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prioritized.grouping/docs/shinylive-sw.js

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// Shinylive 0.2.3
// Copyright 2023 RStudio, PBC
var __require = /* @__PURE__ */ ((x2) => typeof require !== "undefined" ? require : typeof Proxy !== "undefined" ? new Proxy(x2, {
get: (a, b2) => (typeof require !== "undefined" ? require : a)[b2]
}) : x2)(function(x2) {
if (typeof require !== "undefined")
return require.apply(this, arguments);
throw Error('Dynamic require of "' + x2 + '" is not supported');
});
// src/assets/shinylive-inject-socket.txt
var shinylive_inject_socket_default = '// src/messageportwebsocket.ts\nvar MessagePortWebSocket = class extends EventTarget {\n constructor(port) {\n super();\n this.readyState = 0;\n this.addEventListener("open", (e) => {\n if (this.onopen) {\n this.onopen(e);\n }\n });\n this.addEventListener("message", (e) => {\n if (this.onmessage) {\n this.onmessage(e);\n }\n });\n this.addEventListener("error", (e) => {\n if (this.onerror) {\n this.onerror(e);\n }\n });\n this.addEventListener("close", (e) => {\n if (this.onclose) {\n this.onclose(e);\n }\n });\n this._port = port;\n port.addEventListener("message", this._onMessage.bind(this));\n port.start();\n }\n // Call on the server side of the connection, to tell the client that\n // the connection has been established.\n accept() {\n if (this.readyState !== 0) {\n return;\n }\n this.readyState = 1;\n this._port.postMessage({ type: "open" });\n }\n send(data) {\n if (this.readyState === 0) {\n throw new DOMException(\n "Can\'t send messages while WebSocket is in CONNECTING state",\n "InvalidStateError"\n );\n }\n if (this.readyState > 1) {\n return;\n }\n this._port.postMessage({ type: "message", value: { data } });\n }\n close(code, reason) {\n if (this.readyState > 1) {\n return;\n }\n this.readyState = 2;\n this._port.postMessage({ type: "close", value: { code, reason } });\n this.readyState = 3;\n this.dispatchEvent(new CloseEvent("close", { code, reason }));\n }\n _onMessage(e) {\n const event = e.data;\n switch (event.type) {\n case "open":\n if (this.readyState === 0) {\n this.readyState = 1;\n this.dispatchEvent(new Event("open"));\n return;\n }\n break;\n case "message":\n if (this.readyState === 1) {\n this.dispatchEvent(new MessageEvent("message", { ...event.value }));\n return;\n }\n break;\n case "close":\n if (this.readyState < 3) {\n this.readyState = 3;\n this.dispatchEvent(new CloseEvent("close", { ...event.value }));\n return;\n }\n break;\n }\n this._reportError(\n `Unexpected event \'${event.type}\' while in readyState ${this.readyState}`,\n 1002\n );\n }\n _reportError(message, code) {\n this.dispatchEvent(new ErrorEvent("error", { message }));\n if (typeof code === "number") {\n this.close(code, message);\n }\n }\n};\n\n// src/shinylive-inject-socket.ts\nwindow.Shiny.createSocket = function() {\n const channel = new MessageChannel();\n window.parent.postMessage(\n {\n type: "openChannel",\n // Infer app name from path: "/foo/app_abc123/"" => "app_abc123"\n appName: window.location.pathname.replace(\n new RegExp(".*/([^/]+)/$"),\n "$1"\n ),\n path: "/websocket/"\n },\n "*",\n [channel.port2]\n );\n return new MessagePortWebSocket(channel.port1);\n};\n';
// src/utils.ts
function sleep(ms) {
return new Promise((resolve) => setTimeout(resolve, ms));
}
function dirname(path) {
if (path === "/" || path === "") {
return "";
}
return path.replace(/[/]?[^/]+[/]?$/, "");
}
function uint8ArrayToString(buf) {
let result = "";
for (let i2 = 0; i2 < buf.length; i2++) {
result += String.fromCharCode(buf[i2]);
}
return result;
}
// node_modules/webr/dist/webr.mjs
var $s = Object.create;
var Xr = Object.defineProperty;
var Gs = Object.getOwnPropertyDescriptor;
var Ks = Object.getOwnPropertyNames;
var Qs = Object.getPrototypeOf;
var Zs = Object.prototype.hasOwnProperty;
var U = ((r) => typeof __require < "u" ? __require : typeof Proxy < "u" ? new Proxy(r, { get: (e, t) => (typeof __require < "u" ? __require : e)[t] }) : r)(function(r) {
if (typeof __require < "u")
return __require.apply(this, arguments);
throw new Error('Dynamic require of "' + r + '" is not supported');
});
var _ = (r, e) => () => (e || r((e = { exports: {} }).exports, e), e.exports);
var Ys = (r, e, t, s) => {
if (e && typeof e == "object" || typeof e == "function")
for (let n of Ks(e))
!Zs.call(r, n) && n !== t && Xr(r, n, { get: () => e[n], enumerable: !(s = Gs(e, n)) || s.enumerable });
return r;
};
var te = (r, e, t) => (t = r != null ? $s(Qs(r)) : {}, Ys(e || !r || !r.__esModule ? Xr(t, "default", { value: r, enumerable: true }) : t, r));
var ur = (r, e, t) => {
if (!e.has(r))
throw TypeError("Cannot " + t);
};
var i = (r, e, t) => (ur(r, e, "read from private field"), t ? t.call(r) : e.get(r));
var u = (r, e, t) => {
if (e.has(r))
throw TypeError("Cannot add the same private member more than once");
e instanceof WeakSet ? e.add(r) : e.set(r, t);
};
var d = (r, e, t, s) => (ur(r, e, "write to private field"), s ? s.call(r, t) : e.set(r, t), t);
var x = (r, e, t) => (ur(r, e, "access private method"), t);
var Oe = _((I) => {
"use strict";
Object.defineProperty(I, "__esModule", { value: true });
I.getUint64 = I.getInt64 = I.setInt64 = I.setUint64 = I.UINT32_MAX = void 0;
I.UINT32_MAX = 4294967295;
function rn(r, e, t) {
let s = t / 4294967296, n = t;
r.setUint32(e, s), r.setUint32(e + 4, n);
}
I.setUint64 = rn;
function sn(r, e, t) {
let s = Math.floor(t / 4294967296), n = t;
r.setUint32(e, s), r.setUint32(e + 4, n);
}
I.setInt64 = sn;
function nn(r, e) {
let t = r.getInt32(e), s = r.getUint32(e + 4);
return t * 4294967296 + s;
}
I.getInt64 = nn;
function on(r, e) {
let t = r.getUint32(e), s = r.getUint32(e + 4);
return t * 4294967296 + s;
}
I.getUint64 = on;
});
var mt = _((S) => {
"use strict";
var dr, hr, yr;
Object.defineProperty(S, "__esModule", { value: true });
S.utf8DecodeTD = S.TEXT_DECODER_THRESHOLD = S.utf8DecodeJs = S.utf8EncodeTE = S.TEXT_ENCODER_THRESHOLD = S.utf8EncodeJs = S.utf8Count = void 0;
var Qr = Oe(), Rt = (typeof process > "u" || ((dr = process == null ? void 0 : process.env) === null || dr === void 0 ? void 0 : dr.TEXT_ENCODING) !== "never") && typeof TextEncoder < "u" && typeof TextDecoder < "u";
function an(r) {
let e = r.length, t = 0, s = 0;
for (; s < e; ) {
let n = r.charCodeAt(s++);
if (n & 4294967168)
if (!(n & 4294965248))
t += 2;
else {
if (n >= 55296 && n <= 56319 && s < e) {
let o = r.charCodeAt(s);
(o & 64512) === 56320 && (++s, n = ((n & 1023) << 10) + (o & 1023) + 65536);
}
n & 4294901760 ? t += 4 : t += 3;
}
else {
t++;
continue;
}
}
return t;
}
S.utf8Count = an;
function ln(r, e, t) {
let s = r.length, n = t, o = 0;
for (; o < s; ) {
let a = r.charCodeAt(o++);
if (a & 4294967168)
if (!(a & 4294965248))
e[n++] = a >> 6 & 31 | 192;
else {
if (a >= 55296 && a <= 56319 && o < s) {
let c = r.charCodeAt(o);
(c & 64512) === 56320 && (++o, a = ((a & 1023) << 10) + (c & 1023) + 65536);
}
a & 4294901760 ? (e[n++] = a >> 18 & 7 | 240, e[n++] = a >> 12 & 63 | 128, e[n++] = a >> 6 & 63 | 128) : (e[n++] = a >> 12 & 15 | 224, e[n++] = a >> 6 & 63 | 128);
}
else {
e[n++] = a;
continue;
}
e[n++] = a & 63 | 128;
}
}
S.utf8EncodeJs = ln;
var Ae = Rt ? new TextEncoder() : void 0;
S.TEXT_ENCODER_THRESHOLD = Rt ? typeof process < "u" && ((hr = process == null ? void 0 : process.env) === null || hr === void 0 ? void 0 : hr.TEXT_ENCODING) !== "force" ? 200 : 0 : Qr.UINT32_MAX;
function cn(r, e, t) {
e.set(Ae.encode(r), t);
}
function un(r, e, t) {
Ae.encodeInto(r, e.subarray(t));
}
S.utf8EncodeTE = Ae != null && Ae.encodeInto ? un : cn;
var pn = 4096;
function dn(r, e, t) {
let s = e, n = s + t, o = [], a = "";
for (; s < n; ) {
let c = r[s++];
if (!(c & 128))
o.push(c);
else if ((c & 224) === 192) {
let p = r[s++] & 63;
o.push((c & 31) << 6 | p);
} else if ((c & 240) === 224) {
let p = r[s++] & 63, v = r[s++] & 63;
o.push((c & 31) << 12 | p << 6 | v);
} else if ((c & 248) === 240) {
let p = r[s++] & 63, v = r[s++] & 63, ee = r[s++] & 63, z = (c & 7) << 18 | p << 12 | v << 6 | ee;
z > 65535 && (z -= 65536, o.push(z >>> 10 & 1023 | 55296), z = 56320 | z & 1023), o.push(z);
} else
o.push(c);
o.length >= pn && (a += String.fromCharCode(...o), o.length = 0);
}
return o.length > 0 && (a += String.fromCharCode(...o)), a;
}
S.utf8DecodeJs = dn;
var hn = Rt ? new TextDecoder() : null;
S.TEXT_DECODER_THRESHOLD = Rt ? typeof process < "u" && ((yr = process == null ? void 0 : process.env) === null || yr === void 0 ? void 0 : yr.TEXT_DECODER) !== "force" ? 200 : 0 : Qr.UINT32_MAX;
function yn(r, e, t) {
let s = r.subarray(e, e + t);
return hn.decode(s);
}
S.utf8DecodeTD = yn;
});
var Rr = _((gt) => {
"use strict";
Object.defineProperty(gt, "__esModule", { value: true });
gt.ExtData = void 0;
var fr = class {
constructor(e, t) {
this.type = e, this.data = t;
}
};
gt.ExtData = fr;
});
var wt = _((bt) => {
"use strict";
Object.defineProperty(bt, "__esModule", { value: true });
bt.DecodeError = void 0;
var he = class extends Error {
constructor(e) {
super(e);
let t = Object.create(he.prototype);
Object.setPrototypeOf(this, t), Object.defineProperty(this, "name", { configurable: true, enumerable: false, value: he.name });
}
};
bt.DecodeError = he;
});
var mr = _((T) => {
"use strict";
Object.defineProperty(T, "__esModule", { value: true });
T.timestampExtension = T.decodeTimestampExtension = T.decodeTimestampToTimeSpec = T.encodeTimestampExtension = T.encodeDateToTimeSpec = T.encodeTimeSpecToTimestamp = T.EXT_TIMESTAMP = void 0;
var fn = wt(), Zr = Oe();
T.EXT_TIMESTAMP = -1;
var Rn = 4294967296 - 1, mn = 17179869184 - 1;
function Yr({ sec: r, nsec: e }) {
if (r >= 0 && e >= 0 && r <= mn)
if (e === 0 && r <= Rn) {
let t = new Uint8Array(4);
return new DataView(t.buffer).setUint32(0, r), t;
} else {
let t = r / 4294967296, s = r & 4294967295, n = new Uint8Array(8), o = new DataView(n.buffer);
return o.setUint32(0, e << 2 | t & 3), o.setUint32(4, s), n;
}
else {
let t = new Uint8Array(12), s = new DataView(t.buffer);
return s.setUint32(0, e), (0, Zr.setInt64)(s, 4, r), t;
}
}
T.encodeTimeSpecToTimestamp = Yr;
function es(r) {
let e = r.getTime(), t = Math.floor(e / 1e3), s = (e - t * 1e3) * 1e6, n = Math.floor(s / 1e9);
return { sec: t + n, nsec: s - n * 1e9 };
}
T.encodeDateToTimeSpec = es;
function ts(r) {
if (r instanceof Date) {
let e = es(r);
return Yr(e);
} else
return null;
}
T.encodeTimestampExtension = ts;
function rs(r) {
let e = new DataView(r.buffer, r.byteOffset, r.byteLength);
switch (r.byteLength) {
case 4:
return { sec: e.getUint32(0), nsec: 0 };
case 8: {
let t = e.getUint32(0), s = e.getUint32(4), n = (t & 3) * 4294967296 + s, o = t >>> 2;
return { sec: n, nsec: o };
}
case 12: {
let t = (0, Zr.getInt64)(e, 4), s = e.getUint32(0);
return { sec: t, nsec: s };
}
default:
throw new fn.DecodeError(`Unrecognized data size for timestamp (expected 4, 8, or 12): ${r.length}`);
}
}
T.decodeTimestampToTimeSpec = rs;
function ss(r) {
let e = rs(r);
return new Date(e.sec * 1e3 + e.nsec / 1e6);
}
T.decodeTimestampExtension = ss;
T.timestampExtension = { type: T.EXT_TIMESTAMP, encode: ts, decode: ss };
});
var Et = _((vt) => {
"use strict";
Object.defineProperty(vt, "__esModule", { value: true });
vt.ExtensionCodec = void 0;
var xt = Rr(), gn = mr(), Ie = class {
constructor() {
this.builtInEncoders = [], this.builtInDecoders = [], this.encoders = [], this.decoders = [], this.register(gn.timestampExtension);
}
register({ type: e, encode: t, decode: s }) {
if (e >= 0)
this.encoders[e] = t, this.decoders[e] = s;
else {
let n = 1 + e;
this.builtInEncoders[n] = t, this.builtInDecoders[n] = s;
}
}
tryToEncode(e, t) {
for (let s = 0; s < this.builtInEncoders.length; s++) {
let n = this.builtInEncoders[s];
if (n != null) {
let o = n(e, t);
if (o != null) {
let a = -1 - s;
return new xt.ExtData(a, o);
}
}
}
for (let s = 0; s < this.encoders.length; s++) {
let n = this.encoders[s];
if (n != null) {
let o = n(e, t);
if (o != null) {
let a = s;
return new xt.ExtData(a, o);
}
}
}
return e instanceof xt.ExtData ? e : null;
}
decode(e, t, s) {
let n = t < 0 ? this.builtInDecoders[-1 - t] : this.decoders[t];
return n ? n(e, t, s) : new xt.ExtData(t, e);
}
};
vt.ExtensionCodec = Ie;
Ie.defaultCodec = new Ie();
});
var gr = _((ye) => {
"use strict";
Object.defineProperty(ye, "__esModule", { value: true });
ye.createDataView = ye.ensureUint8Array = void 0;
function ns(r) {
return r instanceof Uint8Array ? r : ArrayBuffer.isView(r) ? new Uint8Array(r.buffer, r.byteOffset, r.byteLength) : r instanceof ArrayBuffer ? new Uint8Array(r) : Uint8Array.from(r);
}
ye.ensureUint8Array = ns;
function bn(r) {
if (r instanceof ArrayBuffer)
return new DataView(r);
let e = ns(r);
return new DataView(e.buffer, e.byteOffset, e.byteLength);
}
ye.createDataView = bn;
});
var wr = _((N) => {
"use strict";
Object.defineProperty(N, "__esModule", { value: true });
N.Encoder = N.DEFAULT_INITIAL_BUFFER_SIZE = N.DEFAULT_MAX_DEPTH = void 0;
var Ue = mt(), wn = Et(), os = Oe(), xn = gr();
N.DEFAULT_MAX_DEPTH = 100;
N.DEFAULT_INITIAL_BUFFER_SIZE = 2048;
var br = class {
constructor(e = wn.ExtensionCodec.defaultCodec, t = void 0, s = N.DEFAULT_MAX_DEPTH, n = N.DEFAULT_INITIAL_BUFFER_SIZE, o = false, a = false, c = false, p = false) {
this.extensionCodec = e, this.context = t, this.maxDepth = s, this.initialBufferSize = n, this.sortKeys = o, this.forceFloat32 = a, this.ignoreUndefined = c, this.forceIntegerToFloat = p, this.pos = 0, this.view = new DataView(new ArrayBuffer(this.initialBufferSize)), this.bytes = new Uint8Array(this.view.buffer);
}
reinitializeState() {
this.pos = 0;
}
encodeSharedRef(e) {
return this.reinitializeState(), this.doEncode(e, 1), this.bytes.subarray(0, this.pos);
}
encode(e) {
return this.reinitializeState(), this.doEncode(e, 1), this.bytes.slice(0, this.pos);
}
doEncode(e, t) {
if (t > this.maxDepth)
throw new Error(`Too deep objects in depth ${t}`);
e == null ? this.encodeNil() : typeof e == "boolean" ? this.encodeBoolean(e) : typeof e == "number" ? this.encodeNumber(e) : typeof e == "string" ? this.encodeString(e) : this.encodeObject(e, t);
}
ensureBufferSizeToWrite(e) {
let t = this.pos + e;
this.view.byteLength < t && this.resizeBuffer(t * 2);
}
resizeBuffer(e) {
let t = new ArrayBuffer(e), s = new Uint8Array(t), n = new DataView(t);
s.set(this.bytes), this.view = n, this.bytes = s;
}
encodeNil() {
this.writeU8(192);
}
encodeBoolean(e) {
e === false ? this.writeU8(194) : this.writeU8(195);
}
encodeNumber(e) {
Number.isSafeInteger(e) && !this.forceIntegerToFloat ? e >= 0 ? e < 128 ? this.writeU8(e) : e < 256 ? (this.writeU8(204), this.writeU8(e)) : e < 65536 ? (this.writeU8(205), this.writeU16(e)) : e < 4294967296 ? (this.writeU8(206), this.writeU32(e)) : (this.writeU8(207), this.writeU64(e)) : e >= -32 ? this.writeU8(224 | e + 32) : e >= -128 ? (this.writeU8(208), this.writeI8(e)) : e >= -32768 ? (this.writeU8(209), this.writeI16(e)) : e >= -2147483648 ? (this.writeU8(210), this.writeI32(e)) : (this.writeU8(211), this.writeI64(e)) : this.forceFloat32 ? (this.writeU8(202), this.writeF32(e)) : (this.writeU8(203), this.writeF64(e));
}
writeStringHeader(e) {
if (e < 32)
this.writeU8(160 + e);
else if (e < 256)
this.writeU8(217), this.writeU8(e);
else if (e < 65536)
this.writeU8(218), this.writeU16(e);
else if (e < 4294967296)
this.writeU8(219), this.writeU32(e);
else
throw new Error(`Too long string: ${e} bytes in UTF-8`);
}
encodeString(e) {
if (e.length > Ue.TEXT_ENCODER_THRESHOLD) {
let n = (0, Ue.utf8Count)(e);
this.ensureBufferSizeToWrite(5 + n), this.writeStringHeader(n), (0, Ue.utf8EncodeTE)(e, this.bytes, this.pos), this.pos += n;
} else {
let n = (0, Ue.utf8Count)(e);
this.ensureBufferSizeToWrite(5 + n), this.writeStringHeader(n), (0, Ue.utf8EncodeJs)(e, this.bytes, this.pos), this.pos += n;
}
}
encodeObject(e, t) {
let s = this.extensionCodec.tryToEncode(e, this.context);
if (s != null)
this.encodeExtension(s);
else if (Array.isArray(e))
this.encodeArray(e, t);
else if (ArrayBuffer.isView(e))
this.encodeBinary(e);
else if (typeof e == "object")
this.encodeMap(e, t);
else
throw new Error(`Unrecognized object: ${Object.prototype.toString.apply(e)}`);
}
encodeBinary(e) {
let t = e.byteLength;
if (t < 256)
this.writeU8(196), this.writeU8(t);
else if (t < 65536)
this.writeU8(197), this.writeU16(t);
else if (t < 4294967296)
this.writeU8(198), this.writeU32(t);
else
throw new Error(`Too large binary: ${t}`);
let s = (0, xn.ensureUint8Array)(e);
this.writeU8a(s);
}
encodeArray(e, t) {
let s = e.length;
if (s < 16)
this.writeU8(144 + s);
else if (s < 65536)
this.writeU8(220), this.writeU16(s);
else if (s < 4294967296)
this.writeU8(221), this.writeU32(s);
else
throw new Error(`Too large array: ${s}`);
for (let n of e)
this.doEncode(n, t + 1);
}
countWithoutUndefined(e, t) {
let s = 0;
for (let n of t)
e[n] !== void 0 && s++;
return s;
}
encodeMap(e, t) {
let s = Object.keys(e);
this.sortKeys && s.sort();
let n = this.ignoreUndefined ? this.countWithoutUndefined(e, s) : s.length;
if (n < 16)
this.writeU8(128 + n);
else if (n < 65536)
this.writeU8(222), this.writeU16(n);
else if (n < 4294967296)
this.writeU8(223), this.writeU32(n);
else
throw new Error(`Too large map object: ${n}`);
for (let o of s) {
let a = e[o];
this.ignoreUndefined && a === void 0 || (this.encodeString(o), this.doEncode(a, t + 1));
}
}
encodeExtension(e) {
let t = e.data.length;
if (t === 1)
this.writeU8(212);
else if (t === 2)
this.writeU8(213);
else if (t === 4)
this.writeU8(214);
else if (t === 8)
this.writeU8(215);
else if (t === 16)
this.writeU8(216);
else if (t < 256)
this.writeU8(199), this.writeU8(t);
else if (t < 65536)
this.writeU8(200), this.writeU16(t);
else if (t < 4294967296)
this.writeU8(201), this.writeU32(t);
else
throw new Error(`Too large extension object: ${t}`);
this.writeI8(e.type), this.writeU8a(e.data);
}
writeU8(e) {
this.ensureBufferSizeToWrite(1), this.view.setUint8(this.pos, e), this.pos++;
}
writeU8a(e) {
let t = e.length;
this.ensureBufferSizeToWrite(t), this.bytes.set(e, this.pos), this.pos += t;
}
writeI8(e) {
this.ensureBufferSizeToWrite(1), this.view.setInt8(this.pos, e), this.pos++;
}
writeU16(e) {
this.ensureBufferSizeToWrite(2), this.view.setUint16(this.pos, e), this.pos += 2;
}
writeI16(e) {
this.ensureBufferSizeToWrite(2), this.view.setInt16(this.pos, e), this.pos += 2;
}
writeU32(e) {
this.ensureBufferSizeToWrite(4), this.view.setUint32(this.pos, e), this.pos += 4;
}
writeI32(e) {
this.ensureBufferSizeToWrite(4), this.view.setInt32(this.pos, e), this.pos += 4;
}
writeF32(e) {
this.ensureBufferSizeToWrite(4), this.view.setFloat32(this.pos, e), this.pos += 4;
}
writeF64(e) {
this.ensureBufferSizeToWrite(8), this.view.setFloat64(this.pos, e), this.pos += 8;
}
writeU64(e) {
this.ensureBufferSizeToWrite(8), (0, os.setUint64)(this.view, this.pos, e), this.pos += 8;
}
writeI64(e) {
this.ensureBufferSizeToWrite(8), (0, os.setInt64)(this.view, this.pos, e), this.pos += 8;
}
};
N.Encoder = br;
});
var is = _((Pt) => {
"use strict";
Object.defineProperty(Pt, "__esModule", { value: true });
Pt.encode = void 0;
var vn = wr(), En = {};
function Pn(r, e = En) {
return new vn.Encoder(e.extensionCodec, e.context, e.maxDepth, e.initialBufferSize, e.sortKeys, e.forceFloat32, e.ignoreUndefined, e.forceIntegerToFloat).encodeSharedRef(r);
}
Pt.encode = Pn;
});
var as = _((Tt) => {
"use strict";
Object.defineProperty(Tt, "__esModule", { value: true });
Tt.prettyByte = void 0;
function Tn(r) {
return `${r < 0 ? "-" : ""}0x${Math.abs(r).toString(16).padStart(2, "0")}`;
}
Tt.prettyByte = Tn;
});
var ls = _((_t) => {
"use strict";
Object.defineProperty(_t, "__esModule", { value: true });
_t.CachedKeyDecoder = void 0;
var _n = mt(), Sn = 16, Mn = 16, xr = class {
constructor(e = Sn, t = Mn) {
this.maxKeyLength = e, this.maxLengthPerKey = t, this.hit = 0, this.miss = 0, this.caches = [];
for (let s = 0; s < this.maxKeyLength; s++)
this.caches.push([]);
}
canBeCached(e) {
return e > 0 && e <= this.maxKeyLength;
}
find(e, t, s) {
let n = this.caches[s - 1];
e:
for (let o of n) {
let a = o.bytes;
for (let c = 0; c < s; c++)
if (a[c] !== e[t + c])
continue e;
return o.str;
}
return null;
}
store(e, t) {
let s = this.caches[e.length - 1], n = { bytes: e, str: t };
s.length >= this.maxLengthPerKey ? s[Math.random() * s.length | 0] = n : s.push(n);
}
decode(e, t, s) {
let n = this.find(e, t, s);
if (n != null)
return this.hit++, n;
this.miss++;
let o = (0, _n.utf8DecodeJs)(e, t, s), a = Uint8Array.prototype.slice.call(e, t, t + s);
return this.store(a, o), o;
}
};
_t.CachedKeyDecoder = xr;
});
var St = _((J) => {
"use strict";
Object.defineProperty(J, "__esModule", { value: true });
J.Decoder = J.DataViewIndexOutOfBoundsError = void 0;
var vr = as(), kn = Et(), re = Oe(), Er = mt(), Pr = gr(), Dn = ls(), H = wt(), Wn = (r) => {
let e = typeof r;
return e === "string" || e === "number";
}, Ce = -1, _r = new DataView(new ArrayBuffer(0)), On = new Uint8Array(_r.buffer);
J.DataViewIndexOutOfBoundsError = (() => {
try {
_r.getInt8(0);
} catch (r) {
return r.constructor;
}
throw new Error("never reached");
})();
var cs = new J.DataViewIndexOutOfBoundsError("Insufficient data"), An = new Dn.CachedKeyDecoder(), Tr = class {
constructor(e = kn.ExtensionCodec.defaultCodec, t = void 0, s = re.UINT32_MAX, n = re.UINT32_MAX, o = re.UINT32_MAX, a = re.UINT32_MAX, c = re.UINT32_MAX, p = An) {
this.extensionCodec = e, this.context = t, this.maxStrLength = s, this.maxBinLength = n, this.maxArrayLength = o, this.maxMapLength = a, this.maxExtLength = c, this.keyDecoder = p, this.totalPos = 0, this.pos = 0, this.view = _r, this.bytes = On, this.headByte = Ce, this.stack = [];
}
reinitializeState() {
this.totalPos = 0, this.headByte = Ce, this.stack.length = 0;
}
setBuffer(e) {
this.bytes = (0, Pr.ensureUint8Array)(e), this.view = (0, Pr.createDataView)(this.bytes), this.pos = 0;
}
appendBuffer(e) {
if (this.headByte === Ce && !this.hasRemaining(1))
this.setBuffer(e);
else {
let t = this.bytes.subarray(this.pos), s = (0, Pr.ensureUint8Array)(e), n = new Uint8Array(t.length + s.length);
n.set(t), n.set(s, t.length), this.setBuffer(n);
}
}
hasRemaining(e) {
return this.view.byteLength - this.pos >= e;
}
createExtraByteError(e) {
let { view: t, pos: s } = this;
return new RangeError(`Extra ${t.byteLength - s} of ${t.byteLength} byte(s) found at buffer[${e}]`);
}
decode(e) {
this.reinitializeState(), this.setBuffer(e);
let t = this.doDecodeSync();
if (this.hasRemaining(1))
throw this.createExtraByteError(this.pos);
return t;
}
*decodeMulti(e) {
for (this.reinitializeState(), this.setBuffer(e); this.hasRemaining(1); )
yield this.doDecodeSync();
}
async decodeAsync(e) {
let t = false, s;
for await (let c of e) {
if (t)
throw this.createExtraByteError(this.totalPos);
this.appendBuffer(c);
try {
s = this.doDecodeSync(), t = true;
} catch (p) {
if (!(p instanceof J.DataViewIndexOutOfBoundsError))
throw p;
}
this.totalPos += this.pos;
}
if (t) {
if (this.hasRemaining(1))
throw this.createExtraByteError(this.totalPos);
return s;
}
let { headByte: n, pos: o, totalPos: a } = this;
throw new RangeError(`Insufficient data in parsing ${(0, vr.prettyByte)(n)} at ${a} (${o} in the current buffer)`);
}
decodeArrayStream(e) {
return this.decodeMultiAsync(e, true);
}
decodeStream(e) {
return this.decodeMultiAsync(e, false);
}
async *decodeMultiAsync(e, t) {
let s = t, n = -1;
for await (let o of e) {
if (t && n === 0)
throw this.createExtraByteError(this.totalPos);
this.appendBuffer(o), s && (n = this.readArraySize(), s = false, this.complete());
try {
for (; yield this.doDecodeSync(), --n !== 0; )
;
} catch (a) {
if (!(a instanceof J.DataViewIndexOutOfBoundsError))
throw a;
}
this.totalPos += this.pos;
}
}
doDecodeSync() {
e:
for (; ; ) {
let e = this.readHeadByte(), t;
if (e >= 224)
t = e - 256;
else if (e < 192)
if (e < 128)
t = e;
else if (e < 144) {
let n = e - 128;
if (n !== 0) {
this.pushMapState(n), this.complete();
continue e;
} else
t = {};
} else if (e < 160) {
let n = e - 144;
if (n !== 0) {
this.pushArrayState(n), this.complete();
continue e;
} else
t = [];
} else {
let n = e - 160;
t = this.decodeUtf8String(n, 0);
}
else if (e === 192)
t = null;
else if (e === 194)
t = false;
else if (e === 195)
t = true;
else if (e === 202)
t = this.readF32();
else if (e === 203)
t = this.readF64();
else if (e === 204)
t = this.readU8();
else if (e === 205)
t = this.readU16();
else if (e === 206)
t = this.readU32();
else if (e === 207)
t = this.readU64();
else if (e === 208)
t = this.readI8();
else if (e === 209)
t = this.readI16();
else if (e === 210)
t = this.readI32();
else if (e === 211)
t = this.readI64();
else if (e === 217) {
let n = this.lookU8();
t = this.decodeUtf8String(n, 1);
} else if (e === 218) {
let n = this.lookU16();
t = this.decodeUtf8String(n, 2);
} else if (e === 219) {
let n = this.lookU32();
t = this.decodeUtf8String(n, 4);
} else if (e === 220) {
let n = this.readU16();
if (n !== 0) {
this.pushArrayState(n), this.complete();
continue e;
} else
t = [];
} else if (e === 221) {
let n = this.readU32();
if (n !== 0) {
this.pushArrayState(n), this.complete();
continue e;
} else
t = [];
} else if (e === 222) {
let n = this.readU16();
if (n !== 0) {
this.pushMapState(n), this.complete();
continue e;
} else
t = {};
} else if (e === 223) {
let n = this.readU32();
if (n !== 0) {
this.pushMapState(n), this.complete();
continue e;
} else
t = {};
} else if (e === 196) {
let n = this.lookU8();
t = this.decodeBinary(n, 1);
} else if (e === 197) {
let n = this.lookU16();
t = this.decodeBinary(n, 2);
} else if (e === 198) {
let n = this.lookU32();
t = this.decodeBinary(n, 4);
} else if (e === 212)
t = this.decodeExtension(1, 0);
else if (e === 213)
t = this.decodeExtension(2, 0);
else if (e === 214)
t = this.decodeExtension(4, 0);
else if (e === 215)
t = this.decodeExtension(8, 0);
else if (e === 216)
t = this.decodeExtension(16, 0);
else if (e === 199) {
let n = this.lookU8();
t = this.decodeExtension(n, 1);
} else if (e === 200) {
let n = this.lookU16();
t = this.decodeExtension(n, 2);
} else if (e === 201) {
let n = this.lookU32();
t = this.decodeExtension(n, 4);
} else
throw new H.DecodeError(`Unrecognized type byte: ${(0, vr.prettyByte)(e)}`);
this.complete();
let s = this.stack;
for (; s.length > 0; ) {
let n = s[s.length - 1];
if (n.type === 0)
if (n.array[n.position] = t, n.position++, n.position === n.size)
s.pop(), t = n.array;
else
continue e;
else if (n.type === 1) {
if (!Wn(t))
throw new H.DecodeError("The type of key must be string or number but " + typeof t);
if (t === "__proto__")
throw new H.DecodeError("The key __proto__ is not allowed");
n.key = t, n.type = 2;
continue e;
} else if (n.map[n.key] = t, n.readCount++, n.readCount === n.size)
s.pop(), t = n.map;
else {
n.key = null, n.type = 1;
continue e;
}
}
return t;
}
}
readHeadByte() {
return this.headByte === Ce && (this.headByte = this.readU8()), this.headByte;
}
complete() {
this.headByte = Ce;
}
readArraySize() {
let e = this.readHeadByte();
switch (e) {
case 220:
return this.readU16();
case 221:
return this.readU32();
default: {
if (e < 160)
return e - 144;
throw new H.DecodeError(`Unrecognized array type byte: ${(0, vr.prettyByte)(e)}`);
}
}
}
pushMapState(e) {
if (e > this.maxMapLength)
throw new H.DecodeError(`Max length exceeded: map length (${e}) > maxMapLengthLength (${this.maxMapLength})`);
this.stack.push({ type: 1, size: e, key: null, readCount: 0, map: {} });
}
pushArrayState(e) {
if (e > this.maxArrayLength)
throw new H.DecodeError(`Max length exceeded: array length (${e}) > maxArrayLength (${this.maxArrayLength})`);
this.stack.push({ type: 0, size: e, array: new Array(e), position: 0 });
}
decodeUtf8String(e, t) {
var s;
if (e > this.maxStrLength)
throw new H.DecodeError(`Max length exceeded: UTF-8 byte length (${e}) > maxStrLength (${this.maxStrLength})`);
if (this.bytes.byteLength < this.pos + t + e)
throw cs;
let n = this.pos + t, o;
return this.stateIsMapKey() && (!((s = this.keyDecoder) === null || s === void 0) && s.canBeCached(e)) ? o = this.keyDecoder.decode(this.bytes, n, e) : e > Er.TEXT_DECODER_THRESHOLD ? o = (0, Er.utf8DecodeTD)(this.bytes, n, e) : o = (0, Er.utf8DecodeJs)(this.bytes, n, e), this.pos += t + e, o;
}
stateIsMapKey() {
return this.stack.length > 0 ? this.stack[this.stack.length - 1].type === 1 : false;
}
decodeBinary(e, t) {
if (e > this.maxBinLength)
throw new H.DecodeError(`Max length exceeded: bin length (${e}) > maxBinLength (${this.maxBinLength})`);
if (!this.hasRemaining(e + t))
throw cs;
let s = this.pos + t, n = this.bytes.subarray(s, s + e);
return this.pos += t + e, n;
}
decodeExtension(e, t) {
if (e > this.maxExtLength)
throw new H.DecodeError(`Max length exceeded: ext length (${e}) > maxExtLength (${this.maxExtLength})`);
let s = this.view.getInt8(this.pos + t), n = this.decodeBinary(e, t + 1);
return this.extensionCodec.decode(n, s, this.context);
}
lookU8() {
return this.view.getUint8(this.pos);
}
lookU16() {
return this.view.getUint16(this.pos);
}
lookU32() {
return this.view.getUint32(this.pos);
}
readU8() {
let e = this.view.getUint8(this.pos);
return this.pos++, e;
}
readI8() {
let e = this.view.getInt8(this.pos);
return this.pos++, e;
}
readU16() {
let e = this.view.getUint16(this.pos);
return this.pos += 2, e;
}
readI16() {
let e = this.view.getInt16(this.pos);
return this.pos += 2, e;
}
readU32() {
let e = this.view.getUint32(this.pos);
return this.pos += 4, e;
}
readI32() {
let e = this.view.getInt32(this.pos);
return this.pos += 4, e;
}
readU64() {
let e = (0, re.getUint64)(this.view, this.pos);
return this.pos += 8, e;
}
readI64() {
let e = (0, re.getInt64)(this.view, this.pos);
return this.pos += 8, e;
}
readF32() {
let e = this.view.getFloat32(this.pos);
return this.pos += 4, e;
}
readF64() {
let e = this.view.getFloat64(this.pos);
return this.pos += 8, e;
}
};
J.Decoder = Tr;
});
var Sr = _((L) => {
"use strict";
Object.defineProperty(L, "__esModule", { value: true });
L.decodeMulti = L.decode = L.defaultDecodeOptions = void 0;
var us = St();
L.defaultDecodeOptions = {};
function In(r, e = L.defaultDecodeOptions) {
return new us.Decoder(e.extensionCodec, e.context, e.maxStrLength, e.maxBinLength, e.maxArrayLength, e.maxMapLength, e.maxExtLength).decode(r);
}
L.decode = In;
function Un(r, e = L.defaultDecodeOptions) {
return new us.Decoder(e.extensionCodec, e.context, e.maxStrLength, e.maxBinLength, e.maxArrayLength, e.maxMapLength, e.maxExtLength).decodeMulti(r);
}
L.decodeMulti = Un;
});
var hs = _(($) => {
"use strict";
Object.defineProperty($, "__esModule", { value: true });
$.ensureAsyncIterable = $.asyncIterableFromStream = $.isAsyncIterable = void 0;
function ps(r) {
return r[Symbol.asyncIterator] != null;
}
$.isAsyncIterable = ps;
function Cn(r) {
if (r == null)
throw new Error("Assertion Failure: value must not be null nor undefined");
}
async function* ds(r) {
let e = r.getReader();
try {
for (; ; ) {
let { done: t, value: s } = await e.read();
if (t)
return;
Cn(s), yield s;
}
} finally {
e.releaseLock();
}
}
$.asyncIterableFromStream = ds;
function Nn(r) {
return ps(r) ? r : ds(r);
}
$.ensureAsyncIterable = Nn;
});
var fs = _((j) => {
"use strict";
Object.defineProperty(j, "__esModule", { value: true });
j.decodeStream = j.decodeMultiStream = j.decodeArrayStream = j.decodeAsync = void 0;
var Mr = St(), kr = hs(), Mt = Sr();
async function Ln(r, e = Mt.defaultDecodeOptions) {
let t = (0, kr.ensureAsyncIterable)(r);
return new Mr.Decoder(e.extensionCodec, e.context, e.maxStrLength, e.maxBinLength, e.maxArrayLength, e.maxMapLength, e.maxExtLength).decodeAsync(t);
}
j.decodeAsync = Ln;
function jn(r, e = Mt.defaultDecodeOptions) {
let t = (0, kr.ensureAsyncIterable)(r);
return new Mr.Decoder(e.extensionCodec, e.context, e.maxStrLength, e.maxBinLength, e.maxArrayLength, e.maxMapLength, e.maxExtLength).decodeArrayStream(t);
}
j.decodeArrayStream = jn;
function ys(r, e = Mt.defaultDecodeOptions) {
let t = (0, kr.ensureAsyncIterable)(r);
return new Mr.Decoder(e.extensionCodec, e.context, e.maxStrLength, e.maxBinLength, e.maxArrayLength, e.maxMapLength, e.maxExtLength).decodeStream(t);
}
j.decodeMultiStream = ys;
function Fn(r, e = Mt.defaultDecodeOptions) {
return ys(r, e);
}
j.decodeStream = Fn;
});
var Dt = _((h) => {
"use strict";
Object.defineProperty(h, "__esModule", { value: true });
h.decodeTimestampExtension = h.encodeTimestampExtension = h.decodeTimestampToTimeSpec = h.encodeTimeSpecToTimestamp = h.encodeDateToTimeSpec = h.EXT_TIMESTAMP = h.ExtData = h.ExtensionCodec = h.Encoder = h.DataViewIndexOutOfBoundsError = h.DecodeError = h.Decoder = h.decodeStream = h.decodeMultiStream = h.decodeArrayStream = h.decodeAsync = h.decodeMulti = h.decode = h.encode = void 0;
var Bn = is();
Object.defineProperty(h, "encode", { enumerable: true, get: function() {
return Bn.encode;
} });
var Rs = Sr();
Object.defineProperty(h, "decode", { enumerable: true, get: function() {
return Rs.decode;
} });
Object.defineProperty(h, "decodeMulti", { enumerable: true, get: function() {
return Rs.decodeMulti;
} });
var kt = fs();
Object.defineProperty(h, "decodeAsync", { enumerable: true, get: function() {
return kt.decodeAsync;
} });
Object.defineProperty(h, "decodeArrayStream", { enumerable: true, get: function() {
return kt.decodeArrayStream;
} });
Object.defineProperty(h, "decodeMultiStream", { enumerable: true, get: function() {
return kt.decodeMultiStream;
} });
Object.defineProperty(h, "decodeStream", { enumerable: true, get: function() {
return kt.decodeStream;
} });
var ms = St();
Object.defineProperty(h, "Decoder", { enumerable: true, get: function() {
return ms.Decoder;
} });
Object.defineProperty(h, "DataViewIndexOutOfBoundsError", { enumerable: true, get: function() {
return ms.DataViewIndexOutOfBoundsError;
} });
var qn = wt();
Object.defineProperty(h, "DecodeError", { enumerable: true, get: function() {
return qn.DecodeError;
} });
var Vn = wr();
Object.defineProperty(h, "Encoder", { enumerable: true, get: function() {
return Vn.Encoder;
} });
var Hn = Et();
Object.defineProperty(h, "ExtensionCodec", { enumerable: true, get: function() {
return Hn.ExtensionCodec;
} });
var Jn = Rr();
Object.defineProperty(h, "ExtData", { enumerable: true, get: function() {
return Jn.ExtData;
} });
var fe = mr();
Object.defineProperty(h, "EXT_TIMESTAMP", { enumerable: true, get: function() {
return fe.EXT_TIMESTAMP;
} });
Object.defineProperty(h, "encodeDateToTimeSpec", { enumerable: true, get: function() {
return fe.encodeDateToTimeSpec;
} });
Object.defineProperty(h, "encodeTimeSpecToTimestamp", { enumerable: true, get: function() {
return fe.encodeTimeSpecToTimestamp;
} });
Object.defineProperty(h, "decodeTimestampToTimeSpec", { enumerable: true, get: function() {
return fe.decodeTimestampToTimeSpec;
} });
Object.defineProperty(h, "encodeTimestampExtension", { enumerable: true, get: function() {
return fe.encodeTimestampExtension;
} });
Object.defineProperty(h, "decodeTimestampExtension", { enumerable: true, get: function() {
return fe.decodeTimestampExtension;
} });
});
var A = class extends Error {
constructor(e) {
super(e), this.name = this.constructor.name, Object.setPrototypeOf(this, new.target.prototype);
}
};
var P = class extends A {
};
var m = typeof process < "u" && process.release && process.release.name === "node";
var pr;
if (globalThis.document)
pr = (r) => new Promise((e, t) => {
let s = document.createElement("script");
s.src = r, s.onload = () => e(), s.onerror = t, document.head.appendChild(s);
});
else if (globalThis.importScripts)
pr = async (r) => {
try {
globalThis.importScripts(r);
} catch (e) {
if (e instanceof TypeError)
await Promise.resolve().then(() => te(U(r)));
else
throw e;
}
};
else if (m)
pr = async (r) => {
let e = (await Promise.resolve().then(() => te(U("path")))).default;
await Promise.resolve().then(() => te(U(e.resolve(r))));
};
else
throw new A("Cannot determine runtime environment");
var en = /* @__PURE__ */ new WeakMap();
function Kr(r, e) {
return en.set(r, e), r;
}
var bs = te(Dt());
var zn = new TextEncoder();
var F;
var B;
var Ne;
var Dr;
F = /* @__PURE__ */ new WeakMap(), B = /* @__PURE__ */ new WeakMap(), Ne = /* @__PURE__ */ new WeakSet(), Dr = function() {
i(this, F).push(new Promise((e) => {
i(this, B).push(e);
}));
};
function Le(r, e, t) {
return xs({ type: "response", data: { uuid: r, resp: e } }, t);
}
function xs(r, e) {
return e && Kr(r, e), r;
}
var ge;
ge = /* @__PURE__ */ new WeakMap();
var Ts = te(Dt());
var Kn = new TextDecoder("utf-8");
var be;
var we;
var je;
var Fe;
var xe;
be = /* @__PURE__ */ new WeakMap(), we = /* @__PURE__ */ new WeakMap(), je = /* @__PURE__ */ new WeakMap(), Fe = /* @__PURE__ */ new WeakMap(), xe = /* @__PURE__ */ new WeakMap();
var Or = new Int32Array(new ArrayBuffer(4));
var l = {};
function ks(r) {
Object.keys(r).forEach((e) => l._free(r[e]));
}
m && (globalThis.Worker = U("worker_threads").Worker);
var ve;
var Ct;
var Ds;
var qe;
ve = /* @__PURE__ */ new WeakMap(), Ct = /* @__PURE__ */ new WeakSet(), Ds = function(t) {
m ? t.on("message", (s) => {
i(this, qe).call(this, t, s);
}) : t.onmessage = (s) => i(this, qe).call(this, t, s.data);
}, qe = /* @__PURE__ */ new WeakMap();
var se;
var Ve;
var ne;
var He;
se = /* @__PURE__ */ new WeakMap(), Ve = /* @__PURE__ */ new WeakMap(), ne = /* @__PURE__ */ new WeakMap(), He = /* @__PURE__ */ new WeakMap();
var Bt = te(Dt());
m && (globalThis.Worker = U("worker_threads").Worker);
var Ee;
var oe;
var Pe;
var Lt;
var Ws;
var jt;
var Os;
var Ft;
var As;
var Je;
Ee = /* @__PURE__ */ new WeakMap(), oe = /* @__PURE__ */ new WeakMap(), Pe = /* @__PURE__ */ new WeakMap(), Lt = /* @__PURE__ */ new WeakSet(), Ws = async function(t) {
d(this, oe, await navigator.serviceWorker.register(t)), await navigator.serviceWorker.ready, window.addEventListener("beforeunload", () => {
var n;
(n = i(this, oe)) == null || n.unregister();
});
let s = await new Promise((n) => {
navigator.serviceWorker.addEventListener("message", function o(a) {
a.data.type === "registration-successful" && (navigator.serviceWorker.removeEventListener("message", o), n(a.data.clientId));
}), this.activeRegistration().postMessage({ type: "register-client-main" });
});
return navigator.serviceWorker.addEventListener("message", (n) => {
x(this, jt, Os).call(this, n);
}), s;
}, jt = /* @__PURE__ */ new WeakSet(), Os = async function(t) {
if (t.data.type === "request") {
let s = t.data.data, n = i(this, Ee).get(s);
if (!n)
throw new P("Request not found during service worker XHR request");
switch (i(this, Ee).delete(s), n.type) {
case "read": {
let o = await this.inputQueue.get();
this.activeRegistration().postMessage({ type: "wasm-webr-fetch-response", uuid: s, response: Le(s, o) });
break;
}
case "interrupt": {
let o = i(this, Pe);
this.activeRegistration().postMessage({ type: "wasm-webr-fetch-response", uuid: s, response: Le(s, o) }), this.inputQueue.reset(), d(this, Pe, false);
break;
}
default:
throw new P(`Unsupported request type '${n.type}'.`);
}
return;
}
}, Ft = /* @__PURE__ */ new WeakSet(), As = function(t) {
m ? t.on("message", (s) => {
i(this, Je).call(this, t, s);
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}, Je = /* @__PURE__ */ new WeakMap();
var Te;
var ze;
var Xe;
var $e;
var Ge;
var Ke;
Te = /* @__PURE__ */ new WeakMap(), ze = /* @__PURE__ */ new WeakMap(), Xe = /* @__PURE__ */ new WeakMap(), $e = /* @__PURE__ */ new WeakMap(), Ge = /* @__PURE__ */ new WeakMap(), Ke = /* @__PURE__ */ new WeakMap();
m && (globalThis.Worker = U("worker_threads").Worker);
var _e;
var qt;
var Is;
var Ze;
_e = /* @__PURE__ */ new WeakMap(), qt = /* @__PURE__ */ new WeakSet(), Is = function(t) {
m ? t.on("message", (s) => {
i(this, Ze).call(this, t, s);
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}, Ze = /* @__PURE__ */ new WeakMap();
var Se;
var Me;
var Ye;
var ie;
var Vt;
Se = /* @__PURE__ */ new WeakMap(), Me = /* @__PURE__ */ new WeakMap(), Ye = /* @__PURE__ */ new WeakMap(), ie = /* @__PURE__ */ new WeakMap(), Vt = /* @__PURE__ */ new WeakMap();
var O = { Automatic: 0, SharedArrayBuffer: 1, ServiceWorker: 2, PostMessage: 3 };
var Cs = m ? __dirname + "/" : "https://webr.r-wasm.org/v0.2.2/";
var Ns = "https://repo.r-wasm.org";
var f = { null: 0, symbol: 1, pairlist: 2, closure: 3, environment: 4, promise: 5, call: 6, special: 7, builtin: 8, string: 9, logical: 10, integer: 13, double: 14, complex: 15, character: 16, dots: 17, any: 18, list: 19, expression: 20, bytecode: 21, pointer: 22, weakref: 23, raw: 24, s4: 25, new: 30, free: 31, function: 99 };
function Cr(r) {
return r && typeof r == "object" && Object.keys(f).includes(r.type);
}
function Nr(r) {
return r && typeof r == "object" && "re" in r && "im" in r;
}
function Ht(r) {
return l._Rf_protect(q(r)), r;
}
function M(r, e) {
return l._Rf_protect(q(r)), ++e.n, r;
}
function js(r) {
let e = l._malloc(4);
return l._R_ProtectWithIndex(q(r), e), { loc: l.getValue(e, "i32"), ptr: e };
}
function Fs(r) {
l._Rf_unprotect(1), l._free(r.ptr);
}
function Bs(r, e) {
return l._R_Reprotect(q(r), e.loc), r;
}
function D(r) {
l._Rf_unprotect(r);
}
function Lr(r, e, t) {
l._Rf_defineVar(q(e), q(t), q(r));
}
function qs(r, e) {
let t = {}, s = { n: 0 };
try {
let n = new tt(e);
M(n, s), t.code = l.allocateUTF8(r);
let o = l._R_ParseEvalString(t.code, n.ptr);
return y.wrap(o);
} finally {
ks(t), D(s.n);
}
}
function et(r, e) {
return l.getWasmTableEntry(l.GOT.ffi_safe_eval.value)(q(r), q(e));
}
function q(r) {
return to(r) ? r.ptr : r;
}
function ue(r, e) {
if (l._TYPEOF(r.ptr) !== f[e])
throw new Error(`Unexpected object type "${r.type()}" when expecting type "${e}"`);
}
function Yn(r) {
if (Cr(r))
return new (Vs(f[r.type]))(r);
if (r && typeof r == "object" && "type" in r && r.type === "null")
return new $t();
if (r === null)
return new le({ type: "logical", names: null, values: [null] });
if (typeof r == "boolean")
return new le(r);
if (typeof r == "number")
return new rt(r);
if (typeof r == "string")
return new K(r);
if (Nr(r))
return new st(r);
if (Array.isArray(r))
return eo(r);
throw new Error("Robj construction for this JS object is not yet supported");
}
function eo(r) {
let e = { n: 0 };
try {
let t = new ce([new Q("c"), ...r]);
return M(t, e), t.eval();
} finally {
D(e.n);
}
}
var E = class {
constructor(e) {
this.ptr = e;
}
type() {
let e = l._TYPEOF(this.ptr);
return Object.keys(f).find((s) => f[s] === e);
}
};
var De;
var Jt;
var ae = class extends E {
constructor(t) {
if (!(t instanceof E))
return Yn(t);
super(t.ptr);
u(this, De);
}
static wrap(t) {
let s = l._TYPEOF(t);
return new (Vs(s))(new E(t));
}
get [Symbol.toStringTag]() {
return `RObject:${this.type()}`;
}
static getPersistentObject(t) {
return k[t];
}
getPropertyValue(t) {
return this[t];
}
inspect() {
qs(".Internal(inspect(x))", { x: this });
}
isNull() {
return l._TYPEOF(this.ptr) === f.null;
}
isUnbound() {
return this.ptr === k.unboundValue.ptr;
}
attrs() {
return We.wrap(l._ATTRIB(this.ptr));
}
setNames(t) {
let s;
if (t === null)
s = k.null;
else if (Array.isArray(t) && t.every((n) => typeof n == "string" || n === null))
s = new K(t);
else
throw new Error("Argument to setNames must be null or an Array of strings or null");
return l._Rf_setAttrib(this.ptr, k.namesSymbol.ptr, s.ptr), this;
}
names() {
let t = K.wrap(l._Rf_getAttrib(this.ptr, k.namesSymbol.ptr));
return t.isNull() ? null : t.toArray();
}
includes(t) {
let s = this.names();
return s && s.includes(t);
}
toJs(t = { depth: 0 }, s = 1) {
throw new Error("This R object cannot be converted to JS");
}
subset(t) {
return x(this, De, Jt).call(this, t, k.bracketSymbol.ptr);
}
get(t) {
return x(this, De, Jt).call(this, t, k.bracket2Symbol.ptr);
}
getDollar(t) {
return x(this, De, Jt).call(this, t, k.dollarSymbol.ptr);
}
pluck(...t) {
let s = js(k.null);
try {
let n = (a, c) => {
let p = a.get(c);
return Bs(p, s);
}, o = t.reduce(n, this);
return o.isNull() ? void 0 : o;
} finally {
Fs(s);
}
}
set(t, s) {
let n = { n: 0 };
try {
let o = new ae(t);
M(o, n);
let a = new ae(s);
M(a, n);
let c = new Q("[[<-"), p = l._Rf_lang4(c.ptr, this.ptr, o.ptr, a.ptr);
return M(p, n), ae.wrap(et(p, k.baseEnv));
} finally {
D(n.n);
}
}
static getMethods(t) {
let s = /* @__PURE__ */ new Set(), n = t;
do
Object.getOwnPropertyNames(n).map((o) => s.add(o));
while (n = Object.getPrototypeOf(n));
return [...s.keys()].filter((o) => typeof t[o] == "function");
}
};
var y = ae;
De = /* @__PURE__ */ new WeakSet(), Jt = function(t, s) {
let n = { n: 0 };
try {
let o = new ae(t);
M(o, n);
let a = l._Rf_lang3(s, this.ptr, o.ptr);
return M(a, n), ae.wrap(et(a, k.baseEnv));
} finally {
D(n.n);
}
};
var $t = class extends y {
constructor() {
return super(new E(l.getValue(l._R_NilValue, "*"))), this;
}
toJs() {
return { type: "null" };
}
};
var Q = class extends y {
constructor(e) {
if (e instanceof E) {
ue(e, "symbol"), super(e);
return;
}
let t = l.allocateUTF8(e);
try {
super(new E(l._Rf_install(t)));
} finally {
l._free(t);
}
}
toJs() {
let e = this.toObject();
return { type: "symbol", printname: e.printname, symvalue: e.symvalue, internal: e.internal };
}
toObject() {
return { printname: this.printname().isUnbound() ? null : this.printname().toString(), symvalue: this.symvalue().isUnbound() ? null : this.symvalue().ptr, internal: this.internal().isNull() ? null : this.internal().ptr };
}
toString() {
return this.printname().toString();
}
printname() {
return nt.wrap(l._PRINTNAME(this.ptr));
}
symvalue() {
return y.wrap(l._SYMVALUE(this.ptr));
}
internal() {
return y.wrap(l._INTERNAL(this.ptr));
}
};
var We = class extends y {
constructor(e) {
if (e instanceof E)
return ue(e, "pairlist"), super(e), this;
let t = { n: 0 };
try {
let { names: s, values: n } = ot(e), o = We.wrap(l._Rf_allocList(n.length));
M(o, t);
for (let [a, c] = [0, o]; !c.isNull(); [a, c] = [a + 1, c.cdr()])
c.setcar(new y(n[a]));
o.setNames(s), super(o);
} finally {
D(t.n);
}
}
get length() {
return this.toArray().length;
}
toArray(e = { depth: 1 }) {
return this.toJs(e).values;
}
toObject({ allowDuplicateKey: e = true, allowEmptyKey: t = false, depth: s = 1 } = {}) {
let n = this.entries({ depth: s }), o = n.map(([a, c]) => a);
if (!e && new Set(o).size !== o.length)
throw new Error("Duplicate key when converting pairlist without allowDuplicateKey enabled");
if (!t && o.some((a) => !a))
throw new Error("Empty or null key when converting pairlist without allowEmptyKey enabled");
return Object.fromEntries(n.filter((a, c) => n.findIndex((p) => p[0] === a[0]) === c));
}
entries(e = { depth: 1 }) {
let t = this.toJs(e);
return t.values.map((s, n) => [t.names ? t.names[n] : null, s]);
}
toJs(e = { depth: 0 }, t = 1) {
let s = [], n = false, o = [];
for (let c = this; !c.isNull(); c = c.cdr()) {
let p = c.tag();
p.isNull() ? s.push("") : (n = true, s.push(p.toString())), e.depth && t >= e.depth ? o.push(c.car()) : o.push(c.car().toJs(e, t + 1));
}
return { type: "pairlist", names: n ? s : null, values: o };
}
includes(e) {
return e in this.toObject();
}
setcar(e) {
l._SETCAR(this.ptr, e.ptr);
}
car() {
return y.wrap(l._CAR(this.ptr));
}
cdr() {
return y.wrap(l._CDR(this.ptr));
}
tag() {
return y.wrap(l._TAG(this.ptr));
}
};
var ce = class extends y {
constructor(e) {
if (e instanceof E)
return ue(e, "call"), super(e), this;
let t = { n: 0 };
try {
let { values: s } = ot(e), n = s.map((a) => M(new y(a), t)), o = ce.wrap(l._Rf_allocVector(f.call, s.length));
M(o, t);
for (let [a, c] = [0, o]; !c.isNull(); [a, c] = [a + 1, c.cdr()])
c.setcar(n[a]);
super(o);
} finally {
D(t.n);
}
}
setcar(e) {
l._SETCAR(this.ptr, e.ptr);
}
car() {
return y.wrap(l._CAR(this.ptr));
}
cdr() {
return y.wrap(l._CDR(this.ptr));
}
eval() {
return y.wrap(et(this.ptr, k.baseEnv));
}
};
var jr = class extends y {
constructor(e) {
if (e instanceof E)
return ue(e, "list"), super(e), this;
let t = { n: 0 };
try {
let { names: s, values: n } = ot(e), o = l._Rf_allocVector(f.list, n.length);
M(o, t), n.forEach((a, c) => {
l._SET_VECTOR_ELT(o, c, new y(a).ptr);
}), y.wrap(o).setNames(s), super(new E(o));
} finally {
D(t.n);
}
}
get length() {
return l._LENGTH(this.ptr);
}
toArray(e = { depth: 1 }) {
return this.toJs(e).values;
}
toObject({ allowDuplicateKey: e = true, allowEmptyKey: t = false, depth: s = 1 } = {}) {
let n = this.entries({ depth: s }), o = n.map(([a, c]) => a);
if (!e && new Set(o).size !== o.length)
throw new Error("Duplicate key when converting list without allowDuplicateKey enabled");
if (!t && o.some((a) => !a))
throw new Error("Empty or null key when converting list without allowEmptyKey enabled");
return Object.fromEntries(n.filter((a, c) => n.findIndex((p) => p[0] === a[0]) === c));
}
entries(e = { depth: 1 }) {
let t = this.toJs(e);
return t.values.map((s, n) => [t.names ? t.names[n] : null, s]);
}
toJs(e = { depth: 0 }, t = 1) {
return { type: "list", names: this.names(), values: [...Array(this.length).keys()].map((s) => e.depth && t >= e.depth ? this.get(s + 1) : this.get(s + 1).toJs(e, t + 1)) };
}
};
var ke = class extends y {
exec(...e) {
let t = { n: 0 };
try {
let s = new ce([this, ...e]);
return M(s, t), s.eval();
} finally {
D(t.n);
}
}
};
var nt = class extends y {
constructor(e) {
if (e instanceof E) {
ue(e, "string"), super(e);
return;
}
let t = l.allocateUTF8(e);
try {
super(new E(l._Rf_mkChar(t)));
} finally {
l._free(t);
}
}
toString() {
return l.UTF8ToString(l._R_CHAR(this.ptr));
}
toJs() {
return { type: "string", value: this.toString() };
}
};
var tt = class extends y {
constructor(e = {}) {
if (e instanceof E)
return ue(e, "environment"), super(e), this;
let t = 0;
try {
let { names: s, values: n } = ot(e), o = Ht(l._R_NewEnv(k.globalEnv.ptr, 0, 0));
++t, n.forEach((a, c) => {
let p = s ? s[c] : null;
if (!p)
throw new Error("Can't create object in new environment with empty symbol name");
let v = new Q(p), ee = Ht(new y(a));
try {
Lr(o, v, ee);
} finally {
D(1);
}
}), super(new E(o));
} finally {
D(t);
}
}
ls(e = false, t = true) {
return K.wrap(l._R_lsInternal3(this.ptr, Number(e), Number(t))).toArray();
}
bind(e, t) {
let s = new Q(e), n = Ht(new y(t));
try {
Lr(this, s, n);
} finally {
D(1);
}
}
names() {
return this.ls(true, true);
}
frame() {
return y.wrap(l._FRAME(this.ptr));
}
subset(e) {
if (typeof e == "number")
throw new Error("Object of type environment is not subsettable");
return this.getDollar(e);
}
toObject({ depth: e = 0 } = {}) {
let t = this.names();
return Object.fromEntries([...Array(t.length).keys()].map((s) => [t[s], this.getDollar(t[s]).toJs({ depth: e })]));
}
toJs(e = { depth: 0 }, t = 1) {
let s = this.names(), n = [...Array(s.length).keys()].map((o) => e.depth && t >= e.depth ? this.getDollar(s[o]) : this.getDollar(s[o]).toJs(e, t + 1));
return { type: "environment", names: s, values: n };
}
};
var Z = class extends y {
constructor(e, t, s) {
if (e instanceof E)
return ue(e, t), super(e), this;
let n = { n: 0 };
try {
let { names: o, values: a } = ot(e), c = l._Rf_allocVector(f[t], a.length);
M(c, n), a.forEach(s(c)), y.wrap(c).setNames(o), super(new E(c));
} finally {
D(n.n);
}
}
get length() {
return l._LENGTH(this.ptr);
}
get(e) {
return super.get(e);
}
subset(e) {
return super.subset(e);
}
getDollar(e) {
throw new Error("$ operator is invalid for atomic vectors");
}
detectMissing() {
let e = { n: 0 };
try {
let t = l._Rf_lang2(new Q("is.na").ptr, this.ptr);
M(t, e);
let s = le.wrap(et(t, k.baseEnv));
M(s, e);
let n = s.toTypedArray();
return Array.from(n).map((o) => !!o);
} finally {
D(e.n);
}
}
toArray() {
let e = this.toTypedArray();
return this.detectMissing().map((t, s) => t ? null : e[s]);
}
toObject({ allowDuplicateKey: e = true, allowEmptyKey: t = false } = {}) {
let s = this.entries(), n = s.map(([o, a]) => o);
if (!e && new Set(n).size !== n.length)
throw new Error("Duplicate key when converting atomic vector without allowDuplicateKey enabled");
if (!t && n.some((o) => !o))
throw new Error("Empty or null key when converting atomic vector without allowEmptyKey enabled");
return Object.fromEntries(s.filter((o, a) => s.findIndex((c) => c[0] === o[0]) === a));
}
entries() {
let e = this.toArray(), t = this.names();
return e.map((s, n) => [t ? t[n] : null, s]);
}
toJs() {
return { type: this.type(), names: this.names(), values: this.toArray() };
}
};
var Gt;
var Fr = class extends Z {
constructor(e) {
super(e, "logical", i(Fr, Gt));
}
getBoolean(e) {
return this.get(e).toArray()[0];
}
toBoolean() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getBoolean(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS boolean");
return e;
}
toTypedArray() {
return new Int32Array(l.HEAP32.subarray(l._LOGICAL(this.ptr) / 4, l._LOGICAL(this.ptr) / 4 + this.length));
}
toArray() {
let e = this.toTypedArray();
return this.detectMissing().map((t, s) => t ? null : !!e[s]);
}
};
var le = Fr;
Gt = /* @__PURE__ */ new WeakMap(), u(le, Gt, (e) => {
let t = l._LOGICAL(e), s = l.getValue(l._R_NaInt, "i32");
return (n, o) => {
l.setValue(t + 4 * o, n === null ? s : !!n, "i32");
};
});
var Kt;
var Br = class extends Z {
constructor(e) {
super(e, "integer", i(Br, Kt));
}
getNumber(e) {
return this.get(e).toArray()[0];
}
toNumber() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getNumber(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS number");
return e;
}
toTypedArray() {
return new Int32Array(l.HEAP32.subarray(l._INTEGER(this.ptr) / 4, l._INTEGER(this.ptr) / 4 + this.length));
}
};
var zt = Br;
Kt = /* @__PURE__ */ new WeakMap(), u(zt, Kt, (e) => {
let t = l._INTEGER(e), s = l.getValue(l._R_NaInt, "i32");
return (n, o) => {
l.setValue(t + 4 * o, n === null ? s : Math.round(Number(n)), "i32");
};
});
var Qt;
var qr = class extends Z {
constructor(e) {
super(e, "double", i(qr, Qt));
}
getNumber(e) {
return this.get(e).toArray()[0];
}
toNumber() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getNumber(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS number");
return e;
}
toTypedArray() {
return new Float64Array(l.HEAPF64.subarray(l._REAL(this.ptr) / 8, l._REAL(this.ptr) / 8 + this.length));
}
};
var rt = qr;
Qt = /* @__PURE__ */ new WeakMap(), u(rt, Qt, (e) => {
let t = l._REAL(e), s = l.getValue(l._R_NaReal, "double");
return (n, o) => {
l.setValue(t + 8 * o, n === null ? s : n, "double");
};
});
var Zt;
var Vr = class extends Z {
constructor(e) {
super(e, "complex", i(Vr, Zt));
}
getComplex(e) {
return this.get(e).toArray()[0];
}
toComplex() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getComplex(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS object");
return e;
}
toTypedArray() {
return new Float64Array(l.HEAPF64.subarray(l._COMPLEX(this.ptr) / 8, l._COMPLEX(this.ptr) / 8 + 2 * this.length));
}
toArray() {
let e = this.toTypedArray();
return this.detectMissing().map((t, s) => t ? null : { re: e[2 * s], im: e[2 * s + 1] });
}
};
var st = Vr;
Zt = /* @__PURE__ */ new WeakMap(), u(st, Zt, (e) => {
let t = l._COMPLEX(e), s = l.getValue(l._R_NaReal, "double");
return (n, o) => {
l.setValue(t + 8 * (2 * o), n === null ? s : n.re, "double"), l.setValue(t + 8 * (2 * o + 1), n === null ? s : n.im, "double");
};
});
var Yt;
var Hr = class extends Z {
constructor(e) {
super(e, "character", i(Hr, Yt));
}
getString(e) {
return this.get(e).toArray()[0];
}
toString() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getString(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS string");
return e;
}
toTypedArray() {
return new Uint32Array(l.HEAPU32.subarray(l._STRING_PTR(this.ptr) / 4, l._STRING_PTR(this.ptr) / 4 + this.length));
}
toArray() {
return this.detectMissing().map((e, t) => e ? null : l.UTF8ToString(l._R_CHAR(l._STRING_ELT(this.ptr, t))));
}
};
var K = Hr;
Yt = /* @__PURE__ */ new WeakMap(), u(K, Yt, (e) => (t, s) => {
t === null ? l._SET_STRING_ELT(e, s, k.naString.ptr) : l._SET_STRING_ELT(e, s, new nt(t).ptr);
});
var er;
var Jr = class extends Z {
constructor(e) {
super(e, "raw", i(Jr, er));
}
getNumber(e) {
return this.get(e).toArray()[0];
}
toNumber() {
if (this.length !== 1)
throw new Error("Can't convert atomic vector of length > 1 to a scalar JS value");
let e = this.getNumber(1);
if (e === null)
throw new Error("Can't convert missing value `NA` to a JS number");
return e;
}
toTypedArray() {
return new Uint8Array(l.HEAPU8.subarray(l._RAW(this.ptr), l._RAW(this.ptr) + this.length));
}
};
var Xt = Jr;
er = /* @__PURE__ */ new WeakMap(), u(Xt, er, (e) => {
let t = l._RAW(e);
return (s, n) => {
l.setValue(t + n, Number(s), "i8");
};
});
function ot(r) {
return Cr(r) ? r : Array.isArray(r) || ArrayBuffer.isView(r) ? { names: null, values: r } : r && typeof r == "object" && !Nr(r) ? { names: Object.keys(r), values: Object.values(r) } : { names: null, values: [r] };
}
function Vs(r) {
let e = { [f.null]: $t, [f.symbol]: Q, [f.pairlist]: We, [f.closure]: ke, [f.environment]: tt, [f.call]: ce, [f.special]: ke, [f.builtin]: ke, [f.string]: nt, [f.logical]: le, [f.integer]: zt, [f.double]: rt, [f.complex]: st, [f.character]: K, [f.list]: jr, [f.raw]: Xt, [f.function]: ke };
return r in e ? e[r] : y;
}
function to(r) {
return r instanceof y;
}
var k;
var it;
var at;
var lt;
var ct;
var ut;
var tr;
var rr;
var sr;
var nr;
var or;
var ir;
var Js;
it = /* @__PURE__ */ new WeakMap(), at = /* @__PURE__ */ new WeakMap(), lt = /* @__PURE__ */ new WeakMap(), ct = /* @__PURE__ */ new WeakMap(), ut = /* @__PURE__ */ new WeakMap(), tr = /* @__PURE__ */ new WeakMap(), rr = /* @__PURE__ */ new WeakMap(), sr = /* @__PURE__ */ new WeakMap(), nr = /* @__PURE__ */ new WeakMap(), or = /* @__PURE__ */ new WeakMap(), ir = /* @__PURE__ */ new WeakSet(), Js = async function() {
for (; ; ) {
let e = await this.webR.read();
switch (e.type) {
case "stdout":
i(this, it).call(this, e.data);
break;
case "stderr":
i(this, at).call(this, e.data);
break;
case "prompt":
i(this, lt).call(this, e.data);
break;
case "canvas":
e.data.event === "canvasImage" ? i(this, ct).call(this, e.data.image) : e.data.event === "canvasNewPage" && i(this, ut).call(this);
break;
case "closed":
return;
default:
console.warn(`Unhandled output type for webR Console: ${e.type}.`);
}
}
};
var io = { FONTCONFIG_PATH: "/etc/fonts", R_HOME: "/usr/lib/R", R_ENABLE_JIT: "0" };
var zs = { RArgs: [], REnv: io, baseUrl: Cs, serviceWorkerUrl: "", repoUrl: Ns, homedir: "/home/web_user", interactive: true, channelType: O.Automatic, createLazyFilesystem: true };
var g;
var pt;
var cr;
var Xs;
g = /* @__PURE__ */ new WeakMap(), pt = /* @__PURE__ */ new WeakMap(), cr = /* @__PURE__ */ new WeakSet(), Xs = async function() {
for (; ; ) {
let e = await i(this, g).readSystem();
switch (e.type) {
case "setTimeoutWasm":
setTimeout((t, s) => {
this.invokeWasmFunction(t, ...s);
}, e.data.delay, e.data.ptr, e.data.args);
break;
case "console.log":
console.log(e.data);
break;
case "console.warn":
console.warn(e.data);
break;
case "console.error":
console.error(e.data);
break;
default:
throw new A("Unknown system message type `" + e.type + "`");
}
}
};
var b;
var R;
var dt;
b = /* @__PURE__ */ new WeakMap(), R = /* @__PURE__ */ new WeakMap(), dt = /* @__PURE__ */ new WeakMap();
// src/messageporthttp.ts
async function fetchASGI(client, resource, init, filter = (bodyChunk) => bodyChunk) {
if (typeof resource === "string" || typeof init !== "undefined") {
resource = new Request(resource, init);
}
const channel = new MessageChannel();
const clientPort = channel.port1;
client.postMessage(
{
type: "makeRequest",
scope: reqToASGI(resource)
},
[channel.port2]
);
const blob = await resource.blob();
if (!blob.size) {
clientPort.postMessage({
type: "http.request",
more_body: false
});
} else {
const reader = blob.stream().getReader();
try {
while (true) {
const { value: theChunk, done } = await reader.read();
clientPort.postMessage({
type: "http.request",
body: theChunk,
more_body: !done
});
if (done) {
break;
}
}
} finally {
reader.releaseLock();
}
}
return new Promise((resolve) => {
let streamController;
const readableStream = new ReadableStream({
start(controller) {
streamController = controller;
},
cancel(reason) {
}
});
let response;
clientPort.addEventListener("message", (event) => {
const msg = event.data;
if (msg.type === "http.response.start") {
response = asgiToRes(msg, readableStream);
resolve(response);
} else if (msg.type === "http.response.body") {
if (msg.body) {
streamController.enqueue(filter(msg.body, response));
}
if (!msg.more_body) {
streamController.close();
clientPort.close();
}
} else {
throw new Error("Unexpected event type from clientPort: " + msg.type);
}
});
clientPort.start();
});
}
function headersToASGI(headers) {
const result = [];
for (const [key, value] of headers.entries()) {
result.push([key, value]);
}
return result;
}
function reqToASGI(req) {
const url = new URL(req.url);
return {
type: "http",
asgi: {
version: "3.0",
spec_version: "2.1"
},
http_version: "1.1",
method: req.method,
scheme: url.protocol.replace(/:$/, ""),
path: url.pathname,
query_string: url.search.replace(/^\?/, ""),
root_path: "",
headers: headersToASGI(req.headers)
};
}
function asgiToRes(res, body) {
return new Response(body, {
headers: res.headers,
status: res.status
});
}
// src/shinylive-sw.ts
var useCaching = false;
var cacheName = "::prismExperimentsServiceworker";
var version = "v6";
function addCoiHeaders(resp) {
const headers = new Headers(resp.headers);
headers.set("Cross-Origin-Embedder-Policy", "require-corp");
headers.set("Cross-Origin-Resource-Policy", "cross-origin");
headers.set("Cross-Origin-Opener-Policy", "same-origin");
return new Response(resp.body, {
status: resp.status,
statusText: resp.statusText,
headers
});
}
self.addEventListener("install", (event) => {
event.waitUntil(
Promise.all([self.skipWaiting(), caches.open(version + cacheName)])
);
});
self.addEventListener("activate", function(event) {
event.waitUntil(
(async () => {
await self.clients.claim();
const keys = await caches.keys();
return Promise.all(
keys.filter(function(key) {
return key.indexOf(version + cacheName) !== 0;
}).map(function(key) {
return caches.delete(key);
})
);
})()
);
});
self.addEventListener("fetch", function(event) {
const request = event.request;
const url = new URL(request.url);
if (self.location.origin !== url.origin)
return;
if (url.pathname == "/esbuild")
return;
const base_path = dirname(self.location.pathname);
if (url.pathname == `${base_path}/shinylive-inject-socket.js`) {
event.respondWith(
new Response(shinylive_inject_socket_default, {
headers: { "Content-Type": "text/javascript" },
status: 200
})
);
return;
}
const coiRequested = url.searchParams.get("coi") === "1" || request.referrer.includes("coi=1");
const appPathRegex = /.*\/(app_[^/]+\/)/;
const m_appPath = appPathRegex.exec(url.pathname);
if (m_appPath) {
event.respondWith(
(async () => {
let pollCount = 5;
while (!apps[m_appPath[1]]) {
if (pollCount == 0) {
return new Response(
`Couldn't find parent page for ${url}. This may be because the Service Worker has updated. Try reloading the page.`,
{
status: 404
}
);
}
console.log("App URL not registered. Waiting 50ms.");
await sleep(50);
pollCount--;
}
url.pathname = url.pathname.replace(appPathRegex, "/");
const isAppRoot = url.pathname === "/";
const filter = isAppRoot ? injectSocketFilter : identityFilter;
const blob = await request.blob();
const resp = await fetchASGI(
apps[m_appPath[1]],
new Request(url.toString(), {
method: request.method,
headers: request.headers,
body: request.method === "GET" || request.method === "HEAD" ? void 0 : blob,
credentials: request.credentials,
cache: request.cache,
redirect: request.redirect,
referrer: request.referrer
}),
void 0,
filter
);
if (coiRequested) {
return addCoiHeaders(resp);
} else {
return resp;
}
})()
);
return;
}
if (request.method !== "GET") {
return;
}
if (useCaching) {
event.respondWith(
(async () => {
const cachedResponse = await caches.match(request);
if (cachedResponse) {
return cachedResponse;
}
try {
const networkResponse = addCoiHeaders(await fetch(request));
const baseUrl = self.location.origin + dirname(self.location.pathname);
if (request.url.startsWith(baseUrl + "/shinylive/") || request.url === baseUrl + "/favicon.ico") {
const cache = await caches.open(version + cacheName);
await cache.put(request, networkResponse.clone());
}
return networkResponse;
} catch {
return new Response("Failed to find in cache, or fetch.", {
status: 404
});
}
})()
);
return;
}
event.respondWith(
(async () => {
const resp = await fetch(request);
if (coiRequested) {
return addCoiHeaders(resp);
} else {
return resp;
}
})()
);
});
var apps = {};
(async () => {
const allClients = await self.clients.matchAll();
for (const client of allClients) {
client.postMessage({
type: "serviceworkerStart"
});
}
})();
self.addEventListener("message", (event) => {
const msg = event.data;
if (msg.type === "configureProxyPath") {
const path = msg.path;
const port = event.ports[0];
apps[path] = port;
}
});
function identityFilter(bodyChunk, response) {
return bodyChunk;
}
function injectSocketFilter(bodyChunk, response) {
const contentType = response.headers.get("content-type");
if (contentType && /^text\/html(;|$)/.test(contentType)) {
const bodyChunkStr = uint8ArrayToString(bodyChunk);
const base_path = dirname(self.location.pathname);
const newStr = bodyChunkStr.replace(
/<\/head>/,
`<script src="${base_path}/shinylive-inject-socket.js" type="module"><\/script>
</head>`
);
const newChunk = Uint8Array.from(
newStr.split("").map((s) => s.charCodeAt(0))
);
return newChunk;
}
return bodyChunk;
}
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