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core-js-compat

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Welcome to our new website, core-js.io, where our documentation is moving!

I highly recommend reading this: So, what's next?

Modular standard library for JavaScript. Includes polyfills for ECMAScript up to 2025: promises, symbols, collections, iterators, typed arrays, many other features, ECMAScript proposals, some cross-platform WHATWG / W3C features and proposals like URL. You can load only required features or use it without global namespace pollution.

core-js@3, babel and a look into the future

Raising funds

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Example of usage:

import 'core-js/actual';

Promise.try(() => 42).then(it => console.log(it)); // => 42

Array.from(new Set([1, 2, 3]).union(new Set([3, 4, 5]))); // => [1, 2, 3, 4, 5]

[1, 2].flatMap(it => [it, it]); // => [1, 1, 2, 2]

Iterator.concat([1, 2], function * (i) { while (true) yield i++; }(3))
  .drop(1).take(5)
  .filter(it => it % 2)
  .map(it => it ** 2)
  .toArray(); // => [9, 25]

structuredClone(new Set([1, 2, 3])); // => new Set([1, 2, 3])

You can load only required features:

import 'core-js/actual/promise';
import 'core-js/actual/set';
import 'core-js/actual/iterator';
import 'core-js/actual/array/from';
import 'core-js/actual/array/flat-map';
import 'core-js/actual/structured-clone';

Promise.try(() => 42).then(it => console.log(it)); // => 42

Array.from(new Set([1, 2, 3]).union(new Set([3, 4, 5]))); // => [1, 2, 3, 4, 5]

[1, 2].flatMap(it => [it, it]); // => [1, 1, 2, 2]

Iterator.concat([1, 2], function * (i) { while (true) yield i++; }(3))
  .drop(1).take(5)
  .filter(it => it % 2)
  .map(it => it ** 2)
  .toArray(); // => [9, 25]

structuredClone(new Set([1, 2, 3])); // => new Set([1, 2, 3])

Or use it without global namespace pollution:

import Promise from 'core-js-pure/actual/promise';
import Set from 'core-js-pure/actual/set';
import Iterator from 'core-js-pure/actual/iterator';
import from from 'core-js-pure/actual/array/from';
import flatMap from 'core-js-pure/actual/array/flat-map';
import structuredClone from 'core-js-pure/actual/structured-clone';

Promise.try(() => 42).then(it => console.log(it)); // => 42

from(new Set([1, 2, 3]).union(new Set([3, 4, 5]))); // => [1, 2, 3, 4, 5]

flatMap([1, 2], it => [it, it]); // => [1, 1, 2, 2]

Iterator.concat([1, 2], function * (i) { while (true) yield i++; }(3))
  .drop(1).take(5)
  .filter(it => it % 2)
  .map(it => it ** 2)
  .toArray(); // => [9, 25]

structuredClone(new Set([1, 2, 3])); // => new Set([1, 2, 3])
Index

Usage

Installation:
// global version
npm install --save core-js@3.49.0
// version without global namespace pollution
npm install --save core-js-pure@3.49.0
// bundled global version
npm install --save core-js-bundle@3.49.0
postinstall message

The core-js project needs your help, so the package shows a message about it after installation. If it causes problems for you, you can disable it:

ADBLOCK=true npm install
// or
DISABLE_OPENCOLLECTIVE=true npm install
// or
npm install --loglevel silent
CommonJS API

You can import only-required-for-you polyfills, like in the examples at the top of README.md. Available CommonJS entry points for all polyfilled methods / constructors and namespaces. Just some examples:

// polyfill all `core-js` features, including early-stage proposals:
import "core-js";
// or:
import "core-js/full";
// polyfill all actual features - stable ES, web standards and stage 3 ES proposals:
import "core-js/actual";
// polyfill only stable features - ES and web standards:
import "core-js/stable";
// polyfill only stable ES features:
import "core-js/es";

// if you want to polyfill `Set`:
// all `Set`-related features, with early-stage ES proposals:
import "core-js/full/set";
// stable required for `Set` ES features, features from web standards and stage 3 ES proposals:
import "core-js/actual/set";
// stable required for `Set` ES features and features from web standards
// (DOM collections iterator in this case):
import "core-js/stable/set";
// only stable ES features required for `Set`:
import "core-js/es/set";
// the same without global namespace pollution:
import Set from "core-js-pure/full/set";
import Set from "core-js-pure/actual/set";
import Set from "core-js-pure/stable/set";
import Set from "core-js-pure/es/set";

// if you want to polyfill just the required methods:
import "core-js/full/set/intersection";
import "core-js/actual/array/find-last";
import "core-js/stable/queue-microtask";
import "core-js/es/array/from";

// polyfill iterator helpers proposal:
import "core-js/proposals/iterator-helpers";
// polyfill all stage 2+ proposals:
import "core-js/stage/2";

The usage of the /actual/ namespace is recommended since it includes all actual JavaScript features and does not include unstable early-stage proposals that are available mainly for experiments.

  • The modules path is an internal API, does not inject all required dependencies and can be changed in minor or patch releases. Use it only for a custom build and/or if you know what are you doing.
  • If you use core-js with the extension of native objects, recommended to load all core-js modules at the top of the entry point of your application, otherwise, you can have conflicts.
    • For example, Google Maps use their own Symbol.iterator, conflicting with Array.from, URLSearchParams and / or something else from core-js, see related issues.
    • Such conflicts are also resolvable by discovering and manually adding each conflicting entry from core-js.
  • core-js is extremely modular and uses a lot of very tiny modules, because of that for usage in browsers bundle up core-js instead of a usage loader for each file, otherwise, you will have hundreds of requests.
CommonJS and prototype methods without global namespace pollution

In the pure version, we can't pollute prototypes of native constructors. Because of that, prototype methods transformed into static methods like in examples above. But with transpilers, we can use one more trick - bind operator and virtual methods. Special for that, available /virtual/ entry points. Example:

import fill from 'core-js-pure/actual/array/virtual/fill';
import findIndex from 'core-js-pure/actual/array/virtual/find-index';

Array(10)::fill(0).map((a, b) => b * b)::findIndex(it => it && !(it % 8)); // => 4

The bind operator is an early-stage ECMAScript proposal and usage of this syntax can be dangerous.

Babel

core-js is integrated with babel and is the base for polyfilling-related babel features:

@babel/polyfill

@babel/polyfill IS just the import of stable core-js features and regenerator-runtime for generators and async functions, so loading @babel/polyfill means loading the global version of core-js without ES proposals.

Now it's deprecated in favor of separate inclusion of required parts of core-js and regenerator-runtime and, for backward compatibility, @babel/polyfill is still based on core-js@2.

As a full equal of @babel/polyfill, you can use the following:

import 'core-js/stable';
import 'regenerator-runtime/runtime';
@babel/preset-env

@babel/preset-env has useBuiltIns option, which optimizes the use of the global version of core-js. With useBuiltIns option, you should also set corejs option to the used version of core-js, like corejs: '3.49'.

It is recommended to specify the used minor core-js version, like corejs: '3.49', instead of corejs: 3, since with corejs: 3 will not be injected modules which were added in minor core-js releases.


  • useBuiltIns: 'entry' replaces imports of core-js to import only required for a target environment modules. So, for example,
import 'core-js/stable';

with chrome 71 target will be replaced just to:

import 'core-js/modules/es.array.unscopables.flat';
import 'core-js/modules/es.array.unscopables.flat-map';
import 'core-js/modules/es.object.from-entries';
import 'core-js/modules/web.immediate';

It works for all entry points of global version of core-js and their combinations, for example for

import 'core-js/es';
import 'core-js/proposals/set-methods';
import 'core-js/full/set/map';

with chrome 71 target you will have as the result:

import 'core-js/modules/es.array.unscopables.flat';
import 'core-js/modules/es.array.unscopables.flat-map';
import 'core-js/modules/es.object.from-entries';
import 'core-js/modules/esnext.set.difference';
import 'core-js/modules/esnext.set.intersection';
import 'core-js/modules/esnext.set.is-disjoint-from';
import 'core-js/modules/esnext.set.is-subset-of';
import 'core-js/modules/esnext.set.is-superset-of';
import 'core-js/modules/esnext.set.map';
import 'core-js/modules/esnext.set.symmetric-difference';
import 'core-js/modules/esnext.set.union';
  • useBuiltIns: 'usage' adds to the top of each file import of polyfills for features used in this file and not supported by target environments, so for:
// first file:
let set = new Set([1, 2, 3]);
// second file:
let array = Array.of(1, 2, 3);

if the target contains an old environment like IE 11 we will have something like:

// first file:
import 'core-js/modules/es.array.iterator';
import 'core-js/modules/es.object.to-string';
import 'core-js/modules/es.set';

var set = new Set([1, 2, 3]);
// second file:
import 'core-js/modules/es.array.of';

var array = Array.of(1, 2, 3);

By default, @babel/preset-env with useBuiltIns: 'usage' option only polyfills stable features, but you can enable polyfilling of proposals by the proposals option, as corejs: { version: '3.49', proposals: true }.

In the case of useBuiltIns: 'usage', you should not add core-js imports by yourself, they will be added automatically.

@babel/runtime

@babel/runtime with corejs: 3 option simplifies work with the core-js-pure. It automatically replaces the usage of modern features from the JS standard library to imports from the version of core-js without global namespace pollution, so instead of:

import from from 'core-js-pure/stable/array/from';
import flat from 'core-js-pure/stable/array/flat';
import Set from 'core-js-pure/stable/set';
import Promise from 'core-js-pure/stable/promise';

from(new Set([1, 2, 3, 2, 1]));
flat([1, [2, 3], [4, [5]]], 2);
Promise.resolve(32).then(x => console.log(x));

you can write just:

Array.from(new Set([1, 2, 3, 2, 1]));
[1, [2, 3], [4, [5]]].flat(2);
Promise.resolve(32).then(x => console.log(x));

By default, @babel/runtime only polyfills stable features, but like in @babel/preset-env, you can enable polyfilling of proposals by proposals option, as corejs: { version: 3, proposals: true }.

If you use @babel/preset-env and @babel/runtime together, use corejs option only in one place since it's duplicate functionality and will cause conflicts.

swc

Fast JavaScript transpiler swc contains integration with core-js, that optimizes work with the global version of core-js. Like @babel/preset-env, it has 2 modes: usage and entry, but usage mode still works not so well as in babel. Example of configuration in .swcrc:

{
  "env": {
    "targets": "> 0.25%, not dead",
    "mode": "entry",
    "coreJs": "3.49"
  }
}
Configurable level of aggressiveness

By default, core-js sets polyfills only when they are required. That means that core-js checks if a feature is available and works correctly or not and if it has no problems, core-js uses native implementation.

But sometimes core-js feature detection could be too strict for your case. For example, Promise constructor requires the support of unhandled rejection tracking and @@species.

Sometimes we could have an inverse problem - a knowingly broken environment with problems not covered by core-js feature detection.

For those cases, we could redefine this behavior for certain polyfills:

const configurator = require('core-js/configurator');

configurator({
  useNative: ['Promise'],                                 // polyfills will be used only if natives are completely unavailable
  usePolyfill: ['Array.from', 'String.prototype.padEnd'], // polyfills will be used anyway
  useFeatureDetection: ['Map', 'Set'],                    // default behavior
});

require('core-js/actual');

It does not work with some features. Also, if you change the default behavior, even core-js internals may not work correctly.

Custom build

For some cases could be useful to exclude some core-js features or generate a polyfill for target engines. You could use core-js-builder package for that.

Supported engines and compatibility data

core-js tries to support all possible JS engines and environments with ES3 support. Some features have a higher lower bar - for example, some accessors can properly work only from ES5, promises require a way to set a microtask or a task, etc.

However, I have no possibility to test core-js absolutely everywhere - for example, testing in IE7- and some other ancient was stopped. The list of definitely supported engines you can see in the compatibility table by the link below. Write if you have issues or questions with the support of any engine.

core-js project provides (as core-js-compat package) all required data about the necessity of core-js modules, entry points, and tools for work with it - it's useful for integration with tools like babel or swc. If you wanna help, you could take a look at the related section of CONTRIBUTING.md. The visualization of compatibility data and the browser tests runner is available here, the example:

compat-table

Features:

CommonJS entry points:

core-js(-pure)
ECMAScript

CommonJS entry points:

core-js(-pure)/es
ECMAScript: Object

Modules es.object.assign, es.object.create, es.object.define-getter, es.object.define-property, es.object.define-properties, es.object.define-setter, es.object.entries, es.object.freeze, es.object.from-entries, es.object.get-own-property-descriptor, es.object.get-own-property-descriptors, es.object.get-own-property-names, es.object.get-prototype-of, es.object.group-by, es.object.has-own, es.object.is, es.object.is-extensible, es.object.is-frozen, es.object.is-sealed, es.object.keys, es.object.lookup-setter, es.object.lookup-getter, es.object.prevent-extensions, es.object.proto, es.object.to-string, es.object.seal, es.object.set-prototype-of, es.object.values.

class Object {
  toString(): string; // ES2015+ fix: @@toStringTag support
  __defineGetter__(property: PropertyKey, getter: Function): void;
  __defineSetter__(property: PropertyKey, setter: Function): void;
  __lookupGetter__(property: PropertyKey): Function | void;
  __lookupSetter__(property: PropertyKey): Function | void;
  __proto__: Object | null; // required a way setting of prototype - will not in IE10-, it's for modern engines like Deno
  static assign(target: Object, ...sources: Array<Object>): Object;
  static create(prototype: Object | null, properties?: { [property: PropertyKey]: PropertyDescriptor }): Object;
  static defineProperties(object: Object, properties: { [property: PropertyKey]: PropertyDescriptor })): Object;
  static defineProperty(object: Object, property: PropertyKey, attributes: PropertyDescriptor): Object;
  static entries(object: Object): Array<[string, mixed]>;
  static freeze(object: any): any;
  static fromEntries(iterable: Iterable<[key, value]>): Object;
  static getOwnPropertyDescriptor(object: any, property: PropertyKey): PropertyDescriptor | void;
  static getOwnPropertyDescriptors(object: any): { [property: PropertyKey]: PropertyDescriptor };
  static getOwnPropertyNames(object: any): Array<string>;
  static getPrototypeOf(object: any): Object | null;
  static groupBy(items: Iterable, callbackfn: (value: any, index: number) => key): { [key]: Array<mixed> };
  static hasOwn(object: object, key: PropertyKey): boolean;
  static is(value1: any, value2: any): boolean;
  static isExtensible(object: any): boolean;
  static isFrozen(object: any): boolean;
  static isSealed(object: any): boolean;
  static keys(object: any): Array<string>;
  static preventExtensions(object: any): any;
  static seal(object: any): any;
  static setPrototypeOf(target: any, prototype: Object | null): any; // required __proto__ - IE11+
  static values(object: any): Array<mixed>;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/object
core-js(-pure)/es|stable|actual|full/object/assign
core-js(-pure)/es|stable|actual|full/object/is
core-js(-pure)/es|stable|actual|full/object/set-prototype-of
core-js(-pure)/es|stable|actual|full/object/get-prototype-of
core-js(-pure)/es|stable|actual|full/object/create
core-js(-pure)/es|stable|actual|full/object/define-property
core-js(-pure)/es|stable|actual|full/object/define-properties
core-js(-pure)/es|stable|actual|full/object/get-own-property-descriptor
core-js(-pure)/es|stable|actual|full/object/get-own-property-descriptors
core-js(-pure)/es|stable|actual|full/object/group-by
core-js(-pure)/es|stable|actual|full/object/has-own
core-js(-pure)/es|stable|actual|full/object/keys
core-js(-pure)/es|stable|actual|full/object/values
core-js(-pure)/es|stable|actual|full/object/entries
core-js(-pure)/es|stable|actual|full/object/get-own-property-names
core-js(-pure)/es|stable|actual|full/object/freeze
core-js(-pure)/es|stable|actual|full/object/from-entries
core-js(-pure)/es|stable|actual|full/object/seal
core-js(-pure)/es|stable|actual|full/object/prevent-extensions
core-js/es|stable|actual|full/object/proto
core-js(-pure)/es|stable|actual|full/object/is-frozen
core-js(-pure)/es|stable|actual|full/object/is-sealed
core-js(-pure)/es|stable|actual|full/object/is-extensible
core-js/es|stable|actual|full/object/to-string
core-js(-pure)/es|stable|actual|full/object/define-getter
core-js(-pure)/es|stable|actual|full/object/define-setter
core-js(-pure)/es|stable|actual|full/object/lookup-getter
core-js(-pure)/es|stable|actual|full/object/lookup-setter

Examples:

let foo = { q: 1, w: 2 };
let bar = { e: 3, r: 4 };
let baz = { t: 5, y: 6 };
Object.assign(foo, bar, baz); // => foo = { q: 1, w: 2, e: 3, r: 4, t: 5, y: 6 }

Object.is(NaN, NaN); // => true
Object.is(0, -0);    // => false
Object.is(42, 42);   // => true
Object.is(42, '42'); // => false

function Parent() { /* empty */ }
function Child() { /* empty */ }
Object.setPrototypeOf(Child.prototype, Parent.prototype);
new Child() instanceof Child;  // => true
new Child() instanceof Parent; // => true

({
  [Symbol.toStringTag]: 'Foo',
}).toString(); // => '[object Foo]'

Object.keys('qwe'); // => ['0', '1', '2']
Object.getPrototypeOf('qwe') === String.prototype; // => true

Object.values({ a: 1, b: 2, c: 3 });  // => [1, 2, 3]
Object.entries({ a: 1, b: 2, c: 3 }); // => [['a', 1], ['b', 2], ['c', 3]]

for (let [key, value] of Object.entries({ a: 1, b: 2, c: 3 })) {
  console.log(key);   // => 'a', 'b', 'c'
  console.log(value); // => 1, 2, 3
}

// Shallow object cloning with prototype and descriptors:
let copy = Object.create(Object.getPrototypeOf(object), Object.getOwnPropertyDescriptors(object));
// Mixin:
Object.defineProperties(target, Object.getOwnPropertyDescriptors(source));

const map = new Map([['a', 1], ['b', 2]]);
Object.fromEntries(map); // => { a: 1, b: 2 }

class Unit {
  constructor(id) {
    this.id = id;
  }
  toString() {
    return `unit${ this.id }`;
  }
}

const units = new Set([new Unit(101), new Unit(102)]);

Object.fromEntries(units.entries()); // => { unit101: Unit { id: 101 }, unit102: Unit { id: 102 } }

Object.hasOwn({ foo: 42 }, 'foo'); // => true
Object.hasOwn({ foo: 42 }, 'bar'); // => false
Object.hasOwn({}, 'toString');     // => false

Object.groupBy([1, 2, 3, 4, 5], it => it % 2); // => { 1: [1, 3, 5], 0: [2, 4] }
ECMAScript: Function

Modules es.function.name, es.function.has-instance. Just ES5: es.function.bind.

class Function {
  name: string;
  bind(thisArg: any, ...args: Array<mixed>): Function;
  @@hasInstance(value: any): boolean;
}

CommonJS entry points:

core-js/es|stable|actual|full/function
core-js/es|stable|actual|full/function/name
core-js/es|stable|actual|full/function/has-instance
core-js(-pure)/es|stable|actual|full/function/bind
core-js(-pure)/es|stable|actual|full/function/virtual/bind

Example:

(function foo() { /* empty */ }).name; // => 'foo'

console.log.bind(console, 42)(43); // => 42 43
ECMAScript: Error

Modules es.aggregate-error, es.aggregate-error.cause, es.error.cause, es.error.is-error, es.suppressed-error.constructor, es.error.to-string.

class Error {
  static isError(value: any): boolean;
  constructor(message: string, { cause: any }): %Error%;
  toString(): string; // different fixes
}

class [
  EvalError,
  RangeError,
  ReferenceError,
  SyntaxError,
  TypeError,
  URIError,
  WebAssembly.CompileError,
  WebAssembly.LinkError,
  WebAssembly.RuntimeError,
] extends Error {
  constructor(message: string, { cause: any }): %Error%;
}

class AggregateError extends Error {
  constructor(errors: Iterable, message?: string, { cause: any }?): AggregateError;
  errors: Array<any>;
  message: string;
  cause: any;
}

class SuppressedError extends Error {
  constructor(error: any, suppressed: any, message?: string): SuppressedError;
  error: any;
  suppressed: any;
  message: string;
}

CommonJS entry points:

core-js/es|stable|actual|full/error
core-js/es|stable|actual|full/error/constructor
core-js(-pure)/es|stable|actual|full/error/is-error
core-js/es|stable|actual|full/error/to-string
core-js(-pure)/es|stable|actual|full/aggregate-error
core-js(-pure)/es|stable|actual|full/suppressed-error

Example:

const error1 = new TypeError('Error 1');
const error2 = new TypeError('Error 2');
const aggregate = new AggregateError([error1, error2], 'Collected errors');
aggregate.errors[0] === error1; // => true
aggregate.errors[1] === error2; // => true

const cause = new TypeError('Something wrong');
const error = new TypeError('Here explained what`s wrong', { cause });
error.cause === cause; // => true

Error.prototype.toString.call({ message: 1, name: 2 }) === '2: 1'; // => true

Example:

Error.isError(new Error('error')); // => true
Error.isError(new TypeError('error')); // => true
Error.isError(new DOMException('error')); // => true

Error.isError(null); // => false
Error.isError({}); // => false
Error.isError(Object.create(Error.prototype)); // => false

We have no bulletproof way to polyfill this Error.isError / check if the object is an error, so it's an enough naive implementation.

ECMAScript: Array

Modules es.array.from, es.array.from-async, es.array.is-array, es.array.of, es.array.copy-within, es.array.fill, es.array.find, es.array.find-index, es.array.find-last, es.array.find-last-index, es.array.iterator, es.array.includes, es.array.push, es.array.slice, es.array.join, es.array.unshift, es.array.index-of, es.array.last-index-of, es.array.every, es.array.some, es.array.for-each, es.array.map, es.array.filter, es.array.reduce, es.array.reduce-right, es.array.reverse, es.array.sort, es.array.flat, es.array.flat-map, es.array.unscopables.flat, es.array.unscopables.flat-map, es.array.at, es.array.to-reversed, es.array.to-sorted, es.array.to-spliced, es.array.with.

class Array {
  at(index: int): any;
  concat(...args: Array<mixed>): Array<mixed>; // with adding support of @@isConcatSpreadable and @@species
  copyWithin(target: number, start: number, end?: number): this;
  entries(): Iterator<[index, value]>;
  every(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): boolean;
  fill(value: any, start?: number, end?: number): this;
  filter(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): Array<mixed>; // with adding support of @@species
  find(callbackfn: (value: any, index: number, target: any) => boolean), thisArg?: any): any;
  findIndex(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): uint;
  findLast(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): any;
  findLastIndex(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): uint;
  flat(depthArg?: number = 1): Array<mixed>;
  flatMap(mapFn: (value: any, index: number, target: any) => any, thisArg: any): Array<mixed>;
  forEach(callbackfn: (value: any, index: number, target: any) => void, thisArg?: any): void;
  includes(searchElement: any, from?: number): boolean;
  indexOf(searchElement: any, from?: number): number;
  join(separator: string = ','): string;
  keys(): Iterator<index>;
  lastIndexOf(searchElement: any, from?: number): number;
  map(mapFn: (value: any, index: number, target: any) => any, thisArg?: any): Array<mixed>; // with adding support of @@species
  push(...args: Array<mixed>): uint;
  reduce(callbackfn: (memo: any, value: any, index: number, target: any) => any, initialValue?: any): any;
  reduceRight(callbackfn: (memo: any, value: any, index: number, target: any) => any, initialValue?: any): any;
  reverse(): this; // Safari 12.0 bug fix
  slice(start?: number, end?: number): Array<mixed>; // with adding support of @@species
  splice(start?: number, deleteCount?: number, ...items: Array<mixed>): Array<mixed>; // with adding support of @@species
  some(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): boolean;
  sort(comparefn?: (a: any, b: any) => number): this; // with modern behavior like stable sort
  toReversed(): Array<mixed>;
  toSpliced(start?: number, deleteCount?: number, ...items: Array<mixed>): Array<mixed>;
  toSorted(comparefn?: (a: any, b: any) => number): Array<mixed>;
  unshift(...args: Array<mixed>): uint;
  values(): Iterator<value>;
  with(index: includes, value: any): Array<mixed>;
  @@iterator(): Iterator<value>;
  @@unscopables: { [newMethodNames: string]: true };
  static from(items: Iterable | ArrayLike, mapFn?: (value: any, index: number) => any, thisArg?: any): Array<mixed>;
  static fromAsync(asyncItems: AsyncIterable | Iterable | ArrayLike, mapfn?: (value: any, index: number) => any, thisArg?: any): Array;
  static isArray(value: any): boolean;
  static of(...args: Array<mixed>): Array<mixed>;
}

class Arguments {
  @@iterator(): Iterator<value>; // available only in core-js methods
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/array
core-js(-pure)/es|stable|actual|full/array/from
core-js(-pure)/es|stable|actual|full/array/from-async
core-js(-pure)/es|stable|actual|full/array/of
core-js(-pure)/es|stable|actual|full/array/is-array
core-js(-pure)/es|stable|actual|full/array(/virtual)/at
core-js(-pure)/es|stable|actual|full/array(/virtual)/concat
core-js(-pure)/es|stable|actual|full/array(/virtual)/copy-within
core-js(-pure)/es|stable|actual|full/array(/virtual)/entries
core-js(-pure)/es|stable|actual|full/array(/virtual)/every
core-js(-pure)/es|stable|actual|full/array(/virtual)/fill
core-js(-pure)/es|stable|actual|full/array(/virtual)/filter
core-js(-pure)/es|stable|actual|full/array(/virtual)/find
core-js(-pure)/es|stable|actual|full/array(/virtual)/find-index
core-js(-pure)/es|stable|actual|full/array(/virtual)/find-last
core-js(-pure)/es|stable|actual|full/array(/virtual)/find-last-index
core-js(-pure)/es|stable|actual|full/array(/virtual)/flat
core-js(-pure)/es|stable|actual|full/array(/virtual)/flat-map
core-js(-pure)/es|stable|actual|full/array(/virtual)/for-each
core-js(-pure)/es|stable|actual|full/array(/virtual)/includes
core-js(-pure)/es|stable|actual|full/array(/virtual)/index-of
core-js(-pure)/es|stable|actual|full/array(/virtual)/iterator
core-js(-pure)/es|stable|actual|full/array(/virtual)/join
core-js(-pure)/es|stable|actual|full/array(/virtual)/keys
core-js(-pure)/es|stable|actual|full/array(/virtual)/last-index-of
core-js(-pure)/es|stable|actual|full/array(/virtual)/map
core-js(-pure)/es|stable|actual|full/array(/virtual)/push
core-js(-pure)/es|stable|actual|full/array(/virtual)/reduce
core-js(-pure)/es|stable|actual|full/array(/virtual)/reduce-right
core-js(-pure)/es|stable|actual|full/array(/virtual)/reverse
core-js(-pure)/es|stable|actual|full/array(/virtual)/slice
core-js(-pure)/es|stable|actual|full/array(/virtual)/some
core-js(-pure)/es|stable|actual|full/array(/virtual)/sort
core-js(-pure)/es|stable|actual|full/array(/virtual)/splice
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-reversed
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-sorted
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-spliced
core-js(-pure)/es|stable|actual|full/array(/virtual)/unshift
core-js(-pure)/es|stable|actual|full/array(/virtual)/values
core-js(-pure)/es|stable|actual|full/array(/virtual)/with

Examples:

Array.from(new Set([1, 2, 3, 2, 1]));        // => [1, 2, 3]
Array.from({ 0: 1, 1: 2, 2: 3, length: 3 }); // => [1, 2, 3]
Array.from('123', Number);                   // => [1, 2, 3]
Array.from('123', it => it ** 2);            // => [1, 4, 9]

Array.of(1);       // => [1]
Array.of(1, 2, 3); // => [1, 2, 3]

let array = ['a', 'b', 'c'];

for (let value of array) console.log(value);          // => 'a', 'b', 'c'
for (let value of array.values()) console.log(value); // => 'a', 'b', 'c'
for (let key of array.keys()) console.log(key);       // => 0, 1, 2
for (let [key, value] of array.entries()) {
  console.log(key);                                   // => 0, 1, 2
  console.log(value);                                 // => 'a', 'b', 'c'
}

function isOdd(value) {
  return value % 2;
}
[4, 8, 15, 16, 23, 42].find(isOdd);      // => 15
[4, 8, 15, 16, 23, 42].findIndex(isOdd); // => 2
[1, 2, 3, 4].findLast(isOdd);            // => 3
[1, 2, 3, 4].findLastIndex(isOdd);       // => 2

Array(5).fill(42); // => [42, 42, 42, 42, 42]

[1, 2, 3, 4, 5].copyWithin(0, 3); // => [4, 5, 3, 4, 5]

[1, 2, 3].includes(2);        // => true
[1, 2, 3].includes(4);        // => false
[1, 2, 3].includes(2, 2);     // => false

[NaN].indexOf(NaN);           // => -1
[NaN].includes(NaN);          // => true
Array(1).indexOf(undefined);  // => -1
Array(1).includes(undefined); // => true

[1, [2, 3], [4, 5]].flat();    // => [1, 2, 3, 4, 5]
[1, [2, [3, [4]]], 5].flat();  // => [1, 2, [3, [4]], 5]
[1, [2, [3, [4]]], 5].flat(3); // => [1, 2, 3, 4, 5]

[{ a: 1, b: 2 }, { a: 3, b: 4 }, { a: 5, b: 6 }].flatMap(it => [it.a, it.b]); // => [1, 2, 3, 4, 5, 6]

[1, 2, 3].at(1);  // => 2
[1, 2, 3].at(-1); // => 3

const sequence = [1, 2, 3];
sequence.toReversed(); // => [3, 2, 1]
sequence; // => [1, 2, 3]

const initialArray = [1, 2, 3, 4];
initialArray.toSpliced(1, 2, 5, 6, 7); // => [1, 5, 6, 7, 4]
initialArray; // => [1, 2, 3, 4]

const outOfOrder = [3, 1, 2];
outOfOrder.toSorted(); // => [1, 2, 3]
outOfOrder; // => [3, 1, 2]

const correctionNeeded = [1, 1, 3];
correctionNeeded.with(1, 2); // => [1, 2, 3]
correctionNeeded; // => [1, 1, 3]

Array.fromAsync example:

await Array.fromAsync((async function * () { yield * [1, 2, 3]; })(), i => i ** 2); // => [1, 4, 9]
ECMAScript: Iterator

Modules es.iterator.constructor, es.iterator.concat, es.iterator.dispose, es.iterator.drop, es.iterator.every, es.iterator.filter, es.iterator.find, es.iterator.flat-map, es.iterator.for-each, es.iterator.from, es.iterator.map, es.iterator.reduce, es.iterator.some, es.iterator.take, es.iterator.to-array, es.iterator.zip, es.iterator.zip-keyed

class Iterator {
  static concat(...items: Array<IterableObject>): Iterator<any>;
  static from(iterable: Iterable<any> | Iterator<any>): Iterator<any>;
  static zip<T extends readonly Iterable<unknown>[]>(
    iterables: T,
    options?: {
      mode?: 'shortest' | 'longest' | 'strict';
      padding?: { [K in keyof T]?: T[K] extends Iterable<infer U> ? U : never };
    }
  ): Iterator<{ [K in keyof T]: T[K] extends Iterable<infer U> ? U : never }>;
  static zipKeyed<K extends PropertyKey, V extends Record<K, Iterable<unknown>>>(
    iterables: V,
    options?: {
      mode?: 'shortest' | 'longest' | 'strict';
      padding?: { [P in keyof V]?: V[P] extends Iterable<infer U> ? U : never };
    }
  ): Iterator<{ [P in keyof V]: V[P] extends Iterable<infer U> ? U : never }>;
  drop(limit: uint): Iterator<any>;
  every(callbackfn: (value: any, counter: uint) => boolean): boolean;
  filter(callbackfn: (value: any, counter: uint) => boolean): Iterator<any>;
  find(callbackfn: (value: any, counter: uint) => boolean)): any;
  flatMap(callbackfn: (value: any, counter: uint) => Iterable<any> | Iterator<any>): Iterator<any>;
  forEach(callbackfn: (value: any, counter: uint) => void): void;
  map(callbackfn: (value: any, counter: uint) => any): Iterator<any>;
  reduce(callbackfn: (memo: any, value: any, counter: uint) => any, initialValue: any): any;
  some(callbackfn: (value: any, counter: uint) => boolean): boolean;
  take(limit: uint): Iterator<any>;
  toArray(): Array<any>;
  @@dispose(): undefined;
  @@toStringTag: 'Iterator'
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/iterator
core-js(-pure)/es|stable|actual|full/iterator/concat
core-js(-pure)/es|stable|actual|full/iterator/dispose
core-js(-pure)/es|stable|actual|full/iterator/drop
core-js(-pure)/es|stable|actual|full/iterator/every
core-js(-pure)/es|stable|actual|full/iterator/filter
core-js(-pure)/es|stable|actual|full/iterator/find
core-js(-pure)/es|stable|actual|full/iterator/flat-map
core-js(-pure)/es|stable|actual|full/iterator/for-each
core-js(-pure)/es|stable|actual|full/iterator/from
core-js(-pure)/es|stable|actual|full/iterator/map
core-js(-pure)/es|stable|actual|full/iterator/reduce
core-js(-pure)/es|stable|actual|full/iterator/some
core-js(-pure)/es|stable|actual|full/iterator/take
core-js(-pure)/es|stable|actual|full/iterator/to-array
core-js(-pure)/es|stable|actual|full/iterator/zip
core-js(-pure)/es|stable|actual|full/iterator/zip-keyed

Examples:

[1, 2, 3, 4, 5, 6, 7].values()
  .drop(1)
  .take(5)
  .filter(it => it % 2)
  .map(it => it ** 2)
  .toArray(); // => [9, 25]

Iterator.from({
  next: () => ({ done: Math.random() > 0.9, value: Math.random() * 10 | 0 }),
}).toArray(); // => [7, 6, 3, 0, 2, 8]

Iterator.concat([0, 1].values(), [2, 3], function * () {
  yield 4;
  yield 5;
}()).toArray(); // => [0, 1, 2, 3, 4, 5]

Iterator.zip([
  [0, 1, 2],
  [3, 4, 5],
]).toArray();  // => [[0, 3], [1, 4], [2, 5]]

Iterator.zipKeyed({
  a: [0, 1, 2],
  b: [3, 4, 5, 6],
  c: [7, 8, 9],
}, {
  mode: 'longest',
  padding: { c: 10 },
}).toArray(); // =>
/*
[
  { a: 0,         b: 3, c: 7  },
  { a: 1,         b: 4, c: 8  },
  { a: 2,         b: 5, c: 9  },
  { a: undefined, b: 6, c: 10 },
];
 */

  • For preventing prototype pollution, in the pure version, new %IteratorPrototype% methods are not added to the real %IteratorPrototype%, they are available only on wrappers - instead of [].values().map(fn) use Iterator.from([]).map(fn).
ECMAScript: String and RegExp

The main part of String features: modules es.string.from-code-point, es.string.raw, es.string.iterator, es.string.split, es.string.code-point-at, es.string.ends-with, es.string.includes, es.string.repeat, es.string.pad-start, es.string.pad-end, es.string.starts-with, es.string.trim, es.string.trim-start, es.string.trim-end, es.string.match-all, es.string.replace-all, es.string.at-alternative, es.string.is-well-formed, es.string.to-well-formed.

Adding support of well-known symbols @@match, @@replace, @@search and @@split and direct .exec calls to related String methods, modules es.string.match, es.string.replace, es.string.search and es.string.split.

Annex B methods. Modules es.string.anchor, es.string.big, es.string.blink, es.string.bold, es.string.fixed, es.string.fontcolor, es.string.fontsize, es.string.italics, es.string.link, es.string.small, es.string.strike, es.string.sub, es.string.sup, es.string.substr, es.escape and es.unescape.

RegExp features: modules es.regexp.constructor, es.regexp.escape, es.regexp.dot-all, es.regexp.flags, es.regexp.sticky and es.regexp.test.

class String {
  static fromCodePoint(...codePoints: Array<number>): string;
  static raw({ raw: Array<string> }, ...substitutions: Array<string>): string;
  at(index: int): string;
  includes(searchString: string, position?: number): boolean;
  startsWith(searchString: string, position?: number): boolean;
  endsWith(searchString: string, position?: number): boolean;
  repeat(count: number): string;
  padStart(length: number, fillStr?: string = ' '): string;
  padEnd(length: number, fillStr?: string = ' '): string;
  codePointAt(pos: number): number | void;
  match(template: any): any; // ES2015+ fix for support @@match
  matchAll(regexp: RegExp): Iterator;
  replace(template: any, replacer: any): any; // ES2015+ fix for support @@replace
  replaceAll(searchValue: string | RegExp, replaceString: string | (searchValue, index, this) => string): string;
  search(template: any): any; // ES2015+ fix for support @@search
  split(template: any, limit?: int): Array<string>;; // ES2015+ fix for support @@split, some fixes for old engines
  trim(): string;
  trimLeft(): string;
  trimRight(): string;
  trimStart(): string;
  trimEnd(): string;
  isWellFormed(): boolean;
  toWellFormed(): string;
  anchor(name: string): string;
  big(): string;
  blink(): string;
  bold(): string;
  fixed(): string;
  fontcolor(color: string): string;
  fontsize(size: any): string;
  italics(): string;
  link(url: string): string;
  small(): string;
  strike(): string;
  sub(): string;
  substr(start: int, length?: int): string;
  sup(): string;
  @@iterator(): Iterator<characters>;
}

class RegExp {
  // support of sticky (`y`) flag, dotAll (`s`) flag, named capture groups, can alter flags
  constructor(pattern: RegExp | string, flags?: string): RegExp;
  static escape(value: string): string
  exec(): Array<string | undefined> | null; // IE8 fixes
  test(string: string): boolean; // delegation to `.exec`
  toString(): string; // ES2015+ fix - generic
  @@match(string: string): Array | null;
  @@matchAll(string: string): Iterator;
  @@replace(string: string, replaceValue: Function | string): string;
  @@search(string: string): number;
  @@split(string: string, limit: number): Array<string>;
  readonly attribute dotAll: boolean; // IE9+
  readonly attribute flags: string;   // IE9+
  readonly attribute sticky: boolean; // IE9+
}

function escape(string: string): string;
function unescape(string: string): string;

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/string
core-js(-pure)/es|stable|actual|full/string/from-code-point
core-js(-pure)/es|stable|actual|full/string/raw
core-js/es|stable|actual|full/string/match
core-js/es|stable|actual|full/string/replace
core-js/es|stable|actual|full/string/search
core-js/es|stable|actual|full/string/split
core-js(-pure)/es|stable|actual/string(/virtual)/at
core-js(-pure)/es|stable|actual|full/string(/virtual)/code-point-at
core-js(-pure)/es|stable|actual|full/string(/virtual)/ends-with
core-js(-pure)/es|stable|actual|full/string(/virtual)/includes
core-js(-pure)/es|stable|actual|full/string(/virtual)/starts-with
core-js(-pure)/es|stable|actual|full/string(/virtual)/match-all
core-js(-pure)/es|stable|actual|full/string(/virtual)/pad-start
core-js(-pure)/es|stable|actual|full/string(/virtual)/pad-end
core-js(-pure)/es|stable|actual|full/string(/virtual)/repeat
core-js(-pure)/es|stable|actual|full/string(/virtual)/replace-all
core-js(-pure)/es|stable|actual|full/string(/virtual)/trim
core-js(-pure)/es|stable|actual|full/string(/virtual)/trim-start
core-js(-pure)/es|stable|actual|full/string(/virtual)/trim-end
core-js(-pure)/es|stable|actual|full/string(/virtual)/trim-left
core-js(-pure)/es|stable|actual|full/string(/virtual)/trim-right
core-js(-pure)/es|stable|actual|full/string(/virtual)/is-well-formed
core-js(-pure)/es|stable|actual|full/string(/virtual)/to-well-formed
core-js(-pure)/es|stable|actual|full/string(/virtual)/anchor
core-js(-pure)/es|stable|actual|full/string(/virtual)/big
core-js(-pure)/es|stable|actual|full/string(/virtual)/blink
core-js(-pure)/es|stable|actual|full/string(/virtual)/bold
core-js(-pure)/es|stable|actual|full/string(/virtual)/fixed
core-js(-pure)/es|stable|actual|full/string(/virtual)/fontcolor
core-js(-pure)/es|stable|actual|full/string(/virtual)/fontsize
core-js(-pure)/es|stable|actual|full/string(/virtual)/italics
core-js(-pure)/es|stable|actual|full/string(/virtual)/link
core-js(-pure)/es|stable|actual|full/string(/virtual)/small
core-js(-pure)/es|stable|actual|full/string(/virtual)/strike
core-js(-pure)/es|stable|actual|full/string(/virtual)/sub
core-js(-pure)/es|stable|actual|full/string(/virtual)/substr
core-js(-pure)/es|stable|actual|full/string(/virtual)/sup
core-js(-pure)/es|stable|actual|full/string(/virtual)/iterator
core-js/es|stable|actual|full/regexp
core-js/es|stable|actual|full/regexp/constructor
core-js(-pure)/es|stable|actual|full/regexp/escape
core-js/es|stable|actual|full/regexp/dot-all
core-js(-pure)/es|stable|actual|full/regexp/flags
core-js/es|stable|actual|full/regexp/sticky
core-js/es|stable|actual|full/regexp/test
core-js/es|stable|actual|full/regexp/to-string
core-js/es|stable|actual|full/escape
core-js/es|stable|actual|full/unescape

Examples:

for (let value of 'a𠮷b') {
  console.log(value); // => 'a', '𠮷', 'b'
}

'foobarbaz'.includes('bar');      // => true
'foobarbaz'.includes('bar', 4);   // => false
'foobarbaz'.startsWith('foo');    // => true
'foobarbaz'.startsWith('bar', 3); // => true
'foobarbaz'.endsWith('baz');      // => true
'foobarbaz'.endsWith('bar', 6);   // => true

'string'.repeat(3); // => 'stringstringstring'

'hello'.padStart(10);         // => '     hello'
'hello'.padStart(10, '1234'); // => '12341hello'
'hello'.padEnd(10);           // => 'hello     '
'hello'.padEnd(10, '1234');   // => 'hello12341'

'𠮷'.codePointAt(0); // => 134071
String.fromCodePoint(97, 134071, 98); // => 'a𠮷b'

let name = 'Bob';
String.raw`Hi\n${ name }!`;           // => 'Hi\\nBob!' (ES2015 template string syntax)
String.raw({ raw: 'test' }, 0, 1, 2); // => 't0e1s2t'

'foo'.bold();                      // => '<b>foo</b>'
'bar'.anchor('a"b');               // => '<a name="a&quot;b">bar</a>'
'baz'.link('https://example.com'); // => '<a href="https://example.com">baz</a>'

RegExp('.', 's').test('\n'); // => true
RegExp('.', 's').dotAll;     // => true

RegExp('foo:(?<foo>\\w+),bar:(?<bar>\\w+)').exec('foo:abc,bar:def').groups; // => { foo: 'abc', bar: 'def' }

'foo:abc,bar:def'.replace(RegExp('foo:(?<foo>\\w+),bar:(?<bar>\\w+)'), '__CODE_BLOCK_41__lt;bar>,__CODE_BLOCK_41__lt;foo>'); // => 'def,abc'

// eslint-disable-next-line regexp/no-useless-flag -- example
RegExp(/./g, 'm'); // => /./m

/foo/.flags;   // => ''
/foo/gi.flags; // => 'gi'

RegExp('foo', 'y').sticky; // => true

const text = 'First line\nSecond line';
const regex = RegExp('(?<index>\\S+) line\\n?', 'y');

regex.exec(text).groups.index; // => 'First'
regex.exec(text).groups.index; // => 'Second'
regex.exec(text);    // => null

'foo'.match({ [Symbol.match]: () => 1 });     // => 1
'foo'.replace({ [Symbol.replace]: () => 2 }); // => 2
'foo'.search({ [Symbol.search]: () => 3 });   // => 3
'foo'.split({ [Symbol.split]: () => 4 });     // => 4

RegExp.prototype.toString.call({ source: 'foo', flags: 'bar' }); // => '/foo/bar'

'   hello   '.trimLeft();  // => 'hello   '
'   hello   '.trimRight(); // => '   hello'
'   hello   '.trimStart(); // => 'hello   '
'   hello   '.trimEnd();   // => '   hello'

for (let { groups: { number, letter } } of '1111a2b3cccc'.matchAll(RegExp('(?<number>\\d)(?<letter>\\D)', 'g'))) {
  console.log(number, letter); // => 1 a, 2 b, 3 c
}

'Test abc test test abc test.'.replaceAll('abc', 'foo'); // -> 'Test foo test test foo test.'

'abc'.at(1);  // => 'b'
'abc'.at(-1); // => 'c'

'a💩b'.isWellFormed();      // => true
'a\uD83Db'.isWellFormed();  // => false

'a💩b'.toWellFormed();      // => 'a💩b'
'a\uD83Db'.toWellFormed();  // => 'a�b'

Example:

console.log(RegExp.escape('10
ECMAScript: Number

Module es.number.constructor. Number constructor support binary and octal literals, example:

Number('0b1010101'); // => 85
Number('0o7654321'); // => 2054353

Modules es.number.epsilon, es.number.is-finite, es.number.is-integer, es.number.is-nan, es.number.is-safe-integer, es.number.max-safe-integer, es.number.min-safe-integer, es.number.parse-float, es.number.parse-int, es.number.to-exponential, es.number.to-fixed, es.number.to-precision, es.parse-int, es.parse-float.

class Number {
  constructor(value: any): number;
  toExponential(digits: number): string;
  toFixed(digits: number): string;
  toPrecision(precision: number): string;
  static isFinite(number: any): boolean;
  static isNaN(number: any): boolean;
  static isInteger(number: any): boolean;
  static isSafeInteger(number: any): boolean;
  static parseFloat(string: string): number;
  static parseInt(string: string, radix?: number = 10): number;
  static EPSILON: number;
  static MAX_SAFE_INTEGER: number;
  static MIN_SAFE_INTEGER: number;
}

function parseFloat(string: string): number;
function parseInt(string: string, radix?: number = 10): number;

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/number
core-js(-pure)/es|stable|actual|full/number/constructor
core-js(-pure)/es|stable|actual|full/number/is-finite
core-js(-pure)/es|stable|actual|full/number/is-nan
core-js(-pure)/es|stable|actual|full/number/is-integer
core-js(-pure)/es|stable|actual|full/number/is-safe-integer
core-js(-pure)/es|stable|actual|full/number/parse-float
core-js(-pure)/es|stable|actual|full/number/parse-int
core-js(-pure)/es|stable|actual|full/number/epsilon
core-js(-pure)/es|stable|actual|full/number/max-safe-integer
core-js(-pure)/es|stable|actual|full/number/min-safe-integer
core-js(-pure)/es|stable|actual|full/number(/virtual)/to-exponential
core-js(-pure)/es|stable|actual|full/number(/virtual)/to-fixed
core-js(-pure)/es|stable|actual|full/number(/virtual)/to-precision
core-js(-pure)/es|stable|actual|full/parse-float
core-js(-pure)/es|stable|actual|full/parse-int
ECMAScript: Math

Modules es.math.acosh, es.math.asinh, es.math.atanh, es.math.cbrt, es.math.clz32, es.math.cosh, es.math.expm1, es.math.fround, es.math.f16round, es.math.hypot, es.math.imul, es.math.log10, es.math.log1p, es.math.log2, es.math.sign, es.math.sinh, esnext.math.sum-precise, es.math.tanh, es.math.trunc.

namespace Math {
  acosh(number: number): number;
  asinh(number: number): number;
  atanh(number: number): number;
  cbrt(number: number): number;
  clz32(number: number): number;
  cosh(number: number): number;
  expm1(number: number): number;
  fround(number: number): number;
  f16round(number: any): number;
  hypot(...args: Array<number>): number;
  imul(number1: number, number2: number): number;
  log1p(number: number): number;
  log10(number: number): number;
  log2(number: number): number;
  sign(number: number): 1 | -1 | 0 | -0 | NaN;
  sinh(number: number): number;
  sumPrecise(items: Iterable<number>): Number;
  tanh(number: number): number;
  trunc(number: number): number;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/math
core-js(-pure)/es|stable|actual|full/math/acosh
core-js(-pure)/es|stable|actual|full/math/asinh
core-js(-pure)/es|stable|actual|full/math/atanh
core-js(-pure)/es|stable|actual|full/math/cbrt
core-js(-pure)/es|stable|actual|full/math/clz32
core-js(-pure)/es|stable|actual|full/math/cosh
core-js(-pure)/es|stable|actual|full/math/expm1
core-js(-pure)/es|stable|actual|full/math/fround
core-js(-pure)/es|stable|actual|full/math/f16round
core-js(-pure)/es|stable|actual|full/math/hypot
core-js(-pure)/es|stable|actual|full/math/imul
core-js(-pure)/es|stable|actual|full/math/log1p
core-js(-pure)/es|stable|actual|full/math/log10
core-js(-pure)/es|stable|actual|full/math/log2
core-js(-pure)/es|stable|actual|full/math/sign
core-js(-pure)/es|stable|actual|full/math/sinh
core-js(-pure)/es|stable|actual|full/math/sum-precise
core-js(-pure)/es|stable|actual|full/math/tanh
core-js(-pure)/es|stable|actual|full/math/trunc

Examples:

1e20 + 0.1 + -1e20; // => 0
Math.sumPrecise([1e20, 0.1, -1e20]); // => 0.1
ECMAScript: Date

Modules es.date.to-string, ES5 features with fixes: es.date.now, es.date.to-iso-string, es.date.to-json and es.date.to-primitive.

Annex B methods. Modules es.date.get-year, es.date.set-year and es.date.to-gmt-string.

class Date {
  getYear(): int;
  setYear(year: int): number;
  toGMTString(): string;
  toISOString(): string;
  toJSON(): string;
  toString(): string;
  @@toPrimitive(hint: 'default' | 'number' | 'string'): string | number;
  static now(): number;
}

CommonJS entry points:

core-js/es|stable|actual|full/date
core-js/es|stable|actual|full/date/to-string
core-js(-pure)/es|stable|actual|full/date/now
core-js(-pure)/es|stable|actual|full/date/get-year
core-js(-pure)/es|stable|actual|full/date/set-year
core-js(-pure)/es|stable|actual|full/date/to-gmt-string
core-js(-pure)/es|stable|actual|full/date/to-iso-string
core-js(-pure)/es|stable|actual|full/date/to-json
core-js(-pure)/es|stable|actual|full/date/to-primitive

Example:

new Date(NaN).toString(); // => 'Invalid Date'
ECMAScript: Promise

Modules es.promise, es.promise.all-settled, es.promise.any, es.promise.finally, es.promise.try and es.promise.with-resolvers.

class Promise {
  constructor(executor: (resolve: Function, reject: Function) => void): Promise;
  then(onFulfilled: Function, onRejected: Function): Promise;
  catch(onRejected: Function): Promise;
  finally(onFinally: Function): Promise;
  static all(iterable: Iterable): Promise;
  static allSettled(iterable: Iterable): Promise;
  static any(promises: Iterable): Promise;
  static race(iterable: Iterable): Promise;
  static reject(r: any): Promise;
  static resolve(x: any): Promise;
  static try(callbackfn: Function, ...args?: Array<mixed>): Promise;
  static withResolvers(): { promise: Promise, resolve: function, reject: function };
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/promise
core-js(-pure)/es|stable|actual|full/promise/all-settled
core-js(-pure)/es|stable|actual|full/promise/any
core-js(-pure)/es|stable|actual|full/promise/finally
core-js(-pure)/es|stable|actual|full/promise/try
core-js(-pure)/es|stable|actual|full/promise/with-resolvers

Basic example:

/* eslint-disable promise/prefer-await-to-callbacks -- example */
function sleepRandom(time) {
  return new Promise((resolve, reject) => {
    setTimeout(resolve, time * 1e3, 0 | Math.random() * 1e3);
  });
}

console.log('Run');                    // => Run
sleepRandom(5).then(result => {
  console.log(result);                 // => 869, after 5 sec.
  return sleepRandom(10);
}).then(result => {
  console.log(result);                 // => 202, after 10 sec.
}).then(() => {
  console.log('immediately after');    // => immediately after
  throw new Error('Irror!');
}).then(() => {
  console.log('will not be displayed');
}).catch(error => console.log(error)); // => => Error: Irror!

Promise.resolve and Promise.reject example:

/* eslint-disable promise/prefer-await-to-callbacks -- example */
Promise.resolve(42).then(x => console.log(x));         // => 42
Promise.reject(42).catch(error => console.log(error)); // => 42

Promise.resolve($.getJSON('/data.json')); // => ES promise

Promise#finally example:

Promise.resolve(42).finally(() => console.log('You will see it anyway'));

Promise.reject(42).finally(() => console.log('You will see it anyway'));

Promise.all example:

Promise.all([
  'foo',
  sleepRandom(5),
  sleepRandom(15),
  sleepRandom(10),            // after 15 sec:
]).then(x => console.log(x)); // => ['foo', 956, 85, 382]

Promise.race example:

/* eslint-disable promise/prefer-await-to-callbacks -- example */
function timeLimit(promise, time) {
  return Promise.race([promise, new Promise((resolve, reject) => {
    setTimeout(reject, time * 1e3, new Error(`Await > ${ time } sec`));
  })]);
}

timeLimit(sleepRandom(5), 10).then(x => console.log(x));           // => 853, after 5 sec.
timeLimit(sleepRandom(15), 10).catch(error => console.log(error)); // Error: Await > 10 sec

Promise.allSettled example:

Promise.allSettled([
  Promise.resolve(1),
  Promise.reject(2),
  Promise.resolve(3),
]).then(console.log); // => [{ value: 1, status: 'fulfilled' }, { reason: 2, status: 'rejected' }, { value: 3, status: 'fulfilled' }]

Promise.any example:

Promise.any([
  Promise.resolve(1),
  Promise.reject(2),
  Promise.resolve(3),
]).then(console.log); // => 1

Promise.any([
  Promise.reject(1),
  Promise.reject(2),
  Promise.reject(3),
]).catch(({ errors }) => console.log(errors)); // => [1, 2, 3]

Promise.try examples:

/* eslint-disable promise/prefer-await-to-callbacks -- example */
Promise.try(() => 42).then(it => console.log(`Promise, resolved as ${ it }`));

Promise.try(() => { throw new Error('42'); }).catch(error => console.log(`Promise, rejected as ${ error }`));

Promise.try(async () => 42).then(it => console.log(`Promise, resolved as ${ it }`));

Promise.try(async () => { throw new Error('42'); }).catch(error => console.log(`Promise, rejected as ${ error }`));

Promise.try(it => it, 42).then(it => console.log(`Promise, resolved as ${ it }`));

Promise.withResolvers examples:

const d = Promise.withResolvers();
d.resolve(42);
d.promise.then(console.log); // => 42

Example with async functions:

let delay = time => new Promise(resolve => setTimeout(resolve, time));

async function sleepRandom(time) {
  await delay(time * 1e3);
  return 0 | Math.random() * 1e3;
}

async function sleepError(time, msg) {
  await delay(time * 1e3);
  throw new Error(msg);
}

(async () => {
  try {
    console.log('Run');                // => Run
    console.log(await sleepRandom(5)); // => 936, after 5 sec.
    let [a, b, c] = await Promise.all([
      sleepRandom(5),
      sleepRandom(15),
      sleepRandom(10),
    ]);
    console.log(a, b, c);              // => 210 445 71, after 15 sec.
    await sleepError(5, 'Error!');
    console.log('Will not be displayed');
  } catch (error) {
    console.log(error);                // => Error: 'Error!', after 5 sec.
  }
})();
Unhandled rejection tracking

In Node.js, like in native implementation, available events unhandledRejection and rejectionHandled:

process.on('unhandledRejection', (reason, promise) => console.log('unhandled', reason, promise));
process.on('rejectionHandled', promise => console.log('handled', promise));

let promise = Promise.reject(42);
// unhandled 42 [object Promise]

// eslint-disable-next-line promise/prefer-await-to-then -- example
setTimeout(() => promise.catch(() => { /* empty */ }), 1e3);
// handled [object Promise]

In a browser on rejection, by default, you will see notify in the console, or you can add a custom handler and a handler on handling unhandled, example:

globalThis.addEventListener('unhandledrejection', e => console.log('unhandled', e.reason, e.promise));
globalThis.addEventListener('rejectionhandled', e => console.log('handled', e.reason, e.promise));
// or
globalThis.onunhandledrejection = e => console.log('unhandled', e.reason, e.promise);
globalThis.onrejectionhandled = e => console.log('handled', e.reason, e.promise);

let promise = Promise.reject(42);
// => unhandled 42 [object Promise]

// eslint-disable-next-line promise/prefer-await-to-then -- example
setTimeout(() => promise.catch(() => { /* empty */ }), 1e3);
// => handled 42 [object Promise]
ECMAScript: Symbol

Modules es.symbol, es.symbol.async-dispose, es.symbol.async-iterator, es.symbol.description, es.symbol.dispose, es.symbol.has-instance, es.symbol.is-concat-spreadable, es.symbol.iterator, es.symbol.match, es.symbol.replace, es.symbol.search, es.symbol.species, es.symbol.split, es.symbol.to-primitive, es.symbol.to-string-tag, es.symbol.unscopables, es.math.to-string-tag.

class Symbol {
  constructor(description?): symbol;
  readonly attribute description: string | void;
  static asyncDispose: @@asyncDispose;
  static asyncIterator: @@asyncIterator;
  static dispose: @@dispose;
  static hasInstance: @@hasInstance;
  static isConcatSpreadable: @@isConcatSpreadable;
  static iterator: @@iterator;
  static match: @@match;
  static replace: @@replace;
  static search: @@search;
  static species: @@species;
  static split: @@split;
  static toPrimitive: @@toPrimitive;
  static toStringTag: @@toStringTag;
  static unscopables: @@unscopables;
  static for(key: string): symbol;
  static keyFor(sym: symbol): string;
  static useSimple(): void;
  static useSetter(): void;
}

class Object {
  static getOwnPropertySymbols(object: any): Array<symbol>;
}

Also wrapped some methods for correct work with Symbol polyfill.

class Object {
  static create(prototype: Object | null, properties?: { [property: PropertyKey]: PropertyDescriptor }): Object;
  static defineProperties(object: Object, properties: { [property: PropertyKey]: PropertyDescriptor })): Object;
  static defineProperty(object: Object, property: PropertyKey, attributes: PropertyDescriptor): Object;
  static getOwnPropertyDescriptor(object: any, property: PropertyKey): PropertyDescriptor | void;
  static getOwnPropertyNames(object: any): Array<string>;
  propertyIsEnumerable(key: PropertyKey): boolean;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/symbol
core-js(-pure)/es|stable|actual|full/symbol/async-dispose
core-js(-pure)/es|stable|actual|full/symbol/async-iterator
core-js/es|stable|actual|full/symbol/description
core-js(-pure)/es|stable|actual|full/symbol/dispose
core-js(-pure)/es|stable|actual|full/symbol/has-instance
core-js(-pure)/es|stable|actual|full/symbol/is-concat-spreadable
core-js(-pure)/es|stable|actual|full/symbol/iterator
core-js(-pure)/es|stable|actual|full/symbol/match
core-js(-pure)/es|stable|actual|full/symbol/replace
core-js(-pure)/es|stable|actual|full/symbol/search
core-js(-pure)/es|stable|actual|full/symbol/species
core-js(-pure)/es|stable|actual|full/symbol/split
core-js(-pure)/es|stable|actual|full/symbol/to-primitive
core-js(-pure)/es|stable|actual|full/symbol/to-string-tag
core-js(-pure)/es|stable|actual|full/symbol/unscopables
core-js(-pure)/es|stable|actual|full/symbol/for
core-js(-pure)/es|stable|actual|full/symbol/key-for
core-js(-pure)/es|stable|actual|full/object/get-own-property-symbols
core-js(-pure)/es|stable|actual|full/math/to-string-tag

Basic example:

let Person = (() => {
  let NAME = Symbol('name');
  return class {
    constructor(name) {
      this[NAME] = name;
    }
    getName() {
      return this[NAME];
    }
  };
})();

let person = new Person('Vasya');
console.log(person.getName());            // => 'Vasya'
console.log(person.name);                 // => undefined
console.log(person[Symbol('name')]);      // => undefined, symbols are uniq
for (let key in person) console.log(key); // => nothing, symbols are not enumerable

Symbol.for & Symbol.keyFor example:

let symbol = Symbol.for('key');
symbol === Symbol.for('key'); // true
Symbol.keyFor(symbol);        // 'key'

Example with methods for getting own object keys:

let object = { a: 1 };
Object.defineProperty(object, 'b', { value: 2 });
object[Symbol('c')] = 3;
Object.keys(object);                  // => ['a']
Object.getOwnPropertyNames(object);   // => ['a', 'b']
Object.getOwnPropertySymbols(object); // => [Symbol(c)]
Reflect.ownKeys(object);              // => ['a', 'b', Symbol(c)]

Symbol#description getter:

Symbol('foo').description; // => 'foo'
// eslint-disable-next-line symbol-description -- example
Symbol().description;      // => undefined
Caveats when using Symbol polyfill:
  • We can't add a new primitive type, Symbol returns an object.
  • Symbol.for and Symbol.keyFor can't be polyfilled cross-realm.
  • By default, to hide the keys, Symbol polyfill defines a setter in Object.prototype. For this reason, an uncontrolled creation of symbols can cause a memory leak and the in operator is not working correctly with Symbol polyfill: Symbol() in {} // => true.

You can disable defining setters in Object.prototype. Example:

Symbol.useSimple();
let object1 = { [Symbol('symbol1')]: true };
for (let key in object1) console.log(key); // => 'Symbol(symbol1)_t.qamkg9f3q', w/o native Symbol

Symbol.useSetter();
let object2 = { [Symbol('symbol2')]: true };
for (let key in object2) console.log(key); // nothing
  • Currently, core-js does not add setters to Object.prototype for well-known symbols for correct work something like Symbol.iterator in foo. It can cause problems with their enumerability.
  • Some problems are possible with environment exotic objects (for example, IE localStorage).
ECMAScript: Collections

core-js uses native collections in most cases, just fixes methods / constructor, if it's required, and in the old environment uses fast polyfill (O(1) lookup).

Map

Modules es.map, es.map.group-by, es.map.get-or-insert and es.map.get-or-insert-computed.

class Map {
  constructor(iterable?: Iterable<[key, value]>): Map;
  clear(): void;
  delete(key: any): boolean;
  forEach(callbackfn: (value: any, key: any, target: any) => void, thisArg: any): void;
  get(key: any): any;
  getOrInsert(key: any, value: any): any;
  getOrInsertComputed(key: any, (key: any) => value: any): any;
  has(key: any): boolean;
  set(key: any, val: any): this;
  values(): Iterator<value>;
  keys(): Iterator<key>;
  entries(): Iterator<[key, value]>;
  @@iterator(): Iterator<[key, value]>;
  readonly attribute size: number;
  static groupBy(items: Iterable, callbackfn: (value: any, index: number) => key): Map<key, Array<mixed>>;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/map
core-js(-pure)/es|stable|actual|full/map/group-by
core-js(-pure)/es|stable|actual|full/map/get-or-insert
core-js(-pure)/es|stable|actual|full/map/get-or-insert-computed

Examples:

let array = [1];

let map = new Map([['a', 1], [42, 2]]);
map.set(array, 3).set(true, 4);

console.log(map.size);        // => 4
console.log(map.has(array));  // => true
console.log(map.has([1]));    // => false
console.log(map.get(array));  // => 3
map.forEach((val, key) => {
  console.log(val);           // => 1, 2, 3, 4
  console.log(key);           // => 'a', 42, [1], true
});
map.delete(array);
console.log(map.size);        // => 3
console.log(map.get(array));  // => undefined
console.log(Array.from(map)); // => [['a', 1], [42, 2], [true, 4]]

map = new Map([['a', 1], ['b', 2], ['c', 3]]);

for (let [key, value] of map) {
  console.log(key);                                 // => 'a', 'b', 'c'
  console.log(value);                               // => 1, 2, 3
}
for (let value of map.values()) console.log(value); // => 1, 2, 3
for (let key of map.keys()) console.log(key);       // => 'a', 'b', 'c'
for (let [key, value] of map.entries()) {
  console.log(key);                                 // => 'a', 'b', 'c'
  console.log(value);                               // => 1, 2, 3
}

map = Map.groupBy([1, 2, 3, 4, 5], it => it % 2);
map.get(1); // => [1, 3, 5]
map.get(0); // => [2, 4]

map = new Map([['a', 1]]);

map.getOrInsert('a', 2); // => 1

map.getOrInsert('b', 3); // => 3

map.getOrInsertComputed('a', key => key); // => 1

map.getOrInsertComputed('c', key => key); // => 'c'

console.log(map); // => Map { 'a': 1, 'b': 3, 'c': 'c' }
Set

Modules es.set, es.set.difference.v2, es.set.intersection.v2, es.set.is-disjoint-from.v2, es.set.is-subset-of.v2, es.set.is-superset-of.v2, es.set.symmetric-difference.v2, es.set.union.v2

class Set {
  constructor(iterable?: Iterable<value>): Set;
  add(key: any): this;
  clear(): void;
  delete(key: any): boolean;
  forEach((value: any, key: any, target: any) => void, thisArg: any): void;
  has(key: any): boolean;
  values(): Iterator<value>;
  keys(): Iterator<value>;
  entries(): Iterator<[value, value]>;
  difference(other: SetLike<mixed>): Set;
  intersection(other: SetLike<mixed>): Set;
  isDisjointFrom(other: SetLike<mixed>): boolean;
  isSubsetOf(other: SetLike<mixed>): boolean;
  isSupersetOf(other: SetLike<mixed>): boolean;
  symmetricDifference(other: SetLike<mixed>): Set;
  union(other: SetLike<mixed>): Set;
  @@iterator(): Iterator<value>;
  readonly attribute size: number;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/set
core-js(-pure)/es|stable|actual|full/set/difference
core-js(-pure)/es|stable|actual|full/set/intersection
core-js(-pure)/es|stable|actual|full/set/is-disjoint-from
core-js(-pure)/es|stable|actual|full/set/is-subset-of
core-js(-pure)/es|stable|actual|full/set/is-superset-of
core-js(-pure)/es|stable|actual|full/set/symmetric-difference
core-js(-pure)/es|stable|actual|full/set/union

Examples:

let set = new Set(['a', 'b', 'a', 'c']);
set.add('d').add('b').add('e');
console.log(set.size);        // => 5
console.log(set.has('b'));    // => true
set.forEach(it => {
  console.log(it);            // => 'a', 'b', 'c', 'd', 'e'
});
set.delete('b');
console.log(set.size);        // => 4
console.log(set.has('b'));    // => false
console.log(Array.from(set)); // => ['a', 'c', 'd', 'e']

set = new Set([1, 2, 3, 2, 1]);

for (let value of set) console.log(value);          // => 1, 2, 3
for (let value of set.values()) console.log(value); // => 1, 2, 3
for (let key of set.keys()) console.log(key);       // => 1, 2, 3
for (let [key, value] of set.entries()) {
  console.log(key);                                 // => 1, 2, 3
  console.log(value);                               // => 1, 2, 3
}

new Set([1, 2, 3]).union(new Set([3, 4, 5]));               // => Set {1, 2, 3, 4, 5}
new Set([1, 2, 3]).intersection(new Set([3, 4, 5]));        // => Set {3}
new Set([1, 2, 3]).difference(new Set([3, 4, 5]));          // => Set {1, 2}
new Set([1, 2, 3]).symmetricDifference(new Set([3, 4, 5])); // => Set {1, 2, 4, 5}
new Set([1, 2, 3]).isDisjointFrom(new Set([4, 5, 6]));      // => true
new Set([1, 2, 3]).isSubsetOf(new Set([5, 4, 3, 2, 1]));    // => true
new Set([5, 4, 3, 2, 1]).isSupersetOf(new Set([1, 2, 3]));  // => true
WeakMap

Module es.weak-map, es.weak-map.get-or-insert and es.weak-map.get-or-insert-computed.

class WeakMap {
  constructor(iterable?: Iterable<[key, value]>): WeakMap;
  delete(key: object | symbol): boolean;
  get(key: object | symbol): any;
  getOrInsert(key: object | symbol, value: any): any;
  getOrInsertComputed(key: object | symbol, (key: any) => value: any): any;
  has(key: object | symbol): boolean;
  set(key: object | symbol, val: any): this;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/weak-map
core-js(-pure)/es|stable|actual|full/weak-map/get-or-insert
core-js(-pure)/es|stable|actual|full/weak-map/get-or-insert-computed

Examples:

let a = [1];
let b = [2];
let c = [3];

let weakmap = new WeakMap([[a, 1], [b, 2]]);
weakmap.set(c, 3).set(b, 4);
console.log(weakmap.has(a));   // => true
console.log(weakmap.has([1])); // => false
console.log(weakmap.get(a));   // => 1
weakmap.delete(a);
console.log(weakmap.get(a));   // => undefined

// Private properties store:
let Person = (() => {
  let names = new WeakMap();
  return class {
    constructor(name) {
      names.set(this, name);
    }
    getName() {
      return names.get(this);
    }
  };
})();

let person = new Person('Vasya');
console.log(person.getName());            // => 'Vasya'
for (let key in person) console.log(key); // => only 'getName'
WeakSet

Module es.weak-set.

class WeakSet {
  constructor(iterable?: Iterable<value>): WeakSet;
  add(key: object | symbol): this;
  delete(key: object | symbol): boolean;
  has(key: object | symbol): boolean;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/weak-set

Examples:

let a = [1];
let b = [2];
let c = [3];

let weakset = new WeakSet([a, b, a]);
weakset.add(c).add(b).add(c);
console.log(weakset.has(b));   // => true
console.log(weakset.has([2])); // => false
weakset.delete(b);
console.log(weakset.has(b));   // => false

  • Weak-collections polyfill stores values as hidden properties of keys. It works correctly and does not leak in most cases. However, it is desirable to store a collection longer than its keys.
  • Native symbols as WeakMap keys can't be properly polyfilled without memory leaks.
ECMAScript: Explicit Resource Management

This is only built-ins for this Explicit Resource Management, using syntax support requires transpiler support.

Modules es.disposable-stack.constructor, es.iterator.dispose, es.async-disposable-stack.constructor, es.async-iterator.async-dispose.

class Symbol {
  static asyncDispose: @@asyncDispose;
  static dispose: @@dispose;
}

class DisposableStack {
  constructor(): DisposableStack;
  dispose(): undefined;
  use(value: Disposable): value;
  adopt(value: object, onDispose: Function): value;
  defer(onDispose: Function): undefined;
  move(): DisposableStack;
  @@dispose(): undefined;
  @@toStringTag: 'DisposableStack';
}

class AsyncDisposableStack {
  constructor(): AsyncDisposableStack;
  disposeAsync(): Promise<undefined>;
  use(value: AsyncDisposable | Disposable): value;
  adopt(value: object, onDispose: Function): value;
  defer(onDispose: Function): undefined;
  move(): AsyncDisposableStack;
  @@asyncDispose(): Promise<undefined>;
  @@toStringTag: 'AsyncDisposableStack';
}

class SuppressedError extends Error {
  constructor(error: any, suppressed: any, message?: string): SuppressedError;
  error: any;
  suppressed: any;
  message: string;
  cause: any;
}

class Iterator {
  @@dispose(): undefined;
}

class AsyncIterator {
  @@asyncDispose(): Promise<undefined>;
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/disposable-stack
core-js(-pure)/es|stable|actual|full/async-disposable-stack
core-js(-pure)/es|stable|actual|full/iterator/dispose
core-js(-pure)/es|stable|actual|full/async-iterator/async-dispose
ECMAScript: Typed Arrays

Implementations and fixes for ArrayBuffer, DataView, Typed Arrays constructors, static and prototype methods. Typed arrays work only in environments with support descriptors (IE9+), ArrayBuffer and DataView should work anywhere.

Modules es.array-buffer.constructor, es.array-buffer.is-view, esnext.array-buffer.detached, es.array-buffer.slice, esnext.array-buffer.transfer, esnext.array-buffer.transfer-to-fixed-length es.data-view, es.data-view.get-float16, es.data-view.set-float16, es.typed-array.int8-array, es.typed-array.uint8-array, es.typed-array.uint8-clamped-array, es.typed-array.int16-array, es.typed-array.uint16-array, es.typed-array.int32-array, es.typed-array.uint32-array, es.typed-array.float32-array, es.typed-array.float64-array, es.typed-array.copy-within, es.typed-array.every, es.typed-array.fill, es.typed-array.filter, es.typed-array.find, es.typed-array.find-index, es.typed-array.find-last, es.typed-array.find-last-index, es.typed-array.for-each, es.typed-array.from, es.typed-array.includes, es.typed-array.index-of, es.typed-array.iterator, es.typed-array.last-index-of, es.typed-array.map, es.typed-array.of, es.typed-array.reduce, es.typed-array.reduce-right, es.typed-array.reverse, es.typed-array.set, es.typed-array.slice, es.typed-array.some, es.typed-array.sort, es.typed-array.subarray, es.typed-array.to-locale-string, es.typed-array.to-string, es.typed-array.at, es.typed-array.to-reversed, es.typed-array.to-sorted, es.typed-array.with, es.uint8-array.from-base64, es.uint8-array.from-hex, es.uint8-array.set-from-hex, es.uint8-array.to-base64, es.uint8-array.to-hex.

class ArrayBuffer {
  constructor(length: any): ArrayBuffer;
  readonly attribute byteLength: number;
  readonly attribute detached: boolean;
  slice(start: any, end: any): ArrayBuffer;
  transfer(newLength?: number): ArrayBuffer;
  transferToFixedLength(newLength?: number): ArrayBuffer;
  static isView(arg: any): boolean;
}

class DataView {
  constructor(buffer: ArrayBuffer, byteOffset?: number, byteLength?: number): DataView;
  getInt8(offset: any): int8;
  getUint8(offset: any): uint8
  getInt16(offset: any, littleEndian?: boolean = false): int16;
  getUint16(offset: any, littleEndian?: boolean = false): uint16;
  getInt32(offset: any, littleEndian?: boolean = false): int32;
  getUint32(offset: any, littleEndian?: boolean = false): uint32;
  getFloat16(offset: any, littleEndian?: boolean = false): float16
  getFloat32(offset: any, littleEndian?: boolean = false): float32;
  getFloat64(offset: any, littleEndian?: boolean = false): float64;
  setInt8(offset: any, value: any): void;
  setUint8(offset: any, value: any): void;
  setInt16(offset: any, value: any, littleEndian?: boolean = false): void;
  setUint16(offset: any, value: any, littleEndian?: boolean = false): void;
  setInt32(offset: any, value: any, littleEndian?: boolean = false): void;
  setUint32(offset: any, value: any, littleEndian?: boolean = false): void;
  setFloat16(offset: any, value: any, littleEndian?: boolean = false): void;
  setFloat32(offset: any, value: any, littleEndian?: boolean = false): void;
  setFloat64(offset: any, value: any, littleEndian?: boolean = false): void;
  readonly attribute buffer: ArrayBuffer;
  readonly attribute byteLength: number;
  readonly attribute byteOffset: number;
}

class [
  Int8Array,
  Uint8Array,
  Uint8ClampedArray,
  Int16Array,
  Uint16Array,
  Int32Array,
  Uint32Array,
  Float32Array,
  Float64Array,
] extends %TypedArray% {
  constructor(length: number): %TypedArray%;
  constructor(object: %TypedArray% | Iterable | ArrayLike): %TypedArray%;
  constructor(buffer: ArrayBuffer, byteOffset?: number, length?: number): %TypedArray%
}

class %TypedArray% {
  at(index: int): number;
  copyWithin(target: number, start: number, end?: number): this;
  entries(): Iterator<[index, value]>;
  every(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean, thisArg?: any): boolean;
  fill(value: number, start?: number, end?: number): this;
  filter(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean, thisArg?: any): %TypedArray%;
  find(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean), thisArg?: any): any;
  findIndex(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean, thisArg?: any): uint;
  findLast(callbackfn: (value: any, index: number, target: %TypedArray%) => boolean, thisArg?: any): any;
  findLastIndex(callbackfn: (value: any, index: number, target: %TypedArray%) => boolean, thisArg?: any): uint;
  forEach(callbackfn: (value: number, index: number, target: %TypedArray%) => void, thisArg?: any): void;
  includes(searchElement: any, from?: number): boolean;
  indexOf(searchElement: any, from?: number): number;
  join(separator: string = ','): string;
  keys(): Iterator<index>;
  lastIndexOf(searchElement: any, from?: number): number;
  map(mapFn: (value: number, index: number, target: %TypedArray%) => number, thisArg?: any): %TypedArray%;
  reduce(callbackfn: (memo: any, value: number, index: number, target: %TypedArray%) => any, initialValue?: any): any;
  reduceRight(callbackfn: (memo: any, value: number, index: number, target: %TypedArray%) => any, initialValue?: any): any;
  reverse(): this;
  set(array: ArrayLike, offset?: number): void;
  slice(start?: number, end?: number): %TypedArray%;
  some(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean, thisArg?: any): boolean;
  sort(comparefn?: (a: number, b: number) => number): this; // with modern behavior like stable sort
  subarray(begin?: number, end?: number): %TypedArray%;
  toReversed(): %TypedArray%;
  toSorted(comparefn?: (a: any, b: any) => number): %TypedArray%;
  toString(): string;
  toLocaleString(): string;
  values(): Iterator<value>;
  with(index: includes, value: any): %TypedArray%;
  @@iterator(): Iterator<value>;
  readonly attribute buffer: ArrayBuffer;
  readonly attribute byteLength: number;
  readonly attribute byteOffset: number;
  readonly attribute length: number;
  BYTES_PER_ELEMENT: number;
  static from(items: Iterable | ArrayLike, mapFn?: (value: any, index: number) => any, thisArg?: any): %TypedArray%;
  static of(...args: Array<mixed>): %TypedArray%;
  static BYTES_PER_ELEMENT: number;
}

class Uint8Array {
  static fromBase64(string: string, options?: { alphabet?: 'base64' | 'base64url', lastChunkHandling?: 'loose' | 'strict' | 'stop-before-partial' }): Uint8Array;
  static fromHex(string: string): Uint8Array;
  setFromBase64(string: string, options?: { alphabet?: 'base64' | 'base64url', lastChunkHandling?: 'loose' | 'strict' | 'stop-before-partial' }): { read: uint, written: uint };
  setFromHex(string: string): { read: uint, written: uint };
  toBase64(options?: { alphabet?: 'base64' | 'base64url', omitPadding?: boolean }): string;
  toHex(): string;
}

CommonJS entry points:

core-js/es|stable|actual|full/array-buffer
core-js/es|stable|actual|full/array-buffer/constructor
core-js/es|stable|actual|full/array-buffer/is-view
core-js/es|stable|actual|full/array-buffer/detached
core-js/es|stable|actual|full/array-buffer/slice
core-js/es|stable|actual|full/array-buffer/transfer
core-js/es|stable|actual|full/array-buffer/transfer-to-fixed-length
core-js/es|stable|actual|full/data-view
core-js/es|stable|actual|full/dataview/get-float16
core-js/es|stable|actual|full/dataview/set-float16
core-js/es|stable|actual|full/typed-array
core-js/es|stable|actual|full/typed-array/int8-array
core-js/es|stable|actual|full/typed-array/uint8-array
core-js/es|stable|actual|full/typed-array/uint8-clamped-array
core-js/es|stable|actual|full/typed-array/int16-array
core-js/es|stable|actual|full/typed-array/uint16-array
core-js/es|stable|actual|full/typed-array/int32-array
core-js/es|stable|actual|full/typed-array/uint32-array
core-js/es|stable|actual|full/typed-array/float32-array
core-js/es|stable|actual|full/typed-array/float64-array
core-js/es|stable|actual|full/typed-array/at
core-js/es|stable|actual|full/typed-array/copy-within
core-js/es|stable|actual|full/typed-array/entries
core-js/es|stable|actual|full/typed-array/every
core-js/es|stable|actual|full/typed-array/fill
core-js/es|stable|actual|full/typed-array/filter
core-js/es|stable|actual|full/typed-array/find
core-js/es|stable|actual|full/typed-array/find-index
core-js/es|stable|actual|full/typed-array/find-last
core-js/es|stable|actual|full/typed-array/find-last-index
core-js/es|stable|actual|full/typed-array/for-each
core-js/es|stable|actual|full/typed-array/from
core-js/es|stable|actual|full/typed-array/from-base64
core-js/es|stable|actual|full/typed-array/from-hex
core-js/es|stable|actual|full/typed-array/includes
core-js/es|stable|actual|full/typed-array/index-of
core-js/es|stable|actual|full/typed-array/iterator
core-js/es|stable|actual|full/typed-array/join
core-js/es|stable|actual|full/typed-array/keys
core-js/es|stable|actual|full/typed-array/last-index-of
core-js/es|stable|actual|full/typed-array/map
core-js/es|stable|actual|full/typed-array/of
core-js/es|stable|actual|full/typed-array/reduce
core-js/es|stable|actual|full/typed-array/reduce-right
core-js/es|stable|actual|full/typed-array/reverse
core-js/es|stable|actual|full/typed-array/set
core-js/es|stable|actual|full/typed-array/set-from-base64
core-js/es|stable|actual|full/typed-array/set-from-hex
core-js/es|stable|actual|full/typed-array/slice
core-js/es|stable|actual|full/typed-array/some
core-js/es|stable|actual|full/typed-array/sort
core-js/es|stable|actual|full/typed-array/subarray
core-js/es|stable|actual|full/typed-array/to-base64
core-js/es|stable|actual|full/typed-array/to-hex
core-js/es|stable|actual|full/typed-array/to-locale-string
core-js/es|stable|actual|full/typed-array/to-reversed
core-js/es|stable|actual|full/typed-array/to-sorted
core-js/es|stable|actual|full/typed-array/to-string
core-js/es|stable|actual|full/typed-array/values
core-js/es|stable|actual|full/typed-array/with

Examples:

new Int32Array(4);                          // => [0, 0, 0, 0]
new Uint8ClampedArray([1, 2, 3, 666]);      // => [1, 2, 3, 255]
new Float32Array(new Set([1, 2, 3, 2, 1])); // => [1, 2, 3]

let buffer = new ArrayBuffer(8);
let view = new DataView(buffer);
view.setFloat64(0, 123.456, true);
new Uint8Array(buffer.slice(4)); // => [47, 221, 94, 64]

Int8Array.of(1, 1.5, 5.7, 745);      // => [1, 1, 5, -23]
Uint8Array.from([1, 1.5, 5.7, 745]); // => [1, 1, 5, 233]

let typed = new Uint8Array([1, 2, 3]);

let a = typed.slice(1);    // => [2, 3]
typed.buffer === a.buffer; // => false
let b = typed.subarray(1); // => [2, 3]
typed.buffer === b.buffer; // => true

typed.filter(it => it % 2); // => [1, 3]
typed.map(it => it * 1.5);  // => [1, 3, 4]

for (let value of typed) console.log(value);          // => 1, 2, 3
for (let value of typed.values()) console.log(value); // => 1, 2, 3
for (let key of typed.keys()) console.log(key);       // => 0, 1, 2
for (let [key, value] of typed.entries()) {
  console.log(key);                                   // => 0, 1, 2
  console.log(value);                                 // => 1, 2, 3
}

new Int32Array([1, 2, 3]).at(1);  // => 2
new Int32Array([1, 2, 3]).at(-1); // => 3

buffer = Int8Array.of(1, 2, 3, 4, 5, 6, 7, 8).buffer;
console.log(buffer.byteLength); // => 8
console.log(buffer.detached); // => false
const newBuffer = buffer.transfer(4);
console.log(buffer.byteLength); // => 0
console.log(buffer.detached); // => true
console.log(newBuffer.byteLength); // => 4
console.log(newBuffer.detached); // => false
console.log([...new Int8Array(newBuffer)]); // => [1, 2, 3, 4]

Base64 / Hex examples:

let arr = new Uint8Array([72, 101, 108, 108, 111, 32, 87, 111, 114, 108, 100]);
console.log(arr.toBase64()); // => 'SGVsbG8gV29ybGQ='
console.log(arr.toBase64({ omitPadding: true })); // => 'SGVsbG8gV29ybGQ'
console.log(arr.toHex()); // => '48656c6c6f20576f726c64'
console.log(Uint8Array.fromBase64('SGVsbG8gV29ybGQ=')); // => Uint8Array([72, 101, 108, 108, 111, 32, 87, 111, 114, 108, 100])
console.log(Uint8Array.fromHex('48656c6c6f20576f726c64')); // => Uint8Array([72, 101, 108, 108, 111, 32, 87, 111, 114, 108, 100])

  • Polyfills of Typed Arrays constructors work completely how they should work by the spec. Still, because of the internal usage of getters / setters on each instance, they are slow and consume significant memory. However, polyfills of Typed Arrays constructors are required mainly for old IE, all modern engines have native Typed Arrays constructors and require only fixes of constructors and polyfills of methods.
  • ArrayBuffer.prototype.{ transfer, transferToFixedLength } polyfilled only in runtime with native structuredClone with ArrayBuffer transfer or MessageChannel support.
ECMAScript: Reflect

Modules es.reflect.apply, es.reflect.construct, es.reflect.define-property, es.reflect.delete-property, es.reflect.get, es.reflect.get-own-property-descriptor, es.reflect.get-prototype-of, es.reflect.has, es.reflect.is-extensible, es.reflect.own-keys, es.reflect.prevent-extensions, es.reflect.set, es.reflect.set-prototype-of.

namespace Reflect {
  apply(target: Function, thisArgument: any, argumentsList: Array<mixed>): any;
  construct(target: Function, argumentsList: Array<mixed>, newTarget?: Function): Object;
  defineProperty(target: Object, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
  deleteProperty(target: Object, propertyKey: PropertyKey): boolean;
  get(target: Object, propertyKey: PropertyKey, receiver?: any): any;
  getOwnPropertyDescriptor(target: Object, propertyKey: PropertyKey): PropertyDescriptor | void;
  getPrototypeOf(target: Object): Object | null;
  has(target: Object, propertyKey: PropertyKey): boolean;
  isExtensible(target: Object): boolean;
  ownKeys(target: Object): Array<string | symbol>;
  preventExtensions(target: Object): boolean;
  set(target: Object, propertyKey: PropertyKey, V: any, receiver?: any): boolean;
  setPrototypeOf(target: Object, proto: Object | null): boolean; // required __proto__ - IE11+
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/reflect
core-js(-pure)/es|stable|actual|full/reflect/apply
core-js(-pure)/es|stable|actual|full/reflect/construct
core-js(-pure)/es|stable|actual|full/reflect/define-property
core-js(-pure)/es|stable|actual|full/reflect/delete-property
core-js(-pure)/es|stable|actual|full/reflect/get
core-js(-pure)/es|stable|actual|full/reflect/get-own-property-descriptor
core-js(-pure)/es|stable|actual|full/reflect/get-prototype-of
core-js(-pure)/es|stable|actual|full/reflect/has
core-js(-pure)/es|stable|actual|full/reflect/is-extensible
core-js(-pure)/es|stable|actual|full/reflect/own-keys
core-js(-pure)/es|stable|actual|full/reflect/prevent-extensions
core-js(-pure)/es|stable|actual|full/reflect/set
core-js(-pure)/es|stable|actual|full/reflect/set-prototype-of

Examples:

let object = { a: 1 };
Object.defineProperty(object, 'b', { value: 2 });
object[Symbol('c')] = 3;
Reflect.ownKeys(object); // => ['a', 'b', Symbol(c)]

function C(a, b) {
  this.c = a + b;
}

let instance = Reflect.construct(C, [20, 22]);
instance.c; // => 42
ECMAScript: JSON

Since JSON object is missed only in very old engines like IE7-, core-js does not provide a full JSON.{ parse, stringify } polyfill, however, fix already existing implementations by the current standard.

Modules es.json.is-raw-json, es.json.parse, es.json.raw-json, es.json.stringify and es.json.to-string-tag .

namespace JSON {
  isRawJSON(O: any): boolean;
  parse(text: string, reviver?: (this: any, key: string, value: any, context: { source?: string }) => any): any;
  rawJSON(text: any): RawJSON;
  stringify(value: any, replacer?: Array<string | number> | (this: any, key: string, value: any) => any, space?: string | number): string | void;
  @@toStringTag: 'JSON';
}

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/json/is-raw-json
core-js(-pure)/es|stable|actual|full/json/parse
core-js(-pure)/es|stable|actual|full/json/raw-json
core-js(-pure)/es|stable|actual|full/json/stringify
core-js(-pure)/es|stable|actual|full/json/stringify
core-js(-pure)/es|stable|actual|full/json/to-string-tag

Examples:

JSON.stringify({ '𠮷': ['\uDF06\uD834'] }); // => '{"𠮷":["\\udf06\\ud834"]}'

function digitsToBigInt(key, val, { source }) {
  return /^\d+$/.test(source) ? BigInt(source) : val;
}

function bigIntToRawJSON(key, val) {
  return typeof val === 'bigint' ? JSON.rawJSON(String(val)) : val;
}

const tooBigForNumber = BigInt(Number.MAX_SAFE_INTEGER) + 2n;
JSON.parse(String(tooBigForNumber), digitsToBigInt) === tooBigForNumber; // true

const wayTooBig = BigInt(`1${ '0'.repeat(1000) }`);
JSON.parse(String(wayTooBig), digitsToBigInt) === wayTooBig; // true

const embedded = JSON.stringify({ tooBigForNumber }, bigIntToRawJSON);
embedded === '{"tooBigForNumber":9007199254740993}'; // true
ECMAScript: globalThis

Module es.global-this.

let globalThis: GlobalThisValue;

CommonJS entry points:

core-js(-pure)/es|stable|actual|full/global-this

Examples:

globalThis.Array === Array; // => true
ECMAScript proposals

The TC39 process.

core-js/stage/3 entry point contains only stage 3 proposals, core-js/stage/2.7 - stage 2.7 and stage 3, etc.

Finished proposals

Finished (stage 4) proposals already marked in core-js as stable ECMAScript, they are available in core-js/stable and core-js/es namespace, you can find them in related sections of the README. However, even for finished proposals, core-js provides a way to include only features for a specific proposal like core-js/proposals/proposal-name.

globalThis
let globalThis: GlobalThisValue;

CommonJS entry points:

core-js/proposals/global-this
Relative indexing method
class Array {
  at(index: int): any;
}

class String {
  at(index: int): string;
}

class %TypedArray% {
  at(index: int): number;
}

CommonJS entry points:

core-js/proposals/relative-indexing-method
Array.prototype.includes
class Array {
  includes(searchElement: any, from?: number): boolean;
}

class %TypedArray% {
  includes(searchElement: any, from?: number): boolean;
}

CommonJS entry points:

core-js/proposals/array-includes
Array.prototype.flat / Array.prototype.flatMap
class Array {
  flat(depthArg?: number = 1): Array<mixed>;
  flatMap(mapFn: (value: any, index: number, target: any) => any, thisArg: any): Array<mixed>;
}

CommonJS entry points:

core-js/proposals/array-flat-map
Array find from last
class Array {
  findLast(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): any;
  findLastIndex(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): uint;
}

class %TypedArray% {
  findLast(callbackfn: (value: any, index: number, target: %TypedArray%) => boolean, thisArg?: any): any;
  findLastIndex(callbackfn: (value: any, index: number, target: %TypedArray%) => boolean, thisArg?: any): uint;
}

CommonJS entry points:

core-js/proposals/array-find-from-last
Change Array by copy
class Array {
  toReversed(): Array<mixed>;
  toSpliced(start?: number, deleteCount?: number, ...items: Array<mixed>): Array<mixed>;
  toSorted(comparefn?: (a: any, b: any) => number): Array<mixed>;
  with(index: includes, value: any): Array<mixed>;
}

class %TypedArray% {
  toReversed(): %TypedArray%;
  toSorted(comparefn?: (a: any, b: any) => number): %TypedArray%;
  with(index: includes, value: any): %TypedArray%;
}

CommonJS entry points:

core-js/proposals/change-array-by-copy-stage-4
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-reversed
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-sorted
core-js(-pure)/es|stable|actual|full/array(/virtual)/to-spliced
core-js(-pure)/es|stable|actual|full/array(/virtual)/with
core-js/es|stable|actual|full/typed-array/to-reversed
core-js/es|stable|actual|full/typed-array/to-sorted
core-js/es|stable|actual|full/typed-array/with
Array grouping
class Object {
  static groupBy(items: Iterable, callbackfn: (value: any, index: number) => key): { [key]: Array<mixed> };
}

class Map {
  static groupBy(items: Iterable, callbackfn: (value: any, index: number) => key): Map<key, Array<mixed>>;
}

CommonJS entry points:

core-js/proposals/array-grouping-v2
Array.fromAsync
class Array {
  static fromAsync(asyncItems: AsyncIterable | Iterable | ArrayLike, mapfn?: (value: any, index: number) => any, thisArg?: any): Array;
}

CommonJS entry points:

core-js/proposals/array-from-async-stage-2
ArrayBuffer.prototype.transfer and friends
class ArrayBuffer {
  readonly attribute detached: boolean;
  transfer(newLength?: number): ArrayBuffer;
  transferToFixedLength(newLength?: number): ArrayBuffer;
}

CommonJS entry points:

core-js/proposals/array-buffer-transfer
Uint8Array to / from base64 and hex
class Uint8Array {
  static fromBase64(string: string, options?: { alphabet?: 'base64' | 'base64url', lastChunkHandling?: 'loose' | 'strict' | 'stop-before-partial' }): Uint8Array;
  static fromHex(string: string): Uint8Array;
  setFromBase64(string: string, options?: { alphabet?: 'base64' | 'base64url', lastChunkHandling?: 'loose' | 'strict' | 'stop-before-partial' }): { read: uint, written: uint };
  setFromHex(string: string): { read: uint, written: uint };
  toBase64(options?: { alphabet?: 'base64' | 'base64url', omitPadding?: boolean }): string;
  toHex(): string;
}

CommonJS entry points:

core-js/proposals/array-buffer-base64
Error.isError
class Error {
  static isError(value: any): boolean;
}

CommonJS entry points:

core-js/proposals/is-error

We have no bulletproof way to polyfill this Error.isError / check if the object is an error, so it's an enough naive implementation.

Explicit Resource Management

This is only built-ins for this Explicit Resource Management, using syntax support requires transpiler support.

class Symbol {
  static asyncDispose: @@asyncDispose;
  static dispose: @@dispose;
}

class DisposableStack {
  constructor(): DisposableStack;
  dispose(): undefined;
  use(value: Disposable): value;
  adopt(value: object, onDispose: Function): value;
  defer(onDispose: Function): undefined;
  move(): DisposableStack;
  @@dispose(): undefined;
  @@toStringTag: 'DisposableStack';
}

class AsyncDisposableStack {
  constructor(): AsyncDisposableStack;
  disposeAsync(): Promise<undefined>;
  use(value: AsyncDisposable | Disposable): value;
  adopt(value: object, onDispose: Function): value;
  defer(onDispose: Function): undefined;
  move(): AsyncDisposableStack;
  @@asyncDispose(): Promise<undefined>;
  @@toStringTag: 'AsyncDisposableStack';
}

class SuppressedError extends Error {
  constructor(error: any, suppressed: any, message?: string): SuppressedError;
  error: any;
  suppressed: any;
  message: string;
  cause: any;
}

class Iterator {
  @@dispose(): undefined;
}

class AsyncIterator {
  @@asyncDispose(): Promise<undefined>;
}

CommonJS entry points:

core-js/proposals/explicit-resource-management
Float16 methods
class DataView {
  getFloat16(offset: any, littleEndian?: boolean = false): float16
  setFloat16(offset: any, value: any, littleEndian?: boolean = false): void;
}

namespace Math {
  fround(number: any): number;
}

CommonJS entry points:

core-js/proposals/float16
Iterator helpers
class Iterator {
  static from(iterable: Iterable<any> | Iterator<any>): Iterator<any>;
  drop(limit: uint): Iterator<any>;
  every(callbackfn: (value: any, counter: uint) => boolean): boolean;
  filter(callbackfn: (value: any, counter: uint) => boolean): Iterator<any>;
  find(callbackfn: (value: any, counter: uint) => boolean)): any;
  flatMap(callbackfn: (value: any, counter: uint) => Iterable<any> | Iterator<any>): Iterator<any>;
  forEach(callbackfn: (value: any, counter: uint) => void): void;
  map(callbackfn: (value: any, counter: uint) => any): Iterator<any>;
  reduce(callbackfn: (memo: any, value: any, counter: uint) => any, initialValue: any): any;
  some(callbackfn: (value: any, counter: uint) => boolean): boolean;
  take(limit: uint): Iterator<any>;
  toArray(): Array<any>;
  @@toStringTag: 'Iterator'
}

CommonJS entry points:

core-js/proposals/iterator-helpers-stage-3-2
Iterator sequencing
class Iterator {
  static concat(...items: Array<IterableObject>): Iterator<any>;
}

CommonJS entry points:

core-js/proposals/iterator-sequencing
Joint iteration

Modules es.iterator.zip, es.iterator.zip-keyed

class Iterator {
  zip<T extends readonly Iterable<unknown>[]>(
    iterables: T,
    options?: {
      mode?: 'shortest' | 'longest' | 'strict';
      padding?: { [K in keyof T]?: T[K] extends Iterable<infer U> ? U : never };
    }
  ): IterableIterator<{ [K in keyof T]: T[K] extends Iterable<infer U> ? U : never }>;
  zipKeyed<K extends PropertyKey, V extends Record<K, Iterable<unknown>>>(
    iterables: V,
    options?: {
      mode?: 'shortest' | 'longest' | 'strict';
      padding?: { [P in keyof V]?: V[P] extends Iterable<infer U> ? U : never };
    }
  ): IterableIterator<{ [P in keyof V]: V[P] extends Iterable<infer U> ? U : never }>;
}

CommonJS entry points:

core-js/proposals/joint-iteration
core-js(-pure)/es|stable|actual|full/iterator/zip
core-js(-pure)/es|stable|actual|full/iterator/zip-keyed

Example:

Iterator.zip([
  [0, 1, 2],
  [3, 4, 5],
]).toArray();  // => [[0, 3], [1, 4], [2, 5]]

Iterator.zipKeyed({
  a: [0, 1, 2],
  b: [3, 4, 5, 6],
  c: [7, 8, 9],
}, {
  mode: 'longest',
  padding: { c: 10 },
}).toArray();
/*
[
  { a: 0,         b: 3, c: 7  },
  { a: 1,         b: 4, c: 8  },
  { a: 2,         b: 5, c: 9  },
  { a: undefined, b: 6, c: 10 },
];
 */
Object.values / Object.entries
class Object {
  static entries(object: Object): Array<[string, mixed]>;
  static values(object: any): Array<mixed>;
}

CommonJS entry points:

core-js/proposals/object-values-entries
Object.fromEntries
class Object {
  static fromEntries(iterable: Iterable<[key, value]>): Object;
}

CommonJS entry points:

core-js/proposals/object-from-entries
Object.getOwnPropertyDescriptors
class Object {
  static getOwnPropertyDescriptors(object: any): { [property: PropertyKey]: PropertyDescriptor };
}

CommonJS entry points:

core-js/proposals/object-getownpropertydescriptors
Accessible Object.prototype.hasOwnProperty
class Object {
  static hasOwn(object: object, key: PropertyKey): boolean;
}

CommonJS entry points:

core-js/proposals/accessible-object-hasownproperty
String padding
class String {
  padStart(length: number, fillStr?: string = ' '): string;
  padEnd(length: number, fillStr?: string = ' '): string;
}

CommonJS entry points:

core-js/proposals/string-padding
String#matchAll.
class String {
  matchAll(regexp: RegExp): Iterator;
}

CommonJS entry points:

core-js/proposals/string-match-all
String#replaceAll
class String {
  replaceAll(searchValue: string | RegExp, replaceString: string | (searchValue, index, this) => string): string;
}

CommonJS entry points:

core-js/proposals/string-replace-all-stage-4
String.prototype.trimStart / String.prototype.trimEnd
class String {
  trimLeft(): string;
  trimRight(): string;
  trimStart(): string;
  trimEnd(): string;
}

CommonJS entry points:

core-js/proposals/string-left-right-trim
RegExp s (dotAll) flag
// patched for support `RegExp` dotAll (`s`) flag:
class RegExp {
  constructor(pattern: RegExp | string, flags?: string): RegExp;
  exec(): Array<string | undefined> | null;
  readonly attribute dotAll: boolean;
  readonly attribute flags: string;
}

CommonJS entry points:

core-js/proposals/regexp-dotall-flag
RegExp named capture groups
// patched for support `RegExp` named capture groups:
class RegExp {
  constructor(pattern: RegExp | string, flags?: string): RegExp;
  exec(): Array<string | undefined> | null;
  @@replace(string: string, replaceValue: Function | string): string;
}

CommonJS entry points:

core-js/proposals/regexp-named-groups
RegExp escaping
class RegExp {
  static escape(value: string): string
}

CommonJS entry points:

core-js/proposals/regexp-escaping
Promise.allSettled
class Promise {
  static allSettled(iterable: Iterable): Promise;
}

CommonJS entry points:

core-js/proposals/promise-all-settled
Promise.any
class AggregateError {
  constructor(errors: Iterable, message: string): AggregateError;
  errors: Array<any>;
  message: string;
}

class Promise {
  static any(promises: Iterable): Promise<any>;
}

CommonJS entry points:

core-js/proposals/promise-any
Promise.prototype.finally
class Promise {
  finally(onFinally: Function): Promise;
}

CommonJS entry points:

core-js/proposals/promise-finally
Promise.try
class Promise {
  static try(callbackfn: Function, ...args?: Array<mixed>): Promise;
}

CommonJS entry points:

core-js/proposals/promise-try
Promise.withResolvers
class Promise {
  static withResolvers(): { promise: Promise, resolve: function, reject: function };
}

CommonJS entry points:

core-js/proposals/promise-with-resolvers
Symbol.asyncIterator for asynchronous iteration
class Symbol {
  static asyncIterator: @@asyncIterator;
}

CommonJS entry points:

core-js/proposals/async-iteration
Symbol.prototype.description
class Symbol {
  readonly attribute description: string | void;
}

CommonJS entry points:

core-js/proposals/symbol-description
JSON.parse source text access
namespace JSON {
  isRawJSON(O: any): boolean;
  // patched for source support
  parse(text: string, reviver?: (this: any, key: string, value: any, context: { source?: string }) => any): any;
  rawJSON(text: any): RawJSON;
  // patched for `JSON.rawJSON` support
  stringify(value: any, replacer?: Array<string | number> | (this: any, key: string, value: any) => any, space?: string | number): string | void;
}

CommonJS entry points:

core-js/proposals/json-parse-with-source
Well-formed JSON.stringify
namespace JSON {
  stringify(target: any, replacer?: Function | Array, space?: string | number): string | void;
}

CommonJS entry points:

core-js/proposals/well-formed-stringify
Well-formed unicode strings
class String {
  isWellFormed(): boolean;
  toWellFormed(): string;
}

CommonJS entry points:

core-js/proposals/well-formed-unicode-strings
New Set methods
class Set {
  difference(other: SetLike<mixed>): Set;
  intersection(other: SetLike<mixed>): Set;
  isDisjointFrom(other: SetLike<mixed>): boolean;
  isSubsetOf(other: SetLike<mixed>): boolean;
  isSupersetOf(other: SetLike<mixed>): boolean;
  symmetricDifference(other: SetLike<mixed>): Set;
  union(other: SetLike<mixed>): Set;
}

CommonJS entry points:

core-js/proposals/set-methods-v2
Map upsert
class Map {
  getOrInsert(key: any, value: any): any;
  getOrInsertComputed(key: any, (key: any) => value: any): any;
}

class WeakMap {
  getOrInsert(key: object | symbol, value: any): any;
  getOrInsertComputed(key: object | symbol, (key: any) => value: any): any;
}

CommonJS entry points:

core-js/proposals/map-upsert-v4
Math.sumPrecise
namespace Math {
  sumPrecise(items: Iterable<number>): Number;
}

CommonJS entry points:

core-js/proposals/math-sum
Stage 3 proposals

CommonJS entry points:

core-js(-pure)/stage/3
Iterator chunking

Modules esnext.iterator.chunks and esnext.iterator.windows

class Iterator {
  chunks(chunkSize: number): Iterator<any>;
  windows(windowSize: number, undersized?: 'only-full' | 'allow-partial' | undefined): Iterator<any>;
}

CommonJS entry points:

core-js/proposals/iterator-chunking-v2
core-js(-pure)/actual|full/iterator/chunks
core-js(-pure)/actual|full/iterator/windows

Examples

const digits = () => [0, 1, 2, 3, 4, 5, 6, 7, 8, 9].values();

let chunks = Array.from(digits().chunks(2));  // [[0, 1], [2, 3], [4, 5], [6, 7], [8, 9]]

let windows = Array.from(digits().windows(2));  // [[0, 1], [1, 2], [2, 3], [3, 4], [4, 5], [5, 6], [6, 7], [7, 8], [8, 9]]

let windowsPartial = Array.from([0, 1].values().windows(3, 'allow-partial'));  // [[0, 1]]

let windowsFull = Array.from([0, 1].values().windows(3));  // []
Iterator includes

Module esnext.iterator.includes

class Iterator {
  includes(searchElement: any, skippedElements?: number): boolean;
}

CommonJS entry points:

core-js/proposals/iterator-includes
core-js(-pure)/actual|full/iterator/includes
[1, 2, 3].values().includes(2);     // => true
[1, 2, 3].values().includes(4);     // => false
[NaN].values().includes(NaN);       // => true
[1, 2, 3].values().includes(3, 2);  // => true
[1, 2, 3].values().includes(1, 1);  // => false
Iterator join

Module esnext.iterator.join

class Iterator {
  join(separator?: string): string;
}

CommonJS entry points:

core-js/proposals/iterator-join
core-js(-pure)/actual|full/iterator/join
[1, 2, 3].values().join();     // => '1,2,3'
[1, 2, 3].values().join('-');  // => '1-2-3'
[1, null, 3].values().join();  // => '1,,3'
Stage 2.7 proposals

CommonJS entry points:

core-js(-pure)/stage/2.7
Symbol.metadata for decorators metadata proposal

Modules esnext.symbol.metadata and esnext.function.metadata.

class Symbol {
  static metadata: @@metadata;
}

class Function {
  @@metadata: null;
}

CommonJS entry points:

core-js/proposals/decorator-metadata-v2
core-js(-pure)/actual|full/symbol/metadata
core-js(-pure)/actual|full/function/metadata
Stage 2 proposals

CommonJS entry points:

core-js(-pure)/stage/2
AsyncIterator helpers

Modules esnext.async-iterator.constructor, esnext.async-iterator.drop, esnext.async-iterator.every, esnext.async-iterator.filter, esnext.async-iterator.find, esnext.async-iterator.flat-map, esnext.async-iterator.for-each, esnext.async-iterator.from, esnext.async-iterator.map, esnext.async-iterator.reduce, esnext.async-iterator.some, esnext.async-iterator.take, esnext.async-iterator.to-array, , esnext.iterator.to-async

class Iterator {
  toAsync(): AsyncIterator<any>;
}

class AsyncIterator {
  static from(iterable: AsyncIterable<any> | Iterable<any> | AsyncIterator<any>): AsyncIterator<any>;
  drop(limit: uint): AsyncIterator<any>;
  every(async callbackfn: (value: any, counter: uint) => boolean): Promise<boolean>;
  filter(async callbackfn: (value: any, counter: uint) => boolean): AsyncIterator<any>;
  find(async callbackfn: (value: any, counter: uint) => boolean)): Promise<any>;
  flatMap(async callbackfn: (value: any, counter: uint) => AsyncIterable<any> | Iterable<any> | AsyncIterator<any>): AsyncIterator<any>;
  forEach(async callbackfn: (value: any, counter: uint) => void): Promise<void>;
  map(async callbackfn: (value: any, counter: uint) => any): AsyncIterator<any>;
  reduce(async callbackfn: (memo: any, value: any, counter: uint) => any, initialValue: any): Promise<any>;
  some(async callbackfn: (value: any, counter: uint) => boolean): Promise<boolean>;
  take(limit: uint): AsyncIterator<any>;
  toArray(): Promise<Array>;
  @@toStringTag: 'AsyncIterator'
}

CommonJS entry points:

core-js/proposals/async-iterator-helpers
core-js(-pure)/actual|full/async-iterator
core-js(-pure)/actual|full/async-iterator/drop
core-js(-pure)/actual|full/async-iterator/every
core-js(-pure)/actual|full/async-iterator/filter
core-js(-pure)/actual|full/async-iterator/find
core-js(-pure)/actual|full/async-iterator/flat-map
core-js(-pure)/actual|full/async-iterator/for-each
core-js(-pure)/actual|full/async-iterator/from
core-js(-pure)/actual|full/async-iterator/map
core-js(-pure)/actual|full/async-iterator/reduce
core-js(-pure)/actual|full/async-iterator/some
core-js(-pure)/actual|full/async-iterator/take
core-js(-pure)/actual|full/async-iterator/to-array
core-js(-pure)/actual|full/iterator/to-async

Examples:

await AsyncIterator.from([1, 2, 3, 4, 5, 6, 7])
  .drop(1)
  .take(5)
  .filter(it => it % 2)
  .map(it => it ** 2)
  .toArray(); // => [9, 25]

await [1, 2, 3].values().toAsync().map(async it => it ** 2).toArray(); // => [1, 4, 9]
Caveats:
  • For preventing prototypes pollution, in the pure version, new %AsyncIteratorPrototype% methods are not added to the real %AsyncIteratorPrototype%, they available only on wrappers - instead of [].values().toAsync().map(fn) use AsyncIterator.from([]).map(fn).
  • Now, we have access to the real %AsyncIteratorPrototype% only with usage async generators syntax. So, for compatibility of the library with old browsers, we should use Function constructor. However, that breaks compatibility with CSP. So, if you wanna use the real %AsyncIteratorPrototype%, you should set USE_FUNCTION_CONSTRUCTOR option in the core-js/configurator to true:
const configurator = require('core-js/configurator');

configurator({ USE_FUNCTION_CONSTRUCTOR: true });

require('core-js/actual/async-iterator');

(async function * () { /* empty */ })() instanceof AsyncIterator; // => true
  • As an alternative, you could pass to the core-js/configurator an object that will be considered as %AsyncIteratorPrototype%:
const configurator = require('core-js/configurator');

const { getPrototypeOf } = Object;

configurator({ AsyncIteratorPrototype: getPrototypeOf(getPrototypeOf(getPrototypeOf(async function * () { /* empty */ }()))) });

require('core-js/actual/async-iterator');

(async function * () { /* empty */ })() instanceof AsyncIterator; // => true
Iterator.range

Module esnext.iterator.range

class Iterator {
  range(start: number, end: number, options: { step: number = 1, inclusive: boolean = false } | step: number = 1): NumericRangeIterator;
  range(start: bigint, end: bigint | Infinity | -Infinity, options: { step: bigint = 1n, inclusive: boolean = false } | step: bigint = 1n): NumericRangeIterator;
}

CommonJS entry points:

core-js/proposals/number-range
core-js(-pure)/full/iterator/range

Example:

for (const i of Iterator.range(1, 10)) {
  console.log(i); // => 1, 2, 3, 4, 5, 6, 7, 8, 9
}

for (const i of Iterator.range(1, 10, { step: 3, inclusive: true })) {
  console.log(i); // => 1, 4, 7, 10
}
Array.isTemplateObject

Module esnext.array.is-template-object

class Array {
  static isTemplateObject(value: any): boolean
}

CommonJS entry points:

core-js/proposals/array-is-template-object
core-js(-pure)/full/array/is-template-object

Example:

console.log(Array.isTemplateObject((it => it)`qwe${ 123 }asd`)); // => true
Number.prototype.clamp

Module esnext.number.clamp

class Number {
  clamp(min: number, max: number): number;
}

CommonJS entry points:

core-js/proposals/math-clamp-v2
core-js(-pure)/full/number/clamp

Example:

5.0.clamp(0, 10); // => 5
-5.0.clamp(0, 10); // => 0
15.0.clamp(0, 10); // => 10
String.dedent

Module esnext.string.dedent

class String {
  static dedent(templateOrTag: { raw: Array<string> } | function, ...substitutions: Array<string>): string | function;
}

CommonJS entry points:

core-js/proposals/string-dedent
core-js(-pure)/full/string/dedent

Example:

const message = 42;

console.log(String.dedent`
  print('${ message }')
`); // => print('42')

String.dedent(console.log)`
  print('${ message }')
`; // => ["print('", "')", raw: Array(2)], 42
Symbol predicates

Modules esnext.symbol.is-registered-symbol, esnext.symbol.is-well-known-symbol.

class Symbol {
  static isRegisteredSymbol(value: any): boolean;
  static isWellKnownSymbol(value: any): boolean;
}

CommonJS entry points:

core-js/proposals/symbol-predicates-v2
core-js(-pure)/full/symbol/is-registered-symbol
core-js(-pure)/full/symbol/is-well-known-symbol

Example:

Symbol.isRegisteredSymbol(Symbol.for('key')); // => true
Symbol.isRegisteredSymbol(Symbol('key')); // => false

Symbol.isWellKnownSymbol(Symbol.iterator); // => true
Symbol.isWellKnownSymbol(Symbol('key')); // => false
Symbol.customMatcher for extractors

Module esnext.symbol.custom-matcher.

class Symbol {
  static customMatcher: @@customMatcher;
}

CommonJS entry points:

core-js/proposals/pattern-extractors
core-js(-pure)/full/symbol/custom-matcher
Stage 1 proposals

CommonJS entry points:

core-js(-pure)/stage/1
Observable

Modules esnext.observable and esnext.symbol.observable

class Observable {
  constructor(subscriber: Function): Observable;
  subscribe(observer: Function | { next?: Function, error?: Function, complete?: Function }): Subscription;
  @@observable(): this;
  static of(...items: Array<mixed>): Observable;
  static from(x: Observable | Iterable): Observable;
  static readonly attribute @@species: this;
}

class Symbol {
  static observable: @@observable;
}

CommonJS entry points:

core-js/proposals/observable
core-js(-pure)/full/observable
core-js(-pure)/full/symbol/observable

Example:

new Observable(observer => {
  observer.next('hello');
  observer.next('world');
  observer.complete();
}).subscribe({
  next(it) { console.log(it); },
  complete() { console.log('!'); },
});
New collections methods

Modules esnext.set.add-all, esnext.set.delete-all, esnext.set.every, esnext.set.filter, esnext.set.find, esnext.set.join, esnext.set.map, esnext.set.reduce, esnext.set.some, esnext.map.delete-all, esnext.map.every, esnext.map.filter, esnext.map.find, esnext.map.find-key, esnext.map.includes, esnext.map.key-by, esnext.map.key-of, esnext.map.map-keys, esnext.map.map-values, esnext.map.merge, esnext.map.reduce, esnext.map.some, esnext.map.update, esnext.weak-set.add-all, esnext.weak-set.delete-all, esnext.weak-map.delete-all

.of and .from methods on collection constructors

Modules esnext.set.of, esnext.set.from, esnext.map.of, esnext.map.from, esnext.weak-set.of, esnext.weak-set.from, esnext.weak-map.of, esnext.weak-map.from

class Set {
  static of(...args: Array<mixed>): Set;
  static from(iterable: Iterable<mixed>, mapFn?: (value: any, index: number) => any, thisArg?: any): Set;
  addAll(...args: Array<mixed>): this;
  deleteAll(...args: Array<mixed>): boolean;
  every(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): boolean;
  filter(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): Set;
  find(callbackfn: (value: any, key: any, target: any) => boolean), thisArg?: any): any;
  join(separator: string = ','): string;
  map(callbackfn: (value: any, key: any, target: any) => any, thisArg?: any): Set;
  reduce(callbackfn: (memo: any, value: any, key: any, target: any) => any, initialValue?: any): any;
  some(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): boolean;
}

class Map {
  static of(...args: Array<[key, value]>): Map;
  static from(iterable: Iterable<mixed>, mapFn?: (value: any, index: number) => [key: any, value: any], thisArg?: any): Map;
  static keyBy(iterable: Iterable<mixed>, callbackfn?: (value: any) => any): Map;
  deleteAll(...args: Array<mixed>): boolean;
  every(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): boolean;
  filter(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): Map;
  find(callbackfn: (value: any, key: any, target: any) => boolean), thisArg?: any): any;
  findKey(callbackfn: (value: any, key: any, target: any) => boolean), thisArg?: any): any;
  includes(searchElement: any): boolean;
  keyOf(searchElement: any): any;
  mapKeys(mapFn: (value: any, index: number, target: any) => any, thisArg?: any): Map;
  mapValues(mapFn: (value: any, index: number, target: any) => any, thisArg?: any): Map;
  merge(...iterables: Array<Iterable>): this;
  reduce(callbackfn: (memo: any, value: any, key: any, target: any) => any, initialValue?: any): any;
  some(callbackfn: (value: any, key: any, target: any) => boolean, thisArg?: any): boolean;
  update(key: any, callbackfn: (value: any, key: any, target: any) => any, thunk?: (key: any, target: any) => any): this;
}

class WeakSet {
  static of(...args: Array<mixed>): WeakSet;
  static from(iterable: Iterable<mixed>, mapFn?: (value: any, index: number) => Object, thisArg?: any): WeakSet;
  addAll(...args: Array<mixed>): this;
  deleteAll(...args: Array<mixed>): boolean;
}

class WeakMap {
  static of(...args: Array<[key, value]>): WeakMap;
  static from(iterable: Iterable<mixed>, mapFn?: (value: any, index: number) => [key: Object, value: any], thisArg?: any): WeakMap;
  deleteAll(...args: Array<mixed>): boolean;
}

CommonJS entry points:

core-js/proposals/collection-methods
core-js/proposals/collection-of-from
core-js(-pure)/full/set/add-all
core-js(-pure)/full/set/delete-all
core-js(-pure)/full/set/every
core-js(-pure)/full/set/filter
core-js(-pure)/full/set/find
core-js(-pure)/full/set/from
core-js(-pure)/full/set/join
core-js(-pure)/full/set/map
core-js(-pure)/full/set/of
core-js(-pure)/full/set/reduce
core-js(-pure)/full/set/some
core-js(-pure)/full/map/delete-all
core-js(-pure)/full/map/every
core-js(-pure)/full/map/filter
core-js(-pure)/full/map/find
core-js(-pure)/full/map/find-key
core-js(-pure)/full/map/from
core-js(-pure)/full/map/includes
core-js(-pure)/full/map/key-by
core-js(-pure)/full/map/key-of
core-js(-pure)/full/map/map-keys
core-js(-pure)/full/map/map-values
core-js(-pure)/full/map/merge
core-js(-pure)/full/map/of
core-js(-pure)/full/map/reduce
core-js(-pure)/full/map/some
core-js(-pure)/full/map/update
core-js(-pure)/full/weak-set/add-all
core-js(-pure)/full/weak-set/delete-all
core-js(-pure)/full/weak-set/of
core-js(-pure)/full/weak-set/from
core-js(-pure)/full/weak-map/delete-all
core-js(-pure)/full/weak-map/of
core-js(-pure)/full/weak-map/from

.of / .from examples:

Set.of(1, 2, 3, 2, 1); // => Set {1, 2, 3}

Map.from([[1, 2], [3, 4]], ([key, value]) => [key ** 2, value ** 2]); // => Map { 1: 4, 9: 16 }
compositeKey and compositeSymbol

Modules esnext.composite-key and esnext.composite-symbol

function compositeKey(...args: Array<mixed>): object;
function compositeSymbol(...args: Array<mixed>): symbol;

CommonJS entry points:

core-js/proposals/keys-composition
core-js(-pure)/full/composite-key
core-js(-pure)/full/composite-symbol

Examples:

// returns a symbol
const symbol = compositeSymbol({});
console.log(typeof symbol); // => 'symbol'

// works the same, but returns a plain frozen object without a prototype
const key = compositeKey({});
console.log(typeof key); // => 'object'
console.log({}.toString.call(key)); // => '[object Object]'
console.log(Object.getPrototypeOf(key)); // => null
console.log(Object.isFrozen(key)); // => true

const a = ['a'];
const b = ['b'];
const c = ['c'];

/* eslint-disable no-self-compare -- example */
console.log(compositeSymbol(a) === compositeSymbol(a)); // => true
console.log(compositeSymbol(a) !== compositeSymbol(['a'])); // => true
console.log(compositeSymbol(a, 1) === compositeSymbol(a, 1)); // => true
console.log(compositeSymbol(a, b) !== compositeSymbol(b, a)); // => true
console.log(compositeSymbol(a, b, c) === compositeSymbol(a, b, c)); // => true
console.log(compositeSymbol(1, a) === compositeSymbol(1, a)); // => true
console.log(compositeSymbol(1, a, 2, b) === compositeSymbol(1, a, 2, b)); // => true
console.log(compositeSymbol(a, a) === compositeSymbol(a, a)); // => true
Array filtering

Modules esnext.array.filter-reject and esnext.typed-array.filter-reject.

class Array {
  filterReject(callbackfn: (value: any, index: number, target: any) => boolean, thisArg?: any): Array<mixed>;
}

class %TypedArray% {
  filterReject(callbackfn: (value: number, index: number, target: %TypedArray%) => boolean, thisArg?: any): %TypedArray%;
}

CommonJS entry points:

core-js/proposals/array-filtering-stage-1
core-js(-pure)/full/array(/virtual)/filter-reject
core-js/full/typed-array/filter-reject

Examples:

[1, 2, 3, 4, 5].filterReject(it => it % 2); // => [2, 4]
Array deduplication

Modules esnext.array.unique-by and esnext.typed-array.unique-by

class Array {
  uniqueBy(resolver?: (item: any) => any): Array<mixed>;
}

class %TypedArray% {
  uniqueBy(resolver?: (item: any) => any): %TypedArray%;;
}

CommonJS entry points:

core-js/proposals/array-unique
core-js(-pure)/full/array(/virtual)/unique-by
core-js/full/typed-array/unique-by

Examples:

[1, 2, 3, 2, 1].uniqueBy(); // [1, 2, 3]

[
  { id: 1, uid: 10000 },
  { id: 2, uid: 10000 },
  { id: 3, uid: 10001 },
].uniqueBy(it => it.uid);    // => [{ id: 1, uid: 10000 }, { id: 3, uid: 10001 }]
DataView get / set Uint8Clamped methods

Modules esnext.data-view.get-uint8-clamped and esnext.data-view.set-uint8-clamped

class DataView {
  getUint8Clamped(offset: any): uint8
  setUint8Clamped(offset: any, value: any): void;
}

CommonJS entry points:

core-js/proposals/data-view-get-set-uint8-clamped
core-js/full/dataview/get-uint8-clamped
core-js/full/dataview/set-uint8-clamped

Examples:

const view = new DataView(new ArrayBuffer(1));
view.setUint8Clamped(0, 100500);
console.log(view.getUint8Clamped(0)); // => 255
Number.fromString

Module esnext.number.from-string

class Number {
  fromString(string: string, radix: number): number;
}

CommonJS entry points:

core-js/proposals/number-from-string
core-js(-pure)/full/number/from-string
String.cooked

Module esnext.string.cooked

class String {
  static cooked(template: Array<string>, ...substitutions: Array<string>): string;
}

CommonJS entry points:

core-js/proposals/string-cooked
core-js(-pure)/full/string/cooked

Example:

function safePath(strings, ...subs) {
  return String.cooked(strings, ...subs.map(sub => encodeURIComponent(sub)));
}

let id = 'spottie?';

safePath`/cats/${ id }`; // => /cats/spottie%3F
String.prototype.codePoints

Module esnext.string.code-points

class String {
  codePoints(): Iterator<{ codePoint, position }>;
}

CommonJS entry points:

core-js/proposals/string-code-points
core-js(-pure)/full/string/code-points

Example:

for (let { codePoint, position } of 'qwe'.codePoints()) {
  console.log(codePoint); // => 113, 119, 101
  console.log(position);  // => 0, 1, 2
}
Symbol.customMatcher for pattern matching

Module esnext.symbol.custom-matcher.

class Symbol {
  static customMatcher: @@customMatcher;
}

CommonJS entry points:

core-js/proposals/pattern-matching-v2
core-js(-pure)/full/symbol/custom-matcher
Stage 0 proposals

CommonJS entry points:

core-js(-pure)/stage/0
Function.prototype.demethodize

Module esnext.function.demethodize

class Function {
  demethodize(): Function;
}

CommonJS entry points:

core-js/proposals/function-demethodize
core-js(-pure)/full/function/demethodize
core-js(-pure)/full/function/virtual/demethodize

Examples:

const slice = Array.prototype.slice.demethodize();

slice([1, 2, 3], 1); // => [2, 3]
Function.{ isCallable, isConstructor }

Modules esnext.function.is-callable, esnext.function.is-constructor

class Function {
  static isCallable(value: any): boolean;
  static isConstructor(value: any): boolean;
}

CommonJS entry points:

core-js/proposals/function-is-callable-is-constructor
core-js(-pure)/full/function/is-callable
core-js(-pure)/full/function/is-constructor

Examples:

/* eslint-disable prefer-arrow-callback -- example */
Function.isCallable(null);                        // => false
Function.isCallable({});                          // => false
Function.isCallable(function () { /* empty */ }); // => true
Function.isCallable(() => { /* empty */ });       // => true
Function.isCallable(class { /* empty */ });       // => false

Function.isConstructor(null);                        // => false
Function.isConstructor({});                          // => false
Function.isConstructor(function () { /* empty */ }); // => true
Function.isConstructor(() => { /* empty */ });       // => false
Function.isConstructor(class { /* empty */ });       // => true
Pre-stage 0 proposals

CommonJS entry points:

core-js(-pure)/stage/pre
Reflect metadata

Modules esnext.reflect.define-metadata, esnext.reflect.delete-metadata, esnext.reflect.get-metadata, esnext.reflect.get-metadata-keys, esnext.reflect.get-own-metadata, esnext.reflect.get-own-metadata-keys, esnext.reflect.has-metadata, esnext.reflect.has-own-metadata and esnext.reflect.metadata.

namespace Reflect {
  defineMetadata(metadataKey: any, metadataValue: any, target: Object, propertyKey?: PropertyKey): void;
  getMetadata(metadataKey: any, target: Object, propertyKey?: PropertyKey): any;
  getOwnMetadata(metadataKey: any, target: Object, propertyKey?: PropertyKey): any;
  hasMetadata(metadataKey: any, target: Object, propertyKey?: PropertyKey): boolean;
  hasOwnMetadata(metadataKey: any, target: Object, propertyKey?: PropertyKey): boolean;
  deleteMetadata(metadataKey: any, target: Object, propertyKey?: PropertyKey): boolean;
  getMetadataKeys(target: Object, propertyKey?: PropertyKey): Array<mixed>;
  getOwnMetadataKeys(target: Object, propertyKey?: PropertyKey): Array<mixed>;
  metadata(metadataKey: any, metadataValue: any): decorator(target: Object, targetKey?: PropertyKey) => void;
}

CommonJS entry points:

core-js/proposals/reflect-metadata
core-js(-pure)/full/reflect/define-metadata
core-js(-pure)/full/reflect/delete-metadata
core-js(-pure)/full/reflect/get-metadata
core-js(-pure)/full/reflect/get-metadata-keys
core-js(-pure)/full/reflect/get-own-metadata
core-js(-pure)/full/reflect/get-own-metadata-keys
core-js(-pure)/full/reflect/has-metadata
core-js(-pure)/full/reflect/has-own-metadata
core-js(-pure)/full/reflect/metadata

Examples:

let object = {};
Reflect.defineMetadata('foo', 'bar', object);
Reflect.ownKeys(object);               // => []
Reflect.getOwnMetadataKeys(object);    // => ['foo']
Reflect.getOwnMetadata('foo', object); // => 'bar'
Web standards
self

Spec, module web.self

getter self: GlobalThisValue;

CommonJS entry points:

core-js(-pure)/stable|actual|full/self

Examples:

// eslint-disable-next-line no-restricted-globals -- example
self.Array === Array; // => true
structuredClone

Spec, module web.structured-clone

function structuredClone(value: Serializable, { transfer?: Sequence<Transferable> }): any;

CommonJS entry points:

core-js(-pure)/stable|actual|full/structured-clone

Examples:

const structured = [{ a: 42 }];
const sclone = structuredClone(structured);
console.log(sclone);                      // => [{ a: 42 }]
console.log(structured !== sclone);       // => true
console.log(structured[0] !== sclone[0]); // => true

const circular = {};
circular.circular = circular;
const cclone = structuredClone(circular);
console.log(cclone.circular === cclone);  // => true

structuredClone(42);                                            // => 42
structuredClone({ x: 42 });                                     // => { x: 42 }
structuredClone([1, 2, 3]);                                     // => [1, 2, 3]
structuredClone(new Set([1, 2, 3]));                            // => Set{ 1, 2, 3 }
structuredClone(new Map([['a', 1], ['b', 2]]));                 // => Map{ a: 1, b: 2 }
structuredClone(new Int8Array([1, 2, 3]));                      // => new Int8Array([1, 2, 3])
structuredClone(new AggregateError([1, 2, 3], 'message'));      // => new AggregateError([1, 2, 3], 'message'))
structuredClone(new TypeError('message', { cause: 42 }));       // => new TypeError('message', { cause: 42 })
structuredClone(new DOMException('message', 'DataCloneError')); // => new DOMException('message', 'DataCloneError')
structuredClone(document.getElementById('myfileinput'));        // => new FileList
structuredClone(new DOMPoint(1, 2, 3, 4));                      // => new DOMPoint(1, 2, 3, 4)
structuredClone(new Blob(['test']));                            // => new Blob(['test'])
structuredClone(new ImageData(8, 8));                           // => new ImageData(8, 8)
// etc.

structuredClone(new WeakMap()); // => DataCloneError on non-serializable types

  • Many platform types cannot be transferred in most engines since we have no way to polyfill this behavior, however .transfer option works for some platform types. I recommend avoiding this option.
  • Some specific platform types can't be cloned in old engines. Mainly it's very specific types or very old engines, but here are some exceptions. For example, we have no sync way to clone ImageBitmap in Safari 14.0- or Firefox 83-, so it's recommended to look to the polyfill source if you wanna clone something specific.
Base64 utility methods

Specification, MDN. Modules web.atob, web.btoa.

function atob(data: string): string;
function btoa(data: string): string;

CommonJS entry points:

core-js(-pure)/stable|actual|full/atob
core-js(-pure)/stable|actual|full/btoa

Examples:

btoa('hi, core-js');      // => 'aGksIGNvcmUtanM='
atob('aGksIGNvcmUtanM='); // => 'hi, core-js'
setTimeout and setInterval

Module web.timers. Additional arguments fix for IE9-.

function setTimeout(callback: any, time: any, ...args: Array<mixed>): number;
function setInterval(callback: any, time: any, ...args: Array<mixed>): number;

CommonJS entry points:

core-js(-pure)/stable|actual|full/set-timeout
core-js(-pure)/stable|actual|full/set-interval
// Before:
setTimeout(log.bind(null, 42), 1000);
// After:
setTimeout(log, 1000, 42);
setImmediate

Module web.immediate. setImmediate polyfill.

function setImmediate(callback: any, ...args: Array<mixed>): number;
function clearImmediate(id: number): void;

CommonJS entry points:

core-js(-pure)/stable|actual|full/set-immediate
core-js(-pure)/stable|actual|full/clear-immediate

Examples:

setImmediate((arg1, arg2) => {
  console.log(arg1, arg2); // => Message will be displayed with minimum delay
}, 'Message will be displayed', 'with minimum delay');

clearImmediate(setImmediate(() => {
  console.log('Message will not be displayed');
}));
queueMicrotask

Spec, module web.queue-microtask

function queueMicrotask(fn: Function): void;

CommonJS entry points:

core-js(-pure)/stable|actual|full/queue-microtask

Examples:

queueMicrotask(() => console.log('called as microtask'));
URL and URLSearchParams

URL standard implementation. Modules web.url, web.url.can-parse, web.url.parse, web.url.to-json, web.url-search-params, web.url-search-params.delete, web.url-search-params.has, web.url-search-params.size.

class URL {
  constructor(url: string, base?: string);
  attribute href: string;
  readonly attribute origin: string;
  attribute protocol: string;
  attribute username: string;
  attribute password: string;
  attribute host: string;
  attribute hostname: string;
  attribute port: string;
  attribute pathname: string;
  attribute search: string;
  readonly attribute searchParams: URLSearchParams;
  attribute hash: string;
  toJSON(): string;
  toString(): string;
  static canParse(url: string, base?: string): boolean;
  static parse(url: string, base?: string): URL | null;
}

class URLSearchParams {
  constructor(params?: string | Iterable<[key, value]> | Object);
  append(name: string, value: string): void;
  delete(name: string, value?: string): void;
  get(name: string): string | void;
  getAll(name: string): Array<string>;
  has(name: string, value?: string): boolean;
  set(name: string, value: string): void;
  sort(): void;
  toString(): string;
  forEach(callbackfn: (value: any, index: number, target: any) => void, thisArg: any): void;
  entries(): Iterator<[key, value]>;
  keys(): Iterator<key>;
  values(): Iterator<value>;
  @@iterator(): Iterator<[key, value]>;
  readonly attribute size: number;
}

CommonJS entry points:

core-js/proposals/url
core-js(-pure)/stable|actual|full/url
core-js(-pure)/stable|actual|full/url/can-parse
core-js/stable|actual|full/url/to-json
core-js(-pure)/stable|actual|full/url-search-params

Examples:

URL.canParse('https://login:password@example.com:8080/?a=1&b=2&a=3&c=4#fragment'); // => true
URL.canParse('https'); // => false

URL.parse('https://login:password@example.com:8080/?a=1&b=2&a=3&c=4#fragment'); // => url
URL.parse('https'); // => null

const url = new URL('https://login:password@example.com:8080/foo/bar?a=1&b=2&a=3#fragment');

console.log(url.href);       // => 'https://login:password@example.com:8080/foo/bar?a=1&b=2&a=3#fragment'
console.log(url.origin);     // => 'https://example.com:8080'
console.log(url.protocol);   // => 'https:'
console.log(url.username);   // => 'login'
console.log(url.password);   // => 'password'
console.log(url.host);       // => 'example.com:8080'
console.log(url.hostname);   // => 'example.com'
console.log(url.port);       // => '8080'
console.log(url.pathname);   // => '/foo/bar'
console.log(url.search);     // => '?a=1&b=2&a=3'
console.log(url.hash);       // => '#fragment'
console.log(url.toJSON());   // => 'https://login:password@example.com:8080/foo/bar?a=1&b=2&a=3#fragment'
console.log(url.toString()); // => 'https://login:password@example.com:8080/foo/bar?a=1&b=2&a=3#fragment'

for (let [key, value] of url.searchParams) {
  console.log(key);   // => 'a', 'b', 'a'
  console.log(value); // => '1', '2', '3'
}

url.pathname = '';
url.searchParams.append('c', 4);

console.log(url.search); // => '?a=1&b=2&a=3&c=4'
console.log(url.href);   // => 'https://login:password@example.com:8080/?a=1&b=2&a=3&c=4#fragment'

const params = new URLSearchParams('?a=1&b=2&a=3');

params.append('c', 4);
params.append('a', 2);
params.delete('a', 1);
params.sort();

console.log(params.size); // => 4

for (let [key, value] of params) {
  console.log(key);   // => 'a', 'a', 'b', 'c'
  console.log(value); // => '3', '2', '2', '4'
}

console.log(params.has('a')); // => true
console.log(params.has('a', 3)); // => true
console.log(params.has('a', 4)); // => false

console.log(params.toString()); // => 'a=3&a=2&b=2&c=4'

  • IE8 does not support setters, so they do not work on URL instances. However, URL constructor can be used for basic URL parsing.
  • Legacy encodings in a search query are not supported. Also, core-js implementation has some other encoding-related issues.
  • URL implementations from all of the popular browsers have significantly more problems than core-js, however, replacing all of them does not look like a good idea. You can customize the aggressiveness of polyfill by your requirements.
DOMException:

The specification. Modules web.dom-exception.constructor, web.dom-exception.stack, web.dom-exception.to-string-tag.

class DOMException {
  constructor(message: string, name?: string);
  readonly attribute name: string;
  readonly attribute message: string;
  readonly attribute code: string;
  attribute stack: string; // in engines that should have it
  @@toStringTag: 'DOMException';
}

CommonJS entry points:

core-js(-pure)/stable|actual|full/dom-exception
core-js(-pure)/stable|actual|full/dom-exception/constructor
core-js/stable|actual|full/dom-exception/to-string-tag

Examples:

const exception = new DOMException('error', 'DataCloneError');
console.log(exception.name);                            // => 'DataCloneError'
console.log(exception.message);                         // => 'error'
console.log(exception.code);                            // => 25
console.log(typeof exception.stack);                    // => 'string'
console.log(exception instanceof DOMException);         // => true
console.log(exception instanceof Error);                // => true
console.log(exception.toString());                      // => 'DataCloneError: error'
console.log(Object.prototype.toString.call(exception)); // => '[object DOMException]'
Iterable DOM collections

Some DOM collections should have iterable interface or should be inherited from Array. That means they should have forEach, keys, values, entries and @@iterator methods for iteration. So add them. Modules web.dom-collections.iterator and web.dom-collections.for-each.

class [
  CSSRuleList,
  CSSStyleDeclaration,
  CSSValueList,
  ClientRectList,
  DOMRectList,
  DOMStringList,
  DataTransferItemList,
  FileList,
  HTMLAllCollection,
  HTMLCollection,
  HTMLFormElement,
  HTMLSelectElement,
  MediaList,
  MimeTypeArray,
  NamedNodeMap,
  PaintRequestList,
  Plugin,
  PluginArray,
  SVGLengthList,
  SVGNumberList,
  SVGPathSegList,
  SVGPointList,
  SVGStringList,
  SVGTransformList,
  SourceBufferList,
  StyleSheetList,
  TextTrackCueList,
  TextTrackList,
  TouchList,
] {
  @@iterator(): Iterator<value>;
}

class [DOMTokenList, NodeList] {
  forEach(callbackfn: (value: any, index: number, target: any) => void, thisArg: any): void;
  entries(): Iterator<[key, value]>;
  keys(): Iterator<key>;
  values(): Iterator<value>;
  @@iterator(): Iterator<value>;
}

CommonJS entry points:

core-js(-pure)/stable|actual|full/dom-collections/iterator
core-js/stable|actual|full/dom-collections/for-each

Examples:

for (let { id } of document.querySelectorAll('*')) {
  if (id) console.log(id);
}

for (let [index, { id }] of document.querySelectorAll('*').entries()) {
  if (id) console.log(index, id);
}

document.querySelectorAll('*').forEach(it => console.log(it.id));
Iteration helpers

Helpers for checking iterability / get iterator in the pure version or, for example, for arguments object:

function isIterable(value: any): boolean;
function getIterator(value: any): Object;
function getIteratorMethod(value: any): Function | void;

CommonJS entry points:

core-js-pure/es|stable|actual|full/is-iterable
core-js-pure/es|stable|actual|full/get-iterator
core-js-pure/es|stable|actual|full/get-iterator-method

Examples:

import isIterable from 'core-js-pure/actual/is-iterable';
import getIterator from 'core-js-pure/actual/get-iterator';
import getIteratorMethod from 'core-js-pure/actual/get-iterator-method';

let list = (function () {
  // eslint-disable-next-line prefer-rest-params -- example
  return arguments;
})(1, 2, 3);

console.log(isIterable(list)); // true;

let iterator = getIterator(list);
console.log(iterator.next().value); // 1
console.log(iterator.next().value); // 2
console.log(iterator.next().value); // 3
console.log(iterator.next().value); // undefined

getIterator({}); // TypeError: [object Object] is not iterable!

let method = getIteratorMethod(list);
console.log(typeof method);         // 'function'
iterator = method.call(list);
console.log(iterator.next().value); // 1
console.log(iterator.next().value); // 2
console.log(iterator.next().value); // 3
console.log(iterator.next().value); // undefined

console.log(getIteratorMethod({})); // undefined

Missing polyfills

  • ES BigInt can't be polyfilled since it requires changes in the behavior of operators, you can find more info here. You could try to use JSBI.
  • ES Proxy can't be polyfilled, you can try to use proxy-polyfill which provides a very small subset of features.
  • ES String#normalize is not a very useful feature, but this polyfill will be very large. If you need it, you can use unorm.
  • ECMA-402 Intl is missed because of the size. You can use those polyfills.
  • window.fetch is not a cross-platform feature, in some environments, it makes no sense. For this reason, I don't think it should be in core-js. Looking at a large number of requests it might be added in the future. Now you can use, for example, this polyfill.
)); // => '\\x310\\
ECMAScript: Number

Module __INLINE_CODE_329__. __INLINE_CODE_330__ constructor support binary and octal literals, example:

__CODE_BLOCK_43__

Modules __INLINE_CODE_331__, __INLINE_CODE_332__, __INLINE_CODE_333__, __INLINE_CODE_334__, __INLINE_CODE_335__, __INLINE_CODE_336__, __INLINE_CODE_337__, __INLINE_CODE_338__, __INLINE_CODE_339__, __INLINE_CODE_340__, __INLINE_CODE_341__, __INLINE_CODE_342__, __INLINE_CODE_343__, __INLINE_CODE_344__.

__CODE_BLOCK_44__

CommonJS entry points:

__CODE_BLOCK_45__
ECMAScript: Math

Modules __INLINE_CODE_345__, __INLINE_CODE_346__, __INLINE_CODE_347__, __INLINE_CODE_348__, __INLINE_CODE_349__, __INLINE_CODE_350__, __INLINE_CODE_351__, __INLINE_CODE_352__, __INLINE_CODE_353__, __INLINE_CODE_354__, __INLINE_CODE_355__, __INLINE_CODE_356__, __INLINE_CODE_357__, __INLINE_CODE_358__, __INLINE_CODE_359__, __INLINE_CODE_360__, __INLINE_CODE_361__, __INLINE_CODE_362__, __INLINE_CODE_363__.

__CODE_BLOCK_46__

CommonJS entry points:

__CODE_BLOCK_47__

Examples:

__CODE_BLOCK_48__
ECMAScript: Date

Modules __INLINE_CODE_364__, ES5 features with fixes: __INLINE_CODE_365__, __INLINE_CODE_366__, __INLINE_CODE_367__ and __INLINE_CODE_368__.

Annex B methods. Modules __INLINE_CODE_369__, __INLINE_CODE_370__ and __INLINE_CODE_371__.

__CODE_BLOCK_49__

CommonJS entry points:

__CODE_BLOCK_50__

Example:

__CODE_BLOCK_51__
ECMAScript: Promise

Modules __INLINE_CODE_372__, __INLINE_CODE_373__, __INLINE_CODE_374__, __INLINE_CODE_375__, __INLINE_CODE_376__ and __INLINE_CODE_377__.

__CODE_BLOCK_52__

CommonJS entry points:

__CODE_BLOCK_53__

Basic example:

__CODE_BLOCK_54__

__INLINE_CODE_378__ and __INLINE_CODE_379__ example:

__CODE_BLOCK_55__

__INLINE_CODE_380__ example:

__CODE_BLOCK_56__

__INLINE_CODE_381__ example:

__CODE_BLOCK_57__

__INLINE_CODE_382__ example:

__CODE_BLOCK_58__

__INLINE_CODE_383__ example:

__CODE_BLOCK_59__

__INLINE_CODE_384__ example:

__CODE_BLOCK_60__

__INLINE_CODE_385__ examples:

__CODE_BLOCK_61__

__INLINE_CODE_386__ examples:

__CODE_BLOCK_62__

Example with async functions:

__CODE_BLOCK_63__
Unhandled rejection tracking

In Node.js, like in native implementation, available events __INLINE_CODE_387__ and __INLINE_CODE_388__:

__CODE_BLOCK_64__

In a browser on rejection, by default, you will see notify in the console, or you can add a custom handler and a handler on handling unhandled, example:

__CODE_BLOCK_65__
ECMAScript: Symbol

Modules __INLINE_CODE_389__, __INLINE_CODE_390__, __INLINE_CODE_391__, __INLINE_CODE_392__, __INLINE_CODE_393__, __INLINE_CODE_394__, __INLINE_CODE_395__, __INLINE_CODE_396__, __INLINE_CODE_397__, __INLINE_CODE_398__, __INLINE_CODE_399__, __INLINE_CODE_400__, __INLINE_CODE_401__, __INLINE_CODE_402__, __INLINE_CODE_403__, __INLINE_CODE_404__, __INLINE_CODE_405__.

__CODE_BLOCK_66__

Also wrapped some methods for correct work with __INLINE_CODE_406__ polyfill.

__CODE_BLOCK_67__

CommonJS entry points:

__CODE_BLOCK_68__

Basic example:

__CODE_BLOCK_69__

__INLINE_CODE_407__ & __INLINE_CODE_408__ example:

__CODE_BLOCK_70__

Example with methods for getting own object keys:

__CODE_BLOCK_71__

Symbol#description getter:

__CODE_BLOCK_72__
Caveats when using __INLINE_CODE_409__ polyfill:
  • We can't add a new primitive type, __INLINE_CODE_410__ returns an object.
  • __INLINE_CODE_411__ and __INLINE_CODE_412__ can't be polyfilled cross-realm.
  • By default, to hide the keys, __INLINE_CODE_413__ polyfill defines a setter in __INLINE_CODE_414__. For this reason, an uncontrolled creation of symbols can cause a memory leak and the __INLINE_CODE_415__ operator is not working correctly with __INLINE_CODE_416__ polyfill: __INLINE_CODE_417__.

You can disable defining setters in __INLINE_CODE_418__. Example:

__CODE_BLOCK_73__
  • Currently, __INLINE_CODE_419__ does not add setters to __INLINE_CODE_420__ for well-known symbols for correct work something like __INLINE_CODE_421__. It can cause problems with their enumerability.
  • Some problems are possible with environment exotic objects (for example, IE __INLINE_CODE_422__).
ECMAScript: Collections

__INLINE_CODE_423__ uses native collections in most cases, just fixes methods / constructor, if it's required, and in the old environment uses fast polyfill (O(1) lookup).

Map

Modules __INLINE_CODE_424__, __INLINE_CODE_425__, __INLINE_CODE_426__ and __INLINE_CODE_427__.

__CODE_BLOCK_74__

CommonJS entry points:

__CODE_BLOCK_75__

Examples:

__CODE_BLOCK_76__
Set

Modules __INLINE_CODE_428__, __INLINE_CODE_429__, __INLINE_CODE_430__, __INLINE_CODE_431__, __INLINE_CODE_432__, __INLINE_CODE_433__, __INLINE_CODE_434__, __INLINE_CODE_435__

__CODE_BLOCK_77__

CommonJS entry points:

__CODE_BLOCK_78__

Examples:

__CODE_BLOCK_79__
WeakMap

Module __INLINE_CODE_436__, __INLINE_CODE_437__ and __INLINE_CODE_438__.

__CODE_BLOCK_80__

CommonJS entry points:

__CODE_BLOCK_81__

Examples:

__CODE_BLOCK_82__
WeakSet

Module __INLINE_CODE_439__.

__CODE_BLOCK_83__

CommonJS entry points:

__CODE_BLOCK_84__

Examples:

__CODE_BLOCK_85__

  • Weak-collections polyfill stores values as hidden properties of keys. It works correctly and does not leak in most cases. However, it is desirable to store a collection longer than its keys.
  • Native symbols as __INLINE_CODE_440__ keys can't be properly polyfilled without memory leaks.
ECMAScript: Explicit Resource Management

This is only built-ins for this Explicit Resource Management, __INLINE_CODE_441__ syntax support requires transpiler support.

Modules __INLINE_CODE_442__, __INLINE_CODE_443__, __INLINE_CODE_444__, __INLINE_CODE_445__.

__CODE_BLOCK_86__

CommonJS entry points:

__CODE_BLOCK_87__
ECMAScript: Typed Arrays

Implementations and fixes for __INLINE_CODE_446__, __INLINE_CODE_447__, Typed Arrays constructors, static and prototype methods. Typed arrays work only in environments with support descriptors (IE9+), __INLINE_CODE_448__ and __INLINE_CODE_449__ should work anywhere.

Modules __INLINE_CODE_450__, __INLINE_CODE_451__, __INLINE_CODE_452__, __INLINE_CODE_453__, __INLINE_CODE_454__, __INLINE_CODE_455__ __INLINE_CODE_456__, __INLINE_CODE_457__, __INLINE_CODE_458__, __INLINE_CODE_459__, __INLINE_CODE_460__, __INLINE_CODE_461__, __INLINE_CODE_462__, __INLINE_CODE_463__, __INLINE_CODE_464__, __INLINE_CODE_465__, __INLINE_CODE_466__, __INLINE_CODE_467__, __INLINE_CODE_468__, __INLINE_CODE_469__, __INLINE_CODE_470__, __INLINE_CODE_471__, __INLINE_CODE_472__, __INLINE_CODE_473__, __INLINE_CODE_474__, __INLINE_CODE_475__, __INLINE_CODE_476__, __INLINE_CODE_477__, __INLINE_CODE_478__, __INLINE_CODE_479__, __INLINE_CODE_480__, __INLINE_CODE_481__, __INLINE_CODE_482__, __INLINE_CODE_483__, __INLINE_CODE_484__, __INLINE_CODE_485__, __INLINE_CODE_486__, __INLINE_CODE_487__, __INLINE_CODE_488__, __INLINE_CODE_489__, __INLINE_CODE_490__, __INLINE_CODE_491__, __INLINE_CODE_492__, __INLINE_CODE_493__, __INLINE_CODE_494__, __INLINE_CODE_495__, __INLINE_CODE_496__, __INLINE_CODE_497__, __INLINE_CODE_498__, __INLINE_CODE_499__, __INLINE_CODE_500__, __INLINE_CODE_501__, __INLINE_CODE_502__.

__CODE_BLOCK_88__

CommonJS entry points:

__CODE_BLOCK_89__

Examples:

__CODE_BLOCK_90__

Base64 / Hex examples:

__CODE_BLOCK_91__

  • Polyfills of Typed Arrays constructors work completely how they should work by the spec. Still, because of the internal usage of getters / setters on each instance, they are slow and consume significant memory. However, polyfills of Typed Arrays constructors are required mainly for old IE, all modern engines have native Typed Arrays constructors and require only fixes of constructors and polyfills of methods.
  • __INLINE_CODE_503__ polyfilled only in runtime with native __INLINE_CODE_504__ with __INLINE_CODE_505__ transfer or __INLINE_CODE_506__ support.
ECMAScript: Reflect

Modules __INLINE_CODE_507__, __INLINE_CODE_508__, __INLINE_CODE_509__, __INLINE_CODE_510__, __INLINE_CODE_511__, __INLINE_CODE_512__, __INLINE_CODE_513__, __INLINE_CODE_514__, __INLINE_CODE_515__, __INLINE_CODE_516__, __INLINE_CODE_517__, __INLINE_CODE_518__, __INLINE_CODE_519__.

__CODE_BLOCK_92__

CommonJS entry points:

__CODE_BLOCK_93__

Examples:

__CODE_BLOCK_94__
ECMAScript: JSON

Since __INLINE_CODE_520__ object is missed only in very old engines like IE7-, __INLINE_CODE_521__ does not provide a full __INLINE_CODE_522__ polyfill, however, fix already existing implementations by the current standard.

Modules __INLINE_CODE_523__, __INLINE_CODE_524__, __INLINE_CODE_525__, __INLINE_CODE_526__ and __INLINE_CODE_527__ .

__CODE_BLOCK_95__

CommonJS entry points:

__CODE_BLOCK_96__

Examples:

__CODE_BLOCK_97__
ECMAScript: globalThis

Module __INLINE_CODE_528__.

__CODE_BLOCK_98__

CommonJS entry points:

__CODE_BLOCK_99__

Examples:

__CODE_BLOCK_100__
ECMAScript proposals

The TC39 process.

__INLINE_CODE_529__ entry point contains only stage 3 proposals, __INLINE_CODE_530__ - stage 2.7 and stage 3, etc.

Finished proposals

Finished (stage 4) proposals already marked in __INLINE_CODE_531__ as stable ECMAScript, they are available in __INLINE_CODE_532__ and __INLINE_CODE_533__ namespace, you can find them in related sections of the README. However, even for finished proposals, __INLINE_CODE_534__ provides a way to include only features for a specific proposal like __INLINE_CODE_535__.

__INLINE_CODE_536__
__CODE_BLOCK_101__

CommonJS entry points:

__CODE_BLOCK_102__
Relative indexing method
__CODE_BLOCK_103__

CommonJS entry points:

__CODE_BLOCK_104__
__INLINE_CODE_537__
__CODE_BLOCK_105__

CommonJS entry points:

__CODE_BLOCK_106__
__INLINE_CODE_538__ / __INLINE_CODE_539__
__CODE_BLOCK_107__

CommonJS entry points:

__CODE_BLOCK_108__
Array find from last
__CODE_BLOCK_109__

CommonJS entry points:

__CODE_BLOCK_110__
Change __INLINE_CODE_540__ by copy
__CODE_BLOCK_111__

CommonJS entry points:

__CODE_BLOCK_112__
__INLINE_CODE_541__ grouping
__CODE_BLOCK_113__

CommonJS entry points:

__CODE_BLOCK_114__
__INLINE_CODE_542__
__CODE_BLOCK_115__

CommonJS entry points:

__CODE_BLOCK_116__
__INLINE_CODE_543__ and friends
__CODE_BLOCK_117__

CommonJS entry points:

__CODE_BLOCK_118__
__INLINE_CODE_544__ to / from base64 and hex
__CODE_BLOCK_119__

CommonJS entry points:

__CODE_BLOCK_120__
__INLINE_CODE_545__
__CODE_BLOCK_121__

CommonJS entry points:

__CODE_BLOCK_122__

We have no bulletproof way to polyfill this __INLINE_CODE_546__ / check if the object is an error, so it's an enough naive implementation.

Explicit Resource Management

This is only built-ins for this Explicit Resource Management, __INLINE_CODE_547__ syntax support requires transpiler support.

__CODE_BLOCK_123__

CommonJS entry points:

__CODE_BLOCK_124__
__INLINE_CODE_548__ methods
__CODE_BLOCK_125__

CommonJS entry points:

__CODE_BLOCK_126__
__INLINE_CODE_549__ helpers
__CODE_BLOCK_127__

CommonJS entry points:

__CODE_BLOCK_128__
__INLINE_CODE_550__ sequencing
__CODE_BLOCK_129__

CommonJS entry points:

__CODE_BLOCK_130__
Joint iteration

Modules es.iterator.zip, es.iterator.zip-keyed

__CODE_BLOCK_131__

CommonJS entry points:

__CODE_BLOCK_132__

Example:

__CODE_BLOCK_133__
__INLINE_CODE_551__ / __INLINE_CODE_552__
__CODE_BLOCK_134__

CommonJS entry points:

__CODE_BLOCK_135__
__INLINE_CODE_553__
__CODE_BLOCK_136__

CommonJS entry points:

__CODE_BLOCK_137__
__INLINE_CODE_554__
__CODE_BLOCK_138__

CommonJS entry points:

__CODE_BLOCK_139__
Accessible __INLINE_CODE_555__
__CODE_BLOCK_140__

CommonJS entry points:

__CODE_BLOCK_141__
__INLINE_CODE_556__ padding
__CODE_BLOCK_142__

CommonJS entry points:

__CODE_BLOCK_143__
__INLINE_CODE_557__.
__CODE_BLOCK_144__

CommonJS entry points:

__CODE_BLOCK_145__
__INLINE_CODE_558__
__CODE_BLOCK_146__

CommonJS entry points:

__CODE_BLOCK_147__
__INLINE_CODE_559__ / __INLINE_CODE_560__
__CODE_BLOCK_148__

CommonJS entry points:

__CODE_BLOCK_149__
__INLINE_CODE_561__ __INLINE_CODE_562__ (__INLINE_CODE_563__) flag
__CODE_BLOCK_150__

CommonJS entry points:

__CODE_BLOCK_151__
__INLINE_CODE_564__ named capture groups
__CODE_BLOCK_152__

CommonJS entry points:

__CODE_BLOCK_153__
__INLINE_CODE_565__ escaping
__CODE_BLOCK_154__

CommonJS entry points:

__CODE_BLOCK_155__
__INLINE_CODE_566__
__CODE_BLOCK_156__

CommonJS entry points:

__CODE_BLOCK_157__
__INLINE_CODE_567__
__CODE_BLOCK_158__

CommonJS entry points:

__CODE_BLOCK_159__
__INLINE_CODE_568__
__CODE_BLOCK_160__

CommonJS entry points:

__CODE_BLOCK_161__
__INLINE_CODE_569__
__CODE_BLOCK_162__

CommonJS entry points:

__CODE_BLOCK_163__
__INLINE_CODE_570__
__CODE_BLOCK_164__

CommonJS entry points:

__CODE_BLOCK_165__
__INLINE_CODE_571__ for asynchronous iteration
__CODE_BLOCK_166__

CommonJS entry points:

__CODE_BLOCK_167__
__INLINE_CODE_572__
__CODE_BLOCK_168__

CommonJS entry points:

__CODE_BLOCK_169__
__INLINE_CODE_573__ source text access
__CODE_BLOCK_170__

CommonJS entry points:

__CODE_BLOCK_171__
Well-formed __INLINE_CODE_574__
__CODE_BLOCK_172__

CommonJS entry points:

__CODE_BLOCK_173__
Well-formed unicode strings
__CODE_BLOCK_174__

CommonJS entry points:

__CODE_BLOCK_175__
New __INLINE_CODE_575__ methods
__CODE_BLOCK_176__

CommonJS entry points:

__CODE_BLOCK_177__
__INLINE_CODE_576__ upsert
__CODE_BLOCK_178__

CommonJS entry points:

__CODE_BLOCK_179__
__INLINE_CODE_577__
__CODE_BLOCK_180__

CommonJS entry points:

__CODE_BLOCK_181__
Stage 3 proposals

CommonJS entry points:

__CODE_BLOCK_182__
__INLINE_CODE_578__ chunking

Modules __INLINE_CODE_579__ and __INLINE_CODE_580__

__CODE_BLOCK_183__

CommonJS entry points:

__CODE_BLOCK_184__

Examples

__CODE_BLOCK_185__
__INLINE_CODE_581__ includes

Module __INLINE_CODE_582__

__CODE_BLOCK_186__

CommonJS entry points:

__CODE_BLOCK_187__ __CODE_BLOCK_188__
__INLINE_CODE_583__ join

Module __INLINE_CODE_584__

__CODE_BLOCK_189__

CommonJS entry points:

__CODE_BLOCK_190__ __CODE_BLOCK_191__
Stage 2.7 proposals

CommonJS entry points:

__CODE_BLOCK_192__
__INLINE_CODE_585__ for decorators metadata proposal

Modules __INLINE_CODE_586__ and __INLINE_CODE_587__.

__CODE_BLOCK_193__

CommonJS entry points:

__CODE_BLOCK_194__
Stage 2 proposals

CommonJS entry points:

__CODE_BLOCK_195__
__INLINE_CODE_588__ helpers

Modules __INLINE_CODE_589__, __INLINE_CODE_590__, __INLINE_CODE_591__, __INLINE_CODE_592__, __INLINE_CODE_593__, __INLINE_CODE_594__, __INLINE_CODE_595__, __INLINE_CODE_596__, __INLINE_CODE_597__, __INLINE_CODE_598__, __INLINE_CODE_599__, __INLINE_CODE_600__, __INLINE_CODE_601__, , __INLINE_CODE_602__

__CODE_BLOCK_196__

CommonJS entry points:

__CODE_BLOCK_197__

Examples:

__CODE_BLOCK_198__
Caveats:
  • For preventing prototypes pollution, in the __INLINE_CODE_603__ version, new __INLINE_CODE_604__ methods are not added to the real __INLINE_CODE_605__, they available only on wrappers - instead of __INLINE_CODE_606__ use __INLINE_CODE_607__.
  • Now, we have access to the real __INLINE_CODE_608__ only with usage async generators syntax. So, for compatibility of the library with old browsers, we should use __INLINE_CODE_609__ constructor. However, that breaks compatibility with CSP. So, if you wanna use the real __INLINE_CODE_610__, you should set __INLINE_CODE_611__ option in the __INLINE_CODE_612__ to __INLINE_CODE_613__:
__CODE_BLOCK_199__
  • As an alternative, you could pass to the __INLINE_CODE_614__ an object that will be considered as __INLINE_CODE_615__:
__CODE_BLOCK_200__
__INLINE_CODE_616__

Module __INLINE_CODE_617__

__CODE_BLOCK_201__

CommonJS entry points:

__CODE_BLOCK_202__

Example:

__CODE_BLOCK_203__
__INLINE_CODE_618__

Module __INLINE_CODE_619__

__CODE_BLOCK_204__

CommonJS entry points:

__CODE_BLOCK_205__

Example:

__CODE_BLOCK_206__
__INLINE_CODE_620__

Module __INLINE_CODE_621__

__CODE_BLOCK_207__

CommonJS entry points:

__CODE_BLOCK_208__

Example:

__CODE_BLOCK_209__
__INLINE_CODE_622__

Module __INLINE_CODE_623__

__CODE_BLOCK_210__

CommonJS entry points:

__CODE_BLOCK_211__

Example:

__CODE_BLOCK_212__
__INLINE_CODE_624__ predicates

Modules __INLINE_CODE_625__, __INLINE_CODE_626__.

__CODE_BLOCK_213__

CommonJS entry points:

__CODE_BLOCK_214__

Example:

__CODE_BLOCK_215__
__INLINE_CODE_627__ for extractors

Module __INLINE_CODE_628__.

__CODE_BLOCK_216__

CommonJS entry points:

__CODE_BLOCK_217__
Stage 1 proposals

CommonJS entry points:

__CODE_BLOCK_218__
__INLINE_CODE_629__

Modules __INLINE_CODE_630__ and __INLINE_CODE_631__

__CODE_BLOCK_219__

CommonJS entry points:

__CODE_BLOCK_220__

Example:

__CODE_BLOCK_221__
New collections methods

Modules __INLINE_CODE_632__, __INLINE_CODE_633__, __INLINE_CODE_634__, __INLINE_CODE_635__, __INLINE_CODE_636__, __INLINE_CODE_637__, __INLINE_CODE_638__, __INLINE_CODE_639__, __INLINE_CODE_640__, __INLINE_CODE_641__, __INLINE_CODE_642__, __INLINE_CODE_643__, __INLINE_CODE_644__, __INLINE_CODE_645__, __INLINE_CODE_646__, __INLINE_CODE_647__, __INLINE_CODE_648__, __INLINE_CODE_649__, __INLINE_CODE_650__, __INLINE_CODE_651__, __INLINE_CODE_652__, __INLINE_CODE_653__, __INLINE_CODE_654__, __INLINE_CODE_655__, __INLINE_CODE_656__, __INLINE_CODE_657__

__INLINE_CODE_658__ and __INLINE_CODE_659__ methods on collection constructors

Modules __INLINE_CODE_660__, __INLINE_CODE_661__, __INLINE_CODE_662__, __INLINE_CODE_663__, __INLINE_CODE_664__, __INLINE_CODE_665__, __INLINE_CODE_666__, __INLINE_CODE_667__

__CODE_BLOCK_222__

CommonJS entry points:

__CODE_BLOCK_223__

__INLINE_CODE_668__ / __INLINE_CODE_669__ examples:

__CODE_BLOCK_224__
__INLINE_CODE_670__ and __INLINE_CODE_671__

Modules __INLINE_CODE_672__ and __INLINE_CODE_673__

__CODE_BLOCK_225__

CommonJS entry points:

__CODE_BLOCK_226__

Examples:

__CODE_BLOCK_227__
Array filtering

Modules __INLINE_CODE_674__ and __INLINE_CODE_675__.

__CODE_BLOCK_228__

CommonJS entry points:

__CODE_BLOCK_229__

Examples:

__CODE_BLOCK_230__
Array deduplication

Modules __INLINE_CODE_676__ and __INLINE_CODE_677__

__CODE_BLOCK_231__

CommonJS entry points:

__CODE_BLOCK_232__

Examples:

__CODE_BLOCK_233__
__INLINE_CODE_678__ get / set __INLINE_CODE_679__ methods

Modules __INLINE_CODE_680__ and __INLINE_CODE_681__

__CODE_BLOCK_234__

CommonJS entry points:

__CODE_BLOCK_235__

Examples:

__CODE_BLOCK_236__
__INLINE_CODE_682__

Module __INLINE_CODE_683__

__CODE_BLOCK_237__

CommonJS entry points:

__CODE_BLOCK_238__
__INLINE_CODE_684__

Module __INLINE_CODE_685__

__CODE_BLOCK_239__

CommonJS entry points:

__CODE_BLOCK_240__

Example:

__CODE_BLOCK_241__
__INLINE_CODE_686__

Module __INLINE_CODE_687__

__CODE_BLOCK_242__

CommonJS entry points:

__CODE_BLOCK_243__

Example:

__CODE_BLOCK_244__
__INLINE_CODE_688__ for pattern matching

Module __INLINE_CODE_689__.

__CODE_BLOCK_245__

CommonJS entry points:

__CODE_BLOCK_246__
Stage 0 proposals

CommonJS entry points:

__CODE_BLOCK_247__
__INLINE_CODE_690__

Module __INLINE_CODE_691__

__CODE_BLOCK_248__

CommonJS entry points:

__CODE_BLOCK_249__

Examples:

__CODE_BLOCK_250__
__INLINE_CODE_692__

Modules __INLINE_CODE_693__, __INLINE_CODE_694__

__CODE_BLOCK_251__

CommonJS entry points:

__CODE_BLOCK_252__

Examples:

__CODE_BLOCK_253__
Pre-stage 0 proposals

CommonJS entry points:

__CODE_BLOCK_254__
__INLINE_CODE_695__ metadata

Modules __INLINE_CODE_696__, __INLINE_CODE_697__, __INLINE_CODE_698__, __INLINE_CODE_699__, __INLINE_CODE_700__, __INLINE_CODE_701__, __INLINE_CODE_702__, __INLINE_CODE_703__ and __INLINE_CODE_704__.

__CODE_BLOCK_255__

CommonJS entry points:

__CODE_BLOCK_256__

Examples:

__CODE_BLOCK_257__
Web standards
__INLINE_CODE_705__

Spec, module __INLINE_CODE_706__

__CODE_BLOCK_258__

CommonJS entry points:

__CODE_BLOCK_259__

Examples:

__CODE_BLOCK_260__
__INLINE_CODE_707__

Spec, module __INLINE_CODE_708__

__CODE_BLOCK_261__

CommonJS entry points:

__CODE_BLOCK_262__

Examples:

__CODE_BLOCK_263__

  • Many platform types cannot be transferred in most engines since we have no way to polyfill this behavior, however __INLINE_CODE_709__ option works for some platform types. I recommend avoiding this option.
  • Some specific platform types can't be cloned in old engines. Mainly it's very specific types or very old engines, but here are some exceptions. For example, we have no sync way to clone __INLINE_CODE_710__ in Safari 14.0- or Firefox 83-, so it's recommended to look to the polyfill source if you wanna clone something specific.
Base64 utility methods

Specification, MDN. Modules __INLINE_CODE_711__, __INLINE_CODE_712__.

__CODE_BLOCK_264__

CommonJS entry points:

__CODE_BLOCK_265__

Examples:

__CODE_BLOCK_266__
__INLINE_CODE_713__ and __INLINE_CODE_714__

Module __INLINE_CODE_715__. Additional arguments fix for IE9-.

__CODE_BLOCK_267__

CommonJS entry points:

__CODE_BLOCK_268__ __CODE_BLOCK_269__
__INLINE_CODE_716__

Module __INLINE_CODE_717__. __INLINE_CODE_718__ polyfill.

__CODE_BLOCK_270__

CommonJS entry points:

__CODE_BLOCK_271__

Examples:

__CODE_BLOCK_272__
__INLINE_CODE_719__

Spec, module __INLINE_CODE_720__

__CODE_BLOCK_273__

CommonJS entry points:

__CODE_BLOCK_274__

Examples:

__CODE_BLOCK_275__
__INLINE_CODE_721__ and __INLINE_CODE_722__

__INLINE_CODE_723__ standard implementation. Modules __INLINE_CODE_724__, __INLINE_CODE_725__, __INLINE_CODE_726__, __INLINE_CODE_727__, __INLINE_CODE_728__, __INLINE_CODE_729__, __INLINE_CODE_730__, __INLINE_CODE_731__.

__CODE_BLOCK_276__

CommonJS entry points:

__CODE_BLOCK_277__

Examples:

__CODE_BLOCK_278__

  • IE8 does not support setters, so they do not work on __INLINE_CODE_732__ instances. However, __INLINE_CODE_733__ constructor can be used for basic __INLINE_CODE_734__ parsing.
  • Legacy encodings in a search query are not supported. Also, __INLINE_CODE_735__ implementation has some other encoding-related issues.
  • __INLINE_CODE_736__ implementations from all of the popular browsers have significantly more problems than __INLINE_CODE_737__, however, replacing all of them does not look like a good idea. You can customize the aggressiveness of polyfill by your requirements.
__INLINE_CODE_738__:

The specification. Modules __INLINE_CODE_739__, __INLINE_CODE_740__, __INLINE_CODE_741__.

__CODE_BLOCK_279__

CommonJS entry points:

__CODE_BLOCK_280__

Examples:

__CODE_BLOCK_281__
Iterable DOM collections

Some DOM collections should have iterable interface or should be inherited from __INLINE_CODE_742__. That means they should have __INLINE_CODE_743__, __INLINE_CODE_744__, __INLINE_CODE_745__, __INLINE_CODE_746__ and __INLINE_CODE_747__ methods for iteration. So add them. Modules __INLINE_CODE_748__ and __INLINE_CODE_749__.

__CODE_BLOCK_282__

CommonJS entry points:

__CODE_BLOCK_283__

Examples:

__CODE_BLOCK_284__
Iteration helpers

Helpers for checking iterability / get iterator in the __INLINE_CODE_750__ version or, for example, for __INLINE_CODE_751__ object:

__CODE_BLOCK_285__

CommonJS entry points:

__CODE_BLOCK_286__

Examples:

__CODE_BLOCK_287__

Missing polyfills

  • ES __INLINE_CODE_752__ can't be polyfilled since it requires changes in the behavior of operators, you can find more info here. You could try to use __INLINE_CODE_753__.
  • ES __INLINE_CODE_754__ can't be polyfilled, you can try to use __INLINE_CODE_755__ which provides a very small subset of features.
  • ES __INLINE_CODE_756__ is not a very useful feature, but this polyfill will be very large. If you need it, you can use unorm.
  • ECMA-402 __INLINE_CODE_757__ is missed because of the size. You can use those polyfills.
  • __INLINE_CODE_758__ is not a cross-platform feature, in some environments, it makes no sense. For this reason, I don't think it should be in __INLINE_CODE_759__. Looking at a large number of requests it might be added in the future. Now you can use, for example, this polyfill.
console.log(RegExp.escape('abcdefg_123456')); // => '\\x61bcdefg_123456' console.log(RegExp.escape('Привет')); // => 'Привет' console.log(RegExp.escape('(){}[]|,.?*+-^$=<>\\/#&!%:;@~\'"`')); // => '\\(\\)\\{\\}\\[\\]\\|\\x2c\\.\\?\\*\\+\\x2d\\^\\$\\x3d\\x3c\\x3e\\\\\\/\\x23\\x26\\x21\\x25\\x3a\\x3b\\x40\\x7e\\x27\\x22\\x60' console.log(RegExp.escape('\u0009\u000A\u000B\u000C\u000D\u0020\u00A0\u1680\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200A\u202F\u205F\u3000\u2028\u2029\uFEFF')); // => '\\\t\\\n\\\v\\\f\\\r\\x20\\xa0\\u1680\\u2000\\u2001\\u2002\\u2003\\u2004\\u2005\\u2006\\u2007\\u2008\\u2009\\u200a\\u202f\\u205f\\u3000\\u2028\\u2029\\ufeff' console.log(RegExp.escape('💩')); // => '💩' console.log(RegExp.escape('\uD83D')); // => '\\ud83d'
ECMAScript: Number

Module __INLINE_CODE_329__. __INLINE_CODE_330__ constructor support binary and octal literals, example:

__CODE_BLOCK_43__

Modules __INLINE_CODE_331__, __INLINE_CODE_332__, __INLINE_CODE_333__, __INLINE_CODE_334__, __INLINE_CODE_335__, __INLINE_CODE_336__, __INLINE_CODE_337__, __INLINE_CODE_338__, __INLINE_CODE_339__, __INLINE_CODE_340__, __INLINE_CODE_341__, __INLINE_CODE_342__, __INLINE_CODE_343__, __INLINE_CODE_344__.

__CODE_BLOCK_44__

CommonJS entry points:

__CODE_BLOCK_45__
ECMAScript: Math

Modules __INLINE_CODE_345__, __INLINE_CODE_346__, __INLINE_CODE_347__, __INLINE_CODE_348__, __INLINE_CODE_349__, __INLINE_CODE_350__, __INLINE_CODE_351__, __INLINE_CODE_352__, __INLINE_CODE_353__, __INLINE_CODE_354__, __INLINE_CODE_355__, __INLINE_CODE_356__, __INLINE_CODE_357__, __INLINE_CODE_358__, __INLINE_CODE_359__, __INLINE_CODE_360__, __INLINE_CODE_361__, __INLINE_CODE_362__, __INLINE_CODE_363__.

__CODE_BLOCK_46__

CommonJS entry points:

__CODE_BLOCK_47__

Examples:

__CODE_BLOCK_48__
ECMAScript: Date

Modules __INLINE_CODE_364__, ES5 features with fixes: __INLINE_CODE_365__, __INLINE_CODE_366__, __INLINE_CODE_367__ and __INLINE_CODE_368__.

Annex B methods. Modules __INLINE_CODE_369__, __INLINE_CODE_370__ and __INLINE_CODE_371__.

__CODE_BLOCK_49__

CommonJS entry points:

__CODE_BLOCK_50__

Example:

__CODE_BLOCK_51__
ECMAScript: Promise

Modules __INLINE_CODE_372__, __INLINE_CODE_373__, __INLINE_CODE_374__, __INLINE_CODE_375__, __INLINE_CODE_376__ and __INLINE_CODE_377__.

__CODE_BLOCK_52__

CommonJS entry points:

__CODE_BLOCK_53__

Basic example:

__CODE_BLOCK_54__

__INLINE_CODE_378__ and __INLINE_CODE_379__ example:

__CODE_BLOCK_55__

__INLINE_CODE_380__ example:

__CODE_BLOCK_56__

__INLINE_CODE_381__ example:

__CODE_BLOCK_57__

__INLINE_CODE_382__ example:

__CODE_BLOCK_58__

__INLINE_CODE_383__ example:

__CODE_BLOCK_59__

__INLINE_CODE_384__ example:

__CODE_BLOCK_60__

__INLINE_CODE_385__ examples:

__CODE_BLOCK_61__

__INLINE_CODE_386__ examples:

__CODE_BLOCK_62__

Example with async functions:

__CODE_BLOCK_63__
Unhandled rejection tracking

In Node.js, like in native implementation, available events __INLINE_CODE_387__ and __INLINE_CODE_388__:

__CODE_BLOCK_64__

In a browser on rejection, by default, you will see notify in the console, or you can add a custom handler and a handler on handling unhandled, example:

__CODE_BLOCK_65__
ECMAScript: Symbol

Modules __INLINE_CODE_389__, __INLINE_CODE_390__, __INLINE_CODE_391__, __INLINE_CODE_392__, __INLINE_CODE_393__, __INLINE_CODE_394__, __INLINE_CODE_395__, __INLINE_CODE_396__, __INLINE_CODE_397__, __INLINE_CODE_398__, __INLINE_CODE_399__, __INLINE_CODE_400__, __INLINE_CODE_401__, __INLINE_CODE_402__, __INLINE_CODE_403__, __INLINE_CODE_404__, __INLINE_CODE_405__.

__CODE_BLOCK_66__

Also wrapped some methods for correct work with __INLINE_CODE_406__ polyfill.

__CODE_BLOCK_67__

CommonJS entry points:

__CODE_BLOCK_68__

Basic example:

__CODE_BLOCK_69__

__INLINE_CODE_407__ & __INLINE_CODE_408__ example:

__CODE_BLOCK_70__

Example with methods for getting own object keys:

__CODE_BLOCK_71__

Symbol#description getter:

__CODE_BLOCK_72__
Caveats when using __INLINE_CODE_409__ polyfill:
  • We can't add a new primitive type, __INLINE_CODE_410__ returns an object.
  • __INLINE_CODE_411__ and __INLINE_CODE_412__ can't be polyfilled cross-realm.
  • By default, to hide the keys, __INLINE_CODE_413__ polyfill defines a setter in __INLINE_CODE_414__. For this reason, an uncontrolled creation of symbols can cause a memory leak and the __INLINE_CODE_415__ operator is not working correctly with __INLINE_CODE_416__ polyfill: __INLINE_CODE_417__.

You can disable defining setters in __INLINE_CODE_418__. Example:

__CODE_BLOCK_73__
  • Currently, __INLINE_CODE_419__ does not add setters to __INLINE_CODE_420__ for well-known symbols for correct work something like __INLINE_CODE_421__. It can cause problems with their enumerability.
  • Some problems are possible with environment exotic objects (for example, IE __INLINE_CODE_422__).
ECMAScript: Collections

__INLINE_CODE_423__ uses native collections in most cases, just fixes methods / constructor, if it's required, and in the old environment uses fast polyfill (O(1) lookup).

Map

Modules __INLINE_CODE_424__, __INLINE_CODE_425__, __INLINE_CODE_426__ and __INLINE_CODE_427__.

__CODE_BLOCK_74__

CommonJS entry points:

__CODE_BLOCK_75__

Examples:

__CODE_BLOCK_76__
Set

Modules __INLINE_CODE_428__, __INLINE_CODE_429__, __INLINE_CODE_430__, __INLINE_CODE_431__, __INLINE_CODE_432__, __INLINE_CODE_433__, __INLINE_CODE_434__, __INLINE_CODE_435__

__CODE_BLOCK_77__

CommonJS entry points:

__CODE_BLOCK_78__

Examples:

__CODE_BLOCK_79__
WeakMap

Module __INLINE_CODE_436__, __INLINE_CODE_437__ and __INLINE_CODE_438__.

__CODE_BLOCK_80__

CommonJS entry points:

__CODE_BLOCK_81__

Examples:

__CODE_BLOCK_82__
WeakSet

Module __INLINE_CODE_439__.

__CODE_BLOCK_83__

CommonJS entry points:

__CODE_BLOCK_84__

Examples:

__CODE_BLOCK_85__

  • Weak-collections polyfill stores values as hidden properties of keys. It works correctly and does not leak in most cases. However, it is desirable to store a collection longer than its keys.
  • Native symbols as __INLINE_CODE_440__ keys can't be properly polyfilled without memory leaks.
ECMAScript: Explicit Resource Management

This is only built-ins for this Explicit Resource Management, __INLINE_CODE_441__ syntax support requires transpiler support.

Modules __INLINE_CODE_442__, __INLINE_CODE_443__, __INLINE_CODE_444__, __INLINE_CODE_445__.

__CODE_BLOCK_86__

CommonJS entry points:

__CODE_BLOCK_87__
ECMAScript: Typed Arrays

Implementations and fixes for __INLINE_CODE_446__, __INLINE_CODE_447__, Typed Arrays constructors, static and prototype methods. Typed arrays work only in environments with support descriptors (IE9+), __INLINE_CODE_448__ and __INLINE_CODE_449__ should work anywhere.

Modules __INLINE_CODE_450__, __INLINE_CODE_451__, __INLINE_CODE_452__, __INLINE_CODE_453__, __INLINE_CODE_454__, __INLINE_CODE_455__ __INLINE_CODE_456__, __INLINE_CODE_457__, __INLINE_CODE_458__, __INLINE_CODE_459__, __INLINE_CODE_460__, __INLINE_CODE_461__, __INLINE_CODE_462__, __INLINE_CODE_463__, __INLINE_CODE_464__, __INLINE_CODE_465__, __INLINE_CODE_466__, __INLINE_CODE_467__, __INLINE_CODE_468__, __INLINE_CODE_469__, __INLINE_CODE_470__, __INLINE_CODE_471__, __INLINE_CODE_472__, __INLINE_CODE_473__, __INLINE_CODE_474__, __INLINE_CODE_475__, __INLINE_CODE_476__, __INLINE_CODE_477__, __INLINE_CODE_478__, __INLINE_CODE_479__, __INLINE_CODE_480__, __INLINE_CODE_481__, __INLINE_CODE_482__, __INLINE_CODE_483__, __INLINE_CODE_484__, __INLINE_CODE_485__, __INLINE_CODE_486__, __INLINE_CODE_487__, __INLINE_CODE_488__, __INLINE_CODE_489__, __INLINE_CODE_490__, __INLINE_CODE_491__, __INLINE_CODE_492__, __INLINE_CODE_493__, __INLINE_CODE_494__, __INLINE_CODE_495__, __INLINE_CODE_496__, __INLINE_CODE_497__, __INLINE_CODE_498__, __INLINE_CODE_499__, __INLINE_CODE_500__, __INLINE_CODE_501__, __INLINE_CODE_502__.

__CODE_BLOCK_88__

CommonJS entry points:

__CODE_BLOCK_89__

Examples:

__CODE_BLOCK_90__

Base64 / Hex examples:

__CODE_BLOCK_91__

  • Polyfills of Typed Arrays constructors work completely how they should work by the spec. Still, because of the internal usage of getters / setters on each instance, they are slow and consume significant memory. However, polyfills of Typed Arrays constructors are required mainly for old IE, all modern engines have native Typed Arrays constructors and require only fixes of constructors and polyfills of methods.
  • __INLINE_CODE_503__ polyfilled only in runtime with native __INLINE_CODE_504__ with __INLINE_CODE_505__ transfer or __INLINE_CODE_506__ support.
ECMAScript: Reflect

Modules __INLINE_CODE_507__, __INLINE_CODE_508__, __INLINE_CODE_509__, __INLINE_CODE_510__, __INLINE_CODE_511__, __INLINE_CODE_512__, __INLINE_CODE_513__, __INLINE_CODE_514__, __INLINE_CODE_515__, __INLINE_CODE_516__, __INLINE_CODE_517__, __INLINE_CODE_518__, __INLINE_CODE_519__.

__CODE_BLOCK_92__

CommonJS entry points:

__CODE_BLOCK_93__

Examples:

__CODE_BLOCK_94__
ECMAScript: JSON

Since __INLINE_CODE_520__ object is missed only in very old engines like IE7-, __INLINE_CODE_521__ does not provide a full __INLINE_CODE_522__ polyfill, however, fix already existing implementations by the current standard.

Modules __INLINE_CODE_523__, __INLINE_CODE_524__, __INLINE_CODE_525__, __INLINE_CODE_526__ and __INLINE_CODE_527__ .

__CODE_BLOCK_95__

CommonJS entry points:

__CODE_BLOCK_96__

Examples:

__CODE_BLOCK_97__
ECMAScript: globalThis

Module __INLINE_CODE_528__.

__CODE_BLOCK_98__

CommonJS entry points:

__CODE_BLOCK_99__

Examples:

__CODE_BLOCK_100__
ECMAScript proposals

The TC39 process.

__INLINE_CODE_529__ entry point contains only stage 3 proposals, __INLINE_CODE_530__ - stage 2.7 and stage 3, etc.

Finished proposals

Finished (stage 4) proposals already marked in __INLINE_CODE_531__ as stable ECMAScript, they are available in __INLINE_CODE_532__ and __INLINE_CODE_533__ namespace, you can find them in related sections of the README. However, even for finished proposals, __INLINE_CODE_534__ provides a way to include only features for a specific proposal like __INLINE_CODE_535__.

__INLINE_CODE_536__
__CODE_BLOCK_101__

CommonJS entry points:

__CODE_BLOCK_102__
Relative indexing method
__CODE_BLOCK_103__

CommonJS entry points:

__CODE_BLOCK_104__
__INLINE_CODE_537__
__CODE_BLOCK_105__

CommonJS entry points:

__CODE_BLOCK_106__
__INLINE_CODE_538__ / __INLINE_CODE_539__
__CODE_BLOCK_107__

CommonJS entry points:

__CODE_BLOCK_108__
Array find from last
__CODE_BLOCK_109__

CommonJS entry points:

__CODE_BLOCK_110__
Change __INLINE_CODE_540__ by copy
__CODE_BLOCK_111__

CommonJS entry points:

__CODE_BLOCK_112__
__INLINE_CODE_541__ grouping
__CODE_BLOCK_113__

CommonJS entry points:

__CODE_BLOCK_114__
__INLINE_CODE_542__
__CODE_BLOCK_115__

CommonJS entry points:

__CODE_BLOCK_116__
__INLINE_CODE_543__ and friends
__CODE_BLOCK_117__

CommonJS entry points:

__CODE_BLOCK_118__
__INLINE_CODE_544__ to / from base64 and hex
__CODE_BLOCK_119__

CommonJS entry points:

__CODE_BLOCK_120__
__INLINE_CODE_545__
__CODE_BLOCK_121__

CommonJS entry points:

__CODE_BLOCK_122__

We have no bulletproof way to polyfill this __INLINE_CODE_546__ / check if the object is an error, so it's an enough naive implementation.

Explicit Resource Management

This is only built-ins for this Explicit Resource Management, __INLINE_CODE_547__ syntax support requires transpiler support.

__CODE_BLOCK_123__

CommonJS entry points:

__CODE_BLOCK_124__
__INLINE_CODE_548__ methods
__CODE_BLOCK_125__

CommonJS entry points:

__CODE_BLOCK_126__
__INLINE_CODE_549__ helpers
__CODE_BLOCK_127__

CommonJS entry points:

__CODE_BLOCK_128__
__INLINE_CODE_550__ sequencing
__CODE_BLOCK_129__

CommonJS entry points:

__CODE_BLOCK_130__
Joint iteration

Modules es.iterator.zip, es.iterator.zip-keyed

__CODE_BLOCK_131__

CommonJS entry points:

__CODE_BLOCK_132__

Example:

__CODE_BLOCK_133__
__INLINE_CODE_551__ / __INLINE_CODE_552__
__CODE_BLOCK_134__

CommonJS entry points:

__CODE_BLOCK_135__
__INLINE_CODE_553__
__CODE_BLOCK_136__

CommonJS entry points:

__CODE_BLOCK_137__
__INLINE_CODE_554__
__CODE_BLOCK_138__

CommonJS entry points:

__CODE_BLOCK_139__
Accessible __INLINE_CODE_555__
__CODE_BLOCK_140__

CommonJS entry points:

__CODE_BLOCK_141__
__INLINE_CODE_556__ padding
__CODE_BLOCK_142__

CommonJS entry points:

__CODE_BLOCK_143__
__INLINE_CODE_557__.
__CODE_BLOCK_144__

CommonJS entry points:

__CODE_BLOCK_145__
__INLINE_CODE_558__
__CODE_BLOCK_146__

CommonJS entry points:

__CODE_BLOCK_147__
__INLINE_CODE_559__ / __INLINE_CODE_560__
__CODE_BLOCK_148__

CommonJS entry points:

__CODE_BLOCK_149__
__INLINE_CODE_561__ __INLINE_CODE_562__ (__INLINE_CODE_563__) flag
__CODE_BLOCK_150__

CommonJS entry points:

__CODE_BLOCK_151__
__INLINE_CODE_564__ named capture groups
__CODE_BLOCK_152__

CommonJS entry points:

__CODE_BLOCK_153__
__INLINE_CODE_565__ escaping
__CODE_BLOCK_154__

CommonJS entry points:

__CODE_BLOCK_155__
__INLINE_CODE_566__
__CODE_BLOCK_156__

CommonJS entry points:

__CODE_BLOCK_157__
__INLINE_CODE_567__
__CODE_BLOCK_158__

CommonJS entry points:

__CODE_BLOCK_159__
__INLINE_CODE_568__
__CODE_BLOCK_160__

CommonJS entry points:

__CODE_BLOCK_161__
__INLINE_CODE_569__
__CODE_BLOCK_162__

CommonJS entry points:

__CODE_BLOCK_163__
__INLINE_CODE_570__
__CODE_BLOCK_164__

CommonJS entry points:

__CODE_BLOCK_165__
__INLINE_CODE_571__ for asynchronous iteration
__CODE_BLOCK_166__

CommonJS entry points:

__CODE_BLOCK_167__
__INLINE_CODE_572__
__CODE_BLOCK_168__

CommonJS entry points:

__CODE_BLOCK_169__
__INLINE_CODE_573__ source text access
__CODE_BLOCK_170__

CommonJS entry points:

__CODE_BLOCK_171__
Well-formed __INLINE_CODE_574__
__CODE_BLOCK_172__

CommonJS entry points:

__CODE_BLOCK_173__
Well-formed unicode strings
__CODE_BLOCK_174__

CommonJS entry points:

__CODE_BLOCK_175__
New __INLINE_CODE_575__ methods
__CODE_BLOCK_176__

CommonJS entry points:

__CODE_BLOCK_177__
__INLINE_CODE_576__ upsert
__CODE_BLOCK_178__

CommonJS entry points:

__CODE_BLOCK_179__
__INLINE_CODE_577__
__CODE_BLOCK_180__

CommonJS entry points:

__CODE_BLOCK_181__
Stage 3 proposals

CommonJS entry points:

__CODE_BLOCK_182__
__INLINE_CODE_578__ chunking

Modules __INLINE_CODE_579__ and __INLINE_CODE_580__

__CODE_BLOCK_183__

CommonJS entry points:

__CODE_BLOCK_184__

Examples

__CODE_BLOCK_185__
__INLINE_CODE_581__ includes

Module __INLINE_CODE_582__

__CODE_BLOCK_186__

CommonJS entry points:

__CODE_BLOCK_187__ __CODE_BLOCK_188__
__INLINE_CODE_583__ join

Module __INLINE_CODE_584__

__CODE_BLOCK_189__

CommonJS entry points:

__CODE_BLOCK_190__ __CODE_BLOCK_191__
Stage 2.7 proposals

CommonJS entry points:

__CODE_BLOCK_192__
__INLINE_CODE_585__ for decorators metadata proposal

Modules __INLINE_CODE_586__ and __INLINE_CODE_587__.

__CODE_BLOCK_193__

CommonJS entry points:

__CODE_BLOCK_194__
Stage 2 proposals

CommonJS entry points:

__CODE_BLOCK_195__
__INLINE_CODE_588__ helpers

Modules __INLINE_CODE_589__, __INLINE_CODE_590__, __INLINE_CODE_591__, __INLINE_CODE_592__, __INLINE_CODE_593__, __INLINE_CODE_594__, __INLINE_CODE_595__, __INLINE_CODE_596__, __INLINE_CODE_597__, __INLINE_CODE_598__, __INLINE_CODE_599__, __INLINE_CODE_600__, __INLINE_CODE_601__, , __INLINE_CODE_602__

__CODE_BLOCK_196__

CommonJS entry points:

__CODE_BLOCK_197__

Examples:

__CODE_BLOCK_198__
Caveats:
  • For preventing prototypes pollution, in the __INLINE_CODE_603__ version, new __INLINE_CODE_604__ methods are not added to the real __INLINE_CODE_605__, they available only on wrappers - instead of __INLINE_CODE_606__ use __INLINE_CODE_607__.
  • Now, we have access to the real __INLINE_CODE_608__ only with usage async generators syntax. So, for compatibility of the library with old browsers, we should use __INLINE_CODE_609__ constructor. However, that breaks compatibility with CSP. So, if you wanna use the real __INLINE_CODE_610__, you should set __INLINE_CODE_611__ option in the __INLINE_CODE_612__ to __INLINE_CODE_613__:
__CODE_BLOCK_199__
  • As an alternative, you could pass to the __INLINE_CODE_614__ an object that will be considered as __INLINE_CODE_615__:
__CODE_BLOCK_200__
__INLINE_CODE_616__

Module __INLINE_CODE_617__

__CODE_BLOCK_201__

CommonJS entry points:

__CODE_BLOCK_202__

Example:

__CODE_BLOCK_203__
__INLINE_CODE_618__

Module __INLINE_CODE_619__

__CODE_BLOCK_204__

CommonJS entry points:

__CODE_BLOCK_205__

Example:

__CODE_BLOCK_206__
__INLINE_CODE_620__

Module __INLINE_CODE_621__

__CODE_BLOCK_207__

CommonJS entry points:

__CODE_BLOCK_208__

Example:

__CODE_BLOCK_209__
__INLINE_CODE_622__

Module __INLINE_CODE_623__

__CODE_BLOCK_210__

CommonJS entry points:

__CODE_BLOCK_211__

Example:

__CODE_BLOCK_212__
__INLINE_CODE_624__ predicates

Modules __INLINE_CODE_625__, __INLINE_CODE_626__.

__CODE_BLOCK_213__

CommonJS entry points:

__CODE_BLOCK_214__

Example:

__CODE_BLOCK_215__
__INLINE_CODE_627__ for extractors

Module __INLINE_CODE_628__.

__CODE_BLOCK_216__

CommonJS entry points:

__CODE_BLOCK_217__
Stage 1 proposals

CommonJS entry points:

__CODE_BLOCK_218__
__INLINE_CODE_629__

Modules __INLINE_CODE_630__ and __INLINE_CODE_631__

__CODE_BLOCK_219__

CommonJS entry points:

__CODE_BLOCK_220__

Example:

__CODE_BLOCK_221__
New collections methods

Modules __INLINE_CODE_632__, __INLINE_CODE_633__, __INLINE_CODE_634__, __INLINE_CODE_635__, __INLINE_CODE_636__, __INLINE_CODE_637__, __INLINE_CODE_638__, __INLINE_CODE_639__, __INLINE_CODE_640__, __INLINE_CODE_641__, __INLINE_CODE_642__, __INLINE_CODE_643__, __INLINE_CODE_644__, __INLINE_CODE_645__, __INLINE_CODE_646__, __INLINE_CODE_647__, __INLINE_CODE_648__, __INLINE_CODE_649__, __INLINE_CODE_650__, __INLINE_CODE_651__, __INLINE_CODE_652__, __INLINE_CODE_653__, __INLINE_CODE_654__, __INLINE_CODE_655__, __INLINE_CODE_656__, __INLINE_CODE_657__

__INLINE_CODE_658__ and __INLINE_CODE_659__ methods on collection constructors

Modules __INLINE_CODE_660__, __INLINE_CODE_661__, __INLINE_CODE_662__, __INLINE_CODE_663__, __INLINE_CODE_664__, __INLINE_CODE_665__, __INLINE_CODE_666__, __INLINE_CODE_667__

__CODE_BLOCK_222__

CommonJS entry points:

__CODE_BLOCK_223__

__INLINE_CODE_668__ / __INLINE_CODE_669__ examples:

__CODE_BLOCK_224__
__INLINE_CODE_670__ and __INLINE_CODE_671__

Modules __INLINE_CODE_672__ and __INLINE_CODE_673__

__CODE_BLOCK_225__

CommonJS entry points:

__CODE_BLOCK_226__

Examples:

__CODE_BLOCK_227__
Array filtering

Modules __INLINE_CODE_674__ and __INLINE_CODE_675__.

__CODE_BLOCK_228__

CommonJS entry points:

__CODE_BLOCK_229__

Examples:

__CODE_BLOCK_230__
Array deduplication

Modules __INLINE_CODE_676__ and __INLINE_CODE_677__

__CODE_BLOCK_231__

CommonJS entry points:

__CODE_BLOCK_232__

Examples:

__CODE_BLOCK_233__
__INLINE_CODE_678__ get / set __INLINE_CODE_679__ methods

Modules __INLINE_CODE_680__ and __INLINE_CODE_681__

__CODE_BLOCK_234__

CommonJS entry points:

__CODE_BLOCK_235__

Examples:

__CODE_BLOCK_236__
__INLINE_CODE_682__

Module __INLINE_CODE_683__

__CODE_BLOCK_237__

CommonJS entry points:

__CODE_BLOCK_238__
__INLINE_CODE_684__

Module __INLINE_CODE_685__

__CODE_BLOCK_239__

CommonJS entry points:

__CODE_BLOCK_240__

Example:

__CODE_BLOCK_241__
__INLINE_CODE_686__

Module __INLINE_CODE_687__

__CODE_BLOCK_242__

CommonJS entry points:

__CODE_BLOCK_243__

Example:

__CODE_BLOCK_244__
__INLINE_CODE_688__ for pattern matching

Module __INLINE_CODE_689__.

__CODE_BLOCK_245__

CommonJS entry points:

__CODE_BLOCK_246__
Stage 0 proposals

CommonJS entry points:

__CODE_BLOCK_247__
__INLINE_CODE_690__

Module __INLINE_CODE_691__

__CODE_BLOCK_248__

CommonJS entry points:

__CODE_BLOCK_249__

Examples:

__CODE_BLOCK_250__
__INLINE_CODE_692__

Modules __INLINE_CODE_693__, __INLINE_CODE_694__

__CODE_BLOCK_251__

CommonJS entry points:

__CODE_BLOCK_252__

Examples:

__CODE_BLOCK_253__
Pre-stage 0 proposals

CommonJS entry points:

__CODE_BLOCK_254__
__INLINE_CODE_695__ metadata

Modules __INLINE_CODE_696__, __INLINE_CODE_697__, __INLINE_CODE_698__, __INLINE_CODE_699__, __INLINE_CODE_700__, __INLINE_CODE_701__, __INLINE_CODE_702__, __INLINE_CODE_703__ and __INLINE_CODE_704__.

__CODE_BLOCK_255__

CommonJS entry points:

__CODE_BLOCK_256__

Examples:

__CODE_BLOCK_257__
Web standards
__INLINE_CODE_705__

Spec, module __INLINE_CODE_706__

__CODE_BLOCK_258__

CommonJS entry points:

__CODE_BLOCK_259__

Examples:

__CODE_BLOCK_260__
__INLINE_CODE_707__

Spec, module __INLINE_CODE_708__

__CODE_BLOCK_261__

CommonJS entry points:

__CODE_BLOCK_262__

Examples:

__CODE_BLOCK_263__

  • Many platform types cannot be transferred in most engines since we have no way to polyfill this behavior, however __INLINE_CODE_709__ option works for some platform types. I recommend avoiding this option.
  • Some specific platform types can't be cloned in old engines. Mainly it's very specific types or very old engines, but here are some exceptions. For example, we have no sync way to clone __INLINE_CODE_710__ in Safari 14.0- or Firefox 83-, so it's recommended to look to the polyfill source if you wanna clone something specific.
Base64 utility methods

Specification, MDN. Modules __INLINE_CODE_711__, __INLINE_CODE_712__.

__CODE_BLOCK_264__

CommonJS entry points:

__CODE_BLOCK_265__

Examples:

__CODE_BLOCK_266__
__INLINE_CODE_713__ and __INLINE_CODE_714__

Module __INLINE_CODE_715__. Additional arguments fix for IE9-.

__CODE_BLOCK_267__

CommonJS entry points:

__CODE_BLOCK_268__ __CODE_BLOCK_269__
__INLINE_CODE_716__

Module __INLINE_CODE_717__. __INLINE_CODE_718__ polyfill.

__CODE_BLOCK_270__

CommonJS entry points:

__CODE_BLOCK_271__

Examples:

__CODE_BLOCK_272__
__INLINE_CODE_719__

Spec, module __INLINE_CODE_720__

__CODE_BLOCK_273__

CommonJS entry points:

__CODE_BLOCK_274__

Examples:

__CODE_BLOCK_275__
__INLINE_CODE_721__ and __INLINE_CODE_722__

__INLINE_CODE_723__ standard implementation. Modules __INLINE_CODE_724__, __INLINE_CODE_725__, __INLINE_CODE_726__, __INLINE_CODE_727__, __INLINE_CODE_728__, __INLINE_CODE_729__, __INLINE_CODE_730__, __INLINE_CODE_731__.

__CODE_BLOCK_276__

CommonJS entry points:

__CODE_BLOCK_277__

Examples:

__CODE_BLOCK_278__

  • IE8 does not support setters, so they do not work on __INLINE_CODE_732__ instances. However, __INLINE_CODE_733__ constructor can be used for basic __INLINE_CODE_734__ parsing.
  • Legacy encodings in a search query are not supported. Also, __INLINE_CODE_735__ implementation has some other encoding-related issues.
  • __INLINE_CODE_736__ implementations from all of the popular browsers have significantly more problems than __INLINE_CODE_737__, however, replacing all of them does not look like a good idea. You can customize the aggressiveness of polyfill by your requirements.
__INLINE_CODE_738__:

The specification. Modules __INLINE_CODE_739__, __INLINE_CODE_740__, __INLINE_CODE_741__.

__CODE_BLOCK_279__

CommonJS entry points:

__CODE_BLOCK_280__

Examples:

__CODE_BLOCK_281__
Iterable DOM collections

Some DOM collections should have iterable interface or should be inherited from __INLINE_CODE_742__. That means they should have __INLINE_CODE_743__, __INLINE_CODE_744__, __INLINE_CODE_745__, __INLINE_CODE_746__ and __INLINE_CODE_747__ methods for iteration. So add them. Modules __INLINE_CODE_748__ and __INLINE_CODE_749__.

__CODE_BLOCK_282__

CommonJS entry points:

__CODE_BLOCK_283__

Examples:

__CODE_BLOCK_284__
Iteration helpers

Helpers for checking iterability / get iterator in the __INLINE_CODE_750__ version or, for example, for __INLINE_CODE_751__ object:

__CODE_BLOCK_285__

CommonJS entry points:

__CODE_BLOCK_286__

Examples:

__CODE_BLOCK_287__

Missing polyfills

  • ES __INLINE_CODE_752__ can't be polyfilled since it requires changes in the behavior of operators, you can find more info here. You could try to use __INLINE_CODE_753__.
  • ES __INLINE_CODE_754__ can't be polyfilled, you can try to use __INLINE_CODE_755__ which provides a very small subset of features.
  • ES __INLINE_CODE_756__ is not a very useful feature, but this polyfill will be very large. If you need it, you can use unorm.
  • ECMA-402 __INLINE_CODE_757__ is missed because of the size. You can use those polyfills.
  • __INLINE_CODE_758__ is not a cross-platform feature, in some environments, it makes no sense. For this reason, I don't think it should be in __INLINE_CODE_759__. Looking at a large number of requests it might be added in the future. Now you can use, for example, this polyfill.