"use strict"; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __name = (target, value) => __defProp(target, "name", { value, configurable: true }); var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // src/primitives/streams.js var streams_exports = {}; __export(streams_exports, { ReadableStream: () => ReadableStream, ReadableStreamBYOBReader: () => ReadableStreamBYOBReader, ReadableStreamDefaultReader: () => ReadableStreamDefaultReader, TransformStream: () => TransformStream, WritableStream: () => WritableStream, WritableStreamDefaultWriter: () => WritableStreamDefaultWriter }); module.exports = __toCommonJS(streams_exports); // ../../node_modules/.pnpm/web-streams-polyfill@4.0.0-beta.3/node_modules/web-streams-polyfill/dist/ponyfill.mjs var e = "function" == typeof Symbol && "symbol" == typeof Symbol.iterator ? Symbol : (e2) => `Symbol(${e2})`; function t() { } __name(t, "t"); function r(e2) { return "object" == typeof e2 && null !== e2 || "function" == typeof e2; } __name(r, "r"); var o = t; function n(e2, t2) { try { Object.defineProperty(e2, "name", { value: t2, configurable: true }); } catch (e3) { } } __name(n, "n"); var a = Promise; var i = Promise.prototype.then; var l = Promise.resolve.bind(a); var s = Promise.reject.bind(a); function u(e2) { return new a(e2); } __name(u, "u"); function c(e2) { return l(e2); } __name(c, "c"); function d(e2) { return s(e2); } __name(d, "d"); function f(e2, t2, r2) { return i.call(e2, t2, r2); } __name(f, "f"); function b(e2, t2, r2) { f(f(e2, t2, r2), void 0, o); } __name(b, "b"); function h(e2, t2) { b(e2, t2); } __name(h, "h"); function _(e2, t2) { b(e2, void 0, t2); } __name(_, "_"); function p(e2, t2, r2) { return f(e2, t2, r2); } __name(p, "p"); function m(e2) { f(e2, void 0, o); } __name(m, "m"); var y = /* @__PURE__ */ __name((e2) => { if ("function" == typeof queueMicrotask) y = queueMicrotask; else { const e3 = c(void 0); y = /* @__PURE__ */ __name((t2) => f(e3, t2), "y"); } return y(e2); }, "y"); function g(e2, t2, r2) { if ("function" != typeof e2) throw new TypeError("Argument is not a function"); return Function.prototype.apply.call(e2, t2, r2); } __name(g, "g"); function w(e2, t2, r2) { try { return c(g(e2, t2, r2)); } catch (e3) { return d(e3); } } __name(w, "w"); var S = class { constructor() { this._cursor = 0, this._size = 0, this._front = { _elements: [], _next: void 0 }, this._back = this._front, this._cursor = 0, this._size = 0; } get length() { return this._size; } push(e2) { const t2 = this._back; let r2 = t2; 16383 === t2._elements.length && (r2 = { _elements: [], _next: void 0 }), t2._elements.push(e2), r2 !== t2 && (this._back = r2, t2._next = r2), ++this._size; } shift() { const e2 = this._front; let t2 = e2; const r2 = this._cursor; let o2 = r2 + 1; const n2 = e2._elements, a2 = n2[r2]; return 16384 === o2 && (t2 = e2._next, o2 = 0), --this._size, this._cursor = o2, e2 !== t2 && (this._front = t2), n2[r2] = void 0, a2; } forEach(e2) { let t2 = this._cursor, r2 = this._front, o2 = r2._elements; for (; !(t2 === o2.length && void 0 === r2._next || t2 === o2.length && (r2 = r2._next, o2 = r2._elements, t2 = 0, 0 === o2.length)); ) e2(o2[t2]), ++t2; } peek() { const e2 = this._front, t2 = this._cursor; return e2._elements[t2]; } }; __name(S, "S"); var v = e("[[AbortSteps]]"); var R = e("[[ErrorSteps]]"); var T = e("[[CancelSteps]]"); var q = e("[[PullSteps]]"); var C = e("[[ReleaseSteps]]"); function E(e2, t2) { e2._ownerReadableStream = t2, t2._reader = e2, "readable" === t2._state ? O(e2) : "closed" === t2._state ? function(e3) { O(e3), j(e3); }(e2) : B(e2, t2._storedError); } __name(E, "E"); function P(e2, t2) { return Gt(e2._ownerReadableStream, t2); } __name(P, "P"); function W(e2) { const t2 = e2._ownerReadableStream; "readable" === t2._state ? A(e2, new TypeError("Reader was released and can no longer be used to monitor the stream's closedness")) : function(e3, t3) { B(e3, t3); }(e2, new TypeError("Reader was released and can no longer be used to monitor the stream's closedness")), t2._readableStreamController[C](), t2._reader = void 0, e2._ownerReadableStream = void 0; } __name(W, "W"); function k(e2) { return new TypeError("Cannot " + e2 + " a stream using a released reader"); } __name(k, "k"); function O(e2) { e2._closedPromise = u((t2, r2) => { e2._closedPromise_resolve = t2, e2._closedPromise_reject = r2; }); } __name(O, "O"); function B(e2, t2) { O(e2), A(e2, t2); } __name(B, "B"); function A(e2, t2) { void 0 !== e2._closedPromise_reject && (m(e2._closedPromise), e2._closedPromise_reject(t2), e2._closedPromise_resolve = void 0, e2._closedPromise_reject = void 0); } __name(A, "A"); function j(e2) { void 0 !== e2._closedPromise_resolve && (e2._closedPromise_resolve(void 0), e2._closedPromise_resolve = void 0, e2._closedPromise_reject = void 0); } __name(j, "j"); var z = Number.isFinite || function(e2) { return "number" == typeof e2 && isFinite(e2); }; var L = Math.trunc || function(e2) { return e2 < 0 ? Math.ceil(e2) : Math.floor(e2); }; function F(e2, t2) { if (void 0 !== e2 && ("object" != typeof (r2 = e2) && "function" != typeof r2)) throw new TypeError(`${t2} is not an object.`); var r2; } __name(F, "F"); function I(e2, t2) { if ("function" != typeof e2) throw new TypeError(`${t2} is not a function.`); } __name(I, "I"); function D(e2, t2) { if (!function(e3) { return "object" == typeof e3 && null !== e3 || "function" == typeof e3; }(e2)) throw new TypeError(`${t2} is not an object.`); } __name(D, "D"); function $(e2, t2, r2) { if (void 0 === e2) throw new TypeError(`Parameter ${t2} is required in '${r2}'.`); } __name($, "$"); function M(e2, t2, r2) { if (void 0 === e2) throw new TypeError(`${t2} is required in '${r2}'.`); } __name(M, "M"); function Y(e2) { return Number(e2); } __name(Y, "Y"); function Q(e2) { return 0 === e2 ? 0 : e2; } __name(Q, "Q"); function N(e2, t2) { const r2 = Number.MAX_SAFE_INTEGER; let o2 = Number(e2); if (o2 = Q(o2), !z(o2)) throw new TypeError(`${t2} is not a finite number`); if (o2 = function(e3) { return Q(L(e3)); }(o2), o2 < 0 || o2 > r2) throw new TypeError(`${t2} is outside the accepted range of 0 to ${r2}, inclusive`); return z(o2) && 0 !== o2 ? o2 : 0; } __name(N, "N"); function H(e2) { if (!r(e2)) return false; if ("function" != typeof e2.getReader) return false; try { return "boolean" == typeof e2.locked; } catch (e3) { return false; } } __name(H, "H"); function x(e2) { if (!r(e2)) return false; if ("function" != typeof e2.getWriter) return false; try { return "boolean" == typeof e2.locked; } catch (e3) { return false; } } __name(x, "x"); function V(e2, t2) { if (!Vt(e2)) throw new TypeError(`${t2} is not a ReadableStream.`); } __name(V, "V"); function U(e2, t2) { e2._reader._readRequests.push(t2); } __name(U, "U"); function G(e2, t2, r2) { const o2 = e2._reader._readRequests.shift(); r2 ? o2._closeSteps() : o2._chunkSteps(t2); } __name(G, "G"); function X(e2) { return e2._reader._readRequests.length; } __name(X, "X"); function J(e2) { const t2 = e2._reader; return void 0 !== t2 && !!K(t2); } __name(J, "J"); var ReadableStreamDefaultReader = class { constructor(e2) { if ($(e2, 1, "ReadableStreamDefaultReader"), V(e2, "First parameter"), Ut(e2)) throw new TypeError("This stream has already been locked for exclusive reading by another reader"); E(this, e2), this._readRequests = new S(); } get closed() { return K(this) ? this._closedPromise : d(ee("closed")); } cancel(e2) { return K(this) ? void 0 === this._ownerReadableStream ? d(k("cancel")) : P(this, e2) : d(ee("cancel")); } read() { if (!K(this)) return d(ee("read")); if (void 0 === this._ownerReadableStream) return d(k("read from")); let e2, t2; const r2 = u((r3, o2) => { e2 = r3, t2 = o2; }); return function(e3, t3) { const r3 = e3._ownerReadableStream; r3._disturbed = true, "closed" === r3._state ? t3._closeSteps() : "errored" === r3._state ? t3._errorSteps(r3._storedError) : r3._readableStreamController[q](t3); }(this, { _chunkSteps: (t3) => e2({ value: t3, done: false }), _closeSteps: () => e2({ value: void 0, done: true }), _errorSteps: (e3) => t2(e3) }), r2; } releaseLock() { if (!K(this)) throw ee("releaseLock"); void 0 !== this._ownerReadableStream && function(e2) { W(e2); const t2 = new TypeError("Reader was released"); Z(e2, t2); }(this); } }; __name(ReadableStreamDefaultReader, "ReadableStreamDefaultReader"); function K(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_readRequests") && e2 instanceof ReadableStreamDefaultReader); } __name(K, "K"); function Z(e2, t2) { const r2 = e2._readRequests; e2._readRequests = new S(), r2.forEach((e3) => { e3._errorSteps(t2); }); } __name(Z, "Z"); function ee(e2) { return new TypeError(`ReadableStreamDefaultReader.prototype.${e2} can only be used on a ReadableStreamDefaultReader`); } __name(ee, "ee"); Object.defineProperties(ReadableStreamDefaultReader.prototype, { cancel: { enumerable: true }, read: { enumerable: true }, releaseLock: { enumerable: true }, closed: { enumerable: true } }), n(ReadableStreamDefaultReader.prototype.cancel, "cancel"), n(ReadableStreamDefaultReader.prototype.read, "read"), n(ReadableStreamDefaultReader.prototype.releaseLock, "releaseLock"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableStreamDefaultReader.prototype, e.toStringTag, { value: "ReadableStreamDefaultReader", configurable: true }); var te = class { constructor(e2, t2) { this._ongoingPromise = void 0, this._isFinished = false, this._reader = e2, this._preventCancel = t2; } next() { const e2 = /* @__PURE__ */ __name(() => this._nextSteps(), "e"); return this._ongoingPromise = this._ongoingPromise ? p(this._ongoingPromise, e2, e2) : e2(), this._ongoingPromise; } return(e2) { const t2 = /* @__PURE__ */ __name(() => this._returnSteps(e2), "t"); return this._ongoingPromise ? p(this._ongoingPromise, t2, t2) : t2(); } _nextSteps() { if (this._isFinished) return Promise.resolve({ value: void 0, done: true }); const e2 = this._reader; return void 0 === e2 ? d(k("iterate")) : f(e2.read(), (e3) => { var t2; return this._ongoingPromise = void 0, e3.done && (this._isFinished = true, null === (t2 = this._reader) || void 0 === t2 || t2.releaseLock(), this._reader = void 0), e3; }, (e3) => { var t2; throw this._ongoingPromise = void 0, this._isFinished = true, null === (t2 = this._reader) || void 0 === t2 || t2.releaseLock(), this._reader = void 0, e3; }); } _returnSteps(e2) { if (this._isFinished) return Promise.resolve({ value: e2, done: true }); this._isFinished = true; const t2 = this._reader; if (void 0 === t2) return d(k("finish iterating")); if (this._reader = void 0, !this._preventCancel) { const r2 = t2.cancel(e2); return t2.releaseLock(), p(r2, () => ({ value: e2, done: true })); } return t2.releaseLock(), c({ value: e2, done: true }); } }; __name(te, "te"); var re = { next() { return oe(this) ? this._asyncIteratorImpl.next() : d(ne("next")); }, return(e2) { return oe(this) ? this._asyncIteratorImpl.return(e2) : d(ne("return")); } }; function oe(e2) { if (!r(e2)) return false; if (!Object.prototype.hasOwnProperty.call(e2, "_asyncIteratorImpl")) return false; try { return e2._asyncIteratorImpl instanceof te; } catch (e3) { return false; } } __name(oe, "oe"); function ne(e2) { return new TypeError(`ReadableStreamAsyncIterator.${e2} can only be used on a ReadableSteamAsyncIterator`); } __name(ne, "ne"); "symbol" == typeof e.asyncIterator && Object.defineProperty(re, e.asyncIterator, { value() { return this; }, writable: true, configurable: true }); var ae = Number.isNaN || function(e2) { return e2 != e2; }; function ie(e2, t2, r2, o2, n2) { new Uint8Array(e2).set(new Uint8Array(r2, o2, n2), t2); } __name(ie, "ie"); function le(e2) { const t2 = function(e3, t3, r2) { if (e3.slice) return e3.slice(t3, r2); const o2 = r2 - t3, n2 = new ArrayBuffer(o2); return ie(n2, 0, e3, t3, o2), n2; }(e2.buffer, e2.byteOffset, e2.byteOffset + e2.byteLength); return new Uint8Array(t2); } __name(le, "le"); function se(e2) { const t2 = e2._queue.shift(); return e2._queueTotalSize -= t2.size, e2._queueTotalSize < 0 && (e2._queueTotalSize = 0), t2.value; } __name(se, "se"); function ue(e2, t2, r2) { if ("number" != typeof (o2 = r2) || ae(o2) || o2 < 0 || r2 === 1 / 0) throw new RangeError("Size must be a finite, non-NaN, non-negative number."); var o2; e2._queue.push({ value: t2, size: r2 }), e2._queueTotalSize += r2; } __name(ue, "ue"); function ce(e2) { e2._queue = new S(), e2._queueTotalSize = 0; } __name(ce, "ce"); var ReadableStreamBYOBRequest = class { constructor() { throw new TypeError("Illegal constructor"); } get view() { if (!fe(this)) throw Be("view"); return this._view; } respond(e2) { if (!fe(this)) throw Be("respond"); if ($(e2, 1, "respond"), e2 = N(e2, "First parameter"), void 0 === this._associatedReadableByteStreamController) throw new TypeError("This BYOB request has been invalidated"); this._view.buffer, function(e3, t2) { const r2 = e3._pendingPullIntos.peek(); if ("closed" === e3._controlledReadableByteStream._state) { if (0 !== t2) throw new TypeError("bytesWritten must be 0 when calling respond() on a closed stream"); } else { if (0 === t2) throw new TypeError("bytesWritten must be greater than 0 when calling respond() on a readable stream"); if (r2.bytesFilled + t2 > r2.byteLength) throw new RangeError("bytesWritten out of range"); } r2.buffer = r2.buffer, qe(e3, t2); }(this._associatedReadableByteStreamController, e2); } respondWithNewView(e2) { if (!fe(this)) throw Be("respondWithNewView"); if ($(e2, 1, "respondWithNewView"), !ArrayBuffer.isView(e2)) throw new TypeError("You can only respond with array buffer views"); if (void 0 === this._associatedReadableByteStreamController) throw new TypeError("This BYOB request has been invalidated"); e2.buffer, function(e3, t2) { const r2 = e3._pendingPullIntos.peek(); if ("closed" === e3._controlledReadableByteStream._state) { if (0 !== t2.byteLength) throw new TypeError("The view's length must be 0 when calling respondWithNewView() on a closed stream"); } else if (0 === t2.byteLength) throw new TypeError("The view's length must be greater than 0 when calling respondWithNewView() on a readable stream"); if (r2.byteOffset + r2.bytesFilled !== t2.byteOffset) throw new RangeError("The region specified by view does not match byobRequest"); if (r2.bufferByteLength !== t2.buffer.byteLength) throw new RangeError("The buffer of view has different capacity than byobRequest"); if (r2.bytesFilled + t2.byteLength > r2.byteLength) throw new RangeError("The region specified by view is larger than byobRequest"); const o2 = t2.byteLength; r2.buffer = t2.buffer, qe(e3, o2); }(this._associatedReadableByteStreamController, e2); } }; __name(ReadableStreamBYOBRequest, "ReadableStreamBYOBRequest"); Object.defineProperties(ReadableStreamBYOBRequest.prototype, { respond: { enumerable: true }, respondWithNewView: { enumerable: true }, view: { enumerable: true } }), n(ReadableStreamBYOBRequest.prototype.respond, "respond"), n(ReadableStreamBYOBRequest.prototype.respondWithNewView, "respondWithNewView"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableStreamBYOBRequest.prototype, e.toStringTag, { value: "ReadableStreamBYOBRequest", configurable: true }); var ReadableByteStreamController = class { constructor() { throw new TypeError("Illegal constructor"); } get byobRequest() { if (!de(this)) throw Ae("byobRequest"); return function(e2) { if (null === e2._byobRequest && e2._pendingPullIntos.length > 0) { const t2 = e2._pendingPullIntos.peek(), r2 = new Uint8Array(t2.buffer, t2.byteOffset + t2.bytesFilled, t2.byteLength - t2.bytesFilled), o2 = Object.create(ReadableStreamBYOBRequest.prototype); !function(e3, t3, r3) { e3._associatedReadableByteStreamController = t3, e3._view = r3; }(o2, e2, r2), e2._byobRequest = o2; } return e2._byobRequest; }(this); } get desiredSize() { if (!de(this)) throw Ae("desiredSize"); return ke(this); } close() { if (!de(this)) throw Ae("close"); if (this._closeRequested) throw new TypeError("The stream has already been closed; do not close it again!"); const e2 = this._controlledReadableByteStream._state; if ("readable" !== e2) throw new TypeError(`The stream (in ${e2} state) is not in the readable state and cannot be closed`); !function(e3) { const t2 = e3._controlledReadableByteStream; if (e3._closeRequested || "readable" !== t2._state) return; if (e3._queueTotalSize > 0) return void (e3._closeRequested = true); if (e3._pendingPullIntos.length > 0) { if (e3._pendingPullIntos.peek().bytesFilled > 0) { const t3 = new TypeError("Insufficient bytes to fill elements in the given buffer"); throw Pe(e3, t3), t3; } } Ee(e3), Xt(t2); }(this); } enqueue(e2) { if (!de(this)) throw Ae("enqueue"); if ($(e2, 1, "enqueue"), !ArrayBuffer.isView(e2)) throw new TypeError("chunk must be an array buffer view"); if (0 === e2.byteLength) throw new TypeError("chunk must have non-zero byteLength"); if (0 === e2.buffer.byteLength) throw new TypeError("chunk's buffer must have non-zero byteLength"); if (this._closeRequested) throw new TypeError("stream is closed or draining"); const t2 = this._controlledReadableByteStream._state; if ("readable" !== t2) throw new TypeError(`The stream (in ${t2} state) is not in the readable state and cannot be enqueued to`); !function(e3, t3) { const r2 = e3._controlledReadableByteStream; if (e3._closeRequested || "readable" !== r2._state) return; const o2 = t3.buffer, n2 = t3.byteOffset, a2 = t3.byteLength, i2 = o2; if (e3._pendingPullIntos.length > 0) { const t4 = e3._pendingPullIntos.peek(); t4.buffer, 0, Re(e3), t4.buffer = t4.buffer, "none" === t4.readerType && ge(e3, t4); } if (J(r2)) if (function(e4) { const t4 = e4._controlledReadableByteStream._reader; for (; t4._readRequests.length > 0; ) { if (0 === e4._queueTotalSize) return; We(e4, t4._readRequests.shift()); } }(e3), 0 === X(r2)) me(e3, i2, n2, a2); else { e3._pendingPullIntos.length > 0 && Ce(e3); G(r2, new Uint8Array(i2, n2, a2), false); } else Le(r2) ? (me(e3, i2, n2, a2), Te(e3)) : me(e3, i2, n2, a2); be(e3); }(this, e2); } error(e2) { if (!de(this)) throw Ae("error"); Pe(this, e2); } [T](e2) { he(this), ce(this); const t2 = this._cancelAlgorithm(e2); return Ee(this), t2; } [q](e2) { const t2 = this._controlledReadableByteStream; if (this._queueTotalSize > 0) return void We(this, e2); const r2 = this._autoAllocateChunkSize; if (void 0 !== r2) { let t3; try { t3 = new ArrayBuffer(r2); } catch (t4) { return void e2._errorSteps(t4); } const o2 = { buffer: t3, bufferByteLength: r2, byteOffset: 0, byteLength: r2, bytesFilled: 0, elementSize: 1, viewConstructor: Uint8Array, readerType: "default" }; this._pendingPullIntos.push(o2); } U(t2, e2), be(this); } [C]() { if (this._pendingPullIntos.length > 0) { const e2 = this._pendingPullIntos.peek(); e2.readerType = "none", this._pendingPullIntos = new S(), this._pendingPullIntos.push(e2); } } }; __name(ReadableByteStreamController, "ReadableByteStreamController"); function de(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_controlledReadableByteStream") && e2 instanceof ReadableByteStreamController); } __name(de, "de"); function fe(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_associatedReadableByteStreamController") && e2 instanceof ReadableStreamBYOBRequest); } __name(fe, "fe"); function be(e2) { const t2 = function(e3) { const t3 = e3._controlledReadableByteStream; if ("readable" !== t3._state) return false; if (e3._closeRequested) return false; if (!e3._started) return false; if (J(t3) && X(t3) > 0) return true; if (Le(t3) && ze(t3) > 0) return true; if (ke(e3) > 0) return true; return false; }(e2); if (!t2) return; if (e2._pulling) return void (e2._pullAgain = true); e2._pulling = true; b(e2._pullAlgorithm(), () => (e2._pulling = false, e2._pullAgain && (e2._pullAgain = false, be(e2)), null), (t3) => (Pe(e2, t3), null)); } __name(be, "be"); function he(e2) { Re(e2), e2._pendingPullIntos = new S(); } __name(he, "he"); function _e(e2, t2) { let r2 = false; "closed" === e2._state && (r2 = true); const o2 = pe(t2); "default" === t2.readerType ? G(e2, o2, r2) : function(e3, t3, r3) { const o3 = e3._reader._readIntoRequests.shift(); r3 ? o3._closeSteps(t3) : o3._chunkSteps(t3); }(e2, o2, r2); } __name(_e, "_e"); function pe(e2) { const t2 = e2.bytesFilled, r2 = e2.elementSize; return new e2.viewConstructor(e2.buffer, e2.byteOffset, t2 / r2); } __name(pe, "pe"); function me(e2, t2, r2, o2) { e2._queue.push({ buffer: t2, byteOffset: r2, byteLength: o2 }), e2._queueTotalSize += o2; } __name(me, "me"); function ye(e2, t2, r2, o2) { let n2; try { n2 = t2.slice(r2, r2 + o2); } catch (t3) { throw Pe(e2, t3), t3; } me(e2, n2, 0, o2); } __name(ye, "ye"); function ge(e2, t2) { t2.bytesFilled > 0 && ye(e2, t2.buffer, t2.byteOffset, t2.bytesFilled), Ce(e2); } __name(ge, "ge"); function we(e2, t2) { const r2 = t2.elementSize, o2 = t2.bytesFilled - t2.bytesFilled % r2, n2 = Math.min(e2._queueTotalSize, t2.byteLength - t2.bytesFilled), a2 = t2.bytesFilled + n2, i2 = a2 - a2 % r2; let l2 = n2, s2 = false; i2 > o2 && (l2 = i2 - t2.bytesFilled, s2 = true); const u2 = e2._queue; for (; l2 > 0; ) { const r3 = u2.peek(), o3 = Math.min(l2, r3.byteLength), n3 = t2.byteOffset + t2.bytesFilled; ie(t2.buffer, n3, r3.buffer, r3.byteOffset, o3), r3.byteLength === o3 ? u2.shift() : (r3.byteOffset += o3, r3.byteLength -= o3), e2._queueTotalSize -= o3, Se(e2, o3, t2), l2 -= o3; } return s2; } __name(we, "we"); function Se(e2, t2, r2) { r2.bytesFilled += t2; } __name(Se, "Se"); function ve(e2) { 0 === e2._queueTotalSize && e2._closeRequested ? (Ee(e2), Xt(e2._controlledReadableByteStream)) : be(e2); } __name(ve, "ve"); function Re(e2) { null !== e2._byobRequest && (e2._byobRequest._associatedReadableByteStreamController = void 0, e2._byobRequest._view = null, e2._byobRequest = null); } __name(Re, "Re"); function Te(e2) { for (; e2._pendingPullIntos.length > 0; ) { if (0 === e2._queueTotalSize) return; const t2 = e2._pendingPullIntos.peek(); we(e2, t2) && (Ce(e2), _e(e2._controlledReadableByteStream, t2)); } } __name(Te, "Te"); function qe(e2, t2) { const r2 = e2._pendingPullIntos.peek(); Re(e2); "closed" === e2._controlledReadableByteStream._state ? function(e3, t3) { "none" === t3.readerType && Ce(e3); const r3 = e3._controlledReadableByteStream; if (Le(r3)) for (; ze(r3) > 0; ) _e(r3, Ce(e3)); }(e2, r2) : function(e3, t3, r3) { if (Se(0, t3, r3), "none" === r3.readerType) return ge(e3, r3), void Te(e3); if (r3.bytesFilled < r3.elementSize) return; Ce(e3); const o2 = r3.bytesFilled % r3.elementSize; if (o2 > 0) { const t4 = r3.byteOffset + r3.bytesFilled; ye(e3, r3.buffer, t4 - o2, o2); } r3.bytesFilled -= o2, _e(e3._controlledReadableByteStream, r3), Te(e3); }(e2, t2, r2), be(e2); } __name(qe, "qe"); function Ce(e2) { return e2._pendingPullIntos.shift(); } __name(Ce, "Ce"); function Ee(e2) { e2._pullAlgorithm = void 0, e2._cancelAlgorithm = void 0; } __name(Ee, "Ee"); function Pe(e2, t2) { const r2 = e2._controlledReadableByteStream; "readable" === r2._state && (he(e2), ce(e2), Ee(e2), Jt(r2, t2)); } __name(Pe, "Pe"); function We(e2, t2) { const r2 = e2._queue.shift(); e2._queueTotalSize -= r2.byteLength, ve(e2); const o2 = new Uint8Array(r2.buffer, r2.byteOffset, r2.byteLength); t2._chunkSteps(o2); } __name(We, "We"); function ke(e2) { const t2 = e2._controlledReadableByteStream._state; return "errored" === t2 ? null : "closed" === t2 ? 0 : e2._strategyHWM - e2._queueTotalSize; } __name(ke, "ke"); function Oe(e2, t2, r2) { const o2 = Object.create(ReadableByteStreamController.prototype); let n2, a2, i2; n2 = void 0 !== t2.start ? () => t2.start(o2) : () => { }, a2 = void 0 !== t2.pull ? () => t2.pull(o2) : () => c(void 0), i2 = void 0 !== t2.cancel ? (e3) => t2.cancel(e3) : () => c(void 0); const l2 = t2.autoAllocateChunkSize; if (0 === l2) throw new TypeError("autoAllocateChunkSize must be greater than 0"); !function(e3, t3, r3, o3, n3, a3, i3) { t3._controlledReadableByteStream = e3, t3._pullAgain = false, t3._pulling = false, t3._byobRequest = null, t3._queue = t3._queueTotalSize = void 0, ce(t3), t3._closeRequested = false, t3._started = false, t3._strategyHWM = a3, t3._pullAlgorithm = o3, t3._cancelAlgorithm = n3, t3._autoAllocateChunkSize = i3, t3._pendingPullIntos = new S(), e3._readableStreamController = t3, b(c(r3()), () => (t3._started = true, be(t3), null), (e4) => (Pe(t3, e4), null)); }(e2, o2, n2, a2, i2, r2, l2); } __name(Oe, "Oe"); function Be(e2) { return new TypeError(`ReadableStreamBYOBRequest.prototype.${e2} can only be used on a ReadableStreamBYOBRequest`); } __name(Be, "Be"); function Ae(e2) { return new TypeError(`ReadableByteStreamController.prototype.${e2} can only be used on a ReadableByteStreamController`); } __name(Ae, "Ae"); function je(e2, t2) { e2._reader._readIntoRequests.push(t2); } __name(je, "je"); function ze(e2) { return e2._reader._readIntoRequests.length; } __name(ze, "ze"); function Le(e2) { const t2 = e2._reader; return void 0 !== t2 && !!Fe(t2); } __name(Le, "Le"); Object.defineProperties(ReadableByteStreamController.prototype, { close: { enumerable: true }, enqueue: { enumerable: true }, error: { enumerable: true }, byobRequest: { enumerable: true }, desiredSize: { enumerable: true } }), n(ReadableByteStreamController.prototype.close, "close"), n(ReadableByteStreamController.prototype.enqueue, "enqueue"), n(ReadableByteStreamController.prototype.error, "error"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableByteStreamController.prototype, e.toStringTag, { value: "ReadableByteStreamController", configurable: true }); var ReadableStreamBYOBReader = class { constructor(e2) { if ($(e2, 1, "ReadableStreamBYOBReader"), V(e2, "First parameter"), Ut(e2)) throw new TypeError("This stream has already been locked for exclusive reading by another reader"); if (!de(e2._readableStreamController)) throw new TypeError("Cannot construct a ReadableStreamBYOBReader for a stream not constructed with a byte source"); E(this, e2), this._readIntoRequests = new S(); } get closed() { return Fe(this) ? this._closedPromise : d(De("closed")); } cancel(e2) { return Fe(this) ? void 0 === this._ownerReadableStream ? d(k("cancel")) : P(this, e2) : d(De("cancel")); } read(e2) { if (!Fe(this)) return d(De("read")); if (!ArrayBuffer.isView(e2)) return d(new TypeError("view must be an array buffer view")); if (0 === e2.byteLength) return d(new TypeError("view must have non-zero byteLength")); if (0 === e2.buffer.byteLength) return d(new TypeError("view's buffer must have non-zero byteLength")); if (e2.buffer, void 0 === this._ownerReadableStream) return d(k("read from")); let t2, r2; const o2 = u((e3, o3) => { t2 = e3, r2 = o3; }); return function(e3, t3, r3) { const o3 = e3._ownerReadableStream; o3._disturbed = true, "errored" === o3._state ? r3._errorSteps(o3._storedError) : function(e4, t4, r4) { const o4 = e4._controlledReadableByteStream; let n2 = 1; t4.constructor !== DataView && (n2 = t4.constructor.BYTES_PER_ELEMENT); const a2 = t4.constructor, i2 = t4.buffer, l2 = { buffer: i2, bufferByteLength: i2.byteLength, byteOffset: t4.byteOffset, byteLength: t4.byteLength, bytesFilled: 0, elementSize: n2, viewConstructor: a2, readerType: "byob" }; if (e4._pendingPullIntos.length > 0) return e4._pendingPullIntos.push(l2), void je(o4, r4); if ("closed" !== o4._state) { if (e4._queueTotalSize > 0) { if (we(e4, l2)) { const t5 = pe(l2); return ve(e4), void r4._chunkSteps(t5); } if (e4._closeRequested) { const t5 = new TypeError("Insufficient bytes to fill elements in the given buffer"); return Pe(e4, t5), void r4._errorSteps(t5); } } e4._pendingPullIntos.push(l2), je(o4, r4), be(e4); } else { const e5 = new a2(l2.buffer, l2.byteOffset, 0); r4._closeSteps(e5); } }(o3._readableStreamController, t3, r3); }(this, e2, { _chunkSteps: (e3) => t2({ value: e3, done: false }), _closeSteps: (e3) => t2({ value: e3, done: true }), _errorSteps: (e3) => r2(e3) }), o2; } releaseLock() { if (!Fe(this)) throw De("releaseLock"); void 0 !== this._ownerReadableStream && function(e2) { W(e2); const t2 = new TypeError("Reader was released"); Ie(e2, t2); }(this); } }; __name(ReadableStreamBYOBReader, "ReadableStreamBYOBReader"); function Fe(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_readIntoRequests") && e2 instanceof ReadableStreamBYOBReader); } __name(Fe, "Fe"); function Ie(e2, t2) { const r2 = e2._readIntoRequests; e2._readIntoRequests = new S(), r2.forEach((e3) => { e3._errorSteps(t2); }); } __name(Ie, "Ie"); function De(e2) { return new TypeError(`ReadableStreamBYOBReader.prototype.${e2} can only be used on a ReadableStreamBYOBReader`); } __name(De, "De"); function $e(e2, t2) { const { highWaterMark: r2 } = e2; if (void 0 === r2) return t2; if (ae(r2) || r2 < 0) throw new RangeError("Invalid highWaterMark"); return r2; } __name($e, "$e"); function Me(e2) { const { size: t2 } = e2; return t2 || (() => 1); } __name(Me, "Me"); function Ye(e2, t2) { F(e2, t2); const r2 = null == e2 ? void 0 : e2.highWaterMark, o2 = null == e2 ? void 0 : e2.size; return { highWaterMark: void 0 === r2 ? void 0 : Y(r2), size: void 0 === o2 ? void 0 : Qe(o2, `${t2} has member 'size' that`) }; } __name(Ye, "Ye"); function Qe(e2, t2) { return I(e2, t2), (t3) => Y(e2(t3)); } __name(Qe, "Qe"); function Ne(e2, t2, r2) { return I(e2, r2), (r3) => w(e2, t2, [r3]); } __name(Ne, "Ne"); function He(e2, t2, r2) { return I(e2, r2), () => w(e2, t2, []); } __name(He, "He"); function xe(e2, t2, r2) { return I(e2, r2), (r3) => g(e2, t2, [r3]); } __name(xe, "xe"); function Ve(e2, t2, r2) { return I(e2, r2), (r3, o2) => w(e2, t2, [r3, o2]); } __name(Ve, "Ve"); Object.defineProperties(ReadableStreamBYOBReader.prototype, { cancel: { enumerable: true }, read: { enumerable: true }, releaseLock: { enumerable: true }, closed: { enumerable: true } }), n(ReadableStreamBYOBReader.prototype.cancel, "cancel"), n(ReadableStreamBYOBReader.prototype.read, "read"), n(ReadableStreamBYOBReader.prototype.releaseLock, "releaseLock"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableStreamBYOBReader.prototype, e.toStringTag, { value: "ReadableStreamBYOBReader", configurable: true }); var Ue = "function" == typeof AbortController; var WritableStream = class { constructor(e2 = {}, t2 = {}) { void 0 === e2 ? e2 = null : D(e2, "First parameter"); const r2 = Ye(t2, "Second parameter"), o2 = function(e3, t3) { F(e3, t3); const r3 = null == e3 ? void 0 : e3.abort, o3 = null == e3 ? void 0 : e3.close, n3 = null == e3 ? void 0 : e3.start, a3 = null == e3 ? void 0 : e3.type, i2 = null == e3 ? void 0 : e3.write; return { abort: void 0 === r3 ? void 0 : Ne(r3, e3, `${t3} has member 'abort' that`), close: void 0 === o3 ? void 0 : He(o3, e3, `${t3} has member 'close' that`), start: void 0 === n3 ? void 0 : xe(n3, e3, `${t3} has member 'start' that`), write: void 0 === i2 ? void 0 : Ve(i2, e3, `${t3} has member 'write' that`), type: a3 }; }(e2, "First parameter"); var n2; (n2 = this)._state = "writable", n2._storedError = void 0, n2._writer = void 0, n2._writableStreamController = void 0, n2._writeRequests = new S(), n2._inFlightWriteRequest = void 0, n2._closeRequest = void 0, n2._inFlightCloseRequest = void 0, n2._pendingAbortRequest = void 0, n2._backpressure = false; if (void 0 !== o2.type) throw new RangeError("Invalid type is specified"); const a2 = Me(r2); !function(e3, t3, r3, o3) { const n3 = Object.create(WritableStreamDefaultController.prototype); let a3, i2, l2, s2; a3 = void 0 !== t3.start ? () => t3.start(n3) : () => { }; i2 = void 0 !== t3.write ? (e4) => t3.write(e4, n3) : () => c(void 0); l2 = void 0 !== t3.close ? () => t3.close() : () => c(void 0); s2 = void 0 !== t3.abort ? (e4) => t3.abort(e4) : () => c(void 0); !function(e4, t4, r4, o4, n4, a4, i3, l3) { t4._controlledWritableStream = e4, e4._writableStreamController = t4, t4._queue = void 0, t4._queueTotalSize = void 0, ce(t4), t4._abortReason = void 0, t4._abortController = function() { if (Ue) return new AbortController(); }(), t4._started = false, t4._strategySizeAlgorithm = l3, t4._strategyHWM = i3, t4._writeAlgorithm = o4, t4._closeAlgorithm = n4, t4._abortAlgorithm = a4; const s3 = bt(t4); nt(e4, s3); const u2 = r4(); b(c(u2), () => (t4._started = true, dt(t4), null), (r5) => (t4._started = true, Ze(e4, r5), null)); }(e3, n3, a3, i2, l2, s2, r3, o3); }(this, o2, $e(r2, 1), a2); } get locked() { if (!Ge(this)) throw _t("locked"); return Xe(this); } abort(e2) { return Ge(this) ? Xe(this) ? d(new TypeError("Cannot abort a stream that already has a writer")) : Je(this, e2) : d(_t("abort")); } close() { return Ge(this) ? Xe(this) ? d(new TypeError("Cannot close a stream that already has a writer")) : rt(this) ? d(new TypeError("Cannot close an already-closing stream")) : Ke(this) : d(_t("close")); } getWriter() { if (!Ge(this)) throw _t("getWriter"); return new WritableStreamDefaultWriter(this); } }; __name(WritableStream, "WritableStream"); function Ge(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_writableStreamController") && e2 instanceof WritableStream); } __name(Ge, "Ge"); function Xe(e2) { return void 0 !== e2._writer; } __name(Xe, "Xe"); function Je(e2, t2) { var r2; if ("closed" === e2._state || "errored" === e2._state) return c(void 0); e2._writableStreamController._abortReason = t2, null === (r2 = e2._writableStreamController._abortController) || void 0 === r2 || r2.abort(t2); const o2 = e2._state; if ("closed" === o2 || "errored" === o2) return c(void 0); if (void 0 !== e2._pendingAbortRequest) return e2._pendingAbortRequest._promise; let n2 = false; "erroring" === o2 && (n2 = true, t2 = void 0); const a2 = u((r3, o3) => { e2._pendingAbortRequest = { _promise: void 0, _resolve: r3, _reject: o3, _reason: t2, _wasAlreadyErroring: n2 }; }); return e2._pendingAbortRequest._promise = a2, n2 || et(e2, t2), a2; } __name(Je, "Je"); function Ke(e2) { const t2 = e2._state; if ("closed" === t2 || "errored" === t2) return d(new TypeError(`The stream (in ${t2} state) is not in the writable state and cannot be closed`)); const r2 = u((t3, r3) => { const o3 = { _resolve: t3, _reject: r3 }; e2._closeRequest = o3; }), o2 = e2._writer; var n2; return void 0 !== o2 && e2._backpressure && "writable" === t2 && Et(o2), ue(n2 = e2._writableStreamController, lt, 0), dt(n2), r2; } __name(Ke, "Ke"); function Ze(e2, t2) { "writable" !== e2._state ? tt(e2) : et(e2, t2); } __name(Ze, "Ze"); function et(e2, t2) { const r2 = e2._writableStreamController; e2._state = "erroring", e2._storedError = t2; const o2 = e2._writer; void 0 !== o2 && it(o2, t2), !function(e3) { if (void 0 === e3._inFlightWriteRequest && void 0 === e3._inFlightCloseRequest) return false; return true; }(e2) && r2._started && tt(e2); } __name(et, "et"); function tt(e2) { e2._state = "errored", e2._writableStreamController[R](); const t2 = e2._storedError; if (e2._writeRequests.forEach((e3) => { e3._reject(t2); }), e2._writeRequests = new S(), void 0 === e2._pendingAbortRequest) return void ot(e2); const r2 = e2._pendingAbortRequest; if (e2._pendingAbortRequest = void 0, r2._wasAlreadyErroring) return r2._reject(t2), void ot(e2); b(e2._writableStreamController[v](r2._reason), () => (r2._resolve(), ot(e2), null), (t3) => (r2._reject(t3), ot(e2), null)); } __name(tt, "tt"); function rt(e2) { return void 0 !== e2._closeRequest || void 0 !== e2._inFlightCloseRequest; } __name(rt, "rt"); function ot(e2) { void 0 !== e2._closeRequest && (e2._closeRequest._reject(e2._storedError), e2._closeRequest = void 0); const t2 = e2._writer; void 0 !== t2 && St(t2, e2._storedError); } __name(ot, "ot"); function nt(e2, t2) { const r2 = e2._writer; void 0 !== r2 && t2 !== e2._backpressure && (t2 ? function(e3) { Rt(e3); }(r2) : Et(r2)), e2._backpressure = t2; } __name(nt, "nt"); Object.defineProperties(WritableStream.prototype, { abort: { enumerable: true }, close: { enumerable: true }, getWriter: { enumerable: true }, locked: { enumerable: true } }), n(WritableStream.prototype.abort, "abort"), n(WritableStream.prototype.close, "close"), n(WritableStream.prototype.getWriter, "getWriter"), "symbol" == typeof e.toStringTag && Object.defineProperty(WritableStream.prototype, e.toStringTag, { value: "WritableStream", configurable: true }); var WritableStreamDefaultWriter = class { constructor(e2) { if ($(e2, 1, "WritableStreamDefaultWriter"), function(e3, t3) { if (!Ge(e3)) throw new TypeError(`${t3} is not a WritableStream.`); }(e2, "First parameter"), Xe(e2)) throw new TypeError("This stream has already been locked for exclusive writing by another writer"); this._ownerWritableStream = e2, e2._writer = this; const t2 = e2._state; if ("writable" === t2) !rt(e2) && e2._backpressure ? Rt(this) : qt(this), gt(this); else if ("erroring" === t2) Tt(this, e2._storedError), gt(this); else if ("closed" === t2) qt(this), gt(r2 = this), vt(r2); else { const t3 = e2._storedError; Tt(this, t3), wt(this, t3); } var r2; } get closed() { return at(this) ? this._closedPromise : d(mt("closed")); } get desiredSize() { if (!at(this)) throw mt("desiredSize"); if (void 0 === this._ownerWritableStream) throw yt("desiredSize"); return function(e2) { const t2 = e2._ownerWritableStream, r2 = t2._state; if ("errored" === r2 || "erroring" === r2) return null; if ("closed" === r2) return 0; return ct(t2._writableStreamController); }(this); } get ready() { return at(this) ? this._readyPromise : d(mt("ready")); } abort(e2) { return at(this) ? void 0 === this._ownerWritableStream ? d(yt("abort")) : function(e3, t2) { return Je(e3._ownerWritableStream, t2); }(this, e2) : d(mt("abort")); } close() { if (!at(this)) return d(mt("close")); const e2 = this._ownerWritableStream; return void 0 === e2 ? d(yt("close")) : rt(e2) ? d(new TypeError("Cannot close an already-closing stream")) : Ke(this._ownerWritableStream); } releaseLock() { if (!at(this)) throw mt("releaseLock"); void 0 !== this._ownerWritableStream && function(e2) { const t2 = e2._ownerWritableStream, r2 = new TypeError("Writer was released and can no longer be used to monitor the stream's closedness"); it(e2, r2), function(e3, t3) { "pending" === e3._closedPromiseState ? St(e3, t3) : function(e4, t4) { wt(e4, t4); }(e3, t3); }(e2, r2), t2._writer = void 0, e2._ownerWritableStream = void 0; }(this); } write(e2) { return at(this) ? void 0 === this._ownerWritableStream ? d(yt("write to")) : function(e3, t2) { const r2 = e3._ownerWritableStream, o2 = r2._writableStreamController, n2 = function(e4, t3) { try { return e4._strategySizeAlgorithm(t3); } catch (t4) { return ft(e4, t4), 1; } }(o2, t2); if (r2 !== e3._ownerWritableStream) return d(yt("write to")); const a2 = r2._state; if ("errored" === a2) return d(r2._storedError); if (rt(r2) || "closed" === a2) return d(new TypeError("The stream is closing or closed and cannot be written to")); if ("erroring" === a2) return d(r2._storedError); const i2 = function(e4) { return u((t3, r3) => { const o3 = { _resolve: t3, _reject: r3 }; e4._writeRequests.push(o3); }); }(r2); return function(e4, t3, r3) { try { ue(e4, t3, r3); } catch (t4) { return void ft(e4, t4); } const o3 = e4._controlledWritableStream; if (!rt(o3) && "writable" === o3._state) { nt(o3, bt(e4)); } dt(e4); }(o2, t2, n2), i2; }(this, e2) : d(mt("write")); } }; __name(WritableStreamDefaultWriter, "WritableStreamDefaultWriter"); function at(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_ownerWritableStream") && e2 instanceof WritableStreamDefaultWriter); } __name(at, "at"); function it(e2, t2) { "pending" === e2._readyPromiseState ? Ct(e2, t2) : function(e3, t3) { Tt(e3, t3); }(e2, t2); } __name(it, "it"); Object.defineProperties(WritableStreamDefaultWriter.prototype, { abort: { enumerable: true }, close: { enumerable: true }, releaseLock: { enumerable: true }, write: { enumerable: true }, closed: { enumerable: true }, desiredSize: { enumerable: true }, ready: { enumerable: true } }), n(WritableStreamDefaultWriter.prototype.abort, "abort"), n(WritableStreamDefaultWriter.prototype.close, "close"), n(WritableStreamDefaultWriter.prototype.releaseLock, "releaseLock"), n(WritableStreamDefaultWriter.prototype.write, "write"), "symbol" == typeof e.toStringTag && Object.defineProperty(WritableStreamDefaultWriter.prototype, e.toStringTag, { value: "WritableStreamDefaultWriter", configurable: true }); var lt = {}; var WritableStreamDefaultController = class { constructor() { throw new TypeError("Illegal constructor"); } get abortReason() { if (!st(this)) throw pt("abortReason"); return this._abortReason; } get signal() { if (!st(this)) throw pt("signal"); if (void 0 === this._abortController) throw new TypeError("WritableStreamDefaultController.prototype.signal is not supported"); return this._abortController.signal; } error(e2) { if (!st(this)) throw pt("error"); "writable" === this._controlledWritableStream._state && ht(this, e2); } [v](e2) { const t2 = this._abortAlgorithm(e2); return ut(this), t2; } [R]() { ce(this); } }; __name(WritableStreamDefaultController, "WritableStreamDefaultController"); function st(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_controlledWritableStream") && e2 instanceof WritableStreamDefaultController); } __name(st, "st"); function ut(e2) { e2._writeAlgorithm = void 0, e2._closeAlgorithm = void 0, e2._abortAlgorithm = void 0, e2._strategySizeAlgorithm = void 0; } __name(ut, "ut"); function ct(e2) { return e2._strategyHWM - e2._queueTotalSize; } __name(ct, "ct"); function dt(e2) { const t2 = e2._controlledWritableStream; if (!e2._started) return; if (void 0 !== t2._inFlightWriteRequest) return; if ("erroring" === t2._state) return void tt(t2); if (0 === e2._queue.length) return; const r2 = e2._queue.peek().value; r2 === lt ? function(e3) { const t3 = e3._controlledWritableStream; (function(e4) { e4._inFlightCloseRequest = e4._closeRequest, e4._closeRequest = void 0; })(t3), se(e3); const r3 = e3._closeAlgorithm(); ut(e3), b(r3, () => (function(e4) { e4._inFlightCloseRequest._resolve(void 0), e4._inFlightCloseRequest = void 0, "erroring" === e4._state && (e4._storedError = void 0, void 0 !== e4._pendingAbortRequest && (e4._pendingAbortRequest._resolve(), e4._pendingAbortRequest = void 0)), e4._state = "closed"; const t4 = e4._writer; void 0 !== t4 && vt(t4); }(t3), null), (e4) => (function(e5, t4) { e5._inFlightCloseRequest._reject(t4), e5._inFlightCloseRequest = void 0, void 0 !== e5._pendingAbortRequest && (e5._pendingAbortRequest._reject(t4), e5._pendingAbortRequest = void 0), Ze(e5, t4); }(t3, e4), null)); }(e2) : function(e3, t3) { const r3 = e3._controlledWritableStream; !function(e4) { e4._inFlightWriteRequest = e4._writeRequests.shift(); }(r3); b(e3._writeAlgorithm(t3), () => { !function(e4) { e4._inFlightWriteRequest._resolve(void 0), e4._inFlightWriteRequest = void 0; }(r3); const t4 = r3._state; if (se(e3), !rt(r3) && "writable" === t4) { const t5 = bt(e3); nt(r3, t5); } return dt(e3), null; }, (t4) => ("writable" === r3._state && ut(e3), function(e4, t5) { e4._inFlightWriteRequest._reject(t5), e4._inFlightWriteRequest = void 0, Ze(e4, t5); }(r3, t4), null)); }(e2, r2); } __name(dt, "dt"); function ft(e2, t2) { "writable" === e2._controlledWritableStream._state && ht(e2, t2); } __name(ft, "ft"); function bt(e2) { return ct(e2) <= 0; } __name(bt, "bt"); function ht(e2, t2) { const r2 = e2._controlledWritableStream; ut(e2), et(r2, t2); } __name(ht, "ht"); function _t(e2) { return new TypeError(`WritableStream.prototype.${e2} can only be used on a WritableStream`); } __name(_t, "_t"); function pt(e2) { return new TypeError(`WritableStreamDefaultController.prototype.${e2} can only be used on a WritableStreamDefaultController`); } __name(pt, "pt"); function mt(e2) { return new TypeError(`WritableStreamDefaultWriter.prototype.${e2} can only be used on a WritableStreamDefaultWriter`); } __name(mt, "mt"); function yt(e2) { return new TypeError("Cannot " + e2 + " a stream using a released writer"); } __name(yt, "yt"); function gt(e2) { e2._closedPromise = u((t2, r2) => { e2._closedPromise_resolve = t2, e2._closedPromise_reject = r2, e2._closedPromiseState = "pending"; }); } __name(gt, "gt"); function wt(e2, t2) { gt(e2), St(e2, t2); } __name(wt, "wt"); function St(e2, t2) { void 0 !== e2._closedPromise_reject && (m(e2._closedPromise), e2._closedPromise_reject(t2), e2._closedPromise_resolve = void 0, e2._closedPromise_reject = void 0, e2._closedPromiseState = "rejected"); } __name(St, "St"); function vt(e2) { void 0 !== e2._closedPromise_resolve && (e2._closedPromise_resolve(void 0), e2._closedPromise_resolve = void 0, e2._closedPromise_reject = void 0, e2._closedPromiseState = "resolved"); } __name(vt, "vt"); function Rt(e2) { e2._readyPromise = u((t2, r2) => { e2._readyPromise_resolve = t2, e2._readyPromise_reject = r2; }), e2._readyPromiseState = "pending"; } __name(Rt, "Rt"); function Tt(e2, t2) { Rt(e2), Ct(e2, t2); } __name(Tt, "Tt"); function qt(e2) { Rt(e2), Et(e2); } __name(qt, "qt"); function Ct(e2, t2) { void 0 !== e2._readyPromise_reject && (m(e2._readyPromise), e2._readyPromise_reject(t2), e2._readyPromise_resolve = void 0, e2._readyPromise_reject = void 0, e2._readyPromiseState = "rejected"); } __name(Ct, "Ct"); function Et(e2) { void 0 !== e2._readyPromise_resolve && (e2._readyPromise_resolve(void 0), e2._readyPromise_resolve = void 0, e2._readyPromise_reject = void 0, e2._readyPromiseState = "fulfilled"); } __name(Et, "Et"); Object.defineProperties(WritableStreamDefaultController.prototype, { abortReason: { enumerable: true }, signal: { enumerable: true }, error: { enumerable: true } }), "symbol" == typeof e.toStringTag && Object.defineProperty(WritableStreamDefaultController.prototype, e.toStringTag, { value: "WritableStreamDefaultController", configurable: true }); var Pt = "undefined" != typeof DOMException ? DOMException : void 0; var Wt = function(e2) { if ("function" != typeof e2 && "object" != typeof e2) return false; try { return new e2(), true; } catch (e3) { return false; } }(Pt) ? Pt : function() { const e2 = /* @__PURE__ */ __name(function(e3, t2) { this.message = e3 || "", this.name = t2 || "Error", Error.captureStackTrace && Error.captureStackTrace(this, this.constructor); }, "e"); return e2.prototype = Object.create(Error.prototype), Object.defineProperty(e2.prototype, "constructor", { value: e2, writable: true, configurable: true }), e2; }(); function kt(e2, t2, r2, o2, n2, a2) { const i2 = e2.getReader(), l2 = t2.getWriter(); Vt(e2) && (e2._disturbed = true); let s2, _2, g2, w2 = false, S2 = false, v2 = "readable", R2 = "writable", T2 = false, q2 = false; const C2 = u((e3) => { g2 = e3; }); let E2 = Promise.resolve(void 0); return u((P2, W2) => { let k2; function O2() { if (w2) return; const e3 = u((e4, t3) => { !(/* @__PURE__ */ __name(function r3(o3) { o3 ? e4() : f(function() { if (w2) return c(true); return f(l2.ready, () => f(i2.read(), (e5) => !!e5.done || (E2 = l2.write(e5.value), m(E2), false))); }(), r3, t3); }, "r"))(false); }); m(e3); } __name(O2, "O"); function B2() { return v2 = "closed", r2 ? L2() : z2(() => (Ge(t2) && (T2 = rt(t2), R2 = t2._state), T2 || "closed" === R2 ? c(void 0) : "erroring" === R2 || "errored" === R2 ? d(_2) : (T2 = true, l2.close())), false, void 0), null; } __name(B2, "B"); function A2(e3) { return w2 || (v2 = "errored", s2 = e3, o2 ? L2(true, e3) : z2(() => l2.abort(e3), true, e3)), null; } __name(A2, "A"); function j2(e3) { return S2 || (R2 = "errored", _2 = e3, n2 ? L2(true, e3) : z2(() => i2.cancel(e3), true, e3)), null; } __name(j2, "j"); if (void 0 !== a2 && (k2 = /* @__PURE__ */ __name(() => { const e3 = void 0 !== a2.reason ? a2.reason : new Wt("Aborted", "AbortError"), t3 = []; o2 || t3.push(() => "writable" === R2 ? l2.abort(e3) : c(void 0)), n2 || t3.push(() => "readable" === v2 ? i2.cancel(e3) : c(void 0)), z2(() => Promise.all(t3.map((e4) => e4())), true, e3); }, "k"), a2.aborted ? k2() : a2.addEventListener("abort", k2)), Vt(e2) && (v2 = e2._state, s2 = e2._storedError), Ge(t2) && (R2 = t2._state, _2 = t2._storedError, T2 = rt(t2)), Vt(e2) && Ge(t2) && (q2 = true, g2()), "errored" === v2) A2(s2); else if ("erroring" === R2 || "errored" === R2) j2(_2); else if ("closed" === v2) B2(); else if (T2 || "closed" === R2) { const e3 = new TypeError("the destination writable stream closed before all data could be piped to it"); n2 ? L2(true, e3) : z2(() => i2.cancel(e3), true, e3); } function z2(e3, t3, r3) { function o3() { return "writable" !== R2 || T2 ? n3() : h(function() { let e4; return c((/* @__PURE__ */ __name(function t4() { if (e4 !== E2) return e4 = E2, p(E2, t4, t4); }, "t"))()); }(), n3), null; } __name(o3, "o"); function n3() { return e3 ? b(e3(), () => F2(t3, r3), (e4) => F2(true, e4)) : F2(t3, r3), null; } __name(n3, "n"); w2 || (w2 = true, q2 ? o3() : h(C2, o3)); } __name(z2, "z"); function L2(e3, t3) { z2(void 0, e3, t3); } __name(L2, "L"); function F2(e3, t3) { return S2 = true, l2.releaseLock(), i2.releaseLock(), void 0 !== a2 && a2.removeEventListener("abort", k2), e3 ? W2(t3) : P2(void 0), null; } __name(F2, "F"); w2 || (b(i2.closed, B2, A2), b(l2.closed, function() { return S2 || (R2 = "closed"), null; }, j2)), q2 ? O2() : y(() => { q2 = true, g2(), O2(); }); }); } __name(kt, "kt"); function Ot(e2, t2) { return function(e3) { try { return e3.getReader({ mode: "byob" }).releaseLock(), true; } catch (e4) { return false; } }(e2) ? function(e3) { let t3, r2, o2, n2, a2, i2 = e3.getReader(), l2 = false, s2 = false, d2 = false, f2 = false, h2 = false, p2 = false; const m2 = u((e4) => { a2 = e4; }); function y2(e4) { _(e4.closed, (t4) => (e4 !== i2 || (o2.error(t4), n2.error(t4), h2 && p2 || a2(void 0)), null)); } __name(y2, "y"); function g2() { l2 && (i2.releaseLock(), i2 = e3.getReader(), y2(i2), l2 = false), b(i2.read(), (e4) => { var t4, r3; if (d2 = false, f2 = false, e4.done) return h2 || o2.close(), p2 || n2.close(), null === (t4 = o2.byobRequest) || void 0 === t4 || t4.respond(0), null === (r3 = n2.byobRequest) || void 0 === r3 || r3.respond(0), h2 && p2 || a2(void 0), null; const l3 = e4.value, u2 = l3; let c2 = l3; if (!h2 && !p2) try { c2 = le(l3); } catch (e5) { return o2.error(e5), n2.error(e5), a2(i2.cancel(e5)), null; } return h2 || o2.enqueue(u2), p2 || n2.enqueue(c2), s2 = false, d2 ? S2() : f2 && v2(), null; }, () => (s2 = false, null)); } __name(g2, "g"); function w2(t4, r3) { l2 || (i2.releaseLock(), i2 = e3.getReader({ mode: "byob" }), y2(i2), l2 = true); const u2 = r3 ? n2 : o2, c2 = r3 ? o2 : n2; b(i2.read(t4), (e4) => { var t5; d2 = false, f2 = false; const o3 = r3 ? p2 : h2, n3 = r3 ? h2 : p2; if (e4.done) { o3 || u2.close(), n3 || c2.close(); const r4 = e4.value; return void 0 !== r4 && (o3 || u2.byobRequest.respondWithNewView(r4), n3 || null === (t5 = c2.byobRequest) || void 0 === t5 || t5.respond(0)), o3 && n3 || a2(void 0), null; } const l3 = e4.value; if (n3) o3 || u2.byobRequest.respondWithNewView(l3); else { let e5; try { e5 = le(l3); } catch (e6) { return u2.error(e6), c2.error(e6), a2(i2.cancel(e6)), null; } o3 || u2.byobRequest.respondWithNewView(l3), c2.enqueue(e5); } return s2 = false, d2 ? S2() : f2 && v2(), null; }, () => (s2 = false, null)); } __name(w2, "w"); function S2() { if (s2) return d2 = true, c(void 0); s2 = true; const e4 = o2.byobRequest; return null === e4 ? g2() : w2(e4.view, false), c(void 0); } __name(S2, "S"); function v2() { if (s2) return f2 = true, c(void 0); s2 = true; const e4 = n2.byobRequest; return null === e4 ? g2() : w2(e4.view, true), c(void 0); } __name(v2, "v"); function R2(e4) { if (h2 = true, t3 = e4, p2) { const e5 = [t3, r2], o3 = i2.cancel(e5); a2(o3); } return m2; } __name(R2, "R"); function T2(e4) { if (p2 = true, r2 = e4, h2) { const e5 = [t3, r2], o3 = i2.cancel(e5); a2(o3); } return m2; } __name(T2, "T"); const q2 = new ReadableStream({ type: "bytes", start(e4) { o2 = e4; }, pull: S2, cancel: R2 }), C2 = new ReadableStream({ type: "bytes", start(e4) { n2 = e4; }, pull: v2, cancel: T2 }); return y2(i2), [q2, C2]; }(e2) : function(e3, t3) { const r2 = e3.getReader(); let o2, n2, a2, i2, l2, s2 = false, d2 = false, f2 = false, h2 = false; const p2 = u((e4) => { l2 = e4; }); function m2() { return s2 ? (d2 = true, c(void 0)) : (s2 = true, b(r2.read(), (e4) => { if (d2 = false, e4.done) return f2 || a2.close(), h2 || i2.close(), f2 && h2 || l2(void 0), null; const t4 = e4.value, r3 = t4, o3 = t4; return f2 || a2.enqueue(r3), h2 || i2.enqueue(o3), s2 = false, d2 && m2(), null; }, () => (s2 = false, null)), c(void 0)); } __name(m2, "m"); function y2(e4) { if (f2 = true, o2 = e4, h2) { const e5 = [o2, n2], t4 = r2.cancel(e5); l2(t4); } return p2; } __name(y2, "y"); function g2(e4) { if (h2 = true, n2 = e4, f2) { const e5 = [o2, n2], t4 = r2.cancel(e5); l2(t4); } return p2; } __name(g2, "g"); const w2 = new ReadableStream({ start(e4) { a2 = e4; }, pull: m2, cancel: y2 }), S2 = new ReadableStream({ start(e4) { i2 = e4; }, pull: m2, cancel: g2 }); return _(r2.closed, (e4) => (a2.error(e4), i2.error(e4), f2 && h2 || l2(void 0), null)), [w2, S2]; }(e2); } __name(Ot, "Ot"); var ReadableStreamDefaultController = class { constructor() { throw new TypeError("Illegal constructor"); } get desiredSize() { if (!Bt(this)) throw Dt("desiredSize"); return Lt(this); } close() { if (!Bt(this)) throw Dt("close"); if (!Ft(this)) throw new TypeError("The stream is not in a state that permits close"); !function(e2) { if (!Ft(e2)) return; const t2 = e2._controlledReadableStream; e2._closeRequested = true, 0 === e2._queue.length && (jt(e2), Xt(t2)); }(this); } enqueue(e2) { if (!Bt(this)) throw Dt("enqueue"); if (!Ft(this)) throw new TypeError("The stream is not in a state that permits enqueue"); return function(e3, t2) { if (!Ft(e3)) return; const r2 = e3._controlledReadableStream; if (Ut(r2) && X(r2) > 0) G(r2, t2, false); else { let r3; try { r3 = e3._strategySizeAlgorithm(t2); } catch (t3) { throw zt(e3, t3), t3; } try { ue(e3, t2, r3); } catch (t3) { throw zt(e3, t3), t3; } } At(e3); }(this, e2); } error(e2) { if (!Bt(this)) throw Dt("error"); zt(this, e2); } [T](e2) { ce(this); const t2 = this._cancelAlgorithm(e2); return jt(this), t2; } [q](e2) { const t2 = this._controlledReadableStream; if (this._queue.length > 0) { const r2 = se(this); this._closeRequested && 0 === this._queue.length ? (jt(this), Xt(t2)) : At(this), e2._chunkSteps(r2); } else U(t2, e2), At(this); } [C]() { } }; __name(ReadableStreamDefaultController, "ReadableStreamDefaultController"); function Bt(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_controlledReadableStream") && e2 instanceof ReadableStreamDefaultController); } __name(Bt, "Bt"); function At(e2) { const t2 = function(e3) { const t3 = e3._controlledReadableStream; if (!Ft(e3)) return false; if (!e3._started) return false; if (Ut(t3) && X(t3) > 0) return true; if (Lt(e3) > 0) return true; return false; }(e2); if (!t2) return; if (e2._pulling) return void (e2._pullAgain = true); e2._pulling = true; b(e2._pullAlgorithm(), () => (e2._pulling = false, e2._pullAgain && (e2._pullAgain = false, At(e2)), null), (t3) => (zt(e2, t3), null)); } __name(At, "At"); function jt(e2) { e2._pullAlgorithm = void 0, e2._cancelAlgorithm = void 0, e2._strategySizeAlgorithm = void 0; } __name(jt, "jt"); function zt(e2, t2) { const r2 = e2._controlledReadableStream; "readable" === r2._state && (ce(e2), jt(e2), Jt(r2, t2)); } __name(zt, "zt"); function Lt(e2) { const t2 = e2._controlledReadableStream._state; return "errored" === t2 ? null : "closed" === t2 ? 0 : e2._strategyHWM - e2._queueTotalSize; } __name(Lt, "Lt"); function Ft(e2) { return !e2._closeRequested && "readable" === e2._controlledReadableStream._state; } __name(Ft, "Ft"); function It(e2, t2, r2, o2) { const n2 = Object.create(ReadableStreamDefaultController.prototype); let a2, i2, l2; a2 = void 0 !== t2.start ? () => t2.start(n2) : () => { }, i2 = void 0 !== t2.pull ? () => t2.pull(n2) : () => c(void 0), l2 = void 0 !== t2.cancel ? (e3) => t2.cancel(e3) : () => c(void 0), function(e3, t3, r3, o3, n3, a3, i3) { t3._controlledReadableStream = e3, t3._queue = void 0, t3._queueTotalSize = void 0, ce(t3), t3._started = false, t3._closeRequested = false, t3._pullAgain = false, t3._pulling = false, t3._strategySizeAlgorithm = i3, t3._strategyHWM = a3, t3._pullAlgorithm = o3, t3._cancelAlgorithm = n3, e3._readableStreamController = t3, b(c(r3()), () => (t3._started = true, At(t3), null), (e4) => (zt(t3, e4), null)); }(e2, n2, a2, i2, l2, r2, o2); } __name(It, "It"); function Dt(e2) { return new TypeError(`ReadableStreamDefaultController.prototype.${e2} can only be used on a ReadableStreamDefaultController`); } __name(Dt, "Dt"); function $t(e2, t2, r2) { return I(e2, r2), (r3) => w(e2, t2, [r3]); } __name($t, "$t"); function Mt(e2, t2, r2) { return I(e2, r2), (r3) => w(e2, t2, [r3]); } __name(Mt, "Mt"); function Yt(e2, t2, r2) { return I(e2, r2), (r3) => g(e2, t2, [r3]); } __name(Yt, "Yt"); function Qt(e2, t2) { if ("bytes" !== (e2 = `${e2}`)) throw new TypeError(`${t2} '${e2}' is not a valid enumeration value for ReadableStreamType`); return e2; } __name(Qt, "Qt"); function Nt(e2, t2) { if ("byob" !== (e2 = `${e2}`)) throw new TypeError(`${t2} '${e2}' is not a valid enumeration value for ReadableStreamReaderMode`); return e2; } __name(Nt, "Nt"); function Ht(e2, t2) { F(e2, t2); const r2 = null == e2 ? void 0 : e2.preventAbort, o2 = null == e2 ? void 0 : e2.preventCancel, n2 = null == e2 ? void 0 : e2.preventClose, a2 = null == e2 ? void 0 : e2.signal; return void 0 !== a2 && function(e3, t3) { if (!function(e4) { if ("object" != typeof e4 || null === e4) return false; try { return "boolean" == typeof e4.aborted; } catch (e5) { return false; } }(e3)) throw new TypeError(`${t3} is not an AbortSignal.`); }(a2, `${t2} has member 'signal' that`), { preventAbort: Boolean(r2), preventCancel: Boolean(o2), preventClose: Boolean(n2), signal: a2 }; } __name(Ht, "Ht"); function xt(e2, t2) { F(e2, t2); const r2 = null == e2 ? void 0 : e2.readable; M(r2, "readable", "ReadableWritablePair"), function(e3, t3) { if (!H(e3)) throw new TypeError(`${t3} is not a ReadableStream.`); }(r2, `${t2} has member 'readable' that`); const o2 = null == e2 ? void 0 : e2.writable; return M(o2, "writable", "ReadableWritablePair"), function(e3, t3) { if (!x(e3)) throw new TypeError(`${t3} is not a WritableStream.`); }(o2, `${t2} has member 'writable' that`), { readable: r2, writable: o2 }; } __name(xt, "xt"); Object.defineProperties(ReadableStreamDefaultController.prototype, { close: { enumerable: true }, enqueue: { enumerable: true }, error: { enumerable: true }, desiredSize: { enumerable: true } }), n(ReadableStreamDefaultController.prototype.close, "close"), n(ReadableStreamDefaultController.prototype.enqueue, "enqueue"), n(ReadableStreamDefaultController.prototype.error, "error"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableStreamDefaultController.prototype, e.toStringTag, { value: "ReadableStreamDefaultController", configurable: true }); var ReadableStream = class { constructor(e2 = {}, t2 = {}) { void 0 === e2 ? e2 = null : D(e2, "First parameter"); const r2 = Ye(t2, "Second parameter"), o2 = function(e3, t3) { F(e3, t3); const r3 = e3, o3 = null == r3 ? void 0 : r3.autoAllocateChunkSize, n3 = null == r3 ? void 0 : r3.cancel, a2 = null == r3 ? void 0 : r3.pull, i2 = null == r3 ? void 0 : r3.start, l2 = null == r3 ? void 0 : r3.type; return { autoAllocateChunkSize: void 0 === o3 ? void 0 : N(o3, `${t3} has member 'autoAllocateChunkSize' that`), cancel: void 0 === n3 ? void 0 : $t(n3, r3, `${t3} has member 'cancel' that`), pull: void 0 === a2 ? void 0 : Mt(a2, r3, `${t3} has member 'pull' that`), start: void 0 === i2 ? void 0 : Yt(i2, r3, `${t3} has member 'start' that`), type: void 0 === l2 ? void 0 : Qt(l2, `${t3} has member 'type' that`) }; }(e2, "First parameter"); var n2; if ((n2 = this)._state = "readable", n2._reader = void 0, n2._storedError = void 0, n2._disturbed = false, "bytes" === o2.type) { if (void 0 !== r2.size) throw new RangeError("The strategy for a byte stream cannot have a size function"); Oe(this, o2, $e(r2, 0)); } else { const e3 = Me(r2); It(this, o2, $e(r2, 1), e3); } } get locked() { if (!Vt(this)) throw Kt("locked"); return Ut(this); } cancel(e2) { return Vt(this) ? Ut(this) ? d(new TypeError("Cannot cancel a stream that already has a reader")) : Gt(this, e2) : d(Kt("cancel")); } getReader(e2) { if (!Vt(this)) throw Kt("getReader"); return void 0 === function(e3, t2) { F(e3, t2); const r2 = null == e3 ? void 0 : e3.mode; return { mode: void 0 === r2 ? void 0 : Nt(r2, `${t2} has member 'mode' that`) }; }(e2, "First parameter").mode ? new ReadableStreamDefaultReader(this) : function(e3) { return new ReadableStreamBYOBReader(e3); }(this); } pipeThrough(e2, t2 = {}) { if (!H(this)) throw Kt("pipeThrough"); $(e2, 1, "pipeThrough"); const r2 = xt(e2, "First parameter"), o2 = Ht(t2, "Second parameter"); if (this.locked) throw new TypeError("ReadableStream.prototype.pipeThrough cannot be used on a locked ReadableStream"); if (r2.writable.locked) throw new TypeError("ReadableStream.prototype.pipeThrough cannot be used on a locked WritableStream"); return m(kt(this, r2.writable, o2.preventClose, o2.preventAbort, o2.preventCancel, o2.signal)), r2.readable; } pipeTo(e2, t2 = {}) { if (!H(this)) return d(Kt("pipeTo")); if (void 0 === e2) return d("Parameter 1 is required in 'pipeTo'."); if (!x(e2)) return d(new TypeError("ReadableStream.prototype.pipeTo's first argument must be a WritableStream")); let r2; try { r2 = Ht(t2, "Second parameter"); } catch (e3) { return d(e3); } return this.locked ? d(new TypeError("ReadableStream.prototype.pipeTo cannot be used on a locked ReadableStream")) : e2.locked ? d(new TypeError("ReadableStream.prototype.pipeTo cannot be used on a locked WritableStream")) : kt(this, e2, r2.preventClose, r2.preventAbort, r2.preventCancel, r2.signal); } tee() { if (!H(this)) throw Kt("tee"); if (this.locked) throw new TypeError("Cannot tee a stream that already has a reader"); return Ot(this); } values(e2) { if (!H(this)) throw Kt("values"); return function(e3, t2) { const r2 = e3.getReader(), o2 = new te(r2, t2), n2 = Object.create(re); return n2._asyncIteratorImpl = o2, n2; }(this, function(e3, t2) { F(e3, t2); const r2 = null == e3 ? void 0 : e3.preventCancel; return { preventCancel: Boolean(r2) }; }(e2, "First parameter").preventCancel); } }; __name(ReadableStream, "ReadableStream"); function Vt(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_readableStreamController") && e2 instanceof ReadableStream); } __name(Vt, "Vt"); function Ut(e2) { return void 0 !== e2._reader; } __name(Ut, "Ut"); function Gt(e2, r2) { if (e2._disturbed = true, "closed" === e2._state) return c(void 0); if ("errored" === e2._state) return d(e2._storedError); Xt(e2); const o2 = e2._reader; if (void 0 !== o2 && Fe(o2)) { const e3 = o2._readIntoRequests; o2._readIntoRequests = new S(), e3.forEach((e4) => { e4._closeSteps(void 0); }); } return p(e2._readableStreamController[T](r2), t); } __name(Gt, "Gt"); function Xt(e2) { e2._state = "closed"; const t2 = e2._reader; if (void 0 !== t2 && (j(t2), K(t2))) { const e3 = t2._readRequests; t2._readRequests = new S(), e3.forEach((e4) => { e4._closeSteps(); }); } } __name(Xt, "Xt"); function Jt(e2, t2) { e2._state = "errored", e2._storedError = t2; const r2 = e2._reader; void 0 !== r2 && (A(r2, t2), K(r2) ? Z(r2, t2) : Ie(r2, t2)); } __name(Jt, "Jt"); function Kt(e2) { return new TypeError(`ReadableStream.prototype.${e2} can only be used on a ReadableStream`); } __name(Kt, "Kt"); function Zt(e2, t2) { F(e2, t2); const r2 = null == e2 ? void 0 : e2.highWaterMark; return M(r2, "highWaterMark", "QueuingStrategyInit"), { highWaterMark: Y(r2) }; } __name(Zt, "Zt"); Object.defineProperties(ReadableStream.prototype, { cancel: { enumerable: true }, getReader: { enumerable: true }, pipeThrough: { enumerable: true }, pipeTo: { enumerable: true }, tee: { enumerable: true }, values: { enumerable: true }, locked: { enumerable: true } }), n(ReadableStream.prototype.cancel, "cancel"), n(ReadableStream.prototype.getReader, "getReader"), n(ReadableStream.prototype.pipeThrough, "pipeThrough"), n(ReadableStream.prototype.pipeTo, "pipeTo"), n(ReadableStream.prototype.tee, "tee"), n(ReadableStream.prototype.values, "values"), "symbol" == typeof e.toStringTag && Object.defineProperty(ReadableStream.prototype, e.toStringTag, { value: "ReadableStream", configurable: true }), "symbol" == typeof e.asyncIterator && Object.defineProperty(ReadableStream.prototype, e.asyncIterator, { value: ReadableStream.prototype.values, writable: true, configurable: true }); var er = /* @__PURE__ */ __name((e2) => e2.byteLength, "er"); n(er, "size"); var ByteLengthQueuingStrategy = class { constructor(e2) { $(e2, 1, "ByteLengthQueuingStrategy"), e2 = Zt(e2, "First parameter"), this._byteLengthQueuingStrategyHighWaterMark = e2.highWaterMark; } get highWaterMark() { if (!rr(this)) throw tr("highWaterMark"); return this._byteLengthQueuingStrategyHighWaterMark; } get size() { if (!rr(this)) throw tr("size"); return er; } }; __name(ByteLengthQueuingStrategy, "ByteLengthQueuingStrategy"); function tr(e2) { return new TypeError(`ByteLengthQueuingStrategy.prototype.${e2} can only be used on a ByteLengthQueuingStrategy`); } __name(tr, "tr"); function rr(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_byteLengthQueuingStrategyHighWaterMark") && e2 instanceof ByteLengthQueuingStrategy); } __name(rr, "rr"); Object.defineProperties(ByteLengthQueuingStrategy.prototype, { highWaterMark: { enumerable: true }, size: { enumerable: true } }), "symbol" == typeof e.toStringTag && Object.defineProperty(ByteLengthQueuingStrategy.prototype, e.toStringTag, { value: "ByteLengthQueuingStrategy", configurable: true }); var or = /* @__PURE__ */ __name(() => 1, "or"); n(or, "size"); var CountQueuingStrategy = class { constructor(e2) { $(e2, 1, "CountQueuingStrategy"), e2 = Zt(e2, "First parameter"), this._countQueuingStrategyHighWaterMark = e2.highWaterMark; } get highWaterMark() { if (!ar(this)) throw nr("highWaterMark"); return this._countQueuingStrategyHighWaterMark; } get size() { if (!ar(this)) throw nr("size"); return or; } }; __name(CountQueuingStrategy, "CountQueuingStrategy"); function nr(e2) { return new TypeError(`CountQueuingStrategy.prototype.${e2} can only be used on a CountQueuingStrategy`); } __name(nr, "nr"); function ar(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_countQueuingStrategyHighWaterMark") && e2 instanceof CountQueuingStrategy); } __name(ar, "ar"); function ir(e2, t2, r2) { return I(e2, r2), (r3) => w(e2, t2, [r3]); } __name(ir, "ir"); function lr(e2, t2, r2) { return I(e2, r2), (r3) => g(e2, t2, [r3]); } __name(lr, "lr"); function sr(e2, t2, r2) { return I(e2, r2), (r3, o2) => w(e2, t2, [r3, o2]); } __name(sr, "sr"); Object.defineProperties(CountQueuingStrategy.prototype, { highWaterMark: { enumerable: true }, size: { enumerable: true } }), "symbol" == typeof e.toStringTag && Object.defineProperty(CountQueuingStrategy.prototype, e.toStringTag, { value: "CountQueuingStrategy", configurable: true }); var TransformStream = class { constructor(e2 = {}, t2 = {}, r2 = {}) { void 0 === e2 && (e2 = null); const o2 = Ye(t2, "Second parameter"), n2 = Ye(r2, "Third parameter"), a2 = function(e3, t3) { F(e3, t3); const r3 = null == e3 ? void 0 : e3.flush, o3 = null == e3 ? void 0 : e3.readableType, n3 = null == e3 ? void 0 : e3.start, a3 = null == e3 ? void 0 : e3.transform, i3 = null == e3 ? void 0 : e3.writableType; return { flush: void 0 === r3 ? void 0 : ir(r3, e3, `${t3} has member 'flush' that`), readableType: o3, start: void 0 === n3 ? void 0 : lr(n3, e3, `${t3} has member 'start' that`), transform: void 0 === a3 ? void 0 : sr(a3, e3, `${t3} has member 'transform' that`), writableType: i3 }; }(e2, "First parameter"); if (void 0 !== a2.readableType) throw new RangeError("Invalid readableType specified"); if (void 0 !== a2.writableType) throw new RangeError("Invalid writableType specified"); const i2 = $e(n2, 0), l2 = Me(n2), s2 = $e(o2, 1), f2 = Me(o2); let b2; !function(e3, t3, r3, o3, n3, a3) { function i3() { return t3; } __name(i3, "i"); function l3(t4) { return function(e4, t5) { const r4 = e4._transformStreamController; if (e4._backpressure) { return p(e4._backpressureChangePromise, () => { if ("erroring" === (Ge(e4._writable) ? e4._writable._state : e4._writableState)) throw Ge(e4._writable) ? e4._writable._storedError : e4._writableStoredError; return pr(r4, t5); }); } return pr(r4, t5); }(e3, t4); } __name(l3, "l"); function s3(t4) { return function(e4, t5) { return cr(e4, t5), c(void 0); }(e3, t4); } __name(s3, "s"); function u2() { return function(e4) { const t4 = e4._transformStreamController, r4 = t4._flushAlgorithm(); return hr(t4), p(r4, () => { if ("errored" === e4._readableState) throw e4._readableStoredError; gr(e4) && wr(e4); }, (t5) => { throw cr(e4, t5), e4._readableStoredError; }); }(e3); } __name(u2, "u"); function d2() { return function(e4) { return fr(e4, false), e4._backpressureChangePromise; }(e3); } __name(d2, "d"); function f3(t4) { return dr(e3, t4), c(void 0); } __name(f3, "f"); e3._writableState = "writable", e3._writableStoredError = void 0, e3._writableHasInFlightOperation = false, e3._writableStarted = false, e3._writable = function(e4, t4, r4, o4, n4, a4, i4) { return new WritableStream({ start(r5) { e4._writableController = r5; try { const t5 = r5.signal; void 0 !== t5 && t5.addEventListener("abort", () => { "writable" === e4._writableState && (e4._writableState = "erroring", t5.reason && (e4._writableStoredError = t5.reason)); }); } catch (e5) { } return p(t4(), () => (e4._writableStarted = true, Cr(e4), null), (t5) => { throw e4._writableStarted = true, Rr(e4, t5), t5; }); }, write: (t5) => (function(e5) { e5._writableHasInFlightOperation = true; }(e4), p(r4(t5), () => (function(e5) { e5._writableHasInFlightOperation = false; }(e4), Cr(e4), null), (t6) => { throw function(e5, t7) { e5._writableHasInFlightOperation = false, Rr(e5, t7); }(e4, t6), t6; })), close: () => (function(e5) { e5._writableHasInFlightOperation = true; }(e4), p(o4(), () => (function(e5) { e5._writableHasInFlightOperation = false; "erroring" === e5._writableState && (e5._writableStoredError = void 0); e5._writableState = "closed"; }(e4), null), (t5) => { throw function(e5, t6) { e5._writableHasInFlightOperation = false, e5._writableState, Rr(e5, t6); }(e4, t5), t5; })), abort: (t5) => (e4._writableState = "errored", e4._writableStoredError = t5, n4(t5)) }, { highWaterMark: a4, size: i4 }); }(e3, i3, l3, u2, s3, r3, o3), e3._readableState = "readable", e3._readableStoredError = void 0, e3._readableCloseRequested = false, e3._readablePulling = false, e3._readable = function(e4, t4, r4, o4, n4, a4) { return new ReadableStream({ start: (r5) => (e4._readableController = r5, t4().catch((t5) => { Sr(e4, t5); })), pull: () => (e4._readablePulling = true, r4().catch((t5) => { Sr(e4, t5); })), cancel: (t5) => (e4._readableState = "closed", o4(t5)) }, { highWaterMark: n4, size: a4 }); }(e3, i3, d2, f3, n3, a3), e3._backpressure = void 0, e3._backpressureChangePromise = void 0, e3._backpressureChangePromise_resolve = void 0, fr(e3, true), e3._transformStreamController = void 0; }(this, u((e3) => { b2 = e3; }), s2, f2, i2, l2), function(e3, t3) { const r3 = Object.create(TransformStreamDefaultController.prototype); let o3, n3; o3 = void 0 !== t3.transform ? (e4) => t3.transform(e4, r3) : (e4) => { try { return _r(r3, e4), c(void 0); } catch (e5) { return d(e5); } }; n3 = void 0 !== t3.flush ? () => t3.flush(r3) : () => c(void 0); !function(e4, t4, r4, o4) { t4._controlledTransformStream = e4, e4._transformStreamController = t4, t4._transformAlgorithm = r4, t4._flushAlgorithm = o4; }(e3, r3, o3, n3); }(this, a2), void 0 !== a2.start ? b2(a2.start(this._transformStreamController)) : b2(void 0); } get readable() { if (!ur(this)) throw yr("readable"); return this._readable; } get writable() { if (!ur(this)) throw yr("writable"); return this._writable; } }; __name(TransformStream, "TransformStream"); function ur(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_transformStreamController") && e2 instanceof TransformStream); } __name(ur, "ur"); function cr(e2, t2) { Sr(e2, t2), dr(e2, t2); } __name(cr, "cr"); function dr(e2, t2) { hr(e2._transformStreamController), function(e3, t3) { e3._writableController.error(t3); "writable" === e3._writableState && Tr(e3, t3); }(e2, t2), e2._backpressure && fr(e2, false); } __name(dr, "dr"); function fr(e2, t2) { void 0 !== e2._backpressureChangePromise && e2._backpressureChangePromise_resolve(), e2._backpressureChangePromise = u((t3) => { e2._backpressureChangePromise_resolve = t3; }), e2._backpressure = t2; } __name(fr, "fr"); Object.defineProperties(TransformStream.prototype, { readable: { enumerable: true }, writable: { enumerable: true } }), "symbol" == typeof e.toStringTag && Object.defineProperty(TransformStream.prototype, e.toStringTag, { value: "TransformStream", configurable: true }); var TransformStreamDefaultController = class { constructor() { throw new TypeError("Illegal constructor"); } get desiredSize() { if (!br(this)) throw mr("desiredSize"); return vr(this._controlledTransformStream); } enqueue(e2) { if (!br(this)) throw mr("enqueue"); _r(this, e2); } error(e2) { if (!br(this)) throw mr("error"); var t2; t2 = e2, cr(this._controlledTransformStream, t2); } terminate() { if (!br(this)) throw mr("terminate"); !function(e2) { const t2 = e2._controlledTransformStream; gr(t2) && wr(t2); const r2 = new TypeError("TransformStream terminated"); dr(t2, r2); }(this); } }; __name(TransformStreamDefaultController, "TransformStreamDefaultController"); function br(e2) { return !!r(e2) && (!!Object.prototype.hasOwnProperty.call(e2, "_controlledTransformStream") && e2 instanceof TransformStreamDefaultController); } __name(br, "br"); function hr(e2) { e2._transformAlgorithm = void 0, e2._flushAlgorithm = void 0; } __name(hr, "hr"); function _r(e2, t2) { const r2 = e2._controlledTransformStream; if (!gr(r2)) throw new TypeError("Readable side is not in a state that permits enqueue"); try { !function(e3, t3) { e3._readablePulling = false; try { e3._readableController.enqueue(t3); } catch (t4) { throw Sr(e3, t4), t4; } }(r2, t2); } catch (e3) { throw dr(r2, e3), r2._readableStoredError; } const o2 = function(e3) { return !function(e4) { if (!gr(e4)) return false; if (e4._readablePulling) return true; if (vr(e4) > 0) return true; return false; }(e3); }(r2); o2 !== r2._backpressure && fr(r2, true); } __name(_r, "_r"); function pr(e2, t2) { return p(e2._transformAlgorithm(t2), void 0, (t3) => { throw cr(e2._controlledTransformStream, t3), t3; }); } __name(pr, "pr"); function mr(e2) { return new TypeError(`TransformStreamDefaultController.prototype.${e2} can only be used on a TransformStreamDefaultController`); } __name(mr, "mr"); function yr(e2) { return new TypeError(`TransformStream.prototype.${e2} can only be used on a TransformStream`); } __name(yr, "yr"); function gr(e2) { return !e2._readableCloseRequested && "readable" === e2._readableState; } __name(gr, "gr"); function wr(e2) { e2._readableState = "closed", e2._readableCloseRequested = true, e2._readableController.close(); } __name(wr, "wr"); function Sr(e2, t2) { "readable" === e2._readableState && (e2._readableState = "errored", e2._readableStoredError = t2), e2._readableController.error(t2); } __name(Sr, "Sr"); function vr(e2) { return e2._readableController.desiredSize; } __name(vr, "vr"); function Rr(e2, t2) { "writable" !== e2._writableState ? qr(e2) : Tr(e2, t2); } __name(Rr, "Rr"); function Tr(e2, t2) { e2._writableState = "erroring", e2._writableStoredError = t2, !function(e3) { return e3._writableHasInFlightOperation; }(e2) && e2._writableStarted && qr(e2); } __name(Tr, "Tr"); function qr(e2) { e2._writableState = "errored"; } __name(qr, "qr"); function Cr(e2) { "erroring" === e2._writableState && qr(e2); } __name(Cr, "Cr"); Object.defineProperties(TransformStreamDefaultController.prototype, { enqueue: { enumerable: true }, error: { enumerable: true }, terminate: { enumerable: true }, desiredSize: { enumerable: true } }), n(TransformStreamDefaultController.prototype.enqueue, "enqueue"), n(TransformStreamDefaultController.prototype.error, "error"), n(TransformStreamDefaultController.prototype.terminate, "terminate"), "symbol" == typeof e.toStringTag && Object.defineProperty(TransformStreamDefaultController.prototype, e.toStringTag, { value: "TransformStreamDefaultController", configurable: true }); // Annotate the CommonJS export names for ESM import in node: 0 && (module.exports = { ReadableStream, ReadableStreamBYOBReader, ReadableStreamDefaultReader, TransformStream, WritableStream, WritableStreamDefaultWriter });