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/**
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*
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/***/ 401:
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128 & t.__u && (c = !!(32 & t.__u), r = [e = u.__e = t.__e]), (a = l.__b) && a(u);
n: if ("function" == typeof A) try {
if (w = u.props, x = (a = A.contextType) && i[a.__c], P = a ? x ? x.props.value : a.__ : i, t.__c ? k = (p = u.__c = t.__c).__ = p.__E : ("prototype" in A && A.prototype.render ? u.__c = p = new A(w, P) : (u.__c = p = new b(w, P), p.constructor = A, p.render = O), x && x.sub(p), p.props = w, p.state || (p.state = {}), p.context = P, p.__n = i, y = p.__d = !0, p.__h = [], p._sb = []), null == p.__s && (p.__s = p.state), null != A.getDerivedStateFromProps && (p.__s == p.state && (p.__s = v({}, p.__s)), v(p.__s, A.getDerivedStateFromProps(w, p.__s))), d = p.props, _ = p.state, p.__v = u, y) null == A.getDerivedStateFromProps && null != p.componentWillMount && p.componentWillMount(), null != p.componentDidMount && p.__h.push(p.componentDidMount);else {
if (null == A.getDerivedStateFromProps && w !== d && null != p.componentWillReceiveProps && p.componentWillReceiveProps(w, P), !p.__e && (null != p.shouldComponentUpdate && !1 === p.shouldComponentUpdate(w, p.__s, P) || u.__v === t.__v)) {
for (u.__v !== t.__v && (p.props = w, p.state = p.__s, p.__d = !1), u.__e = t.__e, u.__k = t.__k, u.__k.forEach(function (n) {
n && (n.__ = u);
}), S = 0; S < p._sb.length; S++) p.__h.push(p._sb[S]);
p._sb = [], p.__h.length && f.push(p);
break n;
}
null != p.componentWillUpdate && p.componentWillUpdate(w, p.__s, P), null != p.componentDidUpdate && p.__h.push(function () {
p.componentDidUpdate(d, _, m);
});
}
if (p.context = P, p.props = w, p.__P = n, p.__e = !1, $ = l.__r, H = 0, "prototype" in A && A.prototype.render) {
for (p.state = p.__s, p.__d = !1, $ && $(u), a = p.render(p.props, p.state, p.context), I = 0; I < p._sb.length; I++) p.__h.push(p._sb[I]);
p._sb = [];
} else do {
p.__d = !1, $ && $(u), a = p.render(p.props, p.state, p.context), p.state = p.__s;
} while (p.__d && ++H < 25);
p.state = p.__s, null != p.getChildContext && (i = v(v({}, i), p.getChildContext())), y || null == p.getSnapshotBeforeUpdate || (m = p.getSnapshotBeforeUpdate(d, _)), C(n, h(T = null != a && a.type === g && null == a.key ? a.props.children : a) ? T : [T], u, t, i, o, r, f, e, c, s), p.base = u.__e, u.__u &= -161, p.__h.length && f.push(p), k && (p.__E = p.__ = null);
} catch (n) {
u.__v = null, c || null != r ? (u.__e = e, u.__u |= c ? 160 : 32, r[r.indexOf(e)] = null) : (u.__e = t.__e, u.__k = t.__k), l.__e(n, u, t);
} else null == r && u.__v === t.__v ? (u.__k = t.__k, u.__e = t.__e) : u.__e = j(t.__e, u, t, i, o, r, f, c, s);
(a = l.diffed) && a(u);
}
function M(n, u, t) {
u.__d = void 0;
for (var i = 0; i < t.length; i++) z(t[i], t[++i], t[++i]);
l.__c && l.__c(u, n), n.some(function (u) {
try {
n = u.__h, u.__h = [], n.some(function (n) {
n.call(u);
});
} catch (n) {
l.__e(n, u.__v);
}
});
}
function j(l, u, t, i, o, r, f, e, s) {
var a,
v,
y,
d,
_,
g,
b,
k = t.props,
w = u.props,
x = u.type;
if ("svg" === x && (o = !0), null != r) for (a = 0; a < r.length; a++) if ((_ = r[a]) && "setAttribute" in _ == !!x && (x ? _.localName === x : 3 === _.nodeType)) {
l = _, r[a] = null;
break;
}
if (null == l) {
if (null === x) return document.createTextNode(w);
l = o ? document.createElementNS("http://www.w3.org/2000/svg", x) : document.createElement(x, w.is && w), r = null, e = !1;
}
if (null === x) k === w || e && l.data === w || (l.data = w);else {
if (r = r && preact_module_n.call(l.childNodes), k = t.props || preact_module_c, !e && null != r) for (k = {}, a = 0; a < l.attributes.length; a++) k[(_ = l.attributes[a]).name] = _.value;
for (a in k) _ = k[a], "children" == a || ("dangerouslySetInnerHTML" == a ? y = _ : "key" === a || a in w || T(l, a, null, _, o));
for (a in w) _ = w[a], "children" == a ? d = _ : "dangerouslySetInnerHTML" == a ? v = _ : "value" == a ? g = _ : "checked" == a ? b = _ : "key" === a || e && "function" != typeof _ || k[a] === _ || T(l, a, _, k[a], o);
if (v) e || y && (v.__html === y.__html || v.__html === l.innerHTML) || (l.innerHTML = v.__html), u.__k = [];else if (y && (l.innerHTML = ""), C(l, h(d) ? d : [d], u, t, i, o && "foreignObject" !== x, r, f, r ? r[0] : t.__k && m(t, 0), e, s), null != r) for (a = r.length; a--;) null != r[a] && p(r[a]);
e || (a = "value", void 0 !== g && (g !== l[a] || "progress" === x && !g || "option" === x && g !== k[a]) && T(l, a, g, k[a], !1), a = "checked", void 0 !== b && b !== l[a] && T(l, a, b, k[a], !1));
}
return l;
}
function z(n, u, t) {
try {
"function" == typeof n ? n(u) : n.current = u;
} catch (n) {
l.__e(n, t);
}
}
function N(n, u, t) {
var i, o;
if (l.unmount && l.unmount(n), (i = n.ref) && (i.current && i.current !== n.__e || z(i, null, u)), null != (i = n.__c)) {
if (i.componentWillUnmount) try {
i.componentWillUnmount();
} catch (n) {
l.__e(n, u);
}
i.base = i.__P = null, n.__c = void 0;
}
if (i = n.__k) for (o = 0; o < i.length; o++) i[o] && N(i[o], u, t || "function" != typeof n.type);
t || null == n.__e || p(n.__e), n.__ = n.__e = n.__d = void 0;
}
function O(n, l, u) {
return this.constructor(n, u);
}
function q(u, t, i) {
var o, r, f, e;
l.__ && l.__(u, t), r = (o = "function" == typeof i) ? null : i && i.__k || t.__k, f = [], e = [], L(t, u = (!o && i || t).__k = y(g, null, [u]), r || preact_module_c, preact_module_c, void 0 !== t.ownerSVGElement, !o && i ? [i] : r ? null : t.firstChild ? preact_module_n.call(t.childNodes) : null, f, !o && i ? i : r ? r.__e : t.firstChild, o, e), M(f, u, e);
}
function B(n, l) {
q(n, l, B);
}
function E(l, u, t) {
var i,
o,
r,
f,
e = v({}, l.props);
for (r in l.type && l.type.defaultProps && (f = l.type.defaultProps), u) "key" == r ? i = u[r] : "ref" == r ? o = u[r] : e[r] = void 0 === u[r] && void 0 !== f ? f[r] : u[r];
return arguments.length > 2 && (e.children = arguments.length > 3 ? preact_module_n.call(arguments, 2) : t), d(l.type, e, i || l.key, o || l.ref, null);
}
function F(n, l) {
var u = {
__c: l = "__cC" + preact_module_e++,
__: n,
Consumer: function (n, l) {
return n.children(l);
},
Provider: function (n) {
var u, t;
return this.getChildContext || (u = [], (t = {})[l] = this, this.getChildContext = function () {
return t;
}, this.shouldComponentUpdate = function (n) {
this.props.value !== n.value && u.some(function (n) {
n.__e = !0, w(n);
});
}, this.sub = function (n) {
u.push(n);
var l = n.componentWillUnmount;
n.componentWillUnmount = function () {
u.splice(u.indexOf(n), 1), l && l.call(n);
};
}), n.children;
}
};
return u.Provider.__ = u.Consumer.contextType = u;
}
preact_module_n = s.slice, l = {
__e: function (n, l, u, t) {
for (var i, o, r; l = l.__;) if ((i = l.__c) && !i.__) try {
if ((o = i.constructor) && null != o.getDerivedStateFromError && (i.setState(o.getDerivedStateFromError(n)), r = i.__d), null != i.componentDidCatch && (i.componentDidCatch(n, t || {}), r = i.__d), r) return i.__E = i;
} catch (l) {
n = l;
}
throw n;
}
}, preact_module_u = 0, preact_module_t = function (n) {
return null != n && null == n.constructor;
}, b.prototype.setState = function (n, l) {
var u;
u = null != this.__s && this.__s !== this.state ? this.__s : this.__s = v({}, this.state), "function" == typeof n && (n = n(v({}, u), this.props)), n && v(u, n), null != n && this.__v && (l && this._sb.push(l), w(this));
}, b.prototype.forceUpdate = function (n) {
this.__v && (this.__e = !0, n && this.__h.push(n), w(this));
}, b.prototype.render = g, i = [], r = "function" == typeof Promise ? Promise.prototype.then.bind(Promise.resolve()) : setTimeout, preact_module_f = function (n, l) {
return n.__v.__b - l.__v.__b;
}, x.__r = 0, preact_module_e = 0;
;// CONCATENATED MODULE: ./node_modules/preact/hooks/dist/hooks.module.js
var hooks_module_t,
hooks_module_r,
hooks_module_u,
hooks_module_i,
hooks_module_o = 0,
hooks_module_f = [],
hooks_module_c = [],
hooks_module_e = l.__b,
hooks_module_a = l.__r,
hooks_module_v = l.diffed,
hooks_module_l = l.__c,
hooks_module_m = l.unmount;
function hooks_module_d(t, u) {
l.__h && l.__h(hooks_module_r, t, hooks_module_o || u), hooks_module_o = 0;
var i = hooks_module_r.__H || (hooks_module_r.__H = {
__: [],
__h: []
});
return t >= i.__.length && i.__.push({
__V: hooks_module_c
}), i.__[t];
}
function hooks_module_h(n) {
return hooks_module_o = 1, hooks_module_s(hooks_module_B, n);
}
function hooks_module_s(n, u, i) {
var o = hooks_module_d(hooks_module_t++, 2);
if (o.t = n, !o.__c && (o.__ = [i ? i(u) : hooks_module_B(void 0, u), function (n) {
var t = o.__N ? o.__N[0] : o.__[0],
r = o.t(t, n);
t !== r && (o.__N = [r, o.__[1]], o.__c.setState({}));
}], o.__c = hooks_module_r, !hooks_module_r.u)) {
var f = function (n, t, r) {
if (!o.__c.__H) return !0;
var u = o.__c.__H.__.filter(function (n) {
return n.__c;
});
if (u.every(function (n) {
return !n.__N;
})) return !c || c.call(this, n, t, r);
var i = !1;
return u.forEach(function (n) {
if (n.__N) {
var t = n.__[0];
n.__ = n.__N, n.__N = void 0, t !== n.__[0] && (i = !0);
}
}), !(!i && o.__c.props === n) && (!c || c.call(this, n, t, r));
};
hooks_module_r.u = !0;
var c = hooks_module_r.shouldComponentUpdate,
e = hooks_module_r.componentWillUpdate;
hooks_module_r.componentWillUpdate = function (n, t, r) {
if (this.__e) {
var u = c;
c = void 0, f(n, t, r), c = u;
}
e && e.call(this, n, t, r);
}, hooks_module_r.shouldComponentUpdate = f;
}
return o.__N || o.__;
}
function hooks_module_p(u, i) {
var o = hooks_module_d(hooks_module_t++, 3);
!l.__s && hooks_module_z(o.__H, i) && (o.__ = u, o.i = i, hooks_module_r.__H.__h.push(o));
}
function hooks_module_y(u, i) {
var o = hooks_module_d(hooks_module_t++, 4);
!l.__s && hooks_module_z(o.__H, i) && (o.__ = u, o.i = i, hooks_module_r.__h.push(o));
}
function hooks_module_(n) {
return hooks_module_o = 5, hooks_module_F(function () {
return {
current: n
};
}, []);
}
function hooks_module_A(n, t, r) {
hooks_module_o = 6, hooks_module_y(function () {
return "function" == typeof n ? (n(t()), function () {
return n(null);
}) : n ? (n.current = t(), function () {
return n.current = null;
}) : void 0;
}, null == r ? r : r.concat(n));
}
function hooks_module_F(n, r) {
var u = hooks_module_d(hooks_module_t++, 7);
return hooks_module_z(u.__H, r) ? (u.__V = n(), u.i = r, u.__h = n, u.__V) : u.__;
}
function hooks_module_T(n, t) {
return hooks_module_o = 8, hooks_module_F(function () {
return n;
}, t);
}
function hooks_module_q(n) {
var u = hooks_module_r.context[n.__c],
i = hooks_module_d(hooks_module_t++, 9);
return i.c = n, u ? (null == i.__ && (i.__ = !0, u.sub(hooks_module_r)), u.props.value) : n.__;
}
function hooks_module_x(t, r) {
n.useDebugValue && n.useDebugValue(r ? r(t) : t);
}
function hooks_module_P(n) {
var u = hooks_module_d(hooks_module_t++, 10),
i = hooks_module_h();
return u.__ = n, hooks_module_r.componentDidCatch || (hooks_module_r.componentDidCatch = function (n, t) {
u.__ && u.__(n, t), i[1](n);
}), [i[0], function () {
i[1](void 0);
}];
}
function V() {
var n = hooks_module_d(hooks_module_t++, 11);
if (!n.__) {
for (var u = hooks_module_r.__v; null !== u && !u.__m && null !== u.__;) u = u.__;
var i = u.__m || (u.__m = [0, 0]);
n.__ = "P" + i[0] + "-" + i[1]++;
}
return n.__;
}
function hooks_module_b() {
for (var t; t = hooks_module_f.shift();) if (t.__P && t.__H) try {
t.__H.__h.forEach(hooks_module_k), t.__H.__h.forEach(hooks_module_w), t.__H.__h = [];
} catch (r) {
t.__H.__h = [], l.__e(r, t.__v);
}
}
l.__b = function (n) {
hooks_module_r = null, hooks_module_e && hooks_module_e(n);
}, l.__r = function (n) {
hooks_module_a && hooks_module_a(n), hooks_module_t = 0;
var i = (hooks_module_r = n.__c).__H;
i && (hooks_module_u === hooks_module_r ? (i.__h = [], hooks_module_r.__h = [], i.__.forEach(function (n) {
n.__N && (n.__ = n.__N), n.__V = hooks_module_c, n.__N = n.i = void 0;
})) : (i.__h.forEach(hooks_module_k), i.__h.forEach(hooks_module_w), i.__h = [], hooks_module_t = 0)), hooks_module_u = hooks_module_r;
}, l.diffed = function (t) {
hooks_module_v && hooks_module_v(t);
var o = t.__c;
o && o.__H && (o.__H.__h.length && (1 !== hooks_module_f.push(o) && hooks_module_i === l.requestAnimationFrame || ((hooks_module_i = l.requestAnimationFrame) || hooks_module_j)(hooks_module_b)), o.__H.__.forEach(function (n) {
n.i && (n.__H = n.i), n.__V !== hooks_module_c && (n.__ = n.__V), n.i = void 0, n.__V = hooks_module_c;
})), hooks_module_u = hooks_module_r = null;
}, l.__c = function (t, r) {
r.some(function (t) {
try {
t.__h.forEach(hooks_module_k), t.__h = t.__h.filter(function (n) {
return !n.__ || hooks_module_w(n);
});
} catch (u) {
r.some(function (n) {
n.__h && (n.__h = []);
}), r = [], l.__e(u, t.__v);
}
}), hooks_module_l && hooks_module_l(t, r);
}, l.unmount = function (t) {
hooks_module_m && hooks_module_m(t);
var r,
u = t.__c;
u && u.__H && (u.__H.__.forEach(function (n) {
try {
hooks_module_k(n);
} catch (n) {
r = n;
}
}), u.__H = void 0, r && l.__e(r, u.__v));
};
var hooks_module_g = "function" == typeof requestAnimationFrame;
function hooks_module_j(n) {
var t,
r = function () {
clearTimeout(u), hooks_module_g && cancelAnimationFrame(t), setTimeout(n);
},
u = setTimeout(r, 100);
hooks_module_g && (t = requestAnimationFrame(r));
}
function hooks_module_k(n) {
var t = hooks_module_r,
u = n.__c;
"function" == typeof u && (n.__c = void 0, u()), hooks_module_r = t;
}
function hooks_module_w(n) {
var t = hooks_module_r;
n.__c = n.__(), hooks_module_r = t;
}
function hooks_module_z(n, t) {
return !n || n.length !== t.length || t.some(function (t, r) {
return t !== n[r];
});
}
function hooks_module_B(n, t) {
return "function" == typeof t ? t(n) : t;
}
;// CONCATENATED MODULE: ./node_modules/@preact/signals-core/dist/signals-core.module.js
function signals_core_module_i() {
throw new Error("Cycle detected");
}
var signals_core_module_t = Symbol.for("preact-signals");
function signals_core_module_r() {
if (!(signals_core_module_v > 1)) {
var i,
t = !1;
while (void 0 !== signals_core_module_f) {
var r = signals_core_module_f;
signals_core_module_f = void 0;
signals_core_module_e++;
while (void 0 !== r) {
var n = r.o;
r.o = void 0;
r.f &= -3;
if (!(8 & r.f) && signals_core_module_l(r)) try {
r.c();
} catch (r) {
if (!t) {
i = r;
t = !0;
}
}
r = n;
}
}
signals_core_module_e = 0;
signals_core_module_v--;
if (t) throw i;
} else signals_core_module_v--;
}
function signals_core_module_n(i) {
if (signals_core_module_v > 0) return i();
signals_core_module_v++;
try {
return i();
} finally {
signals_core_module_r();
}
}
var signals_core_module_o = void 0,
signals_core_module_h = 0;
function signals_core_module_s(i) {
if (signals_core_module_h > 0) return i();
var t = signals_core_module_o;
signals_core_module_o = void 0;
signals_core_module_h++;
try {
return i();
} finally {
signals_core_module_h--;
signals_core_module_o = t;
}
}
var signals_core_module_f = void 0,
signals_core_module_v = 0,
signals_core_module_e = 0,
signals_core_module_u = 0;
function signals_core_module_c(i) {
if (void 0 !== signals_core_module_o) {
var t = i.n;
if (void 0 === t || t.t !== signals_core_module_o) {
t = {
i: 0,
S: i,
p: signals_core_module_o.s,
n: void 0,
t: signals_core_module_o,
e: void 0,
x: void 0,
r: t
};
if (void 0 !== signals_core_module_o.s) signals_core_module_o.s.n = t;
signals_core_module_o.s = t;
i.n = t;
if (32 & signals_core_module_o.f) i.S(t);
return t;
} else if (-1 === t.i) {
t.i = 0;
if (void 0 !== t.n) {
t.n.p = t.p;
if (void 0 !== t.p) t.p.n = t.n;
t.p = signals_core_module_o.s;
t.n = void 0;
signals_core_module_o.s.n = t;
signals_core_module_o.s = t;
}
return t;
}
}
}
function signals_core_module_d(i) {
this.v = i;
this.i = 0;
this.n = void 0;
this.t = void 0;
}
signals_core_module_d.prototype.brand = signals_core_module_t;
signals_core_module_d.prototype.h = function () {
return !0;
};
signals_core_module_d.prototype.S = function (i) {
if (this.t !== i && void 0 === i.e) {
i.x = this.t;
if (void 0 !== this.t) this.t.e = i;
this.t = i;
}
};
signals_core_module_d.prototype.U = function (i) {
if (void 0 !== this.t) {
var t = i.e,
r = i.x;
if (void 0 !== t) {
t.x = r;
i.e = void 0;
}
if (void 0 !== r) {
r.e = t;
i.x = void 0;
}
if (i === this.t) this.t = r;
}
};
signals_core_module_d.prototype.subscribe = function (i) {
var t = this;
return signals_core_module_O(function () {
var r = t.value,
n = 32 & this.f;
this.f &= -33;
try {
i(r);
} finally {
this.f |= n;
}
});
};
signals_core_module_d.prototype.valueOf = function () {
return this.value;
};
signals_core_module_d.prototype.toString = function () {
return this.value + "";
};
signals_core_module_d.prototype.toJSON = function () {
return this.value;
};
signals_core_module_d.prototype.peek = function () {
return this.v;
};
Object.defineProperty(signals_core_module_d.prototype, "value", {
get: function () {
var i = signals_core_module_c(this);
if (void 0 !== i) i.i = this.i;
return this.v;
},
set: function (t) {
if (signals_core_module_o instanceof signals_core_module_) !function () {
throw new Error("Computed cannot have side-effects");
}();
if (t !== this.v) {
if (signals_core_module_e > 100) signals_core_module_i();
this.v = t;
this.i++;
signals_core_module_u++;
signals_core_module_v++;
try {
for (var n = this.t; void 0 !== n; n = n.x) n.t.N();
} finally {
signals_core_module_r();
}
}
}
});
function signals_core_module_a(i) {
return new signals_core_module_d(i);
}
function signals_core_module_l(i) {
for (var t = i.s; void 0 !== t; t = t.n) if (t.S.i !== t.i || !t.S.h() || t.S.i !== t.i) return !0;
return !1;
}
function signals_core_module_y(i) {
for (var t = i.s; void 0 !== t; t = t.n) {
var r = t.S.n;
if (void 0 !== r) t.r = r;
t.S.n = t;
t.i = -1;
if (void 0 === t.n) {
i.s = t;
break;
}
}
}
function signals_core_module_w(i) {
var t = i.s,
r = void 0;
while (void 0 !== t) {
var n = t.p;
if (-1 === t.i) {
t.S.U(t);
if (void 0 !== n) n.n = t.n;
if (void 0 !== t.n) t.n.p = n;
} else r = t;
t.S.n = t.r;
if (void 0 !== t.r) t.r = void 0;
t = n;
}
i.s = r;
}
function signals_core_module_(i) {
signals_core_module_d.call(this, void 0);
this.x = i;
this.s = void 0;
this.g = signals_core_module_u - 1;
this.f = 4;
}
(signals_core_module_.prototype = new signals_core_module_d()).h = function () {
this.f &= -3;
if (1 & this.f) return !1;
if (32 == (36 & this.f)) return !0;
this.f &= -5;
if (this.g === signals_core_module_u) return !0;
this.g = signals_core_module_u;
this.f |= 1;
if (this.i > 0 && !signals_core_module_l(this)) {
this.f &= -2;
return !0;
}
var i = signals_core_module_o;
try {
signals_core_module_y(this);
signals_core_module_o = this;
var t = this.x();
if (16 & this.f || this.v !== t || 0 === this.i) {
this.v = t;
this.f &= -17;
this.i++;
}
} catch (i) {
this.v = i;
this.f |= 16;
this.i++;
}
signals_core_module_o = i;
signals_core_module_w(this);
this.f &= -2;
return !0;
};
signals_core_module_.prototype.S = function (i) {
if (void 0 === this.t) {
this.f |= 36;
for (var t = this.s; void 0 !== t; t = t.n) t.S.S(t);
}
signals_core_module_d.prototype.S.call(this, i);
};
signals_core_module_.prototype.U = function (i) {
if (void 0 !== this.t) {
signals_core_module_d.prototype.U.call(this, i);
if (void 0 === this.t) {
this.f &= -33;
for (var t = this.s; void 0 !== t; t = t.n) t.S.U(t);
}
}
};
signals_core_module_.prototype.N = function () {
if (!(2 & this.f)) {
this.f |= 6;
for (var i = this.t; void 0 !== i; i = i.x) i.t.N();
}
};
signals_core_module_.prototype.peek = function () {
if (!this.h()) signals_core_module_i();
if (16 & this.f) throw this.v;
return this.v;
};
Object.defineProperty(signals_core_module_.prototype, "value", {
get: function () {
if (1 & this.f) signals_core_module_i();
var t = signals_core_module_c(this);
this.h();
if (void 0 !== t) t.i = this.i;
if (16 & this.f) throw this.v;
return this.v;
}
});
function signals_core_module_p(i) {
return new signals_core_module_(i);
}
function signals_core_module_g(i) {
var t = i.u;
i.u = void 0;
if ("function" == typeof t) {
signals_core_module_v++;
var n = signals_core_module_o;
signals_core_module_o = void 0;
try {
t();
} catch (t) {
i.f &= -2;
i.f |= 8;
signals_core_module_b(i);
throw t;
} finally {
signals_core_module_o = n;
signals_core_module_r();
}
}
}
function signals_core_module_b(i) {
for (var t = i.s; void 0 !== t; t = t.n) t.S.U(t);
i.x = void 0;
i.s = void 0;
signals_core_module_g(i);
}
function signals_core_module_x(i) {
if (signals_core_module_o !== this) throw new Error("Out-of-order effect");
signals_core_module_w(this);
signals_core_module_o = i;
this.f &= -2;
if (8 & this.f) signals_core_module_b(this);
signals_core_module_r();
}
function signals_core_module_E(i) {
this.x = i;
this.u = void 0;
this.s = void 0;
this.o = void 0;
this.f = 32;
}
signals_core_module_E.prototype.c = function () {
var i = this.S();
try {
if (8 & this.f) return;
if (void 0 === this.x) return;
var t = this.x();
if ("function" == typeof t) this.u = t;
} finally {
i();
}
};
signals_core_module_E.prototype.S = function () {
if (1 & this.f) signals_core_module_i();
this.f |= 1;
this.f &= -9;
signals_core_module_g(this);
signals_core_module_y(this);
signals_core_module_v++;
var t = signals_core_module_o;
signals_core_module_o = this;
return signals_core_module_x.bind(this, t);
};
signals_core_module_E.prototype.N = function () {
if (!(2 & this.f)) {
this.f |= 2;
this.o = signals_core_module_f;
signals_core_module_f = this;
}
};
signals_core_module_E.prototype.d = function () {
this.f |= 8;
if (!(1 & this.f)) signals_core_module_b(this);
};
function signals_core_module_O(i) {
var t = new signals_core_module_E(i);
try {
t.c();
} catch (i) {
t.d();
throw i;
}
return t.d.bind(t);
}
;// CONCATENATED MODULE: ./node_modules/@preact/signals/dist/signals.module.js
var signals_module_v, signals_module_s;
function signals_module_l(n, i) {
l[n] = i.bind(null, l[n] || function () {});
}
function signals_module_d(n) {
if (signals_module_s) signals_module_s();
signals_module_s = n && n.S();
}
function signals_module_p(n) {
var r = this,
f = n.data,
o = useSignal(f);
o.value = f;
var e = hooks_module_F(function () {
var n = r.__v;
while (n = n.__) if (n.__c) {
n.__c.__$f |= 4;
break;
}
r.__$u.c = function () {
var n;
if (!preact_module_t(e.peek()) && 3 === (null == (n = r.base) ? void 0 : n.nodeType)) r.base.data = e.peek();else {
r.__$f |= 1;
r.setState({});
}
};
return signals_core_module_p(function () {
var n = o.value.value;
return 0 === n ? 0 : !0 === n ? "" : n || "";
});
}, []);
return e.value;
}
signals_module_p.displayName = "_st";
Object.defineProperties(signals_core_module_d.prototype, {
constructor: {
configurable: !0,
value: void 0
},
type: {
configurable: !0,
value: signals_module_p
},
props: {
configurable: !0,
get: function () {
return {
data: this
};
}
},
__b: {
configurable: !0,
value: 1
}
});
signals_module_l("__b", function (n, r) {
if ("string" == typeof r.type) {
var i,
t = r.props;
for (var f in t) if ("children" !== f) {
var o = t[f];
if (o instanceof signals_core_module_d) {
if (!i) r.__np = i = {};
i[f] = o;
t[f] = o.peek();
}
}
}
n(r);
});
signals_module_l("__r", function (n, r) {
signals_module_d();
var i,
t = r.__c;
if (t) {
t.__$f &= -2;
if (void 0 === (i = t.__$u)) t.__$u = i = function (n) {
var r;
signals_core_module_O(function () {
r = this;
});
r.c = function () {
t.__$f |= 1;
t.setState({});
};
return r;
}();
}
signals_module_v = t;
signals_module_d(i);
n(r);
});
signals_module_l("__e", function (n, r, i, t) {
signals_module_d();
signals_module_v = void 0;
n(r, i, t);
});
signals_module_l("diffed", function (n, r) {
signals_module_d();
signals_module_v = void 0;
var i;
if ("string" == typeof r.type && (i = r.__e)) {
var t = r.__np,
f = r.props;
if (t) {
var o = i.U;
if (o) for (var e in o) {
var u = o[e];
if (void 0 !== u && !(e in t)) {
u.d();
o[e] = void 0;
}
} else i.U = o = {};
for (var a in t) {
var c = o[a],
s = t[a];
if (void 0 === c) {
c = signals_module_(i, a, s, f);
o[a] = c;
} else c.o(s, f);
}
}
}
n(r);
});
function signals_module_(n, r, i, t) {
var f = r in n && void 0 === n.ownerSVGElement,
o = signals_core_module_a(i);
return {
o: function (n, r) {
o.value = n;
t = r;
},
d: signals_core_module_O(function () {
var i = o.value.value;
if (t[r] !== i) {
t[r] = i;
if (f) n[r] = i;else if (i) n.setAttribute(r, i);else n.removeAttribute(r);
}
})
};
}
signals_module_l("unmount", function (n, r) {
if ("string" == typeof r.type) {
var i = r.__e;
if (i) {
var t = i.U;
if (t) {
i.U = void 0;
for (var f in t) {
var o = t[f];
if (o) o.d();
}
}
}
} else {
var e = r.__c;
if (e) {
var u = e.__$u;
if (u) {
e.__$u = void 0;
u.d();
}
}
}
n(r);
});
signals_module_l("__h", function (n, r, i, t) {
if (t < 3 || 9 === t) r.__$f |= 2;
n(r, i, t);
});
b.prototype.shouldComponentUpdate = function (n, r) {
var i = this.__$u;
if (!(i && void 0 !== i.s || 4 & this.__$f)) return !0;
if (3 & this.__$f) return !0;
for (var t in r) return !0;
for (var f in n) if ("__source" !== f && n[f] !== this.props[f]) return !0;
for (var o in this.props) if (!(o in n)) return !0;
return !1;
};
function useSignal(n) {
return hooks_module_F(function () {
return signals_core_module_a(n);
}, []);
}
function useComputed(n) {
var r = f(n);
r.current = n;
signals_module_v.__$f |= 4;
return t(function () {
return u(function () {
return r.current();
});
}, []);
}
function useSignalEffect(n) {
var r = f(n);
r.current = n;
o(function () {
return c(function () {
return r.current();
});
}, []);
}
;// CONCATENATED MODULE: ./node_modules/deepsignal/dist/deepsignal.module.js
var deepsignal_module_a = new WeakMap(),
deepsignal_module_o = new WeakMap(),
deepsignal_module_s = new WeakMap(),
deepsignal_module_u = new WeakSet(),
deepsignal_module_c = new WeakMap(),
deepsignal_module_i = /^\$/,
deepsignal_module_f = Object.getOwnPropertyDescriptor,
deepsignal_module_l = !1,
deepsignal_module_g = function (e) {
if (!R(e)) throw new Error("This object can't be observed.");
return deepsignal_module_o.has(e) || deepsignal_module_o.set(e, deepsignal_module_h(e, deepsignal_module_w)), deepsignal_module_o.get(e);
},
deepsignal_module_p = function (e, t) {
deepsignal_module_l = !0;
var r = e[t];
try {
deepsignal_module_l = !1;
} catch (e) {}
return r;
},
deepsignal_module_h = function (e, t) {
var r = new Proxy(e, t);
return deepsignal_module_u.add(r), r;
},
deepsignal_module_y = function () {
throw new Error("Don't mutate the signals directly.");
},
deepsignal_module_v = function (e) {
return function (t, u, c) {
var g;
if (deepsignal_module_l) return Reflect.get(t, u, c);
var p = e || "$" === u[0];
if (!e && p && Array.isArray(t)) {
if ("$" === u) return deepsignal_module_s.has(t) || deepsignal_module_s.set(t, deepsignal_module_h(t, deepsignal_module_m)), deepsignal_module_s.get(t);
p = "$length" === u;
}
deepsignal_module_a.has(c) || deepsignal_module_a.set(c, new Map());
var y = deepsignal_module_a.get(c),
v = p ? u.replace(deepsignal_module_i, "") : u;
if (y.has(v) || "function" != typeof (null == (g = deepsignal_module_f(t, v)) ? void 0 : g.get)) {
var d = Reflect.get(t, v, c);
if (p && "function" == typeof d) return;
if ("symbol" == typeof v && deepsignal_module_b.has(v)) return d;
y.has(v) || (R(d) && (deepsignal_module_o.has(d) || deepsignal_module_o.set(d, deepsignal_module_h(d, deepsignal_module_w)), d = deepsignal_module_o.get(d)), y.set(v, signals_core_module_a(d)));
} else y.set(v, signals_core_module_p(function () {
return Reflect.get(t, v, c);
}));
return p ? y.get(v) : y.get(v).value;
};
},
deepsignal_module_w = {
get: deepsignal_module_v(!1),
set: function (e, n, s, u) {
var l;
if ("function" == typeof (null == (l = deepsignal_module_f(e, n)) ? void 0 : l.set)) return Reflect.set(e, n, s, u);
deepsignal_module_a.has(u) || deepsignal_module_a.set(u, new Map());
var g = deepsignal_module_a.get(u);
if ("$" === n[0]) {
s instanceof signals_core_module_d || deepsignal_module_y();
var p = n.replace(deepsignal_module_i, "");
return g.set(p, s), Reflect.set(e, p, s.peek(), u);
}
var v = s;
R(s) && (deepsignal_module_o.has(s) || deepsignal_module_o.set(s, deepsignal_module_h(s, deepsignal_module_w)), v = deepsignal_module_o.get(s));
var m = !(n in e),
b = Reflect.set(e, n, s, u);
return g.has(n) ? g.get(n).value = v : g.set(n, signals_core_module_a(v)), m && deepsignal_module_c.has(e) && deepsignal_module_c.get(e).value++, Array.isArray(e) && g.has("length") && (g.get("length").value = e.length), b;
},
deleteProperty: function (e, t) {
"$" === t[0] && deepsignal_module_y();
var r = deepsignal_module_a.get(deepsignal_module_o.get(e)),
n = Reflect.deleteProperty(e, t);
return r && r.has(t) && (r.get(t).value = void 0), deepsignal_module_c.has(e) && deepsignal_module_c.get(e).value++, n;
},
ownKeys: function (e) {
return deepsignal_module_c.has(e) || deepsignal_module_c.set(e, signals_core_module_a(0)), deepsignal_module_c._ = deepsignal_module_c.get(e).value, Reflect.ownKeys(e);
}
},
deepsignal_module_m = {
get: deepsignal_module_v(!0),
set: deepsignal_module_y,
deleteProperty: deepsignal_module_y
},
deepsignal_module_b = new Set(Object.getOwnPropertyNames(Symbol).map(function (e) {
return Symbol[e];
}).filter(function (e) {
return "symbol" == typeof e;
})),
deepsignal_module_d = new Set([Object, Array]),
R = function (e) {
return "object" == typeof e && null !== e && (!("function" == typeof e.constructor && e.constructor.name in globalThis && globalThis[e.constructor.name] === e.constructor) || deepsignal_module_d.has(e.constructor)) && !deepsignal_module_u.has(e);
},
deepsignal_module_k = function (t) {
return e(function () {
return deepsignal_module_g(t);
}, []);
};
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/portals.js
/**
* External dependencies
*/
/**
* @param {import('../../src/index').RenderableProps<{ context: any }>} props
*/
function ContextProvider(props) {
this.getChildContext = () => props.context;
return props.children;
}
/**
* Portal component
*
* @this {import('./internal').Component}
* @param {object | null | undefined} props
*
* TODO: use createRoot() instead of fake root
*/
function Portal(props) {
const _this = this;
const container = props._container;
_this.componentWillUnmount = function () {
q(null, _this._temp);
_this._temp = null;
_this._container = null;
};
// When we change container we should clear our old container and
// indicate a new mount.
if (_this._container && _this._container !== container) {
_this.componentWillUnmount();
}
// When props.vnode is undefined/false/null we are dealing with some kind of
// conditional vnode. This should not trigger a render.
if (props._vnode) {
if (!_this._temp) {
_this._container = container;
// Create a fake DOM parent node that manages a subset of `container`'s children:
_this._temp = {
nodeType: 1,
parentNode: container,
childNodes: [],
appendChild(child) {
this.childNodes.push(child);
_this._container.appendChild(child);
},
insertBefore(child) {
this.childNodes.push(child);
_this._container.appendChild(child);
},
removeChild(child) {
this.childNodes.splice(
// eslint-disable-next-line no-bitwise
this.childNodes.indexOf(child) >>> 1, 1);
_this._container.removeChild(child);
}
};
}
// Render our wrapping element into temp.
q(y(ContextProvider, {
context: _this.context
}, props._vnode), _this._temp);
}
// When we come from a conditional render, on a mounted
// portal we should clear the DOM.
else if (_this._temp) {
_this.componentWillUnmount();
}
}
/**
* Create a `Portal` to continue rendering the vnode tree at a different DOM node
*
* @param {import('./internal').VNode} vnode The vnode to render
* @param {import('./internal').PreactElement} container The DOM node to continue rendering in to.
*/
function createPortal(vnode, container) {
const el = y(Portal, {
_vnode: vnode,
_container: container
});
el.containerInfo = container;
return el;
}
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/store.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
const isObject = item => !!item && typeof item === 'object' && !Array.isArray(item);
const deepMerge = (target, source) => {
if (isObject(target) && isObject(source)) {
for (const key in source) {
const getter = Object.getOwnPropertyDescriptor(source, key)?.get;
if (typeof getter === 'function') {
Object.defineProperty(target, key, {
get: getter
});
} else if (isObject(source[key])) {
if (!target[key]) Object.assign(target, {
[key]: {}
});
deepMerge(target[key], source[key]);
} else {
Object.assign(target, {
[key]: source[key]
});
}
}
}
};
const parseInitialState = () => {
const storeTag = document.querySelector(`script[type="application/json"]#wp-interactivity-data`);
if (!storeTag?.textContent) return {};
try {
const {
state
} = JSON.parse(storeTag.textContent);
if (isObject(state)) return state;
throw Error('Parsed state is not an object');
} catch (e) {
// eslint-disable-next-line no-console
console.log(e);
}
return {};
};
const stores = new Map();
const rawStores = new Map();
const storeLocks = new Map();
const objToProxy = new WeakMap();
const proxyToNs = new WeakMap();
const scopeToGetters = new WeakMap();
const proxify = (obj, ns) => {
if (!objToProxy.has(obj)) {
const proxy = new Proxy(obj, handlers);
objToProxy.set(obj, proxy);
proxyToNs.set(proxy, ns);
}
return objToProxy.get(obj);
};
const handlers = {
get: (target, key, receiver) => {
const ns = proxyToNs.get(receiver);
// Check if the property is a getter and we are inside an scope. If that is
// the case, we clone the getter to avoid overwriting the scoped
// dependencies of the computed each time that getter runs.
const getter = Object.getOwnPropertyDescriptor(target, key)?.get;
if (getter) {
const scope = getScope();
if (scope) {
const getters = scopeToGetters.get(scope) || scopeToGetters.set(scope, new Map()).get(scope);
if (!getters.has(getter)) {
getters.set(getter, signals_core_module_p(() => {
setNamespace(ns);
setScope(scope);
try {
return getter.call(target);
} finally {
resetScope();
resetNamespace();
}
}));
}
return getters.get(getter).value;
}
}
const result = Reflect.get(target, key, receiver);
// Check if the proxy is the store root and no key with that name exist. In
// that case, return an empty object for the requested key.
if (typeof result === 'undefined' && receiver === stores.get(ns)) {
const obj = {};
Reflect.set(target, key, obj, receiver);
return proxify(obj, ns);
}
// Check if the property is a generator. If it is, we turn it into an
// asynchronous function where we restore the default namespace and scope
// each time it awaits/yields.
if (result?.constructor?.name === 'GeneratorFunction') {
return async (...args) => {
const scope = getScope();
const gen = result(...args);
let value;
let it;
while (true) {
setNamespace(ns);
setScope(scope);
try {
it = gen.next(value);
} finally {
resetScope();
resetNamespace();
}
try {
value = await it.value;
} catch (e) {
gen.throw(e);
}
if (it.done) break;
}
return value;
};
}
// Check if the property is a synchronous function. If it is, set the
// default namespace. Synchronous functions always run in the proper scope,
// which is set by the Directives component.
if (typeof result === 'function') {
return (...args) => {
setNamespace(ns);
try {
return result(...args);
} finally {
resetNamespace();
}
};
}
// Check if the property is an object. If it is, proxyify it.
if (isObject(result)) return proxify(result, ns);
return result;
}
};
const universalUnlock = 'I acknowledge that using a private store means my plugin will inevitably break on the next store release.';
/**
* Extends the Interactivity API global store adding the passed properties to
* the given namespace. It also returns stable references to the namespace
* content.
*
* These props typically consist of `state`, which is the reactive part of the
* store ― which means that any directive referencing a state property will be
* re-rendered anytime it changes ― and function properties like `actions` and
* `callbacks`, mostly used for event handlers. These props can then be
* referenced by any directive to make the HTML interactive.
*
* @example
* ```js
* const { state } = store( 'counter', {
* state: {
* value: 0,
* get double() { return state.value * 2; },
* },
* actions: {
* increment() {
* state.value += 1;
* },
* },
* } );
* ```
*
* The code from the example above allows blocks to subscribe and interact with
* the store by using directives in the HTML, e.g.:
*
* ```html
*
*
*
* ```
* @param namespace The store namespace to interact with.
* @param storePart Properties to add to the store namespace.
* @param options Options for the given namespace.
*
* @return A reference to the namespace content.
*/
function store(namespace, {
state = {},
...block
} = {}, {
lock = false
} = {}) {
if (!stores.has(namespace)) {
// Lock the store if the passed lock is different from the universal
// unlock. Once the lock is set (either false, true, or a given string),
// it cannot change.
if (lock !== universalUnlock) {
storeLocks.set(namespace, lock);
}
const rawStore = {
state: deepsignal_module_g(state),
...block
};
const proxiedStore = new Proxy(rawStore, handlers);
rawStores.set(namespace, rawStore);
stores.set(namespace, proxiedStore);
proxyToNs.set(proxiedStore, namespace);
} else {
// Lock the store if it wasn't locked yet and the passed lock is
// different from the universal unlock. If no lock is given, the store
// will be public and won't accept any lock from now on.
if (lock !== universalUnlock && !storeLocks.has(namespace)) {
storeLocks.set(namespace, lock);
} else {
const storeLock = storeLocks.get(namespace);
const isLockValid = lock === universalUnlock || lock !== true && lock === storeLock;
if (!isLockValid) {
if (!storeLock) {
throw Error('Cannot lock a public store');
} else {
throw Error('Cannot unlock a private store with an invalid lock code');
}
}
}
const target = rawStores.get(namespace);
deepMerge(target, block);
deepMerge(target.state, state);
}
return stores.get(namespace);
}
// Parse and populate the initial state.
Object.entries(parseInitialState()).forEach(([namespace, state]) => {
store(namespace, {
state
});
});
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/hooks.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
// Main context.
const context = F({});
// Wrap the element props to prevent modifications.
const immutableMap = new WeakMap();
const immutableError = () => {
throw new Error('Please use `data-wp-bind` to modify the attributes of an element.');
};
const immutableHandlers = {
get(target, key, receiver) {
const value = Reflect.get(target, key, receiver);
return !!value && typeof value === 'object' ? deepImmutable(value) : value;
},
set: immutableError,
deleteProperty: immutableError
};
const deepImmutable = target => {
if (!immutableMap.has(target)) immutableMap.set(target, new Proxy(target, immutableHandlers));
return immutableMap.get(target);
};
// Store stacks for the current scope and the default namespaces and export APIs
// to interact with them.
const scopeStack = [];
const namespaceStack = [];
/**
* Retrieves the context inherited by the element evaluating a function from the
* store. The returned value depends on the element and the namespace where the
* function calling `getContext()` exists.
*
* @param namespace Store namespace. By default, the namespace where the calling
* function exists is used.
* @return The context content.
*/
const getContext = namespace => getScope()?.context[namespace || namespaceStack.slice(-1)[0]];
/**
* Retrieves a representation of the element where a function from the store
* is being evalutated. Such representation is read-only, and contains a
* reference to the DOM element, its props and a local reactive state.
*
* @return Element representation.
*/
const getElement = () => {
if (!getScope()) {
throw Error('Cannot call `getElement()` outside getters and actions used by directives.');
}
const {
ref,
attributes
} = getScope();
return Object.freeze({
ref: ref.current,
attributes: deepImmutable(attributes)
});
};
const getScope = () => scopeStack.slice(-1)[0];
const setScope = scope => {
scopeStack.push(scope);
};
const resetScope = () => {
scopeStack.pop();
};
const getNamespace = () => namespaceStack.slice(-1)[0];
const setNamespace = namespace => {
namespaceStack.push(namespace);
};
const resetNamespace = () => {
namespaceStack.pop();
};
// WordPress Directives.
const directiveCallbacks = {};
const directivePriorities = {};
/**
* Register a new directive type in the Interactivity API runtime.
*
* @example
* ```js
* directive(
* 'alert', // Name without the `data-wp-` prefix.
* ( { directives: { alert }, element, evaluate } ) => {
* const defaultEntry = alert.find( entry => entry.suffix === 'default' );
* element.props.onclick = () => { alert( evaluate( defaultEntry ) ); }
* }
* )
* ```
*
* The previous code registers a custom directive type for displaying an alert
* message whenever an element using it is clicked. The message text is obtained
* from the store under the inherited namespace, using `evaluate`.
*
* When the HTML is processed by the Interactivity API, any element containing
* the `data-wp-alert` directive will have the `onclick` event handler, e.g.,
*
* ```html
*
*
*
* ```
* Note that, in the previous example, the directive callback gets the path
* value (`state.alert`) from the directive entry with suffix `default`. A
* custom suffix can also be specified by appending `--` to the directive
* attribute, followed by the suffix, like in the following HTML snippet:
*
* ```html
*
*
*
* ```
*
* This could be an hypothetical implementation of the custom directive used in
* the snippet above.
*
* @example
* ```js
* directive(
* 'color', // Name without prefix and suffix.
* ( { directives: { color }, ref, evaluate } ) =>
* colors.forEach( ( color ) => {
* if ( color.suffix = 'text' ) {
* ref.style.setProperty(
* 'color',
* evaluate( color.text )
* );
* }
* if ( color.suffix = 'background' ) {
* ref.style.setProperty(
* 'background-color',
* evaluate( color.background )
* );
* }
* } );
* }
* )
* ```
*
* @param name Directive name, without the `data-wp-` prefix.
* @param callback Function that runs the directive logic.
* @param options Options object.
* @param options.priority Option to control the directive execution order. The
* lesser, the highest priority. Default is `10`.
*/
const directive = (name, callback, {
priority = 10
} = {}) => {
directiveCallbacks[name] = callback;
directivePriorities[name] = priority;
};
// Resolve the path to some property of the store object.
const resolve = (path, namespace) => {
let current = {
...stores.get(namespace),
context: getScope().context[namespace]
};
path.split('.').forEach(p => current = current[p]);
return current;
};
// Generate the evaluate function.
const getEvaluate = ({
scope
}) => (entry, ...args) => {
let {
value: path,
namespace
} = entry;
if (typeof path !== 'string') {
throw new Error('The `value` prop should be a string path');
}
// If path starts with !, remove it and save a flag.
const hasNegationOperator = path[0] === '!' && !!(path = path.slice(1));
setScope(scope);
const value = resolve(path, namespace);
const result = typeof value === 'function' ? value(...args) : value;
resetScope();
return hasNegationOperator ? !result : result;
};
// Separate directives by priority. The resulting array contains objects
// of directives grouped by same priority, and sorted in ascending order.
const getPriorityLevels = directives => {
const byPriority = Object.keys(directives).reduce((obj, name) => {
if (directiveCallbacks[name]) {
const priority = directivePriorities[name];
(obj[priority] = obj[priority] || []).push(name);
}
return obj;
}, {});
return Object.entries(byPriority).sort(([p1], [p2]) => parseInt(p1) - parseInt(p2)).map(([, arr]) => arr);
};
// Component that wraps each priority level of directives of an element.
const Directives = ({
directives,
priorityLevels: [currentPriorityLevel, ...nextPriorityLevels],
element,
originalProps,
previousScope
}) => {
// Initialize the scope of this element. These scopes are different per each
// level because each level has a different context, but they share the same
// element ref, state and props.
const scope = hooks_module_({}).current;
scope.evaluate = hooks_module_T(getEvaluate({
scope
}), []);
scope.context = hooks_module_q(context);
/* eslint-disable react-hooks/rules-of-hooks */
scope.ref = previousScope?.ref || hooks_module_(null);
/* eslint-enable react-hooks/rules-of-hooks */
// Create a fresh copy of the vnode element and add the props to the scope,
// named as attributes (HTML Attributes).
element = E(element, {
ref: scope.ref
});
scope.attributes = element.props;
// Recursively render the wrapper for the next priority level.
const children = nextPriorityLevels.length > 0 ? /*#__PURE__*/(0,react.createElement)(Directives, {
directives: directives,
priorityLevels: nextPriorityLevels,
element: element,
originalProps: originalProps,
previousScope: scope
}) : element;
const props = {
...originalProps,
children
};
const directiveArgs = {
directives,
props,
element,
context,
evaluate: scope.evaluate
};
setScope(scope);
for (const directiveName of currentPriorityLevel) {
const wrapper = directiveCallbacks[directiveName]?.(directiveArgs);
if (wrapper !== undefined) props.children = wrapper;
}
resetScope();
return props.children;
};
// Preact Options Hook called each time a vnode is created.
const old = l.vnode;
l.vnode = vnode => {
if (vnode.props.__directives) {
const props = vnode.props;
const directives = props.__directives;
if (directives.key) vnode.key = directives.key.find(({
suffix
}) => suffix === 'default').value;
delete props.__directives;
const priorityLevels = getPriorityLevels(directives);
if (priorityLevels.length > 0) {
vnode.props = {
directives,
priorityLevels,
originalProps: props,
type: vnode.type,
element: y(vnode.type, props),
top: true
};
vnode.type = Directives;
}
}
if (old) old(vnode);
};
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/utils.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
const afterNextFrame = callback => {
return new Promise(resolve => {
const done = () => {
clearTimeout(timeout);
window.cancelAnimationFrame(raf);
setTimeout(() => {
callback();
resolve();
});
};
const timeout = setTimeout(done, 100);
const raf = window.requestAnimationFrame(done);
});
};
// Using the mangled properties:
// this.c: this._callback
// this.x: this._compute
// https://github.com/preactjs/signals/blob/main/mangle.json
function createFlusher(compute, notify) {
let flush;
const dispose = signals_core_module_O(function () {
flush = this.c.bind(this);
this.x = compute;
this.c = notify;
return compute();
});
return {
flush,
dispose
};
}
// Version of `useSignalEffect` with a `useEffect`-like execution. This hook
// implementation comes from this PR, but we added short-cirtuiting to avoid
// infinite loops: https://github.com/preactjs/signals/pull/290
function utils_useSignalEffect(callback) {
hooks_module_p(() => {
let eff = null;
let isExecuting = false;
const notify = async () => {
if (eff && !isExecuting) {
isExecuting = true;
await afterNextFrame(eff.flush);
isExecuting = false;
}
};
eff = createFlusher(callback, notify);
return eff.dispose;
}, []);
}
/**
* Returns the passed function wrapped with the current scope so it is
* accessible whenever the function runs. This is primarily to make the scope
* available inside hook callbacks.
*
* @param {Function} func The passed function.
* @return {Function} The wrapped function.
*/
const withScope = func => {
const scope = getScope();
const ns = getNamespace();
if (func?.constructor?.name === 'GeneratorFunction') {
return async (...args) => {
const gen = func(...args);
let value;
let it;
while (true) {
setNamespace(ns);
setScope(scope);
try {
it = gen.next(value);
} finally {
resetNamespace();
resetScope();
}
try {
value = await it.value;
} catch (e) {
gen.throw(e);
}
if (it.done) break;
}
return value;
};
}
return (...args) => {
setNamespace(ns);
setScope(scope);
try {
return func(...args);
} finally {
resetNamespace();
resetScope();
}
};
};
/**
* Accepts a function that contains imperative code which runs whenever any of
* the accessed _reactive_ properties (e.g., values from the global state or the
* context) is modified.
*
* This hook makes the element's scope available so functions like
* `getElement()` and `getContext()` can be used inside the passed callback.
*
* @param {Function} callback The hook callback.
*/
function useWatch(callback) {
utils_useSignalEffect(withScope(callback));
}
/**
* Accepts a function that contains imperative code which runs only after the
* element's first render, mainly useful for intialization logic.
*
* This hook makes the element's scope available so functions like
* `getElement()` and `getContext()` can be used inside the passed callback.
*
* @param {Function} callback The hook callback.
*/
function useInit(callback) {
hooks_module_p(withScope(callback), []);
}
/**
* Accepts a function that contains imperative, possibly effectful code. The
* effects run after browser paint, without blocking it.
*
* This hook is equivalent to Preact's `useEffect` and makes the element's scope
* available so functions like `getElement()` and `getContext()` can be used
* inside the passed callback.
*
* @param {Function} callback Imperative function that can return a cleanup
* function.
* @param {any[]} inputs If present, effect will only activate if the
* values in the list change (using `===`).
*/
function useEffect(callback, inputs) {
hooks_module_p(withScope(callback), inputs);
}
/**
* Accepts a function that contains imperative, possibly effectful code. Use
* this to read layout from the DOM and synchronously re-render.
*
* This hook is equivalent to Preact's `useLayoutEffect` and makes the element's
* scope available so functions like `getElement()` and `getContext()` can be
* used inside the passed callback.
*
* @param {Function} callback Imperative function that can return a cleanup
* function.
* @param {any[]} inputs If present, effect will only activate if the
* values in the list change (using `===`).
*/
function useLayoutEffect(callback, inputs) {
hooks_module_y(withScope(callback), inputs);
}
/**
* Returns a memoized version of the callback that only changes if one of the
* inputs has changed (using `===`).
*
* This hook is equivalent to Preact's `useCallback` and makes the element's
* scope available so functions like `getElement()` and `getContext()` can be
* used inside the passed callback.
*
* @param {Function} callback Imperative function that can return a cleanup
* function.
* @param {any[]} inputs If present, effect will only activate if the
* values in the list change (using `===`).
*/
function useCallback(callback, inputs) {
hooks_module_T(withScope(callback), inputs);
}
/**
* Pass a factory function and an array of inputs. `useMemo` will only recompute
* the memoized value when one of the inputs has changed.
*
* This hook is equivalent to Preact's `useMemo` and makes the element's scope
* available so functions like `getElement()` and `getContext()` can be used
* inside the passed factory function.
*
* @param {Function} factory Imperative function that can return a cleanup
* function.
* @param {any[]} inputs If present, effect will only activate if the
* values in the list change (using `===`).
*/
function useMemo(factory, inputs) {
hooks_module_F(withScope(factory), inputs);
}
// For wrapperless hydration.
// See https://gist.github.com/developit/f4c67a2ede71dc2fab7f357f39cff28c
const createRootFragment = (parent, replaceNode) => {
replaceNode = [].concat(replaceNode);
const s = replaceNode[replaceNode.length - 1].nextSibling;
function insert(c, r) {
parent.insertBefore(c, r || s);
}
return parent.__k = {
nodeType: 1,
parentNode: parent,
firstChild: replaceNode[0],
childNodes: replaceNode,
insertBefore: insert,
appendChild: insert,
removeChild(c) {
parent.removeChild(c);
}
};
};
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/directives.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
const directives_isObject = item => item && typeof item === 'object' && !Array.isArray(item);
const mergeDeepSignals = (target, source, overwrite) => {
for (const k in source) {
if (directives_isObject(deepsignal_module_p(target, k)) && directives_isObject(deepsignal_module_p(source, k))) {
mergeDeepSignals(target[`$${k}`].peek(), source[`$${k}`].peek(), overwrite);
} else if (overwrite || typeof deepsignal_module_p(target, k) === 'undefined') {
target[`$${k}`] = source[`$${k}`];
}
}
};
const newRule = /(?:([\u0080-\uFFFF\w-%@]+) *:? *([^{;]+?);|([^;}{]*?) *{)|(}\s*)/g;
const ruleClean = /\/\*[^]*?\*\/| +/g;
const ruleNewline = /\n+/g;
const empty = ' ';
/**
* Convert a css style string into a object.
*
* Made by Cristian Bote (@cristianbote) for Goober.
* https://unpkg.com/browse/goober@2.1.13/src/core/astish.js
*
* @param {string} val CSS string.
* @return {Object} CSS object.
*/
const cssStringToObject = val => {
const tree = [{}];
let block, left;
while (block = newRule.exec(val.replace(ruleClean, ''))) {
if (block[4]) {
tree.shift();
} else if (block[3]) {
left = block[3].replace(ruleNewline, empty).trim();
tree.unshift(tree[0][left] = tree[0][left] || {});
} else {
tree[0][block[1]] = block[2].replace(ruleNewline, empty).trim();
}
}
return tree[0];
};
/**
* Creates a directive that adds an event listener to the global window or
* document object.
*
* @param {string} type 'window' or 'document'
* @return {void}
*/
const getGlobalEventDirective = type => ({
directives,
evaluate
}) => {
directives[`on-${type}`].filter(({
suffix
}) => suffix !== 'default').forEach(entry => {
useInit(() => {
const cb = event => evaluate(entry, event);
const globalVar = type === 'window' ? window : document;
globalVar.addEventListener(entry.suffix, cb);
return () => globalVar.removeEventListener(entry.suffix, cb);
}, []);
});
};
/* harmony default export */ var directives = (() => {
// data-wp-context
directive('context', ({
directives: {
context
},
props: {
children
},
context: inheritedContext
}) => {
const {
Provider
} = inheritedContext;
const inheritedValue = hooks_module_q(inheritedContext);
const currentValue = hooks_module_(deepsignal_module_g({}));
const passedValues = context.map(({
value
}) => value);
currentValue.current = hooks_module_F(() => {
const newValue = context.map(c => deepsignal_module_g({
[c.namespace]: c.value
})).reduceRight(mergeDeepSignals);
mergeDeepSignals(newValue, inheritedValue);
mergeDeepSignals(currentValue.current, newValue, true);
return currentValue.current;
}, [inheritedValue, ...passedValues]);
return /*#__PURE__*/(0,react.createElement)(Provider, {
value: currentValue.current
}, children);
}, {
priority: 5
});
// data-wp-body
directive('body', ({
props: {
children
}
}) => {
return createPortal(children, document.body);
});
// data-wp-watch--[name]
directive('watch', ({
directives: {
watch
},
evaluate
}) => {
watch.forEach(entry => {
useWatch(() => evaluate(entry));
});
});
// data-wp-init--[name]
directive('init', ({
directives: {
init
},
evaluate
}) => {
init.forEach(entry => {
// TODO: Replace with useEffect to prevent unneeded scopes.
useInit(() => evaluate(entry));
});
});
// data-wp-on--[event]
directive('on', ({
directives: {
on
},
element,
evaluate
}) => {
on.filter(({
suffix
}) => suffix !== 'default').forEach(entry => {
element.props[`on${entry.suffix}`] = event => {
evaluate(entry, event);
};
});
});
// data-wp-on-window--[event]
directive('on-window', getGlobalEventDirective('window'));
// data-wp-on-document--[event]
directive('on-document', getGlobalEventDirective('document'));
// data-wp-class--[classname]
directive('class', ({
directives: {
class: className
},
element,
evaluate
}) => {
className.filter(({
suffix
}) => suffix !== 'default').forEach(entry => {
const name = entry.suffix;
const result = evaluate(entry, {
className: name
});
const currentClass = element.props.class || '';
const classFinder = new RegExp(`(^|\\s)${name}(\\s|$)`, 'g');
if (!result) element.props.class = currentClass.replace(classFinder, ' ').trim();else if (!classFinder.test(currentClass)) element.props.class = currentClass ? `${currentClass} ${name}` : name;
useInit(() => {
/*
* This seems necessary because Preact doesn't change the class
* names on the hydration, so we have to do it manually. It doesn't
* need deps because it only needs to do it the first time.
*/
if (!result) {
element.ref.current.classList.remove(name);
} else {
element.ref.current.classList.add(name);
}
});
});
});
// data-wp-style--[style-key]
directive('style', ({
directives: {
style
},
element,
evaluate
}) => {
style.filter(({
suffix
}) => suffix !== 'default').forEach(entry => {
const key = entry.suffix;
const result = evaluate(entry, {
key
});
element.props.style = element.props.style || {};
if (typeof element.props.style === 'string') element.props.style = cssStringToObject(element.props.style);
if (!result) delete element.props.style[key];else element.props.style[key] = result;
useInit(() => {
/*
* This seems necessary because Preact doesn't change the styles on
* the hydration, so we have to do it manually. It doesn't need deps
* because it only needs to do it the first time.
*/
if (!result) {
element.ref.current.style.removeProperty(key);
} else {
element.ref.current.style[key] = result;
}
});
});
});
// data-wp-bind--[attribute]
directive('bind', ({
directives: {
bind
},
element,
evaluate
}) => {
bind.filter(({
suffix
}) => suffix !== 'default').forEach(entry => {
const attribute = entry.suffix;
const result = evaluate(entry);
element.props[attribute] = result;
/*
* This is necessary because Preact doesn't change the attributes on the
* hydration, so we have to do it manually. It only needs to do it the
* first time. After that, Preact will handle the changes.
*/
useInit(() => {
const el = element.ref.current;
/*
* We set the value directly to the corresponding HTMLElement instance
* property excluding the following special cases. We follow Preact's
* logic: https://github.com/preactjs/preact/blob/ea49f7a0f9d1ff2c98c0bdd66aa0cbc583055246/src/diff/props.js#L110-L129
*/
if (attribute !== 'width' && attribute !== 'height' && attribute !== 'href' && attribute !== 'list' && attribute !== 'form' &&
/*
* The value for `tabindex` follows the parsing rules for an
* integer. If that fails, or if the attribute isn't present, then
* the browsers should "follow platform conventions to determine if
* the element should be considered as a focusable area",
* practically meaning that most elements get a default of `-1` (not
* focusable), but several also get a default of `0` (focusable in
* order after all elements with a positive `tabindex` value).
*
* @see https://html.spec.whatwg.org/#tabindex-value
*/
attribute !== 'tabIndex' && attribute !== 'download' && attribute !== 'rowSpan' && attribute !== 'colSpan' && attribute !== 'role' && attribute in el) {
try {
el[attribute] = result === null || result === undefined ? '' : result;
return;
} catch (err) {}
}
/*
* aria- and data- attributes have no boolean representation.
* A `false` value is different from the attribute not being
* present, so we can't remove it.
* We follow Preact's logic: https://github.com/preactjs/preact/blob/ea49f7a0f9d1ff2c98c0bdd66aa0cbc583055246/src/diff/props.js#L131C24-L136
*/
if (result !== null && result !== undefined && (result !== false || attribute[4] === '-')) {
el.setAttribute(attribute, result);
} else {
el.removeAttribute(attribute);
}
});
});
});
// data-wp-ignore
directive('ignore', ({
element: {
type: Type,
props: {
innerHTML,
...rest
}
}
}) => {
// Preserve the initial inner HTML.
const cached = hooks_module_F(() => innerHTML, []);
return /*#__PURE__*/(0,react.createElement)(Type, {
dangerouslySetInnerHTML: {
__html: cached
},
...rest
});
});
// data-wp-text
directive('text', ({
directives: {
text
},
element,
evaluate
}) => {
const entry = text.find(({
suffix
}) => suffix === 'default');
try {
const result = evaluate(entry);
element.props.children = typeof result === 'object' ? null : result.toString();
} catch (e) {
element.props.children = null;
}
});
// data-wp-run
directive('run', ({
directives: {
run
},
evaluate
}) => {
run.forEach(entry => evaluate(entry));
});
// data-wp-each--[item]
directive('each', ({
directives: {
each,
'each-key': eachKey
},
context: inheritedContext,
element,
evaluate
}) => {
if (element.type !== 'template') return;
const {
Provider
} = inheritedContext;
const inheritedValue = hooks_module_q(inheritedContext);
const [entry] = each;
const {
namespace,
suffix
} = entry;
const list = evaluate(entry);
return list.map(item => {
const mergedContext = deepsignal_module_g({});
const itemProp = suffix === 'default' ? 'item' : suffix;
const newValue = deepsignal_module_g({
[namespace]: {
[itemProp]: item
}
});
mergeDeepSignals(newValue, inheritedValue);
mergeDeepSignals(mergedContext, newValue, true);
const scope = {
...getScope(),
context: mergedContext
};
const key = eachKey ? getEvaluate({
scope
})(eachKey[0]) : item;
return /*#__PURE__*/(0,react.createElement)(Provider, {
value: mergedContext,
key: key
}, element.props.content);
});
}, {
priority: 20
});
directive('each-child', () => null);
});
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/constants.js
const directivePrefix = 'wp';
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/vdom.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
const ignoreAttr = `data-${directivePrefix}-ignore`;
const islandAttr = `data-${directivePrefix}-interactive`;
const fullPrefix = `data-${directivePrefix}-`;
const namespaces = [];
const currentNamespace = () => {
var _namespaces;
return (_namespaces = namespaces[namespaces.length - 1]) !== null && _namespaces !== void 0 ? _namespaces : null;
};
// Regular expression for directive parsing.
const directiveParser = new RegExp(`^data-${directivePrefix}-` +
// ${p} must be a prefix string, like 'wp'.
// Match alphanumeric characters including hyphen-separated
// segments. It excludes underscore intentionally to prevent confusion.
// E.g., "custom-directive".
'([a-z0-9]+(?:-[a-z0-9]+)*)' +
// (Optional) Match '--' followed by any alphanumeric charachters. It
// excludes underscore intentionally to prevent confusion, but it can
// contain multiple hyphens. E.g., "--custom-prefix--with-more-info".
'(?:--([a-z0-9_-]+))?$', 'i' // Case insensitive.
);
// Regular expression for reference parsing. It can contain a namespace before
// the reference, separated by `::`, like `some-namespace::state.somePath`.
// Namespaces can contain any alphanumeric characters, hyphens, underscores or
// forward slashes. References don't have any restrictions.
const nsPathRegExp = /^([\w-_\/]+)::(.+)$/;
const hydratedIslands = new WeakSet();
// Recursive function that transforms a DOM tree into vDOM.
function toVdom(root) {
const treeWalker = document.createTreeWalker(root, 205 // ELEMENT + TEXT + COMMENT + CDATA_SECTION + PROCESSING_INSTRUCTION
);
function walk(node) {
const {
attributes,
nodeType,
localName
} = node;
if (nodeType === 3) return [node.data];
if (nodeType === 4) {
const next = treeWalker.nextSibling();
node.replaceWith(new window.Text(node.nodeValue));
return [node.nodeValue, next];
}
if (nodeType === 8 || nodeType === 7) {
const next = treeWalker.nextSibling();
node.remove();
return [null, next];
}
const props = {};
const children = [];
const directives = [];
let ignore = false;
let island = false;
for (let i = 0; i < attributes.length; i++) {
const n = attributes[i].name;
if (n[fullPrefix.length] && n.slice(0, fullPrefix.length) === fullPrefix) {
if (n === ignoreAttr) {
ignore = true;
} else {
var _nsPathRegExp$exec$sl;
let [ns, value] = (_nsPathRegExp$exec$sl = nsPathRegExp.exec(attributes[i].value)?.slice(1)) !== null && _nsPathRegExp$exec$sl !== void 0 ? _nsPathRegExp$exec$sl : [null, attributes[i].value];
try {
value = JSON.parse(value);
} catch (e) {}
if (n === islandAttr) {
var _value$namespace;
island = true;
namespaces.push((_value$namespace = value?.namespace) !== null && _value$namespace !== void 0 ? _value$namespace : null);
} else {
directives.push([n, ns, value]);
}
}
} else if (n === 'ref') {
continue;
}
props[n] = attributes[i].value;
}
if (ignore && !island) return [y(localName, {
...props,
innerHTML: node.innerHTML,
__directives: {
ignore: true
}
})];
if (island) hydratedIslands.add(node);
if (directives.length) {
props.__directives = directives.reduce((obj, [name, ns, value]) => {
const [, prefix, suffix = 'default'] = directiveParser.exec(name);
if (!obj[prefix]) obj[prefix] = [];
obj[prefix].push({
namespace: ns !== null && ns !== void 0 ? ns : currentNamespace(),
value,
suffix
});
return obj;
}, {});
}
if (localName === 'template') {
props.content = [...node.content.childNodes].map(childNode => toVdom(childNode));
} else {
let child = treeWalker.firstChild();
if (child) {
while (child) {
const [vnode, nextChild] = walk(child);
if (vnode) children.push(vnode);
child = nextChild || treeWalker.nextSibling();
}
treeWalker.parentNode();
}
}
// Restore previous namespace.
if (island) namespaces.pop();
return [y(localName, props, children)];
}
return walk(treeWalker.currentNode);
}
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/init.js
/**
* External dependencies
*/
/**
* Internal dependencies
*/
// Keep the same root fragment for each interactive region node.
const regionRootFragments = new WeakMap();
const getRegionRootFragment = region => {
if (!regionRootFragments.has(region)) {
regionRootFragments.set(region, createRootFragment(region.parentElement, region));
}
return regionRootFragments.get(region);
};
// Initialize the router with the initial DOM.
const init = async () => {
document.querySelectorAll(`[data-${directivePrefix}-interactive]`).forEach(node => {
if (!hydratedIslands.has(node)) {
const fragment = getRegionRootFragment(node);
const vdom = toVdom(node);
B(vdom, fragment);
}
});
};
;// CONCATENATED MODULE: ./node_modules/@wordpress/interactivity/build-module/index.js
/**
* Internal dependencies
*/
document.addEventListener('DOMContentLoaded', async () => {
directives();
await init();
});
}();
var __webpack_exports__cloneElement = __webpack_exports__.Tm;
var __webpack_exports__createElement = __webpack_exports__.az;
var __webpack_exports__deepSignal = __webpack_exports__.Aj;
var __webpack_exports__directive = __webpack_exports__.XM;
var __webpack_exports__directivePrefix = __webpack_exports__.LO;
var __webpack_exports__getContext = __webpack_exports__.fw;
var __webpack_exports__getElement = __webpack_exports__.sb;
var __webpack_exports__getNamespace = __webpack_exports__.D_;
var __webpack_exports__getRegionRootFragment = __webpack_exports__.y7;
var __webpack_exports__render = __webpack_exports__.sY;
var __webpack_exports__store = __webpack_exports__.h;
var __webpack_exports__toVdom = __webpack_exports__.l2;
var __webpack_exports__useCallback = __webpack_exports__.I4;
var __webpack_exports__useContext = __webpack_exports__.qp;
var __webpack_exports__useEffect = __webpack_exports__.d4;
var __webpack_exports__useInit = __webpack_exports__.Dp;
var __webpack_exports__useLayoutEffect = __webpack_exports__.bt;
var __webpack_exports__useMemo = __webpack_exports__.Ye;
var __webpack_exports__useRef = __webpack_exports__.sO;
var __webpack_exports__useState = __webpack_exports__.eJ;
var __webpack_exports__useWatch = __webpack_exports__.qo;
var __webpack_exports__withScope = __webpack_exports__.$e;
export { __webpack_exports__cloneElement as cloneElement, __webpack_exports__createElement as createElement, __webpack_exports__deepSignal as deepSignal, __webpack_exports__directive as directive, __webpack_exports__directivePrefix as directivePrefix, __webpack_exports__getContext as getContext, __webpack_exports__getElement as getElement, __webpack_exports__getNamespace as getNamespace, __webpack_exports__getRegionRootFragment as getRegionRootFragment, __webpack_exports__render as render, __webpack_exports__store as store, __webpack_exports__toVdom as toVdom, __webpack_exports__useCallback as useCallback, __webpack_exports__useContext as useContext, __webpack_exports__useEffect as useEffect, __webpack_exports__useInit as useInit, __webpack_exports__useLayoutEffect as useLayoutEffect, __webpack_exports__useMemo as useMemo, __webpack_exports__useRef as useRef, __webpack_exports__useState as useState, __webpack_exports__useWatch as useWatch, __webpack_exports__withScope as withScope };