React Fibre Architecture
Expert-Level Explanation
React Fibre is the underlying architecture for React's rendering engine, introduced in React 16. It's a complete rewrite of React's internals, aimed at improving the performance of complex applications and enabling future features like concurrent rendering. Fibre rearchitects the reconciliation process and the way React updates the DOM. It allows React to pause, resume, or abort a render as needed, making it more efficient. This architecture is designed for better handling of asynchronous rendering, splitting work into chunks, and prioritising tasks based on their importance.
Creative Explanation
Imagine React's rendering process as a factory assembly line. Before Fibre, this assembly line couldn't be stopped; once it started, it had to finish, even if high-priority tasks came up. React Fibre introduces a new kind of assembly line that can be paused, allowing React to stop working on low-priority updates (like off-screen content) and switch to more urgent tasks (like animations or user interactions). This makes the whole process more efficient and responsive.
Practical Explanation with Code
While React Fibre works under the hood and doesn't change how you write React components, its benefits are seen in how React handles updates:
import React from 'react';
import ReactDOM from 'react-dom';
class MyComponent extends React.Component {
// ... component logic
}
// The rendering process is now more efficient due to React Fibre
ReactDOM.render(<MyComponent />, document.getElementById('root'));
Real-World Example
In a real-time collaboration tool like an online code editor, React Fibre's architecture allows the application to handle complex UIs with frequent updates smoothly. While users are typing or interacting with the editor, React can prioritise these interactions and update the UI instantly, while deferring less critical updates (like background syncs or off-screen component updates) for later.