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ESLint-Plugin-React-UseMemo

This plugin enforces the wrapping of complex objects or functions (which might generate unnecessary renders or side-effects) in useMemo or useCallback. It also allows you to programmatically enforce the wrapping of functional components in memo, and that all props and dependencies are wrapped in useMemo/useCallback.

Purpose

The objective is to ensure that your application's component tree and/or expensive lifecycles (such as React Native's FlatLists, useEffect, useMemo, etc.) only re-calculate or render again when absolutely necessary. By controlling expensive expressions, you can achieve optimal scalability and performance for your application.

Note: Use of memoization everywhere is not advised, as everything comes with a cost. Overusing memoization might slow down your application instead of speeding it up.

Guidelines for Memoization

For more details, please refer to React's documentation on hooks, re-rendering and memoization.

There are two primary rules for situations where dynamic objects should be memoed:

  1. Variables or expressions that return non-primitive objects or functions passed as props to other components.

    Incorrect

    function Component({incomingData}) {
      const complexData = {
        ...incomingData,
        checked: true
      }; // generated each render, breaks hooks shallow comparison
    
      return <SomeComponent data={complexData} />
    }
    

    Correct

    function Component({incomingData}) {
      const complexData = useMemo(() => ({
        ...incomingData,
        checked: true
      }), [incomingData]); // generated only when incomingData changes
    
      return <SomeComponent data={complexData} />
    }
    
  2. Variables or expressions that return non-primitive objects returned from custom hooks.

    Incorrect

    function useMyData({incomingData}) {
      const parsedData = parseData(incomingData); // generated each render
    
      return parsedData; // Will result in loops passed as a dependency in other hooks(e.g. useMemo, useCallback, useEffect).
    }
    

    Correct

    function useMyData({incomingData}) {
      const parsedData = useMemo(() => parseData(incomingData), [incomingData]); // generated only when incomingData changes
    
      return parsedData; // Won't generate loops if used as a dependency in hooks.
    }
    

It is not recommended to use memoization in the following cases:

Installation

Install it with yarn:

yarn add @arthurgeron/eslint-plugin-react-usememo --dev

or npm:

npm install @arthurgeron/eslint-plugin-react-usememo --save-dev

Usage

Add the plugin to your eslintrc file:

"plugins": ["@arthurgeron/react-usememo"],

Then enable any rules as you like:

"rules": {
    "@arthurgeron/react-usememo/require-usememo": [2],
},

In this guide, we will cover three rules - require-usememo, require-memo, and require-usememo-children.

Rule #1: require-usememo (recommended)

This rule requires complex values (objects, arrays, functions, and JSX) that get passed props or referenced as a hook dependency to be wrapped in useMemo() or useCallback().

One of the great features of this rule is its amazing autofix functionality. It intelligently wraps necessary components with useMemo() or useCallback(), making your code more efficient and saving you valuable time.

For detailed examples, options available for this rule, and information about the autofix functionality, please refer to our rules documentation.

Rule #2: require-memo

This rule requires all function components to be wrapped in React.memo().

For detailed examples and usage of this rule, please refer to our rules documentation

Rule #3: require-usememo-children

This rule requires complex values (objects, arrays, functions, and JSX) that get passed as children to be wrapped in useMemo() or useCallback().

For detailed examples and options available for this rule, please refer to our rules documentation.

Conclusion

By efficiently using useMemo, useCallback, and React.memo(), we can optimize our React and React Native applications. It allows us to control the re-calculation and re-rendering of components, offering better scalability and performance.