--- title: Core description: This doc describes core `jotai` bundle. nav: 2.01 --- - [Basic APIs](/docs/api/core.mdx#basic-apis) - [Additional APIs](/docs/api/core.mdx#additional-apis) ## Basic APIs ## atom Use `atom` to create an atom config. An atom config is an immutable object. The atom config doesn't hold an atom value. The atom value is stored in a Provider state. ```ts // primitive atom function atom(initialValue: Value): PrimitiveAtom // read-only atom function atom(read: (get: Getter) => Value | Promise): Atom // writable derived atom function atom( read: (get: Getter) => Value | Promise, write: (get: Getter, set: Setter, update: Update) => void | Promise ): WritableAtom // write-only derived atom function atom( read: Value, write: (get: Getter, set: Setter, update: Update) => void | Promise ): WritableAtom ``` - `initialValue`: the initial value that the atom will return until its value is changed. - `read`: a function that's called on every re-render. The signature of `read` is `(get) => Value | Promise`, and `get` is a function that takes an atom config and returns its value stored in Provider as described below. Dependency is tracked, so if `get` is used for an atom at least once, the `read` will be reevaluated whenever the atom value is changed. - `write`: a function mostly used for mutating atom's values, for a better description; it gets called whenever we call the second value of the returned pair of `useAtom`, the `useAtom()[1]`. The default value of this function in the primitive atom will change the value of that atom. The signature of `write` is `(get, set, update) => void | Promise`. `get` is similar to the one described above, but it doesn't track the dependency. `set` is a function that takes an atom config and a new value which then updates the atom value in Provider. `update` is an arbitrary value that we receive from the updating function returned by `useAtom` described below. ```js const primitiveAtom = atom(initialValue) const derivedAtomWithRead = atom(read) const derivedAtomWithReadWrite = atom(read, write) const derivedAtomWithWriteOnly = atom(null, write) ``` There are two kinds of atoms: a writable atom and a read-only atom. Primitive atoms are always writable. Derived atoms are writable if the `write` is specified. The `write` of primitive atoms is equivalent to the `setState` of `React.useState`. ### debugLabel The created atom config can have an optional property `debugLabel`. The debug label is used to display the atom in debugging. See [Debugging guide](../guides/debugging.mdx) for more information. Note: While, the debug labels don’t have to be unique, it’s generally recommended to make them distinguishable. ### onMount The created atom config can have an optional property `onMount`. `onMount` is a function which takes a function `setAtom` and returns `onUnmount` function optionally. The `onMount` function is called when the atom is first used in a provider, and `onUnmount` is called when it’s no longer used. In some edge cases, an atom can be unmounted and then mounted immediately. ```js const anAtom = atom(1) anAtom.onMount = (setAtom) => { console.log('atom is mounted in provider') setAtom(c => c + 1) // increment count on mount return () => { ... } // return optional onUnmount function } ``` Calling `setAtom` function will invoke the atom’s `write`. Customizing `write` allows changing the behavior. ```js const countAtom = atom(1) const derivedAtom = atom( (get) => get(countAtom), (get, set, action) => { if (action.type === 'init') { set(countAtom, 10) } else if (action.type === 'inc') { set(countAtom, (c) => c + 1) } } ) derivedAtom.onMount = (setAtom) => { setAtom({ type: 'init' }) } ``` ## useAtom ```ts // primitive or writable derived atom function useAtom( atom: WritableAtom, scope?: Scope ): [Value, SetAtom] // read-only atom function useAtom(atom: Atom, scope?: Scope): [Value, never] ``` The useAtom hook is to read an atom value stored in the Provider. It returns the atom value and an updating function as a tuple, just like useState. It takes an atom config created with `atom()`. Initially, there is no value stored in the Provider. The first time the atom is used via `useAtom`, it will add an initial value in the Provider. If the atom is a derived atom, the read function is executed to compute an initial value. When an atom is no longer used, meaning all the components using it are unmounted, and the atom config no longer exists, the value is removed from the Provider. ```js const [value, updateValue] = useAtom(anAtom) ``` The `updateValue` takes one argument, which will be passed to the third argument of writeFunction of the atom. The behavior depends on how the writeFunction is implemented. --- ## Notes ### How atom dependency works To begin with, let's explain this. In the current implementation, every time we invoke the "read" function, we refresh the dependencies and dependents. For example, If A depends on B, it means that B is a dependency of A, and A is a dependent of B. ```js const uppercaseAtom = atom((get) => get(textAtom).toUpperCase()) ``` The read function is the first parameter of the atom. The dependency will initially be empty. On first use, we run the read function and know that `uppercaseAtom` depends on `textAtom`. `textAtom` has a dependency on `uppercaseAtom`. So, add `uppercaseAtom` to the dependents of `textAtom`. When we re-run the read function (because its dependency `textAtom` is updated), the dependency is created again, which is the same in this case. We then remove stale dependents and replace with the latest one. ### Atoms can be created on demand While the basic examples here show defining atoms globally outside components, there's no restrictions about where or when we can create an atom. As long as we remember that atoms are identified by their object referential identity, we can create them anytime. If you create atoms in render functions, you would typically want to use a hook like `useRef` or `useMemo` for memoization. If not, the atom would be re-created each time the component renders. You can create an atom and store it with `useState` or even in another atom. See an example in [issue #5](https://github.com/pmndrs/jotai/issues/5). You can cache atoms somewhere globally. See [this example](https://twitter.com/dai_shi/status/1317653548314718208) or [that example](https://github.com/pmndrs/jotai/issues/119#issuecomment-706046321). Check [`atomFamily`](../api/utils.mdx#atom-family) in utils for parameterized atoms. ## Additional APIs ## Provider ```ts const Provider: React.FC<{ initialValues?: Iterable scope?: Scope }> ``` Atom configs don't hold values. Atom values reside in separate stores. A Provider is a component that contains a store and provides atom values under the component tree. A Provider works like React context provider. If you don't use a Provider, it works as provider-less mode with a default store. A Provider will be necessary if we need to hold different atom values for different component trees. Provider also has some capabilities described below, which doesn't exist in the provider-less mode. ```jsx const Root = () => ( ) ``` ### `initialValues` prop A Provider accepts an optional prop `initialValues`, with which you can specify some initial atom values. The use cases of this are testing and server side rendering. #### Example ```jsx const TestRoot = () => ( ) ``` #### TypeScript The `initialValues` prop is not type friendly. We can mitigate it by using a helper function. ```ts const createInitialValues = () => { const initialValues: (readonly [Atom, unknown])[] = [] const get = () => initialValues const set = (anAtom: Atom, value: Value) => { initialValues.push([anAtom, value]) } return { get, set } } ``` ### `scope` prop A Provider accepts an optional prop `scope` that you can use for a scoped Provider. When using atoms with a scope, the provider with the same scope is used. The recommendation for the scope value is a unique symbol. The primary use case of scope is for library usage. #### Example ```jsx const myScope = Symbol() const anAtom = atom('') const LibraryComponent = () => { const [value, setValue] = useAtom(anAtom, myScope) // ... } const LibraryRoot = ({ children }) => ( {children} ) ``` ## useSetAtom ```jsx const switchAtom = atom(false) const SetTrueButton = () => { const setCount = useSetAtom(switchAtom) const setTrue = () => setCount(true) return (
) } const SetFalseButton = () => { const setCount = useSetAtom(switchAtom) const setFalse = () => setCount(false) return (
) } export default function App() { const state = useAtomValue(switchAtom) return (
State: {state.toString()}
) } ``` In case you create a write only atom where the value never changes you can use the `useSetAtom` hook. `useSetAtom` is premature optimization in this scenario. For primitive values if you use `const [, setValue] = useAtom(valueAtom)` it can cause unnecessary re-renders, so `useSetAtom` helps to avoid those extra re-renders. ## useAtomValue ```jsx const countAtom = atom(0) const Counter = () => { const setCount = useSetAtom(countAtom) const count = useAtomValue(countAtom) return ( <>
count: {count}
) } ``` Similar to the `useSetAtom` hook, `useAtomValue` allows you to access a read-only atom. ### Some more notes about atoms - If you create a primitive atom, it will use predefined read/write functions to emulate `useState` behavior. - If you create an atom with read/write functions, they can provide any behavior with some restrictions as follows. - `read` function will be invoked during React render phase, so the function has to be pure. What is pure in React is described [here](https://gist.github.com/sebmarkbage/75f0838967cd003cd7f9ab938eb1958f). - `write` function will be invoked where you called initially and in useEffect for following invocations. So, you shouldn't call `write` in render. - When an atom is initially used with `useAtom`, it will invoke `read` function to get the initial value, this is recursive process. If an atom value exists in Provider, it will be used instead of invoking `read` function. - Once an atom is used (and stored in Provider), it's value is only updated if its dependencies are updated (including updating directly with useAtom).