mirror of
https://github.com/denoland/deno.git
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481 lines
14 KiB
JavaScript
481 lines
14 KiB
JavaScript
// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license.
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// Based on https://github.com/nodejs/node/blob/889ad35d3d41e376870f785b0c1b669cb732013d/lib/internal/per_context/primordials.js
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// Copyright Joyent, Inc. and other Node contributors.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and associated documentation files (the
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// "Software"), to deal in the Software without restriction, including
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// without limitation the rights to use, copy, modify, merge, publish,
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// distribute, sublicense, and/or sell copies of the Software, and to permit
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// persons to whom the Software is furnished to do so, subject to the
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// following conditions:
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//
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// The above copyright notice and this permission notice shall be included
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// in all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
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// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
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// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
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// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
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// USE OR OTHER DEALINGS IN THE SOFTWARE.
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// This file subclasses and stores the JS builtins that come from the VM
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// so that Node.js's builtin modules do not need to later look these up from
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// the global proxy, which can be mutated by users.
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// Use of primordials have sometimes a dramatic impact on performance, please
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// benchmark all changes made in performance-sensitive areas of the codebase.
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// See: https://github.com/nodejs/node/pull/38248
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"use strict";
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(() => {
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const primordials = {};
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const {
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defineProperty: ReflectDefineProperty,
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getOwnPropertyDescriptor: ReflectGetOwnPropertyDescriptor,
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ownKeys: ReflectOwnKeys,
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} = Reflect;
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// `uncurryThis` is equivalent to `func => Function.prototype.call.bind(func)`.
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// It is using `bind.bind(call)` to avoid using `Function.prototype.bind`
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// and `Function.prototype.call` after it may have been mutated by users.
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const { apply, bind, call } = Function.prototype;
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const uncurryThis = bind.bind(call);
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primordials.uncurryThis = uncurryThis;
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// `applyBind` is equivalent to `func => Function.prototype.apply.bind(func)`.
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// It is using `bind.bind(apply)` to avoid using `Function.prototype.bind`
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// and `Function.prototype.apply` after it may have been mutated by users.
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const applyBind = bind.bind(apply);
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primordials.applyBind = applyBind;
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// Methods that accept a variable number of arguments, and thus it's useful to
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// also create `${prefix}${key}Apply`, which uses `Function.prototype.apply`,
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// instead of `Function.prototype.call`, and thus doesn't require iterator
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// destructuring.
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const varargsMethods = [
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// 'ArrayPrototypeConcat' is omitted, because it performs the spread
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// on its own for arrays and array-likes with a truthy
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// @@isConcatSpreadable symbol property.
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"ArrayOf",
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"ArrayPrototypePush",
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"ArrayPrototypeUnshift",
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// 'FunctionPrototypeCall' is omitted, since there's 'ReflectApply'
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// and 'FunctionPrototypeApply'.
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"MathHypot",
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"MathMax",
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"MathMin",
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"StringPrototypeConcat",
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"TypedArrayOf",
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];
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function getNewKey(key) {
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return typeof key === "symbol"
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? `Symbol${key.description[7].toUpperCase()}${key.description.slice(8)}`
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: `${key[0].toUpperCase()}${key.slice(1)}`;
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}
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function copyAccessor(dest, prefix, key, { enumerable, get, set }) {
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ReflectDefineProperty(dest, `${prefix}Get${key}`, {
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value: uncurryThis(get),
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enumerable,
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});
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if (set !== undefined) {
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ReflectDefineProperty(dest, `${prefix}Set${key}`, {
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value: uncurryThis(set),
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enumerable,
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});
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}
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}
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function copyPropsRenamed(src, dest, prefix) {
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for (const key of ReflectOwnKeys(src)) {
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const newKey = getNewKey(key);
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const desc = ReflectGetOwnPropertyDescriptor(src, key);
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if ("get" in desc) {
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copyAccessor(dest, prefix, newKey, desc);
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} else {
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const name = `${prefix}${newKey}`;
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ReflectDefineProperty(dest, name, desc);
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if (varargsMethods.includes(name)) {
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ReflectDefineProperty(dest, `${name}Apply`, {
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// `src` is bound as the `this` so that the static `this` points
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// to the object it was defined on,
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// e.g.: `ArrayOfApply` gets a `this` of `Array`:
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value: applyBind(desc.value, src),
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});
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}
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}
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}
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}
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function copyPropsRenamedBound(src, dest, prefix) {
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for (const key of ReflectOwnKeys(src)) {
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const newKey = getNewKey(key);
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const desc = ReflectGetOwnPropertyDescriptor(src, key);
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if ("get" in desc) {
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copyAccessor(dest, prefix, newKey, desc);
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} else {
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const { value } = desc;
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if (typeof value === "function") {
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desc.value = value.bind(src);
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}
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const name = `${prefix}${newKey}`;
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ReflectDefineProperty(dest, name, desc);
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if (varargsMethods.includes(name)) {
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ReflectDefineProperty(dest, `${name}Apply`, {
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value: applyBind(value, src),
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});
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}
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}
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}
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}
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function copyPrototype(src, dest, prefix) {
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for (const key of ReflectOwnKeys(src)) {
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const newKey = getNewKey(key);
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const desc = ReflectGetOwnPropertyDescriptor(src, key);
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if ("get" in desc) {
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copyAccessor(dest, prefix, newKey, desc);
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} else {
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const { value } = desc;
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if (typeof value === "function") {
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desc.value = uncurryThis(value);
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}
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const name = `${prefix}${newKey}`;
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ReflectDefineProperty(dest, name, desc);
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if (varargsMethods.includes(name)) {
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ReflectDefineProperty(dest, `${name}Apply`, {
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value: applyBind(value),
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});
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}
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}
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}
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}
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// Create copies of configurable value properties of the global object
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[
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"Proxy",
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"globalThis",
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].forEach((name) => {
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primordials[name] = globalThis[name];
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});
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// Create copy of isNaN
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primordials[isNaN.name] = isNaN;
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// Create copies of URI handling functions
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[
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decodeURI,
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decodeURIComponent,
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encodeURI,
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encodeURIComponent,
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].forEach((fn) => {
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primordials[fn.name] = fn;
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});
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// Create copies of the namespace objects
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[
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"JSON",
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"Math",
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"Proxy",
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"Reflect",
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].forEach((name) => {
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copyPropsRenamed(globalThis[name], primordials, name);
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});
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// Create copies of intrinsic objects
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[
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"AggregateError",
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"Array",
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"ArrayBuffer",
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"BigInt",
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"BigInt64Array",
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"BigUint64Array",
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"Boolean",
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"DataView",
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"Date",
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"Error",
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"EvalError",
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"FinalizationRegistry",
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"Float32Array",
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"Float64Array",
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"Function",
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"Int16Array",
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"Int32Array",
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"Int8Array",
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"Map",
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"Number",
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"Object",
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"RangeError",
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"ReferenceError",
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"RegExp",
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"Set",
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"String",
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"Symbol",
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"SyntaxError",
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"TypeError",
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"URIError",
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"Uint16Array",
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"Uint32Array",
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"Uint8Array",
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"Uint8ClampedArray",
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"WeakMap",
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"WeakRef",
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"WeakSet",
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].forEach((name) => {
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const original = globalThis[name];
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primordials[name] = original;
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copyPropsRenamed(original, primordials, name);
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copyPrototype(original.prototype, primordials, `${name}Prototype`);
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});
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// Create copies of intrinsic objects that require a valid `this` to call
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// static methods.
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// Refs: https://www.ecma-international.org/ecma-262/#sec-promise.all
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[
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"Promise",
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].forEach((name) => {
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const original = globalThis[name];
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primordials[name] = original;
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copyPropsRenamedBound(original, primordials, name);
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copyPrototype(original.prototype, primordials, `${name}Prototype`);
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});
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// Create copies of abstract intrinsic objects that are not directly exposed
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// on the global object.
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// Refs: https://tc39.es/ecma262/#sec-%typedarray%-intrinsic-object
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[
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{ name: "TypedArray", original: Reflect.getPrototypeOf(Uint8Array) },
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{
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name: "ArrayIterator",
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original: {
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prototype: Reflect.getPrototypeOf(Array.prototype[Symbol.iterator]()),
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},
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},
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{
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name: "StringIterator",
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original: {
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prototype: Reflect.getPrototypeOf(String.prototype[Symbol.iterator]()),
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},
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},
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].forEach(({ name, original }) => {
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primordials[name] = original;
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// The static %TypedArray% methods require a valid `this`, but can't be bound,
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// as they need a subclass constructor as the receiver:
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copyPrototype(original, primordials, name);
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copyPrototype(original.prototype, primordials, `${name}Prototype`);
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});
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const {
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ArrayPrototypeForEach,
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FunctionPrototypeCall,
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Map,
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ObjectDefineProperty,
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ObjectFreeze,
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ObjectSetPrototypeOf,
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Promise,
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PromisePrototypeThen,
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Set,
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SymbolIterator,
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WeakMap,
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WeakSet,
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} = primordials;
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// Because these functions are used by `makeSafe`, which is exposed
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// on the `primordials` object, it's important to use const references
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// to the primordials that they use:
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const createSafeIterator = (factory, next) => {
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class SafeIterator {
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constructor(iterable) {
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this._iterator = factory(iterable);
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}
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next() {
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return next(this._iterator);
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}
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[SymbolIterator]() {
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return this;
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}
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}
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ObjectSetPrototypeOf(SafeIterator.prototype, null);
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ObjectFreeze(SafeIterator.prototype);
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ObjectFreeze(SafeIterator);
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return SafeIterator;
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};
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primordials.SafeArrayIterator = createSafeIterator(
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primordials.ArrayPrototypeSymbolIterator,
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primordials.ArrayIteratorPrototypeNext,
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);
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primordials.SafeStringIterator = createSafeIterator(
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primordials.StringPrototypeSymbolIterator,
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primordials.StringIteratorPrototypeNext,
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);
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const copyProps = (src, dest) => {
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ArrayPrototypeForEach(ReflectOwnKeys(src), (key) => {
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if (!ReflectGetOwnPropertyDescriptor(dest, key)) {
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ReflectDefineProperty(
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dest,
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key,
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ReflectGetOwnPropertyDescriptor(src, key),
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);
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}
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});
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};
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/**
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* @type {typeof primordials.makeSafe}
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*/
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const makeSafe = (unsafe, safe) => {
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if (SymbolIterator in unsafe.prototype) {
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const dummy = new unsafe();
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let next; // We can reuse the same `next` method.
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ArrayPrototypeForEach(ReflectOwnKeys(unsafe.prototype), (key) => {
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if (!ReflectGetOwnPropertyDescriptor(safe.prototype, key)) {
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const desc = ReflectGetOwnPropertyDescriptor(unsafe.prototype, key);
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if (
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typeof desc.value === "function" &&
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desc.value.length === 0 &&
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SymbolIterator in (FunctionPrototypeCall(desc.value, dummy) ?? {})
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) {
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const createIterator = uncurryThis(desc.value);
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next ??= uncurryThis(createIterator(dummy).next);
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const SafeIterator = createSafeIterator(createIterator, next);
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desc.value = function () {
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return new SafeIterator(this);
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};
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}
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ReflectDefineProperty(safe.prototype, key, desc);
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}
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});
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} else {
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copyProps(unsafe.prototype, safe.prototype);
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}
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copyProps(unsafe, safe);
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ObjectSetPrototypeOf(safe.prototype, null);
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ObjectFreeze(safe.prototype);
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ObjectFreeze(safe);
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return safe;
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};
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primordials.makeSafe = makeSafe;
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// Subclass the constructors because we need to use their prototype
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// methods later.
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// Defining the `constructor` is necessary here to avoid the default
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// constructor which uses the user-mutable `%ArrayIteratorPrototype%.next`.
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primordials.SafeMap = makeSafe(
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Map,
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class SafeMap extends Map {
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constructor(i) {
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super(i);
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}
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},
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);
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primordials.SafeWeakMap = makeSafe(
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WeakMap,
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class SafeWeakMap extends WeakMap {
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constructor(i) {
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super(i);
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}
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},
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);
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primordials.SafeSet = makeSafe(
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Set,
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class SafeSet extends Set {
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constructor(i) {
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super(i);
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}
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},
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);
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primordials.SafeWeakSet = makeSafe(
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WeakSet,
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class SafeWeakSet extends WeakSet {
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constructor(i) {
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super(i);
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}
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},
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);
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primordials.SafeFinalizationRegistry = makeSafe(
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FinalizationRegistry,
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class SafeFinalizationRegistry extends FinalizationRegistry {
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constructor(cleanupCallback) {
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super(cleanupCallback);
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}
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},
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);
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primordials.SafeWeakRef = makeSafe(
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WeakRef,
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class SafeWeakRef extends WeakRef {
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constructor(target) {
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super(target);
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}
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},
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);
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const SafePromise = makeSafe(
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Promise,
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class SafePromise extends Promise {
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constructor(executor) {
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super(executor);
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}
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},
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);
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primordials.PromisePrototypeCatch = (thisPromise, onRejected) =>
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PromisePrototypeThen(thisPromise, undefined, onRejected);
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/**
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* Attaches a callback that is invoked when the Promise is settled (fulfilled or
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* rejected). The resolved value cannot be modified from the callback.
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* Prefer using async functions when possible.
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* @param {Promise<any>} thisPromise
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* @param {() => void) | undefined | null} onFinally The callback to execute
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* when the Promise is settled (fulfilled or rejected).
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* @returns A Promise for the completion of the callback.
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*/
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primordials.SafePromisePrototypeFinally = (thisPromise, onFinally) =>
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// Wrapping on a new Promise is necessary to not expose the SafePromise
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// prototype to user-land.
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new Promise((a, b) =>
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new SafePromise((a, b) => PromisePrototypeThen(thisPromise, a, b))
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.finally(onFinally)
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.then(a, b)
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);
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// Create getter and setter for `queueMicrotask`, it hasn't been bound yet.
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let queueMicrotask = undefined;
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ObjectDefineProperty(primordials, "queueMicrotask", {
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get() {
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return queueMicrotask;
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},
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});
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primordials.setQueueMicrotask = (value) => {
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if (queueMicrotask !== undefined) {
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throw new Error("queueMicrotask is already defined");
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}
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queueMicrotask = value;
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};
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// Renaming from `eval` is necessary because otherwise it would perform direct
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// evaluation, allowing user-land access to local variables.
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// This is because the identifier `eval` is somewhat treated as a keyword
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primordials.indirectEval = eval;
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ObjectSetPrototypeOf(primordials, null);
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ObjectFreeze(primordials);
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// Provide bootstrap namespace
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globalThis.__bootstrap = { primordials };
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})();
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