React Advanced

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useReducer

An alternative to useState. Accepts a reducer of type (state, action) => newState, and returns the current state paired with a dispatch method. (If you're familiar with Redux, you already know how this works.) useReducer is usually preferable to useState when you have complex state logic that involves multiple sub-values or when the next state depends on the previous one. useReducer also lets you optimize performance for components that trigger deep updates because you can pass dispatch down instead of callbacks.

When to Use Context

Context is designed to share data that can be considered "global" for a tree of React components, such as the current authenticated user, theme, or preferred language.

Context

Context provides a way to pass data through the component tree without having to pass props down manually at every level. In a typical React application, data is passed top-down (parent to child) via props, but this can be cumbersome for certain types of props (e.g. locale preference, UI theme) that are required by many components within an application. Context provides a way to share values like these between components without having to explicitly pass a prop through every level of the tree.

Diffing Algorithm

Elements Of Different Types Whenever the root elements have different types, React will tear down the old tree and build the new tree from scratch. DOM Elements Of The Same Type When comparing two React DOM elements of the same type, React looks at the attributes of both, keeps the same underlying DOM node, and only updates the changed attributes. Component Elements Of The Same Type When a component updates, the instance stays the same, so that state is maintained across renders. React updates the props of the underlying component instance to match the new element

Error Boundaries

Error boundaries are React components that catch JavaScript errors anywhere in their child component tree, log those errors, and display a fallback UI instead of the component tree that crashed. Error boundaries catch errors during rendering, in lifecycle methods, and in constructors of the whole tree below them.

Error boundaries

Error boundaries are React components that catch JavaScript errors anywhere in their child component tree, log those errors, and display a fallback UI instead of the component tree that crashed. Error boundaries catch errors during rendering, in lifecycle methods, and in constructors of the whole tree below them. A class component becomes an error boundary if it defines either (or both) of the lifecycle methods static getDerivedStateFromError() or componentDidCatch().

Forms

Formix React Hook Form

Testing

Jest Cypress

useRef doesn't notify you when its content changes

Mutating the .current property doesn't cause a re-render. If you want to run some code when React attaches or detaches a ref to a DOM node, you may want to use a callback ref instead.

Next.js

Next.js is a JavaScript framework that enables you to build superfast and extremely user-friendly static websites, as well as web applications using React.

a HOC doesn't modify the input component

Note that a HOC doesn't modify the input component, nor does it use inheritance to copy its behavior. Rather, a HOC composes the original component by wrapping it in a container component. A HOC is a pure function with zero side-effects.

Portals

Portals provide a first-class way to render children into a DOM node that exists outside the DOM hierarchy of the parent component.

Reconciliation

React provides a declarative API so that you don't have to worry about exactly what changes on every update. This makes writing applications a lot easier, but it might not be obvious how this is implemented within React.

Ref attribute

React supports a special attribute that you can attach to any component. The ref attribute can be an object created by React.createRef() function or a callback function, or a string (in legacy API). When the ref attribute is a callback function, the function receives the underlying DOM element or class instance (depending on the type of element) as its argument. This allows you to have direct access to the DOM element or component instance.

Keys

React will mutate every child instead of realizing it can keep the <li>Duke</li> and <li>Villanova</li> subtrees intact. This inefficiency can be a problem. In order to solve this issue, React supports a key attribute. When children have keys, React uses the key to match children in the original tree with children in the subsequent tree. For example, adding a key to our inefficient example above can make the tree conversion efficient:

Refs

Refs provide a way to access DOM nodes or React elements created in the render method. In the typical React dataflow, props are the only way that parent components interact with their children. To modify a child, you re-render it with new props. However, there are a few cases where you need to imperatively modify a child outside of the typical dataflow. The child to be modified could be an instance of a React component, or it could be a DOM element. For both of these cases, React provides an escape hatch.

useCallback

Returns a memoized callback. Pass an inline callback and an array of dependencies. useCallback will return a memoized version of the callback that only changes if one of the dependencies has changed. This is useful when passing callbacks to optimized child components that rely on reference equality to prevent unnecessary renders (e.g. shouldComponentUpdate).

useMemo

Returns a memoized value. Pass a "create" function and an array of dependencies. useMemo will only recompute the memoized value when one of the dependencies has changed. This optimization helps to avoid expensive calculations on every render. Remember that the function passed to useMemo runs during rendering. Don't do anything there that you wouldn't normally do while rendering. For example, side effects belong in useEffect, not useMemo. If no array is provided, a new value will be computed on every render.

Styling

Styled Components Tailwind CSS CSS/SCSS / SASS

useLayoutEffect

The signature is identical to useEffect, but it fires synchronously after all DOM mutations. Use this to read layout from the DOM and synchronously re-render. Updates scheduled inside useLayoutEffect will be flushed synchronously, before the browser has a chance to paint. Prefer the standard useEffect when possible to avoid blocking visual updates.

Render Props

The term "render prop" refers to a technique for sharing code between React components using a prop whose value is a function. A component with a render prop takes a function that returns a React element and calls it instead of implementing its own render logic.

Cross-cutting concerns

are parts of a program that rely on or must affect many other parts of the system.

useState

const [state, setState] = useState(initialState); Returns a stateful value, and a function to update it. During the initial render, the returned state (state) is the same as the value passed as the first argument (initialState). The setState function is used to update the state. It accepts a new state value and enqueues a re-render of the component.

React i18Next

react-i18next is a powerful internationalization framework for React / React Native which is based on i18next.

You may rely on useMemo as a performance optimization, not as a semantic guarantee.

In the future, React may choose to "forget" some previously memoized values and recalculate them on next render, e.g. to free memory for offscreen components. Write your code so that it still works without useMemo — and then add it to optimize performance.

JAMSTACK

"Jamstack" was originally cased as "JAMstack" where "JAM" stood for JavaScript, API & Markup. "A modern web development architecture based on client-side JavaScript, reusable APIs, and prebuilt Markup" JavaScript Dynamic functionalities are handled by JavaScript. There is no restriction on which framework or library you must use. APIs Server side operations are abstracted into reusable APIs and accessed over HTTPS with JavaScript. These can be third party services or your custom function. Markup Websites are served as static HTML files. These can be generated from source files, such as Markdown, using a Static Site Generator.

useEffect

Accepts a function that contains imperative, possibly effectful code. Mutations, subscriptions, timers, logging, and other side effects are not allowed inside the main body of a function component (referred to as React's render phase). Doing so will lead to confusing bugs and inconsistencies in the UI. Instead, use useEffect. The function passed to useEffect will run after the render is committed to the screen. Think of effects as an escape hatch from React's purely functional world into the imperative world. By default, effects run after every completed render, but you can choose to fire them only when certain values have changed.

useContext

Accepts a context object (the value returned from React.createContext) and returns the current context value for that context. The current context value is determined by the value prop of the nearest <MyContext.Provider> above the calling component in the tree. When the nearest <MyContext.Provider> above the component updates, this Hook will trigger a rerender with the latest context value passed to that MyContext provider. Even if an ancestor uses React.memo or shouldComponentUpdate, a rerender will still happen starting at the component itself using useContext. A component calling useContext will always re-render when the context value changes. If re-rendering the component is expensive, you can optimize it by using memoization.

Higher-Order Components

A higher-order component (HOC) is an advanced technique in React for reusing component logic. HOCs are not part of the React API, per se. They are a pattern that emerges from React's compositional nature. Concretely, a higher-order component is a function that takes a component and returns a new component. Whereas a component transforms props into UI, a higher-order component transforms a component into another component.

Routing

React Location React Router

State management

Redux/Mobx/Recoil Apollo Client React Query

There are two different ways to initialize useReducer state.

You may choose either one depending on the use case. The simplest way is to pass the initial state as a second argument. You can also create the initial state lazily. To do this, you can pass an init function as the third argument. The initial state will be set to init(initialArg).

Gatsby

a modern framework for turning content into feature-rich, visually engaging apps and websites. Gatsby is an open-source framework that combines functionality from React, GraphQL and Webpack into a single tool for building static websites and apps

Storybook

is a JavaScript tool that allows developers to create organized UI systems making both the building process and documentation more efficient and easier to use.

TypeScript

is a strongly typed programming language that builds on JavaScript. TypeScript code converts to JavaScript, which runs anywhere JavaScript TypeScript is a programming language developed and maintained by Microsoft. It is a strict syntactical superset of JavaScript and adds optional static typing to the language.

useRef

returns a mutable ref object whose .current property is initialized to the passed argument (initialValue). The returned object will persist for the full lifetime of the component. Essentially, useRef is like a "box" that can hold a mutable value in its .current property. You might be familiar with refs primarily as a way to access the DOM. If you pass a ref object to React with <div ref={myRef} />, React will set its .current property to the corresponding DOM node whenever that node changes. However, useRef() is useful for more than the ref attribute. It's handy for keeping any mutable value around similar to how you'd use instance fields in classes. This works because useRef() creates a plain JavaScript object. The only difference between useRef() and creating a {current: ...} object yourself is that useRef will give you the same ref object on every render.

If you use server rendering, keep in mind that neither useLayoutEffect nor useEffect can

run until the JavaScript is downloaded. This is why React warns when a server-rendered component contains useLayoutEffect. To fix this, either move that logic to useEffect (if it isn't necessary for the first render), or delay showing that component until after the client renders (if the HTML looks broken until useLayoutEffect runs). To exclude a component that needs layout effects from the server-rendered HTML, render it conditionally with showChild && <Child /> and defer showing it with useEffect(() => { setShowChild(true); }, []). This way, the UI doesn't appear broken before hydration.

useDebugValue

useDebugValue can be used to display a label for custom hooks in React DevTools.

useImperativeHandle

useImperativeHandle customizes the instance value that is exposed to parent components when using ref. As always, imperative code using refs should be avoided in most cases. useImperativeHandle should be used with forwardRef:

A typical use case for portals is

when a parent component has an overflow: hidden or z-index style, but you need the child to visually "break out" of its container. For example, dialogs, hovercards, and tooltips.


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