goofiw/mobx-react-lite

Lightweight React bindings for MobX based on React 16.8 and Hooks

mobx-react-lite

This is a next iteration of mobx-react coming from introducing React hooks which simplifies a lot of internal workings of this package.

You need React version 16.8.0 and above

Class based components are not supported except using <Observer> directly in its render method. If you want to transition existing projects from classes to hooks (as most of us do), you can use this package alongside the mobx-react just fine. The only conflict point is about the observer HOC. Subscribe to this issue for a proper migration guide.

Project is written in TypeScript and provides type safety out of the box. No Flow Type support is planned at this moment, but feel free to contribute.

• API documentation
  • <Observer/>
  • observer<P>(baseComponent: FunctionComponent<P>, options?: IObserverOptions): FunctionComponent<P>
  • useObserver<T>(fn: () => T, baseComponentName = "observed"): T
  • useObservable<T>(initialValue: T): T
  • useComputed(func: () => T, inputs: ReadonlyArray<any> = []): T
  • useDisposable<D extends TDisposable>(disposerGenerator: () => D, inputs: ReadonlyArray<any> = []): D
• Server Side Rendering with useStaticRendering
• Why no Provider/inject?
• What about smart/dumb components?

API documentation

<Observer/>

Observer is a React component, which applies observer to an anonymous region in your component. It takes as children a single, argumentless function which should return exactly one React component. The rendering in the function will be tracked and automatically re-rendered when needed. This can come in handy when needing to pass render function to external components (for example the React Native listview), or if you want to observe only relevant parts of the output for a performance reasons.

import { Observer, useObservable } from "mobx-react-lite"

function ObservePerson(props) {
    const person = useObservable({ name: "John" })
    return (
        <div>
            {person.name}
            <Observer>{() => <div>{person.name}</div>}</Observer>
            <button onClick={() => (person.name = "Mike")}>No! I am Mike</button>
        </div>
    )
}

In case you are a fan of render props, you can use that instead of children. Be advised, that you cannot use both approaches at once, children have a precedence. Example

import { Observer, useObservable } from "mobx-react-lite"

function ObservePerson(props) {
    const person = useObservable({ name: "John" })
    return (
        <div>
            {person.name}
            <Observer render={() => <div>{person.name}</div>} />
            <button onClick={() => (person.name = "Mike")}>No! I am Mike</button>
        </div>
    )
}

observer<P>(baseComponent: FunctionComponent<P>, options?: IObserverOptions): FunctionComponent<P>

Function that converts a function component into a reactive component, which tracks which observables are used automatically re-renders the component when one of these values changes. Observables can be passed through props, accessed from context or created locally with useObservable.

As for options, it is an optional object with the following optional properties:

• forwardRef: pass true to use forwardRef over the inner component, pass false (the default) otherwise.

import { observer, useObservable } from "mobx-react-lite"

const FriendlyComponent = observer(() => {
    const friendNameRef = React.useRef()
    const data = useObservable({
        friends: [] as string[],
        addFriend(favorite: boolean = false) {
            if (favorite === true) {
                data.friends.unshift(friendNameRef.current.value + " * ")
            } else {
                data.friends.push(friendNameRef.current.value)
            }
            friendNameRef.current.value = ""
        },
        get friendsCount() {
            return data.friends.length
        }
    })

    return (
        <div>
            <b>Count of friends: {data.friendsCount} </b>
            {data.friends.map(friend => (
                <div>{friend}</div>
            ))}
            <hr />
            <input ref={friendNameRef} />
            <button onClick={data.addFriend}>Add friend </button>
            <button onClick={() => data.addFriend(true)}>Add favorite friend</button>
        </div>
    )
})

useObserver<T>(fn: () => T, baseComponentName = "observed"): T

Low level implementation used internally by observer. It allows you to use an observer like behaviour, but still allowing you to optimize the component in any way you want (e.g. using memo with a custom areEqual, using forwardRef, etc.) and to declare exactly the part that is observed (the render phase). One good thing about this is that if any hook changes an observable for some reason then the component won't rerender twice unnecessarily.

import { memo } from "react"
import { useObserver, useObservable } from "mobx-react-lite"

const Person = memo(props => {
    const person = useObservable({ name: "John" })
    return useObserver(() => (
        <div>
            {person.name}
            <button onClick={() => (person.name = "Mike")}>No! I am Mike</button>
        </div>
    ))
})

useObservable<T>(initialValue: T): T

React hook that allows creating observable object within a component body and keeps track of it over renders. Gets all the benefits from observable objects including computed properties and methods. You can also use arrays, Map and Set.

Warning: With current implementation you also need to wrap your component to observer. It's also possible to have useObserver only in case you are not expecting rerender of the whole component.

import { observer, useObservable, useObserver } from "mobx-react-lite"

const TodoList = () => {
    const todos = useObservable(new Map<string, boolean>())
    const todoRef = React.useRef()
    const addTodo = React.useCallback(() => {
        todos.set(todoRef.current.value, false)
        todoRef.current.value = ""
    }, [])
    const toggleTodo = React.useCallback((todo: string) => {
        todos.set(todo, !todos.get(todo))
    }, [])

    return useObserver(() => (
        <div>
            {Array.from(todos).map(([todo, done]) => (
                <div onClick={() => toggleTodo(todo)} key={todo}>
                    {todo}
                    {done ? " ✔" : " ⏲"}
                </div>
            ))}
            <input ref={todoRef} />
            <button onClick={addTodo}>Add todo</button>
        </div>
    ))
}

Lazy initialization

Lazy initialization (similar to React.useState) is not available. In most cases your observable state should be a plain object which is cheap to create. With useObserver the component won't even rerender and state won't be recreated. In case you really want a more complex state or you need to use observer, it's very simple to use MobX directly.

import { observer } from "mobx-react-lite"
import { observable } from "mobx"
import { useState } from "react"

const WithComplexState = observer(() => {
    const [complexState] = useState(() => observable(new HeavyState()))
    if (complexState.loading) {
        return <Loading />
    }
    return <div>{complexState.heavyName}</div>
})

Note that if you want to track a single scalar value (string, number, boolean), you would need a boxed value which is not recognized by useObservable. However, we recommend to just useState instead which gives you almost same result (with slightly different API).

useComputed(func: () => T, inputs: ReadonlyArray<any> = []): T

Another React hook that simplifies computational logic. It's just a tiny wrapper around MobX computed function that runs computation whenever observable values change. In conjuction with observer the component will rerender based on such a change.

const Calculator = observer(({ hasExploded }: { hasExploded: boolean }) => {
    const inputRef = React.useRef()
    const inputs = useObservable([1, 3, 5])
    const result = useComputed(
        () => (hasExploded ? "💣" : inputs.reduce(multiply, 1) * Number(!hasExploded)),
        [hasExploded]
    )

    return (
        <div>
            <input ref={inputRef} />
            <button onClick={() => inputs.push(parseInt(inputRef.current.value) | 1)}>
                Multiply
            </button>
            <div>
                {inputs.join(" * ")} = {result}
            </div>
        </div>
    )
})

Notice that since the computation depends on non-observable value, it has to be passed as a second argument to useComputed. There is React useMemo behind the scenes and all rules applies here as well except you don't need to specify dependency on observable values.

useDisposable<D extends TDisposable>(disposerGenerator: () => D, inputs: ReadonlyArray<any> = []): D

The disposable is any kind of function that returns another function to be called on a component unmount to clean up used resources. Use MobX related functions like reaction, autorun, when, observe, or anything else that returns a disposer. Returns the generated disposer for early disposal.

Example (TypeScript):

import { reaction } from "mobx"
import { observer, useComputed, useDisposable } from "mobx-react-lite"

const Name = observer((props: { firstName: string; lastName: string }) => {
    const fullName = useComputed(() => `${props.firstName} ${props.lastName}`, [
        props.firstName,
        props.lastName
    ])

    // when the name changes then send this info to the server
    useDisposable(() =>
        reaction(
            () => fullName,
            () => {
                // send this to some server
            }
        )
    )

    // render phase
    return `Your full name is ${props.firstName} ${props.lastName}`
})

Server Side Rendering with useStaticRendering

When using server side rendering, the components are rendered only once. Since components are never unmounted, observer components would in this case leak memory when being rendered server side. To avoid leaking memory, call useStaticRendering(true) when using server side rendering which essentially disables observer.

import { useStaticRendering } from "mobx-react-lite"

useStaticRendering(true)

This makes sure the component won't try to react to any future data changes.

Why no Provider/inject?

Historically the Provider was useful because a lot of boilerplate was required due to experimental (but widely used) context. By introducing new Context API in React 16.3 it's fairly easy to do this.

const StoreContext = React.createContext(createStore())

// a file with a component
function ConnectedComponent() {
    // replacement for inject
    const store = useContext(StoreContext)
}

If you need to create a store sometimes later, you can just render StoreContext.Provider somewhere in tree.

const StoreContext = React.createContext()

function App({ children }) {
    return <StoreContext.Provider value={createStore()}>{children}</StoreContext.Provider>
}

What about smart/dumb components?

The React hooks don't force anyone to suddenly have a state inside a dumb component that is supposed to only render stuff. You can separate your concerns in a similar fashion.

import { createSelector } from "react-selector-hooks"

const userSelector = createSelector(({ user }) => ({
    name: user.name,
    age: user.age
}))

function UiComponent({ name, age }) {
    return (
        <div>
            <div>Name: {name}</div>
            <div>Age: {age}</div>
        </div>
    )
}

export default () => {
    // you may extract these two lines into a custom hook
    const store = useContext(StoreContext)
    const data = userSelector(store)
    return UiComponent({ ...data })
    // perhaps wrap it inside observer in here?
    return observer(UiComponent({ ...data }))
}

It may look a bit more verbose than a classic inject, but there is nothing stopping you to make your own inject HOC which is so much easier since everything is just a function.

// make universal HOC

const inject = (useSelector, baseComponent) =>
    React.useMemo(props => {
        const store = useContext(StoreContext)
        const selected = useSelector(store)

        return baseComponent({ ...selected, ...props })
    })

// use the HOC with a selector

export default inject(userSelector, UiComponent)