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How to Organize Large React Application and Make it Scalable ?

React is a declarative, efficient, and flexible JavaScript library for building user interfaces. It’s ‘V’ in MVC. ReactJS is an open-source, component-based front-end library responsible only for the view layer of the application. It is essential to organize a large react app so that it can be easily scalable. There are several approaches you can take to organizing a large React application and making it scale. 

Let’s understand a few approaches to organize a large react application and make it scale. Here are some examples of how you can implement each of the approaches for organizing a large React application and making it scale in a real-world React application:

1. Use a modular architecture: Modular architecture involves dividing the application into smaller, independent modules or components that each have a specific purpose or functionality. This can help to keep the codebase organized and easier to understand, as well as make it easier to reuse code and make changes without affecting other parts of the application. There are several approaches to implementing a modular architecture in a React application, such as using the React library itself to create modular components or using a tool like Webpack to create separate modules that can be imported as needed.

 

Example:

Javascript




import React from 'react';
  
const MyComponent = () => {
    return <div>Hello World!</div>;
}
  
export default MyComponent;


Explanation: In this example, the MyComponent component is a self-contained module that can be imported and used in other parts of the application as needed. This can help to keep the codebase organized and make it easier to reuse code and make changes without affecting other parts of the application.

2. Use code-splitting: Code splitting involves dividing the application’s code into smaller chunks that can be loaded on demand as needed, rather than loading all of the code at once. This can help to reduce the initial load time of the application and improve its overall performance, particularly for applications with a large codebase or a lot of features that may not be used by all users. In a React application, code splitting can be implemented using the React.lazy and Suspense components, or by using a tool like Webpack to split the code into separate chunks that can be loaded as needed.

Example:

Javascript




import React, { Suspense } from 'react';
  
const OtherComponent = React.lazy(
    () => import('./OtherComponent'));
  
const MyComponent = () => {
    return (
        <Suspense fallback={<div>Loading...</div>}>
            <OtherComponent />
        </Suspense>
    );
}


Explanation: In this example, the other component is loaded using React.lazy and Suspense, which allows it to be loaded on demand when the other component is rendered. This can help to reduce the initial load time of the application and improve its overall performance.

3. Use a state management library: In a large React application, the managing state can become complex and difficult to maintain, especially if the application has multiple components that need to share or update the same state. To help with this, you can use a state management library like Redux or MobX. These libraries provide a central store for the application states and make it easier to manage and update the state in a consistent and predictable way, using a set of rules and patterns that can help to reduce the complexity of state management.

Example:

Javascript




import { createStore } from 'redux';
  
const initialState = {
    count: 0,
};
  
const reducer = (state = initialState, action) => {
    switch (action.type) {
        case 'INCREMENT':
            return {
                count: state.count + 1,
            };
        case 'DECREMENT':
            return {
                count: state.count - 1,
            };
        default:
            return state;
    }
};
  
const store = createStore(reducer);
  
store.dispatch({ type: 'INCREMENT' });
console.log(store.getState()); // { count: 1 }


Explanation: In this example, we use the Redux library to create a central store for the application state and manage it using a reducer function. This can help to make it easier to manage and update the state in a consistent and predictable way, and can also make it easier to share the state between multiple components in the application.

4. Use a linter: A linter is a tool that checks your code for potential issues and can help to ensure that your code adheres to a set of coding standards. This can include things like checking for syntax errors, enforcing a consistent style, and identifying potential issues with code quality or performance. Using a linter can help to keep your codebase clean and maintainable as the application grows, and can also help to catch issues early on and prevent them from becoming problems later on.

Example:

Javascript




{
    "extends": ["airbnb", "prettier"],
      "rules": {
        "no-console": "off",
        "react/jsx-filename-extension": [1,
            { "extensions": [".js", ".jsx"] }]
      }
}


Explanation: In this example, we have a configuration file for the ESLint linter, which defines a set of rules that the linter will use to check the code. The extends property specifies which rules to use, and the rules property allows us to override or add additional rules as needed. By using a linter, we can help to ensure that our code adheres to a set of coding standards and is easy to read and maintain.

5. Use testing: Proper testing is crucial for maintaining the quality and stability of a large React application. This can include writing unit tests for individual components to ensure that they are working correctly, as well as integration tests for larger functionalities to ensure that everything is working together as expected. Testing can help to catch issues early on and prevent regressions as the application evolves, and can also help to ensure that changes to the codebase do not break existing functionality.

Example:

Javascript




import React from 'react';
import { shallow } from 'enzyme';
import MyComponent from './MyComponent';
  
describe('MyComponent', () => {
    it('renders the correct text', () => {
        const wrapper = shallow(<MyComponent />);
        expect(wrapper.text()).toEqual('Hello World!');
    });
});


Explanation: In this example, we use the shallow method from the Enzyme library to render an instance of MyComponent and check that it renders the correct text. We can then use the expect method from Jest to verify that the rendered text is what we expect it to be. This can help to ensure that the component is working as intended and that any changes we make to it do not break its functionality.

To summarize, there are several approaches you can take to organizing a large React application and making it scale:

  • Use a modular architecture to divide the application into smaller, independent modules or components that each have a specific purpose or functionality.
  • Use code-splitting to divide the application’s code into smaller chunks that can be loaded on demand as needed, which can help to reduce the initial load time and improve performance.
  • Use a state management library like Redux or MobX to manage the application states in a consistent and predictable way.
  • Use a linter to ensure that your code adheres to a set of coding standards and is easy to read and maintain.
  • Use testing to catch issues early on and prevent regressions as the application evolves, and ensure that changes to the codebase do not break existing functionality.
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Dominic Rubhabha-Wardslaus
Dominic Rubhabha-Wardslaushttp://wardslaus.com
infosec,malicious & dos attacks generator, boot rom exploit philanthropist , wild hacker , game developer,
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