Interview Flashcards
- What is React?
React is a front-end and open-source JavaScript library which is useful in developing user interfaces specifically for applications with a single page. It is helpful in building complex and reusable user interface(UI) components of mobile and web applications as it follows the component-based approach.
The important features of React are:
It supports server-side rendering.
It will make use of the virtual DOM rather than real DOM (Data Object Model) as RealDOM manipulations are expensive.
It follows unidirectional data binding or data flow.
It uses reusable or composable UI components for developing the view.
- What are the limitations of React?
The few limitations of React are as given below:
React is not a full-blown framework as it is only a library.
The components of React are numerous and will take time to fully grasp the benefits of all.
It might be difficult for beginner programmers to understand React.
Coding might become complex as it will make use of inline templating and JSX.
- What is useState() in React?
The useState() is a built-in React Hook that allows you for having state variables in functional components. It should be used when the DOM has something that is dynamically manipulating/controlling.
In the below-given example code, The useState(0) will return a tuple where the count is the first parameter that represents the counter’s current state and the second parameter setCounter method will allow us to update the state of the counter.
…
const [count, setCounter] = useState(0);
const [otherStuffs, setOtherStuffs] = useState(…);
…
const setCount = () => {
setCounter(count + 1);
setOtherStuffs(…);
…
};
We can make use of setCounter() method for updating the state of count anywhere. In this example, we are using setCounter() inside the setCount function where various other things can also be done. The idea with the usage of hooks is that we will be able to keep our code more functional and avoid class-based components if they are not required.
- What are keys in React?
A key is a special string attribute that needs to be included when using lists of elements.
Example of a list using key -
const ids = [1,2,3,4,5];
const listElements = ids.map((id)=>{
return(
<li key={id.toString()}>
{id}
</li>
)
})
Importance of keys -
Keys help react identify which elements were added, changed or removed.
Keys should be given to array elements for providing a unique identity for each element.
Without keys, React does not understand the order or uniqueness of each element.
With keys, React has an idea of which particular element was deleted, edited, and added.
Keys are generally used for displaying a list of data coming from an API.
***Note- Keys used within arrays should be unique among siblings. They need not be globally unique.
- What is JSX?
JSX stands for JavaScript XML. It allows us to write HTML inside JavaScript and place them in the DOM without using functions like appendChild( ) or createElement( ).
As stated in the official docs of React, JSX provides syntactic sugar for React.createElement( ) function.
Note- We can create react applications without using JSX as well.
Let’s understand how JSX works:
Without using JSX, we would have to create an element by the following process:
const text = React.createElement(‘p’, {}, ‘This is a text’);
const container = React.createElement(‘div’,’{}’,text );
ReactDOM.render(container,rootElement);
Using JSX, the above code can be simplified:
const container = (
<div>
<p>This is a text</p>
</div>
);
ReactDOM.render(container,rootElement);
As one can see in the code above, we are directly using HTML inside JavaScript.
- What are the differences between functional and class components?
Before the introduction of Hooks in React, functional components were called stateless components and were behind class components on a feature basis. After the introduction of Hooks, functional components are equivalent to class components.
Although functional components are the new trend, the react team insists on keeping class components in React. Therefore, it is important to know how these components differ.
On the following basis let’s compare functional and class components:
Declaration
Functional components are nothing but JavaScript functions and therefore can be declared using an arrow function or the function keyword:
function card(props){
return(
<div className="main-container">
<h2>Title of the card</h2>
</div>
)
}
const card = (props) =>{
return(
<div className="main-container">
<h2>Title of the card</h2>
</div>
)
}
Class components, on the other hand, are declared using the ES6 class:
class Card extends React.Component{
constructor(props){
super(props);
}
render(){
return(
<div className="main-container">
<h2>Title of the card</h2>
</div>
)
}
}
Handling props
Let’s render the following component with props and analyse how functional and class components handle props:
<Student></Student>
In functional components, the handling of props is pretty straightforward. Any prop provided as an argument to a functional component can be directly used inside HTML elements:
function StudentInfo(props){
return(
<div className="main">
<h2>{props.name}</h2>
<h4>{props.rollNumber}</h4>
</div>
)
}
In the case of class components, props are handled in a different way:
class StudentInfo extends React.Component{
constructor(props){
super(props);
}
render(){
return(
<div className="main">
<h2>{this.props.name}</h2>
<h4>{this.props.rollNumber}</h4>
</div>
)
}
}
As we can see in the code above, this keyword is used in the case of class components.
Handling state
Functional components use React hooks to handle state. It uses the useState hook to set the state of a variable inside the component:
function ClassRoom(props){
let [studentsCount,setStudentsCount] = useState(0);
const addStudent = () => {
setStudentsCount(++studentsCount);
}
return(
<div>
<p>Number of students in class room: {studentsCount}</p>
<button onClick={addStudent}>Add Student</button>
</div>
)
}
Since useState hook returns an array of two items, the first item contains the current state, and the second item is a function used to update the state.
In the code above, using array destructuring we have set the variable name to studentsCount with a current value of “0” and setStudentsCount is the function that is used to update the state.
For reading the state, we can see from the code above, the variable name can be directly used to read the current state of the variable.
We cannot use React Hooks inside class components, therefore state handling is done very differently in a class component:
Let’s take the same above example and convert it into a class component:
class ClassRoom extends React.Component{
constructor(props){
super(props);
this.state = {studentsCount : 0};
this.addStudent = this.addStudent.bind(this);
}
addStudent(){
this.setState((prevState)=>{
return {studentsCount: prevState.studentsCount++}
});
}
render(){
return(
<div>
<p>Number of students in class room: {this.state.studentsCount}</p>
<button onClick={this.addStudent}>Add Student</button>
</div>
)
}
} In the code above, we see we are using this.state to add the variable studentsCount and setting the value to “0”.
For reading the state, we are using this.state.studentsCount.
For updating the state, we need to first bind the addStudent function to this. Only then, we will be able to use the setState function which is used to update the state.
- What is the virtual DOM? How does react use the virtual DOM to render the UI?
As stated by the react team, virtual DOM is a concept where a virtual representation of the real DOM is kept inside the memory and is synced with the real DOM by a library such as ReactDOM.
Why was virtual DOM introduced?
DOM manipulation is an integral part of any web application, but DOM manipulation is quite slow when compared to other operations in JavaScript. The efficiency of the application gets affected when several DOM manipulations are being done. Most JavaScript frameworks update the entire DOM even when a small part of the DOM changes.
For example, consider a list that is being rendered inside the DOM. If one of the items in the list changes, the entire list gets rendered again instead of just rendering the item that was changed/updated. This is called inefficient updating.
To address the problem of inefficient updating, the react team introduced the concept of virtual DOM.
How does it work?
For every DOM object, there is a corresponding virtual DOM object(copy), which has the same properties. The main difference between the real DOM object and the virtual DOM object is that any changes in the virtual DOM object will not reflect on the screen directly. Consider a virtual DOM object as a blueprint of the real DOM object. Whenever a JSX element gets rendered, every virtual DOM object gets updated.
**Note- One may think updating every virtual DOM object might be inefficient, but that’s not the case. Updating the virtual DOM is much faster than updating the real DOM since we are just updating the blueprint of the real DOM.
React uses two virtual DOMs to render the user interface. One of them is used to store the current state of the objects and the other to store the previous state of the objects. Whenever the virtual DOM gets updated, react compares the two virtual DOMs and gets to know about which virtual DOM objects were updated. After knowing which objects were updated, react renders only those objects inside the real DOM instead of rendering the complete real DOM. This way, with the use of virtual DOM, react solves the problem of inefficient updating.
- What are the differences between controlled and uncontrolled components?
Controlled and uncontrolled components are just different approaches to handling input from elements in react.
Feature Uncontrolled Controlled Name attrs
One-time value retrieval (e.g. on submit) ✔️ ✔️ ✔️
Validating on submit ✔️ ✔️ ✔️
Field-level Validation ❌ ✔️ ✔️
Conditionally disabling submit button ❌ ✔️ ✔️
Enforcing input format ❌ ✔️ ✔️
several inputs for one piece of data ❌ ✔️ ✔️
dynamic inputs ❌ ✔️ 🤔
Controlled component: In a controlled component, the value of the input element is controlled by React. We store the state of the input element inside the code, and by using event-based callbacks, any changes made to the input element will be reflected in the code as well.
When a user enters data inside the input element of a controlled component, onChange function gets triggered and inside the code, we check whether the value entered is valid or invalid. If the value is valid, we change the state and re-render the input element with the new value.
Example of a controlled component:
function FormValidation(props) {
let [inputValue, setInputValue] = useState(“”);
let updateInput = e => {
setInputValue(e.target.value);
};
return (
<div>
<form>
<input type="text" value={inputValue} onChange={updateInput} />
</form>
</div>
);
}
As one can see in the code above, the value of the input element is determined by the state of the inputValue variable. Any changes made to the input element is handled by the updateInput function.
Uncontrolled component: In an uncontrolled component, the value of the input element is handled by the DOM itself. Input elements inside uncontrolled components work just like normal HTML input form elements.
The state of the input element is handled by the DOM. Whenever the value of the input element is changed, event-based callbacks are not called. Basically, react does not perform any action when there are changes made to the input element.
Whenever use enters data inside the input field, the updated data is shown directly. To access the value of the input element, we can use ref.
Example of an uncontrolled component:
function FormValidation(props) {
let inputValue = React.createRef();
let handleSubmit = e => {
alert(Input value: ${inputValue.current.value});
e.preventDefault();
};
return (
<div>
<form onSubmit={handleSubmit}>
<input type="text" ref={inputValue} />
<button>Submit</button>
</form>
</div>
);
}
As one can see in the code above, we are not using onChange function to govern the changes made to the input element. Instead, we are using ref to access the value of the input element.
- What are props in React?
The props in React are the inputs to a component of React. They can be single-valued or objects having a set of values that will be passed to components of React during creation by using a naming convention that almost looks similar to HTML-tag attributes. We can say that props are the data passed from a parent component into a child component.
The main purpose of props is to provide different component functionalities such as:
Passing custom data to the React component.
Using through this.props.reactProp inside render() method of the component.
Triggering state changes.
For example, consider we are creating an element with reactProp property as given below: <Element></Element>
This reactProp name will be considered as a property attached to the native props object of React which already exists on each component created with the help of React library: props.reactProp;.
- Explain React state and props.
Props State
Immutable Owned by its component
Has better performance Locally scoped
Can be passed to child components Writeable/Mutable
has setState() method to modify properties
Changes to state can be asynchronous
can only be passed as props
React State
Every component in react has a built-in state object, which contains all the property values that belong to that component.
In other words, the state object controls the behaviour of a component. Any change in the property values of the state object leads to the re-rendering of the component.
Note- State object is not available in functional components but, we can use React Hooks to add state to a functional component.
How to declare a state object?
Example:
class Car extends React.Component{
constructor(props){
super(props);
this.state = {
brand: “BMW”,
color: “black”
}
}
}
How to use and update the state object?
class Car extends React.Component {
constructor(props) {
super(props);
this.state = {
brand: “BMW”,
color: “Black”
};
}
changeColor() {
this.setState(prevState => {
return { color: “Red” };
});
}
render() {
return (
<div>
<button onClick={() => this.changeColor()}>Change Color</button>
<p>{this.state.color}</p>
</div>
);
}
}
As one can see in the code above, we can use the state by calling this.state.propertyName and we can change the state object property using setState method.
React Props
Every React component accepts a single object argument called props (which stands for “properties”). These props can be passed to a component using HTML attributes and the component accepts these props as an argument.
Using props, we can pass data from one component to another.
Passing props to a component:
While rendering a component, we can pass the props as an HTML attribute:
<Car></Car>
The component receives the props:
In Class component:
class Car extends React.Component {
constructor(props) {
super(props);
this.state = {
brand: this.props.brand,
color: “Black”
};
}
}
In Functional component:
function Car(props) {
let [brand, setBrand] = useState(props.brand);
}
Note- Props are read-only. They cannot be manipulated or changed inside a component.
- Explain about types of side effects in React component.
There are two types of side effects in React component. They are:
Effects without Cleanup: This side effect will be used in useEffect which does not restrict the browser from screen update. It also improves the responsiveness of an application. A few common examples are network requests, Logging, manual DOM mutations, etc.
Effects with Cleanup: Some of the Hook effects will require the cleanup after updating of DOM is done. For example, if you want to set up an external data source subscription, it requires cleaning up the memory else there might be a problem of memory leak. It is a known fact that React will carry out the cleanup of memory when the unmounting of components happens. But the effects will run for each render() method rather than for any specific method. Thus we can say that, before execution of the effects succeeding time the React will also cleanup effects from the preceding render.
- What is prop drilling in React?
Sometimes while developing React applications, there is a need to pass data from a component that is higher in the hierarchy to a component that is deeply nested. To pass data between such components, we pass props from a source component and keep passing the prop to the next component in the hierarchy till we reach the deeply nested component.
The disadvantage of using prop drilling is that the components that should otherwise be not aware of the data have access to the data.
https://d3n0h9tb65y8q.cloudfront.net/public_assets/assets/000/002/340/original/What_is_prop_drilling_in_React.png?1640091757
- What are error boundaries?
ntroduced in version 16 of React, Error boundaries provide a way for us to catch errors that occur in the render phase.
What is an error boundary?
Any component which uses one of the following lifecycle methods is considered an error boundary.
In what places can an error boundary detect an error?
Render phase
Inside a lifecycle method
Inside the constructor
Without using error boundaries:
class CounterComponent extends React.Component{
constructor(props){
super(props);
this.state = {
counterValue: 0
}
this.incrementCounter = this.incrementCounter.bind(this);
}
incrementCounter(){
this.setState(prevState => counterValue = prevState+1);
}
render(){
if(this.state.counter === 2){
throw new Error(‘Crashed’);
}
return(
<div>
<button onClick={this.incrementCounter}>Increment Value</button>
<p>Value of counter: {this.state.counterValue}</p>
</div>
)
}
}
In the code above, when the counterValue equals 2, we throw an error inside the render method.
When we are not using the error boundary, instead of seeing an error, we see a blank page. Since any error inside the render method leads to unmounting of the component. To display an error that occurs inside the render method, we use error boundaries.
With error boundaries: As mentioned above, error boundary is a component using one or both of the following methods: static getDerivedStateFromError and componentDidCatch.
Let’s create an error boundary to handle errors in the render phase:
class ErrorBoundary extends React.Component {
constructor(props) {
super(props);
this.state = { hasError: false };
}
static getDerivedStateFromError(error) {
return { hasError: true };
}
componentDidCatch(error, errorInfo) {
logErrorToMyService(error, errorInfo);
}
render() {
if (this.state.hasError) {
return <h4>Something went wrong</h4>
}
return this.props.children;
}
}
In the code above, getDerivedStateFromError function renders the fallback UI interface when the render method has an error.
componentDidCatch logs the error information to an error tracking service.
Now with the error boundary, we can render the CounterComponent in the following way:
<ErrorBoundary>
<CounterComponent></CounterComponent>
</ErrorBoundary>
- What is React Hooks?
React Hooks are the built-in functions that permit developers for using the state and lifecycle methods within React components. These are newly added features made available in React 16.8 version. Each lifecycle of a component is having 3 phases which include mount, unmount, and update. Along with that, components have properties and states. Hooks will allow using these methods by developers for improving the reuse of code with higher flexibility navigating the component tree.
Using Hook, all features of React can be used without writing class components. For example, before React version 16.8, it required a class component for managing the state of a component. But now using the useState hook, we can keep the state in a functional component.
- Explain React Hooks.
What are Hooks? Hooks are functions that let us “hook into” React state and lifecycle features from a functional component.
React Hooks cannot be used in class components. They let us write components without class.
Why were Hooks introduced in React?
React hooks were introduced in the 16.8 version of React. Previously, functional components were called stateless components. Only class components were used for state management and lifecycle methods. The need to change a functional component to a class component, whenever state management or lifecycle methods were to be used, led to the development of Hooks.
Example of a hook: useState hook:
In functional components, the useState hook lets us define a state for a component:
function Person(props) {
// We are declaring a state variable called name.
// setName is a function to update/change the value of name
let [name, setName] = useState(‘’);
}
The state variable “name” can be directly used inside the HTML.
