React Miscellaneous

Miscellaneous

⬆ Back to Top

206. What are the main features of Reselect library?

     Let's see the main features of Reselect library,

     1. Selectors can compute derived data, allowing Redux to store the minimal possible state.
     2. Selectors are efficient. A selector is not recomputed unless one of its arguments changes.
     3. Selectors are composable. They can be used as input to other selectors.

207. Give an example of Reselect usage?

     Let's take calculations and different amounts of a shipment order with the simplified usage of Reselect:

     import { createSelector } from "reselect";
     
     const shopItemsSelector = (state) => state.shop.items;
     const taxPercentSelector = (state) => state.shop.taxPercent;
     
     const subtotalSelector = createSelector(shopItemsSelector, (items) =>
       items.reduce((acc, item) => acc + item.value, 0)
     );
     
     const taxSelector = createSelector(
       subtotalSelector,
       taxPercentSelector,
       (subtotal, taxPercent) => subtotal * (taxPercent / 100)
     );
     
     export const totalSelector = createSelector(
       subtotalSelector,
       taxSelector,
       (subtotal, tax) => ({ total: subtotal + tax })
     );
     
     let exampleState = {
       shop: {
         taxPercent: 8,
         items: [
           { name: "apple", value: 1.2 },
           { name: "orange", value: 0.95 },
         ],
       },
     };
     
     console.log(subtotalSelector(exampleState)); // 2.15
     console.log(taxSelector(exampleState)); // 0.172
     console.log(totalSelector(exampleState)); // { total: 2.322 }

⬆ Back to Top

209. Does the statics object work with ES6 classes in React?

     No, statics only works with React.createClass():

     someComponent = React.createClass({
       statics: {
         someMethod: function () {
           // ..
         },
       },
     });

     But you can write statics inside ES6+ classes as below,

     class Component extends React.Component {
       static propTypes = {
         // ...
       };
     
       static someMethod() {
         // ...
       }
     }

     or writing them outside class as below,

     class Component extends React.Component {
        ....
     }
     
     Component.propTypes = {...}
     Component.someMethod = function(){....}

⬆ Back to Top

210. Can Redux only be used with React?

     Redux can be used as a data store for any UI layer. The most common usage is with React and React Native, but there are bindings available for Angular, Angular 2, Vue, Mithril, and more. Redux simply provides a subscription mechanism which can be used by any other code.

⬆ Back to Top

211. Do you need to have a particular build tool to use Redux?

     Redux is originally written in ES6 and transpiled for production into ES5 with Webpack and Babel. You should be able to use it regardless of your JavaScript build process. Redux also offers a UMD build that can be used directly without any build process at all.

⬆ Back to Top

212. How Redux Form initialValues get updated from state?

     You need to add enableReinitialize : true setting.

     const InitializeFromStateForm = reduxForm({
       form: "initializeFromState",
       enableReinitialize: true,
     })(UserEdit);

     If your initialValues prop gets updated, your form will update too.

⬆ Back to Top

213. How React PropTypes allow different types for one prop?

     You can use oneOfType() method of PropTypes.

     For example, the height property can be defined with either string or number type as below:

     Component.propTypes = {
       size: PropTypes.oneOfType([PropTypes.string, PropTypes.number]),
     };

⬆ Back to Top

214. Can I import an SVG file as react component?

     You can import SVG directly as component instead of loading it as a file. This feature is available with react-scripts@2.0.0 and higher.

     import { ReactComponent as Logo } from "./logo.svg";
     
     const App = () => (
       <div>
         {/* Logo is an actual react component */}
         <Logo />
       </div>
     );

     Note: Don't forget about the curly braces in the import.

⬆ Back to Top

215. Why are inline ref callbacks or functions not recommended?

     If the ref callback is defined as an inline function, it will get called twice during updates, first with null and then again with the DOM element. This is because a new instance of the function is created with each render, so React needs to clear the old ref and set up the new one.

     class UserForm extends Component {
       handleSubmit = () => {
         console.log("Input Value is: ", this.input.value);
       };
     
       render() {
         return (
           <form onSubmit={this.handleSubmit}>
             <input type="text" ref={(input) => (this.input = input)} /> //
             Access DOM input in handle submit
             <button type="submit">Submit</button>
           </form>
         );
       }
     }

     But our expectation is for the ref callback to get called once, when the component mounts. One quick fix is to use the ES7 class property syntax to define the function

     class UserForm extends Component {
       handleSubmit = () => {
         console.log("Input Value is: ", this.input.value);
       };
     
       setSearchInput = (input) => {
         this.input = input;
       };
     
       render() {
         return (
           <form onSubmit={this.handleSubmit}>
             <input type="text" ref={this.setSearchInput} /> // Access DOM input
             in handle submit
             <button type="submit">Submit</button>
           </form>
         );
       }
     }

     Note: In React v16.3, ⬆ Back to Top

216. What is render hijacking in react?

     The concept of render hijacking is the ability to control what a component will output from another component. It means that you decorate your component by wrapping it into a Higher-Order component. By wrapping, you can inject additional props or make other changes, which can cause changing logic of rendering. It does not actually enable hijacking, but by using HOC you make your component behave differently.

⬆ Back to Top

217. What are HOC factory implementations?

     There are two main ways of implementing HOCs in React.

     1. Props Proxy (PP) and
     2. Inheritance Inversion (II).

     But they follow different approaches for manipulating the WrappedComponent.

     Props Proxy

     In this approach, the render method of the HOC returns a React Element of the type of the WrappedComponent. We also pass through the props that the HOC receives, hence the name Props Proxy.

     function ppHOC(WrappedComponent) {
       return class PP extends React.Component {
         render() {
           return <WrappedComponent {...this.props} />;
         }
       };
     }

     Inheritance Inversion

     In this approach, the returned HOC class (Enhancer) extends the WrappedComponent. It is called Inheritance Inversion because instead of the WrappedComponent extending some Enhancer class, it is passively extended by the Enhancer. In this way the relationship between them seems inverse.

     function iiHOC(WrappedComponent) {
       return class Enhancer extends WrappedComponent {
         render() {
           return super.render();
         }
       };
     }

⬆ Back to Top

218. How to pass numbers to React component?

     You should be passing the numbers via curly braces() where as strings in quotes

     React.render(
       <User age={30} department={"IT"} />,
       document.getElementById("container")
     );

⬆ Back to Top

219. Do I need to keep all my state into Redux? Should I ever use react internal state?

     It is up to the developer's decision, i.e., it is developer's job to determine what kinds of state make up your application, and where each piece of state should live. Some users prefer to keep every single piece of data in Redux, to maintain a fully serializable and controlled version of their application at all times. Others prefer to keep non-critical or UI state, such as “is this dropdown currently open”, inside a component's internal state.

     Below are the thumb rules to determine what kind of data should be put into Redux

     1. Do other parts of the application care about this data?
     2. Do you need to be able to create further derived data based on this original data?
     3. Is the same data being used to drive multiple components?
     4. Is there value to you in being able to restore this state to a given point in time (ie, time travel debugging)?
     5. Do you want to cache the data (i.e, use what's in state if it's already there instead of re-requesting it)?

⬆ Back to Top

220. What is the purpose of registerServiceWorker in React?

     React creates a service worker for you without any configuration by default. The service worker is a web API that helps you cache your assets and other files so that when the user is offline or on a slow network, he/she can still see results on the screen, as such, it helps you build a better user experience, that's what you should know about service worker for now. It's all about adding offline capabilities to your site.

     import React from "react";
     import ReactDOM from "react-dom";
     import App from "./App";
     import registerServiceWorker from "./registerServiceWorker";
     
     ReactDOM.render(<App />, document.getElementById("root"));
     registerServiceWorker();

⬆ Back to Top

221. What is React memo function?

     Class components can be restricted from re-rendering when their input props are the same using PureComponent or shouldComponentUpdate. Now you can do the same with function components by wrapping them in React.memo.

     const MyComponent = React.memo(function MyComponent(props) {
       /* only rerenders if props change */
     });

⬆ Back to Top

222. What is React lazy function?

     The React.lazy function lets you render a dynamic import as a regular component. It will automatically load the bundle containing the OtherComponent when the component gets rendered. This must return a Promise which resolves to a module with a default export containing a React component.

     const OtherComponent = React.lazy(() => import("./OtherComponent"));
     
     function MyComponent() {
       return (
         <div>
           <OtherComponent />
         </div>
       );
     }

     Note: React.lazy and Suspense is not yet available for server-side rendering. If you want to do code-splitting in a server rendered app, we still recommend React Loadable.

⬆ Back to Top

223. How to prevent unnecessary updates using setState?

     You can compare the current value of the state with an existing state value and decide whether to rerender the page or not. If the values are the same then you need to return null to stop re-rendering otherwise return the latest state value.

     For example, the user profile information is conditionally rendered as follows,

     getUserProfile = (user) => {
       const latestAddress = user.address;
       this.setState((state) => {
         if (state.address === latestAddress) {
           return null;
         } else {
           return { title: latestAddress };
         }
       });
     };

⬆ Back to Top

224. How do you render Array, Strings and Numbers in React 16 Version?

     Arrays: Unlike older releases, you don't need to make sure render method return a single element in React16. You are able to return multiple sibling elements without a wrapping element by returning an array.

     For example, let us take the below list of developers,

     const ReactJSDevs = () => {
       return [
         <li key="1">John</li>,
         <li key="2">Jackie</li>,
         <li key="3">Jordan</li>,
       ];
     };

     You can also merge this array of items in another array component.

     const JSDevs = () => {
       return (
         <ul>
           <li>Brad</li>
           <li>Brodge</li>
           <ReactJSDevs />
           <li>Brandon</li>
         </ul>
       );
     };

     Strings and Numbers: You can also return string and number type from the render method.

     render() {
      return 'Welcome to ReactJS questions';
     }
     // Number
     render() {
      return 2018;
     }

⬆ Back to Top

225. How to use class field declarations syntax in React classes?

     React Class Components can be made much more concise using the class field declarations. You can initialize the local state without using the constructor and declare class methods by using arrow functions without the extra need to bind them.

     Let's take a counter example to demonstrate class field declarations for state without using constructor and methods without binding,

     class Counter extends Component {
       state = { value: 0 };
     
       handleIncrement = () => {
         this.setState((prevState) => ({
           value: prevState.value + 1,
         }));
       };
     
       handleDecrement = () => {
         this.setState((prevState) => ({
           value: prevState.value - 1,
         }));
       };
     
       render() {
         return (
           <div>
             {this.state.value}
     
             <button onClick={this.handleIncrement}>+</button>
             <button onClick={this.handleDecrement}>-</button>
           </div>
         );
       }
     }

⬆ Back to Top

226. What are hooks?

     Hooks is a special JavaScript function that allows you use state and other React features without writing a class. This pattern has been introduced as a new feature in React 16.8 and helped to isolate the stateful logic from the components.

     Let's see an example of useState hook:

     import { useState } from "react";
     
     function Example() {
       // Declare a new state variable, which we'll call "count"
       const [count, setCount] = useState(0);
     
       return (
         <>
           <p>You clicked {count} times</p>
           <button onClick={() => setCount(count + 1)}>Click me</button>
         </>
       );
     }

     Note: Hooks can be used inside an existing function component without rewriting the component.

⬆ Back to Top

227. What rules need to be followed for hooks?

     You need to follow two rules in order to use hooks,

     1. Call Hooks only at the top level of your react functions: You shouldn’t call Hooks inside loops, conditions, or nested functions. This will ensure that Hooks are called in the same order each time a component renders and it preserves the state of Hooks between multiple useState and useEffect calls.
     2. Call Hooks from React Functions only: You shouldn’t call Hooks from regular JavaScript functions. Instead, you should call them from either function components or custom hooks.

     The eslint plugin named eslint-plugin-react-hooks can be used to enforce these two rules.

⬆ Back to Top

228. How to ensure hooks followed the rules in your project?

     React team released an ESLint plugin called eslint-plugin-react-hooks that enforces these two rules. You can add this plugin to your project using the below command,

     npm install eslint-plugin-react-hooks@next

     And apply the below config in your ESLint config file,

     // Your ESLint configuration
     {
       "plugins": [
         // ...
         "react-hooks"
       ],
       "rules": {
         // ...
         "react-hooks/rules-of-hooks": "error"
       }
     }

     For example, the linter enforce proper naming convention for hooks. If you rename your custom hooks which as prefix "use" to something else then linter won't allow you to call built-in hooks such as useState, useEffect etc inside of your custom hook anymore.

     Note: This plugin is intended to use in Create React App by default.

⬆ Back to Top

229. What are the differences between Flux and Redux?

     Below are the major differences between Flux and Redux

     Flux	Redux
     State is mutable	State is immutable
     The Store contains both state and change logic	The Store and change logic are separate
     There are multiple stores exist	There is only one store exist
     All the stores are disconnected and flat	Single store with hierarchical reducers
     It has a singleton dispatcher	There is no concept of dispatcher
     React components subscribe to the store	Container components uses connect function

⬆ Back to Top

230. What are the benefits of React Router V4?

     Below are the main benefits of React Router V4 module,

     1. In React Router v4(version 4), the API is completely about components. A router can be visualized as a single component(<BrowserRouter>) which wraps specific child router components(<Route>).
     2. You don't need to manually set history. The router module will take care history by wrapping routes with <BrowserRouter> component.
     3. The application size is reduced by adding only the specific router module(Web, core, or native)

⬆ Back to Top

231. Can you describe about componentDidCatch lifecycle method signature?

     The componentDidCatch lifecycle method is invoked after an error has been thrown by a descendant component. The method receives two parameters,

     1. error: - The error object which was thrown
     2. info: - An object with a componentStack key contains the information about which component threw the error.

     The method structure would be as follows

     componentDidCatch(error, info);

⬆ Back to Top

232. In which scenarios error boundaries do not catch errors?

     Below are the cases in which error boundaries doesn't work,

     1. Inside Event handlers
     2. Asynchronous code using setTimeout or requestAnimationFrame callbacks
     3. During Server side rendering
     4. When errors thrown in the error boundary code itself

⬆ Back to Top

233. Why do you not need error boundaries for event handlers?

     Error boundaries do not catch errors inside event handlers.

     React doesn’t need error boundaries to recover from errors in event handlers. Unlike the render method and lifecycle methods, the event handlers don’t happen during rendering. So if they throw, React still knows what to display on the screen.

     If you need to catch an error inside an event handler, use the regular JavaScript try / catch statement:

     class MyComponent extends React.Component {
       constructor(props) {
         super(props);
         this.state = { error: null };
         this.handleClick = this.handleClick.bind(this);
       }
     
       handleClick() {
         try {
           // Do something that could throw
         } catch (error) {
           this.setState({ error });
         }
       }
     
       render() {
         if (this.state.error) {
           return <h1>Caught an error.</h1>;
         }
         return <button onClick={this.handleClick}>Click Me</button>;
       }
     }

     Note that the above example is demonstrating regular JavaScript behavior and doesn’t use error boundaries.

⬆ Back to Top

234. What is the difference between try catch block and error boundaries?

     Try catch block works with imperative code whereas error boundaries are meant for declarative code to render on the screen.

     For example, the try catch block used for below imperative code

     try {
       showButton();
     } catch (error) {
       // ...
     }

     Whereas error boundaries wrap declarative code as below,

     <ErrorBoundary>
       <MyComponent />
     </ErrorBoundary>

     So if an error occurs in a componentDidUpdate method caused by a setState somewhere deep in the tree, it will still correctly propagate to the closest error boundary.

⬆ Back to Top

235. What is the behavior of uncaught errors in react 16?

     In React 16, errors that were not caught by any error boundary will result in unmounting of the whole React component tree. The reason behind this decision is that it is worse to leave corrupted UI in place than to completely remove it. For example, it is worse for a payments app to display a wrong amount than to render nothing.

⬆ Back to Top

236. What is the proper placement for error boundaries?

     The granularity of error boundaries usage is up to the developer based on project needs. You can follow either of these approaches,
     1. You can wrap top-level route components to display a generic error message for the entire application.
     2. You can also wrap individual components in an error boundary to protect them from crashing the rest of the application.

⬆ Back to Top

237. What is the benefit of component stack trace from error boundary?

     Apart from error messages and javascript stack, React16 will display the component stack trace with file names and line numbers using error boundary concept.

     For example, BuggyCounter component displays the component stack trace as below,

     

⬆ Back to Top

238. What is the required method to be defined for a class component?

     The render() method is the only required method in a class component. i.e, All methods other than render method are optional for a class component.

⬆ Back to Top

239. What are the possible return types of render method?

     Below are the list of following types used and return from render method,

     1. ```React elements: Elements that instruct React to render a DOM node. It includes html elements such as <div/> and user defined elements.
     2. Arrays and fragments: Return multiple elements to render as Arrays and Fragments to wrap multiple elements
     3. Portals: Render children into a different DOM subtree.
     4. String and numbers: Render both Strings and Numbers as text nodes in the DOM
     5. Booleans or null: Doesn't render anything but these types are used to conditionally render content.

⬆ Back to Top

240. What is the main purpose of constructor?

     The constructor is mainly used for two purposes,

     1. To initialize local state by assigning object to this.state
     2. For binding event handler methods to the instance For example, the below code covers both the above cases,

     constructor(props) {
       super(props);
       // Don't call this.setState() here!
       this.state = { counter: 0 };
       this.handleClick = this.handleClick.bind(this);
     }

⬆ Back to Top

241. Is it mandatory to define constructor for React component?

     No, it is not mandatory. i.e, If you don’t initialize state and you don’t bind methods, you don’t need to implement a constructor for your React component.

⬆ Back to Top

242. What are default props?

     The defaultProps can be defined as a property on the component to set the default values for the props. These default props are used when props not supplied(i.e., undefined props), but not for null props. That means, If you provide null value then it remains null value.

     For example, let us create color default prop for the button component,

     function MyButton {
       // ...
     }
     
     MyButton.defaultProps = {
       color: "red",
     };

     If props.color is not provided then it will set the default value to 'red'. i.e, Whenever you try to access the color prop it uses the default value

     render() {
        return <MyButton /> ; // props.color will contain red value
      }

⬆ Back to Top

243. Why should not call setState in componentWillUnmount?

     You should not call setState() in componentWillUnmount() because once a component instance is unmounted, it will never be mounted again.

⬆ Back to Top

244. What is the purpose of getDerivedStateFromError?

     This lifecycle method is invoked after an error has been thrown by a descendant component. It receives the error that was thrown as a parameter and should return a value to update state.

     The signature of the lifecycle method is as follows,

     static getDerivedStateFromError(error)

     Let us take error boundary use case with the above lifecycle method for demonstration purpose,

     class ErrorBoundary extends React.Component {
       constructor(props) {
         super(props);
         this.state = { hasError: false };
       }
     
       static getDerivedStateFromError(error) {
         // Update state so the next render will show the fallback UI.
         return { hasError: true };
       }
     
       render() {
         if (this.state.hasError) {
           // You can render any custom fallback UI
           return <h1>Something went wrong.</h1>;
         }
     
         return this.props.children;
       }
     }

⬆ Back to Top

245. What is the methods order when component re-rendered?

     An update can be caused by changes to props or state. The below methods are called in the following order when a component is being re-rendered.

     1. static getDerivedStateFromProps()
     2. shouldComponentUpdate()
     3. render()
     4. getSnapshotBeforeUpdate()
     5. componentDidUpdate()

⬆ Back to Top

246. What are the methods invoked during error handling?

     Below methods are called when there is an error during rendering, in a lifecycle method, or in the constructor of any child component.

     1. static getDerivedStateFromError()
     2. componentDidCatch()

⬆ Back to Top

247. What is the purpose of displayName class property?

     The displayName string is used in debugging messages. Usually, you don’t need to set it explicitly because it’s inferred from the name of the function or class that defines the component. You might want to set it explicitly if you want to display a different name for debugging purposes or when you create a higher-order component.

     For example, To ease debugging, choose a display name that communicates that it’s the result of a withSubscription HOC.

     function withSubscription(WrappedComponent) {
       class WithSubscription extends React.Component {
         /* ... */
       }
       WithSubscription.displayName = `WithSubscription(${getDisplayName(
         WrappedComponent
       )})`;
       return WithSubscription;
     }
     function getDisplayName(WrappedComponent) {
       return (
         WrappedComponent.displayName || WrappedComponent.name || "Component"
       );
     }

⬆ Back to Top

248. What is the browser support for react applications?

     React supports all popular browsers, including Internet Explorer 9 and above, although some polyfills are required for older browsers such as IE 9 and IE 10. If you use es5-shim and es5-sham polyfill then it even support old browsers that doesn't support ES5 methods.

⬆ Back to Top

249. What is the purpose of unmountComponentAtNode method?

     This method is available from react-dom package and it removes a mounted React component from the DOM and clean up its event handlers and state. If no component was mounted in the container, calling this function does nothing. Returns true if a component was unmounted and false if there was no component to unmount.

     The method signature would be as follows,

     ReactDOM.unmountComponentAtNode(container);

⬆ Back to Top

250. What is code-splitting?

     Code-Splitting is a feature supported by bundlers like Webpack and Browserify which can create multiple bundles that can be dynamically loaded at runtime. The react project supports code splitting via dynamic import() feature.

     For example, in the below code snippets, it will make moduleA.js and all its unique dependencies as a separate chunk that only loads after the user clicks the 'Load' button. moduleA.js

     const moduleA = "Hello";
     
     export { moduleA };

     App.js

     import React, { Component } from "react";
     
     class App extends Component {
       handleClick = () => {
         import("./moduleA")
           .then(({ moduleA }) => {
             // Use moduleA
           })
           .catch((err) => {
             // Handle failure
           });
       };
     
       render() {
         return (
           <div>
             <button onClick={this.handleClick}>Load</button>
           </div>
         );
       }
     }
     
     export default App;

⬆ Back to Top

252. What are Keyed Fragments?

     The Fragments declared with the explicit <React.Fragment> syntax may have keys. The general use case is mapping a collection to an array of fragments as below,

     function Glossary(props) {
       return (
         <dl>
           {props.items.map((item) => (
             // Without the `key`, React will fire a key warning
             <React.Fragment key={item.id}>
               <dt>{item.term}</dt>
               <dd>{item.description}</dd>
             </React.Fragment>
           ))}
         </dl>
       );
     }

     Note: key is the only attribute that can be passed to Fragment. In the future, there might be a support for additional attributes, such as event handlers.

⬆ Back to Top

253. Does React support all HTML attributes?

     As of React 16, both standard or custom DOM attributes are fully supported. Since React components often take both custom and DOM-related props, React uses the camelCase convention just like the DOM APIs.

     Let us take few props with respect to standard HTML attributes,

     <div tabIndex="-1" />      // Just like node.tabIndex DOM API
     <div className="Button" /> // Just like node.className DOM API
     <input readOnly={true} />  // Just like node.readOnly DOM API

     These props work similarly to the corresponding HTML attributes, with the exception of the special cases. It also support all SVG attributes.

⬆ Back to Top

254. What are the limitations with HOCs?

     Higher-order components come with a few caveats apart from its benefits. Below are the few listed in an order,

     1. Don’t use HOCs inside the render method: It is not recommended to apply a HOC to a component within the render method of a component.

        render() {
          // A new version of EnhancedComponent is created on every render
          // EnhancedComponent1 !== EnhancedComponent2
          const EnhancedComponent = enhance(MyComponent);
          // That causes the entire subtree to unmount/remount each time!
          return <EnhancedComponent />;
        }

        The above code impacts on performance by remounting a component that causes the state of that component and all of its children to be lost. Instead, apply HOCs outside the component definition so that the resulting component is created only once.

     2. Static methods must be copied over: When you apply a HOC to a component the new component does not have any of the static methods of the original component

        // Define a static method
        WrappedComponent.staticMethod = function () {
          /*...*/
        };
        // Now apply a HOC
        const EnhancedComponent = enhance(WrappedComponent);
        
        // The enhanced component has no static method
        typeof EnhancedComponent.staticMethod === "undefined"; // true

        You can overcome this by copying the methods onto the container before returning it,

        function enhance(WrappedComponent) {
          class Enhance extends React.Component {
            /*...*/
          }
          // Must know exactly which method(s) to copy :(
          Enhance.staticMethod = WrappedComponent.staticMethod;
          return Enhance;
        }

     3. Refs aren’t passed through: For HOCs you need to pass through all props to the wrapped component but this does not work for refs. This is because ref is not really a prop similar to key. In this case you need to use the React.forwardRef API

⬆ Back to Top

255. How to debug forwardRefs in DevTools?

     React.forwardRef accepts a render function as parameter and DevTools uses this function to determine what to display for the ref forwarding component.

     For example, If you don't name the render function or not using displayName property then it will appear as ”ForwardRef” in the DevTools,

     const WrappedComponent = React.forwardRef((props, ref) => {
       return <LogProps {...props} forwardedRef={ref} />;
     });

     But If you name the render function then it will appear as ”ForwardRef(myFunction)”

     const WrappedComponent = React.forwardRef(function myFunction(props, ref) {
       return <LogProps {...props} forwardedRef={ref} />;
     });

     As an alternative, You can also set displayName property for forwardRef function,

     function logProps(Component) {
       class LogProps extends React.Component {
         // ...
       }
     
       function forwardRef(props, ref) {
         return <LogProps {...props} forwardedRef={ref} />;
       }
     
       // Give this component a more helpful display name in DevTools.
       // e.g. "ForwardRef(logProps(MyComponent))"
       const name = Component.displayName || Component.name;
       forwardRef.displayName = `logProps(${name})`;
     
       return React.forwardRef(forwardRef);
     }

⬆ Back to Top

256. When component props defaults to true?

     If you pass no value for a prop, it defaults to true. This behavior is available so that it matches the behavior of HTML.

     For example, below expressions are equivalent,

     <MyInput autocomplete />
     
     <MyInput autocomplete={true} />

     Note: It is not recommended to use this approach because it can be confused with the ES6 object shorthand (example, {name} which is short for {name: name})

⬆ Back to Top

257. What is NextJS and major features of it?

     Next.js is a popular and lightweight framework for static and server‑rendered applications built with React. It also provides styling and routing solutions. Below are the major features provided by NextJS,

     1. Server-rendered by default
     2. Automatic code splitting for faster page loads
     3. Simple client-side routing (page based)
     4. Webpack-based dev environment which supports (HMR)
     5. Able to implement with Express or any other Node.js HTTP server
     6. Customizable with your own Babel and Webpack configurations

⬆ Back to Top

258. How do you pass an event handler to a component?

     You can pass event handlers and other functions as props to child components. It can be used in child component as below,

     <button onClick="{this.handleClick}"></button>

⬆ Back to Top

259. Is it good to use arrow functions in render methods?

     Yes, You can use. It is often the easiest way to pass parameters to callback functions. But you need to optimize the performance while using it.

     class Foo extends Component {
       handleClick() {
         console.log("Click happened");
       }
       render() {
         return <button onClick={() => this.handleClick()}>Click Me</button>;
       }
     }

     Note: Using an arrow function in render method creates a new function each time the component renders, which may have performance implications

⬆ Back to Top

260. How to prevent a function from being called multiple times?

     If you use an event handler such as onClick or onScroll and want to prevent the callback from being fired too quickly, then you can limit the rate at which callback is executed. This can be achieved in the below possible ways,

     1. Throttling: Changes based on a time based frequency. For example, it can be used using _.throttle lodash function
     2. Debouncing: Publish changes after a period of inactivity. For example, it can be used using _.debounce lodash function
     3. RequestAnimationFrame throttling: Changes based on requestAnimationFrame. For example, it can be used using raf-schd lodash function

⬆ Back to Top

261. How JSX prevents Injection Attacks?

     React DOM escapes any values embedded in JSX before rendering them. Thus it ensures that you can never inject anything that’s not explicitly written in your application. Everything is converted to a string before being rendered.

     For example, you can embed user input as below,

     const name = response.potentiallyMaliciousInput;
     const element = <h1>{name}</h1>;

     This way you can prevent XSS(Cross-site-scripting) attacks in the application.

⬆ Back to Top

262. How do you update rendered elements?

     You can update UI(represented by rendered element) by passing the newly created element to ReactDOM's render method.

     For example, lets take a ticking clock example, where it updates the time by calling render method multiple times,

     function tick() {
       const element = (
         <div>
           <h1>Hello, world!</h1>
           <h2>It is {new Date().toLocaleTimeString()}.</h2>
         </div>
       );
       ReactDOM.render(element, document.getElementById("root"));
     }
     
     setInterval(tick, 1000);

⬆ Back to Top

263. How do you say that props are readonly?

     When you declare a component as a function or a class, it must never modify its own props.

     Let us take a below capital function,

     function capital(amount, interest) {
       return amount + interest;
     }

     The above function is called “pure” because it does not attempt to change their inputs, and always return the same result for the same inputs. Hence, React has a single rule saying "All React components must act like pure functions with respect to their props."

⬆ Back to Top

264. How do you say that state updates are merged?

     When you call setState() in the component, React merges the object you provide into the current state.

     For example, let us take a facebook user with posts and comments details as state variables,

       constructor(props) {
         super(props);
         this.state = {
           posts: [],
           comments: []
         };
       }

     Now you can update them independently with separate setState() calls as below,

      componentDidMount() {
         fetchPosts().then(response => {
           this.setState({
             posts: response.posts
           });
         });
     
         fetchComments().then(response => {
           this.setState({
             comments: response.comments
           });
         });
       }

     As mentioned in the above code snippets, this.setState({comments}) updates only comments variable without modifying or replacing posts variable.

⬆ Back to Top

265. How do you pass arguments to an event handler?

     During iterations or loops, it is common to pass an extra parameter to an event handler. This can be achieved through arrow functions or bind method.

     Let us take an example of user details updated in a grid,

     <button onClick={(e) => this.updateUser(userId, e)}>Update User details</button>
     <button onClick={this.updateUser.bind(this, userId)}>Update User details</button>

     In the both approaches, the synthetic argument e is passed as a second argument. You need to pass it explicitly for arrow functions and it will be passed automatically for bind method.

⬆ Back to Top

266. How to prevent component from rendering?

     You can prevent component from rendering by returning null based on specific condition. This way it can conditionally render component.

     function Greeting(props) {
       if (!props.loggedIn) {
         return null;
       }
     
       return <div className="greeting">welcome, {props.name}</div>;
     }

     class User extends React.Component {
       constructor(props) {
         super(props);
         this.state = {loggedIn: false, name: 'John'};
       }
     
       render() {
        return (
            <div>
              //Prevent component render if it is not loggedIn
              <Greeting loggedIn={this.state.loggedIn} />
              <UserDetails name={this.state.name}>
            </div>
        );
       }

     In the above example, the greeting component skips its rendering section by applying condition and returning null value.

⬆ Back to Top

267. What are the conditions to safely use the index as a key?

     There are three conditions to make sure, it is safe use the index as a key.

     1. The list and items are static– they are not computed and do not change
     2. The items in the list have no ids
     3. The list is never reordered or filtered.

⬆ Back to Top

268. Should keys be globally unique?

     The keys used within arrays should be unique among their siblings but they don’t need to be globally unique. i.e, You can use the same keys with two different arrays.

     For example, the below Book component uses two arrays with different arrays,

     function Book(props) {
       const index = (
         <ul>
           {props.pages.map((page) => (
             <li key={page.id}>{page.title}</li>
           ))}
         </ul>
       );
       const content = props.pages.map((page) => (
         <div key={page.id}>
           <h3>{page.title}</h3>
           <p>{page.content}</p>
           <p>{page.pageNumber}</p>
         </div>
       ));
       return (
         <div>
           {index}
           <hr />
           {content}
         </div>
       );
     }

⬆ Back to Top

269. What is the popular choice for form handling?

     Formik is a form library for react which provides solutions such as validation, keeping track of the visited fields, and handling form submission.

     In detail, You can categorize them as follows,

     1. Getting values in and out of form state
     2. Validation and error messages
     3. Handling form submission

     It is used to create a scalable, performant, form helper with a minimal API to solve annoying stuff.

⬆ Back to Top

270. What are the advantages of formik over redux form library?

     Below are the main reasons to recommend formik over redux form library,

     1. The form state is inherently short-term and local, so tracking it in Redux (or any kind of Flux library) is unnecessary.
     2. Redux-Form calls your entire top-level Redux reducer multiple times ON EVERY SINGLE KEYSTROKE. This way it increases input latency for large apps.
     3. Redux-Form is 22.5 kB minified gzipped whereas Formik is 12.7 kB

⬆ Back to Top

271. Why are you not required to use inheritance?

     In React, it is recommended to use composition over inheritance to reuse code between components. Both Props and composition give you all the flexibility you need to customize a component’s look and behavior explicitly and safely. Whereas, If you want to reuse non-UI functionality between components, it is suggested to extract it into a separate JavaScript module. Later components import it and use that function, object, or class, without extending it.

⬆ Back to Top

272. Can I use web components in react application?

     Yes, you can use web components in a react application. Even though many developers won't use this combination, it may require especially if you are using third-party UI components that are written using Web Components.

     For example, let us use Vaadin date picker web component as below,

     import React, { Component } from "react";
     import "./App.css";
     import "@vaadin/vaadin-date-picker";
     class App extends Component {
       render() {
         return (
           <div className="App">
             <vaadin-date-picker label="When were you born?"></vaadin-date-picker>
           </div>
         );
       }
     }
     export default App;

⬆ Back to Top

273. What is dynamic import?

     You can achieve code-splitting in your app using dynamic import.

     Let's take an example of addition,

     1. Normal Import

     import { add } from "./math";
     console.log(add(10, 20));
     2. Dynamic Import

     import("./math").then((math) => {
       console.log(math.add(10, 20));
     });

⬆ Back to Top

274. What are loadable components?

     If you want to do code-splitting in a server rendered app, it is recommend to use Loadable Components because React.lazy and Suspense is not yet available for server-side rendering. Loadable lets you render a dynamic import as a regular component.

     Lets take an example,

     import loadable from "@loadable/component";
     
     const OtherComponent = loadable(() => import("./OtherComponent"));
     
     function MyComponent() {
       return (
         <div>
           <OtherComponent />
         </div>
       );
     }

     Now OtherComponent will be loaded in a separated bundle

⬆ Back to Top

275. What is suspense component?

     If the module containing the dynamic import is not yet loaded by the time parent component renders, you must show some fallback content while you’re waiting for it to load using a loading indicator. This can be done using Suspense component.

     For example, the below code uses suspense component,

     const OtherComponent = React.lazy(() => import("./OtherComponent"));
     
     function MyComponent() {
       return (
         <div>
           <Suspense fallback={<div>Loading...</div>}>
             <OtherComponent />
           </Suspense>
         </div>
       );
     }

     As mentioned in the above code, Suspense is wrapped above the lazy component.

⬆ Back to Top

276. What is route based code splitting?

     One of the best place to do code splitting is with routes. The entire page is going to re-render at once so users are unlikely to interact with other elements in the page at the same time. Due to this, the user experience won't be disturbed.

     Let us take an example of route based website using libraries like React Router with React.lazy,

     import { BrowserRouter as Router, Route, Switch } from "react-router-dom";
     import React, { Suspense, lazy } from "react";
     
     const Home = lazy(() => import("./routes/Home"));
     const About = lazy(() => import("./routes/About"));
     
     const App = () => (
       <Router>
         <Suspense fallback={<div>Loading...</div>}>
           <Switch>
             <Route exact path="/" component={Home} />
             <Route path="/about" component={About} />
           </Switch>
         </Suspense>
       </Router>
     );

     In the above code, the code splitting will happen at each route level.

⬆ Back to Top

277. Give an example on How to use context?

     Context is designed to share data that can be considered global for a tree of React components.

     For example, in the code below lets manually thread through a “theme” prop in order to style the Button component.

     //Lets create a context with a default theme value "luna"
     const ThemeContext = React.createContext("luna");
     // Create App component where it uses provider to pass theme value in the tree
     class App extends React.Component {
       render() {
         return (
           <ThemeContext.Provider value="nova">
             <Toolbar />
           </ThemeContext.Provider>
         );
       }
     }
     // A middle component where you don't need to pass theme prop anymore
     function Toolbar(props) {
       return (
         <div>
           <ThemedButton />
         </div>
       );
     }
     // Lets read theme value in the button component to use
     class ThemedButton extends React.Component {
       static contextType = ThemeContext;
       render() {
         return <Button theme={this.context} />;
       }
     }

⬆ Back to Top

278. What is the purpose of default value in context?

     The defaultValue argument is only used when a component does not have a matching Provider above it in the tree. This can be helpful for testing components in isolation without wrapping them.

     Below code snippet provides default theme value as Luna.

     const MyContext = React.createContext(defaultValue);

⬆ Back to Top

279. How do you use contextType?

     ContextType is used to consume the context object. The contextType property can be used in two ways,

     1. contextType as property of class: The contextType property on a class can be assigned a Context object created by React.createContext(). After that, you can consume the nearest current value of that Context type using this.context in any of the lifecycle methods and render function.

        Lets assign contextType property on MyClass as below,

        class MyClass extends React.Component {
          componentDidMount() {
            let value = this.context;
            /* perform a side-effect at mount using the value of MyContext */
          }
          componentDidUpdate() {
            let value = this.context;
            /* ... */
          }
          componentWillUnmount() {
            let value = this.context;
            /* ... */
          }
          render() {
            let value = this.context;
            /* render something based on the value of MyContext */
          }
        }
        MyClass.contextType = MyContext;

     2. Static field You can use a static class field to initialize your contextType using public class field syntax.

        class MyClass extends React.Component {
          static contextType = MyContext;
          render() {
            let value = this.context;
            /* render something based on the value */
          }
        }

⬆ Back to Top

280. What is a consumer?

     A Consumer is a React component that subscribes to context changes. It requires a function as a child which receives current context value as argument and returns a react node. The value argument passed to the function will be equal to the value prop of the closest Provider for this context above in the tree.

     Lets take a simple example,

     <MyContext.Consumer>
       {value => /* render something based on the context value */}
     </MyContext.Consumer>

⬆ Back to Top

281. How do you solve performance corner cases while using context?

     The context uses reference identity to determine when to re-render, there are some gotchas that could trigger unintentional renders in consumers when a provider’s parent re-renders.

     For example, the code below will re-render all consumers every time the Provider re-renders because a new object is always created for value.

     class App extends React.Component {
       render() {
         return (
           <Provider value={{ something: "something" }}>
             <Toolbar />
           </Provider>
         );
       }
     }

     This can be solved by lifting up the value to parent state,

     class App extends React.Component {
       constructor(props) {
         super(props);
         this.state = {
           value: { something: "something" },
         };
       }
     
       render() {
         return (
           <Provider value={this.state.value}>
             <Toolbar />
           </Provider>
         );
       }
     }

⬆ Back to Top

282. What is the purpose of forward ref in HOCs?

     Refs will not get passed through because ref is not a prop. It is handled differently by React just like key. If you add a ref to a HOC, the ref will refer to the outermost container component, not the wrapped component. In this case, you can use Forward Ref API. For example, we can explicitly forward refs to the inner FancyButton component using the React.forwardRef API.

     The below HOC logs all props,

     function logProps(Component) {
       class LogProps extends React.Component {
         componentDidUpdate(prevProps) {
           console.log("old props:", prevProps);
           console.log("new props:", this.props);
         }
     
         render() {
           const { forwardedRef, ...rest } = this.props;
     
           // Assign the custom prop "forwardedRef" as a ref
           return <Component ref={forwardedRef} {...rest} />;
         }
       }
     
       return React.forwardRef((props, ref) => {
         return <LogProps {...props} forwardedRef={ref} />;
       });
     }

     Let's use this HOC to log all props that get passed to our “fancy button” component,

     class FancyButton extends React.Component {
       focus() {
         // ...
       }
     
       // ...
     }
     export default logProps(FancyButton);

     Now let's create a ref and pass it to FancyButton component. In this case, you can set focus to button element.

     import FancyButton from "./FancyButton";
     
     const ref = React.createRef();
     ref.current.focus();
     <FancyButton label="Click Me" handleClick={handleClick} ref={ref} />;

⬆ Back to Top

283. Is ref argument available for all functions or class components?

     Regular function or class components don’t receive the ref argument, and ref is not available in props either. The second ref argument only exists when you define a component with React.forwardRef call.

⬆ Back to Top

284. Why do you need additional care for component libraries while using forward refs?

     When you start using forwardRef in a component library, you should treat it as a breaking change and release a new major version of your library. This is because your library likely has a different behavior such as what refs get assigned to, and what types are exported. These changes can break apps and other libraries that depend on the old behavior.

⬆ Back to Top

285. How to create react class components without ES6?

     If you don’t use ES6 then you may need to use the create-react-class module instead. For default props, you need to define getDefaultProps() as a function on the passed object. Whereas for initial state, you have to provide a separate getInitialState method that returns the initial state.

     var Greeting = createReactClass({
       getDefaultProps: function () {
         return {
           name: "Jhohn",
         };
       },
       getInitialState: function () {
         return { message: this.props.message };
       },
       handleClick: function () {
         console.log(this.state.message);
       },
       render: function () {
         return <h1>Hello, {this.props.name}</h1>;
       },
     });

     Note: If you use createReactClass then auto binding is available for all methods. i.e, You don't need to use .bind(this) with in constructor for event handlers.

⬆ Back to Top

286. Is it possible to use react without JSX?

     Yes, JSX is not mandatory for using React. Actually it is convenient when you don’t want to set up compilation in your build environment. Each JSX element is just syntactic sugar for calling React.createElement(component, props, ...children).

     For example, let us take a greeting example with JSX,

     class Greeting extends React.Component {
       render() {
         return <div>Hello {this.props.message}</div>;
       }
     }
     
     ReactDOM.render(
       <Greeting message="World" />,
       document.getElementById("root")
     );

     You can write the same code without JSX as below,

     class Greeting extends React.Component {
       render() {
         return React.createElement("div", null, `Hello ${this.props.message}`);
       }
     }
     
     ReactDOM.render(
       React.createElement(Greeting, { message: "World" }, null),
       document.getElementById("root")
     );

⬆ Back to Top

287. What is diffing algorithm?

     React needs to use algorithms to find out how to efficiently update the UI to match the most recent tree. The diffing algorithms is generating the minimum number of operations to transform one tree into another. However, the algorithms have a complexity in the order of O(n³) where n is the number of elements in the tree.

     In this case, displaying 1000 elements would require in the order of one billion comparisons. This is far too expensive. Instead, React implements a heuristic O(n) algorithm based on two assumptions:

     1. Two elements of different types will produce different trees.
     2. The developer can hint at which child elements may be stable across different renders with a key prop.

⬆ Back to Top

288. What are the rules covered by diffing algorithm?

     When diffing two trees, React first compares the two root elements. The behavior is different depending on the types of the root elements. It covers the below rules during reconciliation algorithm,

     1. 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. For example, elements <a> to <img>, or from <Article> to <Comment> of different types lead a full rebuild.

     2. 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. Lets take an example with same DOM elements except className attribute,

        <div className="show" title="ReactJS" />
        
        <div className="hide" title="ReactJS" />

     3. 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, and calls componentWillReceiveProps() and componentWillUpdate() on the underlying instance. After that, the render() method is called and the diff algorithm recurses on the previous result and the new result.

     4. Recursing On Children: when recursing on the children of a DOM node, React just iterates over both lists of children at the same time and generates a mutation whenever there’s a difference. For example, when adding an element at the end of the children, converting between these two trees works well.

        <ul>
          <li>first</li>
          <li>second</li>
        </ul>
        
        <ul>
          <li>first</li>
          <li>second</li>
          <li>third</li>
        </ul>
        

     5. Handling keys: 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 can make the tree conversion efficient,

     <ul>
       <li key="2015">Duke</li>
       <li key="2016">Villanova</li>
     </ul>
     
     <ul>
       <li key="2014">Connecticut</li>
       <li key="2015">Duke</li>
       <li key="2016">Villanova</li>
     </ul>

⬆ Back to Top

289. When do you need to use refs?

     There are few use cases to go for refs,

     1. Managing focus, text selection, or media playback.
     2. Triggering imperative animations.
     3. Integrating with third-party DOM libraries.

⬆ Back to Top

290. Must prop be named as render for render props?

     Even though the pattern named render props, you don’t have to use a prop named render to use this pattern. i.e, Any prop that is a function that a component uses to know what to render is technically a “render prop”. Lets take an example with the children prop for render props,

     <Mouse
       children={(mouse) => (
         <p>
           The mouse position is {mouse.x}, {mouse.y}
         </p>
       )}
     />

     Actually children prop doesn’t need to be named in the list of “attributes” in JSX element. Instead, you can keep it directly inside element,

     <Mouse>
       {(mouse) => (
         <p>
           The mouse position is {mouse.x}, {mouse.y}
         </p>
       )}
     </Mouse>

     While using this above technique(without any name), explicitly state that children should be a function in your propTypes.

     Mouse.propTypes = {
       children: PropTypes.func.isRequired,
     };

⬆ Back to Top

291. What are the problems of using render props with pure components?

     If you create a function inside a render method, it negates the purpose of pure component. Because the shallow prop comparison will always return false for new props, and each render in this case will generate a new value for the render prop. You can solve this issue by defining the render function as instance method.

⬆ Back to Top

292. How do you create HOC using render props?

     You can implement most higher-order components (HOC) using a regular component with a render prop. For example, if you would prefer to have a withMouse HOC instead of a <Mouse> component, you could easily create one using a regular <Mouse> with a render prop.

     function withMouse(Component) {
       return class extends React.Component {
         render() {
           return (
             <Mouse
               render={(mouse) => <Component {...this.props} mouse={mouse} />}
             />
           );
         }
       };
     }

     This way render props gives the flexibility of using either pattern.

⬆ Back to Top

293. What is windowing technique?

     Windowing is a technique that only renders a small subset of your rows at any given time, and can dramatically reduce the time it takes to re-render the components as well as the number of DOM nodes created. If your application renders long lists of data then this technique is recommended. Both react-window and react-virtualized are popular windowing libraries which provides several reusable components for displaying lists, grids, and tabular data.

⬆ Back to Top

294. How do you print falsy values in JSX?

     The falsy values such as false, null, undefined, and true are valid children but they don't render anything. If you still want to display them then you need to convert it to string. Let's take an example on how to convert to a string,

     <div>My JavaScript variable is {String(myVariable)}.</div>

⬆ Back to Top

295. What is the typical use case of portals?

     React portals are very useful when a parent component has overflow: hidden or has properties that affect the stacking context (e.g. z-index, position, opacity) and you need to visually “break out” of its container.

     For example, dialogs, global message notifications, hovercards, and tooltips.

⬆ Back to Top

296. How do you set default value for uncontrolled component?

     In React, the value attribute on form elements will override the value in the DOM. With an uncontrolled component, you might want React to specify the initial value, but leave subsequent updates uncontrolled. To handle this case, you can specify a defaultValue attribute instead of value.

     render() {
       return (
         <form onSubmit={this.handleSubmit}>
           <label>
             User Name:
             <input
               defaultValue="John"
               type="text"
               ref={this.input} />
           </label>
           <input type="submit" value="Submit" />
         </form>
       );
     }

     The same applies for select and textArea inputs. But you need to use defaultChecked for checkbox and radio inputs.

⬆ Back to Top

297. What is your favorite React stack?

     Even though the tech stack varies from developer to developer, the most popular stack is used in react boilerplate project code. It mainly uses Redux and redux-saga for state management and asynchronous side-effects, react-router for routing purpose, styled-components for styling react components, axios for invoking REST api, and other supported stack such as webpack, reselect, ESNext, Babel. You can clone the project https://github.com/react-boilerplate/react-boilerplate and start working on any new react project.

⬆ Back to Top

298. What is the difference between Real DOM and Virtual DOM?

     Below are the main differences between Real DOM and Virtual DOM,

     Real DOM	Virtual DOM
     Updates are slow	Updates are fast
     DOM manipulation is very expensive.	DOM manipulation is very easy
     You can update HTML directly.	You Can’t directly update HTML
     It causes too much of memory wastage	There is no memory wastage
     Creates a new DOM if element updates	It updates the JSX if element update

⬆ Back to Top

299. How to add Bootstrap to a react application?

     Bootstrap can be added to your React app in a three possible ways,

     1. Using the Bootstrap CDN: This is the easiest way to add bootstrap. Add both bootstrap CSS and JS resources in a head tag.
     2. Bootstrap as Dependency: If you are using a build tool or a module bundler such as Webpack, then this is the preferred option for adding Bootstrap to your React application

        npm install bootstrap
     3. React Bootstrap Package: In this case, you can add Bootstrap to our React app is by using a package that has rebuilt Bootstrap components to work particularly as React components. Below packages are popular in this category,
        1. react-bootstrap
        2. reactstrap

⬆ Back to Top

300. Can you list down top websites or applications using react as front end framework?

     Below are the top 10 websites using React as their front-end framework,

     1. Facebook
     2. Uber
     3. Instagram
     4. WhatsApp
     5. Khan Academy
     6. Airbnb
     7. Dropbox
     8. Flipboard
     9. Netflix
     10. PayPal

⬆ Back to Top

301. Is it recommended to use CSS In JS technique in React?

     React does not have any opinion about how styles are defined but if you are a beginner then good starting point is to define your styles in a separate *.css file as usual and refer to them using className. This functionality is not part of React but came from third-party libraries. But If you want to try a different approach(CSS-In-JS) then styled-components library is a good option.

⬆ Back to Top

302. Do I need to rewrite all my class components with hooks?

     No. But you can try Hooks in a few components(or new components) without rewriting any existing code. Because there are no plans to remove classes in ReactJS.

⬆ Back to Top

303. How to fetch data with React Hooks?

     The effect hook called useEffect can be used to fetch data from an API and to set the data in the local state of the component with the useState hook’s update function.

     Here is an example of fetching a list of react articles from an API using fetch.

     import React from "react";
     
     function App() {
       const [data, setData] = React.useState({ hits: [] });
     
       React.useEffect(() => {
        fetch("http://hn.algolia.com/api/v1/search?query=react")
        .then(response => response.json())
        .then(data => setData(data))
       }, []);
     
       return (
         <ul>
           {data.hits.map((item) => (
             <li key={item.objectID}>
               <a href={item.url}>{item.title}</a>
             </li>
           ))}
         </ul>
       );
     }
     
     export default App;

     A popular way to simplify this is by using the library axios.

     We provided an empty array as second argument to the useEffect hook to avoid activating it on component updates. This way, it only fetches on component mount.

⬆ Back to Top

304. Is Hooks cover all use cases for classes?

     Hooks doesn't cover all use cases of classes but there is a plan to add them soon. Currently there are no Hook equivalents to the uncommon getSnapshotBeforeUpdate and componentDidCatch lifecycles yet.

⬆ Back to Top

305. What is the stable release for hooks support?

     React includes a stable implementation of React Hooks in 16.8 release for below packages

     1. React DOM
     2. React DOM Server
     3. React Test Renderer
     4. React Shallow Renderer

⬆ Back to Top

306. Why do we use array destructuring (square brackets notation) in useState?

     When we declare a state variable with useState, it returns a pair — an array with two items. The first item is the current value, and the second is a function that updates the value. Using [0] and [1] to access them is a bit confusing because they have a specific meaning. This is why we use array destructuring instead.

     For example, the array index access would look as follows:

     var userStateVariable = useState("userProfile"); // Returns an array pair
     var user = userStateVariable[0]; // Access first item
     var setUser = userStateVariable[1]; // Access second item

     Whereas with array destructuring the variables can be accessed as follows:

     const [user, setUser] = useState("userProfile");

     ⬆ Back to Top

307. What are the sources used for introducing hooks?

     Hooks got the ideas from several different sources. Below are some of them,

     1. Previous experiments with functional APIs in the react-future repository
     2. Community experiments with render prop APIs such as Reactions Component
     3. State variables and state cells in DisplayScript.
     4. Subscriptions in Rx.
     5. Reducer components in ReasonReact.

⬆ Back to Top

308. How do you access imperative API of web components?

     Web Components often expose an imperative API to implement its functions. You will need to use a ref to interact with the DOM node directly if you want to access imperative API of a web component. But if you are using third-party Web Components, the best solution is to write a React component that behaves as a wrapper for your Web Component.

⬆ Back to Top

309. What is formik?

     Formik is a small react form library that helps you with the three major problems,

     1. Getting values in and out of form state
     2. Validation and error messages
     3. Handling form submission

⬆ Back to Top

310. What are typical middleware choices for handling asynchronous calls in Redux?

     Some of the popular middleware choices for handling asynchronous calls in Redux eco system are Redux Thunk, Redux Promise, Redux Saga.

⬆ Back to Top

311. Do browsers understand JSX code?

     No, browsers can't understand JSX code. You need a transpiler to convert your JSX to regular Javascript that browsers can understand. The most widely used transpiler right now is Babel.

⬆ Back to Top

312. Describe about data flow in react?

     React implements one-way reactive data flow using props which reduce boilerplate and is easier to understand than traditional two-way data binding.

⬆ Back to Top

313. What is react scripts?

     The react-scripts package is a set of scripts from the create-react-app starter pack which helps you kick off projects without configuring. The react-scripts start command sets up the development environment and starts a server, as well as hot module reloading.

⬆ Back to Top

314. What are the features of create react app?

     Below are the list of some of the features provided by create react app.

     1. React, JSX, ES6, Typescript and Flow syntax support.
     2. Autoprefixed CSS
     3. CSS Reset/Normalize
     4. A live development server
     5. A fast interactive unit test runner with built-in support for coverage reporting
     6. A build script to bundle JS, CSS, and ../images for production, with hashes and sourcemaps
     7. An offline-first service worker and a web app manifest, meeting all the Progressive Web App criteria.

⬆ Back to Top

315. What is the purpose of renderToNodeStream method?

     The ReactDOMServer#renderToNodeStream method is used to generate HTML on the server and send the markup down on the initial request for faster page loads. It also helps search engines to crawl your pages easily for SEO purposes. Note: Remember this method is not available in the browser but only server.

⬆ Back to Top

316. What is MobX?

     MobX is a simple, scalable and battle tested state management solution for applying functional reactive programming (TFRP). For reactJs application, you need to install below packages,

     npm install mobx --save
     npm install mobx-react --save

⬆ Back to Top

317. What are the differences between Redux and MobX?

     Below are the main differences between Redux and MobX,

     Topic	Redux	MobX
     Definition	It is a javascript library for managing the application state	It is a library for reactively managing the state of your applications
     Programming	It is mainly written in ES6	It is written in JavaScript(ES5)
     Data Store	There is only one large store exist for data storage	There is more than one store for storage
     Usage	Mainly used for large and complex applications	Used for simple applications
     Performance	Need to be improved	Provides better performance
     How it stores	Uses JS Object to store	Uses observable to store the data

⬆ Back to Top

318. Should I learn ES6 before learning ReactJS?

     No, you don’t have to learn es2015/es6 to learn react. But you may find many resources or React ecosystem uses ES6 extensively. Let's see some of the frequently used ES6 features,

     1. Destructuring: To get props and use them in a component

        // in es 5
        var someData = this.props.someData;
        var dispatch = this.props.dispatch;
        
        // in es6
        const { someData, dispatch } = this.props;

     2. Spread operator: Helps in passing props down into a component

        // in es 5
        <SomeComponent someData={this.props.someData} dispatch={this.props.dispatch} />
        
        // in es6
        <SomeComponent {...this.props} />

     3. Arrow functions: Makes compact syntax

        // es 5
        var users = usersList.map(function (user) {
          return <li>{user.name}</li>;
        });
        // es 6
        const users = usersList.map((user) => <li>{user.name}</li>);

⬆ Back to Top

319. What is Concurrent Rendering?

     The Concurrent rendering makes React apps to be more responsive by rendering component trees without blocking the main UI thread. It allows React to interrupt a long-running render to handle a high-priority event. i.e, When you enabled concurrent Mode, React will keep an eye on other tasks that need to be done, and if there's something with a higher priority it will pause what it is currently rendering and let the other task finish first. You can enable this in two ways,

     // 1. Part of an app by wrapping with ConcurrentMode
     <React.unstable_ConcurrentMode>
       <Something />
     </React.unstable_ConcurrentMode>;
     
     // 2. Whole app using createRoot
     ReactDOM.unstable_createRoot(domNode).render(<App />);

⬆ Back to Top

320. What is the difference between async mode and concurrent mode?

     Both refers the same thing. Previously concurrent Mode being referred to as "Async Mode" by React team. The name has been changed to highlight React’s ability to perform work on different priority levels. So it avoids the confusion from other approaches to Async Rendering.

⬆ Back to Top

321. Can I use javascript urls in react16.9?

     Yes, you can use javascript: URLs but it will log a warning in the console. Because URLs starting with javascript: are dangerous by including unsanitized output in a tag like <a href> and create a security hole.

     const companyProfile = {
       website: "javascript: alert('Your website is hacked')",
     };
     // It will log a warning
     <a href={companyProfile.website}>More details</a>;

     Remember that the future versions will throw an error for javascript URLs.

⬆ Back to Top

322. What is the purpose of eslint plugin for hooks?

     The ESLint plugin enforces rules of Hooks to avoid bugs. It assumes that any function starting with ”use” and a capital letter right after it is a Hook. In particular, the rule enforces that,

     1. Calls to Hooks are either inside a PascalCase function (assumed to be a component) or another useSomething function (assumed to be a custom Hook).
     2. Hooks are called in the same order on every render.

⬆ Back to Top

323. What is the difference between Imperative and Declarative in React?

     Imagine a simple UI component, such as a "Like" button. When you tap it, it turns blue if it was previously grey, and grey if it was previously blue.

     The imperative way of doing this would be:

     if (user.likes()) {
       if (hasBlue()) {
         removeBlue();
         addGrey();
       } else {
         removeGrey();
         addBlue();
       }
     }

     Basically, you have to check what is currently on the screen and handle all the changes necessary to redraw it with the current state, including undoing the changes from the previous state. You can imagine how complex this could be in a real-world scenario.

     In contrast, the declarative approach would be:

     if (this.state.liked) {
       return <blueLike />;
     } else {
       return <greyLike />;
     }

     Because the declarative approach separates concerns, this part of it only needs to handle how the UI should look in a sepecific state, and is therefore much simpler to understand.

⬆ Back to Top

324. What are the benefits of using typescript with reactjs?

     Below are some of the benefits of using typescript with Reactjs,

     1. It is possible to use latest JavaScript features
     2. Use of interfaces for complex type definitions
     3. IDEs such as VS Code was made for TypeScript
     4. Avoid bugs with the ease of readability and Validation

     ⬆ Back to Top

325. How do you make sure that user remains authenticated on page refresh while using Context API State Management?

     When a user logs in and reload, to persist the state generally we add the load user action in the useEffect hooks in the main App.js. While using Redux, loadUser action can be easily accessed.

App.js

import { loadUser } from "../actions/auth";
store.dispatch(loadUser());

• But while using Context API, to access context in App.js, wrap the AuthState in index.js so that App.js can access the auth context. Now whenever the page reloads, no matter what route you are on, the user will be authenticated as loadUser action will be triggered on each re-render.

index.js

import React from "react";
import ReactDOM from "react-dom";
import App from "./App";
import AuthState from "./context/auth/AuthState";

ReactDOM.render(
  <React.StrictMode>
    <AuthState>
      <App />
    </AuthState>
  </React.StrictMode>,
  document.getElementById("root")
);

App.js

const authContext = useContext(AuthContext);

const { loadUser } = authContext;

useEffect(() => {
  loadUser();
}, []);

loadUser

const loadUser = async () => {
  const token = sessionStorage.getItem("token");

  if (!token) {
    dispatch({
      type: ERROR,
    });
  }
  setAuthToken(token);

  try {
    const res = await axios("/api/auth");

    dispatch({
      type: USER_LOADED,
      payload: res.data.data,
    });
  } catch (err) {
    console.error(err);
  }
};

⬆ Back to Top

326. What are the benefits of new JSX transform?

     There are three major benefits of new JSX transform,

     1. It is possible to use JSX without importing React packages
     2. The compiled output might improve the bundle size in a small amount
     3. The future improvements provides the flexibility to reduce the number of concepts to learn React.

⬆ Back to Top

327. How is the new JSX transform different from old transform??

     The new JSX transform doesn’t require React to be in scope. i.e, You don't need to import React package for simple scenarios.

     Let's take an example to look at the main differences between the old and the new transform,

     Old Transform:

     import React from "react";
     
     function App() {
       return <h1>Good morning!!</h1>;
     }

     Now JSX transform convert the above code into regular JavaScript as below,

     import React from "react";
     
     function App() {
       return React.createElement("h1", null, "Good morning!!");
     }

     New Transform:

     The new JSX transform doesn't require any React imports

     function App() {
       return <h1>Good morning!!</h1>;
     }

     Under the hood JSX transform compiles to below code

     import { jsx as _jsx } from "react/jsx-runtime";
     
     function App() {
       return _jsx("h1", { children: "Good morning!!" });
     }

     Note: You still need to import React to use Hooks.

⬆ Back to Top

328. How do you get redux scaffolding using create-react-app?

     Redux team has provided official redux+js or redux+typescript templates for create-react-app project. The generated project setup includes,

     1. Redux Toolkit and React-Redux dependencies
     2. Create and configure Redux store
     3. React-Redux <Provider> passing the store to React components
     4. Small "counter" example to demo how to add redux logic and React-Redux hooks API to interact with the store from components The below commands need to be executed along with template option as below,
     5. Javascript template:

     npx create-react-app my-app --template redux
     2. Typescript template:

     npx create-react-app my-app --template redux-typescript

     ⬆ Back to Top

329. What are React Server components?

     React Server Component is a way to write React component that gets rendered in the server-side with the purpose of improving React app performance. These components allow us to load components from the backend.

     Note: React Server Components is still under development and not recommended for production yet.

⬆ Back to Top

330. What is prop drilling?

     Prop Drilling is the process by which you pass data from one component of the React Component tree to another by going through other components that do not need the data but only help in passing it around.

⬆ Back to Top

331. What is state mutation and how to prevent it?

     State mutation happens when you try to update the state of a component without actually using setState function. This can happen when you are trying to do some computations using a state variable and unknowingly save the result in the same state variable. This is the main reason why it is advised to return new instances of state variables from the reducers by using Object.assign(, ...) or spread syntax.

     This can cause unknown issues in the UI as the value of the state variable got updated without telling React to check what all components were being affected from this update and it can cause UI bugs.

     Ex:

     class A extends React.component {
       constructor(props) {
         super(props);
         this.state = {
           loading: false
         }
      }
     
     componentDidMount() {
       let { loading } = this.state;
       loading = (() => true)(); // Trying to perform an operation and directly saving in a state variable
     }
     

     How to prevent it: Make sure your state variables are immutable by either enforcing immutability by using plugins like Immutable.js, always using setState to make updates, and returning new instances in reducers when sending updated state values.

⬆ Back to Top

332. What is the difference between useState and useRef hook?

     1. useState causes components to re-render after state updates whereas useRef doesn’t cause a component to re-render when the value or state changes. Essentially, useRef is like a “box” that can hold a mutable value in its (.current) property.
     2. useState allows us to update the state inside components. While useRef allows referencing DOM elements.

⬆ Back to Top

333. What is a wrapper component?

     A wrapper in React is a component that wraps or surrounds another component or group of components. It can be used for a variety of purposes such as adding additional functionality, styling, or layout to the wrapped components.

     For example, consider a simple component that displays a message:

     const Message = ({ text }) => {
       return <p>{text}</p>;
     };

     We can create a wrapper component that will add a border to the message component:

     const MessageWrapper = (props) => {
       return (
         <div style={{ border: "1px solid black" }}>
           <Message {...props} />
         </div>
       );
     };

     Now we can use the MessageWrapper component instead of the Message component and the message will be displayed with a border:

     <MessageWrapper text="Hello World" />

     Wrapper component can also accept its own props and pass them down to the wrapped component, for example, we can create a wrapper component that will add a title to the message component:

     const MessageWrapperWithTitle = ({title, ...props}) => {
       return (
         <div>
           <h3>{title}</h3>
           <Message {...props} />
         </div>
       );
     };

     Now we can use the MessageWrapperWithTitle component and pass title props:

     <MessageWrapperWithTitle title="My Message" text="Hello World" />

     This way, the wrapper component can add additional functionality, styling, or layout to the wrapped component while keeping the wrapped component simple and reusable.

⬆ Back to Top

334. What are the differences between useEffect and useLayoutEffect hooks?

     useEffect and useLayoutEffect are both React hooks that can be used to synchronize a component with an external system, such as a browser API or a third-party library. However, there are some key differences between the two:

     • Timing: useEffect runs after the browser has finished painting, while useLayoutEffect runs synchronously before the browser paints. This means that useLayoutEffect can be used to measure and update layout in a way that feels more synchronous to the user.

     • Browser Paint: useEffect allows browser to paint the changes before running the effect, hence it may cause some visual flicker. useLayoutEffect synchronously runs the effect before browser paints and hence it will avoid visual flicker.

     • Execution Order: The order in which multiple useEffect hooks are executed is determined by React and may not be predictable. However, the order in which multiple useLayoutEffect hooks are executed is determined by the order in which they were called.

     • Error handling: useEffect has a built-in mechanism for handling errors that occur during the execution of the effect, so that it does not crash the entire application. useLayoutEffect does not have this mechanism, and errors that occur during the execution of the effect will crash the entire application.

     In general, it's recommended to use useEffect as much as possible, because it is more performant and less prone to errors. useLayoutEffect should only be used when you need to measure or update layout, and you can't achieve the same result using useEffect.

⬆ Back to Top

335. What are the differences between Functional and Class Components?

     There are two different ways to create components in ReactJS. The main differences are listed down as below,

     1. Syntax:

     The classs components uses ES6 classes to create the components. It uses render function to display the HTML content in the webpage.

     The syntax for class component looks like as below.

     class App extends Reacts.Component {
       render(){
         return <h1>This is a class component</h1>}
       }
     

     Note: The Pascal Case is the recommended approach to provide naming to a component.

     Functional component has been improved over the years with some added features like Hooks. Here is a syntax for functional component.

     function App(){
       return <div className="App">
         <h1>Hello, I'm a function component</h1>
         </div>
     }
     

     2. State:

     State contains information or data about a component which may change over time.

     In class component, you can update the state when a user interacts with it or server updates the data using the setState() method. The initial state is going to be assigned in the Constructor( ) method using the the this.state object and it is possible to different data types in the this.state object such as string, boolean, numbers, etc. A simple example showing how we use the setState() and constructor()

     class App extends Component {
       constructor() {
         super();
         this.state = {
           message: "This is a class component",
         };
       }
       updateMessage() {
         this.setState({t
           message: "Updating the class component",
         });
       }
       render() {
         return (
           <>
             <h1>{this.state.message}</h1>
             <button
               onClick={() => {
                 this.updateMessage();
               }}>
               Click!!
             </button>
           </>
         );
       }
     }
     

     You not use state in functional components because it was only supported in class components. But over the years hooks have been implemented in functional component which enable to use state in functional component too.

     The useState() hook can used to implement state in funcitonal component. It returns an array with two items: the first item is current state and the next one is a function (setState) that updates the value of the current state.

     Let's see an example to demonstrate the state in functional components,

     function App() {
       const [message, setMessage] = useState("This is a functional component");
       const updateMessage = () => {
         setMessage("Updating the functional component");
       };
       return (
         <div className="App">
           <h1>{message} </h1>
           <button onClick={updateMessage}>Click me!!</button>
         </div>
       );
     }

     4. Props:

     Props are referred to as "properties". The props are passed into react component just like arguments passed to a function. In otherwords, they are similar to HTML attributes.

     The props are accessible in child class component using this.props as shown in below example,

     class Child extends React.Component {
       render() {
         return <h1> This is a functional component and component name is {this.props.name} </h1>;
       }
     }
     
     class Parent extends React.Component {
       render() {
              return (
                 <div className="Parent">
                 <Child name="First child component" />
                 <Child name="Second child component" />
                 </div>
               );
        }
     }

     Props in functional components are similar to that of the class components but the difference is the absence of 'this' keyword.

     function Child(props) {
       return <h1>This is a child component and the component name is{props.name}</h1>;
     }
     
     function Parent() {
       return (
         <div className="Parent">
               <Child name="First child component" />
               <Child name="Second child component" />
         </div>
       );
     }

⬆ Back to Top

336. What is strict mode in React?

React.StrictMode is a useful component for highlighting potential problems in an application. Just like <Fragment>, <StrictMode> does not render any extra DOM elements. It activates additional checks and warnings for its descendants. These checks apply for development mode only.

import React from "react";

function ExampleApplication() {
  return (
    <div>
      <Header />
      <React.StrictMode>
        <div>
          <ComponentOne />
          <ComponentTwo />
        </div>
      </React.StrictMode>
      <Header />
    </div>
  );
}

In the example above, the strict mode checks apply to <ComponentOne> and <ComponentTwo> components only. i.e., Part of the application only.

⬆ Back to Top

337. What is the benefit of strict mode?

     The <StrictMode> will be helpful in the below cases,

     1. Whenever the component

     2. Identifying components with unsafe lifecycle methods.

     3. Warning about legacy string ref API usage.

     4. Detecting unexpected side effects.

     5. Detecting legacy context API.

     6. Warning about deprecated findDOMNode usage

⬆ Back to Top

336. Why does strict mode render twice in React?

     StrictMode renders components twice in development mode(not production) in order to detect any problems with your code and warn you about those problems. This is used to detect accidental side effects in the render phase. If you used create-react-app development tool then it automatically enables StrictMode by default.

     ReactDOM.render(
       <React.StrictMode>
         {App}
       </React.StrictMode>,
       document.getElementById('root')
     );

     If you want to disable this behavior then you can remove strict mode.

     ReactDOM.render(
       {App}, 
       document.getElementById('root')
     );

     To detect side effects the following functions are invoked twice:

     1. Class component constructor, render, and shouldComponentUpdate methods
     2. Class component static getDerivedStateFromProps method
     3. Function component bodies
     4. State updater functions
     5. Functions passed to useState, useMemo, or useReducer (any Hook)

⬆ Back to Top