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}, mt, kr = (t) => {
mt = t, pt.length && mt && mt(Yt);
}, Hr = () => {
s.getInheritedInstanceCount = Rr, s.getLiveInheritedInstances = Wr, s.flushPendingDeletes = Yt, s.setDelayFunction = kr;
}, vt = {}, Br = (t, e) => {
for (e === void 0 && C("ptr should not be undefined"); t.baseClass; )
e = t.upcast(e), t = t.baseClass;
return e;
}, Ur = (t, e) => (e = Br(t, e), vt[e]), At = (t, e) => {
(!e.ptrType || !e.ptr) && Et("makeClassHandle requires ptr and ptrType");
var r = !!e.smartPtrType, n = !!e.smartPtr;
return r !== n && Et("Both smartPtrType and smartPtr must be specified"), e.count = {
value: 1
}, yt(Object.create(t, {
$$: {
value: e,
writable: !0
}
}));
};
function Vr(t) {
var e = this.getPointee(t);
if (!e)
return this.destructor(t), null;
var r = Ur(this.registeredClass, e);
if (r !== void 0) {
if (r.$$.count.value === 0)
return r.$$.ptr = e, r.$$.smartPtr = t, r.clone();
var n = r.clone();
return this.destructor(t), n;
}
function a() {
return this.isSmartPointer ? At(this.registeredClass.instancePrototype, {
ptrType: this.pointeeType,
ptr: e,
smartPtrType: this,
smartPtr: t
}) : At(this.registeredClass.instancePrototype, {
ptrType: this,
ptr: t
});
}
var i = this.registeredClass.getActualType(e), u = we[i];
if (!u)
return a.call(this);
var c;
this.isConst ? c = u.constPointerType : c = u.pointerType;
var l = ge(e, this.registeredClass, c.registeredClass);
return l === null ? a.call(this) : this.isSmartPointer ? At(c.registeredClass.instancePrototype, {
ptrType: c,
ptr: l,
smartPtrType: this,
smartPtr: t
}) : At(c.registeredClass.instancePrototype, {
ptrType: c,
ptr: l
});
}
var yt = (t) => typeof FinalizationRegistry > "u" ? (yt = (e) => e, t) : (Lt = new FinalizationRegistry((e) => {
ye(e.$$);
}), yt = (e) => {
var r = e.$$, n = !!r.smartPtr;
if (n) {
var a = {
$$: r
};
Lt.register(e, a, e);
}
return e;
}, ve = (e) => Lt.unregister(e), yt(t)), Lr = () => {
Object.assign(Ot.prototype, {
isAliasOf(t) {
if (!(this instanceof Ot) || !(t instanceof Ot))
return !1;
var e = this.$$.ptrType.registeredClass, r = this.$$.ptr;
t.$$ = t.$$;
for (var n = t.$$.ptrType.registeredClass, a = t.$$.ptr; e.baseClass; )
r = e.upcast(r), e = e.baseClass;
for (; n.baseClass; )
a = n.upcast(a), n = n.baseClass;
return e === n && r === a;
},
clone() {
if (this.$$.ptr || Vt(this), this.$$.preservePointerOnDelete)
return this.$$.count.value += 1, this;
var t = yt(Object.create(Object.getPrototypeOf(this), {
$$: {
value: jr(this.$$)
}
}));
return t.$$.count.value += 1, t.$$.deleteScheduled = !1, t;
},
delete() {
this.$$.ptr || Vt(this), this.$$.deleteScheduled && !this.$$.preservePointerOnDelete && C("Object already scheduled for deletion"), ve(this), ye(this.$$), this.$$.preservePointerOnDelete || (this.$$.smartPtr = void 0, this.$$.ptr = void 0);
},
isDeleted() {
return !this.$$.ptr;
},
deleteLater() {
return this.$$.ptr || Vt(this), this.$$.deleteScheduled && !this.$$.preservePointerOnDelete && C("Object already scheduled for deletion"), pt.push(this), pt.length === 1 && mt && mt(Yt), this.$$.deleteScheduled = !0, this;
}
});
};
function Ot() {
}
var gt = (t, e) => Object.defineProperty(e, "name", {
value: t
}), $e = (t, e, r) => {
if (t[e].overloadTable === void 0) {
var n = t[e];
t[e] = function() {
return t[e].overloadTable.hasOwnProperty(arguments.length) || C(`Function '${r}' called with an invalid number of arguments (${arguments.length}) - expects one of (${t[e].overloadTable})!`), t[e].overloadTable[arguments.length].apply(this, arguments);
}, t[e].overloadTable = [], t[e].overloadTable[n.argCount] = n;
}
}, zt = (t, e, r) => {
s.hasOwnProperty(t) ? ((r === void 0 || s[t].overloadTable !== void 0 && s[t].overloadTable[r] !== void 0) && C(`Cannot register public name '${t}' twice`), $e(s, t, t), s.hasOwnProperty(r) && C(`Cannot register multiple overloads of a function with the same number of arguments (${r})!`), s[t].overloadTable[r] = e) : (s[t] = e, r !== void 0 && (s[t].numArguments = r));
}, Yr = 48, zr = 57, Nr = (t) => {
if (t === void 0)
return "_unknown";
t = t.replace(/[^a-zA-Z0-9_]/g, "$");
var e = t.charCodeAt(0);
return e >= Yr && e <= zr ? `_${t}` : t;
};
function Gr(t, e, r, n, a, i, u, c) {
this.name = t, this.constructor = e, this.instancePrototype = r, this.rawDestructor = n, this.baseClass = a, this.getActualType = i, this.upcast = u, this.downcast = c, this.pureVirtualFunctions = [];
}
var Nt = (t, e, r) => {
for (; e !== r; )
e.upcast || C(`Expected null or instance of ${r.name}, got an instance of ${e.name}`), t = e.upcast(t), e = e.baseClass;
return t;
};
function Xr(t, e) {
if (e === null)
return this.isReference && C(`null is not a valid ${this.name}`), 0;
e.$$ || C(`Cannot pass "${Zt(e)}" as a ${this.name}`), e.$$.ptr || C(`Cannot pass deleted object as a pointer of type ${this.name}`);
var r = e.$$.ptrType.registeredClass, n = Nt(e.$$.ptr, r, this.registeredClass);
return n;
}
function qr(t, e) {
var r;
if (e === null)
return this.isReference && C(`null is not a valid ${this.name}`), this.isSmartPointer ? (r = this.rawConstructor(), t !== null && t.push(this.rawDestructor, r), r) : 0;
(!e || !e.$$) && C(`Cannot pass "${Zt(e)}" as a ${this.name}`), e.$$.ptr || C(`Cannot pass deleted object as a pointer of type ${this.name}`), !this.isConst && e.$$.ptrType.isConst && C(`Cannot convert argument of type ${e.$$.smartPtrType ? e.$$.smartPtrType.name : e.$$.ptrType.name} to parameter type ${this.name}`);
var n = e.$$.ptrType.registeredClass;
if (r = Nt(e.$$.ptr, n, this.registeredClass), this.isSmartPointer)
switch (e.$$.smartPtr === void 0 && C("Passing raw pointer to smart pointer is illegal"), this.sharingPolicy) {
case 0:
e.$$.smartPtrType === this ? r = e.$$.smartPtr : C(`Cannot convert argument of type ${e.$$.smartPtrType ? e.$$.smartPtrType.name : e.$$.ptrType.name} to parameter type ${this.name}`);
break;
case 1:
r = e.$$.smartPtr;
break;
case 2:
if (e.$$.smartPtrType === this)
r = e.$$.smartPtr;
else {
var a = e.clone();
r = this.rawShare(r, J.toHandle(() => a.delete())), t !== null && t.push(this.rawDestructor, r);
}
break;
default:
C("Unsupporting sharing policy");
}
return r;
}
function Qr(t, e) {
if (e === null)
return this.isReference && C(`null is not a valid ${this.name}`), 0;
e.$$ || C(`Cannot pass "${Zt(e)}" as a ${this.name}`), e.$$.ptr || C(`Cannot pass deleted object as a pointer of type ${this.name}`), e.$$.ptrType.isConst && C(`Cannot convert argument of type ${e.$$.ptrType.name} to parameter type ${this.name}`);
var r = e.$$.ptrType.registeredClass, n = Nt(e.$$.ptr, r, this.registeredClass);
return n;
}
function be(t) {
return this.fromWireType(T[t >> 2]);
}
var Zr = () => {
Object.assign(Dt.prototype, {
getPointee(t) {
return this.rawGetPointee && (t = this.rawGetPointee(t)), t;
},
destructor(t) {
var e;
(e = this.rawDestructor) === null || e === void 0 || e.call(this, t);
},
argPackAdvance: q,
readValueFromPointer: be,
deleteObject(t) {
t !== null && t.delete();
},
fromWireType: Vr
});
};
function Dt(t, e, r, n, a, i, u, c, l, f, p) {
this.name = t, this.registeredClass = e, this.isReference = r, this.isConst = n, this.isSmartPointer = a, this.pointeeType = i, this.sharingPolicy = u, this.rawGetPointee = c, this.rawConstructor = l, this.rawShare = f, this.rawDestructor = p, !a && e.baseClass === void 0 ? n ? (this.toWireType = Xr, this.destructorFunction = null) : (this.toWireType = Qr, this.destructorFunction = null) : this.toWireType = qr;
}
var Ce = (t, e, r) => {
s.hasOwnProperty(t) || Et("Replacing nonexistant public symbol"), s[t].overloadTable !== void 0 && r !== void 0 ? s[t].overloadTable[r] = e : (s[t] = e, s[t].argCount = r);
}, Jr = (t, e, r) => {
var n = s["dynCall_" + t];
return r && r.length ? n.apply(null, [e].concat(r)) : n.call(null, e);
}, xt = [], _e, A = (t) => {
var e = xt[t];
return e || (t >= xt.length && (xt.length = t + 1), xt[t] = e = _e.get(t)), e;
}, Kr = (t, e, r) => {
if (t.includes("j"))
return Jr(t, e, r);
var n = A(e).apply(null, r);
return n;
}, tn = (t, e) => {
var r = [];
return function() {
return r.length = 0, Object.assign(r, arguments), Kr(t, e, r);
};
}, N = (t, e) => {
t = I(t);
function r() {
return t.includes("j") ? tn(t, e) : A(e);
}
var n = r();
return typeof n != "function" && C(`unknown function pointer with signature ${t}: ${e}`), n;
}, en = (t, e) => {
var r = gt(e, function(n) {
this.name = e, this.message = n;
var a = new Error(n).stack;
a !== void 0 && (this.stack = this.toString() + `
` + a.replace(/^Error(:[^\n]*)?\n/, ""));
});
return r.prototype = Object.create(t.prototype), r.prototype.constructor = r, r.prototype.toString = function() {
return this.message === void 0 ? this.name : `${this.name}: ${this.message}`;
}, r;
}, Te, Pe = (t) => {
var e = Ie(t), r = I(e);
return K(e), r;
}, Ft = (t, e) => {
var r = [], n = {};
function a(i) {
if (!n[i] && !rt[i]) {
if (Pt[i]) {
Pt[i].forEach(a);
return;
}
r.push(i), n[i] = !0;
}
}
throw e.forEach(a), new Te(`${t}: ` + r.map(Pe).join([", "]));
}, rn = (t, e, r, n, a, i, u, c, l, f, p, v, y) => {
p = I(p), i = N(a, i), c && (c = N(u, c)), f && (f = N(l, f)), y = N(v, y);
var w = Nr(p);
zt(w, function() {
Ft(`Cannot construct ${p} due to unbound types`, [n]);
}), nt([t, e, r], n ? [n] : [], function(E) {
E = E[0];
var x, _;
n ? (x = E.registeredClass, _ = x.instancePrototype) : _ = Ot.prototype;
var R = gt(p, function() {
if (Object.getPrototypeOf(this) !== d)
throw new st("Use 'new' to construct " + p);
if (m.constructor_body === void 0)
throw new st(p + " has no accessible constructor");
var Le = m.constructor_body[arguments.length];
if (Le === void 0)
throw new st(`Tried to invoke ctor of ${p} with invalid number of parameters (${arguments.length}) - expected (${Object.keys(m.constructor_body).toString()}) parameters instead!`);
return Le.apply(this, arguments);
}), d = Object.create(_, {
constructor: {
value: R
}
});
R.prototype = d;
var m = new Gr(p, R, d, y, x, i, c, f);
if (m.baseClass) {
var F, j;
(j = (F = m.baseClass).__derivedClasses) !== null && j !== void 0 || (F.__derivedClasses = []), m.baseClass.__derivedClasses.push(m);
}
var ut = new Dt(p, m, !0, !1, !1), jt = new Dt(p + "*", m, !1, !1, !1), Ve = new Dt(p + " const*", m, !1, !0, !1);
return we[t] = {
pointerType: jt,
constPointerType: Ve
}, Ce(w, R), [ut, jt, Ve];
});
}, Gt = (t, e) => {
for (var r = [], n = 0; n < t; n++)
r.push(T[e + n * 4 >> 2]);
return r;
};
function nn(t) {
for (var e = 1; e < t.length; ++e)
if (t[e] !== null && t[e].destructorFunction === void 0)
return !0;
return !1;
}
function Xt(t, e, r, n, a, i) {
var u = e.length;
u < 2 && C("argTypes array size mismatch! Must at least get return value and 'this' types!");
var c = e[1] !== null && r !== null, l = nn(e), f = e[0].name !== "void", p = u - 2, v = new Array(p), y = [], w = [], E = function() {
arguments.length !== p && C(`function ${t} called with ${arguments.length} arguments, expected ${p}`), w.length = 0;
var x;
y.length = c ? 2 : 1, y[0] = a, c && (x = e[1].toWireType(w, this), y[1] = x);
for (var _ = 0; _ < p; ++_)
v[_] = e[_ + 2].toWireType(w, arguments[_]), y.push(v[_]);
var R = n.apply(null, y);
function d(m) {
if (l)
Bt(w);
else
for (var F = c ? 1 : 2; F < e.length; F++) {
var j = F === 1 ? x : v[F - 2];
e[F].destructorFunction !== null && e[F].destructorFunction(j);
}
if (f)
return e[0].fromWireType(m);
}
return d(R);
};
return gt(t, E);
}
var an = (t, e, r, n, a, i) => {
var u = Gt(e, r);
a = N(n, a), nt([], [t], function(c) {
c = c[0];
var l = `constructor ${c.name}`;
if (c.registeredClass.constructor_body === void 0 && (c.registeredClass.constructor_body = []), c.registeredClass.constructor_body[e - 1] !== void 0)
throw new st(`Cannot register multiple constructors with identical number of parameters (${e - 1}) for class '${c.name}'! Overload resolution is currently only performed using the parameter count, not actual type info!`);
return c.registeredClass.constructor_body[e - 1] = () => {
Ft(`Cannot construct ${c.name} due to unbound types`, u);
}, nt([], u, (f) => (f.splice(1, 0, null), c.registeredClass.constructor_body[e - 1] = Xt(l, f, null, a, i), [])), [];
});
}, Ee = (t) => {
t = t.trim();
const e = t.indexOf("(");
return e !== -1 ? t.substr(0, e) : t;
}, on = (t, e, r, n, a, i, u, c, l) => {
var f = Gt(r, n);
e = I(e), e = Ee(e), i = N(a, i), nt([], [t], function(p) {
p = p[0];
var v = `${p.name}.${e}`;
e.startsWith("@@") && (e = Symbol[e.substring(2)]), c && p.registeredClass.pureVirtualFunctions.push(e);
function y() {
Ft(`Cannot call ${v} due to unbound types`, f);
}
var w = p.registeredClass.instancePrototype, E = w[e];
return E === void 0 || E.overloadTable === void 0 && E.className !== p.name && E.argCount === r - 2 ? (y.argCount = r - 2, y.className = p.name, w[e] = y) : ($e(w, e, v), w[e].overloadTable[r - 2] = y), nt([], f, function(x) {
var _ = Xt(v, x, p, i, u);
return w[e].overloadTable === void 0 ? (_.argCount = r - 2, w[e] = _) : w[e].overloadTable[r - 2] = _, [];
}), [];
});
};
function sn() {
Object.assign(Ae.prototype, {
get(t) {
return this.allocated[t];
},
has(t) {
return this.allocated[t] !== void 0;
},
allocate(t) {
var e = this.freelist.pop() || this.allocated.length;
return this.allocated[e] = t, e;
},
free(t) {
this.allocated[t] = void 0, this.freelist.push(t);
}
});
}
function Ae() {
this.allocated = [void 0], this.freelist = [];
}
var z = new Ae(), qt = (t) => {
t >= z.reserved && --z.get(t).refcount === 0 && z.free(t);
}, un = () => {
for (var t = 0, e = z.reserved; e < z.allocated.length; ++e)
z.allocated[e] !== void 0 && ++t;
return t;
}, cn = () => {
z.allocated.push({
value: void 0
}, {
value: null
}, {
value: !0
}, {
value: !1
}), z.reserved = z.allocated.length, s.count_emval_handles = un;
}, J = {
toValue: (t) => (t || C("Cannot use deleted val. handle = " + t), z.get(t).value),
toHandle: (t) => {
switch (t) {
case void 0:
return 1;
case null:
return 2;
case !0:
return 3;
case !1:
return 4;
default:
return z.allocate({
refcount: 1,
value: t
});
}
}
}, ln = (t, e) => {
e = I(e), X(t, {
name: e,
fromWireType: (r) => {
var n = J.toValue(r);
return qt(r), n;
},
toWireType: (r, n) => J.toHandle(n),
argPackAdvance: q,
readValueFromPointer: Ut,
destructorFunction: null
});
}, dn = (t, e, r) => {
switch (e) {
case 1:
return r ? function(n) {
return this.fromWireType(V[n >> 0]);
} : function(n) {
return this.fromWireType(W[n >> 0]);
};
case 2:
return r ? function(n) {
return this.fromWireType(at[n >> 1]);
} : function(n) {
return this.fromWireType(ft[n >> 1]);
};
case 4:
return r ? function(n) {
return this.fromWireType(k[n >> 2]);
} : function(n) {
return this.fromWireType(T[n >> 2]);
};
default:
throw new TypeError(`invalid integer width (${e}): ${t}`);
}
}, fn = (t, e, r, n) => {
e = I(e);
function a() {
}
a.values = {}, X(t, {
name: e,
constructor: a,
fromWireType: function(i) {
return this.constructor.values[i];
},
toWireType: (i, u) => u.value,
argPackAdvance: q,
readValueFromPointer: dn(e, r, n),
destructorFunction: null
}), zt(e, a);
}, Qt = (t, e) => {
var r = rt[t];
return r === void 0 && C(e + " has unknown type " + Pe(t)), r;
}, hn = (t, e, r) => {
var n = Qt(t, "enum");
e = I(e);
var a = n.constructor, i = Object.create(n.constructor.prototype, {
value: {
value: r
},
constructor: {
value: gt(`${n.name}_${e}`, function() {
})
}
});
a.values[r] = i, a[e] = i;
}, Zt = (t) => {
if (t === null)
return "null";
var e = typeof t;
return e === "object" || e === "array" || e === "function" ? t.toString() : "" + t;
}, pn = (t, e) => {
switch (e) {
case 4:
return function(r) {
return this.fromWireType(oe[r >> 2]);
};
case 8:
return function(r) {
return this.fromWireType(ie[r >> 3]);
};
default:
throw new TypeError(`invalid float width (${e}): ${t}`);
}
}, mn = (t, e, r) => {
e = I(e), X(t, {
name: e,
fromWireType: (n) => n,
toWireType: (n, a) => a,
argPackAdvance: q,
readValueFromPointer: pn(e, r),
destructorFunction: null
});
}, vn = (t, e, r, n, a, i, u) => {
var c = Gt(e, r);
t = I(t), t = Ee(t), a = N(n, a), zt(t, function() {
Ft(`Cannot call ${t} due to unbound types`, c);
}, e - 1), nt([], c, function(l) {
var f = [l[0], null].concat(l.slice(1));
return Ce(t, Xt(t, f, null, a, i), e - 1), [];
});
}, yn = (t, e, r) => {
switch (e) {
case 1:
return r ? (n) => V[n >> 0] : (n) => W[n >> 0];
case 2:
return r ? (n) => at[n >> 1] : (n) => ft[n >> 1];
case 4:
return r ? (n) => k[n >> 2] : (n) => T[n >> 2];
default:
throw new TypeError(`invalid integer width (${e}): ${t}`);
}
}, gn = (t, e, r, n, a) => {
e = I(e);
var i = (p) => p;
if (n === 0) {
var u = 32 - 8 * r;
i = (p) => p << u >>> u;
}
var c = e.includes("unsigned"), l = (p, v) => {
}, f;
c ? f = function(p, v) {
return l(v, this.name), v >>> 0;
} : f = function(p, v) {
return l(v, this.name), v;
}, X(t, {
name: e,
fromWireType: i,
toWireType: f,
argPackAdvance: q,
readValueFromPointer: yn(e, r, n !== 0),
destructorFunction: null
});
}, wn = (t, e, r) => {
var n = [Int8Array, Uint8Array, Int16Array, Uint16Array, Int32Array, Uint32Array, Float32Array, Float64Array], a = n[e];
function i(u) {
var c = T[u >> 2], l = T[u + 4 >> 2];
return new a(V.buffer, l, c);
}
r = I(r), X(t, {
name: r,
fromWireType: i,
argPackAdvance: q,
readValueFromPointer: i
}, {
ignoreDuplicateRegistrations: !0
});
}, Oe = (t, e, r, n) => {
if (!(n > 0))
return 0;
for (var a = r, i = r + n - 1, u = 0; u < t.length; ++u) {
var c = t.charCodeAt(u);
if (c >= 55296 && c <= 57343) {
var l = t.charCodeAt(++u);
c = 65536 + ((c & 1023) << 10) | l & 1023;
}
if (c <= 127) {
if (r >= i)
break;
e[r++] = c;
} else if (c <= 2047) {
if (r + 1 >= i)
break;
e[r++] = 192 | c >> 6, e[r++] = 128 | c & 63;
} else if (c <= 65535) {
if (r + 2 >= i)
break;
e[r++] = 224 | c >> 12, e[r++] = 128 | c >> 6 & 63, e[r++] = 128 | c & 63;
} else {
if (r + 3 >= i)
break;
e[r++] = 240 | c >> 18, e[r++] = 128 | c >> 12 & 63, e[r++] = 128 | c >> 6 & 63, e[r++] = 128 | c & 63;
}
}
return e[r] = 0, r - a;
}, $n = (t, e, r) => Oe(t, W, e, r), De = (t) => {
for (var e = 0, r = 0; r < t.length; ++r) {
var n = t.charCodeAt(r);
n <= 127 ? e++ : n <= 2047 ? e += 2 : n >= 55296 && n <= 57343 ? (e += 4, ++r) : e += 3;
}
return e;
}, xe = typeof TextDecoder < "u" ? new TextDecoder("utf8") : void 0, bn = (t, e, r) => {
for (var n = e + r, a = e; t[a] && !(a >= n); )
++a;
if (a - e > 16 && t.buffer && xe)
return xe.decode(t.subarray(e, a));
for (var i = ""; e < a; ) {
var u = t[e++];
if (!(u & 128)) {
i += String.fromCharCode(u);
continue;
}
var c = t[e++] & 63;
if ((u & 224) == 192) {
i += String.fromCharCode((u & 31) << 6 | c);
continue;
}
var l = t[e++] & 63;
if ((u & 240) == 224 ? u = (u & 15) << 12 | c << 6 | l : u = (u & 7) << 18 | c << 12 | l << 6 | t[e++] & 63, u < 65536)
i += String.fromCharCode(u);
else {
var f = u - 65536;
i += String.fromCharCode(55296 | f >> 10, 56320 | f & 1023);
}
}
return i;
}, Jt = (t, e) => t ? bn(W, t, e) : "", Cn = (t, e) => {
e = I(e);
var r = e === "std::string";
X(t, {
name: e,
fromWireType(n) {
var a = T[n >> 2], i = n + 4, u;
if (r)
for (var c = i, l = 0; l <= a; ++l) {
var f = i + l;
if (l == a || W[f] == 0) {
var p = f - c, v = Jt(c, p);
u === void 0 ? u = v : (u += "\0", u += v), c = f + 1;
}
}
else {
for (var y = new Array(a), l = 0; l < a; ++l)
y[l] = String.fromCharCode(W[i + l]);
u = y.join("");
}
return K(n), u;
},
toWireType(n, a) {
a instanceof ArrayBuffer && (a = new Uint8Array(a));
var i, u = typeof a == "string";
u || a instanceof Uint8Array || a instanceof Uint8ClampedArray || a instanceof Int8Array || C("Cannot pass non-string to std::string"), r && u ? i = De(a) : i = a.length;
var c = ee(4 + i + 1), l = c + 4;
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$n(a, l, i + 1);
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for (var f = 0; f < i; ++f) {
var p = a.charCodeAt(f);
p > 255 && (K(l), C("String has UTF-16 code units that do not fit in 8 bits")), W[l + f] = p;
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else
for (var f = 0; f < i; ++f)
W[l + f] = a[f];
return n !== null && n.push(K, c), c;
},
argPackAdvance: q,
readValueFromPointer: be,
destructorFunction(n) {
K(n);
}
});
}, Fe = typeof TextDecoder < "u" ? new TextDecoder("utf-16le") : void 0, _n = (t, e) => {
for (var r = t, n = r >> 1, a = n + e / 2; !(n >= a) && ft[n]; )
++n;
if (r = n << 1, r - t > 32 && Fe)
return Fe.decode(W.subarray(t, r));
for (var i = "", u = 0; !(u >= e / 2); ++u) {
var c = at[t + u * 2 >> 1];
if (c == 0)
break;
i += String.fromCharCode(c);
}
return i;
}, Tn = (t, e, r) => {
var n;
if ((n = r) !== null && n !== void 0 || (r = 2147483647), r < 2)
return 0;
r -= 2;
for (var a = e, i = r < t.length * 2 ? r / 2 : t.length, u = 0; u < i; ++u) {
var c = t.charCodeAt(u);
at[e >> 1] = c, e += 2;
}
return at[e >> 1] = 0, e - a;
}, Pn = (t) => t.length * 2, En = (t, e) => {
for (var r = 0, n = ""; !(r >= e / 4); ) {
var a = k[t + r * 4 >> 2];
if (a == 0)
break;
if (++r, a >= 65536) {
var i = a - 65536;
n += String.fromCharCode(55296 | i >> 10, 56320 | i & 1023);
} else
n += String.fromCharCode(a);
}
return n;
}, An = (t, e, r) => {
var n;
if ((n = r) !== null && n !== void 0 || (r = 2147483647), r < 4)
return 0;
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var c = t.charCodeAt(u);
if (c >= 55296 && c <= 57343) {
var l = t.charCodeAt(++u);
c = 65536 + ((c & 1023) << 10) | l & 1023;
}
if (k[e >> 2] = c, e += 4, e + 4 > i)
break;
}
return k[e >> 2] = 0, e - a;
}, On = (t) => {
for (var e = 0, r = 0; r < t.length; ++r) {
var n = t.charCodeAt(r);
n >= 55296 && n <= 57343 && ++r, e += 4;
}
return e;
}, Dn = (t, e, r) => {
r = I(r);
var n, a, i, u, c;
e === 2 ? (n = _n, a = Tn, u = Pn, i = () => ft, c = 1) : e === 4 && (n = En, a = An, u = On, i = () => T, c = 2), X(t, {
name: r,
fromWireType: (l) => {
for (var f = T[l >> 2], p = i(), v, y = l + 4, w = 0; w <= f; ++w) {
var E = l + 4 + w * e;
if (w == f || p[E >> c] == 0) {
var x = E - y, _ = n(y, x);
v === void 0 ? v = _ : (v += "\0", v += _), y = E + e;
}
}
return K(l), v;
},
toWireType: (l, f) => {
typeof f != "string" && C(`Cannot pass non-string to C++ string type ${r}`);
var p = u(f), v = ee(4 + p + e);
return T[v >> 2] = p >> c, a(f, v + 4, p + e), l !== null && l.push(K, v), v;
},
argPackAdvance: q,
readValueFromPointer: Ut,
destructorFunction(l) {
K(l);
}
});
}, xn = (t, e, r, n, a, i) => {
Tt[t] = {
name: I(e),
rawConstructor: N(r, n),
rawDestructor: N(a, i),
fields: []
};
}, Fn = (t, e, r, n, a, i, u, c, l, f) => {
Tt[t].fields.push({
fieldName: I(e),
getterReturnType: r,
getter: N(n, a),
getterContext: i,
setterArgumentType: u,
setter: N(c, l),
setterContext: f
});
}, Mn = (t, e) => {
e = I(e), X(t, {
isVoid: !0,
name: e,
argPackAdvance: 0,
fromWireType: () => {
},
toWireType: (r, n) => {
}
});
}, Kt = [], Sn = (t, e, r, n) => (t = Kt[t], e = J.toValue(e), t(null, e, r, n)), jn = {}, In = (t) => {
var e = jn[t];
return e === void 0 ? I(t) : e;
}, Me = () => {
if (typeof globalThis == "object")
return globalThis;
function t(e) {
e.$$$embind_global$$$ = e;
var r = typeof $$$embind_global$$$ == "object" && e.$$$embind_global$$$ == e;
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if (typeof $$$embind_global$$$ == "object" || (typeof global == "object" && t(global) ? $$$embind_global$$$ = global : typeof self == "object" && t(self) && ($$$embind_global$$$ = self), typeof $$$embind_global$$$ == "object"))
return $$$embind_global$$$;
throw Error("unable to get global object.");
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var e = Kt.length;
return Kt.push(t), e;
}, kn = (t, e) => {
for (var r = new Array(t), n = 0; n < t; ++n)
r[n] = Qt(T[e + n * 4 >> 2], "parameter " + n);
return r;
}, Hn = Reflect.construct, Bn = (t, e, r) => {
var n = [], a = t.toWireType(n, r);
return n.length && (T[e >> 2] = J.toHandle(n)), a;
}, Un = (t, e, r) => {
var n = kn(t, e), a = n.shift();
t--;
var i = new Array(t), u = (l, f, p, v) => {
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var x, _;
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return Bn(a, p, E);
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t > 4 && (z.get(t).refcount += 1);
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var e = J.toValue(t);
Bt(e), qt(t);
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t = Qt(t, "_emval_take_value");
var r = t.readValueFromPointer(e);
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bt("");
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var e = tt.buffer, r = (t - e.byteLength + 65535) / 65536;
try {
return tt.grow(r), se(), 1;
} catch {
}
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var e = W.length;
t >>>= 0;
var r = Gn();
if (t > r)
return !1;
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var i = e * (1 + 0.2 / a);
i = Math.min(i, t + 100663296);
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if (c)
return !0;
}
return !1;
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if (!wt.strings) {
var t = (typeof navigator == "object" && navigator.languages && navigator.languages[0] || "C").replace("-", "_") + ".UTF-8", e = {
USER: "web_user",
LOGNAME: "web_user",
PATH: "/",
PWD: "/",
HOME: "/home/web_user",
LANG: t,
_: Qn()
};
for (var r in te)
te[r] === void 0 ? delete e[r] : e[r] = te[r];
var n = [];
for (var r in e)
n.push(`${r}=${e[r]}`);
wt.strings = n;
}
return wt.strings;
}, Zn = (t, e) => {
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V[e++ >> 0] = t.charCodeAt(r);
V[e >> 0] = 0;
}, Jn = (t, e) => {
var r = 0;
return wt().forEach((n, a) => {
var i = e + r;
T[t + a * 4 >> 2] = i, Zn(n, i), r += n.length + 1;
}), 0;
}, Kn = (t, e) => {
var r = wt();
T[t >> 2] = r.length;
var n = 0;
return r.forEach((a) => n += a.length + 1), T[e >> 2] = n, 0;
}, ta = (t) => t, Mt = (t) => t % 4 === 0 && (t % 100 !== 0 || t % 400 === 0), ea = (t, e) => {
for (var r = 0, n = 0; n <= e; r += t[n++])
;
return r;
}, Se = [31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], je = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31], ra = (t, e) => {
for (var r = new Date(t.getTime()); e > 0; ) {
var n = Mt(r.getFullYear()), a = r.getMonth(), i = (n ? Se : je)[a];
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e -= i - r.getDate() + 1, r.setDate(1), a < 11 ? r.setMonth(a + 1) : (r.setMonth(0), r.setFullYear(r.getFullYear() + 1));
else
return r.setDate(r.getDate() + e), r;
}
return r;
};
function na(t, e, r) {
var n = r > 0 ? r : De(t) + 1, a = new Array(n), i = Oe(t, a, 0, a.length);
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var aa = (t, e) => {
V.set(t, e);
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var a = T[n + 40 >> 2], i = {
tm_sec: k[n >> 2],
tm_min: k[n + 4 >> 2],
tm_hour: k[n + 8 >> 2],
tm_mday: k[n + 12 >> 2],
tm_mon: k[n + 16 >> 2],
tm_year: k[n + 20 >> 2],
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tm_yday: k[n + 28 >> 2],
tm_isdst: k[n + 32 >> 2],
tm_gmtoff: k[n + 36 >> 2],
tm_zone: a ? Jt(a) : ""
}, u = Jt(r), c = {
"%c": "%a %b %d %H:%M:%S %Y",
"%D": "%m/%d/%y",
"%F": "%Y-%m-%d",
"%h": "%b",
"%r": "%I:%M:%S %p",
"%R": "%H:%M",
"%T": "%H:%M:%S",
"%x": "%m/%d/%y",
"%X": "%H:%M:%S",
"%Ec": "%c",
"%EC": "%C",
"%Ex": "%m/%d/%y",
"%EX": "%H:%M:%S",
"%Ey": "%y",
"%EY": "%Y",
"%Od": "%d",
"%Oe": "%e",
"%OH": "%H",
"%OI": "%I",
"%Om": "%m",
"%OM": "%M",
"%OS": "%S",
"%Ou": "%u",
"%OU": "%U",
"%OV": "%V",
"%Ow": "%w",
"%OW": "%W",
"%Oy": "%y"
};
for (var l in c)
u = u.replace(new RegExp(l, "g"), c[l]);
var f = ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"], p = ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"];
function v(d, m, F) {
for (var j = typeof d == "number" ? d.toString() : d || ""; j.length < m; )
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return j;
}
function y(d, m) {
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}
function w(d, m) {
function F(ut) {
return ut < 0 ? -1 : ut > 0 ? 1 : 0;
}
var j;
return (j = F(d.getFullYear() - m.getFullYear())) === 0 && (j = F(d.getMonth() - m.getMonth())) === 0 && (j = F(d.getDate() - m.getDate())), j;
}
function E(d) {
switch (d.getDay()) {
case 0:
return new Date(d.getFullYear() - 1, 11, 29);
case 1:
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case 2:
return new Date(d.getFullYear(), 0, 3);
case 3:
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case 4:
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case 5:
return new Date(d.getFullYear() - 1, 11, 31);
case 6:
return new Date(d.getFullYear() - 1, 11, 30);
}
}
function x(d) {
var m = ra(new Date(d.tm_year + 1900, 0, 1), d.tm_yday), F = new Date(m.getFullYear(), 0, 4), j = new Date(m.getFullYear() + 1, 0, 4), ut = E(F), jt = E(j);
return w(ut, m) <= 0 ? w(jt, m) <= 0 ? m.getFullYear() + 1 : m.getFullYear() : m.getFullYear() - 1;
}
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"%A": (d) => f[d.tm_wday],
"%b": (d) => p[d.tm_mon].substring(0, 3),
"%B": (d) => p[d.tm_mon],
"%C": (d) => {
var m = d.tm_year + 1900;
return y(m / 100 | 0, 2);
},
"%d": (d) => y(d.tm_mday, 2),
"%e": (d) => v(d.tm_mday, 2, " "),
"%g": (d) => x(d).toString().substring(2),
"%G": (d) => x(d),
"%H": (d) => y(d.tm_hour, 2),
"%I": (d) => {
var m = d.tm_hour;
return m == 0 ? m = 12 : m > 12 && (m -= 12), y(m, 2);
},
"%j": (d) => y(d.tm_mday + ea(Mt(d.tm_year + 1900) ? Se : je, d.tm_mon - 1), 3),
"%m": (d) => y(d.tm_mon + 1, 2),
"%M": (d) => y(d.tm_min, 2),
"%n": () => `
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"%p": (d) => d.tm_hour >= 0 && d.tm_hour < 12 ? "AM" : "PM",
"%S": (d) => y(d.tm_sec, 2),
"%t": () => " ",
"%u": (d) => d.tm_wday || 7,
"%U": (d) => {
var m = d.tm_yday + 7 - d.tm_wday;
return y(Math.floor(m / 7), 2);
},
"%V": (d) => {
var m = Math.floor((d.tm_yday + 7 - (d.tm_wday + 6) % 7) / 7);
if ((d.tm_wday + 371 - d.tm_yday - 2) % 7 <= 2 && m++, m) {
if (m == 53) {
var F = (d.tm_wday + 371 - d.tm_yday) % 7;
F != 4 && (F != 3 || !Mt(d.tm_year)) && (m = 1);
}
} else {
m = 52;
var j = (d.tm_wday + 7 - d.tm_yday - 1) % 7;
(j == 4 || j == 5 && Mt(d.tm_year % 400 - 1)) && m++;
}
return y(m, 2);
},
"%w": (d) => d.tm_wday,
"%W": (d) => {
var m = d.tm_yday + 7 - (d.tm_wday + 6) % 7;
return y(Math.floor(m / 7), 2);
},
"%y": (d) => (d.tm_year + 1900).toString().substring(2),
"%Y": (d) => d.tm_year + 1900,
"%z": (d) => {
var m = d.tm_gmtoff, F = m >= 0;
return m = Math.abs(m) / 60, m = m / 60 * 100 + m % 60, (F ? "+" : "-") + ("0000" + m).slice(-4);
},
"%Z": (d) => d.tm_zone,
"%%": () => "%"
};
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for (var l in _)
u.includes(l) && (u = u.replace(new RegExp(l, "g"), _[l](i)));
u = u.replace(/\0\0/g, "%");
var R = na(u, !1);
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constructor(t) {
super(t), this.name = "InternalError";
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super(t), this.name = "BindingError";
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}
}
function wa(t, e, r, n, a) {
var i = O();
try {
A(t)(e, r, n, a);
} catch (u) {
if (D(i), u !== u + 0)
throw u;
P(1, 0);
}
}
function $a(t, e, r, n, a, i) {
var u = O();
try {
return A(t)(e, r, n, a, i);
} catch (c) {
if (D(u), c !== c + 0)
throw c;
P(1, 0);
}
}
function ba(t, e, r, n, a, i, u, c) {
var l = O();
try {
return A(t)(e, r, n, a, i, u, c);
} catch (f) {
if (D(l), f !== f + 0)
throw f;
P(1, 0);
}
}
function Ca(t, e, r, n) {
var a = O();
try {
return A(t)(e, r, n);
} catch (i) {
if (D(a), i !== i + 0)
throw i;
P(1, 0);
}
}
function _a(t, e, r, n) {
var a = O();
try {
return A(t)(e, r, n);
} catch (i) {
if (D(a), i !== i + 0)
throw i;
P(1, 0);
}
}
function Ta(t) {
var e = O();
try {
return A(t)();
} catch (r) {
if (D(e), r !== r + 0)
throw r;
P(1, 0);
}
}
function Pa(t, e, r, n, a, i, u, c) {
var l = O();
try {
A(t)(e, r, n, a, i, u, c);
} catch (f) {
if (D(l), f !== f + 0)
throw f;
P(1, 0);
}
}
function Ea(t, e, r, n, a, i, u, c, l, f, p, v) {
var y = O();
try {
return A(t)(e, r, n, a, i, u, c, l, f, p, v);
} catch (w) {
if (D(y), w !== w + 0)
throw w;
P(1, 0);
}
}
function Aa(t, e, r, n, a, i, u, c, l, f, p, v, y, w, E, x) {
var _ = O();
try {
A(t)(e, r, n, a, i, u, c, l, f, p, v, y, w, E, x);
} catch (R) {
if (D(_), R !== R + 0)
throw R;
P(1, 0);
}
}
function Oa(t, e, r, n, a) {
var i = O();
try {
return Be(t, e, r, n, a);
} catch (u) {
if (D(i), u !== u + 0)
throw u;
P(1, 0);
}
}
var St;
ht = function t() {
St || Ue(), St || (ht = t);
};
function Ue() {
if (et > 0 || (ur(), et > 0))
return;
function t() {
St || (St = !0, s.calledRun = !0, !dt && (cr(), $(s), s.onRuntimeInitialized && s.onRuntimeInitialized(), lr()));
}
s.setStatus ? (s.setStatus("Running..."), setTimeout(function() {
setTimeout(function() {
s.setStatus("");
}, 1), t();
}, 1)) : t();
}
if (s.preInit)
for (typeof s.preInit == "function" && (s.preInit = [s.preInit]); s.preInit.length > 0; )
s.preInit.pop()();
return Ue(), h.ready;
};
})();
function to(o) {
return ae(
Rt,
o
);
}
function ao(o) {
return Za(
Rt,
o
);
}
async function eo(o, h) {
return Ja(
Rt,
o,
h
);
}
async function ro(o, h) {
return Ka(
Rt,
o,
h
);
}
var ct;
class oo extends EventTarget {
constructor(s = {}) {
var $;
super();
ze(this, ct, void 0);
try {
const g = ($ = s == null ? void 0 : s.formats) == null ? void 0 : $.filter(
(b) => b !== "unknown"
);
if ((g == null ? void 0 : g.length) === 0)
throw new TypeError("Hint option provided, but is empty.");
g == null || g.forEach((b) => {
if (!It.has(b))
throw new TypeError(
`Failed to read the 'formats' property from 'BarcodeDetectorOptions': The provided value '${b}' is not a valid enum value of type BarcodeFormat.`
);
}), Ne(this, ct, g != null ? g : []), to().then((b) => {
this.dispatchEvent(
new CustomEvent("load", {
detail: b
})
);
}).catch((b) => {
this.dispatchEvent(new CustomEvent("error", { detail: b }));
});
} catch (g) {
throw Ge(
g,
"Failed to construct 'BarcodeDetector'"
);
}
}
static async getSupportedFormats() {
return Da.filter((s) => s !== "unknown");
}
async detect(s) {
try {
const $ = await Ra(s);
if ($ === null)
return [];
let g;
try {
ar($) ? g = await eo($, {
tryHarder: !0,
formats: re(this, ct).map((b) => It.get(b))
}) : g = await ro($, {
tryHarder: !0,
formats: re(this, ct).map((b) => It.get(b))
});
} catch (b) {
throw console.error(b), new DOMException(
"Barcode detection service unavailable.",
"NotSupportedError"
);
}
return g.map((b) => {
const {
topLeft: { x: H, y: L },
topRight: { x: B, y: M },
bottomLeft: { x: Y, y: G },
bottomRight: { x: U, y: Q }
} = b.position, tt = Math.min(H, B, Y, U), dt = Math.min(L, M, G, Q), V = Math.max(H, B, Y, U), W = Math.max(L, M, G, Q);
return {
boundingBox: new DOMRectReadOnly(
tt,
dt,
V - tt,
W - dt
),
rawValue: b.text,
format: xa(b.format),
cornerPoints: [
{
x: H,
y: L
},
{
x: B,
y: M
},
{
x: U,
y: Q
},
{
x: Y,
y: G
}
]
};
});
} catch ($) {
throw Ge(
$,
"Failed to execute 'detect' on 'BarcodeDetector'"
);
}
}
}
ct = new WeakMap();
export {
oo as BarcodeDetector,
ao as setZXingModuleOverrides
};