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Detailed explanation of React life cycle: How to reasonably manage the life cycle of components

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Release: 2023-09-26 11:16:41
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Detailed explanation of React life cycle: How to reasonably manage the life cycle of components

Detailed explanation of React life cycle: How to reasonably manage the life cycle of components requires specific code examples

Introduction:
React is a method for building user interfaces A JavaScript library that takes components as its core and enables developers to build complex applications more easily through responsive view management and automated DOM updates. In React, the life cycle of components is very important. It is responsible for managing the creation, update and destruction processes of components, and executing corresponding logic during these processes. This article will introduce the life cycle of React components in detail and provide some practical code examples to help developers better understand and apply it.

1. Life cycle of React components
The life cycle of React components can be divided into three stages: mount stage, update stage and uninstall stage. Below we will introduce the life cycle methods of each stage and their functions in detail.

  1. Mounting phase
    When the component is created and inserted into the DOM, the following life cycle methods will be executed in sequence:

1.1 constructor() method
Constructor, used to initialize the state of the component and bind event handling functions, etc.

1.2 static getDerivedStateFromProps() method
This method is used to update the state of the component based on changes in props. It receives two parameters: props and state, and returns a new state object. In this method, you should avoid using the this keyword because it does not access the instance of the component.

1.3 render() method
The render method is the core method of React component and is used to generate virtual DOM based on props and state.

1.4 componentDidMount() method
Called after the component has been inserted into the DOM, it is usually used for side effects operations such as sending network requests and obtaining data.

  1. Update phase
    When the props or state of the component change, the following life cycle methods will be executed in sequence:

2.1 static getDerivedStateFromProps() method
Update the component's state, the same as in the mount phase.

2.2 shouldComponentUpdate() method
This method is used to determine whether the component needs to be updated and returns a Boolean value. By default, every update of the parent component will result in an update of the child component, but in scenarios with high performance requirements, we can avoid unnecessary updates by overriding this method.

2.3 render() method
Update the virtual DOM of the component.

2.4 componentDidUpdate() method
Called after the component update is completed, it is usually used to handle side effects such as updated DOM operations and network requests.

  1. Unloading phase
    When the component is removed from the DOM, the following life cycle methods will be executed:

3.1 componentWillUnmount() method
The component is about to be Called when uninstalling, used to clean up components and handle some necessary operations, such as clearing timers, canceling network requests, etc.

2. Reasonably manage the component life cycle
When developing React applications, we need to reasonably manage the component life cycle to ensure that components can be created, updated, and destroyed correctly. Below we provide some best practices for reference.

1. Avoid side-effect operations in the render() method
The render() method is responsible for generating the virtual DOM of the component and should be kept pure and should not contain any side-effect operations. Side-effect operations include network requests, event binding, etc. These operations should be performed in the didMount() and didUpdate() methods.

2. Use shouldComponentUpdate() to optimize performance
By default, React will automatically update all sub-components. But in some cases, some subcomponents do not need to be updated. In this case, we can override the shouldComponentUpdate() method to determine whether the component needs to be updated. This can reduce unnecessary DOM operations and improve application performance.

3. Reasonable use of the getDerivedStateFromProps() method
After the React16.3 version, the getDerivedStateFromProps() method was added to update component status. However, since this method is called on every render, frequently modifying state in this method may cause performance issues. Therefore, complex operations in this method should be avoided as much as possible.

4. Handle asynchronous operations correctly
Asynchronous operations are often involved in components, such as network requests, timers, etc. When handling these asynchronous operations, we should use the componentDidMount() and componentWillUnmount() methods reasonably to ensure that relevant operations are performed when the component is initialized, and clean up in a timely manner when the component is unloaded to avoid problems such as memory leaks.

3. Code Example
Below we use a simple example to show how to reasonably manage the life cycle of components.

import React, { Component } from 'react';

class ExampleComponent extends Component {
  constructor(props) {
    super(props);
    this.state = {
      count: 0
    };
  }

  componentDidMount() {
    this.timer = setInterval(() => {
      this.setState(prevState => ({
        count: prevState.count + 1
      }));
    }, 1000);
  }

  componentWillUnmount() {
    clearInterval(this.timer);
  }

  render() {
    const { count } = this.state;
    return (
      <div>
        <h1>{count}</h1>
      </div>
    );
  }
}
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In the above example code, we created a component named ExampleComponent. The state count is initialized to 0 in its constructor, a timer is created in the componentDidMount() method, the state count is updated every second, and then the timer is cleared in the componentWillUnmount() method. In this way, when the component is inserted into the DOM, the timer will automatically start, and when the component is unloaded, the timer will automatically stop. By properly handling lifecycle methods, we can achieve the correct creation, update, and destruction of components while ensuring performance and code quality.

Summary:
The life cycle of React components plays an important role in developing React applications. By properly managing the component's life cycle, we can ensure component correctness and performance. In application development, we should follow the principles of the React life cycle, use it flexibly based on actual needs, and gain a deeper understanding and application through the code examples provided in this article. Finally, I hope this article can help developers who are learning and practicing React.

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