👋Version 3 migration notice:
import { discoverProjectStyles } from 'used-styles/node'
. That's it
Bundler and framework independent CSS part of SSR-friendly code splitting
Detects used css
files from the given HTML, and/or inlines critical styles. Supports sync or stream rendering.
Read more about critical style extraction and this library: https://dev.to/thekashey/optimising-css-delivery-57eh
- 🚀 Super Fast - no browser, no jsdom, no runtime transformations
- 💪 API - it's no more than an API - integrates with everything
- 🤝 Works with
strings
andstreams
- ⏳ Helps preloading for the "real" style files
Works in two modes:
- 🚙 inlines style rules required to render given HTML - ideal for the first time visitor
- 🏋️♀️inlines style files required to render given HTML - ideal for the second time visitor (and code splitting)
Critical style extraction:
- 🧱 will load all used styles at the beginning of your page in a string mode
- 💉 will interleave HTML and CSS in a stream mode. This is the best experience possible
- Scans all
.css
files, in yourbuild
directory, extracting all style rules names. - Scans a given
html
, finding all theclasses
used. - Here there are two options: 3a. Calculate all style rules you need to render a given HTML. 3b. Calculate all the style files you have send to a client.
- Injects
<styles>
or<links>
- After the page load, hoist or removes critical styles replacing them by the "real" ones.
For the performance sake used-styles
inlines a bit more styles than it should - it inlines everything it would be "not
fast" to remove.
- inlines all
@keyframe
animations - inlines all
html, body
and other tag-based selectors (hello css-reset) - undefined behavior if
@layer a,b,c
is used multiple times
Speed, I am speed!
For the 516kb page, which needs 80ms to renderToString
(React) resulting time for the getCriticalRules
(very
expensive operation) would be around 4ms.
Use it to scan your dist
/build
folder to create a look up table between classNames and files they are described in.
discoverProjectStyles(buildDirrectory, [filter]): StyleDef
- generates class lookup tableyou may use the second argument to control which files should be scanned
filter
is very important function here. It takes fileName
as input, and returns
false
, true
, or a number
as result. False
value would exclude this file from the set, true
- add it,
and number
would change the order of the chunk. Keeping chunk ordered "as expected" is required to preserve style declaration
order, which is important for many existing styles.
// with chunk format [chunkhash]_[id] lower ids are potentialy should be defined before higher
const styleData = discoverProjectStyles(resolve('build'), (name) => {
// get ID of a chunk and use it as order hint
const match = name.match(/(\d)_c.css/);
return match && +match[1];
});
⚠️ generally speaking - this approach working only unless there are no order-sensive styles from different chunks applied to a single DOM Element. Quite often it never happen, but if you are looking for a better way - follow to #26 ☣️
loadStyleDefinitions
is a "full control API", and can used to feedused-styles
with any custom data, for example providing correct critical css extraction in dev mode (no files written on disk)
return loadStyleDefinitions(
/*list of files*/ async () => cssFiles,
/*data loader*/ (file) => fetchTxt(`http://localhost:${process.env.DEV_SERVER_PORT}/${file}`)
/*filter and order */ // (file) => order.indexOf(cssToChunk[file])
);
Use to get used styled from render result or a stream
-
getUsedStyles(html, StyleDef): string[]
- returns all used files, you will need to import them -
getCriticalStyles(html, StyleDef) : string
- returns all used selectors and other applicable rules, wrapped withstyle
-
getCriticalRules(html, StyleDef): string
- the same, but without<style>
tag, letting you handle in a way you want -
createStyleStream(lookupTable, callback(fileName):void): TransformStream
- creates Transform stream - will inject<links
-
createCriticalStyleStream(lookupTable, callback(fileName):void): TransformStream
- creates Transform stream - will inject<styles
.
There are only two things about react:
- to inline critical styles use another helper -
getCriticalRules
which does not wrap result withstyle
letting you do it
import { getCriticalRules } from 'used-styles';
const Header = () => (
<style data-used-styles dangerouslySetInnerHTML={{ __html: getCriticalRules(markup, styleData) }} />
);
- React produces more valid code, and you might enable optimistic optimization, making used-styles a bit faster.
import { enableReactOptimization } from 'used-styles';
enableReactOptimization(); // just makes it a but faster
Use it to separate generation of styles lookup from your runtime.
It is useful in cases, where you can't directly use Discovery APIs on your client CSS bundles during app's runtime, e.g. various serverless runtimes. Also it may be useful for you, if you want to save on the size of your container for the server app, since it allows you to only load styles lookup into it, without CSS bundles.
serializeStylesLookup(def: StyleDef): SerializedStyleDef
- creates a serializable object from original styles lookup. Result can be then stringified withJSON.stringify
loadSerializedLookup(def: SerializedStyleDef): StyleDef
- transforms serialized style definition back to normalStyleDef
, which can be used with any Scanner API
- Add separate script to generate style lookup and store it as you like.
// project/scripts/generate_styles_lookup.mjs
import { serializeStylesLookup, discoverProjectStyles } from 'used-styles';
import { writeFileSync } from 'fs';
const stylesLookup = discoverProjectStyles('./path/to/dist/client');
await stylesLookup;
writeFileSync('./path/to/dist/server/styles-lookup.json', JSON.stringify(serializeStylesLookup(lookup)));
- Run this code after your build
yarn build
node ./scripts/generate_styles_lookup.mjs
Notice, that you can store serialized lookup in any way, that suits you and your case, example above is not the only valid option.
- Access previously created and stored styles lookup, convert it to
StyleDef
withloadSerializedLookup
and use it normally
import { loadSerializedLookup } from 'used-styles';
const stylesLookup = loadSerializedLookup(require('./dist/server/styles-lookup.json'));
// ...
getCriticalStyles(markup, stylesLookup);
There is nothing interesting here - just render, just getUsedStyles
.
import {getUsedStyles} from 'used-styles';
import {discoverProjectStyles} from 'used-styles/node';
// generate lookup table on server start
const stylesLookup = discoverProjectStyles('./build');
async function MyRender() {
await stylesLookup;// it is "thenable"
// render App
const markup = ReactDOM.renderToString(<App/>)
const usedStyles = getUsedStyles(markup, stylesLookup);
usedStyles.forEach(style => {
const link = `<link rel="stylesheet" href="build/${style}">\n`;
// or
const link = `<link rel="prefetch" as="style" href="build/${style}">\n`;
// append this link to the header output or to the body
});
// or
const criticalCSS = getCriticalStyles(markup, stylesLookup);
// append this link to the header output
Any bulk CSS operations, both getCriticalStyles
and getUsedStyles
are safe and preserve the selector rule
order. You may combine both methods, to prefetch full styles, and inline critical CSS.
! Keep in mind - calling two functions is as fast, as calling a single one !
Please keep in mind - stream rendering in NOT SAFE in terms of CSS, as long as it might affect the ordering of selectors. Only pure BEM and Atomic CSS are "safe", just some random CSS might be not compatible. Please test results before releasing into production.
If you do not understand why and how selector order is important - please do not use stream transformer.
Stream rendering is much harder, and much more efficient, giving you the best Time-To-First-Byte. And the second byte.
Stream rendering could be interleaved(more efficient) or block(more predictable).
In case or React rendering you may use interleaved streaming, which would not delay TimeToFirstByte. It's quite similar how StyledComponents works
import express from 'express';
import { discoverProjectStyles } from 'used-styles/node';
import { loadStyleDefinitions, createCriticalStyleStream, createStyleStream, createLink } from 'used-styles';
const app = express();
// generate lookup table on server start
const stylesLookup = isProduction
? discoverProjectStyles('./dist/client')
: // load styles for development
loadStyleDefinitions(async () => []);
app.use('*', async (req, res) => {
await stylesLookup;
try {
const renderApp = (await import('./dist/server/entry-server.js')).default;
// create a style steam
const styledStream = createStyleStream(stylesLookup, (style) => {
// _return_ link tag, and it will be appended to the stream output
return createLink(`dist/${style}`); // <link href="dist/mystyle.css />
});
// or create critical CSS stream - it will inline all styles
const styledStream = createCriticalStyleStream(stylesLookup); // <style>.myClass {...
await renderApp({ res, styledStream });
} catch (err) {
res.sendStatus(500);
}
});
// entry-server.js
import React from 'react';
import { renderToPipeableStream } from 'react-dom/server';
import App from './App';
const ABORT_DELAY = 10000;
async function renderApp({ res, styledStream }) {
let didError = false;
const { pipe, abort } = renderToPipeableStream(
<React.StrictMode>
<App />
</React.StrictMode>,
{
onShellError() {
res.sendStatus(500);
},
onAllReady() {
res.status(didError ? 500 : 200);
res.set({ 'Content-Type': 'text/html' });
// allow client to start loading js bundle
res.write(`<!DOCTYPE html><html><head><script defer src="client.js"></script></head><body><div id="root">`);
styledStream.pipe(res, { end: false });
// start by piping react and styled transform stream
pipe(styledStream);
styledStream.on('end', () => {
res.end('</div></body></html>');
});
},
onError(error) {
didError = true;
console.error(error);
},
}
);
setTimeout(() => {
abort();
}, ABORT_DELAY);
}
export default renderApp;
!! THIS IS NOT THE END !! Interleaving links and react output would break a client side rehydration, as long as _ injected_ links were not rendered by React, and not expected to present in the "result" HTML code.
You have to move injected styles out prior rehydration.
import React from 'react';
import { moveStyles } from 'used-styles/moveStyles';
import ReactDOM from 'react-dom/client';
import App from './App';
// Call before `ReactDOM.hydrateRoot`
moveStyles();
ReactDOM.hydrateRoot(
document.getElementById('root'),
<React.StrictMode>
<App />
</React.StrictMode>
);
You might want to remove styles after rehydration to prevent duplication. Double check that corresponding real CSS is loaded.
import { removeStyles } from 'used-styles/moveStyles';
removeStyles();
Not sure this is a good idea
Idea is to:
- push
initial line
to the browser, withthe-main-script
inside - push all used
styles
- push some
html
betweenstyles
andcontent
- push
content
- push
closing
tags
That's all are streams, concatenated in a right order. It's possible to interleave them, but that's is not expected buy
a hydrate
.
import { createStyleStream, createLink } from 'used-styles';
import { discoverProjectStyles } from 'used-styles/node';
import MultiStream from 'multistream';
// .....
// generate lookup table on server start
const lookup = await discoverProjectStyles('./build'); // __dirname usually
// small utility for "readable" streams
const readableString = (string) => {
const s = new Readable();
s.push(string);
s.push(null);
s._read = () => true;
return s;
};
// render App
const htmlStream = ReactDOM.renderToNodeStream(<App />);
// create a style steam
const styledStream = createStyleStream(lookup, (style) => {
// emit a line to header Stream
headerStream.push(createLink(`dist/${style}`));
// or
headerStream.push(`<link href="dist/${style}" rel="stylesheet">\n`);
});
// allow client to start loading js bundle
res.write(`<!DOCTYPE html><html><head><script defer src="client.js"></script>`);
const middleStream = readableString('</head><body><div id="root">');
const endStream = readableString('</head><body>');
// concatenate all steams together
const streams = [
headerStream, // styles
middleStream, // end of a header, and start of a body
styledStream, // the main content
endStream, // closing tags
];
MultiStream(streams).pipe(res);
// start by piping react and styled transform stream
htmlStream.pipe(styledStream, { end: false });
htmlStream.on('end', () => {
// kill header stream on the main stream end
headerStream.push(null);
styledStream.end();
});
This example is taken from Parcel-SSR-example from react-imported-component.
The advanced pattern described in Optimizing CSS Delivery article proposes to:
- inline critical CSS for a first time customers
- use cached
.css
files for recurring
This library does not provide a way to distinguish "one" cohort of customers from another, although, provides an API to optimize the delivery.
- use
createCriticalStyleStream
/getCriticalStyles
to inline critical CSS - use
createStyleStream
/getUsedStyles
to use.css
files - use
alterProjectStyles
withfilter
options to create two different sets of styles: not yet cache set forcritical
styles, and the cached ones forused
. - yes - you have to use or two transformers, or call two functions, one after another.
Theoretically - all styles "critical" now, are "cached" ones next view.
Almost unmeasurable. It's a simple and single RegExp, which is not comparable to the React Render itself.
comparing with tools listed at Google's Optimize CSS Delivery
-
penthouse - a super slow puppetter based solution. No integration with a real run time renderer is possible. Generates one big style block at the beginning of a file.
-
critical - a super slow puppetter based solution. Able to extract critical style "above the fold".
-
inline-critical - slow jsdom based solution. Generates one big style block at the beginning of a file, and replaces all other
links
by async variants. However, it does not detect any critical or used styles in provided HTML - HTML is used only as a output target. 👎 -
critters-webpack-plugun - is the nearest analog of used-styles, build on almost same principles.
used-styles
is faster that libraries listed above, and optimized for multiple runs.
MIT