This approach implies adding one or more<style> tag(s) in the DOM (either in the<head> or somewhere in the<body>), using.appendChild() to add the<style> Node(s), in addition with either.textContent,.innerHTML to update the<style> tag(s).

• using this approach, we can easilysee what styles get added to the DOM, because we can inspect the DOM from our DevTools, like any other DOM Node;
• using only one<style> tag and updating its whole content, could be slow to update the entire DOM when we actually changed only a tiny set of CSS rule(s);
• most libraries use this solution inDEVELOPMENT mode, because it provides a better debugging experience;
  • TypeStyle uses this inPRODUCTION also;

First used byJSS, this method usesCSSStyleSheet.insertRule() to inject CSS rules directly into theCSSOM.

• using this approach it's a bit more difficult tosee what styles get injected into the CSSOM, because even if you see the CSS applied on the elements (thanks toCSS-in-JS support in Chrome) it will point to an empty<style> tag;
  • to see all the injected styles, you'll have to select the<style> tag;
  • get access to it via$0 in Chrome DevTools (or get a reference to it in any other way, using the DOM API);
  • access.sheet.cssRules on the<style> tag to see the Array of CSS rules that it contains;
• this method is apparently more performant than the previous one, during dynamic styles update, so most libraries use this method inPRODUCTION;
  • performance gains apply only when adding new CSS rules, or updating existing ones (ie: dynamic styles update at runtime);
  • JSS andStitches use it inDEVELOPMENT mode as well;

If the same component is imported by 2 different routes, it will be send twice to the client. This is surely a limitation of the bundler/build system, in our case Next.js, andnot related to the CSS-in-JS solution.

In Next.js, code-splitting works at the route level, bundling all components required for a specific route, but according to theirofficial blog andweb.dev if a component is used inmore than 50% of the pages, it should be included in thecommons bundle. However, in our example, we have 2 pages, each of them importing theButton component, and it's included in each page bundle, not in thecommons bundle. Since the code required for styling is bundled with the component, this limitation will impact the styles as well, so it's worth keeping this in mind.

This is a well established, mature and solid approach. Without a doubt, it's a great improvement over BEM, SMACCS, OOCSS, or any other scalable CSS methodology to structure and organize our CSS, especially in component-based applications.

Launched in2015 |Back to Overview

• ✅Context-aware code completion

• ✅Framework agnostic

• ❌No Styles/Component co-location

• ❌No TypeScript support

• ❌No Atomic CSS

• ❌No Theming support

• Styles definition method(s)

  • ✅ plain CSS
  • ❌ Style Objects

• Styles nesting

  • ❌ Contextual styles:(requires SASS, LESS or Stylus)
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ❌styled component
  • ❌css prop

• Styles output

  • ✅.css file extraction
  • ❌<style> tag injection

This is the baseline we'll consider when comparing all the followingCSS-in-JS solutions. Checkout themotivation to better understand the limitations of this approach that we're trying to fill.

Page                                Size     First Load JS┌ ○ /                               2.19 kB        68.7 kB├   └ css/1d1f8eb014b85b65feee.css  450 B├   /_app                           0 B            66.5 kB├ ○ /404                            194 B          66.7 kB└ ○ /other                          744 B          67.2 kB    └ css/1c8bc5a96764df6b92b4.css  481 B+ First Load JS shared by all       66.5 kB  ├ chunks/framework.895f06.js      42 kB  ├ chunks/main.b2b078.js           23.1 kB  ├ chunks/pages/_app.40892d.js     555 B  ├ chunks/webpack.ddd010.js        822 B  └ css/a92bf2d3acbab964f6ac.css    319 B

Very simple solution, doesn't have a dedicated website for documentation, everything is on Github. It's not popular, but it is the built-in solution in Next.js.

Version:4.0 | Maintained byVercel | Launched in2017 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• 🟠Context-aware code completion: to get syntax highlighting & code completion, an editor extension is required

• 🟠TypeScript support:@types can be additionaly installed, but the API is too minimal to require TS

• ❌No Atomic CSS

• ❌No Theming support

• ❌Not Framework agnostic

• Styles definition method(s)

  • ✅ Tagged Templates
  • ❌ Style Objects

• Styles nesting

  • ❌ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ❌styled component
  • ❌css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😌 out-of-the-box support with Next.js
• 👍 for user input styles, it generates a new class name for each change, but it removes the old one

• 😏 unlike CSS modules, we can target HTMLelements also, and it generates unique class names for them (not sure if it's a good practice, though)
• 🤓 we'll need to optimize our styles bysplitting static & dynamic styles, to avoid rendering duplicated styles
• 🤨 unique class names are added to elements, even if we don't target them in our style definition, resulting in un-needed slight html pollution (optimizing this is cumbersome, and it'sa lot of work for little benefit)
• 😕 it will bundle any defined styles, regardless if they are used or not, just like plain CSS
• 😢 there's no support forcontextual styles, so definingpseudo classes ormedia queries has the same downsides as plain CSS, requiring selectors/class names duplication (aSASS plugin is required to get this feature)

Overall, we felt like writting plain CSS, with the added benefit of being able to define the styles along with the component, so wedon't need an additional.css file. Indeed, this is the philosophy of the library: supporting CSS syntax inside the component file. We canuse any JS/TS constants of functions with string interpolation. Working withdynamic styles is pretty easy because it's plain JavaScript in the end. We get all these benefits at a very low price, with a prettysmall bundle overhead.

The downsides are the overall experience of writting plain CSS.Without nesting support pseudo classes/elements and media queries getting pretty cumbersome to manage.

Page                             Size     First Load JS┌ ○ /                            2.65 kB        72.6 kB├   /_app                        0 B              70 kB├ ○ /404                         194 B          70.2 kB└ ○ /other                       1.18 kB        71.2 kB+ First Load JS shared by all    70 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.a4b061.js  4.12 kB  └ chunks/webpack.61f1b6.js     778 B

For sure one of the most popular and mature solutions, with good documentation. It uses Tagged Templates to defines styles by default, but can use objects as well. It also popularized thestyled components approach, which creates a new component along with the defined styles.

Version:5.3 | Maintained byMax Stoiber &others | Launched in2016 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support:@types must be additionaly installed, via DefinitelyTyped

• ✅Built-in Theming support

• ✅Framework agnostic

• 🟠Context-aware code completion: requires an editor extension/plugin

• ❌No Atomic CSS

• Styles definition method(s)

  • ✅ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ❌className
  • ✅styled component
  • ✅css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 🤓 we need to split static & dynamic styles, otherwise it will render duplicate output
• 😕 bundles nested styles even if they are not used in component
• 😵 we can mix Tagged Templates with Styled Objects, which could lead to convoluted and different syntax for each approach (kebab vs camel, EOL character, quotes, interpolation, etc)
• 🥴 some more complex syntax appears to be a bit cumbersome to get right (mixing animations with Styled Objects, dynamic styles based onProps variations, etc)
• 🤫 for user input styles, it generates a new class name for each update, but it does NOT remove the old ones, appending indefinitely to the DOM

Styled components offers a novel approach to styling components using thestyled method which creates a new component including the defined styles. We don't feel like writting CSS, so coming from CSS Modules we'll have to learn a new, more programatic way, to define styles. Because it allows bothstring andobject syntax, it's a pretty flexibile solution both for migrating our existing styles, and for starting a project from scratch. Also, the maintainers did a pretty good job keeping up with most of the innovations in this field.

However before adopting it, we must be aware that it comes with a certain cost for our bundle size.

Page                             Size     First Load JS┌ ○ /                            2.52 kB        83.1 kB├   /_app                        0 B            80.6 kB├ ○ /404                         194 B          80.8 kB└ ○ /other                       1.06 kB        81.7 kB+ First Load JS shared by all    80.6 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.731ace.js  14.7 kB  └ chunks/webpack.ddd010.js     822 B

Probably the most comprehensive, complete and sofisticated solution. Detailed documentation, fully built with TypeScript, looks very mature, rich in features and well maintained.

Version:11.4 | Maintained byMitchell Hamilton &others | Launched in2017 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support

• ✅Built-in Theming support

• ✅Context-aware code completion: for using thestyled components approach, an additional editor plugin is required

• ✅Framework agnostic

• ❌No Atomic CSS

• Styles definition method(s)

  • ✅ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className(using@emotion/css)
  • ✅styled component
  • ✅css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😎 thecss prop offers great ergonomics during development, however it seems to be a newer approach, based onReact 17 newjsx transform, andconfiguring it is not trivial, differs on your setup, and implies some boilerplate (which should change soon and become easier)

• 😕 bundles nested styles even if they are not used in component
• 🤫 for user input styles, it generates a new class name for each update, but it does NOT remove the old ones, appending indefinitely to the DOM
• 😑 usingstyled approach will add3 kB to our bundle, because it's imported from a separate package
• 🤔 don't know how to split static and dynamic styles, resulting in highly polluted duplicated styles for component variants, specifically problematic for SSR (same applies tocss prop &styled components)

Overall Emotion looks to be a very solid and flexible approach. The novelcss prop approach offers great ergonomics for developers. Working with dynamic styles and TypeScript is pretty easy and intuitive. Supporting bothstrings andobjects when defining styles, it can be easily used both when migrating from plain CSS, or starting from scratch. The bundle overhead is not negligible, but definitely much smaller than other solutions, especially if you consider the rich set of features that it offers.

It seems it doesn't have a dedicated focus on performance, but more on Developer eXperience. It looks like a perfect "well-rounded" solution.

Page                             Size     First Load JS┌ ○ /                            2.5 kB         76.4 kB├   /_app                        0 B            73.9 kB├ ○ /404                         194 B          74.1 kB└ ○ /other                       1.07 kB        74.9 kB+ First Load JS shared by all    73.9 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.6cb893.js        23.3 kB  ├ chunks/pages/_app.b6d380.js  7.68 kB  └ chunks/webpack.ddd010.js     822 B

Minimal library, focused only on type-checking. It is framework agnostic, that's why it doesn't have a special API for handling dynamic styles. There are React wrappers available, but the typings feels a bit convoluted.

Version:2.1 | Maintained byBasarat | Launched in2017 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support

• ✅Context-aware code completion

• ✅Framework agnostic

• 🟠Built-in Theming support: uses TSnamespaces to define theming, which isnot a recommended TS feature even by the author himself, or by TS core team memberOrta Therox.

• ❌No Atomic CSS

• Styles definition method(s)

  • ❌ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ❌styled component
  • ❌css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😕 bundles nested styles even if they are not used in component
• 😕 it doesn't handle dynamic styles, so we have to use regular JS functions to compute styles
• 🤨 when composing styles, we'll have to manually add some internal typings
• 🤔 don't know how to split dynamic and static styles, so it's very easy to create duplicated generated code with dynamic styles, specifically problematic with SSR
• 😱 it creates a single<style> tag with all the styles, and replaces it on update, and apparently it doesn't useinsertRule(), not even in production builds, which might be an important performance drawback in large & highly dynamic UIs

Overall TypeStyle seems a minimal library, relatively easy to adopt because we don't have to rewrite our components, thanks to the classicclassName approach. However we do have to rewrite our styles, because of the Style Object syntax. We didn't feel like writting CSS, so there is a learning curve we need to climb.

With Next.js or React in general we don't get much value out-of-the-box, so we still need to perform a lot of manual work. The externalreact-typestyle binding doesn't support hooks, it seems to be an abandoned project and the typings are too convoluted to be considered an elegant solution.

Page                             Size     First Load JS┌ ○ /                            2.44 kB        72.1 kB├   /_app                        0 B            69.7 kB├ ○ /404                         194 B          69.9 kB└ ○ /other                       975 B          70.7 kB+ First Load JS shared by all    69.7 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.5b0422.js  3.81 kB  └ chunks/webpack.61f1b6.js     778 B

It appears to be a mature solution, with quite a number of users. The API is intuitive and very easy to use, great integration for React using hooks.

Version:11.6 | Maintained byRobin Weser | Launched in2016 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅Built-in Theming support

• ✅Atomic CSS

• ✅Framework agnostic

• 🟠TypeScript support: it exposes Flow types, which work ok, from our (limited) experience

• 🟠Context-aware code completion: styles defined outside the component requireexplicit typing to get code completion

• Styles definition method(s)

  • 🟠 Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ❌styled component
  • ❌css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😌 easy and simple to use API, very intuitive
• 🥳 creates very short and atomic class names (likea,b, ...)
• 😎 it has a lot of plugins that can add many additional features (but will also increase bundle size)

• 😕 bundles nested styles even if they are not used in component
• 🤨 when defining styles outside the component, we have to explicitly add some internal typings to get code completion
• 🥺 there's no actual TS support and the maintainer considers it alow priority
• 🤕 without TS support, we cannot get fully type-safe integration into Next.js + TS (there aremissing types from the definition file)
• 🤔 the docs say it supports string based styles, but they are a second-class citizen and they seem to work only for global styles
• 😵 some information in the docs is spread on various pages, sometimes hard to find without a search feature, and the examples and use cases are not comprehensive

Fela looks to be a mature solution, with active development. It introduces 2 great features which we enjoyed a lot. The first one is the basic principle that"Style as a Function of State" which makes working with dynamic styles feel super natural and integrates perfectly with React's mindset. The second is atomic CSS class names, which should potentially scale great when used in large applications.

The lack of TS support however is a bummer, considering we're looking for a fully type-safe solution. Also, the scaling benefits of atomic CSS should be measured against the library bundle size.

Page                             Size     First Load JS┌ ○ /                            2.84 kB        81.7 kB├   /_app                        0 B            78.9 kB├ ○ /404                         194 B            79 kB└ ○ /other                       1.43 kB        80.3 kB+ First Load JS shared by all    78.9 kB  ├ chunks/framework.2191d1.js   42.4 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.32bc1d.js  12.6 kB  └ chunks/webpack.ddd010.js     822 B

Very young library, solid, modern and well-thought-out solution. The overall experience is just great, full TS support, a lot of other useful features baked in the lib.

Version:0.2.5 (beta) | Maintained byModulz | Launched in2020 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support

• ✅Context-aware code completion

• ✅Built-in Theming support

• ✅Framework agnostic:(available with@stitches/core)

• ❌Atomic CSS

• Styles definition method(s)

  • ❌ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ✅styled component
  • 🟠css prop(used only to overridestyled components)

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😌 easy and simple to use API, a pleasure to work with
• 😎 great design tokens management and usage
• 🥰 documentation is exactly what we'd expect: no more, no less

• 😕 bundles nested styles even if they are not used in component
• 🤔 dynamic styles can be defined either using built-invariants (for predefined styles), or styles created inside the component to get access to theprops
• 🧐 would help a lot to get the search feature inside the docs

Stitches is probably the most modern solution to this date, with full out-of-the-box support for TS. Without a doubt, they took some of the best features from other solutions and put them together for an awesome development experience. The first thing that impressed us was definitely the documentation. The second, is the API they expose which is close to top-notch. The features they provide are not huge in quantity, but are very well-thought-out.

However, we cannot ignore the fact that it's still in beta. Also, the authors identify it as"near-zero runtime", but at+9 kB gzipped it's debatable.

Page                             Size     First Load JS┌ ○ /                            2.43 kB        75.2 kB├   /_app                        0 B            72.8 kB├ ○ /404                         194 B            73 kB└ ○ /other                       984 B          73.8 kB+ First Load JS shared by all    72.8 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.ff82f0.js  6.93 kB  └ chunks/webpack.61f1b6.js     778 B

Probably the grandaddy around here, JSS is a very mature solution being the first of them, and still being maintained. The API is intuitive and very easy to use, great integration for React using hooks.

Version:10.7 | Maintained byOleg Isonen andothers | Launched in2014 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅Built-in Theming support

• ✅Framework agnostic

• ✅TypeScript support

• ✅Context-aware code completion

• ❌No Atomic CSS

• Styles definition method(s)

  • 🟠 Tagged Templates:(available with additionalplugin, with limited features)
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • 🟠styled component(available with additionalplugin)
  • ❌css prop

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 😌 easy and simple to use API, very intuitive
• 😎 it has a lot of plugins that can add many additional features (but will also increase bundle size)

• 😕 bundles nested styles even if they are not used in component
• 😳 keep in mind thatreact-jss package, which is used with React/Next.js, depends onjss-preset-default, which includes manyplugins by default, so you don't need to manually add some of the plugins;
• 🤔react-jss uses className by default. There's alsostyled-jss that usesStyled Components approach, but it has no types, and couldn't make it work on top ofreact-jss;
• 😤 global styles were frustrating to setup, we've finally managed to used them thanks toStackOverFlow, because the docs have no mention ofinjectSheet API (or we couldn't find it anywhere);
• 😖 the docs are generally difficult to follow, and finding the information you need is a cumbersome process:
  • there is no search;
  • there are a lot of plugins, so you don't know where to look for a particular feature;
  • some plugins influence other plugins, or other docs pages, and they sometimes don't contain all the combinations of features, so the docs are not comprehensive (ie: we had to figure out on our own how to usecontextual styles withmedia queries).

The API is similar in many ways to React Native StyleSheets, while the hooks helper allows for easy dynamic styles definition. There are many plugins that can add a lot of features to the core functionality, but attention must be payed to the total bundle size, which is significant even with the bare minimum only.

Also, being the first CSS-in-JS solution built, it lacks many of the modern features that focuses on developer experience.

Page                             Size     First Load JS┌ ○ /                            2.45 kB          88 kB├   /_app                        0 B            85.6 kB├ ○ /404                         194 B          85.8 kB└ ○ /other                       992 B          86.6 kB+ First Load JS shared by all    85.6 kB  ├ chunks/framework.2191d1.js   42.4 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.5f0007.js  19.2 kB  └ chunks/webpack.9c89cc.js     956 B

A very light-weight solution, with a loads of features.

Version:2.0 | Maintained byCristian Bote | Launched in2019 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅Built-in Theming support

• ✅TypeScript support

• ✅Context-aware code completion

• ✅Framework agnostic

• ❌No Atomic CSS

• Styles definition method(s)

  • ✅ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ✅styled component (see details below)
  • 🟠css prop (is supported, but requires a separate babel plugin)

• Styles output

  • ❌.css file extraction
  • ✅<style> tag injection

• 🤏 really tiny
• 😎 it supports a very wide range of defining styles, so it's pretty versatile and full featured in this regard (however, I fear that having all these options, a large team could mix various ways of defining styles, so it's more difficult toenforce consistency)

• 😕 bundles nested styles even if they are not used in component
• 🤫 for user input styles, it generates a new class name for each update, but it does NOT remove the old ones, appending indefinitely to the DOM
• 🤔 don't know how to split static and dynamic styles, resulting in highly polluted duplicated styles for component variants, specifically problematic for SSR
• 😱 it creates a single<style> tag with all the styles, and appends to it on update, and apparently it doesn't useinsertRule(), not even in production builds, which might be an important performance drawback in large & highly dynamic UIs

Looking at Goober you cannot ask yourself what kind of magic did Cristian Bote do to fit all the features inside this tiny library. It is really mind blowing. It is marketed as being"less than 1KB", which is not entirely accurate, but still... it's the smallest library we've tested.

Page                             Size     First Load JS┌ ○ /                            2.77 kB        71.1 kB├   /_app                        0 B            68.3 kB├ ○ /404                         194 B          68.5 kB└ ○ /other                       2.39 kB        70.7 kB+ First Load JS shared by all    68.3 kB  ├ chunks/framework.895f06.js   42 kB  ├ chunks/main.b2b078.js        23.1 kB  ├ chunks/pages/_app.5ee014.js  2.42 kB  └ chunks/webpack.61f1b6.js     778 B

A rather new library, having the huge Atlassian platform supporting and probably using it. Many existing features, even more in development, or planned for development.

Version:0.6 | Maintained byAtlassian | Launched in2020 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support

• ✅Context-aware code completion

• ✅Atomic CSS

• ❌Not Framework agnostic

• ❌No Built-in Theming support(at least at the moment, but it isplanned)

• Styles definition method(s)

  • ✅ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Arbitrary nesting

• Styles apply method(s)

  • 🟠className(only supported with a customClassNames component)
  • ✅styled component
  • ✅css prop

• Styles output

  • ❌.css file extraction(currently under development, will be shipped in 2021)
  • ✅<style> tag injection

• 😌 using thecss prop is seamless and trivial, not requiring any special setup (unlike Emotion)

• 🧐 styles are not placed in the<head> during SSR - instead they are placed right before the element using them in the<body>, which could potentially provide slightly faster Paint metrics, such as FCP, or LCP, because the browser can start rendering the body faster and incrementally, not waiting for the entire block of styles to be parsed
• 😕 bundles nested styles even if they are not used in component
• 😔 currently has no API for global styles, but it isplanned to be added
• 😳ClassNames API, which enables us to apply styles as class name strings, is a bit convoluted and weird at first sight.

Compiled is a very promising library. Considering that it offers both atomic CSS, and it plans to support static.css extraction, with excellent TypeScript support and style co-location, it would be quite unique (having onlystyle9 as a direct competitor).

Also, we cannot ignore that is has Atlassian supporting its development, which puts a (slightly) bigger weight on the confidence level.

The total bundle overhead is pretty small, the runtime library being quite light-weight. With static.css file extraction, this could potentially become even smaller.

Page                              Size     First Load JS┌ ○ /                             2.11 kB        71.8 kB├   /_app                         0 B            66.5 kB├ ○ /404                          194 B          66.7 kB└ ○ /other                        888 B          70.6 kB+ First Load JS shared by all     66.5 kB  ├ chunks/framework.895f06.js    42 kB  ├ chunks/main.b2b078.js         23.1 kB  ├ chunks/pages/_app.ebe095.js   576 B  ├ chunks/webpack.ddd010.js      822 B  └ css/a92bf2d3acbab964f6ac.css  319 B

Linaria is all about static CSS extraction and avoiding any runtime overhead.

Version:3.0 (beta) | Maintained byCallstack | Launched in2018 |View Docs | ... back to Overview

• ✅Styles/Component co-location

• ✅TypeScript support

• ✅Context-aware code completion

• ✅Framework agnostic

• ✅Built-in Theming support

• ❌No Atomic CSS

• Styles definition method(s)

  • ✅ Tagged Templates
  • ❌ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ✅ Arbitrary nesting

• Styles apply method(s)

  • ✅className
  • ✅styled component
  • ❌css prop

• Styles output

  • ✅.css file extraction
  • ❌<style> tag injection

• 😎 it's the only existing library at the moment (with a stable release) that supports both co-location & static CSS extraction (Compiled could also support this soon)

• 😕 bundles nested styles even if they are not used in component
• 😔global styling is documented, but we didn't get to make them work with Next.js
• 😳 documentation is not top-notch, there isn't a dedicated website, no search feature and it feels like trial & error when trying to find a piece of information

Linaria is highly inspired from Astroturf, combining various features from other libraries.

Version 3 is currently in Beta, not sure what the changelog is compared to v2. It's still in development by theReact/Native geeks atCallstack.io, but we couldn't find which of the big players use it in production.

It seems to have a slightly larger overall page size (2.9 KB), but we didn't investigate where does this come from. Also, there's an open question if this overhead is fixed or if it scales.

PS: thanks toDaniil Petrov for his PR with the Next.js integration

Page                                Size     First Load JS┌ ○ /                               4.99 kB        71.5 kB├   └ css/16f3e95ede28dcc048f2.css  423 B├   /_app                           0 B            66.5 kB├ ○ /404                            194 B          66.7 kB└ ○ /other                          3.59 kB        70.1 kB    └ css/3064299bff08067ec7dd.css  427 B+ First Load JS shared by all       66.5 kB  ├ chunks/framework.895f06.js      42 kB  ├ chunks/main.b2b078.js           23.1 kB  ├ chunks/pages/_app.98e8c3.js     598 B  ├ chunks/webpack.ddd010.js        822 B  └ css/7739287c04a618ea0c54.css    295 B

Modern solution with great TypeScript integration and no runtime overhead. It's pretty minimal in its features, straightforward and opinionated. Everything is processed at compile time, and it generates static CSS files. Successor ofTreat, also be called "Treat v3", is developed and maintained by the same authors.

Version:1.2 | Maintained bySeek OSS | Launched in2021 |View Docs | ... back to Overview

• ✅TypeScript support

• ✅Built-in Theming support

• ✅Context-aware code completion

• ✅Framework agnostic

• 🟠Atomic CSS: can be achieved withSprinkles

• ❌No Styles/Component co-location: styles must be placed in an external.css.ts file

• Styles definition method(s)

  • ❌ Tagged Templates
  • ✅ Style Objects

• Styles nesting

  • ✅ Contextual styles
  • ❌ Abitrary nesting

• Styles apply method(s)

  • ✅className
  • ❌styled component
  • ❌css prop

• Styles output

  • ✅.css file extraction
  • ❌<style> tag injection

• 👮 forbidsnested arbitrary selectors (ie:& > span), which might be seen as a downside, but it actually discourages bad-practices likespecificity wars, which should be avoided when scaling CSS (however, this is impossible to be statically type-checked withoutpattern matching, so it will throw a runtime exception)
• 🥳 generates the same filename hash on build, if styles haven't changes, meaning that end-users benefit of CSS cache-ing even when deploying new versions with component updates only (logic, or content), without styles updates

• 😌 in contrast with Treat, it relies on CSS Variables support, which means: 1) it doesn't work on IE, 2) is simpler and easier to maintain, 3) it supports other bundlers besides webpack
• 😕 bundles all styles, exported or not, even if they are not used in component
• 😥 it doesn't handle dynamic styles: you can use built-invariants based on predefined types, orinline styles for user-defined styles

We felt a lot like using CSS Modules: we need an external file for styles, we place the styles on the elements usingclassName, we handle dynamic styles withinline styles, etc. However, we don't write CSS, and the overall experience with TypeScript support is magnificent, because everything is typed, so we don't do anycopy-paste. Error messages are very helpful in guiding us when we do something we're not supposed to do.

vanilla-extract is built with restrictions in mind, with a strong user-centric focus, balacing the developer experience with solid TypeScript support. It's also worth mentioning thatMark Dalgleish, co-author of CSS Modules, works at Seek and he's also a contributor.

The authors vision is to think of vanilla-extract as a low-level utility for building higher-level frameworks, which will probably happen in the future.

Page                                Size     First Load JS┌ ○ /                               2.09 kB        68.5 kB├   └ css/37c023369f5e1762e423.css  370 B├   /_app                           0 B            66.4 kB├ ○ /404                            194 B          66.6 kB└ ○ /other                          611 B            67 kB    └ css/a56b9d05c6da35ff125f.css  386 B+ First Load JS shared by all       66.4 kB  ├ chunks/framework.895f06.js      42 kB  ├ chunks/main.700159.js           23.1 kB  ├ chunks/pages/_app.bfd136.js     565 B  ├ chunks/webpack.61f1b6.js        778 B  └ css/23b89d9ef0ca05e4b917.css    286 B

We know there are a lot of other libraries out there, besides the ones covered above. We're only covered the ones that have support forReact, support forSSR, an easy integration withNext.js, gooddocumentation and a sense of ongoingsupport and maintenance. Please checkout ourgoals.

Treat was initially included in the analysis with v1.6, but removed for a few reasons:

1. the library itself is replaced byvanilla-extract
2. Next.js integration is not supported with v2
3. we couldn't upgrade to Next.js v11/webpack 5 even with v1

The main difference between vanilla-extract and Treat is that the latter supports IE and legacy browsers as well.

Style9 is a new library, inspired by Facebook's own CSS-in-JS solution called stylex. Style9 is unique because it's the only open source library that supports both.css static extraction + atomic CSS, and/or styles co-location. It has TS support and easy to integrate with Next.js.

However, it has quite a few limitations (at least as of Feb 2021) that makes it practically unusable in a real production application that we would want to scale, both in code & team size:

• cannot use design tokens defined asEnum orPOJO, only constant primitives are supported, which is abig deal breaker;
• dynamic styles are not trivial:
  • it supports styles toggling, similar toclassNames lib, but not dynamically/computed/expression based;
  • for user styles, so we have to use inline styles;
  • there is an experimental addonstyle9-components that tries to solve this;
• no global styles support;
• no theming support (not a deal breaker for us):
  • there is some exploration in this regard, withstyle9-theme;
• documentation is not comprehensive, it contains a lot of code comments, without code examples, making it even more difficult to follow & understand

Some upsides:

• it's the first lib we've tested that actually doesn't bundle unused styles;
• it doesn't allow arbitrary seletors / nesting, which is a good thing, because it enforces good practices and consistency;
• it is framework agnostic;

As a conclusion, it wants to be a powerful solution with very interesting and unique set of features, but it's not mature yet. As far as we see, it's currently mostly designed towards more static solutions. Dynamic styling seems to be difficult to handle, at least for the moment.

Not an actual CSS-in-JS library, more like a replacement for traditional CSS styling. It uses atomic CSS classes (some of them having multiple properties) that we attach to html elements. We don't write CSS, instead we use a different DSL to specify styles, pseudo classes, media queries, etc.

The reason we didn't include it in our thorough review is because it doesn't fully meet ourgoals:

• it doesn't provide TS support, or type-safety
  • we cannot use out own design tokens from.ts files to include them intailwind.config (cannotimport any file, cannot require.ts)
  • usingtailwind.config directly offers no type-safety when importing it, or usingresolveConfig
  • there is aPR on Definitely Typed, but we're not sure if it will support the custom config, as well
  • there might be workarounds, but these are just proofs that there isn't a clean way to achieve this
• dynamic styles have some limitations: we have to be aware ofpurging to not get missing design tokens in production builds
• we have to learn a new DSL: some style are similar and easy to deduce from their CSS counterparts, others are pretty different, and we have to learn (rounded,place-self/content,divide,ring)
• some advanced CSS features, like::after pseudo elements are tricky
• there are libraries likexwind which integrates Tailwind with CSS-in-JS solutions, which is supports our theory that Tawilwind is not a replacement for CSS-in-JS, not does it address the same problems

Some upsides:

• we don't write CSS, which is indeed difficult to master
• the entire team uses the same "styling system"
• a shitton of predefined design tokens, plus the ability to customize them
• successfully bundles only used styles, doesn't bundle all classes defined intailwind.config
  • exception: keyframe animations (spin, ping, etc)
  • beware of purging

Tailwind seems to be more than astyling tool, it also offers some out-of-the-box utils + a ready-made design system that you can use right away.

It's not a popular solution, the approach is similar toReact Native StyleSheets way of styling components. Has built-in TypeScript support and a simple API.

• global styles are a bit cumbersome to define
• able to nest media queries & pseudo selectors, but cannot nest arbitrary rules/selectors
• no dynamic out-of-the-box support, so we have to get around that, like inline styles I guess, or like in React Native
• doesn't add any real value, except the ergonomics to colocate styles with the component.

I got it started with Next.js, but it feels fragile. TheGlamor official example throws an error regardingrehydrate. When commenting it out, it works, but not sure what the consequences are.

• it looks like an unmaintained or abandoned package
• documentation is pretty minimal
• lacks any TS support
• has a lot of documented experimental features, marked as "buggy"
• it feels like a side/internal project at FB, that is not used anymore.

Didn't manage to start it with Next.js + TypeScript. Theofficial example uses version 3, while today we have version 6. The example doesn't work, because the API has changed.

The solution looked interesting, because it is supposed to be very light-weight.

Didn't manage to start it with Next.js + TypeScript. There was anofficial example that used an older version of Next.js, but the example if not there anymore.

The solution is not that popular, but it was the first to use.css extraction with collocated styles.

Looks promising, atomic css and light-weight. It has a workingNext.js example, but we didn't consider it because it lacks any documentation.

It looks like a not so popular solution, which also lacks support for TypeScript. It looks like the maintainers work at Uber and they use it internally. It focused on generating unique atomic CSS classes, which could potentially deduplicate a lot of code.

The project was put inMaintenance Mode. They recommend other solutions.

The project wasdiscontinued in favor of Emotion.

Each implementation sits on their own branch, so we can have a clear separation at built time.

# install dependenciesyarn# for developmentyarn dev# for productionyarn buildyarn start

To get in touch, my DMs are open@pfeiffer_andrei.

Special thanks and appreciations go to everyone that helped putting this document together, and making it more accurate:

• Martin Hochel (@martin_hotell)
• Oleg Isonen (@oleg008)