o), o
}
return function (t, r) {
function n() {
this.constructor = t
}
e(t, r), t.prototype = null === r ? Object.create(r) : (n.prototype = r.prototype, new n)
}(r, t), r
}(Error);
class i extends n {
constructor(t) {
super(t), this.message = t
}
getKind() {
return this.constructor.kind
}
}
i.kind = "Exception";
class s extends i {
}
s.kind = "ArgumentException";
class o extends i {
}
o.kind = "IllegalArgumentException";
class a {
constructor(t) {
if (this.binarizer = t, null === t) throw new o("Binarizer must be non-null.")
}
getWidth() {
return this.binarizer.getWidth()
}
getHeight() {
return this.binarizer.getHeight()
}
getBlackRow(t, e) {
return this.binarizer.getBlackRow(t, e)
}
getBlackMatrix() {
return null !== this.matrix && void 0 !== this.matrix || (this.matrix = this.binarizer.getBlackMatrix()), this.matrix
}
isCropSupported() {
return this.binarizer.getLuminanceSource().isCropSupported()
}
crop(t, e, r, n) {
const i = this.binarizer.getLuminanceSource().crop(t, e, r, n);
return new a(this.binarizer.createBinarizer(i))
}
isRotateSupported() {
return this.binarizer.getLuminanceSource().isRotateSupported()
}
rotateCounterClockwise() {
const t = this.binarizer.getLuminanceSource().rotateCounterClockwise();
return new a(this.binarizer.createBinarizer(t))
}
rotateCounterClockwise45() {
const t = this.binarizer.getLuminanceSource().rotateCounterClockwise45();
return new a(this.binarizer.createBinarizer(t))
}
toString() {
try {
return this.getBlackMatrix().toString()
} catch (t) {
return ""
}
}
}
class l extends i {
static getChecksumInstance() {
return new l
}
}
l.kind = "ChecksumException";
class h {
constructor(t) {
this.source = t
}
getLuminanceSource() {
return this.source
}
getWidth() {
return this.source.getWidth()
}
getHeight() {
return this.source.getHeight()
}
}
class c {
static arraycopy(t, e, r, n, i) {
for (; i--;) r[n++] = t[e++]
}
static currentTimeMillis() {
return Date.now()
}
}
class u extends i {
}
u.kind = "IndexOutOfBoundsException";
class d extends u {
constructor(t, e) {
super(e), this.index = t, this.message = e
}
}
d.kind = "ArrayIndexOutOfBoundsException";
class g {
static fill(t, e) {
for (let r = 0, n = t.length; r < n; r++) t[r] = e
}
static fillWithin(t, e, r, n) {
g.rangeCheck(t.length, e, r);
for (let i = e; i < r; i++) t[i] = n
}
static rangeCheck(t, e, r) {
if (e > r) throw new o("fromIndex(" + e + ") > toIndex(" + r + ")");
if (e < 0) throw new d(e);
if (r > t) throw new d(r)
}
static asList(...t) {
return t
}
static create(t, e, r) {
return Array.from({length: t}).map((t => Array.from({length: e}).fill(r)))
}
static createInt32Array(t, e, r) {
return Array.from({length: t}).map((t => Int32Array.from({length: e}).fill(r)))
}
static equals(t, e) {
if (!t) return !1;
if (!e) return !1;
if (!t.length) return !1;
if (!e.length) return !1;
if (t.length !== e.length) return !1;
for (let r = 0, n = t.length; r < n; r++) if (t[r] !== e[r]) return !1;
return !0
}
static hashCode(t) {
if (null === t) return 0;
let e = 1;
for (const r of t) e = 31 * e + r;
return e
}
static fillUint8Array(t, e) {
for (let r = 0; r !== t.length; r++) t[r] = e
}
static copyOf(t, e) {
return t.slice(0, e)
}
static copyOfUint8Array(t, e) {
if (t.length <= e) {
const r = new Uint8Array(e);
return r.set(t), r
}
return t.slice(0, e)
}
static copyOfRange(t, e, r) {
const n = r - e, i = new Int32Array(n);
return c.arraycopy(t, e, i, 0, n), i
}
static binarySearch(t, e, r) {
void 0 === r && (r = g.numberComparator);
let n = 0, i = t.length - 1;
for (; n <= i;) {
const s = i + n >> 1, o = r(e, t[s]);
if (o > 0) n = s + 1; else {
if (!(o < 0)) return s;
i = s - 1
}
}
return -n - 1
}
static numberComparator(t, e) {
return t - e
}
}
class f {
static numberOfTrailingZeros(t) {
let e;
if (0 === t) return 32;
let r = 31;
return e = t << 16, 0 !== e && (r -= 16, t = e), e = t << 8, 0 !== e && (r -= 8, t = e), e = t << 4, 0 !== e && (r -= 4, t = e), e = t << 2, 0 !== e && (r -= 2, t = e), r - (t << 1 >>> 31)
}
static numberOfLeadingZeros(t) {
if (0 === t) return 32;
let e = 1;
return t >>> 16 == 0 && (e += 16, t <<= 16), t >>> 24 == 0 && (e += 8, t <<= 8), t >>> 28 == 0 && (e += 4, t <<= 4), t >>> 30 == 0 && (e += 2, t <<= 2), e -= t >>> 31, e
}
static toHexString(t) {
return t.toString(16)
}
static toBinaryString(t) {
return String(parseInt(String(t), 2))
}
static bitCount(t) {
return t = (t = (858993459 & (t -= t >>> 1 & 1431655765)) + (t >>> 2 & 858993459)) + (t >>> 4) & 252645135, t += t >>> 8, 63 & (t += t >>> 16)
}
static truncDivision(t, e) {
return Math.trunc(t / e)
}
static parseInt(t, e) {
return parseInt(t, e)
}
}
f.MIN_VALUE_32_BITS = -2147483648, f.MAX_VALUE = Number.MAX_SAFE_INTEGER;
class w {
constructor(t, e) {
void 0 === t ? (this.size = 0, this.bits = new Int32Array(1)) : (this.size = t, this.bits = null == e ? w.makeArray(t) : e)
}
getSize() {
return this.size
}
getSizeInBytes() {
return Math.floor((this.size + 7) / 8)
}
ensureCapacity(t) {
if (t > 32 * this.bits.length) {
const e = w.makeArray(t);
c.arraycopy(this.bits, 0, e, 0, this.bits.length), this.bits = e
}
}
get(t) {
return 0 != (this.bits[Math.floor(t / 32)] & 1 << (31 & t))
}
set(t) {
this.bits[Math.floor(t / 32)] |= 1 << (31 & t)
}
flip(t) {
this.bits[Math.floor(t / 32)] ^= 1 << (31 & t)
}
getNextSet(t) {
const e = this.size;
if (t >= e) return e;
const r = this.bits;
let n = Math.floor(t / 32), i = r[n];
i &= ~((1 << (31 & t)) - 1);
const s = r.length;
for (; 0 === i;) {
if (++n === s) return e;
i = r[n]
}
const o = 32 * n + f.numberOfTrailingZeros(i);
return o > e ? e : o
}
getNextUnset(t) {
const e = this.size;
if (t >= e) return e;
const r = this.bits;
let n = Math.floor(t / 32), i = ~r[n];
i &= ~((1 << (31 & t)) - 1);
const s = r.length;
for (; 0 === i;) {
if (++n === s) return e;
i = ~r[n]
}
const o = 32 * n + f.numberOfTrailingZeros(i);
return o > e ? e : o
}
setBulk(t, e) {
this.bits[Math.floor(t / 32)] = e
}
setRange(t, e) {
if (e < t || t < 0 || e > this.size) throw new o;
if (e === t) return;
e--;
const r = Math.floor(t / 32), n = Math.floor(e / 32), i = this.bits;
for (let s = r; s <= n; s++) {
const o = (2 << (s < n ? 31 : 31 & e)) - (1 << (s > r ? 0 : 31 & t));
i[s] |= o
}
}
clear() {
const t = this.bits.length, e = this.bits;
for (let r = 0; r < t; r++) e[r] = 0
}
isRange(t, e, r) {
if (e < t || t < 0 || e > this.size) throw new o;
if (e === t) return !0;
e--;
const n = Math.floor(t / 32), i = Math.floor(e / 32), s = this.bits;
for (let o = n; o <= i; o++) {
const a = (2 << (o < i ? 31 : 31 & e)) - (1 << (o > n ? 0 : 31 & t)) & 4294967295;
if ((s[o] & a) !== (r ? a : 0)) return !1
}
return !0
}
appendBit(t) {
this.ensureCapacity(this.size + 1), t && (this.bits[Math.floor(this.size / 32)] |= 1 << (31 & this.size)), this.size++
}
appendBits(t, e) {
if (e < 0 || e > 32) throw new o("Num bits must be between 0 and 32");
this.ensureCapacity(this.size + e);
for (let r = e; r > 0; r--) this.appendBit(1 == (t >> r - 1 & 1))
}
appendBitArray(t) {
const e = t.size;
this.ensureCapacity(this.size + e);
for (let r = 0; r < e; r++) this.appendBit(t.get(r))
}
xor(t) {
if (this.size !== t.size) throw new o("Sizes don't match");
const e = this.bits;
for (let r = 0, n = e.length; r < n; r++) e[r] ^= t.bits[r]
}
toBytes(t, e, r, n) {
for (let i = 0; i < n; i++) {
let n = 0;
for (let e = 0; e < 8; e++) this.get(t) && (n |= 1 << 7 - e), t++;
e[r + i] = n
}
}
getBitArray() {
return this.bits
}
reverse() {
const t = new Int32Array(this.bits.length), e = Math.floor((this.size - 1) / 32), r = e + 1, n = this.bits;
for (let i = 0; i < r; i++) {
let r = n[i];
r = r >> 1 & 1431655765 | (1431655765 & r) << 1, r = r >> 2 & 858993459 | (858993459 & r) << 2, r = r >> 4 & 252645135 | (252645135 & r) << 4, r = r >> 8 & 16711935 | (16711935 & r) << 8, r = r >> 16 & 65535 | (65535 & r) << 16, t[e - i] = r
}
if (this.size !== 32 * r) {
const e = 32 * r - this.size;
let n = t[0] >>> e;
for (let i = 1; i < r; i++) {
const r = t[i];
n |= r << 32 - e, t[i - 1] = n, n = r >>> e
}
t[r - 1] = n
}
this.bits = t
}
static makeArray(t) {
return new Int32Array(Math.floor((t + 31) / 32))
}
equals(t) {
if (!(t instanceof w)) return !1;
const e = t;
return this.size === e.size && g.equals(this.bits, e.bits)
}
hashCode() {
return 31 * this.size + g.hashCode(this.bits)
}
toString() {
let t = "";
for (let e = 0, r = this.size; e < r; e++) 0 == (7 & e) && (t += " "), t += this.get(e) ? "X" : ".";
return t
}
clone() {
return new w(this.size, this.bits.slice())
}
}
!function (t) {
t[t.OTHER = 0] = "OTHER", t[t.PURE_BARCODE = 1] = "PURE_BARCODE", t[t.POSSIBLE_FORMATS = 2] = "POSSIBLE_FORMATS", t[t.TRY_HARDER = 3] = "TRY_HARDER", t[t.CHARACTER_SET = 4] = "CHARACTER_SET", t[t.ALLOWED_LENGTHS = 5] = "ALLOWED_LENGTHS", t[t.ASSUME_CODE_39_CHECK_DIGIT = 6] = "ASSUME_CODE_39_CHECK_DIGIT", t[t.ASSUME_GS1 = 7] = "ASSUME_GS1", t[t.RETURN_CODABAR_START_END = 8] = "RETURN_CODABAR_START_END", t[t.NEED_RESULT_POINT_CALLBACK = 9] = "NEED_RESULT_POINT_CALLBACK", t[t.ALLOWED_EAN_EXTENSIONS = 10] = "ALLOWED_EAN_EXTENSIONS"
}(r || (r = {}));
var A, C = r;
class E extends i {
static getFormatInstance() {
return new E
}
}
E.kind = "FormatException", function (t) {
t[t.Cp437 = 0] = "Cp437", t[t.ISO8859_1 = 1] = "ISO8859_1", t[t.ISO8859_2 = 2] = "ISO8859_2", t[t.ISO8859_3 = 3] = "ISO8859_3", t[t.ISO8859_4 = 4] = "ISO8859_4", t[t.ISO8859_5 = 5] = "ISO8859_5", t[t.ISO8859_6 = 6] = "ISO8859_6", t[t.ISO8859_7 = 7] = "ISO8859_7", t[t.ISO8859_8 = 8] = "ISO8859_8", t[t.ISO8859_9 = 9] = "ISO8859_9", t[t.ISO8859_10 = 10] = "ISO8859_10", t[t.ISO8859_11 = 11] = "ISO8859_11", t[t.ISO8859_13 = 12] = "ISO8859_13", t[t.ISO8859_14 = 13] = "ISO8859_14", t[t.ISO8859_15 = 14] = "ISO8859_15", t[t.ISO8859_16 = 15] = "ISO8859_16", t[t.SJIS = 16] = "SJIS", t[t.Cp1250 = 17] = "Cp1250", t[t.Cp1251 = 18] = "Cp1251", t[t.Cp1252 = 19] = "Cp1252", t[t.Cp1256 = 20] = "Cp1256", t[t.UnicodeBigUnmarked = 21] = "UnicodeBigUnmarked", t[t.UTF8 = 22] = "UTF8", t[t.ASCII = 23] = "ASCII", t[t.Big5 = 24] = "Big5", t[t.GB18030 = 25] = "GB18030", t[t.EUC_KR = 26] = "EUC_KR"
}(A || (A = {}));
class m {
constructor(t, e, r, ...n) {
this.valueIdentifier = t, this.name = r, this.values = "number" == typeof e ? Int32Array.from([e]) : e, this.otherEncodingNames = n, m.VALUE_IDENTIFIER_TO_ECI.set(t, this), m.NAME_TO_ECI.set(r, this);
const i = this.values;
for (let t = 0, e = i.length; t !== e; t++) {
const e = i[t];
m.VALUES_TO_ECI.set(e, this)
}
for (const t of n) m.NAME_TO_ECI.set(t, this)
}
getValueIdentifier() {
return this.valueIdentifier
}
getName() {
return this.name
}
getValue() {
return this.values[0]
}
static getCharacterSetECIByValue(t) {
if (t < 0 || t >= 900) throw new E("incorect value");
const e = m.VALUES_TO_ECI.get(t);
if (void 0 === e) throw new E("incorect value");
return e
}
static getCharacterSetECIByName(t) {
const e = m.NAME_TO_ECI.get(t);
if (void 0 === e) throw new E("incorect value");
return e
}
equals(t) {
if (!(t instanceof m)) return !1;
const e = t;
return this.getName() === e.getName()
}
}
m.VALUE_IDENTIFIER_TO_ECI = new Map, m.VALUES_TO_ECI = new Map, m.NAME_TO_ECI = new Map, m.Cp437 = new m(A.Cp437, Int32Array.from([0, 2]), "Cp437"), m.ISO8859_1 = new m(A.ISO8859_1, Int32Array.from([1, 3]), "ISO-8859-1", "ISO88591", "ISO8859_1"), m.ISO8859_2 = new m(A.ISO8859_2, 4, "ISO-8859-2", "ISO88592", "ISO8859_2"), m.ISO8859_3 = new m(A.ISO8859_3, 5, "ISO-8859-3", "ISO88593", "ISO8859_3"), m.ISO8859_4 = new m(A.ISO8859_4, 6, "ISO-8859-4", "ISO88594", "ISO8859_4"), m.ISO8859_5 = new m(A.ISO8859_5, 7, "ISO-8859-5", "ISO88595", "ISO8859_5"), m.ISO8859_6 = new m(A.ISO8859_6, 8, "ISO-8859-6", "ISO88596", "ISO8859_6"), m.ISO8859_7 = new m(A.ISO8859_7, 9, "ISO-8859-7", "ISO88597", "ISO8859_7"), m.ISO8859_8 = new m(A.ISO8859_8, 10, "ISO-8859-8", "ISO88598", "ISO8859_8"), m.ISO8859_9 = new m(A.ISO8859_9, 11, "ISO-8859-9", "ISO88599", "ISO8859_9"), m.ISO8859_10 = new m(A.ISO8859_10, 12, "ISO-8859-10", "ISO885910", "ISO8859_10"), m.ISO8859_11 = new m(A.ISO8859_11, 13, "ISO-8859-11", "ISO885911", "ISO8859_11"), m.ISO8859_13 = new m(A.ISO8859_13, 15, "ISO-8859-13", "ISO885913", "ISO8859_13"), m.ISO8859_14 = new m(A.ISO8859_14, 16, "ISO-8859-14", "ISO885914", "ISO8859_14"), m.ISO8859_15 = new m(A.ISO8859_15, 17, "ISO-8859-15", "ISO885915", "ISO8859_15"), m.ISO8859_16 = new m(A.ISO8859_16, 18, "ISO-8859-16", "ISO885916", "ISO8859_16"), m.SJIS = new m(A.SJIS, 20, "SJIS", "Shift_JIS"), m.Cp1250 = new m(A.Cp1250, 21, "Cp1250", "windows-1250"), m.Cp1251 = new m(A.Cp1251, 22, "Cp1251", "windows-1251"), m.Cp1252 = new m(A.Cp1252, 23, "Cp1252", "windows-1252"), m.Cp1256 = new m(A.Cp1256, 24, "Cp1256", "windows-1256"), m.UnicodeBigUnmarked = new m(A.UnicodeBigUnmarked, 25, "UnicodeBigUnmarked", "UTF-16BE", "UnicodeBig"), m.UTF8 = new m(A.UTF8, 26, "UTF8", "UTF-8"), m.ASCII = new m(A.ASCII, Int32Array.from([27, 170]), "ASCII", "US-ASCII"), m.Big5 = new m(A.Big5, 28, "Big5"), m.GB18030 = new m(A.GB18030, 29, "GB18030", "GB2312", "EUC_CN", "GBK"), m.EUC_KR = new m(A.EUC_KR, 30, "EUC_KR", "EUC-KR");
class _ extends i {
}
_.kind = "UnsupportedOperationException";
class I {
static decode(t, e) {
const r = this.encodingName(e);
return this.customDecoder ? this.customDecoder(t, r) : "undefined" == typeof TextDecoder || this.shouldDecodeOnFallback(r) ? this.decodeFallback(t, r) : new TextDecoder(r).decode(t)
}
static shouldDecodeOnFallback(t) {
return !I.isBrowser() && "ISO-8859-1" === t
}
static encode(t, e) {
const r = this.encodingName(e);
return this.customEncoder ? this.customEncoder(t, r) : "undefined" == typeof TextEncoder ? this.encodeFallback(t) : (new TextEncoder).encode(t)
}
static isBrowser() {
return "undefined" != typeof window && "[object Window]" === {}.toString.call(window)
}
static encodingName(t) {
return "string" == typeof t ? t : t.getName()
}
static encodingCharacterSet(t) {
return t instanceof m ? t : m.getCharacterSetECIByName(t)
}
static decodeFallback(t, e) {
const r = this.encodingCharacterSet(e);
if (I.isDecodeFallbackSupported(r)) {
let e = "";
for (let r = 0, n = t.length; r < n; r++) {
let n = t[r].toString(16);
n.length < 2 && (n = "0" + n), e += "%" + n
}
return decodeURIComponent(e)
}
if (r.equals(m.UnicodeBigUnmarked)) return String.fromCharCode.apply(null, new Uint16Array(t.buffer));
throw new _(`Encoding ${this.encodingName(e)} not supported by fallback.`)
}
static isDecodeFallbackSupported(t) {
return t.equals(m.UTF8) || t.equals(m.ISO8859_1) || t.equals(m.ASCII)
}
static encodeFallback(t) {
const e = btoa(unescape(encodeURIComponent(t))).split(""), r = [];
for (let t = 0; t < e.length; t++) r.push(e[t].charCodeAt(0));
return new Uint8Array(r)
}
}
class S {
static castAsNonUtf8Char(t, e = null) {
const r = e ? e.getName() : this.ISO88591;
return I.decode(new Uint8Array([t]), r)
}
static guessEncoding(t, e) {
if (null != e && void 0 !== e.get(C.CHARACTER_SET)) return e.get(C.CHARACTER_SET).toString();
const r = t.length;
let n = !0, i = !0, s = !0, o = 0, a = 0, l = 0, h = 0, c = 0, u = 0, d = 0, g = 0, f = 0, w = 0, A = 0;
const E = t.length > 3 && 239 === t[0] && 187 === t[1] && 191 === t[2];
for (let e = 0; e < r && (n || i || s); e++) {
const r = 255 & t[e];
s && (o > 0 ? 0 == (128 & r) ? s = !1 : o-- : 0 != (128 & r) && (0 == (64 & r) ? s = !1 : (o++, 0 == (32 & r) ? a++ : (o++, 0 == (16 & r) ? l++ : (o++, 0 == (8 & r) ? h++ : s = !1))))), n && (r > 127 && r < 160 ? n = !1 : r > 159 && (r < 192 || 215 === r || 247 === r) && A++), i && (c > 0 ? r < 64 || 127 === r || r > 252 ? i = !1 : c-- : 128 === r || 160 === r || r > 239 ? i = !1 : r > 160 && r < 224 ? (u++, g = 0, d++, d > f && (f = d)) : r > 127 ? (c++, d = 0, g++, g > w && (w = g)) : (d = 0, g = 0))
}
return s && o > 0 && (s = !1), i && c > 0 && (i = !1), s && (E || a + l + h > 0) ? S.UTF8 : i && (S.ASSUME_SHIFT_JIS || f >= 3 || w >= 3) ? S.SHIFT_JIS : n && i ? 2 === f && 2 === u || 10 * A >= r ? S.SHIFT_JIS : S.ISO88591 : n ? S.ISO88591 : i ? S.SHIFT_JIS : s ? S.UTF8 : S.PLATFORM_DEFAULT_ENCODING
}
static format(t, ...e) {
let r = -1;
return t.replace(/%(-)?(0?[0-9]+)?([.][0-9]+)?([#][0-9]+)?([scfpexd%])/g, (function (t, n, i, s, o, a) {
if ("%%" === t) return "%";
if (void 0 === e[++r]) return;
t = s ? parseInt(s.substr(1)) : void 0;
let l, h = o ? parseInt(o.substr(1)) : void 0;
switch (a) {
case"s":
l = e[r];
break;
case"c":
l = e[r][0];
break;
case"f":
l = parseFloat(e[r]).toFixed(t);
break;
case"p":
l = parseFloat(e[r]).toPrecision(t);
break;
case"e":
l = parseFloat(e[r]).toExponential(t);
break;
case"x":
l = parseInt(e[r]).toString(h || 16);
break;
case"d":
l = parseFloat(parseInt(e[r], h || 10).toPrecision(t)).toFixed(0)
}
l = "object" == typeof l ? JSON.stringify(l) : (+l).toString(h);
let c = parseInt(i), u = i && i[0] + "" == "0" ? "0" : " ";
for (; l.length < c;) l = void 0 !== n ? l + u : u + l;
return l
}))
}
static getBytes(t, e) {
return I.encode(t, e)
}
static getCharCode(t, e = 0) {
return t.charCodeAt(e)
}
static getCharAt(t) {
return String.fromCharCode(t)
}
}
S.SHIFT_JIS = m.SJIS.getName(), S.GB2312 = "GB2312", S.ISO88591 = m.ISO8859_1.getName(), S.EUC_JP = "EUC_JP", S.UTF8 = m.UTF8.getName(), S.PLATFORM_DEFAULT_ENCODING = S.UTF8, S.ASSUME_SHIFT_JIS = !1;
class p {
constructor(t = "") {
this.value = t
}
enableDecoding(t) {
return this.encoding = t, this
}
append(t) {
return "string" == typeof t ? this.value += t.toString() : this.encoding ? this.value += S.castAsNonUtf8Char(t, this.encoding) : this.value += String.fromCharCode(t), this
}
appendChars(t, e, r) {
for (let n = e; e < e + r; n++) this.append(t[n]);
return this
}
length() {
return this.value.length
}
charAt(t) {
return this.value.charAt(t)
}
deleteCharAt(t) {
this.value = this.value.substr(0, t) + this.value.substring(t + 1)
}
setCharAt(t, e) {
this.value = this.value.substr(0, t) + e + this.value.substr(t + 1)
}
substring(t, e) {
return this.value.substring(t, e)
}
setLengthToZero() {
this.value = ""
}
toString() {
return this.value
}
insert(t, e) {
this.value = this.value.substr(0, t) + e + this.value.substr(t + e.length)
}
}
class T {
constructor(t, e, r, n) {
if (this.width = t, this.height = e, this.rowSize = r, this.bits = n, null == e && (e = t), this.height = e, t < 1 || e < 1) throw new o("Both dimensions must be greater than 0");
null == r && (r = Math.floor((t + 31) / 32)), this.rowSize = r, null == n && (this.bits = new Int32Array(this.rowSize * this.height))
}
static parseFromBooleanArray(t) {
const e = t.length, r = t[0].length, n = new T(r, e);
for (let i = 0; i < e; i++) {
const e = t[i];
for (let t = 0; t < r; t++) e[t] && n.set(t, i)
}
return n
}
static parseFromString(t, e, r) {
if (null === t) throw new o("stringRepresentation cannot be null");
const n = new Array(t.length);
let i = 0, s = 0, a = -1, l = 0, h = 0;
for (; h < t.length;) if ("\n" === t.charAt(h) || "\r" === t.charAt(h)) {
if (i > s) {
if (-1 === a) a = i - s; else if (i - s !== a) throw new o("row lengths do not match");
s = i, l++
}
h++
} else if (t.substring(h, h + e.length) === e) h += e.length, n[i] = !0, i++; else {
if (t.substring(h, h + r.length) !== r) throw new o("illegal character encountered: " + t.substring(h));
h += r.length, n[i] = !1, i++
}
if (i > s) {
if (-1 === a) a = i - s; else if (i - s !== a) throw new o("row lengths do not match");
l++
}
const c = new T(a, l);
for (let t = 0; t < i; t++) n[t] && c.set(Math.floor(t % a), Math.floor(t / a));
return c
}
get(t, e) {
const r = e * this.rowSize + Math.floor(t / 32);
return 0 != (this.bits[r] >>> (31 & t) & 1)
}
set(t, e) {
const r = e * this.rowSize + Math.floor(t / 32);
this.bits[r] |= 1 << (31 & t) & 4294967295
}
unset(t, e) {
const r = e * this.rowSize + Math.floor(t / 32);
this.bits[r] &= ~(1 << (31 & t) & 4294967295)
}
flip(t, e) {
const r = e * this.rowSize + Math.floor(t / 32);
this.bits[r] ^= 1 << (31 & t) & 4294967295
}
xor(t) {
if (this.width !== t.getWidth() || this.height !== t.getHeight() || this.rowSize !== t.getRowSize()) throw new o("input matrix dimensions do not match");
const e = new w(Math.floor(this.width / 32) + 1), r = this.rowSize, n = this.bits;
for (let i = 0, s = this.height; i < s; i++) {
const s = i * r, o = t.getRow(i, e).getBitArray();
for (let t = 0; t < r; t++) n[s + t] ^= o[t]
}
}
clear() {
const t = this.bits, e = t.length;
for (let r = 0; r < e; r++) t[r] = 0
}
setRegion(t, e, r, n) {
if (e < 0 || t < 0) throw new o("Left and top must be nonnegative");
if (n < 1 || r < 1) throw new o("Height and width must be at least 1");
const i = t + r, s = e + n;
if (s > this.height || i > this.width) throw new o("The region must fit inside the matrix");
const a = this.rowSize, l = this.bits;
for (let r = e; r < s; r++) {
const e = r * a;
for (let r = t; r < i; r++) l[e + Math.floor(r / 32)] |= 1 << (31 & r) & 4294967295
}
}
getRow(t, e) {
null == e || e.getSize() < this.width ? e = new w(this.width) : e.clear();
const r = this.rowSize, n = this.bits, i = t * r;
for (let t = 0; t < r; t++) e.setBulk(32 * t, n[i + t]);
return e
}
setRow(t, e) {
c.arraycopy(e.getBitArray(), 0, this.bits, t * this.rowSize, this.rowSize)
}
rotate180() {
const t = this.getWidth(), e = this.getHeight();
let r = new w(t), n = new w(t);
for (let t = 0, i = Math.floor((e + 1) / 2); t < i; t++) r = this.getRow(t, r), n = this.getRow(e - 1 - t, n), r.reverse(), n.reverse(), this.setRow(t, n), this.setRow(e - 1 - t, r)
}
getEnclosingRectangle() {
const t = this.width, e = this.height, r = this.rowSize, n = this.bits;
let i = t, s = e, o = -1, a = -1;
for (let t = 0; t < e; t++) for (let e = 0; e < r; e++) {
const l = n[t * r + e];
if (0 !== l) {
if (t < s && (s = t), t > a && (a = t), 32 * e < i) {
let t = 0;
for (; 0 == (l << 31 - t & 4294967295);) t++;
32 * e + t < i && (i = 32 * e + t)
}
if (32 * e + 31 > o) {
let t = 31;
for (; l >>> t == 0;) t--;
32 * e + t > o && (o = 32 * e + t)
}
}
}
return o < i || a < s ? null : Int32Array.from([i, s, o - i + 1, a - s + 1])
}
getTopLeftOnBit() {
const t = this.rowSize, e = this.bits;
let r = 0;
for (; r < e.length && 0 === e[r];) r++;
if (r === e.length) return null;
const n = r / t;
let i = r % t * 32;
const s = e[r];
let o = 0;
for (; 0 == (s << 31 - o & 4294967295);) o++;
return i += o, Int32Array.from([i, n])
}
getBottomRightOnBit() {
const t = this.rowSize, e = this.bits;
let r = e.length - 1;
for (; r >= 0 && 0 === e[r];) r--;
if (r < 0) return null;
const n = Math.floor(r / t);
let i = 32 * Math.floor(r % t);
const s = e[r];
let o = 31;
for (; s >>> o == 0;) o--;
return i += o, Int32Array.from([i, n])
}
getWidth() {
return this.width
}
getHeight() {
return this.height
}
getRowSize() {
return this.rowSize
}
equals(t) {
if (!(t instanceof T)) return !1;
const e = t;
return this.width === e.width && this.height === e.height && this.rowSize === e.rowSize && g.equals(this.bits, e.bits)
}
hashCode() {
let t = this.width;
return t = 31 * t + this.width, t = 31 * t + this.height, t = 31 * t + this.rowSize, t = 31 * t + g.hashCode(this.bits), t
}
toString(t = "X ", e = " ", r = "\n") {
return this.buildToString(t, e, r)
}
buildToString(t, e, r) {
let n = new p;
for (let i = 0, s = this.height; i < s; i++) {
for (let r = 0, s = this.width; r < s; r++) n.append(this.get(r, i) ? t : e);
n.append(r)
}
return n.toString()
}
clone() {
return new T(this.width, this.height, this.rowSize, this.bits.slice())
}
}
class R extends i {
static getNotFoundInstance() {
return new R
}
}
R.kind = "NotFoundException";
class N extends h {
constructor(t) {
super(t), this.luminances = N.EMPTY, this.buckets = new Int32Array(N.LUMINANCE_BUCKETS)
}
getBlackRow(t, e) {
const r = this.getLuminanceSource(), n = r.getWidth();
null == e || e.getSize() < n ? e = new w(n) : e.clear(), this.initArrays(n);
const i = r.getRow(t, this.luminances), s = this.buckets;
for (let t = 0; t < n; t++) s[(255 & i[t]) >> N.LUMINANCE_SHIFT]++;
const o = N.estimateBlackPoint(s);
if (n < 3) for (let t = 0; t < n; t++) (255 & i[t]) < o && e.set(t); else {
let t = 255 & i[0], r = 255 & i[1];
for (let s = 1; s < n - 1; s++) {
const n = 255 & i[s + 1];
(4 * r - t - n) / 2 < o && e.set(s), t = r, r = n
}
}
return e
}
getBlackMatrix() {
const t = this.getLuminanceSource(), e = t.getWidth(), r = t.getHeight(), n = new T(e, r);
this.initArrays(e);
const i = this.buckets;
for (let n = 1; n < 5; n++) {
const s = Math.floor(r * n / 5), o = t.getRow(s, this.luminances), a = Math.floor(4 * e / 5);
for (let t = Math.floor(e / 5); t < a; t++) {
i[(255 & o[t]) >> N.LUMINANCE_SHIFT]++
}
}
const s = N.estimateBlackPoint(i), o = t.getMatrix();
for (let t = 0; t < r; t++) {
const r = t * e;
for (let i = 0; i < e; i++) {
(255 & o[r + i]) < s && n.set(i, t)
}
}
return n
}
createBinarizer(t) {
return new N(t)
}
initArrays(t) {
this.luminances.length < t && (this.luminances = new Uint8ClampedArray(t));
const e = this.buckets;
for (let t = 0; t < N.LUMINANCE_BUCKETS; t++) e[t] = 0
}
static estimateBlackPoint(t) {
const e = t.length;
let r = 0, n = 0, i = 0;
for (let s = 0; s < e; s++) t[s] > i && (n = s, i = t[s]), t[s] > r && (r = t[s]);
let s = 0, o = 0;
for (let r = 0; r < e; r++) {
const e = r - n, i = t[r] * e * e;
i > o && (s = r, o = i)
}
if (n > s) {
const t = n;
n = s, s = t
}
if (s - n <= e / 16) throw new R;
let a = s - 1, l = -1;
for (let e = s - 1; e > n; e--) {
const i = e - n, o = i * i * (s - e) * (r - t[e]);
o > l && (a = e, l = o)
}
return a << N.LUMINANCE_SHIFT
}
}
N.LUMINANCE_BITS = 5, N.LUMINANCE_SHIFT = 8 - N.LUMINANCE_BITS, N.LUMINANCE_BUCKETS = 1 << N.LUMINANCE_BITS, N.EMPTY = Uint8ClampedArray.from([0]);
class D extends N {
constructor(t) {
super(t), this.matrix = null
}
getBlackMatrix() {
if (null !== this.matrix) return this.matrix;
const t = this.getLuminanceSource(), e = t.getWidth(), r = t.getHeight();
if (e >= D.MINIMUM_DIMENSION && r >= D.MINIMUM_DIMENSION) {
const n = t.getMatrix();
let i = e >> D.BLOCK_SIZE_POWER;
0 != (e & D.BLOCK_SIZE_MASK) && i++;
let s = r >> D.BLOCK_SIZE_POWER;
0 != (r & D.BLOCK_SIZE_MASK) && s++;
const o = D.calculateBlackPoints(n, i, s, e, r), a = new T(e, r);
D.calculateThresholdForBlock(n, i, s, e, r, o, a), this.matrix = a
} else this.matrix = super.getBlackMatrix();
return this.matrix
}
createBinarizer(t) {
return new D(t)
}
static calculateThresholdForBlock(t, e, r, n, i, s, o) {
const a = i - D.BLOCK_SIZE, l = n - D.BLOCK_SIZE;
for (let i = 0; i < r; i++) {
let h = i << D.BLOCK_SIZE_POWER;
h > a && (h = a);
const c = D.cap(i, 2, r - 3);
for (let r = 0; r < e; r++) {
let i = r << D.BLOCK_SIZE_POWER;
i > l && (i = l);
const a = D.cap(r, 2, e - 3);
let u = 0;
for (let t = -2; t <= 2; t++) {
const e = s[c + t];
u += e[a - 2] + e[a - 1] + e[a] + e[a + 1] + e[a + 2]
}
const d = u / 25;
D.thresholdBlock(t, i, h, d, n, o)
}
}
}
static cap(t, e, r) {
return t < e ? e : t > r ? r : t
}
static thresholdBlock(t, e, r, n, i, s) {
for (let o = 0, a = r * i + e; o < D.BLOCK_SIZE; o++, a += i) for (let i = 0; i < D.BLOCK_SIZE; i++) (255 & t[a + i]) <= n && s.set(e + i, r + o)
}
static calculateBlackPoints(t, e, r, n, i) {
const s = i - D.BLOCK_SIZE, o = n - D.BLOCK_SIZE, a = new Array(r);
for (let i = 0; i < r; i++) {
a[i] = new Int32Array(e);
let r = i << D.BLOCK_SIZE_POWER;
r > s && (r = s);
for (let s = 0; s < e; s++) {
let e = s << D.BLOCK_SIZE_POWER;
e > o && (e = o);
let l = 0, h = 255, c = 0;
for (let i = 0, s = r * n + e; i < D.BLOCK_SIZE; i++, s += n) {
for (let e = 0; e < D.BLOCK_SIZE; e++) {
const r = 255 & t[s + e];
l += r, r < h && (h = r), r > c && (c = r)
}
if (c - h > D.MIN_DYNAMIC_RANGE) for (i++, s += n; i < D.BLOCK_SIZE; i++, s += n) for (let e = 0; e < D.BLOCK_SIZE; e++) l += 255 & t[s + e]
}
let u = l >> 2 * D.BLOCK_SIZE_POWER;
if (c - h <= D.MIN_DYNAMIC_RANGE && (u = h / 2, i > 0 && s > 0)) {
const t = (a[i - 1][s] + 2 * a[i][s - 1] + a[i - 1][s - 1]) / 4;
h < t && (u = t)
}
a[i][s] = u
}
}
return a
}
}
D.BLOCK_SIZE_POWER = 3, D.BLOCK_SIZE = 1 << D.BLOCK_SIZE_POWER, D.BLOCK_SIZE_MASK = D.BLOCK_SIZE - 1, D.MINIMUM_DIMENSION = 5 * D.BLOCK_SIZE, D.MIN_DYNAMIC_RANGE = 24;
class y {
constructor(t, e) {
this.width = t, this.height = e
}
getWidth() {
return this.width
}
getHeight() {
return this.height
}
isCropSupported() {
return !1
}
crop(t, e, r, n) {
throw new _("This luminance source does not support cropping.")
}
isRotateSupported() {
return !1
}
rotateCounterClockwise() {
throw new _("This luminance source does not support rotation by 90 degrees.")
}
rotateCounterClockwise45() {
throw new _("This luminance source does not support rotation by 45 degrees.")
}
toString() {
const t = new Uint8ClampedArray(this.width);
let e = new p;
for (let r = 0; r < this.height; r++) {
const n = this.getRow(r, t);
for (let t = 0; t < this.width; t++) {
const r = 255 & n[t];
let i;
i = r < 64 ? "#" : r < 128 ? "+" : r < 192 ? "." : " ", e.append(i)
}
e.append("\n")
}
return e.toString()
}
}
class O extends y {
constructor(t) {
super(t.getWidth(), t.getHeight()), this.delegate = t
}
getRow(t, e) {
const r = this.delegate.getRow(t, e), n = this.getWidth();
for (let t = 0; t < n; t++) r[t] = 255 - (255 & r[t]);
return r
}
getMatrix() {
const t = this.delegate.getMatrix(), e = this.getWidth() * this.getHeight(), r = new Uint8ClampedArray(e);
for (let n = 0; n < e; n++) r[n] = 255 - (255 & t[n]);
return r
}
isCropSupported() {
return this.delegate.isCropSupported()
}
crop(t, e, r, n) {
return new O(this.delegate.crop(t, e, r, n))
}
isRotateSupported() {
return this.delegate.isRotateSupported()
}
invert() {
return this.delegate
}
rotateCounterClockwise() {
return new O(this.delegate.rotateCounterClockwise())
}
rotateCounterClockwise45() {
return new O(this.delegate.rotateCounterClockwise45())
}
}
class M extends y {
constructor(t) {
super(t.width, t.height), this.canvas = t, this.tempCanvasElement = null, this.buffer = M.makeBufferFromCanvasImageData(t)
}
static makeBufferFromCanvasImageData(t) {
const e = t.getContext("2d").getImageData(0, 0, t.width, t.height);
return M.toGrayscaleBuffer(e.data, t.width, t.height)
}
static toGrayscaleBuffer(t, e, r) {
const n = new Uint8ClampedArray(e * r);
for (let e = 0, r = 0, i = t.length; e < i; e += 4, r++) {
let i;
if (0 === t[e + 3]) i = 255; else {
i = 306 * t[e] + 601 * t[e + 1] + 117 * t[e + 2] + 512 >> 10
}
n[r] = i
}
return n
}
getRow(t, e) {
if (t < 0 || t >= this.getHeight()) throw new o("Requested row is outside the image: " + t);
const r = this.getWidth(), n = t * r;
return null === e ? e = this.buffer.slice(n, n + r) : (e.length < r && (e = new Uint8ClampedArray(r)), e.set(this.buffer.slice(n, n + r))), e
}
getMatrix() {
return this.buffer
}
isCropSupported() {
return !0
}
crop(t, e, r, n) {
return super.crop(t, e, r, n), this
}
isRotateSupported() {
return !0
}
rotateCounterClockwise() {
return this.rotate(-90), this
}
rotateCounterClockwise45() {
return this.rotate(-45), this
}
getTempCanvasElement() {
if (null === this.tempCanvasElement) {
const t = this.canvas.ownerDocument.createElement("canvas");
t.width = this.canvas.width, t.height = this.canvas.height, this.tempCanvasElement = t
}
return this.tempCanvasElement
}
rotate(t) {
const e = this.getTempCanvasElement(), r = e.getContext("2d"), n = t * M.DEGREE_TO_RADIANS,
i = this.canvas.width, s = this.canvas.height,
o = Math.ceil(Math.abs(Math.cos(n)) * i + Math.abs(Math.sin(n)) * s),
a = Math.ceil(Math.abs(Math.sin(n)) * i + Math.abs(Math.cos(n)) * s);
return e.width = o, e.height = a, r.translate(o / 2, a / 2), r.rotate(n), r.drawImage(this.canvas, i / -2, s / -2), this.buffer = M.makeBufferFromCanvasImageData(e), this
}
invert() {
return new O(this)
}
}
M.DEGREE_TO_RADIANS = Math.PI / 180;
class B {
constructor(t, e, r) {
this.deviceId = t, this.label = e, this.kind = "videoinput", this.groupId = r || void 0
}
toJSON() {
return {kind: this.kind, groupId: this.groupId, deviceId: this.deviceId, label: this.label}
}
}
var b,
P = (globalThis || global || self || window ? (globalThis || global || self || window || void 0).__awaiter : void 0) || function (t, e, r, n) {
return new (r || (r = Promise))((function (i, s) {
function o(t) {
try {
l(n.next(t))
} catch (t) {
s(t)
}
}
function a(t) {
try {
l(n.throw(t))
} catch (t) {
s(t)
}
}
function l(t) {
var e;
t.done ? i(t.value) : (e = t.value, e instanceof r ? e : new r((function (t) {
t(e)
}))).then(o, a)
}
l((n = n.apply(t, e || [])).next())
}))
};
class L {
constructor(t, e = 500, r) {
this.reader = t, this.timeBetweenScansMillis = e, this._hints = r, this._stopContinuousDecode = !1, this._stopAsyncDecode = !1, this._timeBetweenDecodingAttempts = 0
}
get hasNavigator() {
return "undefined" != typeof navigator
}
get isMediaDevicesSuported() {
return this.hasNavigator && !!navigator.mediaDevices
}
get canEnumerateDevices() {
return !(!this.isMediaDevicesSuported || !navigator.mediaDevices.enumerateDevices)
}
get timeBetweenDecodingAttempts() {
return this._timeBetweenDecodingAttempts
}
set timeBetweenDecodingAttempts(t) {
this._timeBetweenDecodingAttempts = t < 0 ? 0 : t
}
set hints(t) {
this._hints = t || null
}
get hints() {
return this._hints
}
listVideoInputDevices() {
return P(this, void 0, void 0, (function* () {
if (!this.hasNavigator) throw new Error("Can't enumerate devices, navigator is not present.");
if (!this.canEnumerateDevices) throw new Error("Can't enumerate devices, method not supported.");
const t = yield navigator.mediaDevices.enumerateDevices(), e = [];
for (const r of t) {
const t = "video" === r.kind ? "videoinput" : r.kind;
if ("videoinput" !== t) continue;
const n = {
deviceId: r.deviceId || r.id,
label: r.label || "Video device " + (e.length + 1),
kind: t,
groupId: r.groupId
};
e.push(n)
}
return e
}))
}
getVideoInputDevices() {
return P(this, void 0, void 0, (function* () {
return (yield this.listVideoInputDevices()).map((t => new B(t.deviceId, t.label)))
}))
}
findDeviceById(t) {
return P(this, void 0, void 0, (function* () {
const e = yield this.listVideoInputDevices();
return e ? e.find((e => e.deviceId === t)) : null
}))
}
decodeFromInputVideoDevice(t, e) {
return P(this, void 0, void 0, (function* () {
return yield this.decodeOnceFromVideoDevice(t, e)
}))
}
decodeOnceFromVideoDevice(t, e) {
return P(this, void 0, void 0, (function* () {
let r;
this.reset(), r = t ? {deviceId: {exact: t}} : {facingMode: "environment"};
const n = {video: r};
return yield this.decodeOnceFromConstraints(n, e)
}))
}
decodeOnceFromConstraints(t, e) {
return P(this, void 0, void 0, (function* () {
const r = yield navigator.mediaDevices.getUserMedia(t);
return yield this.decodeOnceFromStream(r, e)
}))
}
decodeOnceFromStream(t, e) {
return P(this, void 0, void 0, (function* () {
this.reset();
const r = yield this.attachStreamToVideo(t, e);
return yield this.decodeOnce(r)
}))
}
decodeFromInputVideoDeviceContinuously(t, e, r) {
return P(this, void 0, void 0, (function* () {
return yield this.decodeFromVideoDevice(t, e, r)
}))
}
decodeFromVideoDevice(t, e, r) {
return P(this, void 0, void 0, (function* () {
let n;
n = t ? {deviceId: {exact: t}} : {facingMode: "environment"};
const i = {video: n};
return yield this.decodeFromConstraints(i, e, r)
}))
}
decodeFromConstraints(t, e, r) {
return P(this, void 0, void 0, (function* () {
const n = yield navigator.mediaDevices.getUserMedia(t);
return yield this.decodeFromStream(n, e, r)
}))
}
decodeFromStream(t, e, r) {
return P(this, void 0, void 0, (function* () {
this.reset();
const n = yield this.attachStreamToVideo(t, e);
return yield this.decodeContinuously(n, r)
}))
}
stopAsyncDecode() {
this._stopAsyncDecode = !0
}
stopContinuousDecode() {
this._stopContinuousDecode = !0
}
attachStreamToVideo(t, e) {
return P(this, void 0, void 0, (function* () {
const r = this.prepareVideoElement(e);
return this.addVideoSource(r, t), this.videoElement = r, this.stream = t, yield this.playVideoOnLoadAsync(r), r
}))
}
playVideoOnLoadAsync(t) {
return new Promise(((e, r) => this.playVideoOnLoad(t, (() => e()))))
}
playVideoOnLoad(t, e) {
this.videoEndedListener = () => this.stopStreams(), this.videoCanPlayListener = () => this.tryPlayVideo(t), t.addEventListener("ended", this.videoEndedListener), t.addEventListener("canplay", this.videoCanPlayListener), t.addEventListener("playing", e), this.tryPlayVideo(t)
}
isVideoPlaying(t) {
return t.currentTime > 0 && !t.paused && !t.ended && t.readyState > 2
}
tryPlayVideo(t) {
return P(this, void 0, void 0, (function* () {
if (this.isVideoPlaying(t)) console.warn("Trying to play video that is already playing."); else try {
yield t.play()
} catch (t) {
console.warn("It was not possible to play the video.")
}
}))
}
getMediaElement(t, e) {
const r = document.getElementById(t);
if (!r) throw new s(`element with id '${t}' not found`);
if (r.nodeName.toLowerCase() !== e.toLowerCase()) throw new s(`element with id '${t}' must be an ${e} element`);
return r
}
decodeFromImage(t, e) {
if (!t && !e) throw new s("either imageElement with a src set or an url must be provided");
return e && !t ? this.decodeFromImageUrl(e) : this.decodeFromImageElement(t)
}
decodeFromVideo(t, e) {
if (!t && !e) throw new s("Either an element with a src set or an URL must be provided");
return e && !t ? this.decodeFromVideoUrl(e) : this.decodeFromVideoElement(t)
}
decodeFromVideoContinuously(t, e, r) {
if (void 0 === t && void 0 === e) throw new s("Either an element with a src set or an URL must be provided");
return e && !t ? this.decodeFromVideoUrlContinuously(e, r) : this.decodeFromVideoElementContinuously(t, r)
}
decodeFromImageElement(t) {
if (!t) throw new s("An image element must be provided.");
this.reset();
const e = this.prepareImageElement(t);
let r;
return this.imageElement = e, r = this.isImageLoaded(e) ? this.decodeOnce(e, !1, !0) : this._decodeOnLoadImage(e), r
}
decodeFromVideoElement(t) {
const e = this._decodeFromVideoElementSetup(t);
return this._decodeOnLoadVideo(e)
}
decodeFromVideoElementContinuously(t, e) {
const r = this._decodeFromVideoElementSetup(t);
return this._decodeOnLoadVideoContinuously(r, e)
}
_decodeFromVideoElementSetup(t) {
if (!t) throw new s("A video element must be provided.");
this.reset();
const e = this.prepareVideoElement(t);
return this.videoElement = e, e
}
decodeFromImageUrl(t) {
if (!t) throw new s("An URL must be provided.");
this.reset();
const e = this.prepareImageElement();
this.imageElement = e;
const r = this._decodeOnLoadImage(e);
return e.src = t, r
}
decodeFromVideoUrl(t) {
if (!t) throw new s("An URL must be provided.");
this.reset();
const e = this.prepareVideoElement(), r = this.decodeFromVideoElement(e);
return e.src = t, r
}
decodeFromVideoUrlContinuously(t, e) {
if (!t) throw new s("An URL must be provided.");
this.reset();
const r = this.prepareVideoElement(), n = this.decodeFromVideoElementContinuously(r, e);
return r.src = t, n
}
_decodeOnLoadImage(t) {
return new Promise(((e, r) => {
this.imageLoadedListener = () => this.decodeOnce(t, !1, !0).then(e, r), t.addEventListener("load", this.imageLoadedListener)
}))
}
_decodeOnLoadVideo(t) {
return P(this, void 0, void 0, (function* () {
return yield this.playVideoOnLoadAsync(t), yield this.decodeOnce(t)
}))
}
_decodeOnLoadVideoContinuously(t, e) {
return P(this, void 0, void 0, (function* () {
yield this.playVideoOnLoadAsync(t), this.decodeContinuously(t, e)
}))
}
isImageLoaded(t) {
return !!t.complete && 0 !== t.naturalWidth
}
prepareImageElement(t) {
let e;
return void 0 === t && (e = document.createElement("img"), e.width = 200, e.height = 200), "string" == typeof t && (e = this.getMediaElement(t, "img")), t instanceof HTMLImageElement && (e = t), e
}
prepareVideoElement(t) {
let e;
return t || "undefined" == typeof document || (e = document.createElement("video"), e.width = 200, e.height = 200), "string" == typeof t && (e = this.getMediaElement(t, "video")), t instanceof HTMLVideoElement && (e = t), e.setAttribute("autoplay", "true"), e.setAttribute("muted", "true"), e.setAttribute("playsinline", "true"), e
}
decodeOnce(t, e = !0, r = !0) {
this._stopAsyncDecode = !1;
const n = (i, s) => {
if (this._stopAsyncDecode) return s(new R("Video stream has ended before any code could be detected.")), void (this._stopAsyncDecode = void 0);
try {
i(this.decode(t))
} catch (t) {
const o = (t instanceof l || t instanceof E) && r;
if (e && t instanceof R || o) return setTimeout(n, this._timeBetweenDecodingAttempts, i, s);
s(t)
}
};
return new Promise(((t, e) => n(t, e)))
}
decodeContinuously(t, e) {
this._stopContinuousDecode = !1;
const r = () => {
if (this._stopContinuousDecode) this._stopContinuousDecode = void 0; else try {
const n = this.decode(t);
e(n, null), setTimeout(r, this.timeBetweenScansMillis)
} catch (t) {
e(null, t);
const n = t instanceof R;
(t instanceof l || t instanceof E || n) && setTimeout(r, this._timeBetweenDecodingAttempts)
}
};
r()
}
decode(t) {
const e = this.createBinaryBitmap(t);
return this.decodeBitmap(e)
}
createBinaryBitmap(t) {
const e = this.getCaptureCanvasContext(t);
this.drawImageOnCanvas(e, t);
const r = this.getCaptureCanvas(t), n = new M(r), i = new D(n);
return new a(i)
}
getCaptureCanvasContext(t) {
if (!this.captureCanvasContext) {
const e = this.getCaptureCanvas(t).getContext("2d");
this.captureCanvasContext = e
}
return this.captureCanvasContext
}
getCaptureCanvas(t) {
if (!this.captureCanvas) {
const e = this.createCaptureCanvas(t);
this.captureCanvas = e
}
return this.captureCanvas
}
drawImageOnCanvas(t, e) {
t.drawImage(e, 0, 0)
}
decodeBitmap(t) {
return this.reader.decode(t, this._hints)
}
createCaptureCanvas(t) {
if ("undefined" == typeof document) return this._destroyCaptureCanvas(), null;
const e = document.createElement("canvas");
let r, n;
return void 0 !== t && (t instanceof HTMLVideoElement ? (r = t.videoWidth, n = t.videoHeight) : t instanceof HTMLImageElement && (r = t.naturalWidth || t.width, n = t.naturalHeight || t.height)), e.style.width = r + "px", e.style.height = n + "px", e.width = r, e.height = n, e
}
stopStreams() {
this.stream && (this.stream.getVideoTracks().forEach((t => t.stop())), this.stream = void 0), !1 === this._stopAsyncDecode && this.stopAsyncDecode(), !1 === this._stopContinuousDecode && this.stopContinuousDecode()
}
reset() {
this.stopStreams(), this._destroyVideoElement(), this._destroyImageElement(), this._destroyCaptureCanvas()
}
_destroyVideoElement() {
this.videoElement && (void 0 !== this.videoEndedListener && this.videoElement.removeEventListener("ended", this.videoEndedListener), void 0 !== this.videoPlayingEventListener && this.videoElement.removeEventListener("playing", this.videoPlayingEventListener), void 0 !== this.videoCanPlayListener && this.videoElement.removeEventListener("loadedmetadata", this.videoCanPlayListener), this.cleanVideoSource(this.videoElement), this.videoElement = void 0)
}
_destroyImageElement() {
this.imageElement && (void 0 !== this.imageLoadedListener && this.imageElement.removeEventListener("load", this.imageLoadedListener), this.imageElement.src = void 0, this.imageElement.removeAttribute("src"), this.imageElement = void 0)
}
_destroyCaptureCanvas() {
this.captureCanvasContext = void 0, this.captureCanvas = void 0
}
addVideoSource(t, e) {
try {
t.srcObject = e
} catch (r) {
t.src = URL.createObjectURL(e)
}
}
cleanVideoSource(t) {
try {
t.srcObject = null
} catch (e) {
t.src = ""
}
this.videoElement.removeAttribute("src")
}
}
class F {
constructor(t, e, r = (null == e ? 0 : 8 * e.length), n, i, s = c.currentTimeMillis()) {
this.text = t, this.rawBytes = e, this.numBits = r, this.resultPoints = n, this.format = i, this.timestamp = s, this.text = t, this.rawBytes = e, this.numBits = null == r ? null == e ? 0 : 8 * e.length : r, this.resultPoints = n, this.format = i, this.resultMetadata = null, this.timestamp = null == s ? c.currentTimeMillis() : s
}
getText() {
return this.text
}
getRawBytes() {
return this.rawBytes
}
getNumBits() {
return this.numBits
}
getResultPoints() {
return this.resultPoints
}
getBarcodeFormat() {
return this.format
}
getResultMetadata() {
return this.resultMetadata
}
putMetadata(t, e) {
null === this.resultMetadata && (this.resultMetadata = new Map), this.resultMetadata.set(t, e)
}
putAllMetadata(t) {
null !== t && (null === this.resultMetadata ? this.resultMetadata = t : this.resultMetadata = new Map(t))
}
addResultPoints(t) {
const e = this.resultPoints;
if (null === e) this.resultPoints = t; else if (null !== t && t.length > 0) {
const r = new Array(e.length + t.length);
c.arraycopy(e, 0, r, 0, e.length), c.arraycopy(t, 0, r, e.length, t.length), this.resultPoints = r
}
}
getTimestamp() {
return this.timestamp
}
toString() {
return this.text
}
}
!function (t) {
t[t.AZTEC = 0] = "AZTEC", t[t.CODABAR = 1] = "CODABAR", t[t.CODE_39 = 2] = "CODE_39", t[t.CODE_93 = 3] = "CODE_93", t[t.CODE_128 = 4] = "CODE_128", t[t.DATA_MATRIX = 5] = "DATA_MATRIX", t[t.EAN_8 = 6] = "EAN_8", t[t.EAN_13 = 7] = "EAN_13", t[t.ITF = 8] = "ITF", t[t.MAXICODE = 9] = "MAXICODE", t[t.PDF_417 = 10] = "PDF_417", t[t.QR_CODE = 11] = "QR_CODE", t[t.RSS_14 = 12] = "RSS_14", t[t.RSS_EXPANDED = 13] = "RSS_EXPANDED", t[t.UPC_A = 14] = "UPC_A", t[t.UPC_E = 15] = "UPC_E", t[t.UPC_EAN_EXTENSION = 16] = "UPC_EAN_EXTENSION"
}(b || (b = {}));
var k, v = b;
!function (t) {
t[t.OTHER = 0] = "OTHER", t[t.ORIENTATION = 1] = "ORIENTATION", t[t.BYTE_SEGMENTS = 2] = "BYTE_SEGMENTS", t[t.ERROR_CORRECTION_LEVEL = 3] = "ERROR_CORRECTION_LEVEL", t[t.ISSUE_NUMBER = 4] = "ISSUE_NUMBER", t[t.SUGGESTED_PRICE = 5] = "SUGGESTED_PRICE", t[t.POSSIBLE_COUNTRY = 6] = "POSSIBLE_COUNTRY", t[t.UPC_EAN_EXTENSION = 7] = "UPC_EAN_EXTENSION", t[t.PDF417_EXTRA_METADATA = 8] = "PDF417_EXTRA_METADATA", t[t.STRUCTURED_APPEND_SEQUENCE = 9] = "STRUCTURED_APPEND_SEQUENCE", t[t.STRUCTURED_APPEND_PARITY = 10] = "STRUCTURED_APPEND_PARITY"
}(k || (k = {}));
var x, V, U, H, G, X, W = k;
class z {
constructor(t, e, r, n, i = -1, s = -1) {
this.rawBytes = t, this.text = e, this.byteSegments = r, this.ecLevel = n, this.structuredAppendSequenceNumber = i, this.structuredAppendParity = s, this.numBits = null == t ? 0 : 8 * t.length
}
getRawBytes() {
return this.rawBytes
}
getNumBits() {
return this.numBits
}
setNumBits(t) {
this.numBits = t
}
getText() {
return this.text
}
getByteSegments() {
return this.byteSegments
}
getECLevel() {
return this.ecLevel
}
getErrorsCorrected() {
return this.errorsCorrected
}
setErrorsCorrected(t) {
this.errorsCorrected = t
}
getErasures() {
return this.erasures
}
setErasures(t) {
this.erasures = t
}
getOther() {
return this.other
}
setOther(t) {
this.other = t
}
hasStructuredAppend() {
return this.structuredAppendParity >= 0 && this.structuredAppendSequenceNumber >= 0
}
getStructuredAppendParity() {
return this.structuredAppendParity
}
getStructuredAppendSequenceNumber() {
return this.structuredAppendSequenceNumber
}
}
class Y {
exp(t) {
return this.expTable[t]
}
log(t) {
if (0 === t) throw new o;
return this.logTable[t]
}
static addOrSubtract(t, e) {
return t ^ e
}
}
class Z {
constructor(t, e) {
if (0 === e.length) throw new o;
this.field = t;
const r = e.length;
if (r > 1 && 0 === e[0]) {
let t = 1;
for (; t < r && 0 === e[t];) t++;
t === r ? this.coefficients = Int32Array.from([0]) : (this.coefficients = new Int32Array(r - t), c.arraycopy(e, t, this.coefficients, 0, this.coefficients.length))
} else this.coefficients = e
}
getCoefficients() {
return this.coefficients
}
getDegree() {
return this.coefficients.length - 1
}
isZero() {
return 0 === this.coefficients[0]
}
getCoefficient(t) {
return this.coefficients[this.coefficients.length - 1 - t]
}
evaluateAt(t) {
if (0 === t) return this.getCoefficient(0);
const e = this.coefficients;
let r;
if (1 === t) {
r = 0;
for (let t = 0, n = e.length; t !== n; t++) {
const n = e[t];
r = Y.addOrSubtract(r, n)
}
return r
}
r = e[0];
const n = e.length, i = this.field;
for (let s = 1; s < n; s++) r = Y.addOrSubtract(i.multiply(t, r), e[s]);
return r
}
addOrSubtract(t) {
if (!this.field.equals(t.field)) throw new o("GenericGFPolys do not have same GenericGF field");
if (this.isZero()) return t;
if (t.isZero()) return this;
let e = this.coefficients, r = t.coefficients;
if (e.length > r.length) {
const t = e;
e = r, r = t
}
let n = new Int32Array(r.length);
const i = r.length - e.length;
c.arraycopy(r, 0, n, 0, i);
for (let t = i; t < r.length; t++) n[t] = Y.addOrSubtract(e[t - i], r[t]);
return new Z(this.field, n)
}
multiply(t) {
if (!this.field.equals(t.field)) throw new o("GenericGFPolys do not have same GenericGF field");
if (this.isZero() || t.isZero()) return this.field.getZero();
const e = this.coefficients, r = e.length, n = t.coefficients, i = n.length, s = new Int32Array(r + i - 1),
a = this.field;
for (let t = 0; t < r; t++) {
const r = e[t];
for (let e = 0; e < i; e++) s[t + e] = Y.addOrSubtract(s[t + e], a.multiply(r, n[e]))
}
return new Z(a, s)
}
multiplyScalar(t) {
if (0 === t) return this.field.getZero();
if (1 === t) return this;
const e = this.coefficients.length, r = this.field, n = new Int32Array(e), i = this.coefficients;
for (let s = 0; s < e; s++) n[s] = r.multiply(i[s], t);
return new Z(r, n)
}
multiplyByMonomial(t, e) {
if (t < 0) throw new o;
if (0 === e) return this.field.getZero();
const r = this.coefficients, n = r.length, i = new Int32Array(n + t), s = this.field;
for (let t = 0; t < n; t++) i[t] = s.multiply(r[t], e);
return new Z(s, i)
}
divide(t) {
if (!this.field.equals(t.field)) throw new o("GenericGFPolys do not have same GenericGF field");
if (t.isZero()) throw new o("Divide by 0");
const e = this.field;
let r = e.getZero(), n = this;
const i = t.getCoefficient(t.getDegree()), s = e.inverse(i);
for (; n.getDegree() >= t.getDegree() && !n.isZero();) {
const i = n.getDegree() - t.getDegree(), o = e.multiply(n.getCoefficient(n.getDegree()), s),
a = t.multiplyByMonomial(i, o), l = e.buildMonomial(i, o);
r = r.addOrSubtract(l), n = n.addOrSubtract(a)
}
return [r, n]
}
toString() {
let t = "";
for (let e = this.getDegree(); e >= 0; e--) {
let r = this.getCoefficient(e);
if (0 !== r) {
if (r < 0 ? (t += " - ", r = -r) : t.length > 0 && (t += " + "), 0 === e || 1 !== r) {
const e = this.field.log(r);
0 === e ? t += "1" : 1 === e ? t += "a" : (t += "a^", t += e)
}
0 !== e && (1 === e ? t += "x" : (t += "x^", t += e))
}
}
return t
}
}
class K extends i {
}
K.kind = "ArithmeticException";
class q extends Y {
constructor(t, e, r) {
super(), this.primitive = t, this.size = e, this.generatorBase = r;
const n = new Int32Array(e);
let i = 1;
for (let r = 0; r < e; r++) n[r] = i, i *= 2, i >= e && (i ^= t, i &= e - 1);
this.expTable = n;
const s = new Int32Array(e);
for (let t = 0; t < e - 1; t++) s[n[t]] = t;
this.logTable = s, this.zero = new Z(this, Int32Array.from([0])), this.one = new Z(this, Int32Array.from([1]))
}
getZero() {
return this.zero
}
getOne() {
return this.one
}
buildMonomial(t, e) {
if (t < 0) throw new o;
if (0 === e) return this.zero;
const r = new Int32Array(t + 1);
return r[0] = e, new Z(this, r)
}
inverse(t) {
if (0 === t) throw new K;
return this.expTable[this.size - this.logTable[t] - 1]
}
multiply(t, e) {
return 0 === t || 0 === e ? 0 : this.expTable[(this.logTable[t] + this.logTable[e]) % (this.size - 1)]
}
getSize() {
return this.size
}
getGeneratorBase() {
return this.generatorBase
}
toString() {
return "GF(0x" + f.toHexString(this.primitive) + "," + this.size + ")"
}
equals(t) {
return t === this
}
}
q.AZTEC_DATA_12 = new q(4201, 4096, 1), q.AZTEC_DATA_10 = new q(1033, 1024, 1), q.AZTEC_DATA_6 = new q(67, 64, 1), q.AZTEC_PARAM = new q(19, 16, 1), q.QR_CODE_FIELD_256 = new q(285, 256, 0), q.DATA_MATRIX_FIELD_256 = new q(301, 256, 1), q.AZTEC_DATA_8 = q.DATA_MATRIX_FIELD_256, q.MAXICODE_FIELD_64 = q.AZTEC_DATA_6;
class Q extends i {
}
Q.kind = "ReedSolomonException";
class j extends i {
}
j.kind = "IllegalStateException";
class J {
constructor(t) {
this.field = t
}
decode(t, e) {
const r = this.field, n = new Z(r, t), i = new Int32Array(e);
let s = !0;
for (let t = 0; t < e; t++) {
const e = n.evaluateAt(r.exp(t + r.getGeneratorBase()));
i[i.length - 1 - t] = e, 0 !== e && (s = !1)
}
if (s) return;
const o = new Z(r, i), a = this.runEuclideanAlgorithm(r.buildMonomial(e, 1), o, e), l = a[0], h = a[1],
c = this.findErrorLocations(l), u = this.findErrorMagnitudes(h, c);
for (let e = 0; e < c.length; e++) {
const n = t.length - 1 - r.log(c[e]);
if (n < 0) throw new Q("Bad error location");
t[n] = q.addOrSubtract(t[n], u[e])
}
}
runEuclideanAlgorithm(t, e, r) {
if (t.getDegree() < e.getDegree()) {
const r = t;
t = e, e = r
}
const n = this.field;
let i = t, s = e, o = n.getZero(), a = n.getOne();
for (; s.getDegree() >= (r / 2 | 0);) {
let t = i, e = o;
if (i = s, o = a, i.isZero()) throw new Q("r_{i-1} was zero");
s = t;
let r = n.getZero();
const l = i.getCoefficient(i.getDegree()), h = n.inverse(l);
for (; s.getDegree() >= i.getDegree() && !s.isZero();) {
const t = s.getDegree() - i.getDegree(), e = n.multiply(s.getCoefficient(s.getDegree()), h);
r = r.addOrSubtract(n.buildMonomial(t, e)), s = s.addOrSubtract(i.multiplyByMonomial(t, e))
}
if (a = r.multiply(o).addOrSubtract(e), s.getDegree() >= i.getDegree()) throw new j("Division algorithm failed to reduce polynomial?")
}
const l = a.getCoefficient(0);
if (0 === l) throw new Q("sigmaTilde(0) was zero");
const h = n.inverse(l);
return [a.multiplyScalar(h), s.multiplyScalar(h)]
}
findErrorLocations(t) {
const e = t.getDegree();
if (1 === e) return Int32Array.from([t.getCoefficient(1)]);
const r = new Int32Array(e);
let n = 0;
const i = this.field;
for (let s = 1; s < i.getSize() && n < e; s++) 0 === t.evaluateAt(s) && (r[n] = i.inverse(s), n++);
if (n !== e) throw new Q("Error locator degree does not match number of roots");
return r
}
findErrorMagnitudes(t, e) {
const r = e.length, n = new Int32Array(r), i = this.field;
for (let s = 0; s < r; s++) {
const o = i.inverse(e[s]);
let a = 1;
for (let t = 0; t < r; t++) if (s !== t) {
const r = i.multiply(e[t], o), n = 0 == (1 & r) ? 1 | r : -2 & r;
a = i.multiply(a, n)
}
n[s] = i.multiply(t.evaluateAt(o), i.inverse(a)), 0 !== i.getGeneratorBase() && (n[s] = i.multiply(n[s], o))
}
return n
}
}
!function (t) {
t[t.UPPER = 0] = "UPPER", t[t.LOWER = 1] = "LOWER", t[t.MIXED = 2] = "MIXED", t[t.DIGIT = 3] = "DIGIT", t[t.PUNCT = 4] = "PUNCT", t[t.BINARY = 5] = "BINARY"
}(x || (x = {}));
class ${decode(t){this.ddata=t;let e=t.getBits(),r=this.extractBits(e),n=this.correctBits(r),i=$.convertBoolArrayToByteArray(n),s=$.getEncodedData(n),o=new z(i,s,null,null);return o.setNumBits(n.length),o}
static
highLevelDecode(t)
{
return this.getEncodedData(t)
}
static
getEncodedData(t)
{
let e = t.length, r = x.UPPER, n = x.UPPER, i = "", s = 0;
for (; s < e;) if (n === x.BINARY) {
if (e - s < 5) break;
let o = $.readCode(t, s, 5);
if (s += 5, 0 === o) {
if (e - s < 11) break;
o = $.readCode(t, s, 11) + 31, s += 11
}
for (let r = 0; r < o; r++) {
if (e - s < 8) {
s = e;
break
}
const r = $.readCode(t, s, 8);
i += S.castAsNonUtf8Char(r), s += 8
}
n = r
} else {
let o = n === x.DIGIT ? 4 : 5;
if (e - s < o) break;
let a = $.readCode(t, s, o);
s += o;
let l = $.getCharacter(n, a);
l.startsWith("CTRL_") ? (r = n, n = $.getTable(l.charAt(5)), "L" === l.charAt(6) && (r = n)) : (i += l, n = r)
}
return i
}
static
getTable(t)
{
switch (t) {
case"L":
return x.LOWER;
case"P":
return x.PUNCT;
case"M":
return x.MIXED;
case"D":
return x.DIGIT;
case"B":
return x.BINARY;
case"U":
default:
return x.UPPER
}
}
static
getCharacter(t, e)
{
switch (t) {
case x.UPPER:
return $.UPPER_TABLE[e];
case x.LOWER:
return $.LOWER_TABLE[e];
case x.MIXED:
return $.MIXED_TABLE[e];
case x.PUNCT:
return $.PUNCT_TABLE[e];
case x.DIGIT:
return $.DIGIT_TABLE[e];
default:
throw new j("Bad table")
}
}
correctBits(t)
{
let e, r;
this.ddata.getNbLayers() <= 2 ? (r = 6, e = q.AZTEC_DATA_6) : this.ddata.getNbLayers() <= 8 ? (r = 8, e = q.AZTEC_DATA_8) : this.ddata.getNbLayers() <= 22 ? (r = 10, e = q.AZTEC_DATA_10) : (r = 12, e = q.AZTEC_DATA_12);
let n = this.ddata.getNbDatablocks(), i = t.length / r;
if (i < n) throw new E;
let s = t.length % r, o = new Int32Array(i);
for (let e = 0; e < i; e++, s += r) o[e] = $.readCode(t, s, r);
try {
new J(e).decode(o, i - n)
} catch (t) {
throw new E(t)
}
let a = (1 << r) - 1, l = 0;
for (let t = 0; t < n; t++) {
let e = o[t];
if (0 === e || e === a) throw new E;
1 !== e && e !== a - 1 || l++
}
let h = new Array(n * r - l), c = 0;
for (let t = 0; t < n; t++) {
let e = o[t];
if (1 === e || e === a - 1) h.fill(e > 1, c, c + r - 1), c += r - 1; else for (let t = r - 1; t >= 0; --t) h[c++] = 0 != (e & 1 << t)
}
return h
}
extractBits(t)
{
let e = this.ddata.isCompact(), r = this.ddata.getNbLayers(), n = (e ? 11 : 14) + 4 * r, i = new Int32Array(n),
s = new Array(this.totalBitsInLayer(r, e));
if (e) for (let t = 0; t < i.length; t++) i[t] = t; else {
let t = n + 1 + 2 * f.truncDivision(f.truncDivision(n, 2) - 1, 15), e = n / 2, r = f.truncDivision(t, 2);
for (let t = 0; t < e; t++) {
let n = t + f.truncDivision(t, 15);
i[e - t - 1] = r - n - 1, i[e + t] = r + n + 1
}
}
for (let o = 0, a = 0; o < r; o++) {
let l = 4 * (r - o) + (e ? 9 : 12), h = 2 * o, c = n - 1 - h;
for (let e = 0; e < l; e++) {
let r = 2 * e;
for (let n = 0; n < 2; n++) s[a + r + n] = t.get(i[h + n], i[h + e]), s[a + 2 * l + r + n] = t.get(i[h + e], i[c - n]), s[a + 4 * l + r + n] = t.get(i[c - n], i[c - e]), s[a + 6 * l + r + n] = t.get(i[c - e], i[h + n])
}
a += 8 * l
}
return s
}
static
readCode(t, e, r)
{
let n = 0;
for (let i = e; i < e + r; i++) n <<= 1, t[i] && (n |= 1);
return n
}
static
readByte(t, e)
{
let r = t.length - e;
return r >= 8 ? $.readCode(t, e, 8) : $.readCode(t, e, r) << 8 - r
}
static
convertBoolArrayToByteArray(t)
{
let e = new Uint8Array((t.length + 7) / 8);
for (let r = 0; r < e.length; r++) e[r] = $.readByte(t, 8 * r);
return e
}
totalBitsInLayer(t, e)
{
return ((e ? 88 : 112) + 16 * t) * t
}
}
$.UPPER_TABLE = ["CTRL_PS", " ", "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", "CTRL_LL", "CTRL_ML", "CTRL_DL", "CTRL_BS"], $.LOWER_TABLE = ["CTRL_PS", " ", "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", "CTRL_US", "CTRL_ML", "CTRL_DL", "CTRL_BS"], $.MIXED_TABLE = ["CTRL_PS", " ", "\\1", "\\2", "\\3", "\\4", "\\5", "\\6", "\\7", "\b", "\t", "\n", "\\13", "\f", "\r", "\\33", "\\34", "\\35", "\\36", "\\37", "@", "\\", "^", "_", "`", "|", "~", "\\177", "CTRL_LL", "CTRL_UL", "CTRL_PL", "CTRL_BS"], $.PUNCT_TABLE = ["", "\r", "\r\n", ". ", ", ", ": ", "!", '"', "#", "$", "%", "&", "'", "(", ")", "*", "+", ",", "-", ".", "/", ":", ";", "<", "=", ">", "?", "[", "]", "{", "}", "CTRL_UL"], $.DIGIT_TABLE = ["CTRL_PS", " ", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", ",", ".", "CTRL_UL", "CTRL_US"];
class tt {
constructor() {
}
static round(t) {
return NaN === t ? 0 : t <= Number.MIN_SAFE_INTEGER ? Number.MIN_SAFE_INTEGER : t >= Number.MAX_SAFE_INTEGER ? Number.MAX_SAFE_INTEGER : t + (t < 0 ? -.5 : .5) | 0
}
static distance(t, e, r, n) {
const i = t - r, s = e - n;
return Math.sqrt(i * i + s * s)
}
static sum(t) {
let e = 0;
for (let r = 0, n = t.length; r !== n; r++) {
e += t[r]
}
return e
}
}
class et {
static floatToIntBits(t) {
return t
}
}
et.MAX_VALUE = Number.MAX_SAFE_INTEGER;
class rt {
constructor(t, e) {
this.x = t, this.y = e
}
getX() {
return this.x
}
getY() {
return this.y
}
equals(t) {
if (t instanceof rt) {
const e = t;
return this.x === e.x && this.y === e.y
}
return !1
}
hashCode() {
return 31 * et.floatToIntBits(this.x) + et.floatToIntBits(this.y)
}
toString() {
return "(" + this.x + "," + this.y + ")"
}
static orderBestPatterns(t) {
const e = this.distance(t[0], t[1]), r = this.distance(t[1], t[2]), n = this.distance(t[0], t[2]);
let i, s, o;
if (r >= e && r >= n ? (s = t[0], i = t[1], o = t[2]) : n >= r && n >= e ? (s = t[1], i = t[0], o = t[2]) : (s = t[2], i = t[0], o = t[1]), this.crossProductZ(i, s, o) < 0) {
const t = i;
i = o, o = t
}
t[0] = i, t[1] = s, t[2] = o
}
static distance(t, e) {
return tt.distance(t.x, t.y, e.x, e.y)
}
static crossProductZ(t, e, r) {
const n = e.x, i = e.y;
return (r.x - n) * (t.y - i) - (r.y - i) * (t.x - n)
}
}
class nt {
constructor(t, e) {
this.bits = t, this.points = e
}
getBits() {
return this.bits
}
getPoints() {
return this.points
}
}
class it extends nt {
constructor(t, e, r, n, i) {
super(t, e), this.compact = r, this.nbDatablocks = n, this.nbLayers = i
}
getNbLayers() {
return this.nbLayers
}
getNbDatablocks() {
return this.nbDatablocks
}
isCompact() {
return this.compact
}
}
class st {
constructor(t, e, r, n) {
this.image = t, this.height = t.getHeight(), this.width = t.getWidth(), null == e && (e = st.INIT_SIZE), null == r && (r = t.getWidth() / 2 | 0), null == n && (n = t.getHeight() / 2 | 0);
const i = e / 2 | 0;
if (this.leftInit = r - i, this.rightInit = r + i, this.upInit = n - i, this.downInit = n + i, this.upInit < 0 || this.leftInit < 0 || this.downInit >= this.height || this.rightInit >= this.width) throw new R
}
detect() {
let t = this.leftInit, e = this.rightInit, r = this.upInit, n = this.downInit, i = !1, s = !0, o = !1, a = !1,
l = !1, h = !1, c = !1;
const u = this.width, d = this.height;
for (; s;) {
s = !1;
let g = !0;
for (; (g || !a) && e < u;) g = this.containsBlackPoint(r, n, e, !1), g ? (e++, s = !0, a = !0) : a || e++;
if (e >= u) {
i = !0;
break
}
let f = !0;
for (; (f || !l) && n < d;) f = this.containsBlackPoint(t, e, n, !0), f ? (n++, s = !0, l = !0) : l || n++;
if (n >= d) {
i = !0;
break
}
let w = !0;
for (; (w || !h) && t >= 0;) w = this.containsBlackPoint(r, n, t, !1), w ? (t--, s = !0, h = !0) : h || t--;
if (t < 0) {
i = !0;
break
}
let A = !0;
for (; (A || !c) && r >= 0;) A = this.containsBlackPoint(t, e, r, !0), A ? (r--, s = !0, c = !0) : c || r--;
if (r < 0) {
i = !0;
break
}
s && (o = !0)
}
if (!i && o) {
const i = e - t;
let s = null;
for (let e = 1; null === s && e < i; e++) s = this.getBlackPointOnSegment(t, n - e, t + e, n);
if (null == s) throw new R;
let o = null;
for (let e = 1; null === o && e < i; e++) o = this.getBlackPointOnSegment(t, r + e, t + e, r);
if (null == o) throw new R;
let a = null;
for (let t = 1; null === a && t < i; t++) a = this.getBlackPointOnSegment(e, r + t, e - t, r);
if (null == a) throw new R;
let l = null;
for (let t = 1; null === l && t < i; t++) l = this.getBlackPointOnSegment(e, n - t, e - t, n);
if (null == l) throw new R;
return this.centerEdges(l, s, a, o)
}
throw new R
}
getBlackPointOnSegment(t, e, r, n) {
const i = tt.round(tt.distance(t, e, r, n)), s = (r - t) / i, o = (n - e) / i, a = this.image;
for (let r = 0; r < i; r++) {
const n = tt.round(t + r * s), i = tt.round(e + r * o);
if (a.get(n, i)) return new rt(n, i)
}
return null
}
centerEdges(t, e, r, n) {
const i = t.getX(), s = t.getY(), o = e.getX(), a = e.getY(), l = r.getX(), h = r.getY(), c = n.getX(),
u = n.getY(), d = st.CORR;
return i < this.width / 2 ? [new rt(c - d, u + d), new rt(o + d, a + d), new rt(l - d, h - d), new rt(i + d, s - d)] : [new rt(c + d, u + d), new rt(o + d, a - d), new rt(l - d, h + d), new rt(i - d, s - d)]
}
containsBlackPoint(t, e, r, n) {
const i = this.image;
if (n) {
for (let n = t; n <= e; n++) if (i.get(n, r)) return !0
} else for (let n = t; n <= e; n++) if (i.get(r, n)) return !0;
return !1
}
}
st.INIT_SIZE = 10, st.CORR = 1;
class ot {
static checkAndNudgePoints(t, e) {
const r = t.getWidth(), n = t.getHeight();
let i = !0;
for (let t = 0; t < e.length && i; t += 2) {
const s = Math.floor(e[t]), o = Math.floor(e[t + 1]);
if (s < -1 || s > r || o < -1 || o > n) throw new R;
i = !1, -1 === s ? (e[t] = 0, i = !0) : s === r && (e[t] = r - 1, i = !0), -1 === o ? (e[t + 1] = 0, i = !0) : o === n && (e[t + 1] = n - 1, i = !0)
}
i = !0;
for (let t = e.length - 2; t >= 0 && i; t -= 2) {
const s = Math.floor(e[t]), o = Math.floor(e[t + 1]);
if (s < -1 || s > r || o < -1 || o > n) throw new R;
i = !1, -1 === s ? (e[t] = 0, i = !0) : s === r && (e[t] = r - 1, i = !0), -1 === o ? (e[t + 1] = 0, i = !0) : o === n && (e[t + 1] = n - 1, i = !0)
}
}
}
class at {
constructor(t, e, r, n, i, s, o, a, l) {
this.a11 = t, this.a21 = e, this.a31 = r, this.a12 = n, this.a22 = i, this.a32 = s, this.a13 = o, this.a23 = a, this.a33 = l
}
static quadrilateralToQuadrilateral(t, e, r, n, i, s, o, a, l, h, c, u, d, g, f, w) {
const A = at.quadrilateralToSquare(t, e, r, n, i, s, o, a);
return at.squareToQuadrilateral(l, h, c, u, d, g, f, w).times(A)
}
transformPoints(t) {
const e = t.length, r = this.a11, n = this.a12, i = this.a13, s = this.a21, o = this.a22, a = this.a23,
l = this.a31, h = this.a32, c = this.a33;
for (let u = 0; u < e; u += 2) {
const e = t[u], d = t[u + 1], g = i * e + a * d + c;
t[u] = (r * e + s * d + l) / g, t[u + 1] = (n * e + o * d + h) / g
}
}
transformPointsWithValues(t, e) {
const r = this.a11, n = this.a12, i = this.a13, s = this.a21, o = this.a22, a = this.a23, l = this.a31,
h = this.a32, c = this.a33, u = t.length;
for (let d = 0; d < u; d++) {
const u = t[d], g = e[d], f = i * u + a * g + c;
t[d] = (r * u + s * g + l) / f, e[d] = (n * u + o * g + h) / f
}
}
static squareToQuadrilateral(t, e, r, n, i, s, o, a) {
const l = t - r + i - o, h = e - n + s - a;
if (0 === l && 0 === h) return new at(r - t, i - r, t, n - e, s - n, e, 0, 0, 1);
{
const c = r - i, u = o - i, d = n - s, g = a - s, f = c * g - u * d, w = (l * g - u * h) / f,
A = (c * h - l * d) / f;
return new at(r - t + w * r, o - t + A * o, t, n - e + w * n, a - e + A * a, e, w, A, 1)
}
}
static quadrilateralToSquare(t, e, r, n, i, s, o, a) {
return at.squareToQuadrilateral(t, e, r, n, i, s, o, a).buildAdjoint()
}
buildAdjoint() {
return new at(this.a22 * this.a33 - this.a23 * this.a32, this.a23 * this.a31 - this.a21 * this.a33, this.a21 * this.a32 - this.a22 * this.a31, this.a13 * this.a32 - this.a12 * this.a33, this.a11 * this.a33 - this.a13 * this.a31, this.a12 * this.a31 - this.a11 * this.a32, this.a12 * this.a23 - this.a13 * this.a22, this.a13 * this.a21 - this.a11 * this.a23, this.a11 * this.a22 - this.a12 * this.a21)
}
times(t) {
return new at(this.a11 * t.a11 + this.a21 * t.a12 + this.a31 * t.a13, this.a11 * t.a21 + this.a21 * t.a22 + this.a31 * t.a23, this.a11 * t.a31 + this.a21 * t.a32 + this.a31 * t.a33, this.a12 * t.a11 + this.a22 * t.a12 + this.a32 * t.a13, this.a12 * t.a21 + this.a22 * t.a22 + this.a32 * t.a23, this.a12 * t.a31 + this.a22 * t.a32 + this.a32 * t.a33, this.a13 * t.a11 + this.a23 * t.a12 + this.a33 * t.a13, this.a13 * t.a21 + this.a23 * t.a22 + this.a33 * t.a23, this.a13 * t.a31 + this.a23 * t.a32 + this.a33 * t.a33)
}
}
class lt extends ot {
sampleGrid(t, e, r, n, i, s, o, a, l, h, c, u, d, g, f, w, A, C, E) {
const m = at.quadrilateralToQuadrilateral(n, i, s, o, a, l, h, c, u, d, g, f, w, A, C, E);
return this.sampleGridWithTransform(t, e, r, m)
}
sampleGridWithTransform(t, e, r, n) {
if (e <= 0 || r <= 0) throw new R;
const i = new T(e, r), s = new Float32Array(2 * e);
for (let e = 0; e < r; e++) {
const r = s.length, o = e + .5;
for (let t = 0; t < r; t += 2) s[t] = t / 2 + .5, s[t + 1] = o;
n.transformPoints(s), ot.checkAndNudgePoints(t, s);
try {
for (let n = 0; n < r; n += 2) t.get(Math.floor(s[n]), Math.floor(s[n + 1])) && i.set(n / 2, e)
} catch (t) {
throw new R
}
}
return i
}
}
class ht {
static setGridSampler(t) {
ht.gridSampler = t
}
static getInstance() {
return ht.gridSampler
}
}
ht.gridSampler = new lt;
class ct {
constructor(t, e) {
this.x = t, this.y = e
}
toResultPoint() {
return new rt(this.getX(), this.getY())
}
getX() {
return this.x
}
getY() {
return this.y
}
}
class ut {
constructor(t) {
this.EXPECTED_CORNER_BITS = new Int32Array([3808, 476, 2107, 1799]), this.image = t
}
detect() {
return this.detectMirror(!1)
}
detectMirror(t) {
let e = this.getMatrixCenter(), r = this.getBullsEyeCorners(e);
if (t) {
let t = r[0];
r[0] = r[2], r[2] = t
}
this.extractParameters(r);
let n = this.sampleGrid(this.image, r[this.shift % 4], r[(this.shift + 1) % 4], r[(this.shift + 2) % 4], r[(this.shift + 3) % 4]),
i = this.getMatrixCornerPoints(r);
return new it(n, i, this.compact, this.nbDataBlocks, this.nbLayers)
}
extractParameters(t) {
if (!(this.isValidPoint(t[0]) && this.isValidPoint(t[1]) && this.isValidPoint(t[2]) && this.isValidPoint(t[3]))) throw new R;
let e = 2 * this.nbCenterLayers,
r = new Int32Array([this.sampleLine(t[0], t[1], e), this.sampleLine(t[1], t[2], e), this.sampleLine(t[2], t[3], e), this.sampleLine(t[3], t[0], e)]);
this.shift = this.getRotation(r, e);
let n = 0;
for (let t = 0; t < 4; t++) {
let e = r[(this.shift + t) % 4];
this.compact ? (n <<= 7, n += e >> 1 & 127) : (n <<= 10, n += (e >> 2 & 992) + (e >> 1 & 31))
}
let i = this.getCorrectedParameterData(n, this.compact);
this.compact ? (this.nbLayers = 1 + (i >> 6), this.nbDataBlocks = 1 + (63 & i)) : (this.nbLayers = 1 + (i >> 11), this.nbDataBlocks = 1 + (2047 & i))
}
getRotation(t, e) {
let r = 0;
t.forEach(((t, n, i) => {
r = (r << 3) + ((t >> e - 2 << 1) + (1 & t))
})), r = ((1 & r) << 11) + (r >> 1);
for (let t = 0; t < 4; t++) if (f.bitCount(r ^ this.EXPECTED_CORNER_BITS[t]) <= 2) return t;
throw new R
}
getCorrectedParameterData(t, e) {
let r, n;
e ? (r = 7, n = 2) : (r = 10, n = 4);
let i = r - n, s = new Int32Array(r);
for (let e = r - 1; e >= 0; --e) s[e] = 15 & t, t >>= 4;
try {
new J(q.AZTEC_PARAM).decode(s, i)
} catch (t) {
throw new R
}
let o = 0;
for (let t = 0; t < n; t++) o = (o << 4) + s[t];
return o
}
getBullsEyeCorners(t) {
let e = t, r = t, n = t, i = t, s = !0;
for (this.nbCenterLayers = 1; this.nbCenterLayers < 9; this.nbCenterLayers++) {
let t = this.getFirstDifferent(e, s, 1, -1), o = this.getFirstDifferent(r, s, 1, 1),
a = this.getFirstDifferent(n, s, -1, 1), l = this.getFirstDifferent(i, s, -1, -1);
if (this.nbCenterLayers > 2) {
let r = this.distancePoint(l, t) * this.nbCenterLayers / (this.distancePoint(i, e) * (this.nbCenterLayers + 2));
if (r < .75 || r > 1.25 || !this.isWhiteOrBlackRectangle(t, o, a, l)) break
}
e = t, r = o, n = a, i = l, s = !s
}
if (5 !== this.nbCenterLayers && 7 !== this.nbCenterLayers) throw new R;
this.compact = 5 === this.nbCenterLayers;
let o = new rt(e.getX() + .5, e.getY() - .5), a = new rt(r.getX() + .5, r.getY() + .5),
l = new rt(n.getX() - .5, n.getY() + .5), h = new rt(i.getX() - .5, i.getY() - .5);
return this.expandSquare([o, a, l, h], 2 * this.nbCenterLayers - 3, 2 * this.nbCenterLayers)
}
getMatrixCenter() {
let t, e, r, n;
try {
let i = new st(this.image).detect();
t = i[0], e = i[1], r = i[2], n = i[3]
} catch (i) {
let s = this.image.getWidth() / 2, o = this.image.getHeight() / 2;
t = this.getFirstDifferent(new ct(s + 7, o - 7), !1, 1, -1).toResultPoint(), e = this.getFirstDifferent(new ct(s + 7, o + 7), !1, 1, 1).toResultPoint(), r = this.getFirstDifferent(new ct(s - 7, o + 7), !1, -1, 1).toResultPoint(), n = this.getFirstDifferent(new ct(s - 7, o - 7), !1, -1, -1).toResultPoint()
}
let i = tt.round((t.getX() + n.getX() + e.getX() + r.getX()) / 4),
s = tt.round((t.getY() + n.getY() + e.getY() + r.getY()) / 4);
try {
let o = new st(this.image, 15, i, s).detect();
t = o[0], e = o[1], r = o[2], n = o[3]
} catch (o) {
t = this.getFirstDifferent(new ct(i + 7, s - 7), !1, 1, -1).toResultPoint(), e = this.getFirstDifferent(new ct(i + 7, s + 7), !1, 1, 1).toResultPoint(), r = this.getFirstDifferent(new ct(i - 7, s + 7), !1, -1, 1).toResultPoint(), n = this.getFirstDifferent(new ct(i - 7, s - 7), !1, -1, -1).toResultPoint()
}
return i = tt.round((t.getX() + n.getX() + e.getX() + r.getX()) / 4), s = tt.round((t.getY() + n.getY() + e.getY() + r.getY()) / 4), new ct(i, s)
}
getMatrixCornerPoints(t) {
return this.expandSquare(t, 2 * this.nbCenterLayers, this.getDimension())
}
sampleGrid(t, e, r, n, i) {
let s = ht.getInstance(), o = this.getDimension(), a = o / 2 - this.nbCenterLayers,
l = o / 2 + this.nbCenterLayers;
return s.sampleGrid(t, o, o, a, a, l, a, l, l, a, l, e.getX(), e.getY(), r.getX(), r.getY(), n.getX(), n.getY(), i.getX(), i.getY())
}
sampleLine(t, e, r) {
let n = 0, i = this.distanceResultPoint(t, e), s = i / r, o = t.getX(), a = t.getY(),
l = s * (e.getX() - t.getX()) / i, h = s * (e.getY() - t.getY()) / i;
for (let t = 0; t < r; t++) this.image.get(tt.round(o + t * l), tt.round(a + t * h)) && (n |= 1 << r - t - 1);
return n
}
isWhiteOrBlackRectangle(t, e, r, n) {
t = new ct(t.getX() - 3, t.getY() + 3), e = new ct(e.getX() - 3, e.getY() - 3), r = new ct(r.getX() + 3, r.getY() - 3), n = new ct(n.getX() + 3, n.getY() + 3);
let i = this.getColor(n, t);
if (0 === i) return !1;
let s = this.getColor(t, e);
return s === i && (s = this.getColor(e, r), s === i && (s = this.getColor(r, n), s === i))
}
getColor(t, e) {
let r = this.distancePoint(t, e), n = (e.getX() - t.getX()) / r, i = (e.getY() - t.getY()) / r, s = 0,
o = t.getX(), a = t.getY(), l = this.image.get(t.getX(), t.getY()), h = Math.ceil(r);
for (let t = 0; t < h; t++) o += n, a += i, this.image.get(tt.round(o), tt.round(a)) !== l && s++;
let c = s / r;
return c > .1 && c < .9 ? 0 : c <= .1 === l ? 1 : -1
}
getFirstDifferent(t, e, r, n) {
let i = t.getX() + r, s = t.getY() + n;
for (; this.isValid(i, s) && this.image.get(i, s) === e;) i += r, s += n;
for (i -= r, s -= n; this.isValid(i, s) && this.image.get(i, s) === e;) i += r;
for (i -= r; this.isValid(i, s) && this.image.get(i, s) === e;) s += n;
return s -= n, new ct(i, s)
}
expandSquare(t, e, r) {
let n = r / (2 * e), i = t[0].getX() - t[2].getX(), s = t[0].getY() - t[2].getY(),
o = (t[0].getX() + t[2].getX()) / 2, a = (t[0].getY() + t[2].getY()) / 2, l = new rt(o + n * i, a + n * s),
h = new rt(o - n * i, a - n * s);
return i = t[1].getX() - t[3].getX(), s = t[1].getY() - t[3].getY(), o = (t[1].getX() + t[3].getX()) / 2, a = (t[1].getY() + t[3].getY()) / 2, [l, new rt(o + n * i, a + n * s), h, new rt(o - n * i, a - n * s)]
}
isValid(t, e) {
return t >= 0 && t < this.image.getWidth() && e > 0 && e < this.image.getHeight()
}
isValidPoint(t) {
let e = tt.round(t.getX()), r = tt.round(t.getY());
return this.isValid(e, r)
}
distancePoint(t, e) {
return tt.distance(t.getX(), t.getY(), e.getX(), e.getY())
}
distanceResultPoint(t, e) {
return tt.distance(t.getX(), t.getY(), e.getX(), e.getY())
}
getDimension() {
return this.compact ? 4 * this.nbLayers + 11 : this.nbLayers <= 4 ? 4 * this.nbLayers + 15 : 4 * this.nbLayers + 2 * (f.truncDivision(this.nbLayers - 4, 8) + 1) + 15
}
}
class dt {
decode(t, e = null) {
let r = null, n = new ut(t.getBlackMatrix()), i = null, s = null;
try {
let t = n.detectMirror(!1);
i = t.getPoints(), this.reportFoundResultPoints(e, i), s = (new $).decode(t)
} catch (t) {
r = t
}
if (null == s) try {
let t = n.detectMirror(!0);
i = t.getPoints(), this.reportFoundResultPoints(e, i), s = (new $).decode(t)
} catch (t) {
if (null != r) throw r;
throw t
}
let o = new F(s.getText(), s.getRawBytes(), s.getNumBits(), i, v.AZTEC, c.currentTimeMillis()),
a = s.getByteSegments();
null != a && o.putMetadata(W.BYTE_SEGMENTS, a);
let l = s.getECLevel();
return null != l && o.putMetadata(W.ERROR_CORRECTION_LEVEL, l), o
}
reportFoundResultPoints(t, e) {
if (null != t) {
let r = t.get(C.NEED_RESULT_POINT_CALLBACK);
null != r && e.forEach(((t, e, n) => {
r.foundPossibleResultPoint(t)
}))
}
}
reset() {
}
}
class gt {
decode(t, e) {
try {
return this.doDecode(t, e)
} catch (r) {
if (e && !0 === e.get(C.TRY_HARDER) && t.isRotateSupported()) {
const r = t.rotateCounterClockwise(), n = this.doDecode(r, e), i = n.getResultMetadata();
let s = 270;
null !== i && !0 === i.get(W.ORIENTATION) && (s += i.get(W.ORIENTATION) % 360), n.putMetadata(W.ORIENTATION, s);
const o = n.getResultPoints();
if (null !== o) {
const t = r.getHeight();
for (let e = 0; e < o.length; e++) o[e] = new rt(t - o[e].getY() - 1, o[e].getX())
}
return n
}
throw new R
}
}
reset() {
}
doDecode(t, e) {
const r = t.getWidth(), n = t.getHeight();
let i = new w(r);
const s = e && !0 === e.get(C.TRY_HARDER), o = Math.max(1, n >> (s ? 8 : 5));
let a;
a = s ? n : 15;
const l = Math.trunc(n / 2);
for (let s = 0; s < a; s++) {
const a = Math.trunc((s + 1) / 2), h = l + o * (0 == (1 & s) ? a : -a);
if (h < 0 || h >= n) break;
try {
i = t.getBlackRow(h, i)
} catch (t) {
continue
}
for (let t = 0; t < 2; t++) {
if (1 === t && (i.reverse(), e && !0 === e.get(C.NEED_RESULT_POINT_CALLBACK))) {
const t = new Map;
e.forEach(((e, r) => t.set(r, e))), t.delete(C.NEED_RESULT_POINT_CALLBACK), e = t
}
try {
const n = this.decodeRow(h, i, e);
if (1 === t) {
n.putMetadata(W.ORIENTATION, 180);
const t = n.getResultPoints();
null !== t && (t[0] = new rt(r - t[0].getX() - 1, t[0].getY()), t[1] = new rt(r - t[1].getX() - 1, t[1].getY()))
}
return n
} catch (t) {
}
}
}
throw new R
}
static recordPattern(t, e, r) {
const n = r.length;
for (let t = 0; t < n; t++) r[t] = 0;
const i = t.getSize();
if (e >= i) throw new R;
let s = !t.get(e), o = 0, a = e;
for (; a < i;) {
if (t.get(a) !== s) r[o]++; else {
if (++o === n) break;
r[o] = 1, s = !s
}
a++
}
if (o !== n && (o !== n - 1 || a !== i)) throw new R
}
static recordPatternInReverse(t, e, r) {
let n = r.length, i = t.get(e);
for (; e > 0 && n >= 0;) t.get(--e) !== i && (n--, i = !i);
if (n >= 0) throw new R;
gt.recordPattern(t, e + 1, r)
}
static patternMatchVariance(t, e, r) {
const n = t.length;
let i = 0, s = 0;
for (let r = 0; r < n; r++) i += t[r], s += e[r];
if (i < s) return Number.POSITIVE_INFINITY;
const o = i / s;
r *= o;
let a = 0;
for (let i = 0; i < n; i++) {
const n = t[i], s = e[i] * o, l = n > s ? n - s : s - n;
if (l > r) return Number.POSITIVE_INFINITY;
a += l
}
return a / i
}
}
class ft extends gt {
static findStartPattern(t) {
const e = t.getSize(), r = t.getNextSet(0);
let n = 0, i = Int32Array.from([0, 0, 0, 0, 0, 0]), s = r, o = !1;
for (let a = r; a < e; a++) if (t.get(a) !== o) i[n]++; else {
if (5 === n) {
let e = ft.MAX_AVG_VARIANCE, r = -1;
for (let t = ft.CODE_START_A; t <= ft.CODE_START_C; t++) {
const n = gt.patternMatchVariance(i, ft.CODE_PATTERNS[t], ft.MAX_INDIVIDUAL_VARIANCE);
n < e && (e = n, r = t)
}
if (r >= 0 && t.isRange(Math.max(0, s - (a - s) / 2), s, !1)) return Int32Array.from([s, a, r]);
s += i[0] + i[1], i = i.slice(2, i.length - 1), i[n - 1] = 0, i[n] = 0, n--
} else n++;
i[n] = 1, o = !o
}
throw new R
}
static decodeCode(t, e, r) {
gt.recordPattern(t, r, e);
let n = ft.MAX_AVG_VARIANCE, i = -1;
for (let t = 0; t < ft.CODE_PATTERNS.length; t++) {
const r = ft.CODE_PATTERNS[t], s = this.patternMatchVariance(e, r, ft.MAX_INDIVIDUAL_VARIANCE);
s < n && (n = s, i = t)
}
if (i >= 0) return i;
throw new R
}
decodeRow(t, e, r) {
const n = r && !0 === r.get(C.ASSUME_GS1), i = ft.findStartPattern(e), s = i[2];
let o = 0;
const a = new Uint8Array(20);
let h;
switch (a[o++] = s, s) {
case ft.CODE_START_A:
h = ft.CODE_CODE_A;
break;
case ft.CODE_START_B:
h = ft.CODE_CODE_B;
break;
case ft.CODE_START_C:
h = ft.CODE_CODE_C;
break;
default:
throw new E
}
let c = !1, u = !1, d = "", g = i[0], f = i[1];
const w = Int32Array.from([0, 0, 0, 0, 0, 0]);
let A = 0, m = 0, _ = s, I = 0, S = !0, p = !1, T = !1;
for (; !c;) {
const t = u;
switch (u = !1, A = m, m = ft.decodeCode(e, w, f), a[o++] = m, m !== ft.CODE_STOP && (S = !0), m !== ft.CODE_STOP && (I++, _ += I * m), g = f, f += w.reduce(((t, e) => t + e), 0), m) {
case ft.CODE_START_A:
case ft.CODE_START_B:
case ft.CODE_START_C:
throw new E
}
switch (h) {
case ft.CODE_CODE_A:
if (m < 64) d += T === p ? String.fromCharCode(" ".charCodeAt(0) + m) : String.fromCharCode(" ".charCodeAt(0) + m + 128), T = !1; else if (m < 96) d += T === p ? String.fromCharCode(m - 64) : String.fromCharCode(m + 64), T = !1; else switch (m !== ft.CODE_STOP && (S = !1), m) {
case ft.CODE_FNC_1:
n && (0 === d.length ? d += "]C1" : d += String.fromCharCode(29));
break;
case ft.CODE_FNC_2:
case ft.CODE_FNC_3:
break;
case ft.CODE_FNC_4_A:
!p && T ? (p = !0, T = !1) : p && T ? (p = !1, T = !1) : T = !0;
break;
case ft.CODE_SHIFT:
u = !0, h = ft.CODE_CODE_B;
break;
case ft.CODE_CODE_B:
h = ft.CODE_CODE_B;
break;
case ft.CODE_CODE_C:
h = ft.CODE_CODE_C;
break;
case ft.CODE_STOP:
c = !0
}
break;
case ft.CODE_CODE_B:
if (m < 96) d += T === p ? String.fromCharCode(" ".charCodeAt(0) + m) : String.fromCharCode(" ".charCodeAt(0) + m + 128), T = !1; else switch (m !== ft.CODE_STOP && (S = !1), m) {
case ft.CODE_FNC_1:
n && (0 === d.length ? d += "]C1" : d += String.fromCharCode(29));
break;
case ft.CODE_FNC_2:
case ft.CODE_FNC_3:
break;
case ft.CODE_FNC_4_B:
!p && T ? (p = !0, T = !1) : p && T ? (p = !1, T = !1) : T = !0;
break;
case ft.CODE_SHIFT:
u = !0, h = ft.CODE_CODE_A;
break;
case ft.CODE_CODE_A:
h = ft.CODE_CODE_A;
break;
case ft.CODE_CODE_C:
h = ft.CODE_CODE_C;
break;
case ft.CODE_STOP:
c = !0
}
break;
case ft.CODE_CODE_C:
if (m < 100) m < 10 && (d += "0"), d += m; else switch (m !== ft.CODE_STOP && (S = !1), m) {
case ft.CODE_FNC_1:
n && (0 === d.length ? d += "]C1" : d += String.fromCharCode(29));
break;
case ft.CODE_CODE_A:
h = ft.CODE_CODE_A;
break;
case ft.CODE_CODE_B:
h = ft.CODE_CODE_B;
break;
case ft.CODE_STOP:
c = !0
}
}
t && (h = h === ft.CODE_CODE_A ? ft.CODE_CODE_B : ft.CODE_CODE_A)
}
const N = f - g;
if (f = e.getNextUnset(f), !e.isRange(f, Math.min(e.getSize(), f + (f - g) / 2), !1)) throw new R;
if (_ -= I * A, _ % 103 !== A) throw new l;
const D = d.length;
if (0 === D) throw new R;
D > 0 && S && (d = h === ft.CODE_CODE_C ? d.substring(0, D - 2) : d.substring(0, D - 1));
const y = (i[1] + i[0]) / 2, O = g + N / 2, M = a.length, B = new Uint8Array(M);
for (let t = 0; t < M; t++) B[t] = a[t];
const b = [new rt(y, t), new rt(O, t)];
return new F(d, B, 0, b, v.CODE_128, (new Date).getTime())
}
}
ft.CODE_PATTERNS = [Int32Array.from([2, 1, 2, 2, 2, 2]), Int32Array.from([2, 2, 2, 1, 2, 2]), Int32Array.from([2, 2, 2, 2, 2, 1]), Int32Array.from([1, 2, 1, 2, 2, 3]), Int32Array.from([1, 2, 1, 3, 2, 2]), Int32Array.from([1, 3, 1, 2, 2, 2]), Int32Array.from([1, 2, 2, 2, 1, 3]), Int32Array.from([1, 2, 2, 3, 1, 2]), Int32Array.from([1, 3, 2, 2, 1, 2]), Int32Array.from([2, 2, 1, 2, 1, 3]), Int32Array.from([2, 2, 1, 3, 1, 2]), Int32Array.from([2, 3, 1, 2, 1, 2]), Int32Array.from([1, 1, 2, 2, 3, 2]), Int32Array.from([1, 2, 2, 1, 3, 2]), Int32Array.from([1, 2, 2, 2, 3, 1]), Int32Array.from([1, 1, 3, 2, 2, 2]), Int32Array.from([1, 2, 3, 1, 2, 2]), Int32Array.from([1, 2, 3, 2, 2, 1]), Int32Array.from([2, 2, 3, 2, 1, 1]), Int32Array.from([2, 2, 1, 1, 3, 2]), Int32Array.from([2, 2, 1, 2, 3, 1]), Int32Array.from([2, 1, 3, 2, 1, 2]), Int32Array.from([2, 2, 3, 1, 1, 2]), Int32Array.from([3, 1, 2, 1, 3, 1]), Int32Array.from([3, 1, 1, 2, 2, 2]), Int32Array.from([3, 2, 1, 1, 2, 2]), Int32Array.from([3, 2, 1, 2, 2, 1]), Int32Array.from([3, 1, 2, 2, 1, 2]), Int32Array.from([3, 2, 2, 1, 1, 2]), Int32Array.from([3, 2, 2, 2, 1, 1]), Int32Array.from([2, 1, 2, 1, 2, 3]), Int32Array.from([2, 1, 2, 3, 2, 1]), Int32Array.from([2, 3, 2, 1, 2, 1]), Int32Array.from([1, 1, 1, 3, 2, 3]), Int32Array.from([1, 3, 1, 1, 2, 3]), Int32Array.from([1, 3, 1, 3, 2, 1]), Int32Array.from([1, 1, 2, 3, 1, 3]), Int32Array.from([1, 3, 2, 1, 1, 3]), Int32Array.from([1, 3, 2, 3, 1, 1]), Int32Array.from([2, 1, 1, 3, 1, 3]), Int32Array.from([2, 3, 1, 1, 1, 3]), Int32Array.from([2, 3, 1, 3, 1, 1]), Int32Array.from([1, 1, 2, 1, 3, 3]), Int32Array.from([1, 1, 2, 3, 3, 1]), Int32Array.from([1, 3, 2, 1, 3, 1]), Int32Array.from([1, 1, 3, 1, 2, 3]), Int32Array.from([1, 1, 3, 3, 2, 1]), Int32Array.from([1, 3, 3, 1, 2, 1]), Int32Array.from([3, 1, 3, 1, 2, 1]), Int32Array.from([2, 1, 1, 3, 3, 1]), Int32Array.from([2, 3, 1, 1, 3, 1]), Int32Array.from([2, 1, 3, 1, 1, 3]), Int32Array.from([2, 1, 3, 3, 1, 1]), Int32Array.from([2, 1, 3, 1, 3, 1]), Int32Array.from([3, 1, 1, 1, 2, 3]), Int32Array.from([3, 1, 1, 3, 2, 1]), Int32Array.from([3, 3, 1, 1, 2, 1]), Int32Array.from([3, 1, 2, 1, 1, 3]), Int32Array.from([3, 1, 2, 3, 1, 1]), Int32Array.from([3, 3, 2, 1, 1, 1]), Int32Array.from([3, 1, 4, 1, 1, 1]), Int32Array.from([2, 2, 1, 4, 1, 1]), Int32Array.from([4, 3, 1, 1, 1, 1]), Int32Array.from([1, 1, 1, 2, 2, 4]), Int32Array.from([1, 1, 1, 4, 2, 2]), Int32Array.from([1, 2, 1, 1, 2, 4]), Int32Array.from([1, 2, 1, 4, 2, 1]), Int32Array.from([1, 4, 1, 1, 2, 2]), Int32Array.from([1, 4, 1, 2, 2, 1]), Int32Array.from([1, 1, 2, 2, 1, 4]), Int32Array.from([1, 1, 2, 4, 1, 2]), Int32Array.from([1, 2, 2, 1, 1, 4]), Int32Array.from([1, 2, 2, 4, 1, 1]), Int32Array.from([1, 4, 2, 1, 1, 2]), Int32Array.from([1, 4, 2, 2, 1, 1]), Int32Array.from([2, 4, 1, 2, 1, 1]), Int32Array.from([2, 2, 1, 1, 1, 4]), Int32Array.from([4, 1, 3, 1, 1, 1]), Int32Array.from([2, 4, 1, 1, 1, 2]), Int32Array.from([1, 3, 4, 1, 1, 1]), Int32Array.from([1, 1, 1, 2, 4, 2]), Int32Array.from([1, 2, 1, 1, 4, 2]), Int32Array.from([1, 2, 1, 2, 4, 1]), Int32Array.from([1, 1, 4, 2, 1, 2]), Int32Array.from([1, 2, 4, 1, 1, 2]), Int32Array.from([1, 2, 4, 2, 1, 1]), Int32Array.from([4, 1, 1, 2, 1, 2]), Int32Array.from([4, 2, 1, 1, 1, 2]), Int32Array.from([4, 2, 1, 2, 1, 1]), Int32Array.from([2, 1, 2, 1, 4, 1]), Int32Array.from([2, 1, 4, 1, 2, 1]), Int32Array.from([4, 1, 2, 1, 2, 1]), Int32Array.from([1, 1, 1, 1, 4, 3]), Int32Array.from([1, 1, 1, 3, 4, 1]), Int32Array.from([1, 3, 1, 1, 4, 1]), Int32Array.from([1, 1, 4, 1, 1, 3]), Int32Array.from([1, 1, 4, 3, 1, 1]), Int32Array.from([4, 1, 1, 1, 1, 3]), Int32Array.from([4, 1, 1, 3, 1, 1]), Int32Array.from([1, 1, 3, 1, 4, 1]), Int32Array.from([1, 1, 4, 1, 3, 1]), Int32Array.from([3, 1, 1, 1, 4, 1]), Int32Array.from([4, 1, 1, 1, 3, 1]), Int32Array.from([2, 1, 1, 4, 1, 2]), Int32Array.from([2, 1, 1, 2, 1, 4]), Int32Array.from([2, 1, 1, 2, 3, 2]), Int32Array.from([2, 3, 3, 1, 1, 1, 2])], ft.MAX_AVG_VARIANCE = .25, ft.MAX_INDIVIDUAL_VARIANCE = .7, ft.CODE_SHIFT = 98, ft.CODE_CODE_C = 99, ft.CODE_CODE_B = 100, ft.CODE_CODE_A = 101, ft.CODE_FNC_1 = 102, ft.CODE_FNC_2 = 97, ft.CODE_FNC_3 = 96, ft.CODE_FNC_4_A = 101, ft.CODE_FNC_4_B = 100, ft.CODE_START_A = 103, ft.CODE_START_B = 104, ft.CODE_START_C = 105, ft.CODE_STOP = 106;
class wt extends gt {
constructor(t = !1, e = !1) {
super(), this.usingCheckDigit = t, this.extendedMode = e, this.decodeRowResult = "", this.counters = new Int32Array(9)
}
decodeRow(t, e, r) {
let n = this.counters;
n.fill(0), this.decodeRowResult = "";
let i, s, o = wt.findAsteriskPattern(e, n), a = e.getNextSet(o[1]), h = e.getSize();
do {
wt.recordPattern(e, a, n);
let t = wt.toNarrowWidePattern(n);
if (t < 0) throw new R;
i = wt.patternToChar(t), this.decodeRowResult += i, s = a;
for (let t of n) a += t;
a = e.getNextSet(a)
} while ("*" !== i);
this.decodeRowResult = this.decodeRowResult.substring(0, this.decodeRowResult.length - 1);
let c, u = 0;
for (let t of n) u += t;
if (a !== h && 2 * (a - s - u) < u) throw new R;
if (this.usingCheckDigit) {
let t = this.decodeRowResult.length - 1, e = 0;
for (let r = 0; r < t; r++) e += wt.ALPHABET_STRING.indexOf(this.decodeRowResult.charAt(r));
if (this.decodeRowResult.charAt(t) !== wt.ALPHABET_STRING.charAt(e % 43)) throw new l;
this.decodeRowResult = this.decodeRowResult.substring(0, t)
}
if (0 === this.decodeRowResult.length) throw new R;
c = this.extendedMode ? wt.decodeExtended(this.decodeRowResult) : this.decodeRowResult;
let d = (o[1] + o[0]) / 2, g = s + u / 2;
return new F(c, null, 0, [new rt(d, t), new rt(g, t)], v.CODE_39, (new Date).getTime())
}
static findAsteriskPattern(t, e) {
let r = t.getSize(), n = t.getNextSet(0), i = 0, s = n, o = !1, a = e.length;
for (let l = n; l < r; l++) if (t.get(l) !== o) e[i]++; else {
if (i === a - 1) {
if (this.toNarrowWidePattern(e) === wt.ASTERISK_ENCODING && t.isRange(Math.max(0, s - Math.floor((l - s) / 2)), s, !1)) return [s, l];
s += e[0] + e[1], e.copyWithin(0, 2, 2 + i - 1), e[i - 1] = 0, e[i] = 0, i--
} else i++;
e[i] = 1, o = !o
}
throw new R
}
static toNarrowWidePattern(t) {
let e, r = t.length, n = 0;
do {
let i = 2147483647;
for (let e of t) e < i && e > n && (i = e);
n = i, e = 0;
let s = 0, o = 0;
for (let i = 0; i < r; i++) {
let a = t[i];
a > n && (o |= 1 << r - 1 - i, e++, s += a)
}
if (3 === e) {
for (let i = 0; i < r && e > 0; i++) {
let r = t[i];
if (r > n && (e--, 2 * r >= s)) return -1
}
return o
}
} while (e > 3);
return -1
}
static patternToChar(t) {
for (let e = 0; e < wt.CHARACTER_ENCODINGS.length; e++) if (wt.CHARACTER_ENCODINGS[e] === t) return wt.ALPHABET_STRING.charAt(e);
if (t === wt.ASTERISK_ENCODING) return "*";
throw new R
}
static decodeExtended(t) {
let e = t.length, r = "";
for (let n = 0; n < e; n++) {
let e = t.charAt(n);
if ("+" === e || "$" === e || "%" === e || "/" === e) {
let i = t.charAt(n + 1), s = "\0";
switch (e) {
case"+":
if (!(i >= "A" && i <= "Z")) throw new E;
s = String.fromCharCode(i.charCodeAt(0) + 32);
break;
case"$":
if (!(i >= "A" && i <= "Z")) throw new E;
s = String.fromCharCode(i.charCodeAt(0) - 64);
break;
case"%":
if (i >= "A" && i <= "E") s = String.fromCharCode(i.charCodeAt(0) - 38); else if (i >= "F" && i <= "J") s = String.fromCharCode(i.charCodeAt(0) - 11); else if (i >= "K" && i <= "O") s = String.fromCharCode(i.charCodeAt(0) + 16); else if (i >= "P" && i <= "T") s = String.fromCharCode(i.charCodeAt(0) + 43); else if ("U" === i) s = "\0"; else if ("V" === i) s = "@"; else if ("W" === i) s = "`"; else {
if ("X" !== i && "Y" !== i && "Z" !== i) throw new E;
s = ""
}
break;
case"/":
if (i >= "A" && i <= "O") s = String.fromCharCode(i.charCodeAt(0) - 32); else {
if ("Z" !== i) throw new E;
s = ":"
}
}
r += s, n++
} else r += e
}
return r
}
}
wt.ALPHABET_STRING = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ-. $/+%", wt.CHARACTER_ENCODINGS = [52, 289, 97, 352, 49, 304, 112, 37, 292, 100, 265, 73, 328, 25, 280, 88, 13, 268, 76, 28, 259, 67, 322, 19, 274, 82, 7, 262, 70, 22, 385, 193, 448, 145, 400, 208, 133, 388, 196, 168, 162, 138, 42], wt.ASTERISK_ENCODING = 148;
class At extends gt {
constructor() {
super(...arguments), this.narrowLineWidth = -1
}
decodeRow(t, e, r) {
let n = this.decodeStart(e), i = this.decodeEnd(e), s = new p;
At.decodeMiddle(e, n[1], i[0], s);
let o = s.toString(), a = null;
null != r && (a = r.get(C.ALLOWED_LENGTHS)), null == a && (a = At.DEFAULT_ALLOWED_LENGTHS);
let l = o.length, h = !1, c = 0;
for (let t of a) {
if (l === t) {
h = !0;
break
}
t > c && (c = t)
}
if (!h && l > c && (h = !0), !h) throw new E;
const u = [new rt(n[1], t), new rt(i[0], t)];
return new F(o, null, 0, u, v.ITF, (new Date).getTime())
}
static decodeMiddle(t, e, r, n) {
let i = new Int32Array(10), s = new Int32Array(5), o = new Int32Array(5);
for (i.fill(0), s.fill(0), o.fill(0); e < r;) {
gt.recordPattern(t, e, i);
for (let t = 0; t < 5; t++) {
let e = 2 * t;
s[t] = i[e], o[t] = i[e + 1]
}
let r = At.decodeDigit(s);
n.append(r.toString()), r = this.decodeDigit(o), n.append(r.toString()), i.forEach((function (t) {
e += t
}))
}
}
decodeStart(t) {
let e = At.skipWhiteSpace(t), r = At.findGuardPattern(t, e, At.START_PATTERN);
return this.narrowLineWidth = (r[1] - r[0]) / 4, this.validateQuietZone(t, r[0]), r
}
validateQuietZone(t, e) {
let r = 10 * this.narrowLineWidth;
r = r < e ? r : e;
for (let n = e - 1; r > 0 && n >= 0 && !t.get(n); n--) r--;
if (0 !== r) throw new R
}
static skipWhiteSpace(t) {
const e = t.getSize(), r = t.getNextSet(0);
if (r === e) throw new R;
return r
}
decodeEnd(t) {
t.reverse();
try {
let e, r = At.skipWhiteSpace(t);
try {
e = At.findGuardPattern(t, r, At.END_PATTERN_REVERSED[0])
} catch (n) {
n instanceof R && (e = At.findGuardPattern(t, r, At.END_PATTERN_REVERSED[1]))
}
this.validateQuietZone(t, e[0]);
let n = e[0];
return e[0] = t.getSize() - e[1], e[1] = t.getSize() - n, e
} finally {
t.reverse()
}
}
static findGuardPattern(t, e, r) {
let n = r.length, i = new Int32Array(n), s = t.getSize(), o = !1, a = 0, l = e;
i.fill(0);
for (let h = e; h < s; h++) if (t.get(h) !== o) i[a]++; else {
if (a === n - 1) {
if (gt.patternMatchVariance(i, r, At.MAX_INDIVIDUAL_VARIANCE) < At.MAX_AVG_VARIANCE) return [l, h];
l += i[0] + i[1], c.arraycopy(i, 2, i, 0, a - 1), i[a - 1] = 0, i[a] = 0, a--
} else a++;
i[a] = 1, o = !o
}
throw new R
}
static decodeDigit(t) {
let e = At.MAX_AVG_VARIANCE, r = -1, n = At.PATTERNS.length;
for (let i = 0; i < n; i++) {
let n = At.PATTERNS[i], s = gt.patternMatchVariance(t, n, At.MAX_INDIVIDUAL_VARIANCE);
s < e ? (e = s, r = i) : s === e && (r = -1)
}
if (r >= 0) return r % 10;
throw new R
}
}
At.PATTERNS = [Int32Array.from([1, 1, 2, 2, 1]), Int32Array.from([2, 1, 1, 1, 2]), Int32Array.from([1, 2, 1, 1, 2]), Int32Array.from([2, 2, 1, 1, 1]), Int32Array.from([1, 1, 2, 1, 2]), Int32Array.from([2, 1, 2, 1, 1]), Int32Array.from([1, 2, 2, 1, 1]), Int32Array.from([1, 1, 1, 2, 2]), Int32Array.from([2, 1, 1, 2, 1]), Int32Array.from([1, 2, 1, 2, 1]), Int32Array.from([1, 1, 3, 3, 1]), Int32Array.from([3, 1, 1, 1, 3]), Int32Array.from([1, 3, 1, 1, 3]), Int32Array.from([3, 3, 1, 1, 1]), Int32Array.from([1, 1, 3, 1, 3]), Int32Array.from([3, 1, 3, 1, 1]), Int32Array.from([1, 3, 3, 1, 1]), Int32Array.from([1, 1, 1, 3, 3]), Int32Array.from([3, 1, 1, 3, 1]), Int32Array.from([1, 3, 1, 3, 1])], At.MAX_AVG_VARIANCE = .38, At.MAX_INDIVIDUAL_VARIANCE = .5, At.DEFAULT_ALLOWED_LENGTHS = [6, 8, 10, 12, 14], At.START_PATTERN = Int32Array.from([1, 1, 1, 1]), At.END_PATTERN_REVERSED = [Int32Array.from([1, 1, 2]), Int32Array.from([1, 1, 3])];
class Ct extends gt {
constructor() {
super(...arguments), this.decodeRowStringBuffer = ""
}
static findStartGuardPattern(t) {
let e, r = !1, n = 0, i = Int32Array.from([0, 0, 0]);
for (; !r;) {
i = Int32Array.from([0, 0, 0]), e = Ct.findGuardPattern(t, n, !1, this.START_END_PATTERN, i);
let s = e[0];
n = e[1];
let o = s - (n - s);
o >= 0 && (r = t.isRange(o, s, !1))
}
return e
}
static checkChecksum(t) {
return Ct.checkStandardUPCEANChecksum(t)
}
static checkStandardUPCEANChecksum(t) {
let e = t.length;
if (0 === e) return !1;
let r = parseInt(t.charAt(e - 1), 10);
return Ct.getStandardUPCEANChecksum(t.substring(0, e - 1)) === r
}
static getStandardUPCEANChecksum(t) {
let e = t.length, r = 0;
for (let n = e - 1; n >= 0; n -= 2) {
let e = t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
if (e < 0 || e > 9) throw new E;
r += e
}
r *= 3;
for (let n = e - 2; n >= 0; n -= 2) {
let e = t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
if (e < 0 || e > 9) throw new E;
r += e
}
return (1e3 - r) % 10
}
static decodeEnd(t, e) {
return Ct.findGuardPattern(t, e, !1, Ct.START_END_PATTERN, new Int32Array(Ct.START_END_PATTERN.length).fill(0))
}
static findGuardPatternWithoutCounters(t, e, r, n) {
return this.findGuardPattern(t, e, r, n, new Int32Array(n.length))
}
static findGuardPattern(t, e, r, n, i) {
let s = t.getSize(), o = 0, a = e = r ? t.getNextUnset(e) : t.getNextSet(e), l = n.length, h = r;
for (let r = e; r < s; r++) if (t.get(r) !== h) i[o]++; else {
if (o === l - 1) {
if (gt.patternMatchVariance(i, n, Ct.MAX_INDIVIDUAL_VARIANCE) < Ct.MAX_AVG_VARIANCE) return Int32Array.from([a, r]);
a += i[0] + i[1];
let t = i.slice(2, i.length - 1);
for (let e = 0; e < o - 1; e++) i[e] = t[e];
i[o - 1] = 0, i[o] = 0, o--
} else o++;
i[o] = 1, h = !h
}
throw new R
}
static decodeDigit(t, e, r, n) {
this.recordPattern(t, r, e);
let i = this.MAX_AVG_VARIANCE, s = -1, o = n.length;
for (let t = 0; t < o; t++) {
let r = n[t], o = gt.patternMatchVariance(e, r, Ct.MAX_INDIVIDUAL_VARIANCE);
o < i && (i = o, s = t)
}
if (s >= 0) return s;
throw new R
}
}
Ct.MAX_AVG_VARIANCE = .48, Ct.MAX_INDIVIDUAL_VARIANCE = .7, Ct.START_END_PATTERN = Int32Array.from([1, 1, 1]), Ct.MIDDLE_PATTERN = Int32Array.from([1, 1, 1, 1, 1]), Ct.END_PATTERN = Int32Array.from([1, 1, 1, 1, 1, 1]), Ct.L_PATTERNS = [Int32Array.from([3, 2, 1, 1]), Int32Array.from([2, 2, 2, 1]), Int32Array.from([2, 1, 2, 2]), Int32Array.from([1, 4, 1, 1]), Int32Array.from([1, 1, 3, 2]), Int32Array.from([1, 2, 3, 1]), Int32Array.from([1, 1, 1, 4]), Int32Array.from([1, 3, 1, 2]), Int32Array.from([1, 2, 1, 3]), Int32Array.from([3, 1, 1, 2])];
class Et {
constructor() {
this.CHECK_DIGIT_ENCODINGS = [24, 20, 18, 17, 12, 6, 3, 10, 9, 5], this.decodeMiddleCounters = Int32Array.from([0, 0, 0, 0]), this.decodeRowStringBuffer = ""
}
decodeRow(t, e, r) {
let n = this.decodeRowStringBuffer, i = this.decodeMiddle(e, r, n), s = n.toString(),
o = Et.parseExtensionString(s), a = [new rt((r[0] + r[1]) / 2, t), new rt(i, t)],
l = new F(s, null, 0, a, v.UPC_EAN_EXTENSION, (new Date).getTime());
return null != o && l.putAllMetadata(o), l
}
decodeMiddle(t, e, r) {
let n = this.decodeMiddleCounters;
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
let i = t.getSize(), s = e[1], o = 0;
for (let e = 0; e < 5 && s < i; e++) {
let i = Ct.decodeDigit(t, n, s, Ct.L_AND_G_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + i % 10);
for (let t of n) s += t;
i >= 10 && (o |= 1 << 4 - e), 4 !== e && (s = t.getNextSet(s), s = t.getNextUnset(s))
}
if (5 !== r.length) throw new R;
let a = this.determineCheckDigit(o);
if (Et.extensionChecksum(r.toString()) !== a) throw new R;
return s
}
static extensionChecksum(t) {
let e = t.length, r = 0;
for (let n = e - 2; n >= 0; n -= 2) r += t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
r *= 3;
for (let n = e - 1; n >= 0; n -= 2) r += t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
return r *= 3, r % 10
}
determineCheckDigit(t) {
for (let e = 0; e < 10; e++) if (t === this.CHECK_DIGIT_ENCODINGS[e]) return e;
throw new R
}
static parseExtensionString(t) {
if (5 !== t.length) return null;
let e = Et.parseExtension5String(t);
return null == e ? null : new Map([[W.SUGGESTED_PRICE, e]])
}
static parseExtension5String(t) {
let e;
switch (t.charAt(0)) {
case"0":
e = "拢";
break;
case"5":
e = "$";
break;
case"9":
switch (t) {
case"90000":
return null;
case"99991":
return "0.00";
case"99990":
return "Used"
}
e = "";
break;
default:
e = ""
}
let r = parseInt(t.substring(1)), n = r % 100;
return e + (r / 100).toString() + "." + (n < 10 ? "0" + n : n.toString())
}
}
class mt {
constructor() {
this.decodeMiddleCounters = Int32Array.from([0, 0, 0, 0]), this.decodeRowStringBuffer = ""
}
decodeRow(t, e, r) {
let n = this.decodeRowStringBuffer, i = this.decodeMiddle(e, r, n), s = n.toString(),
o = mt.parseExtensionString(s), a = [new rt((r[0] + r[1]) / 2, t), new rt(i, t)],
l = new F(s, null, 0, a, v.UPC_EAN_EXTENSION, (new Date).getTime());
return null != o && l.putAllMetadata(o), l
}
decodeMiddle(t, e, r) {
let n = this.decodeMiddleCounters;
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
let i = t.getSize(), s = e[1], o = 0;
for (let e = 0; e < 2 && s < i; e++) {
let i = Ct.decodeDigit(t, n, s, Ct.L_AND_G_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + i % 10);
for (let t of n) s += t;
i >= 10 && (o |= 1 << 1 - e), 1 !== e && (s = t.getNextSet(s), s = t.getNextUnset(s))
}
if (2 !== r.length) throw new R;
if (parseInt(r.toString()) % 4 !== o) throw new R;
return s
}
static parseExtensionString(t) {
return 2 !== t.length ? null : new Map([[W.ISSUE_NUMBER, parseInt(t)]])
}
}
class _t {
static decodeRow(t, e, r) {
let n = Ct.findGuardPattern(e, r, !1, this.EXTENSION_START_PATTERN, new Int32Array(this.EXTENSION_START_PATTERN.length).fill(0));
try {
return (new Et).decodeRow(t, e, n)
} catch (r) {
return (new mt).decodeRow(t, e, n)
}
}
}
_t.EXTENSION_START_PATTERN = Int32Array.from([1, 1, 2]);
class It extends Ct {
constructor() {
super(), this.decodeRowStringBuffer = "", It.L_AND_G_PATTERNS = It.L_PATTERNS.map((t => Int32Array.from(t)));
for (let t = 10; t < 20; t++) {
let e = It.L_PATTERNS[t - 10], r = new Int32Array(e.length);
for (let t = 0; t < e.length; t++) r[t] = e[e.length - t - 1];
It.L_AND_G_PATTERNS[t] = r
}
}
decodeRow(t, e, r) {
let n = It.findStartGuardPattern(e), i = null == r ? null : r.get(C.NEED_RESULT_POINT_CALLBACK);
if (null != i) {
const e = new rt((n[0] + n[1]) / 2, t);
i.foundPossibleResultPoint(e)
}
let s = this.decodeMiddle(e, n, this.decodeRowStringBuffer), o = s.rowOffset, a = s.resultString;
if (null != i) {
const e = new rt(o, t);
i.foundPossibleResultPoint(e)
}
let h = It.decodeEnd(e, o);
if (null != i) {
const e = new rt((h[0] + h[1]) / 2, t);
i.foundPossibleResultPoint(e)
}
let c = h[1], u = c + (c - h[0]);
if (u >= e.getSize() || !e.isRange(c, u, !1)) throw new R;
let d = a.toString();
if (d.length < 8) throw new E;
if (!It.checkChecksum(d)) throw new l;
let g = (n[1] + n[0]) / 2, f = (h[1] + h[0]) / 2, w = this.getBarcodeFormat(), A = [new rt(g, t), new rt(f, t)],
m = new F(d, null, 0, A, w, (new Date).getTime()), _ = 0;
try {
let r = _t.decodeRow(t, e, h[1]);
m.putMetadata(W.UPC_EAN_EXTENSION, r.getText()), m.putAllMetadata(r.getResultMetadata()), m.addResultPoints(r.getResultPoints()), _ = r.getText().length
} catch (t) {
}
let I = null == r ? null : r.get(C.ALLOWED_EAN_EXTENSIONS);
if (null != I) {
let t = !1;
for (let e in I) if (_.toString() === e) {
t = !0;
break
}
if (!t) throw new R
}
return w === v.EAN_13 || v.UPC_A, m
}
static checkChecksum(t) {
return It.checkStandardUPCEANChecksum(t)
}
static checkStandardUPCEANChecksum(t) {
let e = t.length;
if (0 === e) return !1;
let r = parseInt(t.charAt(e - 1), 10);
return It.getStandardUPCEANChecksum(t.substring(0, e - 1)) === r
}
static getStandardUPCEANChecksum(t) {
let e = t.length, r = 0;
for (let n = e - 1; n >= 0; n -= 2) {
let e = t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
if (e < 0 || e > 9) throw new E;
r += e
}
r *= 3;
for (let n = e - 2; n >= 0; n -= 2) {
let e = t.charAt(n).charCodeAt(0) - "0".charCodeAt(0);
if (e < 0 || e > 9) throw new E;
r += e
}
return (1e3 - r) % 10
}
static decodeEnd(t, e) {
return It.findGuardPattern(t, e, !1, It.START_END_PATTERN, new Int32Array(It.START_END_PATTERN.length).fill(0))
}
}
class St extends It {
constructor() {
super(), this.decodeMiddleCounters = Int32Array.from([0, 0, 0, 0])
}
decodeMiddle(t, e, r) {
let n = this.decodeMiddleCounters;
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
let i = t.getSize(), s = e[1], o = 0;
for (let e = 0; e < 6 && s < i; e++) {
let i = It.decodeDigit(t, n, s, It.L_AND_G_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + i % 10);
for (let t of n) s += t;
i >= 10 && (o |= 1 << 5 - e)
}
r = St.determineFirstDigit(r, o), s = It.findGuardPattern(t, s, !0, It.MIDDLE_PATTERN, new Int32Array(It.MIDDLE_PATTERN.length).fill(0))[1];
for (let e = 0; e < 6 && s < i; e++) {
let e = It.decodeDigit(t, n, s, It.L_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + e);
for (let t of n) s += t
}
return {rowOffset: s, resultString: r}
}
getBarcodeFormat() {
return v.EAN_13
}
static determineFirstDigit(t, e) {
for (let r = 0; r < 10; r++) if (e === this.FIRST_DIGIT_ENCODINGS[r]) return t = String.fromCharCode("0".charCodeAt(0) + r) + t;
throw new R
}
}
St.FIRST_DIGIT_ENCODINGS = [0, 11, 13, 14, 19, 25, 28, 21, 22, 26];
class pt extends It {
constructor() {
super(), this.decodeMiddleCounters = Int32Array.from([0, 0, 0, 0])
}
decodeMiddle(t, e, r) {
const n = this.decodeMiddleCounters;
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
let i = t.getSize(), s = e[1];
for (let e = 0; e < 4 && s < i; e++) {
let e = It.decodeDigit(t, n, s, It.L_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + e);
for (let t of n) s += t
}
s = It.findGuardPattern(t, s, !0, It.MIDDLE_PATTERN, new Int32Array(It.MIDDLE_PATTERN.length).fill(0))[1];
for (let e = 0; e < 4 && s < i; e++) {
let e = It.decodeDigit(t, n, s, It.L_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + e);
for (let t of n) s += t
}
return {rowOffset: s, resultString: r}
}
getBarcodeFormat() {
return v.EAN_8
}
}
class Tt extends It {
constructor() {
super(...arguments), this.ean13Reader = new St
}
getBarcodeFormat() {
return v.UPC_A
}
decode(t, e) {
return this.maybeReturnResult(this.ean13Reader.decode(t))
}
decodeRow(t, e, r) {
return this.maybeReturnResult(this.ean13Reader.decodeRow(t, e, r))
}
decodeMiddle(t, e, r) {
return this.ean13Reader.decodeMiddle(t, e, r)
}
maybeReturnResult(t) {
let e = t.getText();
if ("0" === e.charAt(0)) {
let r = new F(e.substring(1), null, null, t.getResultPoints(), v.UPC_A);
return null != t.getResultMetadata() && r.putAllMetadata(t.getResultMetadata()), r
}
throw new R
}
reset() {
this.ean13Reader.reset()
}
}
class Rt extends It {
constructor() {
super(), this.decodeMiddleCounters = new Int32Array(4)
}
decodeMiddle(t, e, r) {
const n = this.decodeMiddleCounters.map((t => t));
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
const i = t.getSize();
let s = e[1], o = 0;
for (let e = 0; e < 6 && s < i; e++) {
const i = Rt.decodeDigit(t, n, s, Rt.L_AND_G_PATTERNS);
r += String.fromCharCode("0".charCodeAt(0) + i % 10);
for (let t of n) s += t;
i >= 10 && (o |= 1 << 5 - e)
}
return Rt.determineNumSysAndCheckDigit(new p(r), o), s
}
decodeEnd(t, e) {
return Rt.findGuardPatternWithoutCounters(t, e, !0, Rt.MIDDLE_END_PATTERN)
}
checkChecksum(t) {
return It.checkChecksum(Rt.convertUPCEtoUPCA(t))
}
static determineNumSysAndCheckDigit(t, e) {
for (let r = 0; r <= 1; r++) for (let n = 0; n < 10; n++) if (e === this.NUMSYS_AND_CHECK_DIGIT_PATTERNS[r][n]) return t.insert(0, "0" + r), void t.append("0" + n);
throw R.getNotFoundInstance()
}
getBarcodeFormat() {
return v.UPC_E
}
static convertUPCEtoUPCA(t) {
const e = t.slice(1, 7).split("").map((t => t.charCodeAt(0))), r = new p;
r.append(t.charAt(0));
let n = e[5];
switch (n) {
case 0:
case 1:
case 2:
r.appendChars(e, 0, 2), r.append(n), r.append("0000"), r.appendChars(e, 2, 3);
break;
case 3:
r.appendChars(e, 0, 3), r.append("00000"), r.appendChars(e, 3, 2);
break;
case 4:
r.appendChars(e, 0, 4), r.append("00000"), r.append(e[4]);
break;
default:
r.appendChars(e, 0, 5), r.append("0000"), r.append(n)
}
return t.length >= 8 && r.append(t.charAt(7)), r.toString()
}
}
Rt.MIDDLE_END_PATTERN = Int32Array.from([1, 1, 1, 1, 1, 1]), Rt.NUMSYS_AND_CHECK_DIGIT_PATTERNS = [Int32Array.from([56, 52, 50, 49, 44, 38, 35, 42, 41, 37]), Int32Array.from([7, 11, 13, 14, 19, 25, 28, 21, 22, 1])];
class Nt extends gt {
constructor(t) {
super();
let e = null == t ? null : t.get(C.POSSIBLE_FORMATS), r = [];
null != e && (e.indexOf(v.EAN_13) > -1 ? r.push(new St) : e.indexOf(v.UPC_A) > -1 && r.push(new Tt), e.indexOf(v.EAN_8) > -1 && r.push(new pt), e.indexOf(v.UPC_E) > -1 && r.push(new Rt)), 0 === r.length && (r.push(new St), r.push(new pt), r.push(new Rt)), this.readers = r
}
decodeRow(t, e, r) {
for (let n of this.readers) try {
const i = n.decodeRow(t, e, r), s = i.getBarcodeFormat() === v.EAN_13 && "0" === i.getText().charAt(0),
o = null == r ? null : r.get(C.POSSIBLE_FORMATS), a = null == o || o.includes(v.UPC_A);
if (s && a) {
const t = i.getRawBytes(),
e = new F(i.getText().substring(1), t, t.length, i.getResultPoints(), v.UPC_A);
return e.putAllMetadata(i.getResultMetadata()), e
}
return i
} catch (t) {
}
throw new R
}
reset() {
for (let t of this.readers) t.reset()
}
}
class Dt extends gt {
constructor() {
super(), this.decodeFinderCounters = new Int32Array(4), this.dataCharacterCounters = new Int32Array(8), this.oddRoundingErrors = new Array(4), this.evenRoundingErrors = new Array(4), this.oddCounts = new Array(this.dataCharacterCounters.length / 2), this.evenCounts = new Array(this.dataCharacterCounters.length / 2)
}
getDecodeFinderCounters() {
return this.decodeFinderCounters
}
getDataCharacterCounters() {
return this.dataCharacterCounters
}
getOddRoundingErrors() {
return this.oddRoundingErrors
}
getEvenRoundingErrors() {
return this.evenRoundingErrors
}
getOddCounts() {
return this.oddCounts
}
getEvenCounts() {
return this.evenCounts
}
parseFinderValue(t, e) {
for (let r = 0; r < e.length; r++) if (gt.patternMatchVariance(t, e[r], Dt.MAX_INDIVIDUAL_VARIANCE) < Dt.MAX_AVG_VARIANCE) return r;
throw new R
}
static count(t) {
return tt.sum(new Int32Array(t))
}
static increment(t, e) {
let r = 0, n = e[0];
for (let i = 1; i < t.length; i++) e[i] > n && (n = e[i], r = i);
t[r]++
}
static decrement(t, e) {
let r = 0, n = e[0];
for (let i = 1; i < t.length; i++) e[i] < n && (n = e[i], r = i);
t[r]--
}
static isFinderPattern(t) {
let e = t[0] + t[1], r = e / (e + t[2] + t[3]);
if (r >= Dt.MIN_FINDER_PATTERN_RATIO && r <= Dt.MAX_FINDER_PATTERN_RATIO) {
let e = Number.MAX_SAFE_INTEGER, r = Number.MIN_SAFE_INTEGER;
for (let n of t) n > r && (r = n), n < e && (e = n);
return r < 10 * e
}
return !1
}
}
Dt.MAX_AVG_VARIANCE = .2, Dt.MAX_INDIVIDUAL_VARIANCE = .45, Dt.MIN_FINDER_PATTERN_RATIO = 9.5 / 12, Dt.MAX_FINDER_PATTERN_RATIO = 12.5 / 14;
class yt {
constructor(t, e) {
this.value = t, this.checksumPortion = e
}
getValue() {
return this.value
}
getChecksumPortion() {
return this.checksumPortion
}
toString() {
return this.value + "(" + this.checksumPortion + ")"
}
equals(t) {
if (!(t instanceof yt)) return !1;
const e = t;
return this.value === e.value && this.checksumPortion === e.checksumPortion
}
hashCode() {
return this.value ^ this.checksumPortion
}
}
class Ot {
constructor(t, e, r, n, i) {
this.value = t, this.startEnd = e, this.value = t, this.startEnd = e, this.resultPoints = new Array, this.resultPoints.push(new rt(r, i)), this.resultPoints.push(new rt(n, i))
}
getValue() {
return this.value
}
getStartEnd() {
return this.startEnd
}
getResultPoints() {
return this.resultPoints
}
equals(t) {
if (!(t instanceof Ot)) return !1;
const e = t;
return this.value === e.value
}
hashCode() {
return this.value
}
}
class Mt {
constructor() {
}
static getRSSvalue(t, e, r) {
let n = 0;
for (let e of t) n += e;
let i = 0, s = 0, o = t.length;
for (let a = 0; a < o - 1; a++) {
let l;
for (l = 1, s |= 1 << a; l < t[a]; l++, s &= ~(1 << a)) {
let t = Mt.combins(n - l - 1, o - a - 2);
if (r && 0 === s && n - l - (o - a - 1) >= o - a - 1 && (t -= Mt.combins(n - l - (o - a), o - a - 2)), o - a - 1 > 1) {
let r = 0;
for (let t = n - l - (o - a - 2); t > e; t--) r += Mt.combins(n - l - t - 1, o - a - 3);
t -= r * (o - 1 - a)
} else n - l > e && t--;
i += t
}
n -= l
}
return i
}
static combins(t, e) {
let r, n;
t - e > e ? (n = e, r = t - e) : (n = t - e, r = e);
let i = 1, s = 1;
for (let e = t; e > r; e--) i *= e, s <= n && (i /= s, s++);
for (; s <= n;) i /= s, s++;
return i
}
}
class Bt {
constructor(t, e) {
e ? this.decodedInformation = null : (this.finished = t, this.decodedInformation = e)
}
getDecodedInformation() {
return this.decodedInformation
}
isFinished() {
return this.finished
}
}
class bt {
constructor(t) {
this.newPosition = t
}
getNewPosition() {
return this.newPosition
}
}
class Pt extends bt {
constructor(t, e) {
super(t), this.value = e
}
getValue() {
return this.value
}
isFNC1() {
return this.value === Pt.FNC1
}
}
Pt.FNC1 = "$";
class Lt extends bt {
constructor(t, e, r) {
super(t), r ? (this.remaining = !0, this.remainingValue = this.remainingValue) : (this.remaining = !1, this.remainingValue = 0), this.newString = e
}
getNewString() {
return this.newString
}
isRemaining() {
return this.remaining
}
getRemainingValue() {
return this.remainingValue
}
}
class Ft extends bt {
constructor(t, e, r) {
if (super(t), e < 0 || e > 10 || r < 0 || r > 10) throw new E;
this.firstDigit = e, this.secondDigit = r
}
getFirstDigit() {
return this.firstDigit
}
getSecondDigit() {
return this.secondDigit
}
getValue() {
return 10 * this.firstDigit + this.secondDigit
}
isFirstDigitFNC1() {
return this.firstDigit === Ft.FNC1
}
isSecondDigitFNC1() {
return this.secondDigit === Ft.FNC1
}
isAnyFNC1() {
return this.firstDigit === Ft.FNC1 || this.secondDigit === Ft.FNC1
}
}
Ft.FNC1 = 10;
class kt {
constructor() {
}
static parseFieldsInGeneralPurpose(t) {
if (!t) return null;
if (t.length < 2) throw new R;
let e = t.substring(0, 2);
for (let r of kt.TWO_DIGIT_DATA_LENGTH) if (r[0] === e) return r[1] === kt.VARIABLE_LENGTH ? kt.processVariableAI(2, r[2], t) : kt.processFixedAI(2, r[1], t);
if (t.length < 3) throw new R;
let r = t.substring(0, 3);
for (let e of kt.THREE_DIGIT_DATA_LENGTH) if (e[0] === r) return e[1] === kt.VARIABLE_LENGTH ? kt.processVariableAI(3, e[2], t) : kt.processFixedAI(3, e[1], t);
for (let e of kt.THREE_DIGIT_PLUS_DIGIT_DATA_LENGTH) if (e[0] === r) return e[1] === kt.VARIABLE_LENGTH ? kt.processVariableAI(4, e[2], t) : kt.processFixedAI(4, e[1], t);
if (t.length < 4) throw new R;
let n = t.substring(0, 4);
for (let e of kt.FOUR_DIGIT_DATA_LENGTH) if (e[0] === n) return e[1] === kt.VARIABLE_LENGTH ? kt.processVariableAI(4, e[2], t) : kt.processFixedAI(4, e[1], t);
throw new R
}
static processFixedAI(t, e, r) {
if (r.length < t) throw new R;
let n = r.substring(0, t);
if (r.length < t + e) throw new R;
let i = r.substring(t, t + e), s = r.substring(t + e), o = "(" + n + ")" + i,
a = kt.parseFieldsInGeneralPurpose(s);
return null == a ? o : o + a
}
static processVariableAI(t, e, r) {
let n, i = r.substring(0, t);
n = r.length < t + e ? r.length : t + e;
let s = r.substring(t, n), o = r.substring(n), a = "(" + i + ")" + s, l = kt.parseFieldsInGeneralPurpose(o);
return null == l ? a : a + l
}
}
kt.VARIABLE_LENGTH = [], kt.TWO_DIGIT_DATA_LENGTH = [["00", 18], ["01", 14], ["02", 14], ["10", kt.VARIABLE_LENGTH, 20], ["11", 6], ["12", 6], ["13", 6], ["15", 6], ["17", 6], ["20", 2], ["21", kt.VARIABLE_LENGTH, 20], ["22", kt.VARIABLE_LENGTH, 29], ["30", kt.VARIABLE_LENGTH, 8], ["37", kt.VARIABLE_LENGTH, 8], ["90", kt.VARIABLE_LENGTH, 30], ["91", kt.VARIABLE_LENGTH, 30], ["92", kt.VARIABLE_LENGTH, 30], ["93", kt.VARIABLE_LENGTH, 30], ["94", kt.VARIABLE_LENGTH, 30], ["95", kt.VARIABLE_LENGTH, 30], ["96", kt.VARIABLE_LENGTH, 30], ["97", kt.VARIABLE_LENGTH, 3], ["98", kt.VARIABLE_LENGTH, 30], ["99", kt.VARIABLE_LENGTH, 30]], kt.THREE_DIGIT_DATA_LENGTH = [["240", kt.VARIABLE_LENGTH, 30], ["241", kt.VARIABLE_LENGTH, 30], ["242", kt.VARIABLE_LENGTH, 6], ["250", kt.VARIABLE_LENGTH, 30], ["251", kt.VARIABLE_LENGTH, 30], ["253", kt.VARIABLE_LENGTH, 17], ["254", kt.VARIABLE_LENGTH, 20], ["400", kt.VARIABLE_LENGTH, 30], ["401", kt.VARIABLE_LENGTH, 30], ["402", 17], ["403", kt.VARIABLE_LENGTH, 30], ["410", 13], ["411", 13], ["412", 13], ["413", 13], ["414", 13], ["420", kt.VARIABLE_LENGTH, 20], ["421", kt.VARIABLE_LENGTH, 15], ["422", 3], ["423", kt.VARIABLE_LENGTH, 15], ["424", 3], ["425", 3], ["426", 3]], kt.THREE_DIGIT_PLUS_DIGIT_DATA_LENGTH = [["310", 6], ["311", 6], ["312", 6], ["313", 6], ["314", 6], ["315", 6], ["316", 6], ["320", 6], ["321", 6], ["322", 6], ["323", 6], ["324", 6], ["325", 6], ["326", 6], ["327", 6], ["328", 6], ["329", 6], ["330", 6], ["331", 6], ["332", 6], ["333", 6], ["334", 6], ["335", 6], ["336", 6], ["340", 6], ["341", 6], ["342", 6], ["343", 6], ["344", 6], ["345", 6], ["346", 6], ["347", 6], ["348", 6], ["349", 6], ["350", 6], ["351", 6], ["352", 6], ["353", 6], ["354", 6], ["355", 6], ["356", 6], ["357", 6], ["360", 6], ["361", 6], ["362", 6], ["363", 6], ["364", 6], ["365", 6], ["366", 6], ["367", 6], ["368", 6], ["369", 6], ["390", kt.VARIABLE_LENGTH, 15], ["391", kt.VARIABLE_LENGTH, 18], ["392", kt.VARIABLE_LENGTH, 15], ["393", kt.VARIABLE_LENGTH, 18], ["703", kt.VARIABLE_LENGTH, 30]], kt.FOUR_DIGIT_DATA_LENGTH = [["7001", 13], ["7002", kt.VARIABLE_LENGTH, 30], ["7003", 10], ["8001", 14], ["8002", kt.VARIABLE_LENGTH, 20], ["8003", kt.VARIABLE_LENGTH, 30], ["8004", kt.VARIABLE_LENGTH, 30], ["8005", 6], ["8006", 18], ["8007", kt.VARIABLE_LENGTH, 30], ["8008", kt.VARIABLE_LENGTH, 12], ["8018", 18], ["8020", kt.VARIABLE_LENGTH, 25], ["8100", 6], ["8101", 10], ["8102", 2], ["8110", kt.VARIABLE_LENGTH, 70], ["8200", kt.VARIABLE_LENGTH, 70]];
class vt {
constructor(t) {
this.buffer = new p, this.information = t
}
decodeAllCodes(t, e) {
let r = e, n = null;
for (; ;) {
let e = this.decodeGeneralPurposeField(r, n), i = kt.parseFieldsInGeneralPurpose(e.getNewString());
if (null != i && t.append(i), n = e.isRemaining() ? "" + e.getRemainingValue() : null, r === e.getNewPosition()) break;
r = e.getNewPosition()
}
return t.toString()
}
isStillNumeric(t) {
if (t + 7 > this.information.getSize()) return t + 4 <= this.information.getSize();
for (let e = t; e < t + 3; ++e) if (this.information.get(e)) return !0;
return this.information.get(t + 3)
}
decodeNumeric(t) {
if (t + 7 > this.information.getSize()) {
let e = this.extractNumericValueFromBitArray(t, 4);
return new Ft(this.information.getSize(), 0 === e ? Ft.FNC1 : e - 1, Ft.FNC1)
}
let e = this.extractNumericValueFromBitArray(t, 7);
return new Ft(t + 7, (e - 8) / 11, (e - 8) % 11)
}
extractNumericValueFromBitArray(t, e) {
return vt.extractNumericValueFromBitArray(this.information, t, e)
}
static extractNumericValueFromBitArray(t, e, r) {
let n = 0;
for (let i = 0; i < r; ++i) t.get(e + i) && (n |= 1 << r - i - 1);
return n
}
decodeGeneralPurposeField(t, e) {
this.buffer.setLengthToZero(), null != e && this.buffer.append(e), this.current.setPosition(t);
let r = this.parseBlocks();
return null != r && r.isRemaining() ? new Lt(this.current.getPosition(), this.buffer.toString(), r.getRemainingValue()) : new Lt(this.current.getPosition(), this.buffer.toString())
}
parseBlocks() {
let t, e;
do {
let r = this.current.getPosition();
if (this.current.isAlpha() ? (e = this.parseAlphaBlock(), t = e.isFinished()) : this.current.isIsoIec646() ? (e = this.parseIsoIec646Block(), t = e.isFinished()) : (e = this.parseNumericBlock(), t = e.isFinished()), !(r !== this.current.getPosition()) && !t) break
} while (!t);
return e.getDecodedInformation()
}
parseNumericBlock() {
for (; this.isStillNumeric(this.current.getPosition());) {
let t = this.decodeNumeric(this.current.getPosition());
if (this.current.setPosition(t.getNewPosition()), t.isFirstDigitFNC1()) {
let e;
return e = t.isSecondDigitFNC1() ? new Lt(this.current.getPosition(), this.buffer.toString()) : new Lt(this.current.getPosition(), this.buffer.toString(), t.getSecondDigit()), new Bt(!0, e)
}
if (this.buffer.append(t.getFirstDigit()), t.isSecondDigitFNC1()) {
let t = new Lt(this.current.getPosition(), this.buffer.toString());
return new Bt(!0, t)
}
this.buffer.append(t.getSecondDigit())
}
return this.isNumericToAlphaNumericLatch(this.current.getPosition()) && (this.current.setAlpha(), this.current.incrementPosition(4)), new Bt(!1)
}
parseIsoIec646Block() {
for (; this.isStillIsoIec646(this.current.getPosition());) {
let t = this.decodeIsoIec646(this.current.getPosition());
if (this.current.setPosition(t.getNewPosition()), t.isFNC1()) {
let t = new Lt(this.current.getPosition(), this.buffer.toString());
return new Bt(!0, t)
}
this.buffer.append(t.getValue())
}
return this.isAlphaOr646ToNumericLatch(this.current.getPosition()) ? (this.current.incrementPosition(3), this.current.setNumeric()) : this.isAlphaTo646ToAlphaLatch(this.current.getPosition()) && (this.current.getPosition() + 5 < this.information.getSize() ? this.current.incrementPosition(5) : this.current.setPosition(this.information.getSize()), this.current.setAlpha()), new Bt(!1)
}
parseAlphaBlock() {
for (; this.isStillAlpha(this.current.getPosition());) {
let t = this.decodeAlphanumeric(this.current.getPosition());
if (this.current.setPosition(t.getNewPosition()), t.isFNC1()) {
let t = new Lt(this.current.getPosition(), this.buffer.toString());
return new Bt(!0, t)
}
this.buffer.append(t.getValue())
}
return this.isAlphaOr646ToNumericLatch(this.current.getPosition()) ? (this.current.incrementPosition(3), this.current.setNumeric()) : this.isAlphaTo646ToAlphaLatch(this.current.getPosition()) && (this.current.getPosition() + 5 < this.information.getSize() ? this.current.incrementPosition(5) : this.current.setPosition(this.information.getSize()), this.current.setIsoIec646()), new Bt(!1)
}
isStillIsoIec646(t) {
if (t + 5 > this.information.getSize()) return !1;
let e = this.extractNumericValueFromBitArray(t, 5);
if (e >= 5 && e < 16) return !0;
if (t + 7 > this.information.getSize()) return !1;
let r = this.extractNumericValueFromBitArray(t, 7);
if (r >= 64 && r < 116) return !0;
if (t + 8 > this.information.getSize()) return !1;
let n = this.extractNumericValueFromBitArray(t, 8);
return n >= 232 && n < 253
}
decodeIsoIec646(t) {
let e = this.extractNumericValueFromBitArray(t, 5);
if (15 === e) return new Pt(t + 5, Pt.FNC1);
if (e >= 5 && e < 15) return new Pt(t + 5, "0" + (e - 5));
let r, n = this.extractNumericValueFromBitArray(t, 7);
if (n >= 64 && n < 90) return new Pt(t + 7, "" + (n + 1));
if (n >= 90 && n < 116) return new Pt(t + 7, "" + (n + 7));
switch (this.extractNumericValueFromBitArray(t, 8)) {
case 232:
r = "!";
break;
case 233:
r = '"';
break;
case 234:
r = "%";
break;
case 235:
r = "&";
break;
case 236:
r = "'";
break;
case 237:
r = "(";
break;
case 238:
r = ")";
break;
case 239:
r = "*";
break;
case 240:
r = "+";
break;
case 241:
r = ",";
break;
case 242:
r = "-";
break;
case 243:
r = ".";
break;
case 244:
r = "/";
break;
case 245:
r = ":";
break;
case 246:
r = ";";
break;
case 247:
r = "<";
break;
case 248:
r = "=";
break;
case 249:
r = ">";
break;
case 250:
r = "?";
break;
case 251:
r = "_";
break;
case 252:
r = " ";
break;
default:
throw new E
}
return new Pt(t + 8, r)
}
isStillAlpha(t) {
if (t + 5 > this.information.getSize()) return !1;
let e = this.extractNumericValueFromBitArray(t, 5);
if (e >= 5 && e < 16) return !0;
if (t + 6 > this.information.getSize()) return !1;
let r = this.extractNumericValueFromBitArray(t, 6);
return r >= 16 && r < 63
}
decodeAlphanumeric(t) {
let e = this.extractNumericValueFromBitArray(t, 5);
if (15 === e) return new Pt(t + 5, Pt.FNC1);
if (e >= 5 && e < 15) return new Pt(t + 5, "0" + (e - 5));
let r, n = this.extractNumericValueFromBitArray(t, 6);
if (n >= 32 && n < 58) return new Pt(t + 6, "" + (n + 33));
switch (n) {
case 58:
r = "*";
break;
case 59:
r = ",";
break;
case 60:
r = "-";
break;
case 61:
r = ".";
break;
case 62:
r = "/";
break;
default:
throw new j("Decoding invalid alphanumeric value: " + n)
}
return new Pt(t + 6, r)
}
isAlphaTo646ToAlphaLatch(t) {
if (t + 1 > this.information.getSize()) return !1;
for (let e = 0; e < 5 && e + t < this.information.getSize(); ++e) if (2 === e) {
if (!this.information.get(t + 2)) return !1
} else if (this.information.get(t + e)) return !1;
return !0
}
isAlphaOr646ToNumericLatch(t) {
if (t + 3 > this.information.getSize()) return !1;
for (let e = t; e < t + 3; ++e) if (this.information.get(e)) return !1;
return !0
}
isNumericToAlphaNumericLatch(t) {
if (t + 1 > this.information.getSize()) return !1;
for (let e = 0; e < 4 && e + t < this.information.getSize(); ++e) if (this.information.get(t + e)) return !1;
return !0
}
}
class xt {
constructor(t) {
this.information = t, this.generalDecoder = new vt(t)
}
getInformation() {
return this.information
}
getGeneralDecoder() {
return this.generalDecoder
}
}
class Vt extends xt {
constructor(t) {
super(t)
}
encodeCompressedGtin(t, e) {
t.append("(01)");
let r = t.length();
t.append("9"), this.encodeCompressedGtinWithoutAI(t, e, r)
}
encodeCompressedGtinWithoutAI(t, e, r) {
for (let r = 0; r < 4; ++r) {
let n = this.getGeneralDecoder().extractNumericValueFromBitArray(e + 10 * r, 10);
n / 100 == 0 && t.append("0"), n / 10 == 0 && t.append("0"), t.append(n)
}
Vt.appendCheckDigit(t, r)
}
static appendCheckDigit(t, e) {
let r = 0;
for (let n = 0; n < 13; n++) {
let i = t.charAt(n + e).charCodeAt(0) - "0".charCodeAt(0);
r += 0 == (1 & n) ? 3 * i : i
}
r = 10 - r % 10, 10 === r && (r = 0), t.append(r)
}
}
Vt.GTIN_SIZE = 40;
class Ut extends Vt {
constructor(t) {
super(t)
}
parseInformation() {
let t = new p;
t.append("(01)");
let e = t.length(), r = this.getGeneralDecoder().extractNumericValueFromBitArray(Ut.HEADER_SIZE, 4);
return t.append(r), this.encodeCompressedGtinWithoutAI(t, Ut.HEADER_SIZE + 4, e), this.getGeneralDecoder().decodeAllCodes(t, Ut.HEADER_SIZE + 44)
}
}
Ut.HEADER_SIZE = 4;
class Ht extends xt {
constructor(t) {
super(t)
}
parseInformation() {
let t = new p;
return this.getGeneralDecoder().decodeAllCodes(t, Ht.HEADER_SIZE)
}
}
Ht.HEADER_SIZE = 5;
class Gt extends Vt {
constructor(t) {
super(t)
}
encodeCompressedWeight(t, e, r) {
let n = this.getGeneralDecoder().extractNumericValueFromBitArray(e, r);
this.addWeightCode(t, n);
let i = this.checkWeight(n), s = 1e5;
for (let e = 0; e < 5; ++e) i / s == 0 && t.append("0"), s /= 10;
t.append(i)
}
}
class Xt extends Gt {
constructor(t) {
super(t)
}
parseInformation() {
if (this.getInformation().getSize() != Xt.HEADER_SIZE + Gt.GTIN_SIZE + Xt.WEIGHT_SIZE) throw new R;
let t = new p;
return this.encodeCompressedGtin(t, Xt.HEADER_SIZE), this.encodeCompressedWeight(t, Xt.HEADER_SIZE + Gt.GTIN_SIZE, Xt.WEIGHT_SIZE), t.toString()
}
}
Xt.HEADER_SIZE = 5, Xt.WEIGHT_SIZE = 15;
class Wt extends Xt {
constructor(t) {
super(t)
}
addWeightCode(t, e) {
t.append("(3103)")
}
checkWeight(t) {
return t
}
}
class zt extends Xt {
constructor(t) {
super(t)
}
addWeightCode(t, e) {
e < 1e4 ? t.append("(3202)") : t.append("(3203)")
}
checkWeight(t) {
return t < 1e4 ? t : t - 1e4
}
}
class Yt extends Vt {
constructor(t) {
super(t)
}
parseInformation() {
if (this.getInformation().getSize() < Yt.HEADER_SIZE + Vt.GTIN_SIZE) throw new R;
let t = new p;
this.encodeCompressedGtin(t, Yt.HEADER_SIZE);
let e = this.getGeneralDecoder().extractNumericValueFromBitArray(Yt.HEADER_SIZE + Vt.GTIN_SIZE, Yt.LAST_DIGIT_SIZE);
t.append("(392"), t.append(e), t.append(")");
let r = this.getGeneralDecoder().decodeGeneralPurposeField(Yt.HEADER_SIZE + Vt.GTIN_SIZE + Yt.LAST_DIGIT_SIZE, null);
return t.append(r.getNewString()), t.toString()
}
}
Yt.HEADER_SIZE = 8, Yt.LAST_DIGIT_SIZE = 2;
class Zt extends Vt {
constructor(t) {
super(t)
}
parseInformation() {
if (this.getInformation().getSize() < Zt.HEADER_SIZE + Vt.GTIN_SIZE) throw new R;
let t = new p;
this.encodeCompressedGtin(t, Zt.HEADER_SIZE);
let e = this.getGeneralDecoder().extractNumericValueFromBitArray(Zt.HEADER_SIZE + Vt.GTIN_SIZE, Zt.LAST_DIGIT_SIZE);
t.append("(393"), t.append(e), t.append(")");
let r = this.getGeneralDecoder().extractNumericValueFromBitArray(Zt.HEADER_SIZE + Vt.GTIN_SIZE + Zt.LAST_DIGIT_SIZE, Zt.FIRST_THREE_DIGITS_SIZE);
r / 100 == 0 && t.append("0"), r / 10 == 0 && t.append("0"), t.append(r);
let n = this.getGeneralDecoder().decodeGeneralPurposeField(Zt.HEADER_SIZE + Vt.GTIN_SIZE + Zt.LAST_DIGIT_SIZE + Zt.FIRST_THREE_DIGITS_SIZE, null);
return t.append(n.getNewString()), t.toString()
}
}
Zt.HEADER_SIZE = 8, Zt.LAST_DIGIT_SIZE = 2, Zt.FIRST_THREE_DIGITS_SIZE = 10;
class Kt extends Gt {
constructor(t, e, r) {
super(t), this.dateCode = r, this.firstAIdigits = e
}
parseInformation() {
if (this.getInformation().getSize() != Kt.HEADER_SIZE + Kt.GTIN_SIZE + Kt.WEIGHT_SIZE + Kt.DATE_SIZE) throw new R;
let t = new p;
return this.encodeCompressedGtin(t, Kt.HEADER_SIZE), this.encodeCompressedWeight(t, Kt.HEADER_SIZE + Kt.GTIN_SIZE, Kt.WEIGHT_SIZE), this.encodeCompressedDate(t, Kt.HEADER_SIZE + Kt.GTIN_SIZE + Kt.WEIGHT_SIZE), t.toString()
}
encodeCompressedDate(t, e) {
let r = this.getGeneralDecoder().extractNumericValueFromBitArray(e, Kt.DATE_SIZE);
if (38400 == r) return;
t.append("("), t.append(this.dateCode), t.append(")");
let n = r % 32;
r /= 32;
let i = r % 12 + 1;
r /= 12;
let s = r;
s / 10 == 0 && t.append("0"), t.append(s), i / 10 == 0 && t.append("0"), t.append(i), n / 10 == 0 && t.append("0"), t.append(n)
}
addWeightCode(t, e) {
t.append("("), t.append(this.firstAIdigits), t.append(e / 1e5), t.append(")")
}
checkWeight(t) {
return t % 1e5
}
}
function qt(t) {
try {
if (t.get(1)) return new Ut(t);
if (!t.get(2)) return new Ht(t);
switch (vt.extractNumericValueFromBitArray(t, 1, 4)) {
case 4:
return new Wt(t);
case 5:
return new zt(t)
}
switch (vt.extractNumericValueFromBitArray(t, 1, 5)) {
case 12:
return new Yt(t);
case 13:
return new Zt(t)
}
switch (vt.extractNumericValueFromBitArray(t, 1, 7)) {
case 56:
return new Kt(t, "310", "11");
case 57:
return new Kt(t, "320", "11");
case 58:
return new Kt(t, "310", "13");
case 59:
return new Kt(t, "320", "13");
case 60:
return new Kt(t, "310", "15");
case 61:
return new Kt(t, "320", "15");
case 62:
return new Kt(t, "310", "17");
case 63:
return new Kt(t, "320", "17")
}
} catch (e) {
throw console.log(e), new j("unknown decoder: " + t)
}
}
Kt.HEADER_SIZE = 8, Kt.WEIGHT_SIZE = 20, Kt.DATE_SIZE = 16;
class Qt {
constructor(t, e, r, n) {
this.leftchar = t, this.rightchar = e, this.finderpattern = r, this.maybeLast = n
}
mayBeLast() {
return this.maybeLast
}
getLeftChar() {
return this.leftchar
}
getRightChar() {
return this.rightchar
}
getFinderPattern() {
return this.finderpattern
}
mustBeLast() {
return null == this.rightchar
}
toString() {
return "[ " + this.leftchar + ", " + this.rightchar + " : " + (null == this.finderpattern ? "null" : this.finderpattern.getValue()) + " ]"
}
static equals(t, e) {
return t instanceof Qt && (Qt.equalsOrNull(t.leftchar, e.leftchar) && Qt.equalsOrNull(t.rightchar, e.rightchar) && Qt.equalsOrNull(t.finderpattern, e.finderpattern))
}
static equalsOrNull(t, e) {
return null === t ? null === e : Qt.equals(t, e)
}
hashCode() {
return this.leftchar.getValue() ^ this.rightchar.getValue() ^ this.finderpattern.getValue()
}
}
class jt {
constructor(t, e, r) {
this.pairs = t, this.rowNumber = e, this.wasReversed = r
}
getPairs() {
return this.pairs
}
getRowNumber() {
return this.rowNumber
}
isReversed() {
return this.wasReversed
}
isEquivalent(t) {
return this.checkEqualitity(this, t)
}
toString() {
return "{ " + this.pairs + " }"
}
equals(t, e) {
return t instanceof jt && (this.checkEqualitity(t, e) && t.wasReversed === e.wasReversed)
}
checkEqualitity(t, e) {
if (!t || !e) return;
let r;
return t.forEach(((t, n) => {
e.forEach((e => {
t.getLeftChar().getValue() === e.getLeftChar().getValue() && t.getRightChar().getValue() === e.getRightChar().getValue() && t.getFinderPatter().getValue() === e.getFinderPatter().getValue() && (r = !0)
}))
})), r
}
}
class Jt extends Dt {
constructor() {
super(...arguments), this.pairs = new Array(Jt.MAX_PAIRS), this.rows = new Array, this.startEnd = [2]
}
decodeRow(t, e, r) {
this.pairs.length = 0, this.startFromEven = !1;
try {
return Jt.constructResult(this.decodeRow2pairs(t, e))
} catch (t) {
}
return this.pairs.length = 0, this.startFromEven = !0, Jt.constructResult(this.decodeRow2pairs(t, e))
}
reset() {
this.pairs.length = 0, this.rows.length = 0
}
decodeRow2pairs(t, e) {
let r, n = !1;
for (; !n;) try {
this.pairs.push(this.retrieveNextPair(e, this.pairs, t))
} catch (t) {
if (t instanceof R) {
if (!this.pairs.length) throw new R;
n = !0
}
}
if (this.checkChecksum()) return this.pairs;
if (r = !!this.rows.length, this.storeRow(t, !1), r) {
let t = this.checkRowsBoolean(!1);
if (null != t) return t;
if (t = this.checkRowsBoolean(!0), null != t) return t
}
throw new R
}
checkRowsBoolean(t) {
if (this.rows.length > 25) return this.rows.length = 0, null;
this.pairs.length = 0, t && (this.rows = this.rows.reverse());
let e = null;
try {
e = this.checkRows(new Array, 0)
} catch (t) {
console.log(t)
}
return t && (this.rows = this.rows.reverse()), e
}
checkRows(t, e) {
for (let r = e; r < this.rows.length; r++) {
let e = this.rows[r];
this.pairs.length = 0;
for (let e of t) this.pairs.push(e.getPairs());
if (this.pairs.push(e.getPairs()), !Jt.isValidSequence(this.pairs)) continue;
if (this.checkChecksum()) return this.pairs;
let n = new Array(t);
n.push(e);
try {
return this.checkRows(n, r + 1)
} catch (t) {
console.log(t)
}
}
throw new R
}
static isValidSequence(t) {
for (let e of Jt.FINDER_PATTERN_SEQUENCES) {
if (t.length > e.length) continue;
let r = !0;
for (let n = 0; n < t.length; n++) if (t[n].getFinderPattern().getValue() != e[n]) {
r = !1;
break
}
if (r) return !0
}
return !1
}
storeRow(t, e) {
let r = 0, n = !1, i = !1;
for (; r < this.rows.length;) {
let e = this.rows[r];
if (e.getRowNumber() > t) {
i = e.isEquivalent(this.pairs);
break
}
n = e.isEquivalent(this.pairs), r++
}
i || n || Jt.isPartialRow(this.pairs, this.rows) || (this.rows.push(r, new jt(this.pairs, t, e)), this.removePartialRows(this.pairs, this.rows))
}
removePartialRows(t, e) {
for (let r of e) if (r.getPairs().length !== t.length) for (let e of r.getPairs()) for (let r of t) if (Qt.equals(e, r)) break
}
static isPartialRow(t, e) {
for (let r of e) {
let e = !0;
for (let n of t) {
let t = !1;
for (let e of r.getPairs()) if (n.equals(e)) {
t = !0;
break
}
if (!t) {
e = !1;
break
}
}
if (e) return !0
}
return !1
}
getRows() {
return this.rows
}
static constructResult(t) {
let e = qt(class {
static buildBitArray(t) {
let e = 2 * t.length - 1;
null == t[t.length - 1].getRightChar() && (e -= 1);
let r = new w(12 * e), n = 0, i = t[0].getRightChar().getValue();
for (let t = 11; t >= 0; --t) 0 != (i & 1 << t) && r.set(n), n++;
for (let e = 1; e < t.length; ++e) {
let i = t[e], s = i.getLeftChar().getValue();
for (let t = 11; t >= 0; --t) 0 != (s & 1 << t) && r.set(n), n++;
if (null != i.getRightChar()) {
let t = i.getRightChar().getValue();
for (let e = 11; e >= 0; --e) 0 != (t & 1 << e) && r.set(n), n++
}
}
return r
}
}.buildBitArray(t)).parseInformation(), r = t[0].getFinderPattern().getResultPoints(),
n = t[t.length - 1].getFinderPattern().getResultPoints(), i = [r[0], r[1], n[0], n[1]];
return new F(e, null, null, i, v.RSS_EXPANDED, null)
}
checkChecksum() {
let t = this.pairs.get(0), e = t.getLeftChar(), r = t.getRightChar();
if (null == r) return !1;
let n = r.getChecksumPortion(), i = 2;
for (let t = 1; t < this.pairs.size(); ++t) {
let e = this.pairs.get(t);
n += e.getLeftChar().getChecksumPortion(), i++;
let r = e.getRightChar();
null != r && (n += r.getChecksumPortion(), i++)
}
return n %= 211, 211 * (i - 4) + n == e.getValue()
}
static getNextSecondBar(t, e) {
let r;
return t.get(e) ? (r = t.getNextUnset(e), r = t.getNextSet(r)) : (r = t.getNextSet(e), r = t.getNextUnset(r)), r
}
retrieveNextPair(t, e, r) {
let n, i = e.length % 2 == 0;
this.startFromEven && (i = !i);
let s = !0, o = -1;
do {
this.findNextPair(t, e, o), n = this.parseFoundFinderPattern(t, r, i), null == n ? o = Jt.getNextSecondBar(t, this.startEnd[0]) : s = !1
} while (s);
let a, l = this.decodeDataCharacter(t, n, i, !0);
if (!this.isEmptyPair(e) && e[e.length - 1].mustBeLast()) throw new R;
try {
a = this.decodeDataCharacter(t, n, i, !1)
} catch (t) {
a = null, console.log(t)
}
return new Qt(l, a, n, !0)
}
isEmptyPair(t) {
return 0 === t.length
}
findNextPair(t, e, r) {
let n = this.getDecodeFinderCounters();
n[0] = 0, n[1] = 0, n[2] = 0, n[3] = 0;
let i, s = t.getSize();
if (r >= 0) i = r; else if (this.isEmptyPair(e)) i = 0; else {
i = e[e.length - 1].getFinderPattern().getStartEnd()[1]
}
let o = e.length % 2 != 0;
this.startFromEven && (o = !o);
let a = !1;
for (; i < s && (a = !t.get(i), a);) i++;
let l = 0, h = i;
for (let e = i; e < s; e++) if (t.get(e) != a) n[l]++; else {
if (3 == l) {
if (o && Jt.reverseCounters(n), Jt.isFinderPattern(n)) return this.startEnd[0] = h, void (this.startEnd[1] = e);
o && Jt.reverseCounters(n), h += n[0] + n[1], n[0] = n[2], n[1] = n[3], n[2] = 0, n[3] = 0, l--
} else l++;
n[l] = 1, a = !a
}
throw new R
}
static reverseCounters(t) {
let e = t.length;
for (let r = 0; r < e / 2; ++r) {
let n = t[r];
t[r] = t[e - r - 1], t[e - r - 1] = n
}
}
parseFoundFinderPattern(t, e, r) {
let n, i, s;
if (r) {
let e = this.startEnd[0] - 1;
for (; e >= 0 && !t.get(e);) e--;
e++, n = this.startEnd[0] - e, i = e, s = this.startEnd[1]
} else i = this.startEnd[0], s = t.getNextUnset(this.startEnd[1] + 1), n = s - this.startEnd[1];
let o, a = this.getDecodeFinderCounters();
c.arraycopy(a, 0, a, 1, a.length - 1), a[0] = n;
try {
o = this.parseFinderValue(a, Jt.FINDER_PATTERNS)
} catch (t) {
return null
}
return new Ot(o, [i, s], i, s, e)
}
decodeDataCharacter(t, e, r, n) {
let i = this.getDataCharacterCounters();
for (let t = 0; t < i.length; t++) i[t] = 0;
if (n) Jt.recordPatternInReverse(t, e.getStartEnd()[0], i); else {
Jt.recordPattern(t, e.getStartEnd()[1], i);
for (let t = 0, e = i.length - 1; t < e; t++, e--) {
let r = i[t];
i[t] = i[e], i[e] = r
}
}
let s = tt.sum(new Int32Array(i)) / 17, o = (e.getStartEnd()[1] - e.getStartEnd()[0]) / 15;
if (Math.abs(s - o) / o > .3) throw new R;
let a = this.getOddCounts(), l = this.getEvenCounts(), h = this.getOddRoundingErrors(),
c = this.getEvenRoundingErrors();
for (let t = 0; t < i.length; t++) {
let e = 1 * i[t] / s, r = e + .5;
if (r < 1) {
if (e < .3) throw new R;
r = 1
} else if (r > 8) {
if (e > 8.7) throw new R;
r = 8
}
let n = t / 2;
0 == (1 & t) ? (a[n] = r, h[n] = e - r) : (l[n] = r, c[n] = e - r)
}
this.adjustOddEvenCounts(17);
let u = 4 * e.getValue() + (r ? 0 : 2) + (n ? 0 : 1) - 1, d = 0, g = 0;
for (let t = a.length - 1; t >= 0; t--) {
if (Jt.isNotA1left(e, r, n)) {
let e = Jt.WEIGHTS[u][2 * t];
g += a[t] * e
}
d += a[t]
}
let f = 0;
for (let t = l.length - 1; t >= 0; t--) if (Jt.isNotA1left(e, r, n)) {
let e = Jt.WEIGHTS[u][2 * t + 1];
f += l[t] * e
}
let w = g + f;
if (0 != (1 & d) || d > 13 || d < 4) throw new R;
let A = (13 - d) / 2, C = Jt.SYMBOL_WIDEST[A], E = 9 - C, m = Mt.getRSSvalue(a, C, !0),
_ = Mt.getRSSvalue(l, E, !1), I = Jt.EVEN_TOTAL_SUBSET[A], S = Jt.GSUM[A];
return new yt(m * I + _ + S, w)
}
static isNotA1left(t, e, r) {
return !(0 == t.getValue() && e && r)
}
adjustOddEvenCounts(t) {
let e = tt.sum(new Int32Array(this.getOddCounts())), r = tt.sum(new Int32Array(this.getEvenCounts())), n = !1,
i = !1;
e > 13 ? i = !0 : e < 4 && (n = !0);
let s = !1, o = !1;
r > 13 ? o = !0 : r < 4 && (s = !0);
let a = e + r - t, l = 1 == (1 & e), h = 0 == (1 & r);
if (1 == a) if (l) {
if (h) throw new R;
i = !0
} else {
if (!h) throw new R;
o = !0
} else if (-1 == a) if (l) {
if (h) throw new R;
n = !0
} else {
if (!h) throw new R;
s = !0
} else {
if (0 != a) throw new R;
if (l) {
if (!h) throw new R;
e < r ? (n = !0, o = !0) : (i = !0, s = !0)
} else if (h) throw new R
}
if (n) {
if (i) throw new R;
Jt.increment(this.getOddCounts(), this.getOddRoundingErrors())
}
if (i && Jt.decrement(this.getOddCounts(), this.getOddRoundingErrors()), s) {
if (o) throw new R;
Jt.increment(this.getEvenCounts(), this.getOddRoundingErrors())
}
o && Jt.decrement(this.getEvenCounts(), this.getEvenRoundingErrors())
}
}
Jt.SYMBOL_WIDEST = [7, 5, 4, 3, 1], Jt.EVEN_TOTAL_SUBSET = [4, 20, 52, 104, 204], Jt.GSUM = [0, 348, 1388, 2948, 3988], Jt.FINDER_PATTERNS = [Int32Array.from([1, 8, 4, 1]), Int32Array.from([3, 6, 4, 1]), Int32Array.from([3, 4, 6, 1]), Int32Array.from([3, 2, 8, 1]), Int32Array.from([2, 6, 5, 1]), Int32Array.from([2, 2, 9, 1])], Jt.WEIGHTS = [[1, 3, 9, 27, 81, 32, 96, 77], [20, 60, 180, 118, 143, 7, 21, 63], [189, 145, 13, 39, 117, 140, 209, 205], [193, 157, 49, 147, 19, 57, 171, 91], [62, 186, 136, 197, 169, 85, 44, 132], [185, 133, 188, 142, 4, 12, 36, 108], [113, 128, 173, 97, 80, 29, 87, 50], [150, 28, 84, 41, 123, 158, 52, 156], [46, 138, 203, 187, 139, 206, 196, 166], [76, 17, 51, 153, 37, 111, 122, 155], [43, 129, 176, 106, 107, 110, 119, 146], [16, 48, 144, 10, 30, 90, 59, 177], [109, 116, 137, 200, 178, 112, 125, 164], [70, 210, 208, 202, 184, 130, 179, 115], [134, 191, 151, 31, 93, 68, 204, 190], [148, 22, 66, 198, 172, 94, 71, 2], [6, 18, 54, 162, 64, 192, 154, 40], [120, 149, 25, 75, 14, 42, 126, 167], [79, 26, 78, 23, 69, 207, 199, 175], [103, 98, 83, 38, 114, 131, 182, 124], [161, 61, 183, 127, 170, 88, 53, 159], [55, 165, 73, 8, 24, 72, 5, 15], [45, 135, 194, 160, 58, 174, 100, 89]], Jt.FINDER_PAT_A = 0, Jt.FINDER_PAT_B = 1, Jt.FINDER_PAT_C = 2, Jt.FINDER_PAT_D = 3, Jt.FINDER_PAT_E = 4, Jt.FINDER_PAT_F = 5, Jt.FINDER_PATTERN_SEQUENCES = [[Jt.FINDER_PAT_A, Jt.FINDER_PAT_A], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_B, Jt.FINDER_PAT_B], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_C, Jt.FINDER_PAT_B, Jt.FINDER_PAT_D], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_E, Jt.FINDER_PAT_B, Jt.FINDER_PAT_D, Jt.FINDER_PAT_C], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_E, Jt.FINDER_PAT_B, Jt.FINDER_PAT_D, Jt.FINDER_PAT_D, Jt.FINDER_PAT_F], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_E, Jt.FINDER_PAT_B, Jt.FINDER_PAT_D, Jt.FINDER_PAT_E, Jt.FINDER_PAT_F, Jt.FINDER_PAT_F], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_A, Jt.FINDER_PAT_B, Jt.FINDER_PAT_B, Jt.FINDER_PAT_C, Jt.FINDER_PAT_C, Jt.FINDER_PAT_D, Jt.FINDER_PAT_D], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_A, Jt.FINDER_PAT_B, Jt.FINDER_PAT_B, Jt.FINDER_PAT_C, Jt.FINDER_PAT_C, Jt.FINDER_PAT_D, Jt.FINDER_PAT_E, Jt.FINDER_PAT_E], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_A, Jt.FINDER_PAT_B, Jt.FINDER_PAT_B, Jt.FINDER_PAT_C, Jt.FINDER_PAT_C, Jt.FINDER_PAT_D, Jt.FINDER_PAT_E, Jt.FINDER_PAT_F, Jt.FINDER_PAT_F], [Jt.FINDER_PAT_A, Jt.FINDER_PAT_A, Jt.FINDER_PAT_B, Jt.FINDER_PAT_B, Jt.FINDER_PAT_C, Jt.FINDER_PAT_D, Jt.FINDER_PAT_D, Jt.FINDER_PAT_E, Jt.FINDER_PAT_E, Jt.FINDER_PAT_F, Jt.FINDER_PAT_F]], Jt.MAX_PAIRS = 11;
class $t extends yt {
constructor(t, e, r) {
super(t, e), this.count = 0, this.finderPattern = r
}
getFinderPattern() {
return this.finderPattern
}
getCount() {
return this.count
}
incrementCount() {
this.count++
}
}
class te extends Dt {
constructor() {
super(...arguments), this.possibleLeftPairs = [], this.possibleRightPairs = []
}
decodeRow(t, e, r) {
const n = this.decodePair(e, !1, t, r);
te.addOrTally(this.possibleLeftPairs, n), e.reverse();
let i = this.decodePair(e, !0, t, r);
te.addOrTally(this.possibleRightPairs, i), e.reverse();
for (let t of this.possibleLeftPairs) if (t.getCount() > 1) for (let e of this.possibleRightPairs) if (e.getCount() > 1 && te.checkChecksum(t, e)) return te.constructResult(t, e);
throw new R
}
static addOrTally(t, e) {
if (null == e) return;
let r = !1;
for (let n of t) if (n.getValue() === e.getValue()) {
n.incrementCount(), r = !0;
break
}
r || t.push(e)
}
reset() {
this.possibleLeftPairs.length = 0, this.possibleRightPairs.length = 0
}
static constructResult(t, e) {
let r = 4537077 * t.getValue() + e.getValue(), n = new String(r).toString(), i = new p;
for (let t = 13 - n.length; t > 0; t--) i.append("0");
i.append(n);
let s = 0;
for (let t = 0; t < 13; t++) {
let e = i.charAt(t).charCodeAt(0) - "0".charCodeAt(0);
s += 0 == (1 & t) ? 3 * e : e
}
s = 10 - s % 10, 10 === s && (s = 0), i.append(s.toString());
let o = t.getFinderPattern().getResultPoints(), a = e.getFinderPattern().getResultPoints();
return new F(i.toString(), null, 0, [o[0], o[1], a[0], a[1]], v.RSS_14, (new Date).getTime())
}
static checkChecksum(t, e) {
let r = (t.getChecksumPortion() + 16 * e.getChecksumPortion()) % 79,
n = 9 * t.getFinderPattern().getValue() + e.getFinderPattern().getValue();
return n > 72 && n--, n > 8 && n--, r === n
}
decodePair(t, e, r, n) {
try {
let i = this.findFinderPattern(t, e), s = this.parseFoundFinderPattern(t, r, e, i),
o = null == n ? null : n.get(C.NEED_RESULT_POINT_CALLBACK);
if (null != o) {
let n = (i[0] + i[1]) / 2;
e && (n = t.getSize() - 1 - n), o.foundPossibleResultPoint(new rt(n, r))
}
let a = this.decodeDataCharacter(t, s, !0), l = this.decodeDataCharacter(t, s, !1);
return new $t(1597 * a.getValue() + l.getValue(), a.getChecksumPortion() + 4 * l.getChecksumPortion(), s)
} catch (t) {
return null
}
}
decodeDataCharacter(t, e, r) {
let n = this.getDataCharacterCounters();
for (let t = 0; t < n.length; t++) n[t] = 0;
if (r) gt.recordPatternInReverse(t, e.getStartEnd()[0], n); else {
gt.recordPattern(t, e.getStartEnd()[1] + 1, n);
for (let t = 0, e = n.length - 1; t < e; t++, e--) {
let r = n[t];
n[t] = n[e], n[e] = r
}
}
let i = r ? 16 : 15, s = tt.sum(new Int32Array(n)) / i, o = this.getOddCounts(), a = this.getEvenCounts(),
l = this.getOddRoundingErrors(), h = this.getEvenRoundingErrors();
for (let t = 0; t < n.length; t++) {
let e = n[t] / s, r = Math.floor(e + .5);
r < 1 ? r = 1 : r > 8 && (r = 8);
let i = Math.floor(t / 2);
0 == (1 & t) ? (o[i] = r, l[i] = e - r) : (a[i] = r, h[i] = e - r)
}
this.adjustOddEvenCounts(r, i);
let c = 0, u = 0;
for (let t = o.length - 1; t >= 0; t--) u *= 9, u += o[t], c += o[t];
let d = 0, g = 0;
for (let t = a.length - 1; t >= 0; t--) d *= 9, d += a[t], g += a[t];
let f = u + 3 * d;
if (r) {
if (0 != (1 & c) || c > 12 || c < 4) throw new R;
let t = (12 - c) / 2, e = te.OUTSIDE_ODD_WIDEST[t], r = 9 - e, n = Mt.getRSSvalue(o, e, !1),
i = Mt.getRSSvalue(a, r, !0), s = te.OUTSIDE_EVEN_TOTAL_SUBSET[t], l = te.OUTSIDE_GSUM[t];
return new yt(n * s + i + l, f)
}
{
if (0 != (1 & g) || g > 10 || g < 4) throw new R;
let t = (10 - g) / 2, e = te.INSIDE_ODD_WIDEST[t], r = 9 - e, n = Mt.getRSSvalue(o, e, !0),
i = Mt.getRSSvalue(a, r, !1), s = te.INSIDE_ODD_TOTAL_SUBSET[t], l = te.INSIDE_GSUM[t];
return new yt(i * s + n + l, f)
}
}
findFinderPattern(t, e) {
let r = this.getDecodeFinderCounters();
r[0] = 0, r[1] = 0, r[2] = 0, r[3] = 0;
let n = t.getSize(), i = !1, s = 0;
for (; s < n && (i = !t.get(s), e !== i);) s++;
let o = 0, a = s;
for (let e = s; e < n; e++) if (t.get(e) !== i) r[o]++; else {
if (3 === o) {
if (Dt.isFinderPattern(r)) return [a, e];
a += r[0] + r[1], r[0] = r[2], r[1] = r[3], r[2] = 0, r[3] = 0, o--
} else o++;
r[o] = 1, i = !i
}
throw new R
}
parseFoundFinderPattern(t, e, r, n) {
let i = t.get(n[0]), s = n[0] - 1;
for (; s >= 0 && i !== t.get(s);) s--;
s++;
const o = n[0] - s, a = this.getDecodeFinderCounters(), l = new Int32Array(a.length);
c.arraycopy(a, 0, l, 1, a.length - 1), l[0] = o;
const h = this.parseFinderValue(l, te.FINDER_PATTERNS);
let u = s, d = n[1];
return r && (u = t.getSize() - 1 - u, d = t.getSize() - 1 - d), new Ot(h, [s, n[1]], u, d, e)
}
adjustOddEvenCounts(t, e) {
let r = tt.sum(new Int32Array(this.getOddCounts())), n = tt.sum(new Int32Array(this.getEvenCounts())), i = !1,
s = !1, o = !1, a = !1;
t ? (r > 12 ? s = !0 : r < 4 && (i = !0), n > 12 ? a = !0 : n < 4 && (o = !0)) : (r > 11 ? s = !0 : r < 5 && (i = !0), n > 10 ? a = !0 : n < 4 && (o = !0));
let l = r + n - e, h = (1 & r) == (t ? 1 : 0), c = 1 == (1 & n);
if (1 === l) if (h) {
if (c) throw new R;
s = !0
} else {
if (!c) throw new R;
a = !0
} else if (-1 === l) if (h) {
if (c) throw new R;
i = !0
} else {
if (!c) throw new R;
o = !0
} else {
if (0 !== l) throw new R;
if (h) {
if (!c) throw new R;
r < n ? (i = !0, a = !0) : (s = !0, o = !0)
} else if (c) throw new R
}
if (i) {
if (s) throw new R;
Dt.increment(this.getOddCounts(), this.getOddRoundingErrors())
}
if (s && Dt.decrement(this.getOddCounts(), this.getOddRoundingErrors()), o) {
if (a) throw new R;
Dt.increment(this.getEvenCounts(), this.getOddRoundingErrors())
}
a && Dt.decrement(this.getEvenCounts(), this.getEvenRoundingErrors())
}
}
te.OUTSIDE_EVEN_TOTAL_SUBSET = [1, 10, 34, 70, 126], te.INSIDE_ODD_TOTAL_SUBSET = [4, 20, 48, 81], te.OUTSIDE_GSUM = [0, 161, 961, 2015, 2715], te.INSIDE_GSUM = [0, 336, 1036, 1516], te.OUTSIDE_ODD_WIDEST = [8, 6, 4, 3, 1], te.INSIDE_ODD_WIDEST = [2, 4, 6, 8], te.FINDER_PATTERNS = [Int32Array.from([3, 8, 2, 1]), Int32Array.from([3, 5, 5, 1]), Int32Array.from([3, 3, 7, 1]), Int32Array.from([3, 1, 9, 1]), Int32Array.from([2, 7, 4, 1]), Int32Array.from([2, 5, 6, 1]), Int32Array.from([2, 3, 8, 1]), Int32Array.from([1, 5, 7, 1]), Int32Array.from([1, 3, 9, 1])];
class ee extends gt {
constructor(t) {
super(), this.readers = [];
const e = t ? t.get(C.POSSIBLE_FORMATS) : null, r = t && void 0 !== t.get(C.ASSUME_CODE_39_CHECK_DIGIT);
e && ((e.includes(v.EAN_13) || e.includes(v.UPC_A) || e.includes(v.EAN_8) || e.includes(v.UPC_E)) && this.readers.push(new Nt(t)), e.includes(v.CODE_39) && this.readers.push(new wt(r)), e.includes(v.CODE_128) && this.readers.push(new ft), e.includes(v.ITF) && this.readers.push(new At), e.includes(v.RSS_14) && this.readers.push(new te), e.includes(v.RSS_EXPANDED) && (console.warn("RSS Expanded reader IS NOT ready for production yet! use at your own risk."), this.readers.push(new Jt))), 0 === this.readers.length && (this.readers.push(new Nt(t)), this.readers.push(new wt), this.readers.push(new Nt(t)), this.readers.push(new ft), this.readers.push(new At), this.readers.push(new te))
}
decodeRow(t, e, r) {
for (let n = 0; n < this.readers.length; n++) try {
return this.readers[n].decodeRow(t, e, r)
} catch (t) {
}
throw new R
}
reset() {
this.readers.forEach((t => t.reset()))
}
}
class re {
constructor(t, e, r) {
this.ecCodewords = t, this.ecBlocks = [e], r && this.ecBlocks.push(r)
}
getECCodewords() {
return this.ecCodewords
}
getECBlocks() {
return this.ecBlocks
}
}
class ne {
constructor(t, e) {
this.count = t, this.dataCodewords = e
}
getCount() {
return this.count
}
getDataCodewords() {
return this.dataCodewords
}
}
class ie {
constructor(t, e, r, n, i, s) {
this.versionNumber = t, this.symbolSizeRows = e, this.symbolSizeColumns = r, this.dataRegionSizeRows = n, this.dataRegionSizeColumns = i, this.ecBlocks = s;
let o = 0;
const a = s.getECCodewords(), l = s.getECBlocks();
for (let t of l) o += t.getCount() * (t.getDataCodewords() + a);
this.totalCodewords = o
}
getVersionNumber() {
return this.versionNumber
}
getSymbolSizeRows() {
return this.symbolSizeRows
}
getSymbolSizeColumns() {
return this.symbolSizeColumns
}
getDataRegionSizeRows() {
return this.dataRegionSizeRows
}
getDataRegionSizeColumns() {
return this.dataRegionSizeColumns
}
getTotalCodewords() {
return this.totalCodewords
}
getECBlocks() {
return this.ecBlocks
}
static getVersionForDimensions(t, e) {
if (0 != (1 & t) || 0 != (1 & e)) throw new E;
for (let r of ie.VERSIONS) if (r.symbolSizeRows === t && r.symbolSizeColumns === e) return r;
throw new E
}
toString() {
return "" + this.versionNumber
}
static buildVersions() {
return [new ie(1, 10, 10, 8, 8, new re(5, new ne(1, 3))), new ie(2, 12, 12, 10, 10, new re(7, new ne(1, 5))), new ie(3, 14, 14, 12, 12, new re(10, new ne(1, 8))), new ie(4, 16, 16, 14, 14, new re(12, new ne(1, 12))), new ie(5, 18, 18, 16, 16, new re(14, new ne(1, 18))), new ie(6, 20, 20, 18, 18, new re(18, new ne(1, 22))), new ie(7, 22, 22, 20, 20, new re(20, new ne(1, 30))), new ie(8, 24, 24, 22, 22, new re(24, new ne(1, 36))), new ie(9, 26, 26, 24, 24, new re(28, new ne(1, 44))), new ie(10, 32, 32, 14, 14, new re(36, new ne(1, 62))), new ie(11, 36, 36, 16, 16, new re(42, new ne(1, 86))), new ie(12, 40, 40, 18, 18, new re(48, new ne(1, 114))), new ie(13, 44, 44, 20, 20, new re(56, new ne(1, 144))), new ie(14, 48, 48, 22, 22, new re(68, new ne(1, 174))), new ie(15, 52, 52, 24, 24, new re(42, new ne(2, 102))), new ie(16, 64, 64, 14, 14, new re(56, new ne(2, 140))), new ie(17, 72, 72, 16, 16, new re(36, new ne(4, 92))), new ie(18, 80, 80, 18, 18, new re(48, new ne(4, 114))), new ie(19, 88, 88, 20, 20, new re(56, new ne(4, 144))), new ie(20, 96, 96, 22, 22, new re(68, new ne(4, 174))), new ie(21, 104, 104, 24, 24, new re(56, new ne(6, 136))), new ie(22, 120, 120, 18, 18, new re(68, new ne(6, 175))), new ie(23, 132, 132, 20, 20, new re(62, new ne(8, 163))), new ie(24, 144, 144, 22, 22, new re(62, new ne(8, 156), new ne(2, 155))), new ie(25, 8, 18, 6, 16, new re(7, new ne(1, 5))), new ie(26, 8, 32, 6, 14, new re(11, new ne(1, 10))), new ie(27, 12, 26, 10, 24, new re(14, new ne(1, 16))), new ie(28, 12, 36, 10, 16, new re(18, new ne(1, 22))), new ie(29, 16, 36, 14, 16, new re(24, new ne(1, 32))), new ie(30, 16, 48, 14, 22, new re(28, new ne(1, 49)))]
}
}
ie.VERSIONS = ie.buildVersions();
class se {
constructor(t) {
const e = t.getHeight();
if (e < 8 || e > 144 || 0 != (1 & e)) throw new E;
this.version = se.readVersion(t), this.mappingBitMatrix = this.extractDataRegion(t), this.readMappingMatrix = new T(this.mappingBitMatrix.getWidth(), this.mappingBitMatrix.getHeight())
}
getVersion() {
return this.version
}
static readVersion(t) {
const e = t.getHeight(), r = t.getWidth();
return ie.getVersionForDimensions(e, r)
}
readCodewords() {
const t = new Int8Array(this.version.getTotalCodewords());
let e = 0, r = 4, n = 0;
const i = this.mappingBitMatrix.getHeight(), s = this.mappingBitMatrix.getWidth();
let o = !1, a = !1, l = !1, h = !1;
do {
if (r !== i || 0 !== n || o) if (r !== i - 2 || 0 !== n || 0 == (3 & s) || a) if (r !== i + 4 || 2 !== n || 0 != (7 & s) || l) if (r !== i - 2 || 0 !== n || 4 != (7 & s) || h) {
do {
r < i && n >= 0 && !this.readMappingMatrix.get(n, r) && (t[e++] = 255 & this.readUtah(r, n, i, s)), r -= 2, n += 2
} while (r >= 0 && n < s);
r += 1, n += 3;
do {
r >= 0 && n < s && !this.readMappingMatrix.get(n, r) && (t[e++] = 255 & this.readUtah(r, n, i, s)), r += 2, n -= 2
} while (r < i && n >= 0);
r += 3, n += 1
} else t[e++] = 255 & this.readCorner4(i, s), r -= 2, n += 2, h = !0; else t[e++] = 255 & this.readCorner3(i, s), r -= 2, n += 2, l = !0; else t[e++] = 255 & this.readCorner2(i, s), r -= 2, n += 2, a = !0; else t[e++] = 255 & this.readCorner1(i, s), r -= 2, n += 2, o = !0
} while (r < i || n < s);
if (e !== this.version.getTotalCodewords()) throw new E;
return t
}
readModule(t, e, r, n) {
return t < 0 && (t += r, e += 4 - (r + 4 & 7)), e < 0 && (e += n, t += 4 - (n + 4 & 7)), this.readMappingMatrix.set(e, t), this.mappingBitMatrix.get(e, t)
}
readUtah(t, e, r, n) {
let i = 0;
return this.readModule(t - 2, e - 2, r, n) && (i |= 1), i <<= 1, this.readModule(t - 2, e - 1, r, n) && (i |= 1), i <<= 1, this.readModule(t - 1, e - 2, r, n) && (i |= 1), i <<= 1, this.readModule(t - 1, e - 1, r, n) && (i |= 1), i <<= 1, this.readModule(t - 1, e, r, n) && (i |= 1), i <<= 1, this.readModule(t, e - 2, r, n) && (i |= 1), i <<= 1, this.readModule(t, e - 1, r, n) && (i |= 1), i <<= 1, this.readModule(t, e, r, n) && (i |= 1), i
}
readCorner1(t, e) {
let r = 0;
return this.readModule(t - 1, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 1, 1, t, e) && (r |= 1), r <<= 1, this.readModule(t - 1, 2, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 2, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(2, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(3, e - 1, t, e) && (r |= 1), r
}
readCorner2(t, e) {
let r = 0;
return this.readModule(t - 3, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 2, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 1, 0, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 4, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 3, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 2, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 1, t, e) && (r |= 1), r
}
readCorner3(t, e) {
let r = 0;
return this.readModule(t - 1, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 1, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 3, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 2, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 3, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 2, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 1, t, e) && (r |= 1), r
}
readCorner4(t, e) {
let r = 0;
return this.readModule(t - 3, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 2, 0, t, e) && (r |= 1), r <<= 1, this.readModule(t - 1, 0, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 2, t, e) && (r |= 1), r <<= 1, this.readModule(0, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(1, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(2, e - 1, t, e) && (r |= 1), r <<= 1, this.readModule(3, e - 1, t, e) && (r |= 1), r
}
extractDataRegion(t) {
const e = this.version.getSymbolSizeRows(), r = this.version.getSymbolSizeColumns();
if (t.getHeight() !== e) throw new o("Dimension of bitMatrix must match the version size");
const n = this.version.getDataRegionSizeRows(), i = this.version.getDataRegionSizeColumns(), s = e / n | 0,
a = r / i | 0, l = new T(a * i, s * n);
for (let e = 0; e < s; ++e) {
const r = e * n;
for (let s = 0; s < a; ++s) {
const o = s * i;
for (let a = 0; a < n; ++a) {
const h = e * (n + 2) + 1 + a, c = r + a;
for (let e = 0; e < i; ++e) {
const r = s * (i + 2) + 1 + e;
if (t.get(r, h)) {
const t = o + e;
l.set(t, c)
}
}
}
}
}
return l
}
}
class oe {
constructor(t, e) {
this.numDataCodewords = t, this.codewords = e
}
static getDataBlocks(t, e) {
const r = e.getECBlocks();
let n = 0;
const i = r.getECBlocks();
for (let t of i) n += t.getCount();
const s = new Array(n);
let a = 0;
for (let t of i) for (let e = 0; e < t.getCount(); e++) {
const e = t.getDataCodewords(), n = r.getECCodewords() + e;
s[a++] = new oe(e, new Uint8Array(n))
}
const l = s[0].codewords.length - r.getECCodewords(), h = l - 1;
let c = 0;
for (let e = 0; e < h; e++) for (let r = 0; r < a; r++) s[r].codewords[e] = t[c++];
const u = 24 === e.getVersionNumber(), d = u ? 8 : a;
for (let e = 0; e < d; e++) s[e].codewords[l - 1] = t[c++];
const g = s[0].codewords.length;
for (let e = l; e < g; e++) for (let r = 0; r < a; r++) {
const n = u ? (r + 8) % a : r, i = u && n > 7 ? e - 1 : e;
s[n].codewords[i] = t[c++]
}
if (c !== t.length) throw new o;
return s
}
getNumDataCodewords() {
return this.numDataCodewords
}
getCodewords() {
return this.codewords
}
}
class ae {
constructor(t) {
this.bytes = t, this.byteOffset = 0, this.bitOffset = 0
}
getBitOffset() {
return this.bitOffset
}
getByteOffset() {
return this.byteOffset
}
readBits(t) {
if (t < 1 || t > 32 || t > this.available()) throw new o("" + t);
let e = 0, r = this.bitOffset, n = this.byteOffset;
const i = this.bytes;
if (r > 0) {
const s = 8 - r, o = t < s ? t : s, a = s - o, l = 255 >> 8 - o << a;
e = (i[n] & l) >> a, t -= o, r += o, 8 === r && (r = 0, n++)
}
if (t > 0) {
for (; t >= 8;) e = e << 8 | 255 & i[n], n++, t -= 8;
if (t > 0) {
const s = 8 - t, o = 255 >> s << s;
e = e << t | (i[n] & o) >> s, r += t
}
}
return this.bitOffset = r, this.byteOffset = n, e
}
available() {
return 8 * (this.bytes.length - this.byteOffset) - this.bitOffset
}
}
!function (t) {
t[t.PAD_ENCODE = 0] = "PAD_ENCODE", t[t.ASCII_ENCODE = 1] = "ASCII_ENCODE", t[t.C40_ENCODE = 2] = "C40_ENCODE", t[t.TEXT_ENCODE = 3] = "TEXT_ENCODE", t[t.ANSIX12_ENCODE = 4] = "ANSIX12_ENCODE", t[t.EDIFACT_ENCODE = 5] = "EDIFACT_ENCODE", t[t.BASE256_ENCODE = 6] = "BASE256_ENCODE"
}(V || (V = {}));
class le {
static decode(t) {
const e = new ae(t), r = new p, n = new p, i = new Array;
let s = V.ASCII_ENCODE;
do {
if (s === V.ASCII_ENCODE) s = this.decodeAsciiSegment(e, r, n); else {
switch (s) {
case V.C40_ENCODE:
this.decodeC40Segment(e, r);
break;
case V.TEXT_ENCODE:
this.decodeTextSegment(e, r);
break;
case V.ANSIX12_ENCODE:
this.decodeAnsiX12Segment(e, r);
break;
case V.EDIFACT_ENCODE:
this.decodeEdifactSegment(e, r);
break;
case V.BASE256_ENCODE:
this.decodeBase256Segment(e, r, i);
break;
default:
throw new E
}
s = V.ASCII_ENCODE
}
} while (s !== V.PAD_ENCODE && e.available() > 0);
return n.length() > 0 && r.append(n.toString()), new z(t, r.toString(), 0 === i.length ? null : i, null)
}
static decodeAsciiSegment(t, e, r) {
let n = !1;
do {
let i = t.readBits(8);
if (0 === i) throw new E;
if (i <= 128) return n && (i += 128), e.append(String.fromCharCode(i - 1)), V.ASCII_ENCODE;
if (129 === i) return V.PAD_ENCODE;
if (i <= 229) {
const t = i - 130;
t < 10 && e.append("0"), e.append("" + t)
} else switch (i) {
case 230:
return V.C40_ENCODE;
case 231:
return V.BASE256_ENCODE;
case 232:
e.append(String.fromCharCode(29));
break;
case 233:
case 234:
break;
case 235:
n = !0;
break;
case 236:
e.append("[)>05"), r.insert(0, "");
break;
case 237:
e.append("[)>06"), r.insert(0, "");
break;
case 238:
return V.ANSIX12_ENCODE;
case 239:
return V.TEXT_ENCODE;
case 240:
return V.EDIFACT_ENCODE;
case 241:
break;
default:
if (254 !== i || 0 !== t.available()) throw new E
}
} while (t.available() > 0);
return V.ASCII_ENCODE
}
static decodeC40Segment(t, e) {
let r = !1;
const n = [];
let i = 0;
do {
if (8 === t.available()) return;
const s = t.readBits(8);
if (254 === s) return;
this.parseTwoBytes(s, t.readBits(8), n);
for (let t = 0; t < 3; t++) {
const s = n[t];
switch (i) {
case 0:
if (s < 3) i = s + 1; else {
if (!(s < this.C40_BASIC_SET_CHARS.length)) throw new E;
{
const t = this.C40_BASIC_SET_CHARS[s];
r ? (e.append(String.fromCharCode(t.charCodeAt(0) + 128)), r = !1) : e.append(t)
}
}
break;
case 1:
r ? (e.append(String.fromCharCode(s + 128)), r = !1) : e.append(String.fromCharCode(s)), i = 0;
break;
case 2:
if (s < this.C40_SHIFT2_SET_CHARS.length) {
const t = this.C40_SHIFT2_SET_CHARS[s];
r ? (e.append(String.fromCharCode(t.charCodeAt(0) + 128)), r = !1) : e.append(t)
} else switch (s) {
case 27:
e.append(String.fromCharCode(29));
break;
case 30:
r = !0;
break;
default:
throw new E
}
i = 0;
break;
case 3:
r ? (e.append(String.fromCharCode(s + 224)), r = !1) : e.append(String.fromCharCode(s + 96)), i = 0;
break;
default:
throw new E
}
}
} while (t.available() > 0)
}
static decodeTextSegment(t, e) {
let r = !1, n = [], i = 0;
do {
if (8 === t.available()) return;
const s = t.readBits(8);
if (254 === s) return;
this.parseTwoBytes(s, t.readBits(8), n);
for (let t = 0; t < 3; t++) {
const s = n[t];
switch (i) {
case 0:
if (s < 3) i = s + 1; else {
if (!(s < this.TEXT_BASIC_SET_CHARS.length)) throw new E;
{
const t = this.TEXT_BASIC_SET_CHARS[s];
r ? (e.append(String.fromCharCode(t.charCodeAt(0) + 128)), r = !1) : e.append(t)
}
}
break;
case 1:
r ? (e.append(String.fromCharCode(s + 128)), r = !1) : e.append(String.fromCharCode(s)), i = 0;
break;
case 2:
if (s < this.TEXT_SHIFT2_SET_CHARS.length) {
const t = this.TEXT_SHIFT2_SET_CHARS[s];
r ? (e.append(String.fromCharCode(t.charCodeAt(0) + 128)), r = !1) : e.append(t)
} else switch (s) {
case 27:
e.append(String.fromCharCode(29));
break;
case 30:
r = !0;
break;
default:
throw new E
}
i = 0;
break;
case 3:
if (!(s < this.TEXT_SHIFT3_SET_CHARS.length)) throw new E;
{
const t = this.TEXT_SHIFT3_SET_CHARS[s];
r ? (e.append(String.fromCharCode(t.charCodeAt(0) + 128)), r = !1) : e.append(t), i = 0
}
break;
default:
throw new E
}
}
} while (t.available() > 0)
}
static decodeAnsiX12Segment(t, e) {
const r = [];
do {
if (8 === t.available()) return;
const n = t.readBits(8);
if (254 === n) return;
this.parseTwoBytes(n, t.readBits(8), r);
for (let t = 0; t < 3; t++) {
const n = r[t];
switch (n) {
case 0:
e.append("\r");
break;
case 1:
e.append("*");
break;
case 2:
e.append(">");
break;
case 3:
e.append(" ");
break;
default:
if (n < 14) e.append(String.fromCharCode(n + 44)); else {
if (!(n < 40)) throw new E;
e.append(String.fromCharCode(n + 51))
}
}
}
} while (t.available() > 0)
}
static parseTwoBytes(t, e, r) {
let n = (t << 8) + e - 1, i = Math.floor(n / 1600);
r[0] = i, n -= 1600 * i, i = Math.floor(n / 40), r[1] = i, r[2] = n - 40 * i
}
static decodeEdifactSegment(t, e) {
do {
if (t.available() <= 16) return;
for (let r = 0; r < 4; r++) {
let r = t.readBits(6);
if (31 === r) {
const e = 8 - t.getBitOffset();
return void (8 !== e && t.readBits(e))
}
0 == (32 & r) && (r |= 64), e.append(String.fromCharCode(r))
}
} while (t.available() > 0)
}
static decodeBase256Segment(t, e, r) {
let n = 1 + t.getByteOffset();
const i = this.unrandomize255State(t.readBits(8), n++);
let s;
if (s = 0 === i ? t.available() / 8 | 0 : i < 250 ? i : 250 * (i - 249) + this.unrandomize255State(t.readBits(8), n++), s < 0) throw new E;
const o = new Uint8Array(s);
for (let e = 0; e < s; e++) {
if (t.available() < 8) throw new E;
o[e] = this.unrandomize255State(t.readBits(8), n++)
}
r.push(o);
try {
e.append(I.decode(o, S.ISO88591))
} catch (t) {
throw new j("Platform does not support required encoding: " + t.message)
}
}
static unrandomize255State(t, e) {
const r = t - (149 * e % 255 + 1);
return r >= 0 ? r : r + 256
}
}
le.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"], le.C40_SHIFT2_SET_CHARS = ["!", '"', "#", "$", "%", "&", "'", "(", ")", "*", "+", ",", "-", ".", "/", ":", ";", "<", "=", ">", "?", "@", "[", "\\", "]", "^", "_"], le.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"], le.TEXT_SHIFT2_SET_CHARS = le.C40_SHIFT2_SET_CHARS, le.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)];
class he {
constructor() {
this.rsDecoder = new J(q.DATA_MATRIX_FIELD_256)
}
decode(t) {
const e = new se(t), r = e.getVersion(), n = e.readCodewords(), i = oe.getDataBlocks(n, r);
let s = 0;
for (let t of i) s += t.getNumDataCodewords();
const o = new Uint8Array(s), a = i.length;
for (let t = 0; t < a; t++) {
const e = i[t], r = e.getCodewords(), n = e.getNumDataCodewords();
this.correctErrors(r, n);
for (let e = 0; e < n; e++) o[e * a + t] = r[e]
}
return le.decode(o)
}
correctErrors(t, e) {
const r = new Int32Array(t);
try {
this.rsDecoder.decode(r, t.length - e)
} catch (t) {
throw new l
}
for (let n = 0; n < e; n++) t[n] = r[n]
}
}
class ce {
constructor(t) {
this.image = t, this.rectangleDetector = new st(this.image)
}
detect() {
const t = this.rectangleDetector.detect();
let e = this.detectSolid1(t);
if (e = this.detectSolid2(e), e[3] = this.correctTopRight(e), !e[3]) throw new R;
e = this.shiftToModuleCenter(e);
const r = e[0], n = e[1], i = e[2], s = e[3];
let o = this.transitionsBetween(r, s) + 1, a = this.transitionsBetween(i, s) + 1;
1 == (1 & o) && (o += 1), 1 == (1 & a) && (a += 1), 4 * o < 7 * a && 4 * a < 7 * o && (o = a = Math.max(o, a));
let l = ce.sampleGrid(this.image, r, n, i, s, o, a);
return new nt(l, [r, n, i, s])
}
static shiftPoint(t, e, r) {
let n = (e.getX() - t.getX()) / (r + 1), i = (e.getY() - t.getY()) / (r + 1);
return new rt(t.getX() + n, t.getY() + i)
}
static moveAway(t, e, r) {
let n = t.getX(), i = t.getY();
return n < e ? n -= 1 : n += 1, i < r ? i -= 1 : i += 1, new rt(n, i)
}
detectSolid1(t) {
let e = t[0], r = t[1], n = t[3], i = t[2], s = this.transitionsBetween(e, r),
o = this.transitionsBetween(r, n), a = this.transitionsBetween(n, i), l = this.transitionsBetween(i, e),
h = s, c = [i, e, r, n];
return h > o && (h = o, c[0] = e, c[1] = r, c[2] = n, c[3] = i), h > a && (h = a, c[0] = r, c[1] = n, c[2] = i, c[3] = e), h > l && (c[0] = n, c[1] = i, c[2] = e, c[3] = r), c
}
detectSolid2(t) {
let e = t[0], r = t[1], n = t[2], i = t[3], s = this.transitionsBetween(e, i),
o = ce.shiftPoint(r, n, 4 * (s + 1)), a = ce.shiftPoint(n, r, 4 * (s + 1));
return this.transitionsBetween(o, e) < this.transitionsBetween(a, i) ? (t[0] = e, t[1] = r, t[2] = n, t[3] = i) : (t[0] = r, t[1] = n, t[2] = i, t[3] = e), t
}
correctTopRight(t) {
let e = t[0], r = t[1], n = t[2], i = t[3], s = this.transitionsBetween(e, i),
o = this.transitionsBetween(r, i), a = ce.shiftPoint(e, r, 4 * (o + 1)),
l = ce.shiftPoint(n, r, 4 * (s + 1));
s = this.transitionsBetween(a, i), o = this.transitionsBetween(l, i);
let h = new rt(i.getX() + (n.getX() - r.getX()) / (s + 1), i.getY() + (n.getY() - r.getY()) / (s + 1)),
c = new rt(i.getX() + (e.getX() - r.getX()) / (o + 1), i.getY() + (e.getY() - r.getY()) / (o + 1));
return this.isValid(h) ? this.isValid(c) ? this.transitionsBetween(a, h) + this.transitionsBetween(l, h) > this.transitionsBetween(a, c) + this.transitionsBetween(l, c) ? h : c : h : this.isValid(c) ? c : null
}
shiftToModuleCenter(t) {
let e = t[0], r = t[1], n = t[2], i = t[3], s = this.transitionsBetween(e, i) + 1,
o = this.transitionsBetween(n, i) + 1, a = ce.shiftPoint(e, r, 4 * o), l = ce.shiftPoint(n, r, 4 * s);
s = this.transitionsBetween(a, i) + 1, o = this.transitionsBetween(l, i) + 1, 1 == (1 & s) && (s += 1), 1 == (1 & o) && (o += 1);
let h, c, u = (e.getX() + r.getX() + n.getX() + i.getX()) / 4,
d = (e.getY() + r.getY() + n.getY() + i.getY()) / 4;
return e = ce.moveAway(e, u, d), r = ce.moveAway(r, u, d), n = ce.moveAway(n, u, d), i = ce.moveAway(i, u, d), a = ce.shiftPoint(e, r, 4 * o), a = ce.shiftPoint(a, i, 4 * s), h = ce.shiftPoint(r, e, 4 * o), h = ce.shiftPoint(h, n, 4 * s), l = ce.shiftPoint(n, i, 4 * o), l = ce.shiftPoint(l, r, 4 * s), c = ce.shiftPoint(i, n, 4 * o), c = ce.shiftPoint(c, e, 4 * s), [a, h, l, c]
}
isValid(t) {
return t.getX() >= 0 && t.getX() < this.image.getWidth() && t.getY() > 0 && t.getY() < this.image.getHeight()
}
static sampleGrid(t, e, r, n, i, s, o) {
return ht.getInstance().sampleGrid(t, s, o, .5, .5, s - .5, .5, s - .5, o - .5, .5, o - .5, e.getX(), e.getY(), i.getX(), i.getY(), n.getX(), n.getY(), r.getX(), r.getY())
}
transitionsBetween(t, e) {
let r = Math.trunc(t.getX()), n = Math.trunc(t.getY()), i = Math.trunc(e.getX()), s = Math.trunc(e.getY()),
o = Math.abs(s - n) > Math.abs(i - r);
if (o) {
let t = r;
r = n, n = t, t = i, i = s, s = t
}
let a = Math.abs(i - r), l = Math.abs(s - n), h = -a / 2, c = n < s ? 1 : -1, u = r < i ? 1 : -1, d = 0,
g = this.image.get(o ? n : r, o ? r : n);
for (let t = r, e = n; t !== i; t += u) {
let r = this.image.get(o ? e : t, o ? t : e);
if (r !== g && (d++, g = r), h += l, h > 0) {
if (e === s) break;
e += c, h -= a
}
}
return d
}
}
class ue {
constructor() {
this.decoder = new he
}
decode(t, e = null) {
let r, n;
if (null != e && e.has(C.PURE_BARCODE)) {
const e = ue.extractPureBits(t.getBlackMatrix());
r = this.decoder.decode(e), n = ue.NO_POINTS
} else {
const e = new ce(t.getBlackMatrix()).detect();
r = this.decoder.decode(e.getBits()), n = e.getPoints()
}
const i = r.getRawBytes(), s = new F(r.getText(), i, 8 * i.length, n, v.DATA_MATRIX, c.currentTimeMillis()),
o = r.getByteSegments();
null != o && s.putMetadata(W.BYTE_SEGMENTS, o);
const a = r.getECLevel();
return null != a && s.putMetadata(W.ERROR_CORRECTION_LEVEL, a), s
}
reset() {
}
static extractPureBits(t) {
const e = t.getTopLeftOnBit(), r = t.getBottomRightOnBit();
if (null == e || null == r) throw new R;
const n = this.moduleSize(e, t);
let i = e[1];
const s = r[1];
let o = e[0];
const a = (r[0] - o + 1) / n, l = (s - i + 1) / n;
if (a <= 0 || l <= 0) throw new R;
const h = n / 2;
i += h, o += h;
const c = new T(a, l);
for (let e = 0; e < l; e++) {
const r = i + e * n;
for (let i = 0; i < a; i++) t.get(o + i * n, r) && c.set(i, e)
}
return c
}
static moduleSize(t, e) {
const r = e.getWidth();
let n = t[0];
const i = t[1];
for (; n < r && e.get(n, i);) n++;
if (n === r) throw new R;
const s = n - t[0];
if (0 === s) throw new R;
return s
}
}
ue.NO_POINTS = [];
!function (t) {
t[t.L = 0] = "L", t[t.M = 1] = "M", t[t.Q = 2] = "Q", t[t.H = 3] = "H"
}(U || (U = {}));
class de {
constructor(t, e, r) {
this.value = t, this.stringValue = e, this.bits = r, de.FOR_BITS.set(r, this), de.FOR_VALUE.set(t, this)
}
getValue() {
return this.value
}
getBits() {
return this.bits
}
static fromString(t) {
switch (t) {
case"L":
return de.L;
case"M":
return de.M;
case"Q":
return de.Q;
case"H":
return de.H;
default:
throw new s(t + "not available")
}
}
toString() {
return this.stringValue
}
equals(t) {
if (!(t instanceof de)) return !1;
const e = t;
return this.value === e.value
}
static forBits(t) {
if (t < 0 || t >= de.FOR_BITS.size) throw new o;
return de.FOR_BITS.get(t)
}
}
de.FOR_BITS = new Map, de.FOR_VALUE = new Map, de.L = new de(U.L, "L", 1), de.M = new de(U.M, "M", 0), de.Q = new de(U.Q, "Q", 3), de.H = new de(U.H, "H", 2);
class ge {
constructor(t) {
this.errorCorrectionLevel = de.forBits(t >> 3 & 3), this.dataMask = 7 & t
}
static numBitsDiffering(t, e) {
return f.bitCount(t ^ e)
}
static decodeFormatInformation(t, e) {
const r = ge.doDecodeFormatInformation(t, e);
return null !== r ? r : ge.doDecodeFormatInformation(t ^ ge.FORMAT_INFO_MASK_QR, e ^ ge.FORMAT_INFO_MASK_QR)
}
static doDecodeFormatInformation(t, e) {
let r = Number.MAX_SAFE_INTEGER, n = 0;
for (const i of ge.FORMAT_INFO_DECODE_LOOKUP) {
const s = i[0];
if (s === t || s === e) return new ge(i[1]);
let o = ge.numBitsDiffering(t, s);
o < r && (n = i[1], r = o), t !== e && (o = ge.numBitsDiffering(e, s), o < r && (n = i[1], r = o))
}
return r <= 3 ? new ge(n) : null
}
getErrorCorrectionLevel() {
return this.errorCorrectionLevel
}
getDataMask() {
return this.dataMask
}
hashCode() {
return this.errorCorrectionLevel.getBits() << 3 | this.dataMask
}
equals(t) {
if (!(t instanceof ge)) return !1;
const e = t;
return this.errorCorrectionLevel === e.errorCorrectionLevel && this.dataMask === e.dataMask
}
}
ge.FORMAT_INFO_MASK_QR = 21522, ge.FORMAT_INFO_DECODE_LOOKUP = [Int32Array.from([21522, 0]), Int32Array.from([20773, 1]), Int32Array.from([24188, 2]), Int32Array.from([23371, 3]), Int32Array.from([17913, 4]), Int32Array.from([16590, 5]), Int32Array.from([20375, 6]), Int32Array.from([19104, 7]), Int32Array.from([30660, 8]), Int32Array.from([29427, 9]), Int32Array.from([32170, 10]), Int32Array.from([30877, 11]), Int32Array.from([26159, 12]), Int32Array.from([25368, 13]), Int32Array.from([27713, 14]), Int32Array.from([26998, 15]), Int32Array.from([5769, 16]), Int32Array.from([5054, 17]), Int32Array.from([7399, 18]), Int32Array.from([6608, 19]), Int32Array.from([1890, 20]), Int32Array.from([597, 21]), Int32Array.from([3340, 22]), Int32Array.from([2107, 23]), Int32Array.from([13663, 24]), Int32Array.from([12392, 25]), Int32Array.from([16177, 26]), Int32Array.from([14854, 27]), Int32Array.from([9396, 28]), Int32Array.from([8579, 29]), Int32Array.from([11994, 30]), Int32Array.from([11245, 31])];
class fe {
constructor(t, ...e) {
this.ecCodewordsPerBlock = t, this.ecBlocks = e
}
getECCodewordsPerBlock() {
return this.ecCodewordsPerBlock
}
getNumBlocks() {
let t = 0;
const e = this.ecBlocks;
for (const r of e) t += r.getCount();
return t
}
getTotalECCodewords() {
return this.ecCodewordsPerBlock * this.getNumBlocks()
}
getECBlocks() {
return this.ecBlocks
}
}
class we {
constructor(t, e) {
this.count = t, this.dataCodewords = e
}
getCount() {
return this.count
}
getDataCodewords() {
return this.dataCodewords
}
}
class Ae {
constructor(t, e, ...r) {
this.versionNumber = t, this.alignmentPatternCenters = e, this.ecBlocks = r;
let n = 0;
const i = r[0].getECCodewordsPerBlock(), s = r[0].getECBlocks();
for (const t of s) n += t.getCount() * (t.getDataCodewords() + i);
this.totalCodewords = n
}
getVersionNumber() {
return this.versionNumber
}
getAlignmentPatternCenters() {
return this.alignmentPatternCenters
}
getTotalCodewords() {
return this.totalCodewords
}
getDimensionForVersion() {
return 17 + 4 * this.versionNumber
}
getECBlocksForLevel(t) {
return this.ecBlocks[t.getValue()]
}
static getProvisionalVersionForDimension(t) {
if (t % 4 != 1) throw new E;
try {
return this.getVersionForNumber((t - 17) / 4)
} catch (t) {
throw new E
}
}
static getVersionForNumber(t) {
if (t < 1 || t > 40) throw new o;
return Ae.VERSIONS[t - 1]
}
static decodeVersionInformation(t) {
let e = Number.MAX_SAFE_INTEGER, r = 0;
for (let n = 0; n < Ae.VERSION_DECODE_INFO.length; n++) {
const i = Ae.VERSION_DECODE_INFO[n];
if (i === t) return Ae.getVersionForNumber(n + 7);
const s = ge.numBitsDiffering(t, i);
s < e && (r = n + 7, e = s)
}
return e <= 3 ? Ae.getVersionForNumber(r) : null
}
buildFunctionPattern() {
const t = this.getDimensionForVersion(), e = new T(t);
e.setRegion(0, 0, 9, 9), e.setRegion(t - 8, 0, 8, 9), e.setRegion(0, t - 8, 9, 8);
const r = this.alignmentPatternCenters.length;
for (let t = 0; t < r; t++) {
const n = this.alignmentPatternCenters[t] - 2;
for (let i = 0; i < r; i++) 0 === t && (0 === i || i === r - 1) || t === r - 1 && 0 === i || e.setRegion(this.alignmentPatternCenters[i] - 2, n, 5, 5)
}
return e.setRegion(6, 9, 1, t - 17), e.setRegion(9, 6, t - 17, 1), this.versionNumber > 6 && (e.setRegion(t - 11, 0, 3, 6), e.setRegion(0, t - 11, 6, 3)), e
}
toString() {
return "" + this.versionNumber
}
}
Ae.VERSION_DECODE_INFO = Int32Array.from([31892, 34236, 39577, 42195, 48118, 51042, 55367, 58893, 63784, 68472, 70749, 76311, 79154, 84390, 87683, 92361, 96236, 102084, 102881, 110507, 110734, 117786, 119615, 126325, 127568, 133589, 136944, 141498, 145311, 150283, 152622, 158308, 161089, 167017]), Ae.VERSIONS = [new Ae(1, new Int32Array(0), new fe(7, new we(1, 19)), new fe(10, new we(1, 16)), new fe(13, new we(1, 13)), new fe(17, new we(1, 9))), new Ae(2, Int32Array.from([6, 18]), new fe(10, new we(1, 34)), new fe(16, new we(1, 28)), new fe(22, new we(1, 22)), new fe(28, new we(1, 16))), new Ae(3, Int32Array.from([6, 22]), new fe(15, new we(1, 55)), new fe(26, new we(1, 44)), new fe(18, new we(2, 17)), new fe(22, new we(2, 13))), new Ae(4, Int32Array.from([6, 26]), new fe(20, new we(1, 80)), new fe(18, new we(2, 32)), new fe(26, new we(2, 24)), new fe(16, new we(4, 9))), new Ae(5, Int32Array.from([6, 30]), new fe(26, new we(1, 108)), new fe(24, new we(2, 43)), new fe(18, new we(2, 15), new we(2, 16)), new fe(22, new we(2, 11), new we(2, 12))), new Ae(6, Int32Array.from([6, 34]), new fe(18, new we(2, 68)), new fe(16, new we(4, 27)), new fe(24, new we(4, 19)), new fe(28, new we(4, 15))), new Ae(7, Int32Array.from([6, 22, 38]), new fe(20, new we(2, 78)), new fe(18, new we(4, 31)), new fe(18, new we(2, 14), new we(4, 15)), new fe(26, new we(4, 13), new we(1, 14))), new Ae(8, Int32Array.from([6, 24, 42]), new fe(24, new we(2, 97)), new fe(22, new we(2, 38), new we(2, 39)), new fe(22, new we(4, 18), new we(2, 19)), new fe(26, new we(4, 14), new we(2, 15))), new Ae(9, Int32Array.from([6, 26, 46]), new fe(30, new we(2, 116)), new fe(22, new we(3, 36), new we(2, 37)), new fe(20, new we(4, 16), new we(4, 17)), new fe(24, new we(4, 12), new we(4, 13))), new Ae(10, Int32Array.from([6, 28, 50]), new fe(18, new we(2, 68), new we(2, 69)), new fe(26, new we(4, 43), new we(1, 44)), new fe(24, new we(6, 19), new we(2, 20)), new fe(28, new we(6, 15), new we(2, 16))), new Ae(11, Int32Array.from([6, 30, 54]), new fe(20, new we(4, 81)), new fe(30, new we(1, 50), new we(4, 51)), new fe(28, new we(4, 22), new we(4, 23)), new fe(24, new we(3, 12), new we(8, 13))), new Ae(12, Int32Array.from([6, 32, 58]), new fe(24, new we(2, 92), new we(2, 93)), new fe(22, new we(6, 36), new we(2, 37)), new fe(26, new we(4, 20), new we(6, 21)), new fe(28, new we(7, 14), new we(4, 15))), new Ae(13, Int32Array.from([6, 34, 62]), new fe(26, new we(4, 107)), new fe(22, new we(8, 37), new we(1, 38)), new fe(24, new we(8, 20), new we(4, 21)), new fe(22, new we(12, 11), new we(4, 12))), new Ae(14, Int32Array.from([6, 26, 46, 66]), new fe(30, new we(3, 115), new we(1, 116)), new fe(24, new we(4, 40), new we(5, 41)), new fe(20, new we(11, 16), new we(5, 17)), new fe(24, new we(11, 12), new we(5, 13))), new Ae(15, Int32Array.from([6, 26, 48, 70]), new fe(22, new we(5, 87), new we(1, 88)), new fe(24, new we(5, 41), new we(5, 42)), new fe(30, new we(5, 24), new we(7, 25)), new fe(24, new we(11, 12), new we(7, 13))), new Ae(16, Int32Array.from([6, 26, 50, 74]), new fe(24, new we(5, 98), new we(1, 99)), new fe(28, new we(7, 45), new we(3, 46)), new fe(24, new we(15, 19), new we(2, 20)), new fe(30, new we(3, 15), new we(13, 16))), new Ae(17, Int32Array.from([6, 30, 54, 78]), new fe(28, new we(1, 107), new we(5, 108)), new fe(28, new we(10, 46), new we(1, 47)), new fe(28, new we(1, 22), new we(15, 23)), new fe(28, new we(2, 14), new we(17, 15))), new Ae(18, Int32Array.from([6, 30, 56, 82]), new fe(30, new we(5, 120), new we(1, 121)), new fe(26, new we(9, 43), new we(4, 44)), new fe(28, new we(17, 22), new we(1, 23)), new fe(28, new we(2, 14), new we(19, 15))), new Ae(19, Int32Array.from([6, 30, 58, 86]), new fe(28, new we(3, 113), new we(4, 114)), new fe(26, new we(3, 44), new we(11, 45)), new fe(26, new we(17, 21), new we(4, 22)), new fe(26, new we(9, 13), new we(16, 14))), new Ae(20, Int32Array.from([6, 34, 62, 90]), new fe(28, new we(3, 107), new we(5, 108)), new fe(26, new we(3, 41), new we(13, 42)), new fe(30, new we(15, 24), new we(5, 25)), new fe(28, new we(15, 15), new we(10, 16))), new Ae(21, Int32Array.from([6, 28, 50, 72, 94]), new fe(28, new we(4, 116), new we(4, 117)), new fe(26, new we(17, 42)), new fe(28, new we(17, 22), new we(6, 23)), new fe(30, new we(19, 16), new we(6, 17))), new Ae(22, Int32Array.from([6, 26, 50, 74, 98]), new fe(28, new we(2, 111), new we(7, 112)), new fe(28, new we(17, 46)), new fe(30, new we(7, 24), new we(16, 25)), new fe(24, new we(34, 13))), new Ae(23, Int32Array.from([6, 30, 54, 78, 102]), new fe(30, new we(4, 121), new we(5, 122)), new fe(28, new we(4, 47), new we(14, 48)), new fe(30, new we(11, 24), new we(14, 25)), new fe(30, new we(16, 15), new we(14, 16))), new Ae(24, Int32Array.from([6, 28, 54, 80, 106]), new fe(30, new we(6, 117), new we(4, 118)), new fe(28, new we(6, 45), new we(14, 46)), new fe(30, new we(11, 24), new we(16, 25)), new fe(30, new we(30, 16), new we(2, 17))), new Ae(25, Int32Array.from([6, 32, 58, 84, 110]), new fe(26, new we(8, 106), new we(4, 107)), new fe(28, new we(8, 47), new we(13, 48)), new fe(30, new we(7, 24), new we(22, 25)), new fe(30, new we(22, 15), new we(13, 16))), new Ae(26, Int32Array.from([6, 30, 58, 86, 114]), new fe(28, new we(10, 114), new we(2, 115)), new fe(28, new we(19, 46), new we(4, 47)), new fe(28, new we(28, 22), new we(6, 23)), new fe(30, new we(33, 16), new we(4, 17))), new Ae(27, Int32Array.from([6, 34, 62, 90, 118]), new fe(30, new we(8, 122), new we(4, 123)), new fe(28, new we(22, 45), new we(3, 46)), new fe(30, new we(8, 23), new we(26, 24)), new fe(30, new we(12, 15), new we(28, 16))), new Ae(28, Int32Array.from([6, 26, 50, 74, 98, 122]), new fe(30, new we(3, 117), new we(10, 118)), new fe(28, new we(3, 45), new we(23, 46)), new fe(30, new we(4, 24), new we(31, 25)), new fe(30, new we(11, 15), new we(31, 16))), new Ae(29, Int32Array.from([6, 30, 54, 78, 102, 126]), new fe(30, new we(7, 116), new we(7, 117)), new fe(28, new we(21, 45), new we(7, 46)), new fe(30, new we(1, 23), new we(37, 24)), new fe(30, new we(19, 15), new we(26, 16))), new Ae(30, Int32Array.from([6, 26, 52, 78, 104, 130]), new fe(30, new we(5, 115), new we(10, 116)), new fe(28, new we(19, 47), new we(10, 48)), new fe(30, new we(15, 24), new we(25, 25)), new fe(30, new we(23, 15), new we(25, 16))), new Ae(31, Int32Array.from([6, 30, 56, 82, 108, 134]), new fe(30, new we(13, 115), new we(3, 116)), new fe(28, new we(2, 46), new we(29, 47)), new fe(30, new we(42, 24), new we(1, 25)), new fe(30, new we(23, 15), new we(28, 16))), new Ae(32, Int32Array.from([6, 34, 60, 86, 112, 138]), new fe(30, new we(17, 115)), new fe(28, new we(10, 46), new we(23, 47)), new fe(30, new we(10, 24), new we(35, 25)), new fe(30, new we(19, 15), new we(35, 16))), new Ae(33, Int32Array.from([6, 30, 58, 86, 114, 142]), new fe(30, new we(17, 115), new we(1, 116)), new fe(28, new we(14, 46), new we(21, 47)), new fe(30, new we(29, 24), new we(19, 25)), new fe(30, new we(11, 15), new we(46, 16))), new Ae(34, Int32Array.from([6, 34, 62, 90, 118, 146]), new fe(30, new we(13, 115), new we(6, 116)), new fe(28, new we(14, 46), new we(23, 47)), new fe(30, new we(44, 24), new we(7, 25)), new fe(30, new we(59, 16), new we(1, 17))), new Ae(35, Int32Array.from([6, 30, 54, 78, 102, 126, 150]), new fe(30, new we(12, 121), new we(7, 122)), new fe(28, new we(12, 47), new we(26, 48)), new fe(30, new we(39, 24), new we(14, 25)), new fe(30, new we(22, 15), new we(41, 16))), new Ae(36, Int32Array.from([6, 24, 50, 76, 102, 128, 154]), new fe(30, new we(6, 121), new we(14, 122)), new fe(28, new we(6, 47), new we(34, 48)), new fe(30, new we(46, 24), new we(10, 25)), new fe(30, new we(2, 15), new we(64, 16))), new Ae(37, Int32Array.from([6, 28, 54, 80, 106, 132, 158]), new fe(30, new we(17, 122), new we(4, 123)), new fe(28, new we(29, 46), new we(14, 47)), new fe(30, new we(49, 24), new we(10, 25)), new fe(30, new we(24, 15), new we(46, 16))), new Ae(38, Int32Array.from([6, 32, 58, 84, 110, 136, 162]), new fe(30, new we(4, 122), new we(18, 123)), new fe(28, new we(13, 46), new we(32, 47)), new fe(30, new we(48, 24), new we(14, 25)), new fe(30, new we(42, 15), new we(32, 16))), new Ae(39, Int32Array.from([6, 26, 54, 82, 110, 138, 166]), new fe(30, new we(20, 117), new we(4, 118)), new fe(28, new we(40, 47), new we(7, 48)), new fe(30, new we(43, 24), new we(22, 25)), new fe(30, new we(10, 15), new we(67, 16))), new Ae(40, Int32Array.from([6, 30, 58, 86, 114, 142, 170]), new fe(30, new we(19, 118), new we(6, 119)), new fe(28, new we(18, 47), new we(31, 48)), new fe(30, new we(34, 24), new we(34, 25)), new fe(30, new we(20, 15), new we(61, 16)))], function (t) {
t[t.DATA_MASK_000 = 0] = "DATA_MASK_000", t[t.DATA_MASK_001 = 1] = "DATA_MASK_001", t[t.DATA_MASK_010 = 2] = "DATA_MASK_010", t[t.DATA_MASK_011 = 3] = "DATA_MASK_011", t[t.DATA_MASK_100 = 4] = "DATA_MASK_100", t[t.DATA_MASK_101 = 5] = "DATA_MASK_101", t[t.DATA_MASK_110 = 6] = "DATA_MASK_110", t[t.DATA_MASK_111 = 7] = "DATA_MASK_111"
}(H || (H = {}));
class Ce {
constructor(t, e) {
this.value = t, this.isMasked = e
}
unmaskBitMatrix(t, e) {
for (let r = 0; r < e; r++) for (let n = 0; n < e; n++) this.isMasked(r, n) && t.flip(n, r)
}
}
Ce.values = new Map([[H.DATA_MASK_000, new Ce(H.DATA_MASK_000, ((t, e) => 0 == (t + e & 1)))], [H.DATA_MASK_001, new Ce(H.DATA_MASK_001, ((t, e) => 0 == (1 & t)))], [H.DATA_MASK_010, new Ce(H.DATA_MASK_010, ((t, e) => e % 3 == 0))], [H.DATA_MASK_011, new Ce(H.DATA_MASK_011, ((t, e) => (t + e) % 3 == 0))], [H.DATA_MASK_100, new Ce(H.DATA_MASK_100, ((t, e) => 0 == (Math.floor(t / 2) + Math.floor(e / 3) & 1)))], [H.DATA_MASK_101, new Ce(H.DATA_MASK_101, ((t, e) => t * e % 6 == 0))], [H.DATA_MASK_110, new Ce(H.DATA_MASK_110, ((t, e) => t * e % 6 < 3))], [H.DATA_MASK_111, new Ce(H.DATA_MASK_111, ((t, e) => 0 == (t + e + t * e % 3 & 1)))]]);
class Ee {
constructor(t) {
const e = t.getHeight();
if (e < 21 || 1 != (3 & e)) throw new E;
this.bitMatrix = t
}
readFormatInformation() {
if (null !== this.parsedFormatInfo && void 0 !== this.parsedFormatInfo) return this.parsedFormatInfo;
let t = 0;
for (let e = 0; e < 6; e++) t = this.copyBit(e, 8, t);
t = this.copyBit(7, 8, t), t = this.copyBit(8, 8, t), t = this.copyBit(8, 7, t);
for (let e = 5; e >= 0; e--) t = this.copyBit(8, e, t);
const e = this.bitMatrix.getHeight();
let r = 0;
const n = e - 7;
for (let t = e - 1; t >= n; t--) r = this.copyBit(8, t, r);
for (let t = e - 8; t < e; t++) r = this.copyBit(t, 8, r);
if (this.parsedFormatInfo = ge.decodeFormatInformation(t, r), null !== this.parsedFormatInfo) return this.parsedFormatInfo;
throw new E
}
readVersion() {
if (null !== this.parsedVersion && void 0 !== this.parsedVersion) return this.parsedVersion;
const t = this.bitMatrix.getHeight(), e = Math.floor((t - 17) / 4);
if (e <= 6) return Ae.getVersionForNumber(e);
let r = 0;
const n = t - 11;
for (let e = 5; e >= 0; e--) for (let i = t - 9; i >= n; i--) r = this.copyBit(i, e, r);
let i = Ae.decodeVersionInformation(r);
if (null !== i && i.getDimensionForVersion() === t) return this.parsedVersion = i, i;
r = 0;
for (let e = 5; e >= 0; e--) for (let i = t - 9; i >= n; i--) r = this.copyBit(e, i, r);
if (i = Ae.decodeVersionInformation(r), null !== i && i.getDimensionForVersion() === t) return this.parsedVersion = i, i;
throw new E
}
copyBit(t, e, r) {
return (this.isMirror ? this.bitMatrix.get(e, t) : this.bitMatrix.get(t, e)) ? r << 1 | 1 : r << 1
}
readCodewords() {
const t = this.readFormatInformation(), e = this.readVersion(), r = Ce.values.get(t.getDataMask()),
n = this.bitMatrix.getHeight();
r.unmaskBitMatrix(this.bitMatrix, n);
const i = e.buildFunctionPattern();
let s = !0;
const o = new Uint8Array(e.getTotalCodewords());
let a = 0, l = 0, h = 0;
for (let t = n - 1; t > 0; t -= 2) {
6 === t && t--;
for (let e = 0; e < n; e++) {
const r = s ? n - 1 - e : e;
for (let e = 0; e < 2; e++) i.get(t - e, r) || (h++, l <<= 1, this.bitMatrix.get(t - e, r) && (l |= 1), 8 === h && (o[a++] = l, h = 0, l = 0))
}
s = !s
}
if (a !== e.getTotalCodewords()) throw new E;
return o
}
remask() {
if (null === this.parsedFormatInfo) return;
const t = Ce.values[this.parsedFormatInfo.getDataMask()], e = this.bitMatrix.getHeight();
t.unmaskBitMatrix(this.bitMatrix, e)
}
setMirror(t) {
this.parsedVersion = null, this.parsedFormatInfo = null, this.isMirror = t
}
mirror() {
const t = this.bitMatrix;
for (let e = 0, r = t.getWidth(); e < r; e++) for (let r = e + 1, n = t.getHeight(); r < n; r++) t.get(e, r) !== t.get(r, e) && (t.flip(r, e), t.flip(e, r))
}
}
class me {
constructor(t, e) {
this.numDataCodewords = t, this.codewords = e
}
static getDataBlocks(t, e, r) {
if (t.length !== e.getTotalCodewords()) throw new o;
const n = e.getECBlocksForLevel(r);
let i = 0;
const s = n.getECBlocks();
for (const t of s) i += t.getCount();
const a = new Array(i);
let l = 0;
for (const t of s) for (let e = 0; e < t.getCount(); e++) {
const e = t.getDataCodewords(), r = n.getECCodewordsPerBlock() + e;
a[l++] = new me(e, new Uint8Array(r))
}
const h = a[0].codewords.length;
let c = a.length - 1;
for (; c >= 0;) {
if (a[c].codewords.length === h) break;
c--
}
c++;
const u = h - n.getECCodewordsPerBlock();
let d = 0;
for (let e = 0; e < u; e++) for (let r = 0; r < l; r++) a[r].codewords[e] = t[d++];
for (let e = c; e < l; e++) a[e].codewords[u] = t[d++];
const g = a[0].codewords.length;
for (let e = u; e < g; e++) for (let r = 0; r < l; r++) {
const n = r < c ? e : e + 1;
a[r].codewords[n] = t[d++]
}
return a
}
getNumDataCodewords() {
return this.numDataCodewords
}
getCodewords() {
return this.codewords
}
}
!function (t) {
t[t.TERMINATOR = 0] = "TERMINATOR", t[t.NUMERIC = 1] = "NUMERIC", t[t.ALPHANUMERIC = 2] = "ALPHANUMERIC", t[t.STRUCTURED_APPEND = 3] = "STRUCTURED_APPEND", t[t.BYTE = 4] = "BYTE", t[t.ECI = 5] = "ECI", t[t.KANJI = 6] = "KANJI", t[t.FNC1_FIRST_POSITION = 7] = "FNC1_FIRST_POSITION", t[t.FNC1_SECOND_POSITION = 8] = "FNC1_SECOND_POSITION", t[t.HANZI = 9] = "HANZI"
}(G || (G = {}));
class _e {
constructor(t, e, r, n) {
this.value = t, this.stringValue = e, this.characterCountBitsForVersions = r, this.bits = n, _e.FOR_BITS.set(n, this), _e.FOR_VALUE.set(t, this)
}
static forBits(t) {
const e = _e.FOR_BITS.get(t);
if (void 0 === e) throw new o;
return e
}
getCharacterCountBits(t) {
const e = t.getVersionNumber();
let r;
return r = e <= 9 ? 0 : e <= 26 ? 1 : 2, this.characterCountBitsForVersions[r]
}
getValue() {
return this.value
}
getBits() {
return this.bits
}
equals(t) {
if (!(t instanceof _e)) return !1;
const e = t;
return this.value === e.value
}
toString() {
return this.stringValue
}
}
_e.FOR_BITS = new Map, _e.FOR_VALUE = new Map, _e.TERMINATOR = new _e(G.TERMINATOR, "TERMINATOR", Int32Array.from([0, 0, 0]), 0), _e.NUMERIC = new _e(G.NUMERIC, "NUMERIC", Int32Array.from([10, 12, 14]), 1), _e.ALPHANUMERIC = new _e(G.ALPHANUMERIC, "ALPHANUMERIC", Int32Array.from([9, 11, 13]), 2), _e.STRUCTURED_APPEND = new _e(G.STRUCTURED_APPEND, "STRUCTURED_APPEND", Int32Array.from([0, 0, 0]), 3), _e.BYTE = new _e(G.BYTE, "BYTE", Int32Array.from([8, 16, 16]), 4), _e.ECI = new _e(G.ECI, "ECI", Int32Array.from([0, 0, 0]), 7), _e.KANJI = new _e(G.KANJI, "KANJI", Int32Array.from([8, 10, 12]), 8), _e.FNC1_FIRST_POSITION = new _e(G.FNC1_FIRST_POSITION, "FNC1_FIRST_POSITION", Int32Array.from([0, 0, 0]), 5), _e.FNC1_SECOND_POSITION = new _e(G.FNC1_SECOND_POSITION, "FNC1_SECOND_POSITION", Int32Array.from([0, 0, 0]), 9), _e.HANZI = new _e(G.HANZI, "HANZI", Int32Array.from([8, 10, 12]), 13);
class Ie {
static decode(t, e, r, n) {
const i = new ae(t);
let s = new p;
const o = new Array;
let a = -1, l = -1;
try {
let t, r = null, h = !1;
do {
if (i.available() < 4) t = _e.TERMINATOR; else {
const e = i.readBits(4);
t = _e.forBits(e)
}
switch (t) {
case _e.TERMINATOR:
break;
case _e.FNC1_FIRST_POSITION:
case _e.FNC1_SECOND_POSITION:
h = !0;
break;
case _e.STRUCTURED_APPEND:
if (i.available() < 16) throw new E;
a = i.readBits(8), l = i.readBits(8);
break;
case _e.ECI:
const c = Ie.parseECIValue(i);
if (r = m.getCharacterSetECIByValue(c), null === r) throw new E;
break;
case _e.HANZI:
const u = i.readBits(4), d = i.readBits(t.getCharacterCountBits(e));
u === Ie.GB2312_SUBSET && Ie.decodeHanziSegment(i, s, d);
break;
default:
const g = i.readBits(t.getCharacterCountBits(e));
switch (t) {
case _e.NUMERIC:
Ie.decodeNumericSegment(i, s, g);
break;
case _e.ALPHANUMERIC:
Ie.decodeAlphanumericSegment(i, s, g, h);
break;
case _e.BYTE:
Ie.decodeByteSegment(i, s, g, r, o, n);
break;
case _e.KANJI:
Ie.decodeKanjiSegment(i, s, g);
break;
default:
throw new E
}
}
} while (t !== _e.TERMINATOR)
} catch (t) {
throw new E
}
return new z(t, s.toString(), 0 === o.length ? null : o, null === r ? null : r.toString(), a, l)
}
static decodeHanziSegment(t, e, r) {
if (13 * r > t.available()) throw new E;
const n = new Uint8Array(2 * r);
let i = 0;
for (; r > 0;) {
const e = t.readBits(13);
let s = e / 96 << 8 & 4294967295 | e % 96;
s += s < 959 ? 41377 : 42657, n[i] = s >> 8 & 255, n[i + 1] = 255 & s, i += 2, r--
}
try {
e.append(I.decode(n, S.GB2312))
} catch (t) {
throw new E(t)
}
}
static decodeKanjiSegment(t, e, r) {
if (13 * r > t.available()) throw new E;
const n = new Uint8Array(2 * r);
let i = 0;
for (; r > 0;) {
const e = t.readBits(13);
let s = e / 192 << 8 & 4294967295 | e % 192;
s += s < 7936 ? 33088 : 49472, n[i] = s >> 8, n[i + 1] = s, i += 2, r--
}
try {
e.append(I.decode(n, S.SHIFT_JIS))
} catch (t) {
throw new E(t)
}
}
static decodeByteSegment(t, e, r, n, i, s) {
if (8 * r > t.available()) throw new E;
const o = new Uint8Array(r);
for (let e = 0; e < r; e++) o[e] = t.readBits(8);
let a;
a = null === n ? S.guessEncoding(o, s) : n.getName();
try {
e.append(I.decode(o, a))
} catch (t) {
throw new E(t)
}
i.push(o)
}
static toAlphaNumericChar(t) {
if (t >= Ie.ALPHANUMERIC_CHARS.length) throw new E;
return Ie.ALPHANUMERIC_CHARS[t]
}
static decodeAlphanumericSegment(t, e, r, n) {
const i = e.length();
for (; r > 1;) {
if (t.available() < 11) throw new E;
const n = t.readBits(11);
e.append(Ie.toAlphaNumericChar(Math.floor(n / 45))), e.append(Ie.toAlphaNumericChar(n % 45)), r -= 2
}
if (1 === r) {
if (t.available() < 6) throw new E;
e.append(Ie.toAlphaNumericChar(t.readBits(6)))
}
if (n) for (let t = i; t < e.length(); t++) "%" === e.charAt(t) && (t < e.length() - 1 && "%" === e.charAt(t + 1) ? e.deleteCharAt(t + 1) : e.setCharAt(t, String.fromCharCode(29)))
}
static decodeNumericSegment(t, e, r) {
for (; r >= 3;) {
if (t.available() < 10) throw new E;
const n = t.readBits(10);
if (n >= 1e3) throw new E;
e.append(Ie.toAlphaNumericChar(Math.floor(n / 100))), e.append(Ie.toAlphaNumericChar(Math.floor(n / 10) % 10)), e.append(Ie.toAlphaNumericChar(n % 10)), r -= 3
}
if (2 === r) {
if (t.available() < 7) throw new E;
const r = t.readBits(7);
if (r >= 100) throw new E;
e.append(Ie.toAlphaNumericChar(Math.floor(r / 10))), e.append(Ie.toAlphaNumericChar(r % 10))
} else if (1 === r) {
if (t.available() < 4) throw new E;
const r = t.readBits(4);
if (r >= 10) throw new E;
e.append(Ie.toAlphaNumericChar(r))
}
}
static parseECIValue(t) {
const e = t.readBits(8);
if (0 == (128 & e)) return 127 & e;
if (128 == (192 & e)) {
return (63 & e) << 8 & 4294967295 | t.readBits(8)
}
if (192 == (224 & e)) {
return (31 & e) << 16 & 4294967295 | t.readBits(16)
}
throw new E
}
}
Ie.ALPHANUMERIC_CHARS = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ $%*+-./:", Ie.GB2312_SUBSET = 1;
class Se {
constructor(t) {
this.mirrored = t
}
isMirrored() {
return this.mirrored
}
applyMirroredCorrection(t) {
if (!this.mirrored || null === t || t.length < 3) return;
const e = t[0];
t[0] = t[2], t[2] = e
}
}
class pe {
constructor() {
this.rsDecoder = new J(q.QR_CODE_FIELD_256)
}
decodeBooleanArray(t, e) {
return this.decodeBitMatrix(T.parseFromBooleanArray(t), e)
}
decodeBitMatrix(t, e) {
const r = new Ee(t);
let n = null;
try {
return this.decodeBitMatrixParser(r, e)
} catch (t) {
n = t
}
try {
r.remask(), r.setMirror(!0), r.readVersion(), r.readFormatInformation(), r.mirror();
const t = this.decodeBitMatrixParser(r, e);
return t.setOther(new Se(!0)), t
} catch (t) {
if (null !== n) throw n;
throw t
}
}
decodeBitMatrixParser(t, e) {
const r = t.readVersion(), n = t.readFormatInformation().getErrorCorrectionLevel(), i = t.readCodewords(),
s = me.getDataBlocks(i, r, n);
let o = 0;
for (const t of s) o += t.getNumDataCodewords();
const a = new Uint8Array(o);
let l = 0;
for (const t of s) {
const e = t.getCodewords(), r = t.getNumDataCodewords();
this.correctErrors(e, r);
for (let t = 0; t < r; t++) a[l++] = e[t]
}
return Ie.decode(a, r, n, e)
}
correctErrors(t, e) {
const r = new Int32Array(t);
try {
this.rsDecoder.decode(r, t.length - e)
} catch (t) {
throw new l
}
for (let n = 0; n < e; n++) t[n] = r[n]
}
}
class Te extends rt {
constructor(t, e, r) {
super(t, e), this.estimatedModuleSize = r
}
aboutEquals(t, e, r) {
if (Math.abs(e - this.getY()) <= t && Math.abs(r - this.getX()) <= t) {
const e = Math.abs(t - this.estimatedModuleSize);
return e <= 1 || e <= this.estimatedModuleSize
}
return !1
}
combineEstimate(t, e, r) {
const n = (this.getX() + e) / 2, i = (this.getY() + t) / 2, s = (this.estimatedModuleSize + r) / 2;
return new Te(n, i, s)
}
}
class Re {
constructor(t, e, r, n, i, s, o) {
this.image = t, this.startX = e, this.startY = r, this.width = n, this.height = i, this.moduleSize = s, this.resultPointCallback = o, this.possibleCenters = [], this.crossCheckStateCount = new Int32Array(3)
}
find() {
const t = this.startX, e = this.height, r = t + this.width, n = this.startY + e / 2, i = new Int32Array(3),
s = this.image;
for (let o = 0; o < e; o++) {
const e = n + (0 == (1 & o) ? Math.floor((o + 1) / 2) : -Math.floor((o + 1) / 2));
i[0] = 0, i[1] = 0, i[2] = 0;
let a = t;
for (; a < r && !s.get(a, e);) a++;
let l = 0;
for (; a < r;) {
if (s.get(a, e)) if (1 === l) i[1]++; else if (2 === l) {
if (this.foundPatternCross(i)) {
const t = this.handlePossibleCenter(i, e, a);
if (null !== t) return t
}
i[0] = i[2], i[1] = 1, i[2] = 0, l = 1
} else i[++l]++; else 1 === l && l++, i[l]++;
a++
}
if (this.foundPatternCross(i)) {
const t = this.handlePossibleCenter(i, e, r);
if (null !== t) return t
}
}
if (0 !== this.possibleCenters.length) return this.possibleCenters[0];
throw new R
}
static centerFromEnd(t, e) {
return e - t[2] - t[1] / 2
}
foundPatternCross(t) {
const e = this.moduleSize, r = e / 2;
for (let n = 0; n < 3; n++) if (Math.abs(e - t[n]) >= r) return !1;
return !0
}
crossCheckVertical(t, e, r, n) {
const i = this.image, s = i.getHeight(), o = this.crossCheckStateCount;
o[0] = 0, o[1] = 0, o[2] = 0;
let a = t;
for (; a >= 0 && i.get(e, a) && o[1] <= r;) o[1]++, a--;
if (a < 0 || o[1] > r) return NaN;
for (; a >= 0 && !i.get(e, a) && o[0] <= r;) o[0]++, a--;
if (o[0] > r) return NaN;
for (a = t + 1; a < s && i.get(e, a) && o[1] <= r;) o[1]++, a++;
if (a === s || o[1] > r) return NaN;
for (; a < s && !i.get(e, a) && o[2] <= r;) o[2]++, a++;
if (o[2] > r) return NaN;
const l = o[0] + o[1] + o[2];
return 5 * Math.abs(l - n) >= 2 * n ? NaN : this.foundPatternCross(o) ? Re.centerFromEnd(o, a) : NaN
}
handlePossibleCenter(t, e, r) {
const n = t[0] + t[1] + t[2], i = Re.centerFromEnd(t, r), s = this.crossCheckVertical(e, i, 2 * t[1], n);
if (!isNaN(s)) {
const e = (t[0] + t[1] + t[2]) / 3;
for (const t of this.possibleCenters) if (t.aboutEquals(e, s, i)) return t.combineEstimate(s, i, e);
const r = new Te(i, s, e);
this.possibleCenters.push(r), null !== this.resultPointCallback && void 0 !== this.resultPointCallback && this.resultPointCallback.foundPossibleResultPoint(r)
}
return null
}
}
class Ne extends rt {
constructor(t, e, r, n) {
super(t, e), this.estimatedModuleSize = r, this.count = n, void 0 === n && (this.count = 1)
}
getEstimatedModuleSize() {
return this.estimatedModuleSize
}
getCount() {
return this.count
}
aboutEquals(t, e, r) {
if (Math.abs(e - this.getY()) <= t && Math.abs(r - this.getX()) <= t) {
const e = Math.abs(t - this.estimatedModuleSize);
return e <= 1 || e <= this.estimatedModuleSize
}
return !1
}
combineEstimate(t, e, r) {
const n = this.count + 1, i = (this.count * this.getX() + e) / n, s = (this.count * this.getY() + t) / n,
o = (this.count * this.estimatedModuleSize + r) / n;
return new Ne(i, s, o, n)
}
}
class De {
constructor(t) {
this.bottomLeft = t[0], this.topLeft = t[1], this.topRight = t[2]
}
getBottomLeft() {
return this.bottomLeft
}
getTopLeft() {
return this.topLeft
}
getTopRight() {
return this.topRight
}
}
class ye {
constructor(t, e) {
this.image = t, this.resultPointCallback = e, this.possibleCenters = [], this.crossCheckStateCount = new Int32Array(5), this.resultPointCallback = e
}
getImage() {
return this.image
}
getPossibleCenters() {
return this.possibleCenters
}
find(t) {
const e = null != t && void 0 !== t.get(C.TRY_HARDER), r = null != t && void 0 !== t.get(C.PURE_BARCODE),
n = this.image, i = n.getHeight(), s = n.getWidth();
let o = Math.floor(3 * i / (4 * ye.MAX_MODULES));
(o < ye.MIN_SKIP || e) && (o = ye.MIN_SKIP);
let a = !1;
const l = new Int32Array(5);
for (let t = o - 1; t < i && !a; t += o) {
l[0] = 0, l[1] = 0, l[2] = 0, l[3] = 0, l[4] = 0;
let e = 0;
for (let i = 0; i < s; i++) if (n.get(i, t)) 1 == (1 & e) && e++, l[e]++; else if (0 == (1 & e)) if (4 === e) if (ye.foundPatternCross(l)) {
if (!0 !== this.handlePossibleCenter(l, t, i, r)) {
l[0] = l[2], l[1] = l[3], l[2] = l[4], l[3] = 1, l[4] = 0, e = 3;
continue
}
if (o = 2, !0 === this.hasSkipped) a = this.haveMultiplyConfirmedCenters(); else {
const e = this.findRowSkip();
e > l[2] && (t += e - l[2] - o, i = s - 1)
}
e = 0, l[0] = 0, l[1] = 0, l[2] = 0, l[3] = 0, l[4] = 0
} else l[0] = l[2], l[1] = l[3], l[2] = l[4], l[3] = 1, l[4] = 0, e = 3; else l[++e]++; else l[e]++;
if (ye.foundPatternCross(l)) {
!0 === this.handlePossibleCenter(l, t, s, r) && (o = l[0], this.hasSkipped && (a = this.haveMultiplyConfirmedCenters()))
}
}
const h = this.selectBestPatterns();
return rt.orderBestPatterns(h), new De(h)
}
static centerFromEnd(t, e) {
return e - t[4] - t[3] - t[2] / 2
}
static foundPatternCross(t) {
let e = 0;
for (let r = 0; r < 5; r++) {
const n = t[r];
if (0 === n) return !1;
e += n
}
if (e < 7) return !1;
const r = e / 7, n = r / 2;
return Math.abs(r - t[0]) < n && Math.abs(r - t[1]) < n && Math.abs(3 * r - t[2]) < 3 * n && Math.abs(r - t[3]) < n && Math.abs(r - t[4]) < n
}
getCrossCheckStateCount() {
const t = this.crossCheckStateCount;
return t[0] = 0, t[1] = 0, t[2] = 0, t[3] = 0, t[4] = 0, t
}
crossCheckDiagonal(t, e, r, n) {
const i = this.getCrossCheckStateCount();
let s = 0;
const o = this.image;
for (; t >= s && e >= s && o.get(e - s, t - s);) i[2]++, s++;
if (t < s || e < s) return !1;
for (; t >= s && e >= s && !o.get(e - s, t - s) && i[1] <= r;) i[1]++, s++;
if (t < s || e < s || i[1] > r) return !1;
for (; t >= s && e >= s && o.get(e - s, t - s) && i[0] <= r;) i[0]++, s++;
if (i[0] > r) return !1;
const a = o.getHeight(), l = o.getWidth();
for (s = 1; t + s < a && e + s < l && o.get(e + s, t + s);) i[2]++, s++;
if (t + s >= a || e + s >= l) return !1;
for (; t + s < a && e + s < l && !o.get(e + s, t + s) && i[3] < r;) i[3]++, s++;
if (t + s >= a || e + s >= l || i[3] >= r) return !1;
for (; t + s < a && e + s < l && o.get(e + s, t + s) && i[4] < r;) i[4]++, s++;
if (i[4] >= r) return !1;
const h = i[0] + i[1] + i[2] + i[3] + i[4];
return Math.abs(h - n) < 2 * n && ye.foundPatternCross(i)
}
crossCheckVertical(t, e, r, n) {
const i = this.image, s = i.getHeight(), o = this.getCrossCheckStateCount();
let a = t;
for (; a >= 0 && i.get(e, a);) o[2]++, a--;
if (a < 0) return NaN;
for (; a >= 0 && !i.get(e, a) && o[1] <= r;) o[1]++, a--;
if (a < 0 || o[1] > r) return NaN;
for (; a >= 0 && i.get(e, a) && o[0] <= r;) o[0]++, a--;
if (o[0] > r) return NaN;
for (a = t + 1; a < s && i.get(e, a);) o[2]++, a++;
if (a === s) return NaN;
for (; a < s && !i.get(e, a) && o[3] < r;) o[3]++, a++;
if (a === s || o[3] >= r) return NaN;
for (; a < s && i.get(e, a) && o[4] < r;) o[4]++, a++;
if (o[4] >= r) return NaN;
const l = o[0] + o[1] + o[2] + o[3] + o[4];
return 5 * Math.abs(l - n) >= 2 * n ? NaN : ye.foundPatternCross(o) ? ye.centerFromEnd(o, a) : NaN
}
crossCheckHorizontal(t, e, r, n) {
const i = this.image, s = i.getWidth(), o = this.getCrossCheckStateCount();
let a = t;
for (; a >= 0 && i.get(a, e);) o[2]++, a--;
if (a < 0) return NaN;
for (; a >= 0 && !i.get(a, e) && o[1] <= r;) o[1]++, a--;
if (a < 0 || o[1] > r) return NaN;
for (; a >= 0 && i.get(a, e) && o[0] <= r;) o[0]++, a--;
if (o[0] > r) return NaN;
for (a = t + 1; a < s && i.get(a, e);) o[2]++, a++;
if (a === s) return NaN;
for (; a < s && !i.get(a, e) && o[3] < r;) o[3]++, a++;
if (a === s || o[3] >= r) return NaN;
for (; a < s && i.get(a, e) && o[4] < r;) o[4]++, a++;
if (o[4] >= r) return NaN;
const l = o[0] + o[1] + o[2] + o[3] + o[4];
return 5 * Math.abs(l - n) >= n ? NaN : ye.foundPatternCross(o) ? ye.centerFromEnd(o, a) : NaN
}
handlePossibleCenter(t, e, r, n) {
const i = t[0] + t[1] + t[2] + t[3] + t[4];
let s = ye.centerFromEnd(t, r), o = this.crossCheckVertical(e, Math.floor(s), t[2], i);
if (!isNaN(o) && (s = this.crossCheckHorizontal(Math.floor(s), Math.floor(o), t[2], i), !isNaN(s) && (!n || this.crossCheckDiagonal(Math.floor(o), Math.floor(s), t[2], i)))) {
const t = i / 7;
let e = !1;
const r = this.possibleCenters;
for (let n = 0, i = r.length; n < i; n++) {
const i = r[n];
if (i.aboutEquals(t, o, s)) {
r[n] = i.combineEstimate(o, s, t), e = !0;
break
}
}
if (!e) {
const e = new Ne(s, o, t);
r.push(e), null !== this.resultPointCallback && void 0 !== this.resultPointCallback && this.resultPointCallback.foundPossibleResultPoint(e)
}
return !0
}
return !1
}
findRowSkip() {
if (this.possibleCenters.length <= 1) return 0;
let t = null;
for (const e of this.possibleCenters) if (e.getCount() >= ye.CENTER_QUORUM) {
if (null != t) return this.hasSkipped = !0, Math.floor((Math.abs(t.getX() - e.getX()) - Math.abs(t.getY() - e.getY())) / 2);
t = e
}
return 0
}
haveMultiplyConfirmedCenters() {
let t = 0, e = 0;
const r = this.possibleCenters.length;
for (const r of this.possibleCenters) r.getCount() >= ye.CENTER_QUORUM && (t++, e += r.getEstimatedModuleSize());
if (t < 3) return !1;
const n = e / r;
let i = 0;
for (const t of this.possibleCenters) i += Math.abs(t.getEstimatedModuleSize() - n);
return i <= .05 * e
}
selectBestPatterns() {
const t = this.possibleCenters.length;
if (t < 3) throw new R;
const e = this.possibleCenters;
let r;
if (t > 3) {
let n = 0, i = 0;
for (const t of this.possibleCenters) {
const e = t.getEstimatedModuleSize();
n += e, i += e * e
}
r = n / t;
let s = Math.sqrt(i / t - r * r);
e.sort(((t, e) => {
const n = Math.abs(e.getEstimatedModuleSize() - r), i = Math.abs(t.getEstimatedModuleSize() - r);
return n < i ? -1 : n > i ? 1 : 0
}));
const o = Math.max(.2 * r, s);
for (let t = 0; t < e.length && e.length > 3; t++) {
const n = e[t];
Math.abs(n.getEstimatedModuleSize() - r) > o && (e.splice(t, 1), t--)
}
}
if (e.length > 3) {
let t = 0;
for (const r of e) t += r.getEstimatedModuleSize();
r = t / e.length, e.sort(((t, e) => {
if (e.getCount() === t.getCount()) {
const n = Math.abs(e.getEstimatedModuleSize() - r), i = Math.abs(t.getEstimatedModuleSize() - r);
return n < i ? 1 : n > i ? -1 : 0
}
return e.getCount() - t.getCount()
})), e.splice(3)
}
return [e[0], e[1], e[2]]
}
}
ye.CENTER_QUORUM = 2, ye.MIN_SKIP = 3, ye.MAX_MODULES = 57;
class Oe {
constructor(t) {
this.image = t
}
getImage() {
return this.image
}
getResultPointCallback() {
return this.resultPointCallback
}
detect(t) {
this.resultPointCallback = null == t ? null : t.get(C.NEED_RESULT_POINT_CALLBACK);
const e = new ye(this.image, this.resultPointCallback).find(t);
return this.processFinderPatternInfo(e)
}
processFinderPatternInfo(t) {
const e = t.getTopLeft(), r = t.getTopRight(), n = t.getBottomLeft(), i = this.calculateModuleSize(e, r, n);
if (i < 1) throw new R("No pattern found in proccess finder.");
const s = Oe.computeDimension(e, r, n, i), o = Ae.getProvisionalVersionForDimension(s),
a = o.getDimensionForVersion() - 7;
let l = null;
if (o.getAlignmentPatternCenters().length > 0) {
const t = r.getX() - e.getX() + n.getX(), s = r.getY() - e.getY() + n.getY(), o = 1 - 3 / a,
h = Math.floor(e.getX() + o * (t - e.getX())), c = Math.floor(e.getY() + o * (s - e.getY()));
for (let t = 4; t <= 16; t <<= 1) try {
l = this.findAlignmentInRegion(i, h, c, t);
break
} catch (t) {
if (!(t instanceof R)) throw t
}
}
const h = Oe.createTransform(e, r, n, l, s), c = Oe.sampleGrid(this.image, h, s);
let u;
return u = null === l ? [n, e, r] : [n, e, r, l], new nt(c, u)
}
static createTransform(t, e, r, n, i) {
const s = i - 3.5;
let o, a, l, h;
return null !== n ? (o = n.getX(), a = n.getY(), l = s - 3, h = l) : (o = e.getX() - t.getX() + r.getX(), a = e.getY() - t.getY() + r.getY(), l = s, h = s), at.quadrilateralToQuadrilateral(3.5, 3.5, s, 3.5, l, h, 3.5, s, t.getX(), t.getY(), e.getX(), e.getY(), o, a, r.getX(), r.getY())
}
static sampleGrid(t, e, r) {
return ht.getInstance().sampleGridWithTransform(t, r, r, e)
}
static computeDimension(t, e, r, n) {
const i = tt.round(rt.distance(t, e) / n), s = tt.round(rt.distance(t, r) / n);
let o = Math.floor((i + s) / 2) + 7;
switch (3 & o) {
case 0:
o++;
break;
case 2:
o--;
break;
case 3:
throw new R("Dimensions could be not found.")
}
return o
}
calculateModuleSize(t, e, r) {
return (this.calculateModuleSizeOneWay(t, e) + this.calculateModuleSizeOneWay(t, r)) / 2
}
calculateModuleSizeOneWay(t, e) {
const r = this.sizeOfBlackWhiteBlackRunBothWays(Math.floor(t.getX()), Math.floor(t.getY()), Math.floor(e.getX()), Math.floor(e.getY())),
n = this.sizeOfBlackWhiteBlackRunBothWays(Math.floor(e.getX()), Math.floor(e.getY()), Math.floor(t.getX()), Math.floor(t.getY()));
return isNaN(r) ? n / 7 : isNaN(n) ? r / 7 : (r + n) / 14
}
sizeOfBlackWhiteBlackRunBothWays(t, e, r, n) {
let i = this.sizeOfBlackWhiteBlackRun(t, e, r, n), s = 1, o = t - (r - t);
o < 0 ? (s = t / (t - o), o = 0) : o >= this.image.getWidth() && (s = (this.image.getWidth() - 1 - t) / (o - t), o = this.image.getWidth() - 1);
let a = Math.floor(e - (n - e) * s);
return s = 1, a < 0 ? (s = e / (e - a), a = 0) : a >= this.image.getHeight() && (s = (this.image.getHeight() - 1 - e) / (a - e), a = this.image.getHeight() - 1), o = Math.floor(t + (o - t) * s), i += this.sizeOfBlackWhiteBlackRun(t, e, o, a), i - 1
}
sizeOfBlackWhiteBlackRun(t, e, r, n) {
const i = Math.abs(n - e) > Math.abs(r - t);
if (i) {
let i = t;
t = e, e = i, i = r, r = n, n = i
}
const s = Math.abs(r - t), o = Math.abs(n - e);
let a = -s / 2;
const l = t < r ? 1 : -1, h = e < n ? 1 : -1;
let c = 0;
const u = r + l;
for (let r = t, d = e; r !== u; r += l) {
const l = i ? d : r, u = i ? r : d;
if (1 === c === this.image.get(l, u)) {
if (2 === c) return tt.distance(r, d, t, e);
c++
}
if (a += o, a > 0) {
if (d === n) break;
d += h, a -= s
}
}
return 2 === c ? tt.distance(r + l, n, t, e) : NaN
}
findAlignmentInRegion(t, e, r, n) {
const i = Math.floor(n * t), s = Math.max(0, e - i), o = Math.min(this.image.getWidth() - 1, e + i);
if (o - s < 3 * t) throw new R("Alignment top exceeds estimated module size.");
const a = Math.max(0, r - i), l = Math.min(this.image.getHeight() - 1, r + i);
if (l - a < 3 * t) throw new R("Alignment bottom exceeds estimated module size.");
return new Re(this.image, s, a, o - s, l - a, t, this.resultPointCallback).find()
}
}
class Me {
constructor() {
this.decoder = new pe
}
getDecoder() {
return this.decoder
}
decode(t, e) {
let r, n;
if (null != e && void 0 !== e.get(C.PURE_BARCODE)) {
const i = Me.extractPureBits(t.getBlackMatrix());
r = this.decoder.decodeBitMatrix(i, e), n = Me.NO_POINTS
} else {
const i = new Oe(t.getBlackMatrix()).detect(e);
r = this.decoder.decodeBitMatrix(i.getBits(), e), n = i.getPoints()
}
r.getOther() instanceof Se && r.getOther().applyMirroredCorrection(n);
const i = new F(r.getText(), r.getRawBytes(), void 0, n, v.QR_CODE, void 0), s = r.getByteSegments();
null !== s && i.putMetadata(W.BYTE_SEGMENTS, s);
const o = r.getECLevel();
return null !== o && i.putMetadata(W.ERROR_CORRECTION_LEVEL, o), r.hasStructuredAppend() && (i.putMetadata(W.STRUCTURED_APPEND_SEQUENCE, r.getStructuredAppendSequenceNumber()), i.putMetadata(W.STRUCTURED_APPEND_PARITY, r.getStructuredAppendParity())), i
}
reset() {
}
static extractPureBits(t) {
const e = t.getTopLeftOnBit(), r = t.getBottomRightOnBit();
if (null === e || null === r) throw new R;
const n = this.moduleSize(e, t);
let i = e[1], s = r[1], o = e[0], a = r[0];
if (o >= a || i >= s) throw new R;
if (s - i != a - o && (a = o + (s - i), a >= t.getWidth())) throw new R;
const l = Math.round((a - o + 1) / n), h = Math.round((s - i + 1) / n);
if (l <= 0 || h <= 0) throw new R;
if (h !== l) throw new R;
const c = Math.floor(n / 2);
i += c, o += c;
const u = o + Math.floor((l - 1) * n) - a;
if (u > 0) {
if (u > c) throw new R;
o -= u
}
const d = i + Math.floor((h - 1) * n) - s;
if (d > 0) {
if (d > c) throw new R;
i -= d
}
const g = new T(l, h);
for (let e = 0; e < h; e++) {
const r = i + Math.floor(e * n);
for (let i = 0; i < l; i++) t.get(o + Math.floor(i * n), r) && g.set(i, e)
}
return g
}
static moduleSize(t, e) {
const r = e.getHeight(), n = e.getWidth();
let i = t[0], s = t[1], o = !0, a = 0;
for (; i < n && s < r;) {
if (o !== e.get(i, s)) {
if (5 == ++a) break;
o = !o
}
i++, s++
}
if (i === n || s === r) throw new R;
return (i - t[0]) / 7
}
}
Me.NO_POINTS = new Array;
class Be {
PDF417Common() {
}
static getBitCountSum(t) {
return tt.sum(t)
}
static toIntArray(t) {
if (null == t || !t.length) return Be.EMPTY_INT_ARRAY;
const e = new Int32Array(t.length);
let r = 0;
for (const n of t) e[r++] = n;
return e
}
static getCodeword(t) {
const e = g.binarySearch(Be.SYMBOL_TABLE, 262143 & t);
return e < 0 ? -1 : (Be.CODEWORD_TABLE[e] - 1) % Be.NUMBER_OF_CODEWORDS
}
}
Be.NUMBER_OF_CODEWORDS = 929, Be.MAX_CODEWORDS_IN_BARCODE = Be.NUMBER_OF_CODEWORDS - 1, Be.MIN_ROWS_IN_BARCODE = 3, Be.MAX_ROWS_IN_BARCODE = 90, Be.MODULES_IN_CODEWORD = 17, Be.MODULES_IN_STOP_PATTERN = 18, Be.BARS_IN_MODULE = 8, Be.EMPTY_INT_ARRAY = new Int32Array([]), Be.SYMBOL_TABLE = Int32Array.from([66142, 66170, 66206, 66236, 66290, 66292, 66350, 66382, 66396, 66454, 66470, 66476, 66594, 66600, 66614, 66626, 66628, 66632, 66640, 66654, 66662, 66668, 66682, 66690, 66718, 66720, 66748, 66758, 66776, 66798, 66802, 66804, 66820, 66824, 66832, 66846, 66848, 66876, 66880, 66936, 66950, 66956, 66968, 66992, 67006, 67022, 67036, 67042, 67044, 67048, 67062, 67118, 67150, 67164, 67214, 67228, 67256, 67294, 67322, 67350, 67366, 67372, 67398, 67404, 67416, 67438, 67474, 67476, 67490, 67492, 67496, 67510, 67618, 67624, 67650, 67656, 67664, 67678, 67686, 67692, 67706, 67714, 67716, 67728, 67742, 67744, 67772, 67782, 67788, 67800, 67822, 67826, 67828, 67842, 67848, 67870, 67872, 67900, 67904, 67960, 67974, 67992, 68016, 68030, 68046, 68060, 68066, 68068, 68072, 68086, 68104, 68112, 68126, 68128, 68156, 68160, 68216, 68336, 68358, 68364, 68376, 68400, 68414, 68448, 68476, 68494, 68508, 68536, 68546, 68548, 68552, 68560, 68574, 68582, 68588, 68654, 68686, 68700, 68706, 68708, 68712, 68726, 68750, 68764, 68792, 68802, 68804, 68808, 68816, 68830, 68838, 68844, 68858, 68878, 68892, 68920, 68976, 68990, 68994, 68996, 69e3, 69008, 69022, 69024, 69052, 69062, 69068, 69080, 69102, 69106, 69108, 69142, 69158, 69164, 69190, 69208, 69230, 69254, 69260, 69272, 69296, 69310, 69326, 69340, 69386, 69394, 69396, 69410, 69416, 69430, 69442, 69444, 69448, 69456, 69470, 69478, 69484, 69554, 69556, 69666, 69672, 69698, 69704, 69712, 69726, 69754, 69762, 69764, 69776, 69790, 69792, 69820, 69830, 69836, 69848, 69870, 69874, 69876, 69890, 69918, 69920, 69948, 69952, 70008, 70022, 70040, 70064, 70078, 70094, 70108, 70114, 70116, 70120, 70134, 70152, 70174, 70176, 70264, 70384, 70412, 70448, 70462, 70496, 70524, 70542, 70556, 70584, 70594, 70600, 70608, 70622, 70630, 70636, 70664, 70672, 70686, 70688, 70716, 70720, 70776, 70896, 71136, 71180, 71192, 71216, 71230, 71264, 71292, 71360, 71416, 71452, 71480, 71536, 71550, 71554, 71556, 71560, 71568, 71582, 71584, 71612, 71622, 71628, 71640, 71662, 71726, 71732, 71758, 71772, 71778, 71780, 71784, 71798, 71822, 71836, 71864, 71874, 71880, 71888, 71902, 71910, 71916, 71930, 71950, 71964, 71992, 72048, 72062, 72066, 72068, 72080, 72094, 72096, 72124, 72134, 72140, 72152, 72174, 72178, 72180, 72206, 72220, 72248, 72304, 72318, 72416, 72444, 72456, 72464, 72478, 72480, 72508, 72512, 72568, 72588, 72600, 72624, 72638, 72654, 72668, 72674, 72676, 72680, 72694, 72726, 72742, 72748, 72774, 72780, 72792, 72814, 72838, 72856, 72880, 72894, 72910, 72924, 72930, 72932, 72936, 72950, 72966, 72972, 72984, 73008, 73022, 73056, 73084, 73102, 73116, 73144, 73156, 73160, 73168, 73182, 73190, 73196, 73210, 73226, 73234, 73236, 73250, 73252, 73256, 73270, 73282, 73284, 73296, 73310, 73318, 73324, 73346, 73348, 73352, 73360, 73374, 73376, 73404, 73414, 73420, 73432, 73454, 73498, 73518, 73522, 73524, 73550, 73564, 73570, 73572, 73576, 73590, 73800, 73822, 73858, 73860, 73872, 73886, 73888, 73916, 73944, 73970, 73972, 73992, 74014, 74016, 74044, 74048, 74104, 74118, 74136, 74160, 74174, 74210, 74212, 74216, 74230, 74244, 74256, 74270, 74272, 74360, 74480, 74502, 74508, 74544, 74558, 74592, 74620, 74638, 74652, 74680, 74690, 74696, 74704, 74726, 74732, 74782, 74784, 74812, 74992, 75232, 75288, 75326, 75360, 75388, 75456, 75512, 75576, 75632, 75646, 75650, 75652, 75664, 75678, 75680, 75708, 75718, 75724, 75736, 75758, 75808, 75836, 75840, 75896, 76016, 76256, 76736, 76824, 76848, 76862, 76896, 76924, 76992, 77048, 77296, 77340, 77368, 77424, 77438, 77536, 77564, 77572, 77576, 77584, 77600, 77628, 77632, 77688, 77702, 77708, 77720, 77744, 77758, 77774, 77788, 77870, 77902, 77916, 77922, 77928, 77966, 77980, 78008, 78018, 78024, 78032, 78046, 78060, 78074, 78094, 78136, 78192, 78206, 78210, 78212, 78224, 78238, 78240, 78268, 78278, 78284, 78296, 78322, 78324, 78350, 78364, 78448, 78462, 78560, 78588, 78600, 78622, 78624, 78652, 78656, 78712, 78726, 78744, 78768, 78782, 78798, 78812, 78818, 78820, 78824, 78838, 78862, 78876, 78904, 78960, 78974, 79072, 79100, 79296, 79352, 79368, 79376, 79390, 79392, 79420, 79424, 79480, 79600, 79628, 79640, 79664, 79678, 79712, 79740, 79772, 79800, 79810, 79812, 79816, 79824, 79838, 79846, 79852, 79894, 79910, 79916, 79942, 79948, 79960, 79982, 79988, 80006, 80024, 80048, 80062, 80078, 80092, 80098, 80100, 80104, 80134, 80140, 80176, 80190, 80224, 80252, 80270, 80284, 80312, 80328, 80336, 80350, 80358, 80364, 80378, 80390, 80396, 80408, 80432, 80446, 80480, 80508, 80576, 80632, 80654, 80668, 80696, 80752, 80766, 80776, 80784, 80798, 80800, 80828, 80844, 80856, 80878, 80882, 80884, 80914, 80916, 80930, 80932, 80936, 80950, 80962, 80968, 80976, 80990, 80998, 81004, 81026, 81028, 81040, 81054, 81056, 81084, 81094, 81100, 81112, 81134, 81154, 81156, 81160, 81168, 81182, 81184, 81212, 81216, 81272, 81286, 81292, 81304, 81328, 81342, 81358, 81372, 81380, 81384, 81398, 81434, 81454, 81458, 81460, 81486, 81500, 81506, 81508, 81512, 81526, 81550, 81564, 81592, 81602, 81604, 81608, 81616, 81630, 81638, 81644, 81702, 81708, 81722, 81734, 81740, 81752, 81774, 81778, 81780, 82050, 82078, 82080, 82108, 82180, 82184, 82192, 82206, 82208, 82236, 82240, 82296, 82316, 82328, 82352, 82366, 82402, 82404, 82408, 82440, 82448, 82462, 82464, 82492, 82496, 82552, 82672, 82694, 82700, 82712, 82736, 82750, 82784, 82812, 82830, 82882, 82884, 82888, 82896, 82918, 82924, 82952, 82960, 82974, 82976, 83004, 83008, 83064, 83184, 83424, 83468, 83480, 83504, 83518, 83552, 83580, 83648, 83704, 83740, 83768, 83824, 83838, 83842, 83844, 83848, 83856, 83872, 83900, 83910, 83916, 83928, 83950, 83984, 84e3, 84028, 84032, 84088, 84208, 84448, 84928, 85040, 85054, 85088, 85116, 85184, 85240, 85488, 85560, 85616, 85630, 85728, 85756, 85764, 85768, 85776, 85790, 85792, 85820, 85824, 85880, 85894, 85900, 85912, 85936, 85966, 85980, 86048, 86080, 86136, 86256, 86496, 86976, 88160, 88188, 88256, 88312, 88560, 89056, 89200, 89214, 89312, 89340, 89536, 89592, 89608, 89616, 89632, 89664, 89720, 89840, 89868, 89880, 89904, 89952, 89980, 89998, 90012, 90040, 90190, 90204, 90254, 90268, 90296, 90306, 90308, 90312, 90334, 90382, 90396, 90424, 90480, 90494, 90500, 90504, 90512, 90526, 90528, 90556, 90566, 90572, 90584, 90610, 90612, 90638, 90652, 90680, 90736, 90750, 90848, 90876, 90884, 90888, 90896, 90910, 90912, 90940, 90944, 91e3, 91014, 91020, 91032, 91056, 91070, 91086, 91100, 91106, 91108, 91112, 91126, 91150, 91164, 91192, 91248, 91262, 91360, 91388, 91584, 91640, 91664, 91678, 91680, 91708, 91712, 91768, 91888, 91928, 91952, 91966, 92e3, 92028, 92046, 92060, 92088, 92098, 92100, 92104, 92112, 92126, 92134, 92140, 92188, 92216, 92272, 92384, 92412, 92608, 92664, 93168, 93200, 93214, 93216, 93244, 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96646, 96652, 96664, 96688, 96702, 96718, 96732, 96738, 96740, 96744, 96758, 96772, 96776, 96784, 96798, 96800, 96828, 96832, 96888, 97008, 97030, 97036, 97048, 97072, 97086, 97120, 97148, 97166, 97180, 97208, 97220, 97224, 97232, 97246, 97254, 97260, 97326, 97330, 97332, 97358, 97372, 97378, 97380, 97384, 97398, 97422, 97436, 97464, 97474, 97476, 97480, 97488, 97502, 97510, 97516, 97550, 97564, 97592, 97648, 97666, 97668, 97672, 97680, 97694, 97696, 97724, 97734, 97740, 97752, 97774, 97830, 97836, 97850, 97862, 97868, 97880, 97902, 97906, 97908, 97926, 97932, 97944, 97968, 97998, 98012, 98018, 98020, 98024, 98038, 98618, 98674, 98676, 98838, 98854, 98874, 98892, 98904, 98926, 98930, 98932, 98968, 99006, 99042, 99044, 99048, 99062, 99166, 99194, 99246, 99286, 99350, 99366, 99372, 99386, 99398, 99416, 99438, 99442, 99444, 99462, 99504, 99518, 99534, 99548, 99554, 99556, 99560, 99574, 99590, 99596, 99608, 99632, 99646, 99680, 99708, 99726, 99740, 99768, 99778, 99780, 99784, 99792, 99806, 99814, 99820, 99834, 99858, 99860, 99874, 99880, 99894, 99906, 99920, 99934, 99962, 99970, 99972, 99976, 99984, 99998, 1e5, 100028, 100038, 100044, 100056, 100078, 100082, 100084, 100142, 100174, 100188, 100246, 100262, 100268, 100306, 100308, 100390, 100396, 100410, 100422, 100428, 100440, 100462, 100466, 100468, 100486, 100504, 100528, 100542, 100558, 100572, 100578, 100580, 100584, 100598, 100620, 100656, 100670, 100704, 100732, 100750, 100792, 100802, 100808, 100816, 100830, 100838, 100844, 100858, 100888, 100912, 100926, 100960, 100988, 101056, 101112, 101148, 101176, 101232, 101246, 101250, 101252, 101256, 101264, 101278, 101280, 101308, 101318, 101324, 101336, 101358, 101362, 101364, 101410, 101412, 101416, 101430, 101442, 101448, 101456, 101470, 101478, 101498, 101506, 101508, 101520, 101534, 101536, 101564, 101580, 101618, 101620, 101636, 101640, 101648, 101662, 101664, 101692, 101696, 101752, 101766, 101784, 101838, 101858, 101860, 101864, 101934, 101938, 101940, 101966, 101980, 101986, 101988, 101992, 102030, 102044, 102072, 102082, 102084, 102088, 102096, 102138, 102166, 102182, 102188, 102214, 102220, 102232, 102254, 102282, 102290, 102292, 102306, 102308, 102312, 102326, 102444, 102458, 102470, 102476, 102488, 102514, 102516, 102534, 102552, 102576, 102590, 102606, 102620, 102626, 102632, 102646, 102662, 102668, 102704, 102718, 102752, 102780, 102798, 102812, 102840, 102850, 102856, 102864, 102878, 102886, 102892, 102906, 102936, 102974, 103008, 103036, 103104, 103160, 103224, 103280, 103294, 103298, 103300, 103312, 103326, 103328, 103356, 103366, 103372, 103384, 103406, 103410, 103412, 103472, 103486, 103520, 103548, 103616, 103672, 103920, 103992, 104048, 104062, 104160, 104188, 104194, 104196, 104200, 104208, 104224, 104252, 104256, 104312, 104326, 104332, 104344, 104368, 104382, 104398, 104412, 104418, 104420, 104424, 104482, 104484, 104514, 104520, 104528, 104542, 104550, 104570, 104578, 104580, 104592, 104606, 104608, 104636, 104652, 104690, 104692, 104706, 104712, 104734, 104736, 104764, 104768, 104824, 104838, 104856, 104910, 104930, 104932, 104936, 104968, 104976, 104990, 104992, 105020, 105024, 105080, 105200, 105240, 105278, 105312, 105372, 105410, 105412, 105416, 105424, 105446, 105518, 105524, 105550, 105564, 105570, 105572, 105576, 105614, 105628, 105656, 105666, 105672, 105680, 105702, 105722, 105742, 105756, 105784, 105840, 105854, 105858, 105860, 105864, 105872, 105888, 105932, 105970, 105972, 106006, 106022, 106028, 106054, 106060, 106072, 106100, 106118, 106124, 106136, 106160, 106174, 106190, 106210, 106212, 106216, 106250, 106258, 106260, 106274, 106276, 106280, 106306, 106308, 106312, 106320, 106334, 106348, 106394, 106414, 106418, 106420, 106566, 106572, 106610, 106612, 106630, 106636, 106648, 106672, 106686, 106722, 106724, 106728, 106742, 106758, 106764, 106776, 106800, 106814, 106848, 106876, 106894, 106908, 106936, 106946, 106948, 106952, 106960, 106974, 106982, 106988, 107032, 107056, 107070, 107104, 107132, 107200, 107256, 107292, 107320, 107376, 107390, 107394, 107396, 107400, 107408, 107422, 107424, 107452, 107462, 107468, 107480, 107502, 107506, 107508, 107544, 107568, 107582, 107616, 107644, 107712, 107768, 108016, 108060, 108088, 108144, 108158, 108256, 108284, 108290, 108292, 108296, 108304, 108318, 108320, 108348, 108352, 108408, 108422, 108428, 108440, 108464, 108478, 108494, 108508, 108514, 108516, 108520, 108592, 108640, 108668, 108736, 108792, 109040, 109536, 109680, 109694, 109792, 109820, 110016, 110072, 110084, 110088, 110096, 110112, 110140, 110144, 110200, 110320, 110342, 110348, 110360, 110384, 110398, 110432, 110460, 110478, 110492, 110520, 110532, 110536, 110544, 110558, 110658, 110686, 110714, 110722, 110724, 110728, 110736, 110750, 110752, 110780, 110796, 110834, 110836, 110850, 110852, 110856, 110864, 110878, 110880, 110908, 110912, 110968, 110982, 111e3, 111054, 111074, 111076, 111080, 111108, 111112, 111120, 111134, 111136, 111164, 111168, 111224, 111344, 111372, 111422, 111456, 111516, 111554, 111556, 111560, 111568, 111590, 111632, 111646, 111648, 111676, 111680, 111736, 111856, 112096, 112152, 112224, 112252, 112320, 112440, 112514, 112516, 112520, 112528, 112542, 112544, 112588, 112686, 112718, 112732, 112782, 112796, 112824, 112834, 112836, 112840, 112848, 112870, 112890, 112910, 112924, 112952, 113008, 113022, 113026, 113028, 113032, 113040, 113054, 113056, 113100, 113138, 113140, 113166, 113180, 113208, 113264, 113278, 113376, 113404, 113416, 113424, 113440, 113468, 113472, 113560, 113614, 113634, 113636, 113640, 113686, 113702, 113708, 113734, 113740, 113752, 113778, 113780, 113798, 113804, 113816, 113840, 113854, 113870, 113890, 113892, 113896, 113926, 113932, 113944, 113968, 113982, 114016, 114044, 114076, 114114, 114116, 114120, 114128, 114150, 114170, 114194, 114196, 114210, 114212, 114216, 114242, 114244, 114248, 114256, 114270, 114278, 114306, 114308, 114312, 114320, 114334, 114336, 114364, 114380, 114420, 114458, 114478, 114482, 114484, 114510, 114524, 114530, 114532, 114536, 114842, 114866, 114868, 114970, 114994, 114996, 115042, 115044, 115048, 115062, 115130, 115226, 115250, 115252, 115278, 115292, 115298, 115300, 115304, 115318, 115342, 115394, 115396, 115400, 115408, 115422, 115430, 115436, 115450, 115478, 115494, 115514, 115526, 115532, 115570, 115572, 115738, 115758, 115762, 115764, 115790, 115804, 115810, 115812, 115816, 115830, 115854, 115868, 115896, 115906, 115912, 115920, 115934, 115942, 115948, 115962, 115996, 116024, 116080, 116094, 116098, 116100, 116104, 116112, 116126, 116128, 116156, 116166, 116172, 116184, 116206, 116210, 116212, 116246, 116262, 116268, 116282, 116294, 116300, 116312, 116334, 116338, 116340, 116358, 116364, 116376, 116400, 116414, 116430, 116444, 116450, 116452, 116456, 116498, 116500, 116514, 116520, 116534, 116546, 116548, 116552, 116560, 116574, 116582, 116588, 116602, 116654, 116694, 116714, 116762, 116782, 116786, 116788, 116814, 116828, 116834, 116836, 116840, 116854, 116878, 116892, 116920, 116930, 116936, 116944, 116958, 116966, 116972, 116986, 117006, 117048, 117104, 117118, 117122, 117124, 117136, 117150, 117152, 117180, 117190, 117196, 117208, 117230, 117234, 117236, 117304, 117360, 117374, 117472, 117500, 117506, 117508, 117512, 117520, 117536, 117564, 117568, 117624, 117638, 117644, 117656, 117680, 117694, 117710, 117724, 117730, 117732, 117736, 117750, 117782, 117798, 117804, 117818, 117830, 117848, 117874, 117876, 117894, 117936, 117950, 117966, 117986, 117988, 117992, 118022, 118028, 118040, 118064, 118078, 118112, 118140, 118172, 118210, 118212, 118216, 118224, 118238, 118246, 118266, 118306, 118312, 118338, 118352, 118366, 118374, 118394, 118402, 118404, 118408, 118416, 118430, 118432, 118460, 118476, 118514, 118516, 118574, 118578, 118580, 118606, 118620, 118626, 118628, 118632, 118678, 118694, 118700, 118730, 118738, 118740, 118830, 118834, 118836, 118862, 118876, 118882, 118884, 118888, 118902, 118926, 118940, 118968, 118978, 118980, 118984, 118992, 119006, 119014, 119020, 119034, 119068, 119096, 119152, 119166, 119170, 119172, 119176, 119184, 119198, 119200, 119228, 119238, 119244, 119256, 119278, 119282, 119284, 119324, 119352, 119408, 119422, 119520, 119548, 119554, 119556, 119560, 119568, 119582, 119584, 119612, 119616, 119672, 119686, 119692, 119704, 119728, 119742, 119758, 119772, 119778, 119780, 119784, 119798, 119920, 119934, 120032, 120060, 120256, 120312, 120324, 120328, 120336, 120352, 120384, 120440, 120560, 120582, 120588, 120600, 120624, 120638, 120672, 120700, 120718, 120732, 120760, 120770, 120772, 120776, 120784, 120798, 120806, 120812, 120870, 120876, 120890, 120902, 120908, 120920, 120946, 120948, 120966, 120972, 120984, 121008, 121022, 121038, 121058, 121060, 121064, 121078, 121100, 121112, 121136, 121150, 121184, 121212, 121244, 121282, 121284, 121288, 121296, 121318, 121338, 121356, 121368, 121392, 121406, 121440, 121468, 121536, 121592, 121656, 121730, 121732, 121736, 121744, 121758, 121760, 121804, 121842, 121844, 121890, 121922, 121924, 121928, 121936, 121950, 121958, 121978, 121986, 121988, 121992, 122e3, 122014, 122016, 122044, 122060, 122098, 122100, 122116, 122120, 122128, 122142, 122144, 122172, 122176, 122232, 122246, 122264, 122318, 122338, 122340, 122344, 122414, 122418, 122420, 122446, 122460, 122466, 122468, 122472, 122510, 122524, 122552, 122562, 122564, 122568, 122576, 122598, 122618, 122646, 122662, 122668, 122694, 122700, 122712, 122738, 122740, 122762, 122770, 122772, 122786, 122788, 122792, 123018, 123026, 123028, 123042, 123044, 123048, 123062, 123098, 123146, 123154, 123156, 123170, 123172, 123176, 123190, 123202, 123204, 123208, 123216, 123238, 123244, 123258, 123290, 123314, 123316, 123402, 123410, 123412, 123426, 123428, 123432, 123446, 123458, 123464, 123472, 123486, 123494, 123500, 123514, 123522, 123524, 123528, 123536, 123552, 123580, 123590, 123596, 123608, 123630, 123634, 123636, 123674, 123698, 123700, 123740, 123746, 123748, 123752, 123834, 123914, 123922, 123924, 123938, 123944, 123958, 123970, 123976, 123984, 123998, 124006, 124012, 124026, 124034, 124036, 124048, 124062, 124064, 124092, 124102, 124108, 124120, 124142, 124146, 124148, 124162, 124164, 124168, 124176, 124190, 124192, 124220, 124224, 124280, 124294, 124300, 124312, 124336, 124350, 124366, 124380, 124386, 124388, 124392, 124406, 124442, 124462, 124466, 124468, 124494, 124508, 124514, 124520, 124558, 124572, 124600, 124610, 124612, 124616, 124624, 124646, 124666, 124694, 124710, 124716, 124730, 124742, 124748, 124760, 124786, 124788, 124818, 124820, 124834, 124836, 124840, 124854, 124946, 124948, 124962, 124964, 124968, 124982, 124994, 124996, 125e3, 125008, 125022, 125030, 125036, 125050, 125058, 125060, 125064, 125072, 125086, 125088, 125116, 125126, 125132, 125144, 125166, 125170, 125172, 125186, 125188, 125192, 125200, 125216, 125244, 125248, 125304, 125318, 125324, 125336, 125360, 125374, 125390, 125404, 125410, 125412, 125416, 125430, 125444, 125448, 125456, 125472, 125504, 125560, 125680, 125702, 125708, 125720, 125744, 125758, 125792, 125820, 125838, 125852, 125880, 125890, 125892, 125896, 125904, 125918, 125926, 125932, 125978, 125998, 126002, 126004, 126030, 126044, 126050, 126052, 126056, 126094, 126108, 126136, 126146, 126148, 126152, 126160, 126182, 126202, 126222, 126236, 126264, 126320, 126334, 126338, 126340, 126344, 126352, 126366, 126368, 126412, 126450, 126452, 126486, 126502, 126508, 126522, 126534, 126540, 126552, 126574, 126578, 126580, 126598, 126604, 126616, 126640, 126654, 126670, 126684, 126690, 126692, 126696, 126738, 126754, 126756, 126760, 126774, 126786, 126788, 126792, 126800, 126814, 126822, 126828, 126842, 126894, 126898, 126900, 126934, 127126, 127142, 127148, 127162, 127178, 127186, 127188, 127254, 127270, 127276, 127290, 127302, 127308, 127320, 127342, 127346, 127348, 127370, 127378, 127380, 127394, 127396, 127400, 127450, 127510, 127526, 127532, 127546, 127558, 127576, 127598, 127602, 127604, 127622, 127628, 127640, 127664, 127678, 127694, 127708, 127714, 127716, 127720, 127734, 127754, 127762, 127764, 127778, 127784, 127810, 127812, 127816, 127824, 127838, 127846, 127866, 127898, 127918, 127922, 127924, 128022, 128038, 128044, 128058, 128070, 128076, 128088, 128110, 128114, 128116, 128134, 128140, 128152, 128176, 128190, 128206, 128220, 128226, 128228, 128232, 128246, 128262, 128268, 128280, 128304, 128318, 128352, 128380, 128398, 128412, 128440, 128450, 128452, 128456, 128464, 128478, 128486, 128492, 128506, 128522, 128530, 128532, 128546, 128548, 128552, 128566, 128578, 128580, 128584, 128592, 128606, 128614, 128634, 128642, 128644, 128648, 128656, 128670, 128672, 128700, 128716, 128754, 128756, 128794, 128814, 128818, 128820, 128846, 128860, 128866, 128868, 128872, 128886, 128918, 128934, 128940, 128954, 128978, 128980, 129178, 129198, 129202, 129204, 129238, 129258, 129306, 129326, 129330, 129332, 129358, 129372, 129378, 129380, 129384, 129398, 129430, 129446, 129452, 129466, 129482, 129490, 129492, 129562, 129582, 129586, 129588, 129614, 129628, 129634, 129636, 129640, 129654, 129678, 129692, 129720, 129730, 129732, 129736, 129744, 129758, 129766, 129772, 129814, 129830, 129836, 129850, 129862, 129868, 129880, 129902, 129906, 129908, 129930, 129938, 129940, 129954, 129956, 129960, 129974, 130010]), Be.CODEWORD_TABLE = Int32Array.from([2627, 1819, 2622, 2621, 1813, 1812, 2729, 2724, 2723, 2779, 2774, 2773, 902, 896, 908, 868, 865, 861, 859, 2511, 873, 871, 1780, 835, 2493, 825, 2491, 842, 837, 844, 1764, 1762, 811, 810, 809, 2483, 807, 2482, 806, 2480, 815, 814, 813, 812, 2484, 817, 816, 1745, 1744, 1742, 1746, 2655, 2637, 2635, 2626, 2625, 2623, 2628, 1820, 2752, 2739, 2737, 2728, 2727, 2725, 2730, 2785, 2783, 2778, 2777, 2775, 2780, 787, 781, 747, 739, 736, 2413, 754, 752, 1719, 692, 689, 681, 2371, 678, 2369, 700, 697, 694, 703, 1688, 1686, 642, 638, 2343, 631, 2341, 627, 2338, 651, 646, 643, 2345, 654, 652, 1652, 1650, 1647, 1654, 601, 599, 2322, 596, 2321, 594, 2319, 2317, 611, 610, 608, 606, 2324, 603, 2323, 615, 614, 612, 1617, 1616, 1614, 1612, 616, 1619, 1618, 2575, 2538, 2536, 905, 901, 898, 909, 2509, 2507, 2504, 870, 867, 864, 860, 2512, 875, 872, 1781, 2490, 2489, 2487, 2485, 1748, 836, 834, 832, 830, 2494, 827, 2492, 843, 841, 839, 845, 1765, 1763, 2701, 2676, 2674, 2653, 2648, 2656, 2634, 2633, 2631, 2629, 1821, 2638, 2636, 2770, 2763, 2761, 2750, 2745, 2753, 2736, 2735, 2733, 2731, 1848, 2740, 2738, 2786, 2784, 591, 588, 576, 569, 566, 2296, 1590, 537, 534, 526, 2276, 522, 2274, 545, 542, 539, 548, 1572, 1570, 481, 2245, 466, 2242, 462, 2239, 492, 485, 482, 2249, 496, 494, 1534, 1531, 1528, 1538, 413, 2196, 406, 2191, 2188, 425, 419, 2202, 415, 2199, 432, 430, 427, 1472, 1467, 1464, 433, 1476, 1474, 368, 367, 2160, 365, 2159, 362, 2157, 2155, 2152, 378, 377, 375, 2166, 372, 2165, 369, 2162, 383, 381, 379, 2168, 1419, 1418, 1416, 1414, 385, 1411, 384, 1423, 1422, 1420, 1424, 2461, 802, 2441, 2439, 790, 786, 783, 794, 2409, 2406, 2403, 750, 742, 738, 2414, 756, 753, 1720, 2367, 2365, 2362, 2359, 1663, 693, 691, 684, 2373, 680, 2370, 702, 699, 696, 704, 1690, 1687, 2337, 2336, 2334, 2332, 1624, 2329, 1622, 640, 637, 2344, 634, 2342, 630, 2340, 650, 648, 645, 2346, 655, 653, 1653, 1651, 1649, 1655, 2612, 2597, 2595, 2571, 2568, 2565, 2576, 2534, 2529, 2526, 1787, 2540, 2537, 907, 904, 900, 910, 2503, 2502, 2500, 2498, 1768, 2495, 1767, 2510, 2508, 2506, 869, 866, 863, 2513, 876, 874, 1782, 2720, 2713, 2711, 2697, 2694, 2691, 2702, 2672, 2670, 2664, 1828, 2678, 2675, 2647, 2646, 2644, 2642, 1823, 2639, 1822, 2654, 2652, 2650, 2657, 2771, 1855, 2765, 2762, 1850, 1849, 2751, 2749, 2747, 2754, 353, 2148, 344, 342, 336, 2142, 332, 2140, 345, 1375, 1373, 306, 2130, 299, 2128, 295, 2125, 319, 314, 311, 2132, 1354, 1352, 1349, 1356, 262, 257, 2101, 253, 2096, 2093, 274, 273, 267, 2107, 263, 2104, 280, 278, 275, 1316, 1311, 1308, 1320, 1318, 2052, 202, 2050, 2044, 2040, 219, 2063, 212, 2060, 208, 2055, 224, 221, 2066, 1260, 1258, 1252, 231, 1248, 229, 1266, 1264, 1261, 1268, 155, 1998, 153, 1996, 1994, 1991, 1988, 165, 164, 2007, 162, 2006, 159, 2003, 2e3, 172, 171, 169, 2012, 166, 2010, 1186, 1184, 1182, 1179, 175, 1176, 173, 1192, 1191, 1189, 1187, 176, 1194, 1193, 2313, 2307, 2305, 592, 589, 2294, 2292, 2289, 578, 572, 568, 2297, 580, 1591, 2272, 2267, 2264, 1547, 538, 536, 529, 2278, 525, 2275, 547, 544, 541, 1574, 1571, 2237, 2235, 2229, 1493, 2225, 1489, 478, 2247, 470, 2244, 465, 2241, 493, 488, 484, 2250, 498, 495, 1536, 1533, 1530, 1539, 2187, 2186, 2184, 2182, 1432, 2179, 1430, 2176, 1427, 414, 412, 2197, 409, 2195, 405, 2193, 2190, 426, 424, 421, 2203, 418, 2201, 431, 429, 1473, 1471, 1469, 1466, 434, 1477, 1475, 2478, 2472, 2470, 2459, 2457, 2454, 2462, 803, 2437, 2432, 2429, 1726, 2443, 2440, 792, 789, 785, 2401, 2399, 2393, 1702, 2389, 1699, 2411, 2408, 2405, 745, 741, 2415, 758, 755, 1721, 2358, 2357, 2355, 2353, 1661, 2350, 1660, 2347, 1657, 2368, 2366, 2364, 2361, 1666, 690, 687, 2374, 683, 2372, 701, 698, 705, 1691, 1689, 2619, 2617, 2610, 2608, 2605, 2613, 2593, 2588, 2585, 1803, 2599, 2596, 2563, 2561, 2555, 1797, 2551, 1795, 2573, 2570, 2567, 2577, 2525, 2524, 2522, 2520, 1786, 2517, 1785, 2514, 1783, 2535, 2533, 2531, 2528, 1788, 2541, 2539, 906, 903, 911, 2721, 1844, 2715, 2712, 1838, 1836, 2699, 2696, 2693, 2703, 1827, 1826, 1824, 2673, 2671, 2669, 2666, 1829, 2679, 2677, 1858, 1857, 2772, 1854, 1853, 1851, 1856, 2766, 2764, 143, 1987, 139, 1986, 135, 133, 131, 1984, 128, 1983, 125, 1981, 138, 137, 136, 1985, 1133, 1132, 1130, 112, 110, 1974, 107, 1973, 104, 1971, 1969, 122, 121, 119, 117, 1977, 114, 1976, 124, 1115, 1114, 1112, 1110, 1117, 1116, 84, 83, 1953, 81, 1952, 78, 1950, 1948, 1945, 94, 93, 91, 1959, 88, 1958, 85, 1955, 99, 97, 95, 1961, 1086, 1085, 1083, 1081, 1078, 100, 1090, 1089, 1087, 1091, 49, 47, 1917, 44, 1915, 1913, 1910, 1907, 59, 1926, 56, 1925, 53, 1922, 1919, 66, 64, 1931, 61, 1929, 1042, 1040, 1038, 71, 1035, 70, 1032, 68, 1048, 1047, 1045, 1043, 1050, 1049, 12, 10, 1869, 1867, 1864, 1861, 21, 1880, 19, 1877, 1874, 1871, 28, 1888, 25, 1886, 22, 1883, 982, 980, 977, 974, 32, 30, 991, 989, 987, 984, 34, 995, 994, 992, 2151, 2150, 2147, 2146, 2144, 356, 355, 354, 2149, 2139, 2138, 2136, 2134, 1359, 343, 341, 338, 2143, 335, 2141, 348, 347, 346, 1376, 1374, 2124, 2123, 2121, 2119, 1326, 2116, 1324, 310, 308, 305, 2131, 302, 2129, 298, 2127, 320, 318, 316, 313, 2133, 322, 321, 1355, 1353, 1351, 1357, 2092, 2091, 2089, 2087, 1276, 2084, 1274, 2081, 1271, 259, 2102, 256, 2100, 252, 2098, 2095, 272, 269, 2108, 266, 2106, 281, 279, 277, 1317, 1315, 1313, 1310, 282, 1321, 1319, 2039, 2037, 2035, 2032, 1203, 2029, 1200, 1197, 207, 2053, 205, 2051, 201, 2049, 2046, 2043, 220, 218, 2064, 215, 2062, 211, 2059, 228, 226, 223, 2069, 1259, 1257, 1254, 232, 1251, 230, 1267, 1265, 1263, 2316, 2315, 2312, 2311, 2309, 2314, 2304, 2303, 2301, 2299, 1593, 2308, 2306, 590, 2288, 2287, 2285, 2283, 1578, 2280, 1577, 2295, 2293, 2291, 579, 577, 574, 571, 2298, 582, 581, 1592, 2263, 2262, 2260, 2258, 1545, 2255, 1544, 2252, 1541, 2273, 2271, 2269, 2266, 1550, 535, 532, 2279, 528, 2277, 546, 543, 549, 1575, 1573, 2224, 2222, 2220, 1486, 2217, 1485, 2214, 1482, 1479, 2238, 2236, 2234, 2231, 1496, 2228, 1492, 480, 477, 2248, 473, 2246, 469, 2243, 490, 487, 2251, 497, 1537, 1535, 1532, 2477, 2476, 2474, 2479, 2469, 2468, 2466, 2464, 1730, 2473, 2471, 2453, 2452, 2450, 2448, 1729, 2445, 1728, 2460, 2458, 2456, 2463, 805, 804, 2428, 2427, 2425, 2423, 1725, 2420, 1724, 2417, 1722, 2438, 2436, 2434, 2431, 1727, 2444, 2442, 793, 791, 788, 795, 2388, 2386, 2384, 1697, 2381, 1696, 2378, 1694, 1692, 2402, 2400, 2398, 2395, 1703, 2392, 1701, 2412, 2410, 2407, 751, 748, 744, 2416, 759, 757, 1807, 2620, 2618, 1806, 1805, 2611, 2609, 2607, 2614, 1802, 1801, 1799, 2594, 2592, 2590, 2587, 1804, 2600, 2598, 1794, 1793, 1791, 1789, 2564, 2562, 2560, 2557, 1798, 2554, 1796, 2574, 2572, 2569, 2578, 1847, 1846, 2722, 1843, 1842, 1840, 1845, 2716, 2714, 1835, 1834, 1832, 1830, 1839, 1837, 2700, 2698, 2695, 2704, 1817, 1811, 1810, 897, 862, 1777, 829, 826, 838, 1760, 1758, 808, 2481, 1741, 1740, 1738, 1743, 2624, 1818, 2726, 2776, 782, 740, 737, 1715, 686, 679, 695, 1682, 1680, 639, 628, 2339, 647, 644, 1645, 1643, 1640, 1648, 602, 600, 597, 595, 2320, 593, 2318, 609, 607, 604, 1611, 1610, 1608, 1606, 613, 1615, 1613, 2328, 926, 924, 892, 886, 899, 857, 850, 2505, 1778, 824, 823, 821, 819, 2488, 818, 2486, 833, 831, 828, 840, 1761, 1759, 2649, 2632, 2630, 2746, 2734, 2732, 2782, 2781, 570, 567, 1587, 531, 527, 523, 540, 1566, 1564, 476, 467, 463, 2240, 486, 483, 1524, 1521, 1518, 1529, 411, 403, 2192, 399, 2189, 423, 416, 1462, 1457, 1454, 428, 1468, 1465, 2210, 366, 363, 2158, 360, 2156, 357, 2153, 376, 373, 370, 2163, 1410, 1409, 1407, 1405, 382, 1402, 380, 1417, 1415, 1412, 1421, 2175, 2174, 777, 774, 771, 784, 732, 725, 722, 2404, 743, 1716, 676, 674, 668, 2363, 665, 2360, 685, 1684, 1681, 626, 624, 622, 2335, 620, 2333, 617, 2330, 641, 635, 649, 1646, 1644, 1642, 2566, 928, 925, 2530, 2527, 894, 891, 888, 2501, 2499, 2496, 858, 856, 854, 851, 1779, 2692, 2668, 2665, 2645, 2643, 2640, 2651, 2768, 2759, 2757, 2744, 2743, 2741, 2748, 352, 1382, 340, 337, 333, 1371, 1369, 307, 300, 296, 2126, 315, 312, 1347, 1342, 1350, 261, 258, 250, 2097, 246, 2094, 271, 268, 264, 1306, 1301, 1298, 276, 1312, 1309, 2115, 203, 2048, 195, 2045, 191, 2041, 213, 209, 2056, 1246, 1244, 1238, 225, 1234, 222, 1256, 1253, 1249, 1262, 2080, 2079, 154, 1997, 150, 1995, 147, 1992, 1989, 163, 160, 2004, 156, 2001, 1175, 1174, 1172, 1170, 1167, 170, 1164, 167, 1185, 1183, 1180, 1177, 174, 1190, 1188, 2025, 2024, 2022, 587, 586, 564, 559, 556, 2290, 573, 1588, 520, 518, 512, 2268, 508, 2265, 530, 1568, 1565, 461, 457, 2233, 450, 2230, 446, 2226, 479, 471, 489, 1526, 1523, 1520, 397, 395, 2185, 392, 2183, 389, 2180, 2177, 410, 2194, 402, 422, 1463, 1461, 1459, 1456, 1470, 2455, 799, 2433, 2430, 779, 776, 773, 2397, 2394, 2390, 734, 728, 724, 746, 1717, 2356, 2354, 2351, 2348, 1658, 677, 675, 673, 670, 667, 688, 1685, 1683, 2606, 2589, 2586, 2559, 2556, 2552, 927, 2523, 2521, 2518, 2515, 1784, 2532, 895, 893, 890, 2718, 2709, 2707, 2689, 2687, 2684, 2663, 2662, 2660, 2658, 1825, 2667, 2769, 1852, 2760, 2758, 142, 141, 1139, 1138, 134, 132, 129, 126, 1982, 1129, 1128, 1126, 1131, 113, 111, 108, 105, 1972, 101, 1970, 120, 118, 115, 1109, 1108, 1106, 1104, 123, 1113, 1111, 82, 79, 1951, 75, 1949, 72, 1946, 92, 89, 86, 1956, 1077, 1076, 1074, 1072, 98, 1069, 96, 1084, 1082, 1079, 1088, 1968, 1967, 48, 45, 1916, 42, 1914, 39, 1911, 1908, 60, 57, 54, 1923, 50, 1920, 1031, 1030, 1028, 1026, 67, 1023, 65, 1020, 62, 1041, 1039, 1036, 1033, 69, 1046, 1044, 1944, 1943, 1941, 11, 9, 1868, 7, 1865, 1862, 1859, 20, 1878, 16, 1875, 13, 1872, 970, 968, 966, 963, 29, 960, 26, 23, 983, 981, 978, 975, 33, 971, 31, 990, 988, 985, 1906, 1904, 1902, 993, 351, 2145, 1383, 331, 330, 328, 326, 2137, 323, 2135, 339, 1372, 1370, 294, 293, 291, 289, 2122, 286, 2120, 283, 2117, 309, 303, 317, 1348, 1346, 1344, 245, 244, 242, 2090, 239, 2088, 236, 2085, 2082, 260, 2099, 249, 270, 1307, 1305, 1303, 1300, 1314, 189, 2038, 186, 2036, 183, 2033, 2030, 2026, 206, 198, 2047, 194, 216, 1247, 1245, 1243, 1240, 227, 1237, 1255, 2310, 2302, 2300, 2286, 2284, 2281, 565, 563, 561, 558, 575, 1589, 2261, 2259, 2256, 2253, 1542, 521, 519, 517, 514, 2270, 511, 533, 1569, 1567, 2223, 2221, 2218, 2215, 1483, 2211, 1480, 459, 456, 453, 2232, 449, 474, 491, 1527, 1525, 1522, 2475, 2467, 2465, 2451, 2449, 2446, 801, 800, 2426, 2424, 2421, 2418, 1723, 2435, 780, 778, 775, 2387, 2385, 2382, 2379, 1695, 2375, 1693, 2396, 735, 733, 730, 727, 749, 1718, 2616, 2615, 2604, 2603, 2601, 2584, 2583, 2581, 2579, 1800, 2591, 2550, 2549, 2547, 2545, 1792, 2542, 1790, 2558, 929, 2719, 1841, 2710, 2708, 1833, 1831, 2690, 2688, 2686, 1815, 1809, 1808, 1774, 1756, 1754, 1737, 1736, 1734, 1739, 1816, 1711, 1676, 1674, 633, 629, 1638, 1636, 1633, 1641, 598, 1605, 1604, 1602, 1600, 605, 1609, 1607, 2327, 887, 853, 1775, 822, 820, 1757, 1755, 1584, 524, 1560, 1558, 468, 464, 1514, 1511, 1508, 1519, 408, 404, 400, 1452, 1447, 1444, 417, 1458, 1455, 2208, 364, 361, 358, 2154, 1401, 1400, 1398, 1396, 374, 1393, 371, 1408, 1406, 1403, 1413, 2173, 2172, 772, 726, 723, 1712, 672, 669, 666, 682, 1678, 1675, 625, 623, 621, 618, 2331, 636, 632, 1639, 1637, 1635, 920, 918, 884, 880, 889, 849, 848, 847, 846, 2497, 855, 852, 1776, 2641, 2742, 2787, 1380, 334, 1367, 1365, 301, 297, 1340, 1338, 1335, 1343, 255, 251, 247, 1296, 1291, 1288, 265, 1302, 1299, 2113, 204, 196, 192, 2042, 1232, 1230, 1224, 214, 1220, 210, 1242, 1239, 1235, 1250, 2077, 2075, 151, 148, 1993, 144, 1990, 1163, 1162, 1160, 1158, 1155, 161, 1152, 157, 1173, 1171, 1168, 1165, 168, 1181, 1178, 2021, 2020, 2018, 2023, 585, 560, 557, 1585, 516, 509, 1562, 1559, 458, 447, 2227, 472, 1516, 1513, 1510, 398, 396, 393, 390, 2181, 386, 2178, 407, 1453, 1451, 1449, 1446, 420, 1460, 2209, 769, 764, 720, 712, 2391, 729, 1713, 664, 663, 661, 659, 2352, 656, 2349, 671, 1679, 1677, 2553, 922, 919, 2519, 2516, 885, 883, 881, 2685, 2661, 2659, 2767, 2756, 2755, 140, 1137, 1136, 130, 127, 1125, 1124, 1122, 1127, 109, 106, 102, 1103, 1102, 1100, 1098, 116, 1107, 1105, 1980, 80, 76, 73, 1947, 1068, 1067, 1065, 1063, 90, 1060, 87, 1075, 1073, 1070, 1080, 1966, 1965, 46, 43, 40, 1912, 36, 1909, 1019, 1018, 1016, 1014, 58, 1011, 55, 1008, 51, 1029, 1027, 1024, 1021, 63, 1037, 1034, 1940, 1939, 1937, 1942, 8, 1866, 4, 1863, 1, 1860, 956, 954, 952, 949, 946, 17, 14, 969, 967, 964, 961, 27, 957, 24, 979, 976, 972, 1901, 1900, 1898, 1896, 986, 1905, 1903, 350, 349, 1381, 329, 327, 324, 1368, 1366, 292, 290, 287, 284, 2118, 304, 1341, 1339, 1337, 1345, 243, 240, 237, 2086, 233, 2083, 254, 1297, 1295, 1293, 1290, 1304, 2114, 190, 187, 184, 2034, 180, 2031, 177, 2027, 199, 1233, 1231, 1229, 1226, 217, 1223, 1241, 2078, 2076, 584, 555, 554, 552, 550, 2282, 562, 1586, 507, 506, 504, 502, 2257, 499, 2254, 515, 1563, 1561, 445, 443, 441, 2219, 438, 2216, 435, 2212, 460, 454, 475, 1517, 1515, 1512, 2447, 798, 797, 2422, 2419, 770, 768, 766, 2383, 2380, 2376, 721, 719, 717, 714, 731, 1714, 2602, 2582, 2580, 2548, 2546, 2543, 923, 921, 2717, 2706, 2705, 2683, 2682, 2680, 1771, 1752, 1750, 1733, 1732, 1731, 1735, 1814, 1707, 1670, 1668, 1631, 1629, 1626, 1634, 1599, 1598, 1596, 1594, 1603, 1601, 2326, 1772, 1753, 1751, 1581, 1554, 1552, 1504, 1501, 1498, 1509, 1442, 1437, 1434, 401, 1448, 1445, 2206, 1392, 1391, 1389, 1387, 1384, 359, 1399, 1397, 1394, 1404, 2171, 2170, 1708, 1672, 1669, 619, 1632, 1630, 1628, 1773, 1378, 1363, 1361, 1333, 1328, 1336, 1286, 1281, 1278, 248, 1292, 1289, 2111, 1218, 1216, 1210, 197, 1206, 193, 1228, 1225, 1221, 1236, 2073, 2071, 1151, 1150, 1148, 1146, 152, 1143, 149, 1140, 145, 1161, 1159, 1156, 1153, 158, 1169, 1166, 2017, 2016, 2014, 2019, 1582, 510, 1556, 1553, 452, 448, 1506, 1500, 394, 391, 387, 1443, 1441, 1439, 1436, 1450, 2207, 765, 716, 713, 1709, 662, 660, 657, 1673, 1671, 916, 914, 879, 878, 877, 882, 1135, 1134, 1121, 1120, 1118, 1123, 1097, 1096, 1094, 1092, 103, 1101, 1099, 1979, 1059, 1058, 1056, 1054, 77, 1051, 74, 1066, 1064, 1061, 1071, 1964, 1963, 1007, 1006, 1004, 1002, 999, 41, 996, 37, 1017, 1015, 1012, 1009, 52, 1025, 1022, 1936, 1935, 1933, 1938, 942, 940, 938, 935, 932, 5, 2, 955, 953, 950, 947, 18, 943, 15, 965, 962, 958, 1895, 1894, 1892, 1890, 973, 1899, 1897, 1379, 325, 1364, 1362, 288, 285, 1334, 1332, 1330, 241, 238, 234, 1287, 1285, 1283, 1280, 1294, 2112, 188, 185, 181, 178, 2028, 1219, 1217, 1215, 1212, 200, 1209, 1227, 2074, 2072, 583, 553, 551, 1583, 505, 503, 500, 513, 1557, 1555, 444, 442, 439, 436, 2213, 455, 451, 1507, 1505, 1502, 796, 763, 762, 760, 767, 711, 710, 708, 706, 2377, 718, 715, 1710, 2544, 917, 915, 2681, 1627, 1597, 1595, 2325, 1769, 1749, 1747, 1499, 1438, 1435, 2204, 1390, 1388, 1385, 1395, 2169, 2167, 1704, 1665, 1662, 1625, 1623, 1620, 1770, 1329, 1282, 1279, 2109, 1214, 1207, 1222, 2068, 2065, 1149, 1147, 1144, 1141, 146, 1157, 1154, 2013, 2011, 2008, 2015, 1579, 1549, 1546, 1495, 1487, 1433, 1431, 1428, 1425, 388, 1440, 2205, 1705, 658, 1667, 1664, 1119, 1095, 1093, 1978, 1057, 1055, 1052, 1062, 1962, 1960, 1005, 1003, 1e3, 997, 38, 1013, 1010, 1932, 1930, 1927, 1934, 941, 939, 936, 933, 6, 930, 3, 951, 948, 944, 1889, 1887, 1884, 1881, 959, 1893, 1891, 35, 1377, 1360, 1358, 1327, 1325, 1322, 1331, 1277, 1275, 1272, 1269, 235, 1284, 2110, 1205, 1204, 1201, 1198, 182, 1195, 179, 1213, 2070, 2067, 1580, 501, 1551, 1548, 440, 437, 1497, 1494, 1490, 1503, 761, 709, 707, 1706, 913, 912, 2198, 1386, 2164, 2161, 1621, 1766, 2103, 1208, 2058, 2054, 1145, 1142, 2005, 2002, 1999, 2009, 1488, 1429, 1426, 2200, 1698, 1659, 1656, 1975, 1053, 1957, 1954, 1001, 998, 1924, 1921, 1918, 1928, 937, 934, 931, 1879, 1876, 1873, 1870, 945, 1885, 1882, 1323, 1273, 1270, 2105, 1202, 1199, 1196, 1211, 2061, 2057, 1576, 1543, 1540, 1484, 1481, 1478, 1491, 1700]);
class be {
constructor(t, e) {
this.bits = t, this.points = e
}
getBits() {
return this.bits
}
getPoints() {
return this.points
}
}
class Pe {
static detectMultiple(t, e, r) {
let n = t.getBlackMatrix(), i = Pe.detect(r, n);
return i.length || (n = n.clone(), n.rotate180(), i = Pe.detect(r, n)), new be(n, i)
}
static detect(t, e) {
const r = new Array;
let n = 0, i = 0, s = !1;
for (; n < e.getHeight();) {
const o = Pe.findVertices(e, n, i);
if (null != o[0] || null != o[3]) {
if (s = !0, r.push(o), !t) break;
null != o[2] ? (i = Math.trunc(o[2].getX()), n = Math.trunc(o[2].getY())) : (i = Math.trunc(o[4].getX()), n = Math.trunc(o[4].getY()))
} else {
if (!s) break;
s = !1, i = 0;
for (const t of r) null != t[1] && (n = Math.trunc(Math.max(n, t[1].getY()))), null != t[3] && (n = Math.max(n, Math.trunc(t[3].getY())));
n += Pe.ROW_STEP
}
}
return r
}
static findVertices(t, e, r) {
const n = t.getHeight(), i = t.getWidth(), s = new Array(8);
return Pe.copyToResult(s, Pe.findRowsWithPattern(t, n, i, e, r, Pe.START_PATTERN), Pe.INDEXES_START_PATTERN), null != s[4] && (r = Math.trunc(s[4].getX()), e = Math.trunc(s[4].getY())), Pe.copyToResult(s, Pe.findRowsWithPattern(t, n, i, e, r, Pe.STOP_PATTERN), Pe.INDEXES_STOP_PATTERN), s
}
static copyToResult(t, e, r) {
for (let n = 0; n < r.length; n++) t[r[n]] = e[n]
}
static findRowsWithPattern(t, e, r, n, i, s) {
const o = new Array(4);
let a = !1;
const l = new Int32Array(s.length);
for (; n < e; n += Pe.ROW_STEP) {
let e = Pe.findGuardPattern(t, i, n, r, !1, s, l);
if (null != e) {
for (; n > 0;) {
const o = Pe.findGuardPattern(t, i, --n, r, !1, s, l);
if (null == o) {
n++;
break
}
e = o
}
o[0] = new rt(e[0], n), o[1] = new rt(e[1], n), a = !0;
break
}
}
let h = n + 1;
if (a) {
let n = 0, i = Int32Array.from([Math.trunc(o[0].getX()), Math.trunc(o[1].getX())]);
for (; h < e; h++) {
const e = Pe.findGuardPattern(t, i[0], h, r, !1, s, l);
if (null != e && Math.abs(i[0] - e[0]) < Pe.MAX_PATTERN_DRIFT && Math.abs(i[1] - e[1]) < Pe.MAX_PATTERN_DRIFT) i = e, n = 0; else {
if (n > Pe.SKIPPED_ROW_COUNT_MAX) break;
n++
}
}
h -= n + 1, o[2] = new rt(i[0], h), o[3] = new rt(i[1], h)
}
return h - n < Pe.BARCODE_MIN_HEIGHT && g.fill(o, null), o
}
static findGuardPattern(t, e, r, n, i, s, o) {
g.fillWithin(o, 0, o.length, 0);
let a = e, l = 0;
for (; t.get(a, r) && a > 0 && l++ < Pe.MAX_PIXEL_DRIFT;) a--;
let h = a, u = 0, d = s.length;
for (let e = i; h < n; h++) {
if (t.get(h, r) !== e) o[u]++; else {
if (u === d - 1) {
if (Pe.patternMatchVariance(o, s, Pe.MAX_INDIVIDUAL_VARIANCE) < Pe.MAX_AVG_VARIANCE) return new Int32Array([a, h]);
a += o[0] + o[1], c.arraycopy(o, 2, o, 0, u - 1), o[u - 1] = 0, o[u] = 0, u--
} else u++;
o[u] = 1, e = !e
}
}
return u === d - 1 && Pe.patternMatchVariance(o, s, Pe.MAX_INDIVIDUAL_VARIANCE) < Pe.MAX_AVG_VARIANCE ? new Int32Array([a, h - 1]) : null
}
static patternMatchVariance(t, e, r) {
let n = t.length, i = 0, s = 0;
for (let r = 0; r < n; r++) i += t[r], s += e[r];
if (i < s) return 1 / 0;
let o = i / s;
r *= o;
let a = 0;
for (let i = 0; i < n; i++) {
let n = t[i], s = e[i] * o, l = n > s ? n - s : s - n;
if (l > r) return 1 / 0;
a += l
}
return a / i
}
}
Pe.INDEXES_START_PATTERN = Int32Array.from([0, 4, 1, 5]), Pe.INDEXES_STOP_PATTERN = Int32Array.from([6, 2, 7, 3]), Pe.MAX_AVG_VARIANCE = .42, Pe.MAX_INDIVIDUAL_VARIANCE = .8, Pe.START_PATTERN = Int32Array.from([8, 1, 1, 1, 1, 1, 1, 3]), Pe.STOP_PATTERN = Int32Array.from([7, 1, 1, 3, 1, 1, 1, 2, 1]), Pe.MAX_PIXEL_DRIFT = 3, Pe.MAX_PATTERN_DRIFT = 5, Pe.SKIPPED_ROW_COUNT_MAX = 25, Pe.ROW_STEP = 5, Pe.BARCODE_MIN_HEIGHT = 10;
class Le {
constructor(t, e) {
if (0 === e.length) throw new o;
this.field = t;
let r = e.length;
if (r > 1 && 0 === e[0]) {
let t = 1;
for (; t < r && 0 === e[t];) t++;
t === r ? this.coefficients = new Int32Array([0]) : (this.coefficients = new Int32Array(r - t), c.arraycopy(e, t, this.coefficients, 0, this.coefficients.length))
} else this.coefficients = e
}
getCoefficients() {
return this.coefficients
}
getDegree() {
return this.coefficients.length - 1
}
isZero() {
return 0 === this.coefficients[0]
}
getCoefficient(t) {
return this.coefficients[this.coefficients.length - 1 - t]
}
evaluateAt(t) {
if (0 === t) return this.getCoefficient(0);
if (1 === t) {
let t = 0;
for (let e of this.coefficients) t = this.field.add(t, e);
return t
}
let e = this.coefficients[0], r = this.coefficients.length;
for (let n = 1; n < r; n++) e = this.field.add(this.field.multiply(t, e), this.coefficients[n]);
return e
}
add(t) {
if (!this.field.equals(t.field)) throw new o("ModulusPolys do not have same ModulusGF field");
if (this.isZero()) return t;
if (t.isZero()) return this;
let e = this.coefficients, r = t.coefficients;
if (e.length > r.length) {
let t = e;
e = r, r = t
}
let n = new Int32Array(r.length), i = r.length - e.length;
c.arraycopy(r, 0, n, 0, i);
for (let t = i; t < r.length; t++) n[t] = this.field.add(e[t - i], r[t]);
return new Le(this.field, n)
}
subtract(t) {
if (!this.field.equals(t.field)) throw new o("ModulusPolys do not have same ModulusGF field");
return t.isZero() ? this : this.add(t.negative())
}
multiply(t) {
return t instanceof Le ? this.multiplyOther(t) : this.multiplyScalar(t)
}
multiplyOther(t) {
if (!this.field.equals(t.field)) throw new o("ModulusPolys do not have same ModulusGF field");
if (this.isZero() || t.isZero()) return new Le(this.field, new Int32Array([0]));
let e = this.coefficients, r = e.length, n = t.coefficients, i = n.length, s = new Int32Array(r + i - 1);
for (let t = 0; t < r; t++) {
let r = e[t];
for (let e = 0; e < i; e++) s[t + e] = this.field.add(s[t + e], this.field.multiply(r, n[e]))
}
return new Le(this.field, s)
}
negative() {
let t = this.coefficients.length, e = new Int32Array(t);
for (let r = 0; r < t; r++) e[r] = this.field.subtract(0, this.coefficients[r]);
return new Le(this.field, e)
}
multiplyScalar(t) {
if (0 === t) return new Le(this.field, new Int32Array([0]));
if (1 === t) return this;
let e = this.coefficients.length, r = new Int32Array(e);
for (let n = 0; n < e; n++) r[n] = this.field.multiply(this.coefficients[n], t);
return new Le(this.field, r)
}
multiplyByMonomial(t, e) {
if (t < 0) throw new o;
if (0 === e) return new Le(this.field, new Int32Array([0]));
let r = this.coefficients.length, n = new Int32Array(r + t);
for (let t = 0; t < r; t++) n[t] = this.field.multiply(this.coefficients[t], e);
return new Le(this.field, n)
}
toString() {
let t = new p;
for (let e = this.getDegree(); e >= 0; e--) {
let r = this.getCoefficient(e);
0 !== r && (r < 0 ? (t.append(" - "), r = -r) : t.length() > 0 && t.append(" + "), 0 !== e && 1 === r || t.append(r), 0 !== e && (1 === e ? t.append("x") : (t.append("x^"), t.append(e))))
}
return t.toString()
}
}
class Fe extends class {
add(t, e) {
return (t + e) % this.modulus
}
subtract(t, e) {
return (this.modulus + t - e) % this.modulus
}
exp(t) {
return this.expTable[t]
}
log(t) {
if (0 === t) throw new o;
return this.logTable[t]
}
inverse(t) {
if (0 === t) throw new K;
return this.expTable[this.modulus - this.logTable[t] - 1]
}
multiply(t, e) {
return 0 === t || 0 === e ? 0 : this.expTable[(this.logTable[t] + this.logTable[e]) % (this.modulus - 1)]
}
getSize() {
return this.modulus
}
equals(t) {
return t === this
}
} {
constructor(t, e) {
super(), this.modulus = t, this.expTable = new Int32Array(t), this.logTable = new Int32Array(t);
let r = 1;
for (let n = 0; n < t; n++) this.expTable[n] = r, r = r * e % t;
for (let e = 0; e < t - 1; e++) this.logTable[this.expTable[e]] = e;
this.zero = new Le(this, new Int32Array([0])), this.one = new Le(this, new Int32Array([1]))
}
getZero() {
return this.zero
}
getOne() {
return this.one
}
buildMonomial(t, e) {
if (t < 0) throw new o;
if (0 === e) return this.zero;
let r = new Int32Array(t + 1);
return r[0] = e, new Le(this, r)
}
}
Fe.PDF417_GF = new Fe(Be.NUMBER_OF_CODEWORDS, 3);
class ke {
constructor() {
this.field = Fe.PDF417_GF
}
decode(t, e, r) {
let n = new Le(this.field, t), i = new Int32Array(e), s = !1;
for (let t = e; t > 0; t--) {
let r = n.evaluateAt(this.field.exp(t));
i[e - t] = r, 0 !== r && (s = !0)
}
if (!s) return 0;
let o = this.field.getOne();
if (null != r) for (const e of r) {
let r = this.field.exp(t.length - 1 - e),
n = new Le(this.field, new Int32Array([this.field.subtract(0, r), 1]));
o = o.multiply(n)
}
let a = new Le(this.field, i), h = this.runEuclideanAlgorithm(this.field.buildMonomial(e, 1), a, e), c = h[0],
u = h[1], d = this.findErrorLocations(c), g = this.findErrorMagnitudes(u, c, d);
for (let e = 0; e < d.length; e++) {
let r = t.length - 1 - this.field.log(d[e]);
if (r < 0) throw l.getChecksumInstance();
t[r] = this.field.subtract(t[r], g[e])
}
return d.length
}
runEuclideanAlgorithm(t, e, r) {
if (t.getDegree() < e.getDegree()) {
let r = t;
t = e, e = r
}
let n = t, i = e, s = this.field.getZero(), o = this.field.getOne();
for (; i.getDegree() >= Math.round(r / 2);) {
let t = n, e = s;
if (n = i, s = o, n.isZero()) throw l.getChecksumInstance();
i = t;
let r = this.field.getZero(), a = n.getCoefficient(n.getDegree()), h = this.field.inverse(a);
for (; i.getDegree() >= n.getDegree() && !i.isZero();) {
let t = i.getDegree() - n.getDegree(), e = this.field.multiply(i.getCoefficient(i.getDegree()), h);
r = r.add(this.field.buildMonomial(t, e)), i = i.subtract(n.multiplyByMonomial(t, e))
}
o = r.multiply(s).subtract(e).negative()
}
let a = o.getCoefficient(0);
if (0 === a) throw l.getChecksumInstance();
let h = this.field.inverse(a);
return [o.multiply(h), i.multiply(h)]
}
findErrorLocations(t) {
let e = t.getDegree(), r = new Int32Array(e), n = 0;
for (let i = 1; i < this.field.getSize() && n < e; i++) 0 === t.evaluateAt(i) && (r[n] = this.field.inverse(i), n++);
if (n !== e) throw l.getChecksumInstance();
return r
}
findErrorMagnitudes(t, e, r) {
let n = e.getDegree(), i = new Int32Array(n);
for (let t = 1; t <= n; t++) i[n - t] = this.field.multiply(t, e.getCoefficient(t));
let s = new Le(this.field, i), o = r.length, a = new Int32Array(o);
for (let e = 0; e < o; e++) {
let n = this.field.inverse(r[e]), i = this.field.subtract(0, t.evaluateAt(n)),
o = this.field.inverse(s.evaluateAt(n));
a[e] = this.field.multiply(i, o)
}
return a
}
}
class ve {
constructor(t, e, r, n, i) {
t instanceof ve ? this.constructor_2(t) : this.constructor_1(t, e, r, n, i)
}
constructor_1(t, e, r, n, i) {
const s = null == e || null == r, o = null == n || null == i;
if (s && o) throw new R;
s ? (e = new rt(0, n.getY()), r = new rt(0, i.getY())) : o && (n = new rt(t.getWidth() - 1, e.getY()), i = new rt(t.getWidth() - 1, r.getY())), this.image = t, this.topLeft = e, this.bottomLeft = r, this.topRight = n, this.bottomRight = i, this.minX = Math.trunc(Math.min(e.getX(), r.getX())), this.maxX = Math.trunc(Math.max(n.getX(), i.getX())), this.minY = Math.trunc(Math.min(e.getY(), n.getY())), this.maxY = Math.trunc(Math.max(r.getY(), i.getY()))
}
constructor_2(t) {
this.image = t.image, this.topLeft = t.getTopLeft(), this.bottomLeft = t.getBottomLeft(), this.topRight = t.getTopRight(), this.bottomRight = t.getBottomRight(), this.minX = t.getMinX(), this.maxX = t.getMaxX(), this.minY = t.getMinY(), this.maxY = t.getMaxY()
}
static merge(t, e) {
return null == t ? e : null == e ? t : new ve(t.image, t.topLeft, t.bottomLeft, e.topRight, e.bottomRight)
}
addMissingRows(t, e, r) {
let n = this.topLeft, i = this.bottomLeft, s = this.topRight, o = this.bottomRight;
if (t > 0) {
let e = r ? this.topLeft : this.topRight, i = Math.trunc(e.getY() - t);
i < 0 && (i = 0);
let o = new rt(e.getX(), i);
r ? n = o : s = o
}
if (e > 0) {
let t = r ? this.bottomLeft : this.bottomRight, n = Math.trunc(t.getY() + e);
n >= this.image.getHeight() && (n = this.image.getHeight() - 1);
let s = new rt(t.getX(), n);
r ? i = s : o = s
}
return new ve(this.image, n, i, s, o)
}
getMinX() {
return this.minX
}
getMaxX() {
return this.maxX
}
getMinY() {
return this.minY
}
getMaxY() {
return this.maxY
}
getTopLeft() {
return this.topLeft
}
getTopRight() {
return this.topRight
}
getBottomLeft() {
return this.bottomLeft
}
getBottomRight() {
return this.bottomRight
}
}
class xe {
constructor(t, e, r, n) {
this.columnCount = t, this.errorCorrectionLevel = n, this.rowCountUpperPart = e, this.rowCountLowerPart = r, this.rowCount = e + r
}
getColumnCount() {
return this.columnCount
}
getErrorCorrectionLevel() {
return this.errorCorrectionLevel
}
getRowCount() {
return this.rowCount
}
getRowCountUpperPart() {
return this.rowCountUpperPart
}
getRowCountLowerPart() {
return this.rowCountLowerPart
}
}
class Ve {
constructor() {
this.buffer = ""
}
static form(t, e) {
let r = -1;
return t.replace(/%(-)?(0?[0-9]+)?([.][0-9]+)?([#][0-9]+)?([scfpexd%])/g, (function (t, n, i, s, o, a) {
if ("%%" === t) return "%";
if (void 0 === e[++r]) return;
t = s ? parseInt(s.substr(1)) : void 0;
let l, h = o ? parseInt(o.substr(1)) : void 0;
switch (a) {
case"s":
l = e[r];
break;
case"c":
l = e[r][0];
break;
case"f":
l = parseFloat(e[r]).toFixed(t);
break;
case"p":
l = parseFloat(e[r]).toPrecision(t);
break;
case"e":
l = parseFloat(e[r]).toExponential(t);
break;
case"x":
l = parseInt(e[r]).toString(h || 16);
break;
case"d":
l = parseFloat(parseInt(e[r], h || 10).toPrecision(t)).toFixed(0)
}
l = "object" == typeof l ? JSON.stringify(l) : (+l).toString(h);
let c = parseInt(i), u = i && i[0] + "" == "0" ? "0" : " ";
for (; l.length < c;) l = void 0 !== n ? l + u : u + l;
return l
}))
}
format(t, ...e) {
this.buffer += Ve.form(t, e)
}
toString() {
return this.buffer
}
}
class Ue {
constructor(t) {
this.boundingBox = new ve(t), this.codewords = new Array(t.getMaxY() - t.getMinY() + 1)
}
getCodewordNearby(t) {
let e = this.getCodeword(t);
if (null != e) return e;
for (let r = 1; r < Ue.MAX_NEARBY_DISTANCE; r++) {
let n = this.imageRowToCodewordIndex(t) - r;
if (n >= 0 && (e = this.codewords[n], null != e)) return e;
if (n = this.imageRowToCodewordIndex(t) + r, n < this.codewords.length && (e = this.codewords[n], null != e)) return e
}
return null
}
imageRowToCodewordIndex(t) {
return t - this.boundingBox.getMinY()
}
setCodeword(t, e) {
this.codewords[this.imageRowToCodewordIndex(t)] = e
}
getCodeword(t) {
return this.codewords[this.imageRowToCodewordIndex(t)]
}
getBoundingBox() {
return this.boundingBox
}
getCodewords() {
return this.codewords
}
toString() {
const t = new Ve;
let e = 0;
for (const r of this.codewords) null != r ? t.format("%3d: %3d|%3d%n", e++, r.getRowNumber(), r.getValue()) : t.format("%3d: | %n", e++);
return t.toString()
}
}
Ue.MAX_NEARBY_DISTANCE = 5;
class He {
constructor() {
this.values = new Map
}
setValue(t) {
t = Math.trunc(t);
let e = this.values.get(t);
null == e && (e = 0), e++, this.values.set(t, e)
}
getValue() {
let t = -1, e = new Array;
for (const [r, n] of this.values.entries()) {
const i = {getKey: () => r, getValue: () => n};
i.getValue() > t ? (t = i.getValue(), e = [], e.push(i.getKey())) : i.getValue() === t && e.push(i.getKey())
}
return Be.toIntArray(e)
}
getConfidence(t) {
return this.values.get(t)
}
}
class Ge extends Ue {
constructor(t, e) {
super(t), this._isLeft = e
}
setRowNumbers() {
for (let t of this.getCodewords()) null != t && t.setRowNumberAsRowIndicatorColumn()
}
adjustCompleteIndicatorColumnRowNumbers(t) {
let e = this.getCodewords();
this.setRowNumbers(), this.removeIncorrectCodewords(e, t);
let r = this.getBoundingBox(), n = this._isLeft ? r.getTopLeft() : r.getTopRight(),
i = this._isLeft ? r.getBottomLeft() : r.getBottomRight(),
s = this.imageRowToCodewordIndex(Math.trunc(n.getY())),
o = this.imageRowToCodewordIndex(Math.trunc(i.getY())), a = -1, l = 1, h = 0;
for (let r = s; r < o; r++) {
if (null == e[r]) continue;
let n = e[r], i = n.getRowNumber() - a;
if (0 === i) h++; else if (1 === i) l = Math.max(l, h), h = 1, a = n.getRowNumber(); else if (i < 0 || n.getRowNumber() >= t.getRowCount() || i > r) e[r] = null; else {
let t;
t = l > 2 ? (l - 2) * i : i;
let s = t >= r;
for (let n = 1; n <= t && !s; n++) s = null != e[r - n];
s ? e[r] = null : (a = n.getRowNumber(), h = 1)
}
}
}
getRowHeights() {
let t = this.getBarcodeMetadata();
if (null == t) return null;
this.adjustIncompleteIndicatorColumnRowNumbers(t);
let e = new Int32Array(t.getRowCount());
for (let t of this.getCodewords()) if (null != t) {
let r = t.getRowNumber();
if (r >= e.length) continue;
e[r]++
}
return e
}
adjustIncompleteIndicatorColumnRowNumbers(t) {
let e = this.getBoundingBox(), r = this._isLeft ? e.getTopLeft() : e.getTopRight(),
n = this._isLeft ? e.getBottomLeft() : e.getBottomRight(),
i = this.imageRowToCodewordIndex(Math.trunc(r.getY())),
s = this.imageRowToCodewordIndex(Math.trunc(n.getY())), o = this.getCodewords(), a = -1;
for (let e = i; e < s; e++) {
if (null == o[e]) continue;
let r = o[e];
r.setRowNumberAsRowIndicatorColumn();
let n = r.getRowNumber() - a;
0 === n || (1 === n ? a = r.getRowNumber() : r.getRowNumber() >= t.getRowCount() ? o[e] = null : a = r.getRowNumber())
}
}
getBarcodeMetadata() {
let t = this.getCodewords(), e = new He, r = new He, n = new He, i = new He;
for (let s of t) {
if (null == s) continue;
s.setRowNumberAsRowIndicatorColumn();
let t = s.getValue() % 30, o = s.getRowNumber();
switch (this._isLeft || (o += 2), o % 3) {
case 0:
r.setValue(3 * t + 1);
break;
case 1:
i.setValue(t / 3), n.setValue(t % 3);
break;
case 2:
e.setValue(t + 1)
}
}
if (0 === e.getValue().length || 0 === r.getValue().length || 0 === n.getValue().length || 0 === i.getValue().length || e.getValue()[0] < 1 || r.getValue()[0] + n.getValue()[0] < Be.MIN_ROWS_IN_BARCODE || r.getValue()[0] + n.getValue()[0] > Be.MAX_ROWS_IN_BARCODE) return null;
let s = new xe(e.getValue()[0], r.getValue()[0], n.getValue()[0], i.getValue()[0]);
return this.removeIncorrectCodewords(t, s), s
}
removeIncorrectCodewords(t, e) {
for (let r = 0; r < t.length; r++) {
let n = t[r];
if (null == t[r]) continue;
let i = n.getValue() % 30, s = n.getRowNumber();
if (s > e.getRowCount()) t[r] = null; else switch (this._isLeft || (s += 2), s % 3) {
case 0:
3 * i + 1 !== e.getRowCountUpperPart() && (t[r] = null);
break;
case 1:
Math.trunc(i / 3) === e.getErrorCorrectionLevel() && i % 3 === e.getRowCountLowerPart() || (t[r] = null);
break;
case 2:
i + 1 !== e.getColumnCount() && (t[r] = null)
}
}
}
isLeft() {
return this._isLeft
}
toString() {
return "IsLeft: " + this._isLeft + "\n" + super.toString()
}
}
class Xe {
constructor(t, e) {
this.ADJUST_ROW_NUMBER_SKIP = 2, this.barcodeMetadata = t, this.barcodeColumnCount = t.getColumnCount(), this.boundingBox = e, this.detectionResultColumns = new Array(this.barcodeColumnCount + 2)
}
getDetectionResultColumns() {
this.adjustIndicatorColumnRowNumbers(this.detectionResultColumns[0]), this.adjustIndicatorColumnRowNumbers(this.detectionResultColumns[this.barcodeColumnCount + 1]);
let t, e = Be.MAX_CODEWORDS_IN_BARCODE;
do {
t = e, e = this.adjustRowNumbersAndGetCount()
} while (e > 0 && e < t);
return this.detectionResultColumns
}
adjustIndicatorColumnRowNumbers(t) {
null != t && t.adjustCompleteIndicatorColumnRowNumbers(this.barcodeMetadata)
}
adjustRowNumbersAndGetCount() {
let t = this.adjustRowNumbersByRow();
if (0 === t) return 0;
for (let t = 1; t < this.barcodeColumnCount + 1; t++) {
let e = this.detectionResultColumns[t].getCodewords();
for (let r = 0; r < e.length; r++) null != e[r] && (e[r].hasValidRowNumber() || this.adjustRowNumbers(t, r, e))
}
return t
}
adjustRowNumbersByRow() {
return this.adjustRowNumbersFromBothRI(), this.adjustRowNumbersFromLRI() + this.adjustRowNumbersFromRRI()
}
adjustRowNumbersFromBothRI() {
if (null == this.detectionResultColumns[0] || null == this.detectionResultColumns[this.barcodeColumnCount + 1]) return;
let t = this.detectionResultColumns[0].getCodewords(),
e = this.detectionResultColumns[this.barcodeColumnCount + 1].getCodewords();
for (let r = 0; r < t.length; r++) if (null != t[r] && null != e[r] && t[r].getRowNumber() === e[r].getRowNumber()) for (let e = 1; e <= this.barcodeColumnCount; e++) {
let n = this.detectionResultColumns[e].getCodewords()[r];
null != n && (n.setRowNumber(t[r].getRowNumber()), n.hasValidRowNumber() || (this.detectionResultColumns[e].getCodewords()[r] = null))
}
}
adjustRowNumbersFromRRI() {
if (null == this.detectionResultColumns[this.barcodeColumnCount + 1]) return 0;
let t = 0, e = this.detectionResultColumns[this.barcodeColumnCount + 1].getCodewords();
for (let r = 0; r < e.length; r++) {
if (null == e[r]) continue;
let n = e[r].getRowNumber(), i = 0;
for (let e = this.barcodeColumnCount + 1; e > 0 && i < this.ADJUST_ROW_NUMBER_SKIP; e--) {
let s = this.detectionResultColumns[e].getCodewords()[r];
null != s && (i = Xe.adjustRowNumberIfValid(n, i, s), s.hasValidRowNumber() || t++)
}
}
return t
}
adjustRowNumbersFromLRI() {
if (null == this.detectionResultColumns[0]) return 0;
let t = 0, e = this.detectionResultColumns[0].getCodewords();
for (let r = 0; r < e.length; r++) {
if (null == e[r]) continue;
let n = e[r].getRowNumber(), i = 0;
for (let e = 1; e < this.barcodeColumnCount + 1 && i < this.ADJUST_ROW_NUMBER_SKIP; e++) {
let s = this.detectionResultColumns[e].getCodewords()[r];
null != s && (i = Xe.adjustRowNumberIfValid(n, i, s), s.hasValidRowNumber() || t++)
}
}
return t
}
static adjustRowNumberIfValid(t, e, r) {
return null == r || r.hasValidRowNumber() || (r.isValidRowNumber(t) ? (r.setRowNumber(t), e = 0) : ++e), e
}
adjustRowNumbers(t, e, r) {
let n = r[e], i = this.detectionResultColumns[t - 1].getCodewords(), s = i;
null != this.detectionResultColumns[t + 1] && (s = this.detectionResultColumns[t + 1].getCodewords());
let o = new Array(14);
o[2] = i[e], o[3] = s[e], e > 0 && (o[0] = r[e - 1], o[4] = i[e - 1], o[5] = s[e - 1]), e > 1 && (o[8] = r[e - 2], o[10] = i[e - 2], o[11] = s[e - 2]), e < r.length - 1 && (o[1] = r[e + 1], o[6] = i[e + 1], o[7] = s[e + 1]), e < r.length - 2 && (o[9] = r[e + 2], o[12] = i[e + 2], o[13] = s[e + 2]);
for (let t of o) if (Xe.adjustRowNumber(n, t)) return
}
static adjustRowNumber(t, e) {
return null != e && (!(!e.hasValidRowNumber() || e.getBucket() !== t.getBucket()) && (t.setRowNumber(e.getRowNumber()), !0))
}
getBarcodeColumnCount() {
return this.barcodeColumnCount
}
getBarcodeRowCount() {
return this.barcodeMetadata.getRowCount()
}
getBarcodeECLevel() {
return this.barcodeMetadata.getErrorCorrectionLevel()
}
setBoundingBox(t) {
this.boundingBox = t
}
getBoundingBox() {
return this.boundingBox
}
setDetectionResultColumn(t, e) {
this.detectionResultColumns[t] = e
}
getDetectionResultColumn(t) {
return this.detectionResultColumns[t]
}
toString() {
let t = this.detectionResultColumns[0];
null == t && (t = this.detectionResultColumns[this.barcodeColumnCount + 1]);
let e = new Ve;
for (let r = 0; r < t.getCodewords().length; r++) {
e.format("CW %3d:", r);
for (let t = 0; t < this.barcodeColumnCount + 2; t++) {
if (null == this.detectionResultColumns[t]) {
e.format(" | ");
continue
}
let n = this.detectionResultColumns[t].getCodewords()[r];
null != n ? e.format(" %3d|%3d", n.getRowNumber(), n.getValue()) : e.format(" | ")
}
e.format("%n")
}
return e.toString()
}
}
class We {
constructor(t, e, r, n) {
this.rowNumber = We.BARCODE_ROW_UNKNOWN, this.startX = Math.trunc(t), this.endX = Math.trunc(e), this.bucket = Math.trunc(r), this.value = Math.trunc(n)
}
hasValidRowNumber() {
return this.isValidRowNumber(this.rowNumber)
}
isValidRowNumber(t) {
return t !== We.BARCODE_ROW_UNKNOWN && this.bucket === t % 3 * 3
}
setRowNumberAsRowIndicatorColumn() {
this.rowNumber = Math.trunc(3 * Math.trunc(this.value / 30) + Math.trunc(this.bucket / 3))
}
getWidth() {
return this.endX - this.startX
}
getStartX() {
return this.startX
}
getEndX() {
return this.endX
}
getBucket() {
return this.bucket
}
getValue() {
return this.value
}
getRowNumber() {
return this.rowNumber
}
setRowNumber(t) {
this.rowNumber = t
}
toString() {
return this.rowNumber + "|" + this.value
}
}
We.BARCODE_ROW_UNKNOWN = -1;
class ze {
static initialize() {
for (let t = 0; t < Be.SYMBOL_TABLE.length; t++) {
let e = Be.SYMBOL_TABLE[t], r = 1 & e;
for (let n = 0; n < Be.BARS_IN_MODULE; n++) {
let i = 0;
for (; (1 & e) === r;) i += 1, e >>= 1;
r = 1 & e, ze.RATIOS_TABLE[t] || (ze.RATIOS_TABLE[t] = new Array(Be.BARS_IN_MODULE)), ze.RATIOS_TABLE[t][Be.BARS_IN_MODULE - n - 1] = Math.fround(i / Be.MODULES_IN_CODEWORD)
}
}
this.bSymbolTableReady = !0
}
static getDecodedValue(t) {
let e = ze.getDecodedCodewordValue(ze.sampleBitCounts(t));
return -1 !== e ? e : ze.getClosestDecodedValue(t)
}
static sampleBitCounts(t) {
let e = tt.sum(t), r = new Int32Array(Be.BARS_IN_MODULE), n = 0, i = 0;
for (let s = 0; s < Be.MODULES_IN_CODEWORD; s++) {
let o = e / (2 * Be.MODULES_IN_CODEWORD) + s * e / Be.MODULES_IN_CODEWORD;
i + t[n] <= o && (i += t[n], n++), r[n]++
}
return r
}
static getDecodedCodewordValue(t) {
let e = ze.getBitValue(t);
return -1 === Be.getCodeword(e) ? -1 : e
}
static getBitValue(t) {
let e = 0;
for (let r = 0; r < t.length; r++) for (let n = 0; n < t[r]; n++) e = e << 1 | (r % 2 == 0 ? 1 : 0);
return Math.trunc(e)
}
static getClosestDecodedValue(t) {
let e = tt.sum(t), r = new Array(Be.BARS_IN_MODULE);
if (e > 1) for (let n = 0; n < r.length; n++) r[n] = Math.fround(t[n] / e);
let n = et.MAX_VALUE, i = -1;
this.bSymbolTableReady || ze.initialize();
for (let t = 0; t < ze.RATIOS_TABLE.length; t++) {
let e = 0, s = ze.RATIOS_TABLE[t];
for (let t = 0; t < Be.BARS_IN_MODULE; t++) {
let i = Math.fround(s[t] - r[t]);
if (e += Math.fround(i * i), e >= n) break
}
e < n && (n = e, i = Be.SYMBOL_TABLE[t])
}
return i
}
}
ze.bSymbolTableReady = !1, ze.RATIOS_TABLE = new Array(Be.SYMBOL_TABLE.length).map((t => new Array(Be.BARS_IN_MODULE)));
class Ye {
constructor() {
this.segmentCount = -1, this.fileSize = -1, this.timestamp = -1, this.checksum = -1
}
getSegmentIndex() {
return this.segmentIndex
}
setSegmentIndex(t) {
this.segmentIndex = t
}
getFileId() {
return this.fileId
}
setFileId(t) {
this.fileId = t
}
getOptionalData() {
return this.optionalData
}
setOptionalData(t) {
this.optionalData = t
}
isLastSegment() {
return this.lastSegment
}
setLastSegment(t) {
this.lastSegment = t
}
getSegmentCount() {
return this.segmentCount
}
setSegmentCount(t) {
this.segmentCount = t
}
getSender() {
return this.sender || null
}
setSender(t) {
this.sender = t
}
getAddressee() {
return this.addressee || null
}
setAddressee(t) {
this.addressee = t
}
getFileName() {
return this.fileName
}
setFileName(t) {
this.fileName = t
}
getFileSize() {
return this.fileSize
}
setFileSize(t) {
this.fileSize = t
}
getChecksum() {
return this.checksum
}
setChecksum(t) {
this.checksum = t
}
getTimestamp() {
return this.timestamp
}
setTimestamp(t) {
this.timestamp = t
}
}
class Ze {
static parseLong(t, e) {
return parseInt(t, e)
}
}
class Ke extends i {
}
Ke.kind = "NullPointerException";
class qe extends i {
}
class Qe extends class {
writeBytes(t) {
this.writeBytesOffset(t, 0, t.length)
}
writeBytesOffset(t, e, r) {
if (null == t) throw new Ke;
if (e < 0 || e > t.length || r < 0 || e + r > t.length || e + r < 0) throw new u;
if (0 !== r) for (let n = 0; n < r; n++) this.write(t[e + n])
}
flush() {
}
close() {
}
} {
constructor(t = 32) {
if (super(), this.count = 0, t < 0) throw new o("Negative initial size: " + t);
this.buf = new Uint8Array(t)
}
ensureCapacity(t) {
t - this.buf.length > 0 && this.grow(t)
}
grow(t) {
let e = this.buf.length << 1;
if (e - t < 0 && (e = t), e < 0) {
if (t < 0) throw new qe;
e = f.MAX_VALUE
}
this.buf = g.copyOfUint8Array(this.buf, e)
}
write(t) {
this.ensureCapacity(this.count + 1), this.buf[this.count] = t, this.count += 1
}
writeBytesOffset(t, e, r) {
if (e < 0 || e > t.length || r < 0 || e + r - t.length > 0) throw new u;
this.ensureCapacity(this.count + r), c.arraycopy(t, e, this.buf, this.count, r), this.count += r
}
writeTo(t) {
t.writeBytesOffset(this.buf, 0, this.count)
}
reset() {
this.count = 0
}
toByteArray() {
return g.copyOfUint8Array(this.buf, this.count)
}
size() {
return this.count
}
toString(t) {
return t ? "string" == typeof t ? this.toString_string(t) : this.toString_number(t) : this.toString_void()
}
toString_void() {
return new String(this.buf).toString()
}
toString_string(t) {
return new String(this.buf).toString()
}
toString_number(t) {
return new String(this.buf).toString()
}
close() {
}
}
function je() {
if ("undefined" != typeof window) return window.BigInt || null;
if ("undefined" != typeof global) return global.BigInt || null;
if ("undefined" != typeof self) return self.BigInt || null;
throw new Error("Can't search globals for BigInt!")
}
let Je;
function $e(t) {
if (void 0 === Je && (Je = je()), null === Je) throw new Error("BigInt is not supported!");
return Je(t)
}
!function (t) {
t[t.ALPHA = 0] = "ALPHA", t[t.LOWER = 1] = "LOWER", t[t.MIXED = 2] = "MIXED", t[t.PUNCT = 3] = "PUNCT", t[t.ALPHA_SHIFT = 4] = "ALPHA_SHIFT", t[t.PUNCT_SHIFT = 5] = "PUNCT_SHIFT"
}(X || (X = {}));
class tr {
static decode(t, e) {
let r = new p(""), n = m.ISO8859_1;
r.enableDecoding(n);
let i = 1, s = t[i++], o = new Ye;
for (; i < t[0];) {
switch (s) {
case tr.TEXT_COMPACTION_MODE_LATCH:
i = tr.textCompaction(t, i, r);
break;
case tr.BYTE_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH_6:
i = tr.byteCompaction(s, t, n, i, r);
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
r.append(t[i++]);
break;
case tr.NUMERIC_COMPACTION_MODE_LATCH:
i = tr.numericCompaction(t, i, r);
break;
case tr.ECI_CHARSET:
m.getCharacterSetECIByValue(t[i++]);
break;
case tr.ECI_GENERAL_PURPOSE:
i += 2;
break;
case tr.ECI_USER_DEFINED:
i++;
break;
case tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK:
i = tr.decodeMacroBlock(t, i, o);
break;
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
case tr.MACRO_PDF417_TERMINATOR:
throw new E;
default:
i--, i = tr.textCompaction(t, i, r)
}
if (!(i < t.length)) throw E.getFormatInstance();
s = t[i++]
}
if (0 === r.length()) throw E.getFormatInstance();
let a = new z(null, r.toString(), null, e);
return a.setOther(o), a
}
static decodeMacroBlock(t, e, r) {
if (e + tr.NUMBER_OF_SEQUENCE_CODEWORDS > t[0]) throw E.getFormatInstance();
let n = new Int32Array(tr.NUMBER_OF_SEQUENCE_CODEWORDS);
for (let r = 0; r < tr.NUMBER_OF_SEQUENCE_CODEWORDS; r++, e++) n[r] = t[e];
r.setSegmentIndex(f.parseInt(tr.decodeBase900toBase10(n, tr.NUMBER_OF_SEQUENCE_CODEWORDS)));
let i = new p;
e = tr.textCompaction(t, e, i), r.setFileId(i.toString());
let s = -1;
for (t[e] === tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD && (s = e + 1); e < t[0];) switch (t[e]) {
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
switch (t[++e]) {
case tr.MACRO_PDF417_OPTIONAL_FIELD_FILE_NAME:
let n = new p;
e = tr.textCompaction(t, e + 1, n), r.setFileName(n.toString());
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_SENDER:
let i = new p;
e = tr.textCompaction(t, e + 1, i), r.setSender(i.toString());
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_ADDRESSEE:
let s = new p;
e = tr.textCompaction(t, e + 1, s), r.setAddressee(s.toString());
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_SEGMENT_COUNT:
let o = new p;
e = tr.numericCompaction(t, e + 1, o), r.setSegmentCount(f.parseInt(o.toString()));
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_TIME_STAMP:
let a = new p;
e = tr.numericCompaction(t, e + 1, a), r.setTimestamp(Ze.parseLong(a.toString()));
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_CHECKSUM:
let l = new p;
e = tr.numericCompaction(t, e + 1, l), r.setChecksum(f.parseInt(l.toString()));
break;
case tr.MACRO_PDF417_OPTIONAL_FIELD_FILE_SIZE:
let h = new p;
e = tr.numericCompaction(t, e + 1, h), r.setFileSize(Ze.parseLong(h.toString()));
break;
default:
throw E.getFormatInstance()
}
break;
case tr.MACRO_PDF417_TERMINATOR:
e++, r.setLastSegment(!0);
break;
default:
throw E.getFormatInstance()
}
if (-1 !== s) {
let n = e - s;
r.isLastSegment() && n--, r.setOptionalData(g.copyOfRange(t, s, s + n))
}
return e
}
static textCompaction(t, e, r) {
let n = new Int32Array(2 * (t[0] - e)), i = new Int32Array(2 * (t[0] - e)), s = 0, o = !1;
for (; e < t[0] && !o;) {
let r = t[e++];
if (r < tr.TEXT_COMPACTION_MODE_LATCH) n[s] = r / 30, n[s + 1] = r % 30, s += 2; else switch (r) {
case tr.TEXT_COMPACTION_MODE_LATCH:
n[s++] = tr.TEXT_COMPACTION_MODE_LATCH;
break;
case tr.BYTE_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH_6:
case tr.NUMERIC_COMPACTION_MODE_LATCH:
case tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK:
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
case tr.MACRO_PDF417_TERMINATOR:
e--, o = !0;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n[s] = tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE, r = t[e++], i[s] = r, s++
}
}
return tr.decodeTextCompaction(n, i, s, r), e
}
static decodeTextCompaction(t, e, r, n) {
let i = X.ALPHA, s = X.ALPHA, o = 0;
for (; o < r;) {
let r = t[o], a = "";
switch (i) {
case X.ALPHA:
if (r < 26) a = String.fromCharCode(65 + r); else switch (r) {
case 26:
a = " ";
break;
case tr.LL:
i = X.LOWER;
break;
case tr.ML:
i = X.MIXED;
break;
case tr.PS:
s = i, i = X.PUNCT_SHIFT;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n.append(e[o]);
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
break;
case X.LOWER:
if (r < 26) a = String.fromCharCode(97 + r); else switch (r) {
case 26:
a = " ";
break;
case tr.AS:
s = i, i = X.ALPHA_SHIFT;
break;
case tr.ML:
i = X.MIXED;
break;
case tr.PS:
s = i, i = X.PUNCT_SHIFT;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n.append(e[o]);
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
break;
case X.MIXED:
if (r < tr.PL) a = tr.MIXED_CHARS[r]; else switch (r) {
case tr.PL:
i = X.PUNCT;
break;
case 26:
a = " ";
break;
case tr.LL:
i = X.LOWER;
break;
case tr.AL:
i = X.ALPHA;
break;
case tr.PS:
s = i, i = X.PUNCT_SHIFT;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n.append(e[o]);
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
break;
case X.PUNCT:
if (r < tr.PAL) a = tr.PUNCT_CHARS[r]; else switch (r) {
case tr.PAL:
i = X.ALPHA;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n.append(e[o]);
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
break;
case X.ALPHA_SHIFT:
if (i = s, r < 26) a = String.fromCharCode(65 + r); else switch (r) {
case 26:
a = " ";
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
break;
case X.PUNCT_SHIFT:
if (i = s, r < tr.PAL) a = tr.PUNCT_CHARS[r]; else switch (r) {
case tr.PAL:
i = X.ALPHA;
break;
case tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE:
n.append(e[o]);
break;
case tr.TEXT_COMPACTION_MODE_LATCH:
i = X.ALPHA
}
}
"" !== a && n.append(a), o++
}
}
static byteCompaction(t, e, r, n, i) {
let s = new Qe, o = 0, a = 0, l = !1;
switch (t) {
case tr.BYTE_COMPACTION_MODE_LATCH:
let t = new Int32Array(6), r = e[n++];
for (; n < e[0] && !l;) switch (t[o++] = r, a = 900 * a + r, r = e[n++], r) {
case tr.TEXT_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH:
case tr.NUMERIC_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH_6:
case tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK:
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
case tr.MACRO_PDF417_TERMINATOR:
n--, l = !0;
break;
default:
if (o % 5 == 0 && o > 0) {
for (let t = 0; t < 6; ++t) s.write(Number($e(a) >> $e(8 * (5 - t))));
a = 0, o = 0
}
}
n === e[0] && r < tr.TEXT_COMPACTION_MODE_LATCH && (t[o++] = r);
for (let e = 0; e < o; e++) s.write(t[e]);
break;
case tr.BYTE_COMPACTION_MODE_LATCH_6:
for (; n < e[0] && !l;) {
let t = e[n++];
if (t < tr.TEXT_COMPACTION_MODE_LATCH) o++, a = 900 * a + t; else switch (t) {
case tr.TEXT_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH:
case tr.NUMERIC_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH_6:
case tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK:
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
case tr.MACRO_PDF417_TERMINATOR:
n--, l = !0
}
if (o % 5 == 0 && o > 0) {
for (let t = 0; t < 6; ++t) s.write(Number($e(a) >> $e(8 * (5 - t))));
a = 0, o = 0
}
}
}
return i.append(I.decode(s.toByteArray(), r)), n
}
static numericCompaction(t, e, r) {
let n = 0, i = !1, s = new Int32Array(tr.MAX_NUMERIC_CODEWORDS);
for (; e < t[0] && !i;) {
let o = t[e++];
if (e === t[0] && (i = !0), o < tr.TEXT_COMPACTION_MODE_LATCH) s[n] = o, n++; else switch (o) {
case tr.TEXT_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH:
case tr.BYTE_COMPACTION_MODE_LATCH_6:
case tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK:
case tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD:
case tr.MACRO_PDF417_TERMINATOR:
e--, i = !0
}
(n % tr.MAX_NUMERIC_CODEWORDS == 0 || o === tr.NUMERIC_COMPACTION_MODE_LATCH || i) && n > 0 && (r.append(tr.decodeBase900toBase10(s, n)), n = 0)
}
return e
}
static decodeBase900toBase10(t, e) {
let r = $e(0);
for (let n = 0; n < e; n++) r += tr.EXP900[e - n - 1] * $e(t[n]);
let n = r.toString();
if ("1" !== n.charAt(0)) throw new E;
return n.substring(1)
}
}
tr.TEXT_COMPACTION_MODE_LATCH = 900, tr.BYTE_COMPACTION_MODE_LATCH = 901, tr.NUMERIC_COMPACTION_MODE_LATCH = 902, tr.BYTE_COMPACTION_MODE_LATCH_6 = 924, tr.ECI_USER_DEFINED = 925, tr.ECI_GENERAL_PURPOSE = 926, tr.ECI_CHARSET = 927, tr.BEGIN_MACRO_PDF417_CONTROL_BLOCK = 928, tr.BEGIN_MACRO_PDF417_OPTIONAL_FIELD = 923, tr.MACRO_PDF417_TERMINATOR = 922, tr.MODE_SHIFT_TO_BYTE_COMPACTION_MODE = 913, tr.MAX_NUMERIC_CODEWORDS = 15, tr.MACRO_PDF417_OPTIONAL_FIELD_FILE_NAME = 0, tr.MACRO_PDF417_OPTIONAL_FIELD_SEGMENT_COUNT = 1, tr.MACRO_PDF417_OPTIONAL_FIELD_TIME_STAMP = 2, tr.MACRO_PDF417_OPTIONAL_FIELD_SENDER = 3, tr.MACRO_PDF417_OPTIONAL_FIELD_ADDRESSEE = 4, tr.MACRO_PDF417_OPTIONAL_FIELD_FILE_SIZE = 5, tr.MACRO_PDF417_OPTIONAL_FIELD_CHECKSUM = 6, tr.PL = 25, tr.LL = 27, tr.AS = 27, tr.ML = 28, tr.AL = 28, tr.PS = 29, tr.PAL = 29, tr.PUNCT_CHARS = ";<>@[\\]_`~!\r\t,:\n-.$/\"|*()?{}'", tr.MIXED_CHARS = "0123456789&\r\t,:#-.$/+%*=^", tr.EXP900 = je() ? function () {
let t = [];
t[0] = $e(1);
let e = $e(900);
t[1] = e;
for (let r = 2; r < 16; r++) t[r] = t[r - 1] * e;
return t
}() : [], tr.NUMBER_OF_SEQUENCE_CODEWORDS = 2;
class er {
constructor() {
}
static decode(t, e, r, n, i, s, o) {
let a, l = new ve(t, e, r, n, i), h = null, c = null;
for (let r = !0; ; r = !1) {
if (null != e && (h = er.getRowIndicatorColumn(t, l, e, !0, s, o)), null != n && (c = er.getRowIndicatorColumn(t, l, n, !1, s, o)), a = er.merge(h, c), null == a) throw R.getNotFoundInstance();
let i = a.getBoundingBox();
if (!r || null == i || !(i.getMinY() < l.getMinY() || i.getMaxY() > l.getMaxY())) break;
l = i
}
a.setBoundingBox(l);
let u = a.getBarcodeColumnCount() + 1;
a.setDetectionResultColumn(0, h), a.setDetectionResultColumn(u, c);
let d = null != h;
for (let e = 1; e <= u; e++) {
let r, n = d ? e : u - e;
if (void 0 !== a.getDetectionResultColumn(n)) continue;
r = 0 === n || n === u ? new Ge(l, 0 === n) : new Ue(l), a.setDetectionResultColumn(n, r);
let i = -1, h = i;
for (let e = l.getMinY(); e <= l.getMaxY(); e++) {
if (i = er.getStartColumn(a, n, e, d), i < 0 || i > l.getMaxX()) {
if (-1 === h) continue;
i = h
}
let c = er.detectCodeword(t, l.getMinX(), l.getMaxX(), d, i, e, s, o);
null != c && (r.setCodeword(e, c), h = i, s = Math.min(s, c.getWidth()), o = Math.max(o, c.getWidth()))
}
}
return er.createDecoderResult(a)
}
static merge(t, e) {
if (null == t && null == e) return null;
let r = er.getBarcodeMetadata(t, e);
if (null == r) return null;
let n = ve.merge(er.adjustBoundingBox(t), er.adjustBoundingBox(e));
return new Xe(r, n)
}
static adjustBoundingBox(t) {
if (null == t) return null;
let e = t.getRowHeights();
if (null == e) return null;
let r = er.getMax(e), n = 0;
for (let t of e) if (n += r - t, t > 0) break;
let i = t.getCodewords();
for (let t = 0; n > 0 && null == i[t]; t++) n--;
let s = 0;
for (let t = e.length - 1; t >= 0 && (s += r - e[t], !(e[t] > 0)); t--) ;
for (let t = i.length - 1; s > 0 && null == i[t]; t--) s--;
return t.getBoundingBox().addMissingRows(n, s, t.isLeft())
}
static getMax(t) {
let e = -1;
for (let r of t) e = Math.max(e, r);
return e
}
static getBarcodeMetadata(t, e) {
let r, n;
return null == t || null == (r = t.getBarcodeMetadata()) ? null == e ? null : e.getBarcodeMetadata() : null == e || null == (n = e.getBarcodeMetadata()) ? r : r.getColumnCount() !== n.getColumnCount() && r.getErrorCorrectionLevel() !== n.getErrorCorrectionLevel() && r.getRowCount() !== n.getRowCount() ? null : r
}
static getRowIndicatorColumn(t, e, r, n, i, s) {
let o = new Ge(e, n);
for (let a = 0; a < 2; a++) {
let l = 0 === a ? 1 : -1, h = Math.trunc(Math.trunc(r.getX()));
for (let a = Math.trunc(Math.trunc(r.getY())); a <= e.getMaxY() && a >= e.getMinY(); a += l) {
let e = er.detectCodeword(t, 0, t.getWidth(), n, h, a, i, s);
null != e && (o.setCodeword(a, e), h = n ? e.getStartX() : e.getEndX())
}
}
return o
}
static adjustCodewordCount(t, e) {
let r = e[0][1], n = r.getValue(),
i = t.getBarcodeColumnCount() * t.getBarcodeRowCount() - er.getNumberOfECCodeWords(t.getBarcodeECLevel());
if (0 === n.length) {
if (i < 1 || i > Be.MAX_CODEWORDS_IN_BARCODE) throw R.getNotFoundInstance();
r.setValue(i)
} else n[0] !== i && r.setValue(i)
}
static createDecoderResult(t) {
let e = er.createBarcodeMatrix(t);
er.adjustCodewordCount(t, e);
let r = new Array, n = new Int32Array(t.getBarcodeRowCount() * t.getBarcodeColumnCount()), i = [],
s = new Array;
for (let o = 0; o < t.getBarcodeRowCount(); o++) for (let a = 0; a < t.getBarcodeColumnCount(); a++) {
let l = e[o][a + 1].getValue(), h = o * t.getBarcodeColumnCount() + a;
0 === l.length ? r.push(h) : 1 === l.length ? n[h] = l[0] : (s.push(h), i.push(l))
}
let o = new Array(i.length);
for (let t = 0; t < o.length; t++) o[t] = i[t];
return er.createDecoderResultFromAmbiguousValues(t.getBarcodeECLevel(), n, Be.toIntArray(r), Be.toIntArray(s), o)
}
static createDecoderResultFromAmbiguousValues(t, e, r, n, i) {
let s = new Int32Array(n.length), o = 100;
for (; o-- > 0;) {
for (let t = 0; t < s.length; t++) e[n[t]] = i[t][s[t]];
try {
return er.decodeCodewords(e, t, r)
} catch (t) {
if (!(t instanceof l)) throw t
}
if (0 === s.length) throw l.getChecksumInstance();
for (let t = 0; t < s.length; t++) {
if (s[t] < i[t].length - 1) {
s[t]++;
break
}
if (s[t] = 0, t === s.length - 1) throw l.getChecksumInstance()
}
}
throw l.getChecksumInstance()
}
static createBarcodeMatrix(t) {
let e = Array.from({length: t.getBarcodeRowCount()}, (() => new Array(t.getBarcodeColumnCount() + 2)));
for (let t = 0; t < e.length; t++) for (let r = 0; r < e[t].length; r++) e[t][r] = new He;
let r = 0;
for (let n of t.getDetectionResultColumns()) {
if (null != n) for (let t of n.getCodewords()) if (null != t) {
let n = t.getRowNumber();
if (n >= 0) {
if (n >= e.length) continue;
e[n][r].setValue(t.getValue())
}
}
r++
}
return e
}
static isValidBarcodeColumn(t, e) {
return e >= 0 && e <= t.getBarcodeColumnCount() + 1
}
static getStartColumn(t, e, r, n) {
let i = n ? 1 : -1, s = null;
if (er.isValidBarcodeColumn(t, e - i) && (s = t.getDetectionResultColumn(e - i).getCodeword(r)), null != s) return n ? s.getEndX() : s.getStartX();
if (s = t.getDetectionResultColumn(e).getCodewordNearby(r), null != s) return n ? s.getStartX() : s.getEndX();
if (er.isValidBarcodeColumn(t, e - i) && (s = t.getDetectionResultColumn(e - i).getCodewordNearby(r)), null != s) return n ? s.getEndX() : s.getStartX();
let o = 0;
for (; er.isValidBarcodeColumn(t, e - i);) {
e -= i;
for (let r of t.getDetectionResultColumn(e).getCodewords()) if (null != r) return (n ? r.getEndX() : r.getStartX()) + i * o * (r.getEndX() - r.getStartX());
o++
}
return n ? t.getBoundingBox().getMinX() : t.getBoundingBox().getMaxX()
}
static detectCodeword(t, e, r, n, i, s, o, a) {
i = er.adjustCodewordStartColumn(t, e, r, n, i, s);
let l, h = er.getModuleBitCount(t, e, r, n, i, s);
if (null == h) return null;
let c = tt.sum(h);
if (n) l = i + c; else {
for (let t = 0; t < h.length / 2; t++) {
let e = h[t];
h[t] = h[h.length - 1 - t], h[h.length - 1 - t] = e
}
l = i, i = l - c
}
if (!er.checkCodewordSkew(c, o, a)) return null;
let u = ze.getDecodedValue(h), d = Be.getCodeword(u);
return -1 === d ? null : new We(i, l, er.getCodewordBucketNumber(u), d)
}
static getModuleBitCount(t, e, r, n, i, s) {
let o = i, a = new Int32Array(8), l = 0, h = n ? 1 : -1, c = n;
for (; (n ? o < r : o >= e) && l < a.length;) t.get(o, s) === c ? (a[l]++, o += h) : (l++, c = !c);
return l === a.length || o === (n ? r : e) && l === a.length - 1 ? a : null
}
static getNumberOfECCodeWords(t) {
return 2 << t
}
static adjustCodewordStartColumn(t, e, r, n, i, s) {
let o = i, a = n ? -1 : 1;
for (let l = 0; l < 2; l++) {
for (; (n ? o >= e : o < r) && n === t.get(o, s);) {
if (Math.abs(i - o) > er.CODEWORD_SKEW_SIZE) return i;
o += a
}
a = -a, n = !n
}
return o
}
static checkCodewordSkew(t, e, r) {
return e - er.CODEWORD_SKEW_SIZE <= t && t <= r + er.CODEWORD_SKEW_SIZE
}
static decodeCodewords(t, e, r) {
if (0 === t.length) throw E.getFormatInstance();
let n = 1 << e + 1, i = er.correctErrors(t, r, n);
er.verifyCodewordCount(t, n);
let s = tr.decode(t, "" + e);
return s.setErrorsCorrected(i), s.setErasures(r.length), s
}
static correctErrors(t, e, r) {
if (null != e && e.length > r / 2 + er.MAX_ERRORS || r < 0 || r > er.MAX_EC_CODEWORDS) throw l.getChecksumInstance();
return er.errorCorrection.decode(t, r, e)
}
static verifyCodewordCount(t, e) {
if (t.length < 4) throw E.getFormatInstance();
let r = t[0];
if (r > t.length) throw E.getFormatInstance();
if (0 === r) {
if (!(e < t.length)) throw E.getFormatInstance();
t[0] = t.length - e
}
}
static getBitCountForCodeword(t) {
let e = new Int32Array(8), r = 0, n = e.length - 1;
for (; !((1 & t) !== r && (r = 1 & t, n--, n < 0));) e[n]++, t >>= 1;
return e
}
static getCodewordBucketNumber(t) {
return t instanceof Int32Array ? this.getCodewordBucketNumber_Int32Array(t) : this.getCodewordBucketNumber_number(t)
}
static getCodewordBucketNumber_number(t) {
return er.getCodewordBucketNumber(er.getBitCountForCodeword(t))
}
static getCodewordBucketNumber_Int32Array(t) {
return (t[0] - t[2] + t[4] - t[6] + 9) % 9
}
static toString(t) {
let e = new Ve;
for (let r = 0; r < t.length; r++) {
e.format("Row %2d: ", r);
for (let n = 0; n < t[r].length; n++) {
let i = t[r][n];
0 === i.getValue().length ? e.format(" ", null) : e.format("%4d(%2d)", i.getValue()[0], i.getConfidence(i.getValue()[0]))
}
e.format("%n")
}
return e.toString()
}
}
er.CODEWORD_SKEW_SIZE = 2, er.MAX_ERRORS = 3, er.MAX_EC_CODEWORDS = 512, er.errorCorrection = new ke;
class rr {
decode(t, e = null) {
let r = rr.decode(t, e, !1);
if (null == r || 0 === r.length || null == r[0]) throw R.getNotFoundInstance();
return r[0]
}
decodeMultiple(t, e = null) {
try {
return rr.decode(t, e, !0)
} catch (t) {
if (t instanceof E || t instanceof l) throw R.getNotFoundInstance();
throw t
}
}
static decode(t, e, r) {
const n = new Array, i = Pe.detectMultiple(t, e, r);
for (const t of i.getPoints()) {
const e = er.decode(i.getBits(), t[4], t[5], t[6], t[7], rr.getMinCodewordWidth(t), rr.getMaxCodewordWidth(t)),
r = new F(e.getText(), e.getRawBytes(), void 0, t, v.PDF_417);
r.putMetadata(W.ERROR_CORRECTION_LEVEL, e.getECLevel());
const s = e.getOther();
null != s && r.putMetadata(W.PDF417_EXTRA_METADATA, s), n.push(r)
}
return n.map((t => t))
}
static getMaxWidth(t, e) {
return null == t || null == e ? 0 : Math.trunc(Math.abs(t.getX() - e.getX()))
}
static getMinWidth(t, e) {
return null == t || null == e ? f.MAX_VALUE : Math.trunc(Math.abs(t.getX() - e.getX()))
}
static getMaxCodewordWidth(t) {
return Math.floor(Math.max(Math.max(rr.getMaxWidth(t[0], t[4]), rr.getMaxWidth(t[6], t[2]) * Be.MODULES_IN_CODEWORD / Be.MODULES_IN_STOP_PATTERN), Math.max(rr.getMaxWidth(t[1], t[5]), rr.getMaxWidth(t[7], t[3]) * Be.MODULES_IN_CODEWORD / Be.MODULES_IN_STOP_PATTERN)))
}
static getMinCodewordWidth(t) {
return Math.floor(Math.min(Math.min(rr.getMinWidth(t[0], t[4]), rr.getMinWidth(t[6], t[2]) * Be.MODULES_IN_CODEWORD / Be.MODULES_IN_STOP_PATTERN), Math.min(rr.getMinWidth(t[1], t[5]), rr.getMinWidth(t[7], t[3]) * Be.MODULES_IN_CODEWORD / Be.MODULES_IN_STOP_PATTERN)))
}
reset() {
}
}
class nr extends i {
}
nr.kind = "ReaderException";
class ir {
decode(t, e) {
return this.setHints(e), this.decodeInternal(t)
}
decodeWithState(t) {
return null !== this.readers && void 0 !== this.readers || this.setHints(null), this.decodeInternal(t)
}
setHints(t) {
this.hints = t;
const e = null != t && void 0 !== t.get(C.TRY_HARDER), r = null == t ? null : t.get(C.POSSIBLE_FORMATS),
n = new Array;
if (null != r) {
const i = r.some((t => t === v.UPC_A || t === v.UPC_E || t === v.EAN_13 || t === v.EAN_8 || t === v.CODABAR || t === v.CODE_39 || t === v.CODE_93 || t === v.CODE_128 || t === v.ITF || t === v.RSS_14 || t === v.RSS_EXPANDED));
i && !e && n.push(new ee(t)), r.includes(v.QR_CODE) && n.push(new Me), r.includes(v.DATA_MATRIX) && n.push(new ue), r.includes(v.AZTEC) && n.push(new dt), r.includes(v.PDF_417) && n.push(new rr), i && e && n.push(new ee(t))
}
0 === n.length && (e || n.push(new ee(t)), n.push(new Me), n.push(new ue), n.push(new dt), n.push(new rr), e && n.push(new ee(t))), this.readers = n
}
reset() {
if (null !== this.readers) for (const t of this.readers) t.reset()
}
decodeInternal(t) {
if (null === this.readers) throw new nr("No readers where selected, nothing can be read.");
for (const e of this.readers) try {
return e.decode(t, this.hints)
} catch (t) {
if (t instanceof nr) continue
}
throw new R("No MultiFormat Readers were able to detect the code.")
}
}
var sr;
!function (t) {
t[t.ERROR_CORRECTION = 0] = "ERROR_CORRECTION", t[t.CHARACTER_SET = 1] = "CHARACTER_SET", t[t.DATA_MATRIX_SHAPE = 2] = "DATA_MATRIX_SHAPE", t[t.MIN_SIZE = 3] = "MIN_SIZE", t[t.MAX_SIZE = 4] = "MAX_SIZE", t[t.MARGIN = 5] = "MARGIN", t[t.PDF417_COMPACT = 6] = "PDF417_COMPACT", t[t.PDF417_COMPACTION = 7] = "PDF417_COMPACTION", t[t.PDF417_DIMENSIONS = 8] = "PDF417_DIMENSIONS", t[t.AZTEC_LAYERS = 9] = "AZTEC_LAYERS", t[t.QR_VERSION = 10] = "QR_VERSION"
}(sr || (sr = {}));
var or = sr;
class ar {
constructor(t) {
this.field = t, this.cachedGenerators = [], this.cachedGenerators.push(new Z(t, Int32Array.from([1])))
}
buildGenerator(t) {
const e = this.cachedGenerators;
if (t >= e.length) {
let r = e[e.length - 1];
const n = this.field;
for (let i = e.length; i <= t; i++) {
const t = r.multiply(new Z(n, Int32Array.from([1, n.exp(i - 1 + n.getGeneratorBase())])));
e.push(t), r = t
}
}
return e[t]
}
encode(t, e) {
if (0 === e) throw new o("No error correction bytes");
const r = t.length - e;
if (r <= 0) throw new o("No data bytes provided");
const n = this.buildGenerator(e), i = new Int32Array(r);
c.arraycopy(t, 0, i, 0, r);
let s = new Z(this.field, i);
s = s.multiplyByMonomial(e, 1);
const a = s.divide(n)[1].getCoefficients(), l = e - a.length;
for (let e = 0; e < l; e++) t[r + e] = 0;
c.arraycopy(a, 0, t, r + l, a.length)
}
}
class lr {
constructor() {
}
static applyMaskPenaltyRule1(t) {
return lr.applyMaskPenaltyRule1Internal(t, !0) + lr.applyMaskPenaltyRule1Internal(t, !1)
}
static applyMaskPenaltyRule2(t) {
let e = 0;
const r = t.getArray(), n = t.getWidth(), i = t.getHeight();
for (let t = 0; t < i - 1; t++) {
const i = r[t];
for (let s = 0; s < n - 1; s++) {
const n = i[s];
n === i[s + 1] && n === r[t + 1][s] && n === r[t + 1][s + 1] && e++
}
}
return lr.N2 * e
}
static applyMaskPenaltyRule3(t) {
let e = 0;
const r = t.getArray(), n = t.getWidth(), i = t.getHeight();
for (let t = 0; t < i; t++) for (let s = 0; s < n; s++) {
const o = r[t];
s + 6 < n && 1 === o[s] && 0 === o[s + 1] && 1 === o[s + 2] && 1 === o[s + 3] && 1 === o[s + 4] && 0 === o[s + 5] && 1 === o[s + 6] && (lr.isWhiteHorizontal(o, s - 4, s) || lr.isWhiteHorizontal(o, s + 7, s + 11)) && e++, t + 6 < i && 1 === r[t][s] && 0 === r[t + 1][s] && 1 === r[t + 2][s] && 1 === r[t + 3][s] && 1 === r[t + 4][s] && 0 === r[t + 5][s] && 1 === r[t + 6][s] && (lr.isWhiteVertical(r, s, t - 4, t) || lr.isWhiteVertical(r, s, t + 7, t + 11)) && e++
}
return e * lr.N3
}
static isWhiteHorizontal(t, e, r) {
e = Math.max(e, 0), r = Math.min(r, t.length);
for (let n = e; n < r; n++) if (1 === t[n]) return !1;
return !0
}
static isWhiteVertical(t, e, r, n) {
r = Math.max(r, 0), n = Math.min(n, t.length);
for (let i = r; i < n; i++) if (1 === t[i][e]) return !1;
return !0
}
static applyMaskPenaltyRule4(t) {
let e = 0;
const r = t.getArray(), n = t.getWidth(), i = t.getHeight();
for (let t = 0; t < i; t++) {
const i = r[t];
for (let t = 0; t < n; t++) 1 === i[t] && e++
}
const s = t.getHeight() * t.getWidth();
return Math.floor(10 * Math.abs(2 * e - s) / s) * lr.N4
}
static getDataMaskBit(t, e, r) {
let n, i;
switch (t) {
case 0:
n = r + e & 1;
break;
case 1:
n = 1 & r;
break;
case 2:
n = e % 3;
break;
case 3:
n = (r + e) % 3;
break;
case 4:
n = Math.floor(r / 2) + Math.floor(e / 3) & 1;
break;
case 5:
i = r * e, n = (1 & i) + i % 3;
break;
case 6:
i = r * e, n = (1 & i) + i % 3 & 1;
break;
case 7:
i = r * e, n = i % 3 + (r + e & 1) & 1;
break;
default:
throw new o("Invalid mask pattern: " + t)
}
return 0 === n
}
static applyMaskPenaltyRule1Internal(t, e) {
let r = 0;
const n = e ? t.getHeight() : t.getWidth(), i = e ? t.getWidth() : t.getHeight(), s = t.getArray();
for (let t = 0; t < n; t++) {
let n = 0, o = -1;
for (let a = 0; a < i; a++) {
const i = e ? s[t][a] : s[a][t];
i === o ? n++ : (n >= 5 && (r += lr.N1 + (n - 5)), n = 1, o = i)
}
n >= 5 && (r += lr.N1 + (n - 5))
}
return r
}
}
lr.N1 = 3, lr.N2 = 3, lr.N3 = 40, lr.N4 = 10;
class hr {
constructor(t, e) {
this.width = t, this.height = e;
const r = new Array(e);
for (let n = 0; n !== e; n++) r[n] = new Uint8Array(t);
this.bytes = r
}
getHeight() {
return this.height
}
getWidth() {
return this.width
}
get(t, e) {
return this.bytes[e][t]
}
getArray() {
return this.bytes
}
setNumber(t, e, r) {
this.bytes[e][t] = r
}
setBoolean(t, e, r) {
this.bytes[e][t] = r ? 1 : 0
}
clear(t) {
for (const e of this.bytes) g.fill(e, t)
}
equals(t) {
if (!(t instanceof hr)) return !1;
const e = t;
if (this.width !== e.width) return !1;
if (this.height !== e.height) return !1;
for (let t = 0, r = this.height; t < r; ++t) {
const r = this.bytes[t], n = e.bytes[t];
for (let t = 0, e = this.width; t < e; ++t) if (r[t] !== n[t]) return !1
}
return !0
}
toString() {
const t = new p;
for (let e = 0, r = this.height; e < r; ++e) {
const r = this.bytes[e];
for (let e = 0, n = this.width; e < n; ++e) switch (r[e]) {
case 0:
t.append(" 0");
break;
case 1:
t.append(" 1");
break;
default:
t.append(" ")
}
t.append("\n")
}
return t.toString()
}
}
class cr {
constructor() {
this.maskPattern = -1
}
getMode() {
return this.mode
}
getECLevel() {
return this.ecLevel
}
getVersion() {
return this.version
}
getMaskPattern() {
return this.maskPattern
}
getMatrix() {
return this.matrix
}
toString() {
const t = new p;
return t.append("<<\n"), t.append(" mode: "), t.append(this.mode ? this.mode.toString() : "null"), t.append("\n ecLevel: "), t.append(this.ecLevel ? this.ecLevel.toString() : "null"), t.append("\n version: "), t.append(this.version ? this.version.toString() : "null"), t.append("\n maskPattern: "), t.append(this.maskPattern.toString()), this.matrix ? (t.append("\n matrix:\n"), t.append(this.matrix.toString())) : t.append("\n matrix: null\n"), t.append(">>\n"), t.toString()
}
setMode(t) {
this.mode = t
}
setECLevel(t) {
this.ecLevel = t
}
setVersion(t) {
this.version = t
}
setMaskPattern(t) {
this.maskPattern = t
}
setMatrix(t) {
this.matrix = t
}
static isValidMaskPattern(t) {
return t >= 0 && t < cr.NUM_MASK_PATTERNS
}
}
cr.NUM_MASK_PATTERNS = 8;
class ur extends i {
}
ur.kind = "WriterException";
class dr {
constructor() {
}
static clearMatrix(t) {
t.clear(255)
}
static buildMatrix(t, e, r, n, i) {
dr.clearMatrix(i), dr.embedBasicPatterns(r, i), dr.embedTypeInfo(e, n, i), dr.maybeEmbedVersionInfo(r, i), dr.embedDataBits(t, n, i)
}
static embedBasicPatterns(t, e) {
dr.embedPositionDetectionPatternsAndSeparators(e), dr.embedDarkDotAtLeftBottomCorner(e), dr.maybeEmbedPositionAdjustmentPatterns(t, e), dr.embedTimingPatterns(e)
}
static embedTypeInfo(t, e, r) {
const n = new w;
dr.makeTypeInfoBits(t, e, n);
for (let t = 0, e = n.getSize(); t < e; ++t) {
const e = n.get(n.getSize() - 1 - t), i = dr.TYPE_INFO_COORDINATES[t], s = i[0], o = i[1];
if (r.setBoolean(s, o, e), t < 8) {
const n = r.getWidth() - t - 1, i = 8;
r.setBoolean(n, i, e)
} else {
const n = 8, i = r.getHeight() - 7 + (t - 8);
r.setBoolean(n, i, e)
}
}
}
static maybeEmbedVersionInfo(t, e) {
if (t.getVersionNumber() < 7) return;
const r = new w;
dr.makeVersionInfoBits(t, r);
let n = 17;
for (let t = 0; t < 6; ++t) for (let i = 0; i < 3; ++i) {
const s = r.get(n);
n--, e.setBoolean(t, e.getHeight() - 11 + i, s), e.setBoolean(e.getHeight() - 11 + i, t, s)
}
}
static embedDataBits(t, e, r) {
let n = 0, i = -1, s = r.getWidth() - 1, o = r.getHeight() - 1;
for (; s > 0;) {
for (6 === s && (s -= 1); o >= 0 && o < r.getHeight();) {
for (let i = 0; i < 2; ++i) {
const a = s - i;
if (!dr.isEmpty(r.get(a, o))) continue;
let l;
n < t.getSize() ? (l = t.get(n), ++n) : l = !1, 255 !== e && lr.getDataMaskBit(e, a, o) && (l = !l), r.setBoolean(a, o, l)
}
o += i
}
i = -i, o += i, s -= 2
}
if (n !== t.getSize()) throw new ur("Not all bits consumed: " + n + "/" + t.getSize())
}
static findMSBSet(t) {
return 32 - f.numberOfLeadingZeros(t)
}
static calculateBCHCode(t, e) {
if (0 === e) throw new o("0 polynomial");
const r = dr.findMSBSet(e);
for (t <<= r - 1; dr.findMSBSet(t) >= r;) t ^= e << dr.findMSBSet(t) - r;
return t
}
static makeTypeInfoBits(t, e, r) {
if (!cr.isValidMaskPattern(e)) throw new ur("Invalid mask pattern");
const n = t.getBits() << 3 | e;
r.appendBits(n, 5);
const i = dr.calculateBCHCode(n, dr.TYPE_INFO_POLY);
r.appendBits(i, 10);
const s = new w;
if (s.appendBits(dr.TYPE_INFO_MASK_PATTERN, 15), r.xor(s), 15 !== r.getSize()) throw new ur("should not happen but we got: " + r.getSize())
}
static makeVersionInfoBits(t, e) {
e.appendBits(t.getVersionNumber(), 6);
const r = dr.calculateBCHCode(t.getVersionNumber(), dr.VERSION_INFO_POLY);
if (e.appendBits(r, 12), 18 !== e.getSize()) throw new ur("should not happen but we got: " + e.getSize())
}
static isEmpty(t) {
return 255 === t
}
static embedTimingPatterns(t) {
for (let e = 8; e < t.getWidth() - 8; ++e) {
const r = (e + 1) % 2;
dr.isEmpty(t.get(e, 6)) && t.setNumber(e, 6, r), dr.isEmpty(t.get(6, e)) && t.setNumber(6, e, r)
}
}
static embedDarkDotAtLeftBottomCorner(t) {
if (0 === t.get(8, t.getHeight() - 8)) throw new ur;
t.setNumber(8, t.getHeight() - 8, 1)
}
static embedHorizontalSeparationPattern(t, e, r) {
for (let n = 0; n < 8; ++n) {
if (!dr.isEmpty(r.get(t + n, e))) throw new ur;
r.setNumber(t + n, e, 0)
}
}
static embedVerticalSeparationPattern(t, e, r) {
for (let n = 0; n < 7; ++n) {
if (!dr.isEmpty(r.get(t, e + n))) throw new ur;
r.setNumber(t, e + n, 0)
}
}
static embedPositionAdjustmentPattern(t, e, r) {
for (let n = 0; n < 5; ++n) {
const i = dr.POSITION_ADJUSTMENT_PATTERN[n];
for (let s = 0; s < 5; ++s) r.setNumber(t + s, e + n, i[s])
}
}
static embedPositionDetectionPattern(t, e, r) {
for (let n = 0; n < 7; ++n) {
const i = dr.POSITION_DETECTION_PATTERN[n];
for (let s = 0; s < 7; ++s) r.setNumber(t + s, e + n, i[s])
}
}
static embedPositionDetectionPatternsAndSeparators(t) {
const e = dr.POSITION_DETECTION_PATTERN[0].length;
dr.embedPositionDetectionPattern(0, 0, t), dr.embedPositionDetectionPattern(t.getWidth() - e, 0, t), dr.embedPositionDetectionPattern(0, t.getWidth() - e, t);
dr.embedHorizontalSeparationPattern(0, 7, t), dr.embedHorizontalSeparationPattern(t.getWidth() - 8, 7, t), dr.embedHorizontalSeparationPattern(0, t.getWidth() - 8, t);
dr.embedVerticalSeparationPattern(7, 0, t), dr.embedVerticalSeparationPattern(t.getHeight() - 7 - 1, 0, t), dr.embedVerticalSeparationPattern(7, t.getHeight() - 7, t)
}
static maybeEmbedPositionAdjustmentPatterns(t, e) {
if (t.getVersionNumber() < 2) return;
const r = t.getVersionNumber() - 1, n = dr.POSITION_ADJUSTMENT_PATTERN_COORDINATE_TABLE[r];
for (let t = 0, r = n.length; t !== r; t++) {
const i = n[t];
if (i >= 0) for (let t = 0; t !== r; t++) {
const r = n[t];
r >= 0 && dr.isEmpty(e.get(r, i)) && dr.embedPositionAdjustmentPattern(r - 2, i - 2, e)
}
}
}
}
dr.POSITION_DETECTION_PATTERN = Array.from([Int32Array.from([1, 1, 1, 1, 1, 1, 1]), Int32Array.from([1, 0, 0, 0, 0, 0, 1]), Int32Array.from([1, 0, 1, 1, 1, 0, 1]), Int32Array.from([1, 0, 1, 1, 1, 0, 1]), Int32Array.from([1, 0, 1, 1, 1, 0, 1]), Int32Array.from([1, 0, 0, 0, 0, 0, 1]), Int32Array.from([1, 1, 1, 1, 1, 1, 1])]), dr.POSITION_ADJUSTMENT_PATTERN = Array.from([Int32Array.from([1, 1, 1, 1, 1]), Int32Array.from([1, 0, 0, 0, 1]), Int32Array.from([1, 0, 1, 0, 1]), Int32Array.from([1, 0, 0, 0, 1]), Int32Array.from([1, 1, 1, 1, 1])]), dr.POSITION_ADJUSTMENT_PATTERN_COORDINATE_TABLE = Array.from([Int32Array.from([-1, -1, -1, -1, -1, -1, -1]), Int32Array.from([6, 18, -1, -1, -1, -1, -1]), Int32Array.from([6, 22, -1, -1, -1, -1, -1]), Int32Array.from([6, 26, -1, -1, -1, -1, -1]), Int32Array.from([6, 30, -1, -1, -1, -1, -1]), Int32Array.from([6, 34, -1, -1, -1, -1, -1]), Int32Array.from([6, 22, 38, -1, -1, -1, -1]), Int32Array.from([6, 24, 42, -1, -1, -1, -1]), Int32Array.from([6, 26, 46, -1, -1, -1, -1]), Int32Array.from([6, 28, 50, -1, -1, -1, -1]), Int32Array.from([6, 30, 54, -1, -1, -1, -1]), Int32Array.from([6, 32, 58, -1, -1, -1, -1]), Int32Array.from([6, 34, 62, -1, -1, -1, -1]), Int32Array.from([6, 26, 46, 66, -1, -1, -1]), Int32Array.from([6, 26, 48, 70, -1, -1, -1]), Int32Array.from([6, 26, 50, 74, -1, -1, -1]), Int32Array.from([6, 30, 54, 78, -1, -1, -1]), Int32Array.from([6, 30, 56, 82, -1, -1, -1]), Int32Array.from([6, 30, 58, 86, -1, -1, -1]), Int32Array.from([6, 34, 62, 90, -1, -1, -1]), Int32Array.from([6, 28, 50, 72, 94, -1, -1]), Int32Array.from([6, 26, 50, 74, 98, -1, -1]), Int32Array.from([6, 30, 54, 78, 102, -1, -1]), Int32Array.from([6, 28, 54, 80, 106, -1, -1]), Int32Array.from([6, 32, 58, 84, 110, -1, -1]), Int32Array.from([6, 30, 58, 86, 114, -1, -1]), Int32Array.from([6, 34, 62, 90, 118, -1, -1]), Int32Array.from([6, 26, 50, 74, 98, 122, -1]), Int32Array.from([6, 30, 54, 78, 102, 126, -1]), Int32Array.from([6, 26, 52, 78, 104, 130, -1]), Int32Array.from([6, 30, 56, 82, 108, 134, -1]), Int32Array.from([6, 34, 60, 86, 112, 138, -1]), Int32Array.from([6, 30, 58, 86, 114, 142, -1]), Int32Array.from([6, 34, 62, 90, 118, 146, -1]), Int32Array.from([6, 30, 54, 78, 102, 126, 150]), Int32Array.from([6, 24, 50, 76, 102, 128, 154]), Int32Array.from([6, 28, 54, 80, 106, 132, 158]), Int32Array.from([6, 32, 58, 84, 110, 136, 162]), Int32Array.from([6, 26, 54, 82, 110, 138, 166]), Int32Array.from([6, 30, 58, 86, 114, 142, 170])]), dr.TYPE_INFO_COORDINATES = Array.from([Int32Array.from([8, 0]), Int32Array.from([8, 1]), Int32Array.from([8, 2]), Int32Array.from([8, 3]), Int32Array.from([8, 4]), Int32Array.from([8, 5]), Int32Array.from([8, 7]), Int32Array.from([8, 8]), Int32Array.from([7, 8]), Int32Array.from([5, 8]), Int32Array.from([4, 8]), Int32Array.from([3, 8]), Int32Array.from([2, 8]), Int32Array.from([1, 8]), Int32Array.from([0, 8])]), dr.VERSION_INFO_POLY = 7973, dr.TYPE_INFO_POLY = 1335, dr.TYPE_INFO_MASK_PATTERN = 21522;
class gr {
constructor(t, e) {
this.dataBytes = t, this.errorCorrectionBytes = e
}
getDataBytes() {
return this.dataBytes
}
getErrorCorrectionBytes() {
return this.errorCorrectionBytes
}
}
class fr {
constructor() {
}
static calculateMaskPenalty(t) {
return lr.applyMaskPenaltyRule1(t) + lr.applyMaskPenaltyRule2(t) + lr.applyMaskPenaltyRule3(t) + lr.applyMaskPenaltyRule4(t)
}
static encode(t, e, r = null) {
let n = fr.DEFAULT_BYTE_MODE_ENCODING;
const i = null !== r && void 0 !== r.get(or.CHARACTER_SET);
i && (n = r.get(or.CHARACTER_SET).toString());
const s = this.chooseMode(t, n), o = new w;
if (s === _e.BYTE && (i || fr.DEFAULT_BYTE_MODE_ENCODING !== n)) {
const t = m.getCharacterSetECIByName(n);
void 0 !== t && this.appendECI(t, o)
}
this.appendModeInfo(s, o);
const a = new w;
let l;
if (this.appendBytes(t, s, a, n), null !== r && void 0 !== r.get(or.QR_VERSION)) {
const t = Number.parseInt(r.get(or.QR_VERSION).toString(), 10);
l = Ae.getVersionForNumber(t);
const n = this.calculateBitsNeeded(s, o, a, l);
if (!this.willFit(n, l, e)) throw new ur("Data too big for requested version")
} else l = this.recommendVersion(e, s, o, a);
const h = new w;
h.appendBitArray(o);
const c = s === _e.BYTE ? a.getSizeInBytes() : t.length;
this.appendLengthInfo(c, l, s, h), h.appendBitArray(a);
const u = l.getECBlocksForLevel(e), d = l.getTotalCodewords() - u.getTotalECCodewords();
this.terminateBits(d, h);
const g = this.interleaveWithECBytes(h, l.getTotalCodewords(), d, u.getNumBlocks()), f = new cr;
f.setECLevel(e), f.setMode(s), f.setVersion(l);
const A = l.getDimensionForVersion(), C = new hr(A, A), E = this.chooseMaskPattern(g, e, l, C);
return f.setMaskPattern(E), dr.buildMatrix(g, e, l, E, C), f.setMatrix(C), f
}
static recommendVersion(t, e, r, n) {
const i = this.calculateBitsNeeded(e, r, n, Ae.getVersionForNumber(1)), s = this.chooseVersion(i, t),
o = this.calculateBitsNeeded(e, r, n, s);
return this.chooseVersion(o, t)
}
static calculateBitsNeeded(t, e, r, n) {
return e.getSize() + t.getCharacterCountBits(n) + r.getSize()
}
static getAlphanumericCode(t) {
return t < fr.ALPHANUMERIC_TABLE.length ? fr.ALPHANUMERIC_TABLE[t] : -1
}
static chooseMode(t, e = null) {
if (m.SJIS.getName() === e && this.isOnlyDoubleByteKanji(t)) return _e.KANJI;
let r = !1, n = !1;
for (let e = 0, i = t.length; e < i; ++e) {
const i = t.charAt(e);
if (fr.isDigit(i)) r = !0; else {
if (-1 === this.getAlphanumericCode(i.charCodeAt(0))) return _e.BYTE;
n = !0
}
}
return n ? _e.ALPHANUMERIC : r ? _e.NUMERIC : _e.BYTE
}
static isOnlyDoubleByteKanji(t) {
let e;
try {
e = I.encode(t, m.SJIS)
} catch (t) {
return !1
}
const r = e.length;
if (r % 2 != 0) return !1;
for (let t = 0; t < r; t += 2) {
const r = 255 & e[t];
if ((r < 129 || r > 159) && (r < 224 || r > 235)) return !1
}
return !0
}
static chooseMaskPattern(t, e, r, n) {
let i = Number.MAX_SAFE_INTEGER, s = -1;
for (let o = 0; o < cr.NUM_MASK_PATTERNS; o++) {
dr.buildMatrix(t, e, r, o, n);
let a = this.calculateMaskPenalty(n);
a < i && (i = a, s = o)
}
return s
}
static chooseVersion(t, e) {
for (let r = 1; r <= 40; r++) {
const n = Ae.getVersionForNumber(r);
if (fr.willFit(t, n, e)) return n
}
throw new ur("Data too big")
}
static willFit(t, e, r) {
return e.getTotalCodewords() - e.getECBlocksForLevel(r).getTotalECCodewords() >= (t + 7) / 8
}
static terminateBits(t, e) {
const r = 8 * t;
if (e.getSize() > r) throw new ur("data bits cannot fit in the QR Code" + e.getSize() + " > " + r);
for (let t = 0; t < 4 && e.getSize() < r; ++t) e.appendBit(!1);
const n = 7 & e.getSize();
if (n > 0) for (let t = n; t < 8; t++) e.appendBit(!1);
const i = t - e.getSizeInBytes();
for (let t = 0; t < i; ++t) e.appendBits(0 == (1 & t) ? 236 : 17, 8);
if (e.getSize() !== r) throw new ur("Bits size does not equal capacity")
}
static getNumDataBytesAndNumECBytesForBlockID(t, e, r, n, i, s) {
if (n >= r) throw new ur("Block ID too large");
const o = t % r, a = r - o, l = Math.floor(t / r), h = l + 1, c = Math.floor(e / r), u = c + 1, d = l - c,
g = h - u;
if (d !== g) throw new ur("EC bytes mismatch");
if (r !== a + o) throw new ur("RS blocks mismatch");
if (t !== (c + d) * a + (u + g) * o) throw new ur("Total bytes mismatch");
n < a ? (i[0] = c, s[0] = d) : (i[0] = u, s[0] = g)
}
static interleaveWithECBytes(t, e, r, n) {
if (t.getSizeInBytes() !== r) throw new ur("Number of bits and data bytes does not match");
let i = 0, s = 0, o = 0;
const a = new Array;
for (let l = 0; l < n; ++l) {
const h = new Int32Array(1), c = new Int32Array(1);
fr.getNumDataBytesAndNumECBytesForBlockID(e, r, n, l, h, c);
const u = h[0], d = new Uint8Array(u);
t.toBytes(8 * i, d, 0, u);
const g = fr.generateECBytes(d, c[0]);
a.push(new gr(d, g)), s = Math.max(s, u), o = Math.max(o, g.length), i += h[0]
}
if (r !== i) throw new ur("Data bytes does not match offset");
const l = new w;
for (let t = 0; t < s; ++t) for (const e of a) {
const r = e.getDataBytes();
t < r.length && l.appendBits(r[t], 8)
}
for (let t = 0; t < o; ++t) for (const e of a) {
const r = e.getErrorCorrectionBytes();
t < r.length && l.appendBits(r[t], 8)
}
if (e !== l.getSizeInBytes()) throw new ur("Interleaving error: " + e + " and " + l.getSizeInBytes() + " differ.");
return l
}
static generateECBytes(t, e) {
const r = t.length, n = new Int32Array(r + e);
for (let e = 0; e < r; e++) n[e] = 255 & t[e];
new ar(q.QR_CODE_FIELD_256).encode(n, e);
const i = new Uint8Array(e);
for (let t = 0; t < e; t++) i[t] = n[r + t];
return i
}
static appendModeInfo(t, e) {
e.appendBits(t.getBits(), 4)
}
static appendLengthInfo(t, e, r, n) {
const i = r.getCharacterCountBits(e);
if (t >= 1 << i) throw new ur(t + " is bigger than " + ((1 << i) - 1));
n.appendBits(t, i)
}
static appendBytes(t, e, r, n) {
switch (e) {
case _e.NUMERIC:
fr.appendNumericBytes(t, r);
break;
case _e.ALPHANUMERIC:
fr.appendAlphanumericBytes(t, r);
break;
case _e.BYTE:
fr.append8BitBytes(t, r, n);
break;
case _e.KANJI:
fr.appendKanjiBytes(t, r);
break;
default:
throw new ur("Invalid mode: " + e)
}
}
static getDigit(t) {
return t.charCodeAt(0) - 48
}
static isDigit(t) {
const e = fr.getDigit(t);
return e >= 0 && e <= 9
}
static appendNumericBytes(t, e) {
const r = t.length;
let n = 0;
for (; n < r;) {
const i = fr.getDigit(t.charAt(n));
if (n + 2 < r) {
const r = fr.getDigit(t.charAt(n + 1)), s = fr.getDigit(t.charAt(n + 2));
e.appendBits(100 * i + 10 * r + s, 10), n += 3
} else if (n + 1 < r) {
const r = fr.getDigit(t.charAt(n + 1));
e.appendBits(10 * i + r, 7), n += 2
} else e.appendBits(i, 4), n++
}
}
static appendAlphanumericBytes(t, e) {
const r = t.length;
let n = 0;
for (; n < r;) {
const i = fr.getAlphanumericCode(t.charCodeAt(n));
if (-1 === i) throw new ur;
if (n + 1 < r) {
const r = fr.getAlphanumericCode(t.charCodeAt(n + 1));
if (-1 === r) throw new ur;
e.appendBits(45 * i + r, 11), n += 2
} else e.appendBits(i, 6), n++
}
}
static append8BitBytes(t, e, r) {
let n;
try {
n = I.encode(t, r)
} catch (t) {
throw new ur(t)
}
for (let t = 0, r = n.length; t !== r; t++) {
const r = n[t];
e.appendBits(r, 8)
}
}
static appendKanjiBytes(t, e) {
let r;
try {
r = I.encode(t, m.SJIS)
} catch (t) {
throw new ur(t)
}
const n = r.length;
for (let t = 0; t < n; t += 2) {
const n = (255 & r[t]) << 8 & 4294967295 | 255 & r[t + 1];
let i = -1;
if (n >= 33088 && n <= 40956 ? i = n - 33088 : n >= 57408 && n <= 60351 && (i = n - 49472), -1 === i) throw new ur("Invalid byte sequence");
const s = 192 * (i >> 8) + (255 & i);
e.appendBits(s, 13)
}
}
static appendECI(t, e) {
e.appendBits(_e.ECI.getBits(), 4), e.appendBits(t.getValue(), 8)
}
}
fr.ALPHANUMERIC_TABLE = Int32Array.from([-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 36, -1, -1, -1, 37, 38, -1, -1, -1, -1, 39, 40, -1, 41, 42, 43, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 44, -1, -1, -1, -1, -1, -1, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, -1, -1, -1, -1, -1]), fr.DEFAULT_BYTE_MODE_ENCODING = m.UTF8.getName();
class wr {
write(t, e, r, n = null) {
if (0 === t.length) throw new o("Found empty contents");
if (e < 0 || r < 0) throw new o("Requested dimensions are too small: " + e + "x" + r);
let i = de.L, s = wr.QUIET_ZONE_SIZE;
null !== n && (void 0 !== n.get(or.ERROR_CORRECTION) && (i = de.fromString(n.get(or.ERROR_CORRECTION).toString())), void 0 !== n.get(or.MARGIN) && (s = Number.parseInt(n.get(or.MARGIN).toString(), 10)));
const a = fr.encode(t, i, n);
return this.renderResult(a, e, r, s)
}
writeToDom(t, e, r, n, i = null) {
"string" == typeof t && (t = document.querySelector(t));
const s = this.write(e, r, n, i);
t && t.appendChild(s)
}
renderResult(t, e, r, n) {
const i = t.getMatrix();
if (null === i) throw new j;
const s = i.getWidth(), o = i.getHeight(), a = s + 2 * n, l = o + 2 * n, h = Math.max(e, a), c = Math.max(r, l),
u = Math.min(Math.floor(h / a), Math.floor(c / l)), d = Math.floor((h - s * u) / 2),
g = Math.floor((c - o * u) / 2), f = this.createSVGElement(h, c);
for (let t = 0, e = g; t < o; t++, e += u) for (let r = 0, n = d; r < s; r++, n += u) if (1 === i.get(r, t)) {
const t = this.createSvgRectElement(n, e, u, u);
f.appendChild(t)
}
return f
}
createSVGElement(t, e) {
const r = document.createElementNS(wr.SVG_NS, "svg");
return r.setAttributeNS(null, "height", t.toString()), r.setAttributeNS(null, "width", e.toString()), r
}
createSvgRectElement(t, e, r, n) {
const i = document.createElementNS(wr.SVG_NS, "rect");
return i.setAttributeNS(null, "x", t.toString()), i.setAttributeNS(null, "y", e.toString()), i.setAttributeNS(null, "height", r.toString()), i.setAttributeNS(null, "width", n.toString()), i.setAttributeNS(null, "fill", "#000000"), i
}
}
wr.QUIET_ZONE_SIZE = 4, wr.SVG_NS = "http://www.w3.org/2000/svg";
class Ar {
encode(t, e, r, n, i) {
if (0 === t.length) throw new o("Found empty contents");
if (e !== v.QR_CODE) throw new o("Can only encode QR_CODE, but got " + e);
if (r < 0 || n < 0) throw new o(`Requested dimensions are too small: ${r}x${n}`);
let s = de.L, a = Ar.QUIET_ZONE_SIZE;
null !== i && (void 0 !== i.get(or.ERROR_CORRECTION) && (s = de.fromString(i.get(or.ERROR_CORRECTION).toString())), void 0 !== i.get(or.MARGIN) && (a = Number.parseInt(i.get(or.MARGIN).toString(), 10)));
const l = fr.encode(t, s, i);
return Ar.renderResult(l, r, n, a)
}
static renderResult(t, e, r, n) {
const i = t.getMatrix();
if (null === i) throw new j;
const s = i.getWidth(), o = i.getHeight(), a = s + 2 * n, l = o + 2 * n, h = Math.max(e, a), c = Math.max(r, l),
u = Math.min(Math.floor(h / a), Math.floor(c / l)), d = Math.floor((h - s * u) / 2),
g = Math.floor((c - o * u) / 2), f = new T(h, c);
for (let t = 0, e = g; t < o; t++, e += u) for (let r = 0, n = d; r < s; r++, n += u) 1 === i.get(r, t) && f.setRegion(n, e, u, u);
return f
}
}
Ar.QUIET_ZONE_SIZE = 4;
class Cr extends y {
constructor(t, e, r, n, i, s, a, l) {
if (super(s, a), this.yuvData = t, this.dataWidth = e, this.dataHeight = r, this.left = n, this.top = i, n + s > e || i + a > r) throw new o("Crop rectangle does not fit within image data.");
l && this.reverseHorizontal(s, a)
}
getRow(t, e) {
if (t < 0 || t >= this.getHeight()) throw new o("Requested row is outside the image: " + t);
const r = this.getWidth();
(null == e || e.length < r) && (e = new Uint8ClampedArray(r));
const n = (t + this.top) * this.dataWidth + this.left;
return c.arraycopy(this.yuvData, n, e, 0, r), e
}
getMatrix() {
const t = this.getWidth(), e = this.getHeight();
if (t === this.dataWidth && e === this.dataHeight) return this.yuvData;
const r = t * e, n = new Uint8ClampedArray(r);
let i = this.top * this.dataWidth + this.left;
if (t === this.dataWidth) return c.arraycopy(this.yuvData, i, n, 0, r), n;
for (let r = 0; r < e; r++) {
const e = r * t;
c.arraycopy(this.yuvData, i, n, e, t), i += this.dataWidth
}
return n
}
isCropSupported() {
return !0
}
crop(t, e, r, n) {
return new Cr(this.yuvData, this.dataWidth, this.dataHeight, this.left + t, this.top + e, r, n, !1)
}
renderThumbnail() {
const t = this.getWidth() / Cr.THUMBNAIL_SCALE_FACTOR, e = this.getHeight() / Cr.THUMBNAIL_SCALE_FACTOR,
r = new Int32Array(t * e), n = this.yuvData;
let i = this.top * this.dataWidth + this.left;
for (let s = 0; s < e; s++) {
const e = s * t;
for (let s = 0; s < t; s++) {
const t = 255 & n[i + s * Cr.THUMBNAIL_SCALE_FACTOR];
r[e + s] = 4278190080 | 65793 * t
}
i += this.dataWidth * Cr.THUMBNAIL_SCALE_FACTOR
}
return r
}
getThumbnailWidth() {
return this.getWidth() / Cr.THUMBNAIL_SCALE_FACTOR
}
getThumbnailHeight() {
return this.getHeight() / Cr.THUMBNAIL_SCALE_FACTOR
}
reverseHorizontal(t, e) {
const r = this.yuvData;
for (let n = 0, i = this.top * this.dataWidth + this.left; n < e; n++, i += this.dataWidth) {
const e = i + t / 2;
for (let n = i, s = i + t - 1; n < e; n++, s--) {
const t = r[n];
r[n] = r[s], r[s] = t
}
}
}
invert() {
return new O(this)
}
}
Cr.THUMBNAIL_SCALE_FACTOR = 2;
class Er extends y {
constructor(t, e, r, n, i, s, a) {
if (super(e, r), this.dataWidth = n, this.dataHeight = i, this.left = s, this.top = a, 4 === t.BYTES_PER_ELEMENT) {
const n = e * r, i = new Uint8ClampedArray(n);
for (let e = 0; e < n; e++) {
const r = t[e], n = r >> 16 & 255, s = r >> 7 & 510, o = 255 & r;
i[e] = (n + s + o) / 4 & 255
}
this.luminances = i
} else this.luminances = t;
if (void 0 === n && (this.dataWidth = e), void 0 === i && (this.dataHeight = r), void 0 === s && (this.left = 0), void 0 === a && (this.top = 0), this.left + e > this.dataWidth || this.top + r > this.dataHeight) throw new o("Crop rectangle does not fit within image data.")
}
getRow(t, e) {
if (t < 0 || t >= this.getHeight()) throw new o("Requested row is outside the image: " + t);
const r = this.getWidth();
(null == e || e.length < r) && (e = new Uint8ClampedArray(r));
const n = (t + this.top) * this.dataWidth + this.left;
return c.arraycopy(this.luminances, n, e, 0, r), e
}
getMatrix() {
const t = this.getWidth(), e = this.getHeight();
if (t === this.dataWidth && e === this.dataHeight) return this.luminances;
const r = t * e, n = new Uint8ClampedArray(r);
let i = this.top * this.dataWidth + this.left;
if (t === this.dataWidth) return c.arraycopy(this.luminances, i, n, 0, r), n;
for (let r = 0; r < e; r++) {
const e = r * t;
c.arraycopy(this.luminances, i, n, e, t), i += this.dataWidth
}
return n
}
isCropSupported() {
return !0
}
crop(t, e, r, n) {
return new Er(this.luminances, r, n, this.dataWidth, this.dataHeight, this.left + t, this.top + e)
}
invert() {
return new O(this)
}
}
class mr extends m {
static forName(t) {
return this.getCharacterSetECIByName(t)
}
}
class _r {
}
_r.ISO_8859_1 = m.ISO8859_1;
class Ir {
isCompact() {
return this.compact
}
setCompact(t) {
this.compact = t
}
getSize() {
return this.size
}
setSize(t) {
this.size = t
}
getLayers() {
return this.layers
}
setLayers(t) {
this.layers = t
}
getCodeWords() {
return this.codeWords
}
setCodeWords(t) {
this.codeWords = t
}
getMatrix() {
return this.matrix
}
setMatrix(t) {
this.matrix = t
}
}
class Sr {
static singletonList(t) {
return [t]
}
static min(t, e) {
return t.sort(e)[0]
}
}
class pr extends class {
constructor(t) {
this.previous = t
}
getPrevious() {
return this.previous
}
} {
constructor(t, e, r) {
super(t), this.value = e, this.bitCount = r
}
appendTo(t, e) {
t.appendBits(this.value, this.bitCount)
}
add(t, e) {
return new pr(this, t, e)
}
addBinaryShift(t, e) {
return console.warn("addBinaryShift on SimpleToken, this simply returns a copy of this token"), new pr(this, t, e)
}
toString() {
let t = this.value & (1 << this.bitCount) - 1;
return t |= 1 << this.bitCount, "<" + f.toBinaryString(t | 1 << this.bitCount).substring(1) + ">"
}
}
class Tr extends pr {
constructor(t, e, r) {
super(t, 0, 0), this.binaryShiftStart = e, this.binaryShiftByteCount = r
}
appendTo(t, e) {
for (let r = 0; r < this.binaryShiftByteCount; r++) (0 === r || 31 === r && this.binaryShiftByteCount <= 62) && (t.appendBits(31, 5), this.binaryShiftByteCount > 62 ? t.appendBits(this.binaryShiftByteCount - 31, 16) : 0 === r ? t.appendBits(Math.min(this.binaryShiftByteCount, 31), 5) : t.appendBits(this.binaryShiftByteCount - 31, 5)), t.appendBits(e[this.binaryShiftStart + r], 8)
}
addBinaryShift(t, e) {
return new Tr(this, t, e)
}
toString() {
return "<" + this.binaryShiftStart + "::" + (this.binaryShiftStart + this.binaryShiftByteCount - 1) + ">"
}
}
function Rr(t, e, r) {
return new pr(t, e, r)
}
const Nr = ["UPPER", "LOWER", "DIGIT", "MIXED", "PUNCT"], Dr = new pr(null, 0, 0),
yr = [Int32Array.from([0, 327708, 327710, 327709, 656318]), Int32Array.from([590318, 0, 327710, 327709, 656318]), Int32Array.from([262158, 590300, 0, 590301, 932798]), Int32Array.from([327709, 327708, 656318, 0, 327710]), Int32Array.from([327711, 656380, 656382, 656381, 0])];
const Or = function (t) {
for (let e of t) g.fill(e, -1);
return t[0][4] = 0, t[1][4] = 0, t[1][0] = 28, t[3][4] = 0, t[2][4] = 0, t[2][0] = 15, t
}(g.createInt32Array(6, 6));
class Mr {
constructor(t, e, r, n) {
this.token = t, this.mode = e, this.binaryShiftByteCount = r, this.bitCount = n
}
getMode() {
return this.mode
}
getToken() {
return this.token
}
getBinaryShiftByteCount() {
return this.binaryShiftByteCount
}
getBitCount() {
return this.bitCount
}
latchAndAppend(t, e) {
let r = this.bitCount, n = this.token;
if (t !== this.mode) {
let e = yr[this.mode][t];
n = Rr(n, 65535 & e, e >> 16), r += e >> 16
}
let i = 2 === t ? 4 : 5;
return n = Rr(n, e, i), new Mr(n, t, 0, r + i)
}
shiftAndAppend(t, e) {
let r = this.token, n = 2 === this.mode ? 4 : 5;
return r = Rr(r, Or[this.mode][t], n), r = Rr(r, e, 5), new Mr(r, this.mode, 0, this.bitCount + n + 5)
}
addBinaryShiftChar(t) {
let e = this.token, r = this.mode, n = this.bitCount;
if (4 === this.mode || 2 === this.mode) {
let t = yr[r][0];
e = Rr(e, 65535 & t, t >> 16), n += t >> 16, r = 0
}
let i = 0 === this.binaryShiftByteCount || 31 === this.binaryShiftByteCount ? 18 : 62 === this.binaryShiftByteCount ? 9 : 8,
s = new Mr(e, r, this.binaryShiftByteCount + 1, n + i);
return 2078 === s.binaryShiftByteCount && (s = s.endBinaryShift(t + 1)), s
}
endBinaryShift(t) {
if (0 === this.binaryShiftByteCount) return this;
let e = this.token;
return e = function (t, e, r) {
return new Tr(t, e, r)
}(e, t - this.binaryShiftByteCount, this.binaryShiftByteCount), new Mr(e, this.mode, 0, this.bitCount)
}
isBetterThanOrEqualTo(t) {
let e = this.bitCount + (yr[this.mode][t.mode] >> 16);
return this.binaryShiftByteCount < t.binaryShiftByteCount ? e += Mr.calculateBinaryShiftCost(t) - Mr.calculateBinaryShiftCost(this) : this.binaryShiftByteCount > t.binaryShiftByteCount && t.binaryShiftByteCount > 0 && (e += 10), e <= t.bitCount
}
toBitArray(t) {
let e = [];
for (let r = this.endBinaryShift(t.length).token; null !== r; r = r.getPrevious()) e.unshift(r);
let r = new w;
for (const n of e) n.appendTo(r, t);
return r
}
toString() {
return S.format("%s bits=%d bytes=%d", Nr[this.mode], this.bitCount, this.binaryShiftByteCount)
}
static calculateBinaryShiftCost(t) {
return t.binaryShiftByteCount > 62 ? 21 : t.binaryShiftByteCount > 31 ? 20 : t.binaryShiftByteCount > 0 ? 10 : 0
}
}
Mr.INITIAL_STATE = new Mr(Dr, 0, 0, 0);
const Br = function (t) {
const e = S.getCharCode(" "), r = S.getCharCode("."), n = S.getCharCode(",");
t[0][e] = 1;
const i = S.getCharCode("Z"), s = S.getCharCode("A");
for (let e = s; e <= i; e++) t[0][e] = e - s + 2;
t[1][e] = 1;
const o = S.getCharCode("z"), a = S.getCharCode("a");
for (let e = a; e <= o; e++) t[1][e] = e - a + 2;
t[2][e] = 1;
const l = S.getCharCode("9"), h = S.getCharCode("0");
for (let e = h; e <= l; e++) t[2][e] = e - h + 2;
t[2][n] = 12, t[2][r] = 13;
const c = ["\0", " ", "", "", "", "", "", "", "", "\b", "\t", "\n", "\v", "\f", "\r", "", "", "", "", "", "@", "\\", "^", "_", "`", "|", "~", ""];
for (let e = 0; e < c.length; e++) t[3][S.getCharCode(c[e])] = e;
const u = ["\0", "\r", "\0", "\0", "\0", "\0", "!", "'", "#", "$", "%", "&", "'", "(", ")", "*", "+", ",", "-", ".", "/", ":", ";", "<", "=", ">", "?", "[", "]", "{", "}"];
for (let e = 0; e < u.length; e++) S.getCharCode(u[e]) > 0 && (t[4][S.getCharCode(u[e])] = e);
return t
}(g.createInt32Array(5, 256));
class br {
constructor(t) {
this.text = t
}
encode() {
const t = S.getCharCode(" "), e = S.getCharCode("\n");
let r = Sr.singletonList(Mr.INITIAL_STATE);
for (let n = 0; n < this.text.length; n++) {
let i, s = n + 1 < this.text.length ? this.text[n + 1] : 0;
switch (this.text[n]) {
case S.getCharCode("\r"):
i = s === e ? 2 : 0;
break;
case S.getCharCode("."):
i = s === t ? 3 : 0;
break;
case S.getCharCode(","):
i = s === t ? 4 : 0;
break;
case S.getCharCode(":"):
i = s === t ? 5 : 0;
break;
default:
i = 0
}
i > 0 ? (r = br.updateStateListForPair(r, n, i), n++) : r = this.updateStateListForChar(r, n)
}
return Sr.min(r, ((t, e) => t.getBitCount() - e.getBitCount())).toBitArray(this.text)
}
updateStateListForChar(t, e) {
const r = [];
for (let n of t) this.updateStateForChar(n, e, r);
return br.simplifyStates(r)
}
updateStateForChar(t, e, r) {
let n = 255 & this.text[e], i = Br[t.getMode()][n] > 0, s = null;
for (let o = 0; o <= 4; o++) {
let a = Br[o][n];
if (a > 0) {
if (null == s && (s = t.endBinaryShift(e)), !i || o === t.getMode() || 2 === o) {
const t = s.latchAndAppend(o, a);
r.push(t)
}
if (!i && Or[t.getMode()][o] >= 0) {
const t = s.shiftAndAppend(o, a);
r.push(t)
}
}
}
if (t.getBinaryShiftByteCount() > 0 || 0 === Br[t.getMode()][n]) {
let n = t.addBinaryShiftChar(e);
r.push(n)
}
}
static updateStateListForPair(t, e, r) {
const n = [];
for (let i of t) this.updateStateForPair(i, e, r, n);
return this.simplifyStates(n)
}
static updateStateForPair(t, e, r, n) {
let i = t.endBinaryShift(e);
if (n.push(i.latchAndAppend(4, r)), 4 !== t.getMode() && n.push(i.shiftAndAppend(4, r)), 3 === r || 4 === r) {
let t = i.latchAndAppend(2, 16 - r).latchAndAppend(2, 1);
n.push(t)
}
if (t.getBinaryShiftByteCount() > 0) {
let r = t.addBinaryShiftChar(e).addBinaryShiftChar(e + 1);
n.push(r)
}
}
static simplifyStates(t) {
let e = [];
for (const r of t) {
let t = !0;
for (const n of e) {
if (n.isBetterThanOrEqualTo(r)) {
t = !1;
break
}
r.isBetterThanOrEqualTo(n) && (e = e.filter((t => t !== n)))
}
t && e.push(r)
}
return e
}
}
class Pr {
constructor() {
}
static encodeBytes(t) {
return Pr.encode(t, Pr.DEFAULT_EC_PERCENT, Pr.DEFAULT_AZTEC_LAYERS)
}
static encode(t, e, r) {
let n, i, s, a, l, h = new br(t).encode(), c = f.truncDivision(h.getSize() * e, 100) + 11, u = h.getSize() + c;
if (r !== Pr.DEFAULT_AZTEC_LAYERS) {
if (n = r < 0, i = Math.abs(r), i > (n ? Pr.MAX_NB_BITS_COMPACT : Pr.MAX_NB_BITS)) throw new o(S.format("Illegal value %s for layers", r));
s = Pr.totalBitsInLayer(i, n), a = Pr.WORD_SIZE[i];
let t = s - s % a;
if (l = Pr.stuffBits(h, a), l.getSize() + c > t) throw new o("Data to large for user specified layer");
if (n && l.getSize() > 64 * a) throw new o("Data to large for user specified layer")
} else {
a = 0, l = null;
for (let t = 0; ; t++) {
if (t > Pr.MAX_NB_BITS) throw new o("Data too large for an Aztec code");
if (n = t <= 3, i = n ? t + 1 : t, s = Pr.totalBitsInLayer(i, n), u > s) continue;
null != l && a === Pr.WORD_SIZE[i] || (a = Pr.WORD_SIZE[i], l = Pr.stuffBits(h, a));
let e = s - s % a;
if (!(n && l.getSize() > 64 * a) && l.getSize() + c <= e) break
}
}
let d, g = Pr.generateCheckWords(l, s, a), w = l.getSize() / a, A = Pr.generateModeMessage(n, i, w),
C = (n ? 11 : 14) + 4 * i, E = new Int32Array(C);
if (n) {
d = C;
for (let t = 0; t < E.length; t++) E[t] = t
} else {
d = C + 1 + 2 * f.truncDivision(f.truncDivision(C, 2) - 1, 15);
let t = f.truncDivision(C, 2), e = f.truncDivision(d, 2);
for (let r = 0; r < t; r++) {
let n = r + f.truncDivision(r, 15);
E[t - r - 1] = e - n - 1, E[t + r] = e + n + 1
}
}
let m = new T(d);
for (let t = 0, e = 0; t < i; t++) {
let r = 4 * (i - t) + (n ? 9 : 12);
for (let n = 0; n < r; n++) {
let i = 2 * n;
for (let s = 0; s < 2; s++) g.get(e + i + s) && m.set(E[2 * t + s], E[2 * t + n]), g.get(e + 2 * r + i + s) && m.set(E[2 * t + n], E[C - 1 - 2 * t - s]), g.get(e + 4 * r + i + s) && m.set(E[C - 1 - 2 * t - s], E[C - 1 - 2 * t - n]), g.get(e + 6 * r + i + s) && m.set(E[C - 1 - 2 * t - n], E[2 * t + s])
}
e += 8 * r
}
if (Pr.drawModeMessage(m, n, d, A), n) Pr.drawBullsEye(m, f.truncDivision(d, 2), 5); else {
Pr.drawBullsEye(m, f.truncDivision(d, 2), 7);
for (let t = 0, e = 0; t < f.truncDivision(C, 2) - 1; t += 15, e += 16) for (let t = 1 & f.truncDivision(d, 2); t < d; t += 2) m.set(f.truncDivision(d, 2) - e, t), m.set(f.truncDivision(d, 2) + e, t), m.set(t, f.truncDivision(d, 2) - e), m.set(t, f.truncDivision(d, 2) + e)
}
let _ = new Ir;
return _.setCompact(n), _.setSize(d), _.setLayers(i), _.setCodeWords(w), _.setMatrix(m), _
}
static drawBullsEye(t, e, r) {
for (let n = 0; n < r; n += 2) for (let r = e - n; r <= e + n; r++) t.set(r, e - n), t.set(r, e + n), t.set(e - n, r), t.set(e + n, r);
t.set(e - r, e - r), t.set(e - r + 1, e - r), t.set(e - r, e - r + 1), t.set(e + r, e - r), t.set(e + r, e - r + 1), t.set(e + r, e + r - 1)
}
static generateModeMessage(t, e, r) {
let n = new w;
return t ? (n.appendBits(e - 1, 2), n.appendBits(r - 1, 6), n = Pr.generateCheckWords(n, 28, 4)) : (n.appendBits(e - 1, 5), n.appendBits(r - 1, 11), n = Pr.generateCheckWords(n, 40, 4)), n
}
static drawModeMessage(t, e, r, n) {
let i = f.truncDivision(r, 2);
if (e) for (let e = 0; e < 7; e++) {
let r = i - 3 + e;
n.get(e) && t.set(r, i - 5), n.get(e + 7) && t.set(i + 5, r), n.get(20 - e) && t.set(r, i + 5), n.get(27 - e) && t.set(i - 5, r)
} else for (let e = 0; e < 10; e++) {
let r = i - 5 + e + f.truncDivision(e, 5);
n.get(e) && t.set(r, i - 7), n.get(e + 10) && t.set(i + 7, r), n.get(29 - e) && t.set(r, i + 7), n.get(39 - e) && t.set(i - 7, r)
}
}
static generateCheckWords(t, e, r) {
let n = t.getSize() / r, i = new ar(Pr.getGF(r)), s = f.truncDivision(e, r), o = Pr.bitsToWords(t, r, s);
i.encode(o, s - n);
let a = e % r, l = new w;
l.appendBits(0, a);
for (const t of Array.from(o)) l.appendBits(t, r);
return l
}
static bitsToWords(t, e, r) {
let n, i, s = new Int32Array(r);
for (n = 0, i = t.getSize() / e; n < i; n++) {
let r = 0;
for (let i = 0; i < e; i++) r |= t.get(n * e + i) ? 1 << e - i - 1 : 0;
s[n] = r
}
return s
}
static getGF(t) {
switch (t) {
case 4:
return q.AZTEC_PARAM;
case 6:
return q.AZTEC_DATA_6;
case 8:
return q.AZTEC_DATA_8;
case 10:
return q.AZTEC_DATA_10;
case 12:
return q.AZTEC_DATA_12;
default:
throw new o("Unsupported word size " + t)
}
}
static stuffBits(t, e) {
let r = new w, n = t.getSize(), i = (1 << e) - 2;
for (let s = 0; s < n; s += e) {
let o = 0;
for (let r = 0; r < e; r++) (s + r >= n || t.get(s + r)) && (o |= 1 << e - 1 - r);
(o & i) === i ? (r.appendBits(o & i, e), s--) : 0 == (o & i) ? (r.appendBits(1 | o, e), s--) : r.appendBits(o, e)
}
return r
}
static totalBitsInLayer(t, e) {
return ((e ? 88 : 112) + 16 * t) * t
}
}
Pr.DEFAULT_EC_PERCENT = 33, Pr.DEFAULT_AZTEC_LAYERS = 0, Pr.MAX_NB_BITS = 32, Pr.MAX_NB_BITS_COMPACT = 4, Pr.WORD_SIZE = Int32Array.from([4, 6, 6, 8, 8, 8, 8, 8, 8, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12]);
class Lr {
encode(t, e, r, n) {
return this.encodeWithHints(t, e, r, n, null)
}
encodeWithHints(t, e, r, n, i) {
let s = _r.ISO_8859_1, o = Pr.DEFAULT_EC_PERCENT, a = Pr.DEFAULT_AZTEC_LAYERS;
return null != i && (i.has(or.CHARACTER_SET) && (s = mr.forName(i.get(or.CHARACTER_SET).toString())), i.has(or.ERROR_CORRECTION) && (o = f.parseInt(i.get(or.ERROR_CORRECTION).toString())), i.has(or.AZTEC_LAYERS) && (a = f.parseInt(i.get(or.AZTEC_LAYERS).toString()))), Lr.encodeLayers(t, e, r, n, s, o, a)
}
static encodeLayers(t, e, r, n, i, s, a) {
if (e !== v.AZTEC) throw new o("Can only encode AZTEC, but got " + e);
let l = Pr.encode(S.getBytes(t, i), s, a);
return Lr.renderResult(l, r, n)
}
static renderResult(t, e, r) {
let n = t.getMatrix();
if (null == n) throw new j;
let i = n.getWidth(), s = n.getHeight(), o = Math.max(e, i), a = Math.max(r, s), l = Math.min(o / i, a / s),
h = (o - i * l) / 2, c = (a - s * l) / 2, u = new T(o, a);
for (let t = 0, e = c; t < s; t++, e += l) for (let r = 0, s = h; r < i; r++, s += l) n.get(r, t) && u.setRegion(s, e, l, l);
return u
}
}
t.AbstractExpandedDecoder = xt, t.ArgumentException = s, t.ArithmeticException = K, t.AztecCode = Ir, t.AztecCodeReader = dt, t.AztecCodeWriter = Lr, t.AztecDecoder = $, t.AztecDetector = ut, t.AztecDetectorResult = it, t.AztecEncoder = Pr, t.AztecHighLevelEncoder = br, t.AztecPoint = ct, t.BarcodeFormat = v, t.Binarizer = h, t.BinaryBitmap = a, t.BitArray = w, t.BitMatrix = T, t.BitSource = ae, t.BrowserAztecCodeReader = class extends L {
constructor(t = 500) {
super(new dt, t)
}
}, t.BrowserBarcodeReader = class extends L {
constructor(t = 500, e) {
super(new ee(e), t, e)
}
}, t.BrowserCodeReader = L, t.BrowserDatamatrixCodeReader = class extends L {
constructor(t = 500) {
super(new ue, t)
}
}, t.BrowserMultiFormatReader = class extends L {
constructor(t = null, e = 500) {
const r = new ir;
r.setHints(t), super(r, e)
}
decodeBitmap(t) {
return this.reader.decodeWithState(t)
}
}, t.BrowserPDF417Reader = class extends L {
constructor(t = 500) {
super(new rr, t)
}
}, t.BrowserQRCodeReader = class extends L {
constructor(t = 500) {
super(new Me, t)
}
}, t.BrowserQRCodeSvgWriter = wr, t.CharacterSetECI = m, t.ChecksumException = l, t.Code128Reader = ft, t.Code39Reader = wt, t.DataMatrixDecodedBitStreamParser = le, t.DataMatrixReader = ue, t.DecodeHintType = C, t.DecoderResult = z, t.DefaultGridSampler = lt, t.DetectorResult = nt, t.EAN13Reader = St, t.EncodeHintType = or, t.Exception = i, t.FormatException = E, t.GenericGF = q, t.GenericGFPoly = Z, t.GlobalHistogramBinarizer = N, t.GridSampler = ot, t.GridSamplerInstance = ht, t.HTMLCanvasElementLuminanceSource = M, t.HybridBinarizer = D, t.ITFReader = At, t.IllegalArgumentException = o, t.IllegalStateException = j, t.InvertedLuminanceSource = O, t.LuminanceSource = y, t.MathUtils = tt, t.MultiFormatOneDReader = ee, t.MultiFormatReader = ir, t.MultiFormatWriter = class {
encode(t, e, r, n, i) {
let s;
switch (e) {
case v.QR_CODE:
s = new Ar;
break;
default:
throw new o("No encoder available for format " + e)
}
return s.encode(t, e, r, n, i)
}
}, t.NotFoundException = R, t.OneDReader = gt, t.PDF417DecodedBitStreamParser = tr, t.PDF417DecoderErrorCorrection = ke, t.PDF417Reader = rr, t.PDF417ResultMetadata = Ye, t.PerspectiveTransform = at, t.PlanarYUVLuminanceSource = Cr, t.QRCodeByteMatrix = hr, t.QRCodeDataMask = Ce, t.QRCodeDecodedBitStreamParser = Ie, t.QRCodeDecoderErrorCorrectionLevel = de, t.QRCodeDecoderFormatInformation = ge, t.QRCodeEncoder = fr, t.QRCodeEncoderQRCode = cr, t.QRCodeMaskUtil = lr, t.QRCodeMatrixUtil = dr, t.QRCodeMode = _e, t.QRCodeReader = Me, t.QRCodeVersion = Ae, t.QRCodeWriter = Ar, t.RGBLuminanceSource = Er, t.RSS14Reader = te, t.RSSExpandedReader = Jt, t.ReaderException = nr, t.ReedSolomonDecoder = J, t.ReedSolomonEncoder = ar, t.ReedSolomonException = Q, t.Result = F, t.ResultMetadataType = W, t.ResultPoint = rt, t.StringUtils = S, t.UnsupportedOperationException = _, t.VideoInputDevice = B, t.WhiteRectangleDetector = st, t.WriterException = ur, t.ZXingArrays = g, t.ZXingCharset = mr, t.ZXingInteger = f, t.ZXingStandardCharsets = _r, t.ZXingStringBuilder = p, t.ZXingStringEncoding = I, t.ZXingSystem = c, t.createAbstractExpandedDecoder = qt, Object.defineProperty(t, "__esModule", {value: !0})
}))
;