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zxing-wasm

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ZXing-C++ WebAssembly as an ES/CJS module with types

github.com/Sec-ant/zxing-wasm

Sec-ant/zxing-wasm

1,485 lines (1,484 loc) • 43.2 kB

JavaScript

import { A as e, C as t, D as n, E as r, F as i, I as a, L as o, M as s, N as c, O as l, P as u, S as d, T as f, _ as p, a as m, b as h, d as g, f as _, g as v, h as ee, i as te, j as ne, k as re, l as ie, m as ae, n as oe, o as y, p as se, r as ce, s as le, u as ue, v as de, w as fe, x as pe, y as b } from "../share.js"; //#region src/reader/zxing_reader.js async function x(e = {}) { var t, n, r, i = e, a = !!globalThis.window, o = typeof Bun < "u", s = !!globalThis.WorkerGlobalScope; !((n = globalThis.process) == null || (n = n.versions) == null) && n.node && ((r = globalThis.process) == null || r.type); var c = "./this.program", l, u = ""; function d(e) { return i.locateFile ? i.locateFile(e, u) : u + e; } var f, p; if (a || s || o) { try { u = new URL(".", l).href; } catch {} s && (p = (e) => { var t = new XMLHttpRequest(); return t.open("GET", e, !1), t.responseType = "arraybuffer", t.send(null), new Uint8Array(t.response); }), f = async (e) => { var t = await fetch(e, { credentials: "same-origin" }); if (t.ok) return t.arrayBuffer(); throw Error(t.status + " : " + t.url); }; } var m = console.log.bind(console), h = console.error.bind(console), g, _ = !1, v, ee, te = !1; function ne() { var e = Xn.buffer; S = new Int8Array(e), b = new Int16Array(e), i.HEAPU8 = T = new Uint8Array(e), C = new Uint16Array(e), x = new Int32Array(e), w = new Uint32Array(e), me = new Float32Array(e), he = new Float64Array(e); } function re() { if (i.preRun) for (typeof i.preRun == "function" && (i.preRun = [i.preRun]); i.preRun.length;) be(i.preRun.shift()); ge(ye); } function ie() { te = !0, zr.Ba(); } function ae() { if (i.postRun) for (typeof i.postRun == "function" && (i.postRun = [i.postRun]); i.postRun.length;) ve(i.postRun.shift()); ge(_e); } function oe(e) { var t, n; (t = i.onAbort) == null || t.call(i, e), e = "Aborted(" + e + ")", h(e), _ = !0, e += ". Build with -sASSERTIONS for more info."; var r = new WebAssembly.RuntimeError(e); throw (n = ee) == null || n(r), r; } var y; function se() { return d("zxing_reader.wasm"); } function ce(e) { if (e == y && g) return new Uint8Array(g); if (p) return p(e); throw "both async and sync fetching of the wasm failed"; } async function le(e) { if (!g) try { var t = await f(e); return new Uint8Array(t); } catch {} return ce(e); } async function ue(e, t) { try { var n = await le(e); return await WebAssembly.instantiate(n, t); } catch (e) { h(`failed to asynchronously prepare wasm: ${e}`), oe(e); } } async function de(e, t, n) { if (!e && WebAssembly.instantiateStreaming) try { var r = fetch(t, { credentials: "same-origin" }); return await WebAssembly.instantiateStreaming(r, n); } catch (e) { h(`wasm streaming compile failed: ${e}`), h("falling back to ArrayBuffer instantiation"); } return ue(t, n); } function fe() { return { a: $n }; } async function pe() { function e(e, t) { return zr = e.exports, Qn(zr), ne(), zr; } function t(t) { return e(t.instance); } var n = fe(); return i.instantiateWasm ? new Promise((t, r) => { i.instantiateWasm(n, (n, r) => { t(e(n, r)); }); }) : (y != null || (y = se()), t(await de(g, y, n))); } var b, x, S, me, he, C, w, T, ge = (e) => { for (; e.length > 0;) e.shift()(i); }, _e = [], ve = (e) => _e.push(e), ye = [], be = (e) => ye.push(e), E = (e) => Hn(e), D = () => Un(), xe = [], O = 0, Se = (e) => { var t = new we(e); return t.get_caught() || (t.set_caught(!0), O--), t.set_rethrown(!1), xe.push(t), Bn(e); }, k = 0, Ce = () => { $(0, 0); var e = xe.pop(); Wn(e.excPtr), k = 0; }; class we { constructor(e) { this.excPtr = e, this.ptr = e - 24; } set_type(e) { w[this.ptr + 4 >> 2] = e; } get_type() { return w[this.ptr + 4 >> 2]; } set_destructor(e) { w[this.ptr + 8 >> 2] = e; } get_destructor() { return w[this.ptr + 8 >> 2]; } set_caught(e) { e = +!!e, S[this.ptr + 12] = e; } get_caught() { return S[this.ptr + 12] != 0; } set_rethrown(e) { e = +!!e, S[this.ptr + 13] = e; } get_rethrown() { return S[this.ptr + 13] != 0; } init(e, t) { this.set_adjusted_ptr(0), this.set_type(e), this.set_destructor(t); } set_adjusted_ptr(e) { w[this.ptr + 16 >> 2] = e; } get_adjusted_ptr() { return w[this.ptr + 16 >> 2]; } } var A = (e) => Vn(e), Te = (e) => { var t = k; if (!t) return A(0), 0; var n = new we(t); n.set_adjusted_ptr(t); var r = n.get_type(); if (!r) return A(0), t; for (var i of e) { if (i === 0 || i === r) break; var a = n.ptr + 16; if (Kn(i, r, a)) return A(i), t; } return A(r), t; }, Ee = () => Te([]), De = (e) => Te([e]), Oe = (e, t) => Te([e, t]), ke = () => { var e = xe.pop(); e || oe("no exception to throw"); var t = e.excPtr; throw e.get_rethrown() || (xe.push(e), e.set_rethrown(!0), e.set_caught(!1), O++), Gn(t), k = t, k; }, Ae = (e, t, n) => { throw new we(e).init(t, n), Gn(e), k = e, O++, k; }, je = () => O, Me = (e) => { throw k || (k = e), k; }, Ne = () => oe(""), j = {}, Pe = (e) => { for (; e.length;) { var t = e.pop(); e.pop()(t); } }; function M(e) { return this.fromWireType(w[e >> 2]); } var N = {}, P = {}, F = {}, Fe = class extends Error { constructor(e) { super(e), this.name = "InternalError"; } }, I = (e) => { throw new Fe(e); }, L = (e, t, n) => { e.forEach((e) => F[e] = t); function r(t) { var r = n(t); r.length !== e.length && I("Mismatched type converter count"); for (var i = 0; i < e.length; ++i) V(e[i], r[i]); } var i = Array(t.length), a = [], o = 0; { let e = t; for (let t = 0; t < e.length; ++t) { let n = e[t]; P.hasOwnProperty(n) ? i[t] = P[n] : (a.push(n), N.hasOwnProperty(n) || (N[n] = []), N[n].push(() => { i[t] = P[n], ++o, o === a.length && r(i); })); } } a.length === 0 && r(i); }, Ie = (e) => { var t = j[e]; delete j[e]; var n = t.rawConstructor, r = t.rawDestructor, i = t.fields, a = i.map((e) => e.getterReturnType).concat(i.map((e) => e.setterArgumentType)); L([e], a, (e) => { var a = {}; { let t = i; for (let n = 0; n < t.length; ++n) { let r = t[n], o = e[n], s = r.getter, c = r.getterContext, l = e[n + i.length], u = r.setter, d = r.setterContext; a[r.fieldName] = { read: (e) => o.fromWireType(s(c, e)), write: (e, t) => { var n = []; u(d, e, l.toWireType(n, t)), Pe(n); }, optional: o.optional }; } } return [{ name: t.name, fromWireType: (e) => { var t = {}; for (var n in a) t[n] = a[n].read(e); return r(e), t; }, toWireType: (e, t) => { for (var i in a) if (!(i in t) && !a[i].optional) throw TypeError(`Missing field: "${i}"`); var o = n(); for (i in a) a[i].write(o, t[i]); return e !== null && e.push(r, o), o; }, readValueFromPointer: M, destructorFunction: r }]; }); }, Le = (e, t, n, r, i) => {}, R = (e) => { for (var t = "";;) { var n = T[e++]; if (!n) return t; t += String.fromCharCode(n); } }, z = class extends Error { constructor(e) { super(e), this.name = "BindingError"; } }, B = (e) => { throw new z(e); }; function Re(e, t) { let n = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : {}; var r = t.name; if (e || B(`type "${r}" must have a positive integer typeid pointer`), P.hasOwnProperty(e)) { if (n.ignoreDuplicateRegistrations) return; B(`Cannot register type '${r}' twice`); } if (P[e] = t, delete F[e], N.hasOwnProperty(e)) { var i = N[e]; delete N[e], i.forEach((e) => e()); } } function V(e, t) { return Re(e, t, arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : {}); } var ze = (e, t, n, r) => { t = R(t), V(e, { name: t, fromWireType: function(e) { return !!e; }, toWireType: function(e, t) { return t ? n : r; }, readValueFromPointer: function(e) { return this.fromWireType(T[e]); }, destructorFunction: null }); }, Be = (e) => ({ count: e.count, deleteScheduled: e.deleteScheduled, preservePointerOnDelete: e.preservePointerOnDelete, ptr: e.ptr, ptrType: e.ptrType, smartPtr: e.smartPtr, smartPtrType: e.smartPtrType }), Ve = (e) => { function t(e) { return e.$$.ptrType.registeredClass.name; } B(t(e) + " instance already deleted"); }, He = !1, Ue = (e) => {}, We = (e) => { e.smartPtr ? e.smartPtrType.rawDestructor(e.smartPtr) : e.ptrType.registeredClass.rawDestructor(e.ptr); }, Ge = (e) => { --e.count.value, e.count.value === 0 && We(e); }, H = (e) => globalThis.FinalizationRegistry ? (He = new FinalizationRegistry((e) => { Ge(e.$$); }), H = (e) => { var t = e.$$; if (t.smartPtr) { var n = { $$: t }; He.register(e, n, e); } return e; }, Ue = (e) => He.unregister(e), H(e)) : (H = (e) => e, e), U = [], Ke = () => { for (; U.length;) { var e = U.pop(); e.$$.deleteScheduled = !1, e.delete(); } }, qe, Je = () => { let e = W.prototype; Object.assign(e, { isAliasOf(e) { if (!(this instanceof W) || !(e instanceof W)) return !1; var t = this.$$.ptrType.registeredClass, n = this.$$.ptr; e.$$ = e.$$; for (var r = e.$$.ptrType.registeredClass, i = e.$$.ptr; t.baseClass;) n = t.upcast(n), t = t.baseClass; for (; r.baseClass;) i = r.upcast(i), r = r.baseClass; return t === r && n === i; }, clone() { if (this.$$.ptr || Ve(this), this.$$.preservePointerOnDelete) return this.$$.count.value += 1, this; var e = H(Object.create(Object.getPrototypeOf(this), { $$: { value: Be(this.$$) } })); return e.$$.count.value += 1, e.$$.deleteScheduled = !1, e; }, delete() { this.$$.ptr || Ve(this), this.$$.deleteScheduled && !this.$$.preservePointerOnDelete && B("Object already scheduled for deletion"), Ue(this), Ge(this.$$), this.$$.preservePointerOnDelete || (this.$$.smartPtr = void 0, this.$$.ptr = void 0); }, isDeleted() { return !this.$$.ptr; }, deleteLater() { return this.$$.ptr || Ve(this), this.$$.deleteScheduled && !this.$$.preservePointerOnDelete && B("Object already scheduled for deletion"), U.push(this), U.length === 1 && qe && qe(Ke), this.$$.deleteScheduled = !0, this; } }); let t = Symbol.dispose; t && (e[t] = e.delete); }; function W() {} var Ye = (e, t) => Object.defineProperty(t, "name", { value: e }), Xe = {}, Ze = (e, t, n) => { if (e[t].overloadTable === void 0) { var r = e[t]; e[t] = function() { var r = [...arguments]; return e[t].overloadTable.hasOwnProperty(r.length) || B(`Function '${n}' called with an invalid number of arguments (${r.length}) - expects one of (${e[t].overloadTable})!`), e[t].overloadTable[r.length].apply(this, r); }, e[t].overloadTable = [], e[t].overloadTable[r.argCount] = r; } }, Qe = (e, t, n) => { i.hasOwnProperty(e) ? ((n === void 0 || i[e].overloadTable !== void 0 && i[e].overloadTable[n] !== void 0) && B(`Cannot register public name '${e}' twice`), Ze(i, e, e), i[e].overloadTable.hasOwnProperty(n) && B(`Cannot register multiple overloads of a function with the same number of arguments (${n})!`), i[e].overloadTable[n] = t) : (i[e] = t, i[e].argCount = n); }, $e = 48, et = 57, tt = (e) => { e = e.replace(/[^a-zA-Z0-9_]/g, "$"); var t = e.charCodeAt(0); return t >= $e && t <= et ? `_${e}` : e; }; function nt(e, t, n, r, i, a, o, s) { this.name = e, this.constructor = t, this.instancePrototype = n, this.rawDestructor = r, this.baseClass = i, this.getActualType = a, this.upcast = o, this.downcast = s, this.pureVirtualFunctions = []; } var rt = (e, t, n) => { for (; t !== n;) t.upcast || B(`Expected null or instance of ${n.name}, got an instance of ${t.name}`), e = t.upcast(e), t = t.baseClass; return e; }, it = (e) => { if (e === null) return "null"; var t = typeof e; return t === "object" || t === "array" || t === "function" ? e.toString() : "" + e; }; function at(e, t) { if (t === null) return this.isReference && B(`null is not a valid ${this.name}`), 0; t.$$ || B(`Cannot pass "${it(t)}" as a ${this.name}`), t.$$.ptr || B(`Cannot pass deleted object as a pointer of type ${this.name}`); var n = t.$$.ptrType.registeredClass; return rt(t.$$.ptr, n, this.registeredClass); } function ot(e, t) { var n; if (t === null) return this.isReference && B(`null is not a valid ${this.name}`), this.isSmartPointer ? (n = this.rawConstructor(), e !== null && e.push(this.rawDestructor, n), n) : 0; (!t || !t.$$) && B(`Cannot pass "${it(t)}" as a ${this.name}`), t.$$.ptr || B(`Cannot pass deleted object as a pointer of type ${this.name}`), !this.isConst && t.$$.ptrType.isConst && B(`Cannot convert argument of type ${t.$$.smartPtrType ? t.$$.smartPtrType.name : t.$$.ptrType.name} to parameter type ${this.name}`); var r = t.$$.ptrType.registeredClass; if (n = rt(t.$$.ptr, r, this.registeredClass), this.isSmartPointer) switch (t.$$.smartPtr === void 0 && B("Passing raw pointer to smart pointer is illegal"), this.sharingPolicy) { case 0: t.$$.smartPtrType === this ? n = t.$$.smartPtr : B(`Cannot convert argument of type ${t.$$.smartPtrType ? t.$$.smartPtrType.name : t.$$.ptrType.name} to parameter type ${this.name}`); break; case 1: n = t.$$.smartPtr; break; case 2: if (t.$$.smartPtrType === this) n = t.$$.smartPtr; else { var i = t.clone(); n = this.rawShare(n, Y.toHandle(() => i.delete())), e !== null && e.push(this.rawDestructor, n); } break; default: B("Unsupported sharing policy"); } return n; } function st(e, t) { if (t === null) return this.isReference && B(`null is not a valid ${this.name}`), 0; t.$$ || B(`Cannot pass "${it(t)}" as a ${this.name}`), t.$$.ptr || B(`Cannot pass deleted object as a pointer of type ${this.name}`), t.$$.ptrType.isConst && B(`Cannot convert argument of type ${t.$$.ptrType.name} to parameter type ${this.name}`); var n = t.$$.ptrType.registeredClass; return rt(t.$$.ptr, n, this.registeredClass); } var ct = (e, t, n) => { if (t === n) return e; if (n.baseClass === void 0) return null; var r = ct(e, t, n.baseClass); return r === null ? null : n.downcast(r); }, lt = {}, ut = (e, t) => { for (t === void 0 && B("ptr should not be undefined"); e.baseClass;) t = e.upcast(t), e = e.baseClass; return t; }, dt = (e, t) => (t = ut(e, t), lt[t]), ft = (e, t) => ((!t.ptrType || !t.ptr) && I("makeClassHandle requires ptr and ptrType"), !!t.smartPtrType != !!t.smartPtr && I("Both smartPtrType and smartPtr must be specified"), t.count = { value: 1 }, H(Object.create(e, { $$: { value: t, writable: !0 } }))); function pt(e) { var t = this.getPointee(e); if (!t) return this.destructor(e), null; var n = dt(this.registeredClass, t); if (n !== void 0) { if (n.$$.count.value === 0) return n.$$.ptr = t, n.$$.smartPtr = e, n.clone(); var r = n.clone(); return this.destructor(e), r; } function i() { return this.isSmartPointer ? ft(this.registeredClass.instancePrototype, { ptrType: this.pointeeType, ptr: t, smartPtrType: this, smartPtr: e }) : ft(this.registeredClass.instancePrototype, { ptrType: this, ptr: e }); } var a = Xe[this.registeredClass.getActualType(t)]; if (!a) return i.call(this); var o = this.isConst ? a.constPointerType : a.pointerType, s = ct(t, this.registeredClass, o.registeredClass); return s === null ? i.call(this) : this.isSmartPointer ? ft(o.registeredClass.instancePrototype, { ptrType: o, ptr: s, smartPtrType: this, smartPtr: e }) : ft(o.registeredClass.instancePrototype, { ptrType: o, ptr: s }); } var mt = () => { Object.assign(ht.prototype, { getPointee(e) { return this.rawGetPointee && (e = this.rawGetPointee(e)), e; }, destructor(e) { var t; (t = this.rawDestructor) == null || t.call(this, e); }, readValueFromPointer: M, fromWireType: pt }); }; function ht(e, t, n, r, i, a, o, s, c, l, u) { this.name = e, this.registeredClass = t, this.isReference = n, this.isConst = r, this.isSmartPointer = i, this.pointeeType = a, this.sharingPolicy = o, this.rawGetPointee = s, this.rawConstructor = c, this.rawShare = l, this.rawDestructor = u, !i && t.baseClass === void 0 ? r ? (this.toWireType = at, this.destructorFunction = null) : (this.toWireType = st, this.destructorFunction = null) : this.toWireType = ot; } var gt = (e, t, n) => { i.hasOwnProperty(e) || I("Replacing nonexistent public symbol"), i[e].overloadTable !== void 0 && n !== void 0 ? i[e].overloadTable[n] = t : (i[e] = t, i[e].argCount = n); }, G = {}, _t = (e, t, n) => { e = e.replace(/p/g, "i"); var r = G[e]; return r(t, ...n); }, vt = [], K = (e) => { var t = vt[e]; return t || (vt[e] = t = Zn.get(e)), t; }, yt = function(e, t) { let n = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : []; if (arguments.length > 3 && arguments[3] !== void 0 && arguments[3], e.includes("j")) return _t(e, t, n); var r = K(t)(...n); function i(e) { return e; } return i(r); }, bt = function(e, t) { let n = arguments.length > 2 && arguments[2] !== void 0 ? arguments[2] : !1; return function() { return yt(e, t, [...arguments], n); }; }, q = function(e, t) { arguments.length > 2 && arguments[2] !== void 0 && arguments[2], e = R(e); function n() { return e.includes("j") ? bt(e, t) : K(t); } var r = n(); return typeof r != "function" && B(`unknown function pointer with signature ${e}: ${t}`), r; }; class xt extends Error {} var St = (e) => { var t = Rn(e), n = R(t); return Q(t), n; }, Ct = (e, t) => { var n = [], r = {}; function i(e) { if (!r[e] && !P[e]) { if (F[e]) { F[e].forEach(i); return; } n.push(e), r[e] = !0; } } throw t.forEach(i), new xt(`${e}: ` + n.map(St).join([", "])); }, wt = (e, t, n, r, i, a, o, s, c, l, u, d, f) => { u = R(u), a = q(i, a), s && (s = q(o, s)), l && (l = q(c, l)), f = q(d, f); var p = tt(u); Qe(p, function() { Ct(`Cannot construct ${u} due to unbound types`, [r]); }), L([ e, t, n ], r ? [r] : [], (t) => { t = t[0]; var n, i; r ? (n = t.registeredClass, i = n.instancePrototype) : i = W.prototype; var o = Ye(u, function() { if (Object.getPrototypeOf(this) !== c) throw new z(`Use 'new' to construct ${u}`); if (d.constructor_body === void 0) throw new z(`${u} has no accessible constructor`); var e = [...arguments], t = d.constructor_body[e.length]; if (t === void 0) throw new z(`Tried to invoke ctor of ${u} with invalid number of parameters (${e.length}) - expected (${Object.keys(d.constructor_body).toString()}) parameters instead!`); return t.apply(this, e); }), c = Object.create(i, { constructor: { value: o } }); o.prototype = c; var d = new nt(u, o, c, f, n, a, s, l); if (d.baseClass) { var m; (m = d.baseClass).__derivedClasses != null || (m.__derivedClasses = []), d.baseClass.__derivedClasses.push(d); } var h = new ht(u, d, !0, !1, !1), g = new ht(u + "*", d, !1, !1, !1), _ = new ht(u + " const*", d, !1, !0, !1); return Xe[e] = { pointerType: g, constPointerType: _ }, gt(p, o), [ h, g, _ ]; }); }, Tt = (e, t) => { for (var n = [], r = 0; r < e; r++) n.push(w[t + r * 4 >> 2]); return n; }; function Et(e) { for (var t = 1; t < e.length; ++t) if (e[t] !== null && e[t].destructorFunction === void 0) return !0; return !1; } function Dt(e, t, n, r, i, a) { var o = t.length; o < 2 && B("argTypes array size mismatch! Must at least get return value and 'this' types!"); var s = t[1] !== null && n !== null, c = Et(t), l = !t[0].isVoid, u = o - 2, d = Array(u), f = [], p = []; return Ye(e, function() { p.length = 0; var e; f.length = s ? 2 : 1, f[0] = i, s && (e = t[1].toWireType(p, this), f[1] = e); for (var n = 0; n < u; ++n) d[n] = t[n + 2].toWireType(p, n < 0 || arguments.length <= n ? void 0 : arguments[n]), f.push(d[n]); var a = r(...f); function o(n) { if (c) Pe(p); else for (var r = s ? 1 : 2; r < t.length; r++) { var i = r === 1 ? e : d[r - 2]; t[r].destructorFunction !== null && t[r].destructorFunction(i); } if (l) return t[0].fromWireType(n); } return o(a); }); } var Ot = (e, t, n, r, i, a) => { var o = Tt(t, n); i = q(r, i), L([], [e], (e) => { e = e[0]; var n = `constructor ${e.name}`; if (e.registeredClass.constructor_body === void 0 && (e.registeredClass.constructor_body = []), e.registeredClass.constructor_body[t - 1] !== void 0) throw new z(`Cannot register multiple constructors with identical number of parameters (${t - 1}) for class '${e.name}'! 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(i.argCount = n - 2, i.className = e.name, l[t] = i) : (Ze(l, t, r), l[t].overloadTable[n - 2] = i), L([], u, (i) => { var s = Dt(r, i, e, a, o, c); return l[t].overloadTable === void 0 ? 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try { return K(e)(t, n, r, i, a); } catch (e) { if (E(o), e !== e + 0) throw e; $(1, 0); } } function gr(e, t, n, r, i, a) { var o = D(); try { K(e)(t, n, r, i, a); } catch (e) { if (E(o), e !== e + 0) throw e; $(1, 0); } } function _r(e, t, n, r, i, a, o) { var s = D(); try { return K(e)(t, n, r, i, a, o); } catch (e) { if (E(s), e !== e + 0) throw e; $(1, 0); } } function vr(e, t, n, r, i, a, o, s) { var c = D(); try { return K(e)(t, n, r, i, a, o, s); } catch (e) { if (E(c), e !== e + 0) throw e; $(1, 0); } } function yr(e, t, n, r, i, a, o, s, c) { var l = D(); try { return K(e)(t, n, r, i, a, o, s, c); } catch (e) { if (E(l), e !== e + 0) throw e; $(1, 0); } } function br(e) { var t = D(); try { return K(e)(); } catch (e) { if (E(t), e !== e + 0) throw e; $(1, 0); } } function xr(e, t, n) { var r = D(); try { return K(e)(t, n); } catch (e) { if (E(r), e !== e + 0) throw e; $(1, 0); } } function Sr(e, t, n, r, i, a, o) { var s = D(); try { return K(e)(t, n, r, i, a, o); } catch (e) { if (E(s), e !== e + 0) throw e; $(1, 0); } } function Cr(e, t, n, r) { var i = D(); try { return K(e)(t, n, r); } catch (e) { if (E(i), e !== e + 0) throw e; $(1, 0); } } function wr(e, t, n, r) { var i = D(); try { return K(e)(t, n, r); } catch (e) { if (E(i), e !== e + 0) throw e; $(1, 0); } } function Tr(e, t, n, r, i, a, o, s, c) { var l = D(); try { K(e)(t, n, r, i, a, o, s, c); } catch (e) { if (E(l), e !== e + 0) throw e; $(1, 0); } } function Er(e, t, n, r, i, a, o, s) { var c = D(); try { K(e)(t, n, r, i, a, o, s); } catch (e) { if (E(c), e !== e + 0) throw e; $(1, 0); } } function Dr(e, t, n, r, i, a, o, s, c, l) { var u = D(); try { K(e)(t, n, r, i, a, o, s, c, l); } catch (e) { if (E(u), e !== e + 0) throw e; $(1, 0); } } function Or(e, t, n) { var r = D(); try { return K(e)(t, n); } catch (e) { if (E(r), e !== e + 0) throw e; $(1, 0); } } function kr(e, t, n, r, i) { var a = D(); try { return K(e)(t, n, r, i); } catch (e) { if (E(a), e !== e + 0) throw e; $(1, 0); } } function Ar(e, t, n, r, i, a) { var o = D(); try { return K(e)(t, n, r, i, a); } catch (e) { if (E(o), e !== e + 0) throw e; $(1, 0); } } function jr(e, t, n, r, i, a, o) { var s = D(); try { K(e)(t, n, r, i, a, o); } catch (e) { if (E(s), e !== e + 0) throw e; $(1, 0); } } function Mr(e, t, n, r) { var i = D(); try { return K(e)(t, n, r); } catch (e) { if (E(i), e !== e + 0) throw e; $(1, 0); } } function Nr(e, t, n, r, i, a, o, s, c, l, u, d) { var f = D(); try { return K(e)(t, n, r, i, a, o, s, c, l, u, d); } catch (e) { if (E(f), e !== e + 0) throw e; $(1, 0); } } function Pr(e, t, n, r, i, a, o, s, c, l, u, d, f, p, m, h) { var g = D(); try { K(e)(t, n, r, i, a, o, s, c, l, u, d, f, p, m, h); } catch (e) { if (E(g), e !== e + 0) throw e; $(1, 0); } } function Fr(e, t, n, r, i, a, o, s, c, l, u, d, f, p, m, h, g, _, v, ee) { var te = D(); try { qn(e, t, n, r, i, a, o, s, c, l, u, d, f, p, m, h, g, _, v, ee); } catch (e) { if (E(te), e !== e + 0) throw e; $(1, 0); } } function Ir(e, t, n, r, i, a, o) { var s = D(); try { return Jn(e, t, n, r, i, a, o); } catch (e) { if (E(s), e !== e + 0) throw e; $(1, 0); } } function Lr(e, t, n, r, i) { var a = D(); try { return Yn(e, t, n, r, i); } catch (e) { if (E(a), e !== e + 0) throw e; $(1, 0); } } function Rr() { re(); function e() { var e, t; i.calledRun = !0, !_ && (ie(), (e = v) == null || e(i), (t = i.onRuntimeInitialized) == null || t.call(i), ae()); } i.setStatus ? (i.setStatus("Running..."), setTimeout(() => { setTimeout(() => i.setStatus(""), 1), e(); }, 1)) : e(); } var zr = await pe(); return Rr(), t = te ? i : new Promise((e, t) => { v = e, ee = t; }), t; } //#endregion //#region src/reader/index.ts function S(e) { return m(x, e); } function me() { return y(x); } function he(e) { return S({ overrides: e, equalityFn: Object.is, fireImmediately: !0 }); } function C(e) { S({ overrides: e, equalityFn: Object.is, fireImmediately: !1 }); } async function w(e, t) { return le(x, e, t); } async function T(e, t) { return w(e, t); } async function ge(e, t) { return w(e, t); } var _e = "319c39440f2237a31a4c41d9e72fa053f8e35e618df5aa4eac1264db0f3da008"; //#endregion export { b as BARCODE_FORMATS, h as BARCODE_HRI_LABELS, pe as BARCODE_META_FORMATS, d as BARCODE_SYMBOLOGIES, p as BINARIZERS, ee as CHARACTER_SETS, se as CONTENT_TYPES, t as CREATABLE_BARCODE_FORMATS, g as EAN_ADD_ON_SYMBOLS, fe as GS1_BARCODE_FORMATS, f as INDUSTRIAL_BARCODE_FORMATS, r as LINEAR_BARCODE_FORMATS, n as MATRIX_BARCODE_FORMATS, l as READABLE_BARCODE_FORMATS, re as RETAIL_BARCODE_FORMATS, ie as TEXT_MODES, ce as ZXING_CPP_COMMIT, _e as ZXING_WASM_SHA256, te as ZXING_WASM_VERSION, e as barcodeFormats, de as binarizers, v as characterSets, ae as contentTypes, oe as defaultReaderOptions, _ as eanAddOnSymbols, ne as encodeFormat, s as encodeFormats, c as formatToLabel, u as formatToSymbology, he as getZXingModule, i as linearBarcodeFormats, a as matrixBarcodeFormats, S as prepareZXingModule, me as purgeZXingModule, w as readBarcodes, ge as readBarcodesFromImageData, T as readBarcodesFromImageFile, C as setZXingModuleOverrides, o as symbologyToFormats, ue as textModes };