758 lines
28 KiB
Markdown
Executable File
758 lines
28 KiB
Markdown
Executable File
# Immutable collections for JavaScript
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[![Build Status](https://github.com/immutable-js/immutable-js/actions/workflows/ci.yml/badge.svg?branch=main)](https://github.com/immutable-js/immutable-js/actions/workflows/ci.yml?query=branch%3Amain) [Chat on slack](https://immutable-js.slack.com)
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[Read the docs](https://immutable-js.com) and eat your vegetables.
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Docs are automatically generated from [README.md][] and [immutable.d.ts][].
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Please contribute! Also, don't miss the [wiki][] which contains articles on
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additional specific topics. Can't find something? Open an [issue][].
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**Table of contents:**
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- [Introduction](#introduction)
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- [Getting started](#getting-started)
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- [The case for Immutability](#the-case-for-immutability)
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- [JavaScript-first API](#javascript-first-api)
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- [Nested Structures](#nested-structures)
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- [Equality treats Collections as Values](#equality-treats-collections-as-values)
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- [Batching Mutations](#batching-mutations)
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- [Lazy Seq](#lazy-seq)
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- [Additional Tools and Resources](#additional-tools-and-resources)
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- [Contributing](#contributing)
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## Introduction
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[Immutable][] data cannot be changed once created, leading to much simpler
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application development, no defensive copying, and enabling advanced memoization
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and change detection techniques with simple logic. [Persistent][] data presents
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a mutative API which does not update the data in-place, but instead always
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yields new updated data.
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Immutable.js provides many Persistent Immutable data structures including:
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`List`, `Stack`, `Map`, `OrderedMap`, `Set`, `OrderedSet` and `Record`.
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These data structures are highly efficient on modern JavaScript VMs by using
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structural sharing via [hash maps tries][] and [vector tries][] as popularized
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by Clojure and Scala, minimizing the need to copy or cache data.
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Immutable.js also provides a lazy `Seq`, allowing efficient
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chaining of collection methods like `map` and `filter` without creating
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intermediate representations. Create some `Seq` with `Range` and `Repeat`.
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Want to hear more? Watch the presentation about Immutable.js:
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[![Immutable Data and React](website/public/Immutable-Data-and-React-YouTube.png)](https://youtu.be/I7IdS-PbEgI)
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[README.md]: https://github.com/immutable-js/immutable-js/blob/main/README.md
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[immutable.d.ts]: https://github.com/immutable-js/immutable-js/blob/main/type-definitions/immutable.d.ts
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[wiki]: https://github.com/immutable-js/immutable-js/wiki
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[issue]: https://github.com/immutable-js/immutable-js/issues
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[Persistent]: https://en.wikipedia.org/wiki/Persistent_data_structure
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[Immutable]: https://en.wikipedia.org/wiki/Immutable_object
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[hash maps tries]: https://en.wikipedia.org/wiki/Hash_array_mapped_trie
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[vector tries]: https://hypirion.com/musings/understanding-persistent-vector-pt-1
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## Getting started
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Install `immutable` using npm.
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```shell
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npm install immutable
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```
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Or install using yarn.
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```shell
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yarn add immutable
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```
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Then require it into any module.
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3 });
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const map2 = map1.set('b', 50);
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map1.get('b') + ' vs. ' + map2.get('b'); // 2 vs. 50
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```
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### Browser
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Immutable.js has no dependencies, which makes it predictable to include in a Browser.
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It's highly recommended to use a module bundler like [webpack](https://webpack.github.io/),
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[rollup](https://rollupjs.org/), or
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[browserify](https://browserify.org/). The `immutable` npm module works
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without any additional consideration. All examples throughout the documentation
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will assume use of this kind of tool.
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Alternatively, Immutable.js may be directly included as a script tag. Download
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or link to a CDN such as [CDNJS](https://cdnjs.com/libraries/immutable)
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or [jsDelivr](https://www.jsdelivr.com/package/npm/immutable).
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Use a script tag to directly add `Immutable` to the global scope:
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```html
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<script src="immutable.min.js"></script>
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<script>
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var map1 = Immutable.Map({ a: 1, b: 2, c: 3 });
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var map2 = map1.set('b', 50);
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map1.get('b'); // 2
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map2.get('b'); // 50
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</script>
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```
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Or use an AMD-style loader (such as [RequireJS](https://requirejs.org/)):
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```js
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require(['./immutable.min.js'], function (Immutable) {
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var map1 = Immutable.Map({ a: 1, b: 2, c: 3 });
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var map2 = map1.set('b', 50);
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map1.get('b'); // 2
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map2.get('b'); // 50
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});
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```
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### Flow & TypeScript
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Use these Immutable collections and sequences as you would use native
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collections in your [Flowtype](https://flowtype.org/) or [TypeScript](https://typescriptlang.org) programs while still taking
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advantage of type generics, error detection, and auto-complete in your IDE.
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Installing `immutable` via npm brings with it type definitions for Flow (v0.55.0 or higher)
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and TypeScript (v2.1.0 or higher), so you shouldn't need to do anything at all!
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#### Using TypeScript with Immutable.js v4
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Immutable.js type definitions embrace ES2015. While Immutable.js itself supports
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legacy browsers and environments, its type definitions require TypeScript's 2015
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lib. Include either `"target": "es2015"` or `"lib": "es2015"` in your
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`tsconfig.json`, or provide `--target es2015` or `--lib es2015` to the
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`tsc` command.
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3 });
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const map2 = map1.set('b', 50);
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map1.get('b') + ' vs. ' + map2.get('b'); // 2 vs. 50
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```
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#### Using TypeScript with Immutable.js v3 and earlier:
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Previous versions of Immutable.js include a reference file which you can include
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via relative path to the type definitions at the top of your file.
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```js
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///<reference path='./node_modules/immutable/dist/immutable.d.ts'/>
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import Immutable from 'immutable';
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var map1: Immutable.Map<string, number>;
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map1 = Immutable.Map({ a: 1, b: 2, c: 3 });
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var map2 = map1.set('b', 50);
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map1.get('b'); // 2
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map2.get('b'); // 50
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```
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## The case for Immutability
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Much of what makes application development difficult is tracking mutation and
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maintaining state. Developing with immutable data encourages you to think
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differently about how data flows through your application.
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Subscribing to data events throughout your application creates a huge overhead of
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book-keeping which can hurt performance, sometimes dramatically, and creates
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opportunities for areas of your application to get out of sync with each other
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due to easy to make programmer error. Since immutable data never changes,
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subscribing to changes throughout the model is a dead-end and new data can only
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ever be passed from above.
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This model of data flow aligns well with the architecture of [React][]
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and especially well with an application designed using the ideas of [Flux][].
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When data is passed from above rather than being subscribed to, and you're only
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interested in doing work when something has changed, you can use equality.
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Immutable collections should be treated as _values_ rather than _objects_. While
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objects represent some thing which could change over time, a value represents
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the state of that thing at a particular instance of time. This principle is most
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important to understanding the appropriate use of immutable data. In order to
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treat Immutable.js collections as values, it's important to use the
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`Immutable.is()` function or `.equals()` method to determine _value equality_
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instead of the `===` operator which determines object _reference identity_.
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3 });
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const map2 = Map({ a: 1, b: 2, c: 3 });
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map1.equals(map2); // true
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map1 === map2; // false
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```
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Note: As a performance optimization Immutable.js attempts to return the existing
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collection when an operation would result in an identical collection, allowing
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for using `===` reference equality to determine if something definitely has not
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changed. This can be extremely useful when used within a memoization function
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which would prefer to re-run the function if a deeper equality check could
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potentially be more costly. The `===` equality check is also used internally by
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`Immutable.is` and `.equals()` as a performance optimization.
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3 });
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const map2 = map1.set('b', 2); // Set to same value
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map1 === map2; // true
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```
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If an object is immutable, it can be "copied" simply by making another reference
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to it instead of copying the entire object. Because a reference is much smaller
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than the object itself, this results in memory savings and a potential boost in
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execution speed for programs which rely on copies (such as an undo-stack).
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const map = Map({ a: 1, b: 2, c: 3 });
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const mapCopy = map; // Look, "copies" are free!
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```
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[React]: https://reactjs.org/
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[Flux]: https://facebook.github.io/flux/docs/in-depth-overview/
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## JavaScript-first API
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While Immutable.js is inspired by Clojure, Scala, Haskell and other functional
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programming environments, it's designed to bring these powerful concepts to
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JavaScript, and therefore has an Object-Oriented API that closely mirrors that
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of [ES2015][] [Array][], [Map][], and [Set][].
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[es2015]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/New_in_JavaScript/ECMAScript_6_support_in_Mozilla
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[array]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array
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[map]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map
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[set]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Set
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The difference for the immutable collections is that methods which would mutate
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the collection, like `push`, `set`, `unshift` or `splice`, instead return a new
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immutable collection. Methods which return new arrays, like `slice` or `concat`,
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instead return new immutable collections.
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<!-- runkit:activate -->
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```js
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const { List } = require('immutable');
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const list1 = List([1, 2]);
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const list2 = list1.push(3, 4, 5);
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const list3 = list2.unshift(0);
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const list4 = list1.concat(list2, list3);
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assert.equal(list1.size, 2);
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assert.equal(list2.size, 5);
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assert.equal(list3.size, 6);
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assert.equal(list4.size, 13);
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assert.equal(list4.get(0), 1);
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```
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Almost all of the methods on [Array][] will be found in similar form on
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`Immutable.List`, those of [Map][] found on `Immutable.Map`, and those of [Set][]
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found on `Immutable.Set`, including collection operations like `forEach()`
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and `map()`.
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<!-- runkit:activate -->
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```js
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const { Map } = require('immutable');
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const alpha = Map({ a: 1, b: 2, c: 3, d: 4 });
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alpha.map((v, k) => k.toUpperCase()).join();
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// 'A,B,C,D'
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```
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### Convert from raw JavaScript objects and arrays.
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Designed to inter-operate with your existing JavaScript, Immutable.js
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accepts plain JavaScript Arrays and Objects anywhere a method expects a
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`Collection`.
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<!-- runkit:activate -->
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```js
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const { Map, List } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3, d: 4 });
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const map2 = Map({ c: 10, a: 20, t: 30 });
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const obj = { d: 100, o: 200, g: 300 };
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const map3 = map1.merge(map2, obj);
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// Map { a: 20, b: 2, c: 10, d: 100, t: 30, o: 200, g: 300 }
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const list1 = List([1, 2, 3]);
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const list2 = List([4, 5, 6]);
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const array = [7, 8, 9];
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const list3 = list1.concat(list2, array);
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// List [ 1, 2, 3, 4, 5, 6, 7, 8, 9 ]
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```
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This is possible because Immutable.js can treat any JavaScript Array or Object
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as a Collection. You can take advantage of this in order to get sophisticated
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collection methods on JavaScript Objects, which otherwise have a very sparse
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native API. Because Seq evaluates lazily and does not cache intermediate
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results, these operations can be extremely efficient.
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<!-- runkit:activate -->
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```js
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const { Seq } = require('immutable');
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const myObject = { a: 1, b: 2, c: 3 };
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Seq(myObject)
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.map(x => x * x)
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.toObject();
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// { a: 1, b: 4, c: 9 }
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```
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Keep in mind, when using JS objects to construct Immutable Maps, that
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JavaScript Object properties are always strings, even if written in a quote-less
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shorthand, while Immutable Maps accept keys of any type.
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<!-- runkit:activate -->
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```js
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const { fromJS } = require('immutable');
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const obj = { 1: 'one' };
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console.log(Object.keys(obj)); // [ "1" ]
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console.log(obj['1'], obj[1]); // "one", "one"
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const map = fromJS(obj);
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console.log(map.get('1'), map.get(1)); // "one", undefined
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```
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Property access for JavaScript Objects first converts the key to a string, but
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since Immutable Map keys can be of any type the argument to `get()` is
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not altered.
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### Converts back to raw JavaScript objects.
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All Immutable.js Collections can be converted to plain JavaScript Arrays and
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Objects shallowly with `toArray()` and `toObject()` or deeply with `toJS()`.
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All Immutable Collections also implement `toJSON()` allowing them to be passed
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to `JSON.stringify` directly. They also respect the custom `toJSON()` methods of
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nested objects.
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<!-- runkit:activate -->
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```js
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const { Map, List } = require('immutable');
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const deep = Map({ a: 1, b: 2, c: List([3, 4, 5]) });
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console.log(deep.toObject()); // { a: 1, b: 2, c: List [ 3, 4, 5 ] }
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console.log(deep.toArray()); // [ 1, 2, List [ 3, 4, 5 ] ]
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console.log(deep.toJS()); // { a: 1, b: 2, c: [ 3, 4, 5 ] }
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JSON.stringify(deep); // '{"a":1,"b":2,"c":[3,4,5]}'
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```
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### Embraces ES2015
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Immutable.js supports all JavaScript environments, including legacy
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browsers (even IE11). However it also takes advantage of features added to
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JavaScript in [ES2015][], the latest standard version of JavaScript, including
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[Iterators][], [Arrow Functions][], [Classes][], and [Modules][]. It's inspired
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by the native [Map][] and [Set][] collections added to ES2015.
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All examples in the Documentation are presented in ES2015. To run in all
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browsers, they need to be translated to ES5.
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```js
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// ES2015
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const mapped = foo.map(x => x * x);
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// ES5
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var mapped = foo.map(function (x) {
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return x * x;
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});
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```
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All Immutable.js collections are [Iterable][iterators], which allows them to be
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used anywhere an Iterable is expected, such as when spreading into an Array.
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<!-- runkit:activate -->
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```js
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const { List } = require('immutable');
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const aList = List([1, 2, 3]);
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const anArray = [0, ...aList, 4, 5]; // [ 0, 1, 2, 3, 4, 5 ]
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```
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Note: A Collection is always iterated in the same order, however that order may
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not always be well defined, as is the case for the `Map` and `Set`.
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[Iterators]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Guide/The_Iterator_protocol
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[Arrow Functions]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Functions/Arrow_functions
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[Classes]: https://wiki.ecmascript.org/doku.php?id=strawman:maximally_minimal_classes
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[Modules]: https://www.2ality.com/2014/09/es6-modules-final.html
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## Nested Structures
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The collections in Immutable.js are intended to be nested, allowing for deep
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trees of data, similar to JSON.
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<!-- runkit:activate -->
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```js
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const { fromJS } = require('immutable');
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const nested = fromJS({ a: { b: { c: [3, 4, 5] } } });
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// Map { a: Map { b: Map { c: List [ 3, 4, 5 ] } } }
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```
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A few power-tools allow for reading and operating on nested data. The
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most useful are `mergeDeep`, `getIn`, `setIn`, and `updateIn`, found on `List`,
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`Map` and `OrderedMap`.
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<!-- runkit:activate -->
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```js
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const { fromJS } = require('immutable');
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const nested = fromJS({ a: { b: { c: [3, 4, 5] } } });
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const nested2 = nested.mergeDeep({ a: { b: { d: 6 } } });
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// Map { a: Map { b: Map { c: List [ 3, 4, 5 ], d: 6 } } }
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console.log(nested2.getIn(['a', 'b', 'd'])); // 6
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const nested3 = nested2.updateIn(['a', 'b', 'd'], value => value + 1);
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console.log(nested3);
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// Map { a: Map { b: Map { c: List [ 3, 4, 5 ], d: 7 } } }
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const nested4 = nested3.updateIn(['a', 'b', 'c'], list => list.push(6));
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// Map { a: Map { b: Map { c: List [ 3, 4, 5, 6 ], d: 7 } } }
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```
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## Equality treats Collections as Values
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Immutable.js collections are treated as pure data _values_. Two immutable
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collections are considered _value equal_ (via `.equals()` or `is()`) if they
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represent the same collection of values. This differs from JavaScript's typical
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_reference equal_ (via `===` or `==`) for Objects and Arrays which only
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determines if two variables represent references to the same object instance.
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Consider the example below where two identical `Map` instances are not
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_reference equal_ but are _value equal_.
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<!-- runkit:activate -->
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```js
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// First consider:
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const obj1 = { a: 1, b: 2, c: 3 };
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const obj2 = { a: 1, b: 2, c: 3 };
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obj1 !== obj2; // two different instances are always not equal with ===
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const { Map, is } = require('immutable');
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const map1 = Map({ a: 1, b: 2, c: 3 });
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const map2 = Map({ a: 1, b: 2, c: 3 });
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map1 !== map2; // two different instances are not reference-equal
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map1.equals(map2); // but are value-equal if they have the same values
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is(map1, map2); // alternatively can use the is() function
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```
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|
|
|
Value equality allows Immutable.js collections to be used as keys in Maps or
|
|
values in Sets, and retrieved with different but equivalent collections:
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { Map, Set } = require('immutable');
|
|
const map1 = Map({ a: 1, b: 2, c: 3 });
|
|
const map2 = Map({ a: 1, b: 2, c: 3 });
|
|
const set = Set().add(map1);
|
|
set.has(map2); // true because these are value-equal
|
|
```
|
|
|
|
Note: `is()` uses the same measure of equality as [Object.is][] for scalar
|
|
strings and numbers, but uses value equality for Immutable collections,
|
|
determining if both are immutable and all keys and values are equal
|
|
using the same measure of equality.
|
|
|
|
[object.is]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is
|
|
|
|
#### Performance tradeoffs
|
|
|
|
While value equality is useful in many circumstances, it has different
|
|
performance characteristics than reference equality. Understanding these
|
|
tradeoffs may help you decide which to use in each case, especially when used
|
|
to memoize some operation.
|
|
|
|
When comparing two collections, value equality may require considering every
|
|
item in each collection, on an `O(N)` time complexity. For large collections of
|
|
values, this could become a costly operation. Though if the two are not equal
|
|
and hardly similar, the inequality is determined very quickly. In contrast, when
|
|
comparing two collections with reference equality, only the initial references
|
|
to memory need to be compared which is not based on the size of the collections,
|
|
which has an `O(1)` time complexity. Checking reference equality is always very
|
|
fast, however just because two collections are not reference-equal does not rule
|
|
out the possibility that they may be value-equal.
|
|
|
|
#### Return self on no-op optimization
|
|
|
|
When possible, Immutable.js avoids creating new objects for updates where no
|
|
change in _value_ occurred, to allow for efficient _reference equality_ checking
|
|
to quickly determine if no change occurred.
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { Map } = require('immutable');
|
|
const originalMap = Map({ a: 1, b: 2, c: 3 });
|
|
const updatedMap = originalMap.set('b', 2);
|
|
updatedMap === originalMap; // No-op .set() returned the original reference.
|
|
```
|
|
|
|
However updates which do result in a change will return a new reference. Each
|
|
of these operations occur independently, so two similar updates will not return
|
|
the same reference:
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { Map } = require('immutable');
|
|
const originalMap = Map({ a: 1, b: 2, c: 3 });
|
|
const updatedMap = originalMap.set('b', 1000);
|
|
// New instance, leaving the original immutable.
|
|
updatedMap !== originalMap;
|
|
const anotherUpdatedMap = originalMap.set('b', 1000);
|
|
// Despite both the results of the same operation, each created a new reference.
|
|
anotherUpdatedMap !== updatedMap;
|
|
// However the two are value equal.
|
|
anotherUpdatedMap.equals(updatedMap);
|
|
```
|
|
|
|
## Batching Mutations
|
|
|
|
> If a tree falls in the woods, does it make a sound?
|
|
>
|
|
> If a pure function mutates some local data in order to produce an immutable
|
|
> return value, is that ok?
|
|
>
|
|
> — Rich Hickey, Clojure
|
|
|
|
Applying a mutation to create a new immutable object results in some overhead,
|
|
which can add up to a minor performance penalty. If you need to apply a series
|
|
of mutations locally before returning, Immutable.js gives you the ability to
|
|
create a temporary mutable (transient) copy of a collection and apply a batch of
|
|
mutations in a performant manner by using `withMutations`. In fact, this is
|
|
exactly how Immutable.js applies complex mutations itself.
|
|
|
|
As an example, building `list2` results in the creation of 1, not 3, new
|
|
immutable Lists.
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { List } = require('immutable');
|
|
const list1 = List([1, 2, 3]);
|
|
const list2 = list1.withMutations(function (list) {
|
|
list.push(4).push(5).push(6);
|
|
});
|
|
assert.equal(list1.size, 3);
|
|
assert.equal(list2.size, 6);
|
|
```
|
|
|
|
Note: Immutable.js also provides `asMutable` and `asImmutable`, but only
|
|
encourages their use when `withMutations` will not suffice. Use caution to not
|
|
return a mutable copy, which could result in undesired behavior.
|
|
|
|
_Important!_: Only a select few methods can be used in `withMutations` including
|
|
`set`, `push` and `pop`. These methods can be applied directly against a
|
|
persistent data-structure where other methods like `map`, `filter`, `sort`,
|
|
and `splice` will always return new immutable data-structures and never mutate
|
|
a mutable collection.
|
|
|
|
## Lazy Seq
|
|
|
|
`Seq` describes a lazy operation, allowing them to efficiently chain
|
|
use of all the higher-order collection methods (such as `map` and `filter`)
|
|
by not creating intermediate collections.
|
|
|
|
**Seq is immutable** — Once a Seq is created, it cannot be
|
|
changed, appended to, rearranged or otherwise modified. Instead, any mutative
|
|
method called on a `Seq` will return a new `Seq`.
|
|
|
|
**Seq is lazy** — `Seq` does as little work as necessary to respond to any
|
|
method call. Values are often created during iteration, including implicit
|
|
iteration when reducing or converting to a concrete data structure such as
|
|
a `List` or JavaScript `Array`.
|
|
|
|
For example, the following performs no work, because the resulting
|
|
`Seq`'s values are never iterated:
|
|
|
|
```js
|
|
const { Seq } = require('immutable');
|
|
const oddSquares = Seq([1, 2, 3, 4, 5, 6, 7, 8])
|
|
.filter(x => x % 2 !== 0)
|
|
.map(x => x * x);
|
|
```
|
|
|
|
Once the `Seq` is used, it performs only the work necessary. In this
|
|
example, no intermediate arrays are ever created, filter is called three
|
|
times, and map is only called once:
|
|
|
|
```js
|
|
oddSquares.get(1); // 9
|
|
```
|
|
|
|
Any collection can be converted to a lazy Seq with `Seq()`.
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { Map, Seq } = require('immutable');
|
|
const map = Map({ a: 1, b: 2, c: 3 });
|
|
const lazySeq = Seq(map);
|
|
```
|
|
|
|
`Seq` allows for the efficient chaining of operations, allowing for the
|
|
expression of logic that can otherwise be very tedious:
|
|
|
|
```js
|
|
lazySeq
|
|
.flip()
|
|
.map(key => key.toUpperCase())
|
|
.flip();
|
|
// Seq { A: 1, B: 2, C: 3 }
|
|
```
|
|
|
|
As well as expressing logic that would otherwise seem memory or time
|
|
limited, for example `Range` is a special kind of Lazy sequence.
|
|
|
|
<!-- runkit:activate -->
|
|
|
|
```js
|
|
const { Range } = require('immutable');
|
|
Range(1, Infinity)
|
|
.skip(1000)
|
|
.map(n => -n)
|
|
.filter(n => n % 2 === 0)
|
|
.take(2)
|
|
.reduce((r, n) => r * n, 1);
|
|
// 1006008
|
|
```
|
|
|
|
## Comparison of filter(), groupBy(), and partition()
|
|
|
|
The `filter()`, `groupBy()`, and `partition()` methods are similar in that they
|
|
all divide a collection into parts based on applying a function to each element.
|
|
All three call the predicate or grouping function once for each item in the
|
|
input collection. All three return zero or more collections of the same type as
|
|
their input. The returned collections are always distinct from the input
|
|
(according to `===`), even if the contents are identical.
|
|
|
|
Of these methods, `filter()` is the only one that is lazy and the only one which
|
|
discards items from the input collection. It is the simplest to use, and the
|
|
fact that it returns exactly one collection makes it easy to combine with other
|
|
methods to form a pipeline of operations.
|
|
|
|
The `partition()` method is similar to an eager version of `filter()`, but it
|
|
returns two collections; the first contains the items that would have been
|
|
discarded by `filter()`, and the second contains the items that would have been
|
|
kept. It always returns an array of exactly two collections, which can make it
|
|
easier to use than `groupBy()`. Compared to making two separate calls to
|
|
`filter()`, `partition()` makes half as many calls it the predicate passed to
|
|
it.
|
|
|
|
The `groupBy()` method is a more generalized version of `partition()` that can
|
|
group by an arbitrary function rather than just a predicate. It returns a map
|
|
with zero or more entries, where the keys are the values returned by the
|
|
grouping function, and the values are nonempty collections of the corresponding
|
|
arguments. Although `groupBy()` is more powerful than `partition()`, it can be
|
|
harder to use because it is not always possible predict in advance how many
|
|
entries the returned map will have and what their keys will be.
|
|
|
|
| Summary | `filter` | `partition` | `groupBy` |
|
|
|:------------------------------|:---------|:------------|:---------------|
|
|
| ease of use | easiest | moderate | hardest |
|
|
| generality | least | moderate | most |
|
|
| laziness | lazy | eager | eager |
|
|
| # of returned sub-collections | 1 | 2 | 0 or more |
|
|
| sub-collections may be empty | yes | yes | no |
|
|
| can discard items | yes | no | no |
|
|
| wrapping container | none | array | Map/OrderedMap |
|
|
|
|
## Additional Tools and Resources
|
|
|
|
- [Atom-store](https://github.com/jameshopkins/atom-store/)
|
|
- A Clojure-inspired atom implementation in Javascript with configurability
|
|
for external persistance.
|
|
|
|
- [Chai Immutable](https://github.com/astorije/chai-immutable)
|
|
- If you are using the [Chai Assertion Library](https://chaijs.com/), this
|
|
provides a set of assertions to use against Immutable.js collections.
|
|
|
|
- [Fantasy-land](https://github.com/fantasyland/fantasy-land)
|
|
- Specification for interoperability of common algebraic structures in JavaScript.
|
|
|
|
- [Immutagen](https://github.com/pelotom/immutagen)
|
|
- A library for simulating immutable generators in JavaScript.
|
|
|
|
- [Immutable-cursor](https://github.com/redbadger/immutable-cursor)
|
|
- Immutable cursors incorporating the Immutable.js interface over
|
|
Clojure-inspired atom.
|
|
|
|
- [Immutable-ext](https://github.com/DrBoolean/immutable-ext)
|
|
- Fantasyland extensions for immutablejs
|
|
|
|
- [Immutable-js-tools](https://github.com/madeinfree/immutable-js-tools)
|
|
- Util tools for immutable.js
|
|
|
|
- [Immutable-Redux](https://github.com/gajus/redux-immutable)
|
|
- redux-immutable is used to create an equivalent function of Redux
|
|
combineReducers that works with Immutable.js state.
|
|
|
|
- [Immutable-Treeutils](https://github.com/lukasbuenger/immutable-treeutils)
|
|
- Functional tree traversal helpers for ImmutableJS data structures.
|
|
|
|
- [Irecord](https://github.com/ericelliott/irecord)
|
|
- An immutable store that exposes an RxJS observable. Great for React.
|
|
|
|
- [Mudash](https://github.com/brianneisler/mudash)
|
|
- Lodash wrapper providing Immutable.JS support.
|
|
|
|
- [React-Immutable-PropTypes](https://github.com/HurricaneJames/react-immutable-proptypes)
|
|
- PropType validators that work with Immutable.js.
|
|
|
|
- [Redux-Immutablejs](https://github.com/indexiatech/redux-immutablejs)
|
|
- Redux Immutable facilities.
|
|
|
|
- [Rxstate](https://github.com/yamalight/rxstate)
|
|
- Simple opinionated state management library based on RxJS and Immutable.js.
|
|
|
|
- [Transit-Immutable-js](https://github.com/glenjamin/transit-immutable-js)
|
|
- Transit serialisation for Immutable.js.
|
|
- See also: [Transit-js](https://github.com/cognitect/transit-js)
|
|
|
|
Have an additional tool designed to work with Immutable.js?
|
|
Submit a PR to add it to this list in alphabetical order.
|
|
|
|
## Contributing
|
|
|
|
Use [Github issues](https://github.com/immutable-js/immutable-js/issues) for requests.
|
|
|
|
We actively welcome pull requests, learn how to [contribute](https://github.com/immutable-js/immutable-js/blob/main/.github/CONTRIBUTING.md).
|
|
|
|
Immutable.js is maintained within the [Contributor Covenant's Code of Conduct](https://www.contributor-covenant.org/version/2/0/code_of_conduct/).
|
|
|
|
### Changelog
|
|
|
|
Changes are tracked as [Github releases](https://github.com/immutable-js/immutable-js/releases).
|
|
|
|
### License
|
|
|
|
Immutable.js is [MIT-licensed](./LICENSE).
|
|
|
|
### Thanks
|
|
|
|
[Phil Bagwell](https://www.youtube.com/watch?v=K2NYwP90bNs), for his inspiration
|
|
and research in persistent data structures.
|
|
|
|
[Hugh Jackson](https://github.com/hughfdjackson/), for providing the npm package
|
|
name. If you're looking for his unsupported package, see [this repository](https://github.com/hughfdjackson/immutable).
|