Introduction
Million.js is an extremely fast and lightweight optimizing compiler that make components (opens in a new tab) up to 70% faster (opens in a new tab).
TL;DR: Imagine React (opens in a new tab) components running at the speed of raw JavaScript.
Why Million.js?
To understand why to use Million.js, we need to understand how React updates interfaces. When an application's state or props change, React undergoes an update in two parts: rendering and reconciliation.
To show this, let's say this is our App:
function App() {
const [count, setCount] = useState(0);
const increment = () => setCount(count + 1);
return (
<div>
<p>Count: {count}</p>
<button onClick={increment}>Increment</button>
</div>
);
}In this App, when I click on the button, the count state will update and the <p> tag will update to reflect the new value. Let's break this down.
Rendering
The first step is rendering. Rendering is the process of generating a snapshot of the current component. You can imagine it as simply "calling" the App function and storing the output in a variable. This is what the App snapshot would look like:
const snapshot = App();
// snapshot =
<div>
<p>Count: 1</p>
<button onClick={increment}>Increment</button>
</div>;Reconciliation
In order to update the interface to reflect the new state, React needs to compare the previous snapshot to the new snapshot (called "diffing"). React's reconciler will go to each element in the previous snapshot and compare it to the new snapshot. If the element is the same, it will skip it. If the element is different, it will update it.
- The
<div>tag is the same, so it doesn't need to be updated. ✅- The
<p>tag is the same, so it doesn't needs to be updated. ✅- The text inside the
<p>tag is different, so it needs to be updated. ⚠ ️
- The text inside the
- The
<button>tag is the same, so it doesn't need to be updated. ✅- The
onClickprop is the same, so it doesn't need to be updated. ✅ - The text inside the
<button>tag is the same, so it doesn't need to be updated. ✅
- The
- The
(total: 6 diff checks)
<div>
- <p>Count: 0</p>
+ <p>Count: 1</p>
<button onClick={increment}>Increment</button>
</div>From here, we can see that the <p> tag needs to be updated. React will then update the <p> DOM node to reflect the new value.
<p>.innerHTML = `Count: ${count}`;How Million.js makes this faster
React is slow.
The issue with React's reconciliation it becomes exponentially slower the more JSX elements you have. With this simple App, it only needs to diff a few elements. In a real world React app, you can easily have hundreds of elements, slowing down interface updates.
Million.js solves this by skipping the diffing step entirely and directly updating the DOM node.
Here is a conceptual example of how Million.js reconciler works:
function App() {
const [count, setCount] = useState(0);
const increment = () => setCount(count + 1);
// generated by compiler
if (count !== prevCount) {
<p>.innerHTML = `Count: ${count}`;
}
<button>.onclick = increment;
// ...
}Notice how when the count is updated, Million.js will directly update the DOM node. Million.js turns React reconciliation from O(n) (linear) to O(1) (constant time).
How fast is it? → View the benchmarks (opens in a new tab)
Setup in seconds
The Million.js CLI will automatically install the package and configure your project for you.
npx million@latestMillion.js is compatible with React 16 and above. If you're using an older version of React, you'll need to upgrade first.
That's it! Your project is now running on Million.js 🎉
Million.js vs. React
The following is a comprehensive demo using key-based rendering (opens in a new tab) to show how Million.js performance compares to React.
Any questions?
If you have any questions or need support, please feel free to ask them in Discord (opens in a new tab) or submit an issue on GitHub (opens in a new tab).