Use the css-loader or the raw-loader to turn it into a JS module and the MiniCssExtractPlugin to extract it into a separate file. Looking for the webpack 1 loader? Check out the archive/webpack-1 branch.
Install
npm install sass-loader node-sass webpack --save-dev
The sass-loader requires webpack as a
peerDependency
and it requires you to install either Node Sass or Dart Sass on your
own. This allows you to control the versions of all your dependencies, and to
choose which Sass implementation to use.
Examples
Chain the sass-loader with the css-loader and the style-loader to immediately apply all styles to the DOM.
npm install style-loader css-loader --save-dev
// webpack.config.jsmoduleexports = ... module: rules: test: /\.scss$/ use: "style-loader" // creates style nodes from JS strings "css-loader" // translates CSS into CommonJS "sass-loader" // compiles Sass to CSS, using Node Sass by default ;
You can also pass options directly to Node Sass or Dart Sass:
// webpack.config.jsmoduleexports = ... module: rules: test: /\.scss$/ use: loader: "style-loader" loader: "css-loader" loader: "sass-loader" options: includePaths: "absolute/path/a" "absolute/path/b" ;
See the Node Sass documentation for all available Sass options.
The special implementation
option determines which implementation of Sass to
use. It takes either a Node Sass or a Dart Sass module. For example, to
use Dart Sass, you'd pass:
// ... loader: "sass-loader" options: implementation: // ...
Note that when using Dart Sass, synchronous compilation is twice as fast as
asynchronous compilation by default, due to the overhead of asynchronous
callbacks. To avoid this overhead, you can use the
fibers
package to call asynchronous
importers from the synchronous code path. To enable this, pass the Fiber
class
to the fiber
option:
// webpack.config.jsconst Fiber = ; moduleexports = ... module: rules: test: /\.scss$/ use: loader: "style-loader" loader: "css-loader" loader: "sass-loader" options: implementation: fiber: Fiber ;
In production
Usually, it's recommended to extract the style sheets into a dedicated file in production using the MiniCssExtractPlugin. This way your styles are not dependent on JavaScript:
const MiniCssExtractPlugin = ; moduleexports = ... module: rules: test: /\.scss$/ use: // fallback to style-loader in development processenvNODE_ENV !== 'production' ? 'style-loader' : MiniCssExtractPluginloader "css-loader" "sass-loader" plugins: // Options similar to the same options in webpackOptions.output // both options are optional filename: "[name].css" chunkFilename: "[id].css" ;
Usage
Imports
webpack provides an advanced mechanism to resolve files. The sass-loader uses Sass's custom importer feature to pass all queries to the webpack resolving engine. Thus you can import your Sass modules from node_modules
. Just prepend them with a ~
to tell webpack that this is not a relative import:
;
It's important to only prepend it with ~
, because ~/
resolves to the home directory. webpack needs to distinguish between bootstrap
and ~bootstrap
because CSS and Sass files have no special syntax for importing relative files. Writing @import "file"
is the same as @import "./file";
url(...)
Problems with Since Sass/libsass does not provide url rewriting, all linked assets must be relative to the output.
- If you're just generating CSS without passing it to the css-loader, it must be relative to your web root.
- If you pass the generated CSS on to the css-loader, all urls must be relative to the entry-file (e.g.
main.scss
).
More likely you will be disrupted by this second issue. It is natural to expect relative references to be resolved against the .scss
file in which they are specified (like in regular .css
files). Thankfully there are a two solutions to this problem:
- Add the missing url rewriting using the resolve-url-loader. Place it before the sass-loader in the loader chain.
- Library authors usually provide a variable to modify the asset path. bootstrap-sass for example has an
$icon-font-path
. Check out this working bootstrap example.
Extracting style sheets
Bundling CSS with webpack has some nice advantages like referencing images and fonts with hashed urls or hot module replacement in development. In production, on the other hand, it's not a good idea to apply your style sheets depending on JS execution. Rendering may be delayed or even a FOUC might be visible. Thus it's often still better to have them as separate files in your final production build.
There are two possibilities to extract a style sheet from the bundle:
- extract-loader (simpler, but specialized on the css-loader's output)
- extract-text-webpack-plugin (more complex, but works in all use-cases)
Source maps
To enable CSS source maps, you'll need to pass the sourceMap
option to the sass-loader and the css-loader. Your webpack.config.js
should look like this:
moduleexports = ... devtool: "source-map" // any "source-map"-like devtool is possible module: rules: test: /\.scss$/ use: loader: "style-loader" loader: "css-loader" options: sourceMap: true loader: "sass-loader" options: sourceMap: true ;
If you want to edit the original Sass files inside Chrome, there's a good blog post. Checkout test/sourceMap for a running example.
Environment variables
If you want to prepend Sass code before the actual entry file, you can set the data
option. In this case, the sass-loader will not override the data
option but just append the entry's content. This is especially useful when some of your Sass variables depend on the environment:
loader: "sass-loader" options: data: "$env: " + processenvNODE_ENV + ";"
Please note: Since you're injecting code, this will break the source mappings in your entry file. Often there's a simpler solution than this, like multiple Sass entry files.
Maintainers
Johannes Ewald |
Jorik Tangelder |
Kiran |