👻 Primitive and flexible state management for React


Keywords
react, state, manager, management, recoil, store, atomic, hacktoberfest
License
MIT
Install
npm install jotai@0.8.1

Documentation


Jotai (light mode) Jotai (dark mode)


visit jotai.org or npm i jotai

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Jotai scales from a simple useState replacement to an enterprise TypeScript application.

  • Minimal core API (2kb)
  • Many utilities and extensions
  • No string keys (compared to Recoil)

Examples: Demo 1 | Demo 2

First, create a primitive atom

An atom represents a piece of state. All you need is to specify an initial value, which can be primitive values like strings and numbers, objects, and arrays. You can create as many primitive atoms as you want.

import { atom } from 'jotai'

const countAtom = atom(0)
const countryAtom = atom('Japan')
const citiesAtom = atom(['Tokyo', 'Kyoto', 'Osaka'])
const mangaAtom = atom({ 'Dragon Ball': 1984, 'One Piece': 1997, Naruto: 1999 })

Use the atom in your components

It can be used like React.useState:

import { useAtom } from 'jotai'

function Counter() {
  const [count, setCount] = useAtom(countAtom)
  return (
    <h1>
      {count}
      <button onClick={() => setCount((c) => c + 1)}>one up</button>
      ...

Create derived atoms with computed values

A new read-only atom can be created from existing atoms by passing a read function as the first argument. get allows you to fetch the contextual value of any atom.

const doubledCountAtom = atom((get) => get(countAtom) * 2)

function DoubleCounter() {
  const [doubledCount] = useAtom(doubledCountAtom)
  return <h2>{doubledCount}</h2>
}

Creating an atom from multiple atoms

You can combine multiple atoms to create a derived atom.

const count1 = atom(1)
const count2 = atom(2)
const count3 = atom(3)

const sum = atom((get) => get(count1) + get(count2) + get(count3))

Or if you like fp patterns ...

const atoms = [count1, count2, count3, ...otherAtoms]
const sum = atom((get) => atoms.map(get).reduce((acc, count) => acc + count))

Derived async atoms needs suspense

You can make the read function an async function too.

const urlAtom = atom('https://json.host.com')
const fetchUrlAtom = atom(async (get) => {
  const response = await fetch(get(urlAtom))
  return await response.json()
})

function Status() {
  // Re-renders the component after urlAtom is changed and the async function above concludes
  const [json] = useAtom(fetchUrlAtom)
  ...

You can create a writable derived atom

Specify a write function at the second argument. get will return the current value of an atom. set will update the value of an atom.

const decrementCountAtom = atom(
  (get) => get(countAtom),
  (get, set, _arg) => set(countAtom, get(countAtom) - 1)
)

function Counter() {
  const [count, decrement] = useAtom(decrementCountAtom)
  return (
    <h1>
      {count}
      <button onClick={decrement}>Decrease</button>
      ...

Write only derived atoms

Just do not define a read function.

const multiplyCountAtom = atom(null, (get, set, by) =>
  set(countAtom, get(countAtom) * by),
)

function Controls() {
  const [, multiply] = useAtom(multiplyCountAtom)
  return <button onClick={() => multiply(3)}>triple</button>
}

Async actions

Just make the write function an async function and call set when you're ready.

const fetchCountAtom = atom(
  (get) => get(countAtom),
  async (_get, set, url) => {
    const response = await fetch(url)
    set(countAtom, (await response.json()).count)
  }
)

function Controls() {
  const [count, compute] = useAtom(fetchCountAtom)
  return (
    <button onClick={() => compute('http://count.host.com')}>compute</button>
    ...

Note about functional programming

Jotai's fluid interface is no accident — atoms are monads, just like promises! Monads are an established pattern for modular, pure, robust and understandable code which is optimized for change. Read more about Jotai and monads.

Links