Official, actively maintained successor to rails/webpacker. ShakaCode stands behind the long-term maintenance and development of this project for the Rails community.
⚠️ See the 6-stable branch for Shakapacker v6.x code and documentation.⚠️ - See V8 Upgrade for upgrading from the v7 release.
- See V7 Upgrade for upgrading from the v6 release.
- See V6 Upgrade for upgrading from v5 or prior v6 releases.
Shakapacker makes it easy to use the JavaScript pre-processor and bundler Webpack v5+ to manage frontend JavaScript in Rails. It can coexist with the asset pipeline, leaving Webpack responsible solely for frontend JavaScript, or can be used exclusively, making it also responsible for images, fonts, and CSS.
Check out 6.1.1+ for SWC and esbuild-loader support! They are faster than Babel!
See a comparison of Shakapacker with jsbundling-rails. For an in-depth discussion of choosing between shakapacker
and jsbundling-rails
, see the discussion Webpacker alternatives - which path should we go to? #8783 and the resulting PR Switch away from Webpacker to Shakapacker #10389.
For discussions, see our Slack Channel.
ShakaCode focuses on helping Ruby on Rails teams use React and Webpack better. We can upgrade your project and improve your development and customer experiences, allowing you to focus on building new features or fixing bugs instead.
For an overview of working with us, see our Client Engagement Model article and how we bill for time.
We also specialize in helping development teams lower infrastructure and CI costs. Check out our project Control Plane Flow, which can allow you to get the ease of Heroku with the power of Kubernetes and big cost savings.
If you think ShakaCode can help your project, click here to book a call with Justin Gordon, the creator of React on Rails and Shakapacker.
Here's a testimonial of how ShakaCode can help from Florian Gößler of Blinkist, January 2, 2023:
Hey Justin 👋
I just wanted to let you know that we today shipped the webpacker to shakapacker upgrades and it all seems to be running smoothly! Thanks again for all your support and your teams work! 😍
On top of your work, it was now also very easy for me to upgrade Tailwind and include our external node_module based web component library which we were using for our other (more modern) apps already. That work is going to be shipped later this week though as we are polishing the last bits of it. 😉
Have a great 2023 and maybe we get to work together again later in the year! 🙌
Read the full review here.
- Prerequisites
- Features
- Installation
- Concepts
- Usage
- Deployment
- Example Apps
- Troubleshooting
- Contributing
- License
- Supporters
- Ruby 2.7+
- Rails 5.2+
- Node.js 14+
- Rails view helpers that fully support Webpack output, including HMR and code splitting.
- Convenient but not required webpack configuration. The only requirement is that your webpack configuration creates a manifest.
- HMR with the
shakapacker-dev-server
, such as for hot-reloading React! - Automatic code splitting using multiple entry points to optimize JavaScript downloads.
- Support for NPM, Yarn (classic and berry), PNPM, and Bun
- Webpack v5+
- ES6 with babel, SWC, or Esbuild
- Asset compression, source-maps, and minification
- CDN support
- Extensible and configurable. For example, all major dependencies are specified as peers, so you can upgrade easily.
Requires extra packages to be installed.
- React
- TypeScript
- Stylesheets - Sass, Less, Stylus and Css, PostCSS
- CoffeeScript
With Rails v6+, skip JavaScript for a new app and follow below Manual Installation Steps to manually add the shakapacker
gem to your Gemfile.
rails new myapp --skip-javascript
Note, Rails 6 installs the older v5 version of webpacker unless you specify --skip-javascript
.
Add shakapacker
gem to your Gemfile
:
bundle add shakapacker --strict
Then run the following to install Shakapacker:
./bin/bundle install
./bin/rails shakapacker:install
Before initiating the installation process, ensure you have committed all the changes. While installing Shakapacker, there might be some conflict between the existing file content and what Shakapacker tries to copy. You can either approve all the prompts for overriding these files or use the FORCE=true
environment variable before the installation command to force the override without any prompt.
Shakapacker uses the package_json
gem to handle updating the package.json
and interacting with the underlying package manager of choice for managing dependencies and running commands; the package manager is managed using the packageManager
property in the package.json
, otherwise falling back to the value of PACKAGE_JSON_FALLBACK_MANAGER
if set or otherwise npm
.
If packageManager
is not set when running shakapacker:install
, Shakapacker will set it based on the lockfile and the result of calling --version
on the inferred manager; if no lockfile is present, then npm
be used unless you choose to explicitly set the PACKAGE_JSON_FALLBACK_MANAGER
to your preferred package manager.
Note
The packageManager
property is only used to determine the package manager to use, based primarily on its name.
The version (if present) is only used to determine if Yarn Classic or Yarn Berry should be used, but is otherwise
not checked, nor is corepack
used to ensure that the package manager is installed.
It is up to the developer to ensure that the desired package manager is actually install at the right version, which can be done
using corepack
or by other means.
See here for a list of the supported package managers and more information; note that package_json
does not handle ensuring the manager is installed.
If you wish to use Yarn PnP you will need to configure Babel using a babel.config.js
file rather than via package.json
- see customizing Babel Config for examples on how to do this.
Note
The rest of the documentation will only reference npm
when providing commands such as to install optional packages except in cases where
a particular package manager requires a very different command; otherwise it should be safe to just replace npm
with the name of your
preferred package manager when running the command
Note, in v6+, most JS packages are peer dependencies. Thus, the installer will add the packages:
@babel/core
@babel/plugin-transform-runtime
@babel/preset-env
@babel/runtime
babel-loader
compression-webpack-plugin
terser-webpack-plugin
webpack
webpack-assets-manifest
webpack-cli
webpack-merge
webpack-sources
webpack-dev-server
Previously, these "webpack" and "babel" packages were direct dependencies for shakapacker
. By
making these peer dependencies, you have control over the versions used in your webpack and babel configs.
At its core, Shakapacker's essential function is to:
- Provide configuration by a single file used by both Rails view helpers and JavaScript webpack compilation code.
- Provide Rails view helpers, utilizing this configuration file so that a webpage can load JavaScript, CSS, and other static assets compiled by webpack, supporting bundle splitting, fingerprinting, and HMR.
- Provide a community-supported, default webpack compilation that generates the necessary bundles and manifest, using the same configuration file. This compilation can be extended for any needs.
You will need your file system to correspond to the setup of your config/shakapacker.yml
file.
Suppose you have the following configuration:
shakapacker.yml
default: &default
source_path: app/javascript
source_entry_path: packs
public_root_path: public
public_output_path: packs
nested_entries: false
# And more
And that maps to a directory structure like this:
app/javascript:
└── packs: # sets up webpack entries
│ └── application.js # references ../src/my_component.js
│ └── application.css
└── src: # any directory name is fine. Referenced files need to be under source_path
│ └── my_component.js
└── stylesheets:
│ └── my_styles.css
└── images:
└── logo.svg
public/packs # webpack output
Webpack intelligently includes only necessary files. In this example, the file packs/application.js
would reference ../src/my_component.js
nested_entries
allows you to have webpack entry points nested in subdirectories. This defaults to true as of shakapacker v7. With nested_entries: false
, you can have your entire source_path
used for your source (using the source_entry_path: /
) and you place files at the top level that you want as entry points. nested_entries: true
allows you to have entries that are in subdirectories. This is useful if you have entries that are generated, so you can have a generated
subdirectory and easily separate generated files from the rest of your codebase.
To enable/disable the usage of contentHash in any node environment (specified using the NODE_ENV
environment variable), add/modify useContentHash
with a boolean value in config/shakapacker.yml
. This feature is disabled for all environments except production by default. You may not disable the content hash for a NODE_ENV
of production as that would break the browser caching of assets. Notice that despite the possibility of enabling this option for the development environment, it is not recommended.
You can use the environment variable SHAKAPACKER_CONFIG
to enforce a particular path to the config file rather than the default config/shakapacker.yml
.
The Shakapacker view helpers generate the script and link tags to get the webpack output onto your views.
Be sure to consult the API documentation in the source code of helper.rb.
Note: For your styles or static assets files to be available in your view, you would need to link them in your "pack" or entry file. Otherwise, Webpack won't know to package up those files.
These view helpers take your shakapacker.yml
configuration file and the resulting webpack compilation manifest.json
and generate the HTML to load the assets.
You can then link the JavaScript pack in Rails views using the javascript_pack_tag
helper. If you have styles imported in your pack file, you can link them by using stylesheet_pack_tag
:
<%= javascript_pack_tag 'application' %>
<%= stylesheet_pack_tag 'application' %>
The javascript_pack_tag
and stylesheet_pack_tag
helpers will include all the transpiled
packs with the chunks in your view, which creates HTML tags for all the chunks.
You can provide multiple packs and other attributes. Note, defer
defaults to showing.
<%= javascript_pack_tag 'calendar', 'map', 'data-turbo-track': 'reload' %>
The resulting HTML would look like this:
<script src="/packs/vendor-16838bab065ae1e314.js" data-turbo-track="reload" defer></script>
<script src="/packs/calendar~runtime-16838bab065ae1e314.js" data-turbo-track="reload" defer></script>
<script src="/packs/calendar-1016838bab065ae1e314.js" data-turbo-track="reload" defer"></script>
<script src="/packs/map~runtime-16838bab065ae1e314.js" data-turbo-track="reload" defer></script>
<script src="/packs/map-16838bab065ae1e314.js" data-turbo-track="reload" defer></script>
In this output, both the calendar and map codes might refer to other common libraries. Those get placed in something like the vendor bundle. The view helper removes any duplication.
Note, the default of "defer" for the javascript_pack_tag
. You can override that to false
. If you expose jquery globally with expose-loader,
by using import $ from "expose-loader?exposes=$,jQuery!jquery"
in your app/javascript/application.js
, pass the option defer: false
to your javascript_pack_tag
.
Important: Pass all your pack names as multiple arguments, not multiple calls, when using javascript_pack_tag
and the stylesheet_pack_tag
. Otherwise, you will get duplicated chunks on the page.
<%# DO %>
<%= javascript_pack_tag 'calendar', 'map' %>
<%# DON'T %>
<%= javascript_pack_tag 'calendar' %>
<%= javascript_pack_tag 'map' %>
While this also generally applies to stylesheet_pack_tag
,
you may use multiple calls to stylesheet_pack_tag if,
say,
you require multiple <style>
tags for different output media:
<%= stylesheet_pack_tag 'application', media: 'screen' %>
<%= stylesheet_pack_tag 'print', media: 'print' %>
If you need to configure your script pack names or stylesheet pack names from the view for a route or partials, then you will need some logic to ensure you call the helpers only once with multiple arguments. The new view helpers, append_javascript_pack_tag
and append_stylesheet_pack_tag
can solve this problem. The helper append_javascript_pack_tag
will queue up script packs when the javascript_pack_tag
is finally used. Similarly,append_stylesheet_pack_tag
will queue up style packs when the stylesheet_pack_tag
is finally used.
Main view:
<% append_javascript_pack_tag 'calendar' %>
<% append_stylesheet_pack_tag 'calendar' %>
Some partial:
<% append_javascript_pack_tag 'map' %>
<% append_stylesheet_pack_tag 'map' %>
And the main layout has:
<%= javascript_pack_tag 'application' %>
<%= stylesheet_pack_tag 'application' %>
is the same as using this in the main layout:
<%= javascript_pack_tag 'calendar', 'map', application' %>
<%= stylesheet_pack_tag 'calendar', 'map', application' %>
However, you typically can't do that in the main layout, as the view and partial codes will depend on the route.
Thus, you can distribute the logic of what packs are needed for any route. All the magic of splitting up the code and CSS was automatic!
Important: These helpers can be used anywhere in your application as long as they are executed BEFORE (javascript/stylesheet)_pack_tag
respectively. If you attempt to call one of these helpers after the respective (javascript/stylesheet)_pack_tag
, an error will be raised.
The typical issue is that your layout might reference some partials that need to configure packs. A good way to solve this problem is to use content_for
to ensure that the code to render your partial comes before the call to javascript_pack_tag
.
<% content_for :footer do
render 'shared/footer' %>
<%= javascript_pack_tag %>
<%= content_for :footer %>
There is also prepend_javascript_pack_tag
that will put the entry at the front of the queue. This is handy when you want an entry in the main layout to go before the partial and main layout append_javascript_pack_tag
entries.
Main view:
<% append_javascript_pack_tag 'map' %>
Some partial:
<% append_javascript_pack_tag 'map' %>
And the main layout has:
<% prepend_javascript_pack_tag 'main' %>
<%= javascript_pack_tag 'application' %>
is the same as using this in the main layout:
<%= javascript_pack_tag 'main', 'calendar', 'map', application' %>
For alternative options for setting the additional packs, see this discussion.
If you want to link a static asset for <img />
tag, you can use the asset_pack_path
helper:
<img src="<%= asset_pack_path 'static/logo.svg' %>" />
Or use the dedicated helper:
<%= image_pack_tag 'application.png', size: '16x10', alt: 'Edit Entry' %>
<%= image_pack_tag 'picture.png', srcset: { 'picture-2x.png' => '2x' } %>
If you want to create a favicon:
<%= favicon_pack_tag 'mb-icon.png', rel: 'apple-touch-icon', type: 'image/png' %>
If you want to preload a static asset in your <head>
, you can use the preload_pack_asset
helper:
<%= preload_pack_asset 'fonts/fa-regular-400.woff2' %>
If you want to use images in your stylesheets:
.foo {
background-image: url('../images/logo.svg')
}
Note, if you are using server-side rendering of JavaScript with dynamic code-splitting, as is often done with extensions to Shakapacker, like React on Rails, your JavaScript should create the link prefetch HTML tags that you will use, so you won't need to use to asset_pack_path
in those circumstances.
Shakapacker ships with two binstubs: ./bin/shakapacker
and ./bin/shakapacker-dev-server
. Both are thin wrappers around the standard webpack.js
and webpack-dev-server.js
executables to ensure that the right configuration files and environmental variables are loaded based on your environment.
Note: older Shakapacker installations had set a missing NODE_ENV in the binstubs. Please remove this for versions 6.5.2 and newer.
Shakapacker can be configured to automatically compile on demand when needed using compile
option in the shakapacker.yml
. This happens when you refer to any of the pack assets using the Shakapacker helper methods. This means that you don't have to run any separate processes. Compilation errors are logged to the standard Rails log. However, this auto-compilation happens when a web request is made that requires an updated webpack build, not when files change. Thus, that can be painfully slow for front-end development in this default way. Instead, you should either run the bin/shakapacker --watch
or run ./bin/shakapacker-dev-server
during development.
The compile: true
option can be more useful for test and production builds.
Shakapacker ships with two different strategies that are used to determine whether assets need recompilation per the compile: true
option:
digest
- This strategy calculates SHA1 digest of files in your watched paths (see below). The calculated digest is then stored in a temp file. To check whether the assets need to be recompiled, Shakapacker calculates the SHA1 of the watched files and compares it with the one stored. If the digests are equal, no recompilation occurs. If the digests are different or the temp file is missing, files are recompiled.mtime
- This strategy looks at the last "modified at" timestamps of both files AND directories in your watched paths. The timestamp of the most recent file or directory is then compared with the timestamp ofmanifest.json
file generated. If the manifest file timestamp is newer than one of the most recently modified files or directories in the watched paths, no recompilation occurs. If the manifest file is older, files are recompiled.
The mtime
strategy is generally faster than the digest
one, but it requires stable timestamps, this makes it perfect for a development environment, such as needing to rebuild bundles for tests, or if you're not changing frontend assets much.
In production or CI environments, the digest
strategy is more suitable, unless you are using incremental builds or caching and can guarantee that the timestamps will not change after e.g. cache restore. However, many production or CI environments will explicitly compile assets, so compile: false
is more appropriate. Otherwise, you'll waste time either checking file timestamps or computing digests.
You can control what strategy is used by the compiler_strategy
option in shakapacker.yml
config file. By default mtime
strategy is used in development environment, digest
is used elsewhere.
Note
If you are not using the shakapacker-dev-server
, your packs will be served by the Rails public file server.
If you've enabled caching (Rails application config.action_controller.perform_caching
setting),
your changes will likely not be picked up due to Cache-Control
header being set and assets being cached in the browser memory.
For more details see issue 88: Caching issues in Development since migrating to Shakapacker.
If you want to use live code reloading, or you have enough JavaScript that on-demand compilation is too slow, you'll need to run ./bin/shakapacker-dev-server
. This process will watch for changes in the relevant files, defined by shakapacker.yml
configuration settings for source_path
, source_entry_path
, and additional_paths
, and it will then automatically reload the browser to match. This feature is also known as Hot Module Replacement.
# webpack dev server
./bin/shakapacker-dev-server
# watcher
./bin/shakapacker --watch --progress
# standalone build
./bin/shakapacker --progress
Once you start this webpack development server, Shakapacker will automatically start proxying all webpack asset requests to this server. When you stop this server, Rails will detect that it's not running and Rails will revert back to on-demand compilation if you have the compile
option set to true in your config/shakapacker.yml
You can use environment variables as options supported by webpack-dev-server in the form SHAKAPACKER_DEV_SERVER_<OPTION>
. Please note that these environmental variables will always take precedence over the ones already set in the configuration file, and that the same environmental variables must be available to the rails server
process.
SHAKAPACKER_DEV_SERVER_PORT=4305 SHAKAPACKER_DEV_SERVER_HOST=example.com SHAKAPACKER_DEV_SERVER_INLINE=true SHAKAPACKER_DEV_SERVER_HOT=false ./bin/shakapacker-dev-server
By default, the webpack dev server listens on localhost:3035
in development for security purposes. However, if you want your app to be available on port 4035 over local LAN IP or a VM instance like vagrant, you can set the port
and host
when running ./bin/shakapacker-dev-server
binstub:
SHAKAPACKER_DEV_SERVER_PORT=4305 SHAKAPACKER_DEV_SERVER_HOST=0.0.0.0 ./bin/shakapacker-dev-server
Note: You need to allow webpack-dev-server host as an allowed origin for connect-src
if you are running your application in a restrict CSP environment (like Rails 5.2+). This can be done in Rails 5.2+ in the CSP initializer config/initializers/content_security_policy.rb
with a snippet like this:
Rails.application.config.content_security_policy do |policy|
policy.connect_src :self, :https, 'http://localhost:3035', 'ws://localhost:3035' if Rails.env.development?
end
Note: Don't forget to prefix ruby
when running these binstubs on Windows
First, you don't need to use Shakapacker's webpack configuration. However, the shakapacker
NPM package provides convenient access to configuration code that reads the config/shakapacker.yml
file which the view helpers also use. If you have your customized webpack configuration, at the minimum, you must ensure:
- Your output files go to the right directory
- Your output includes a manifest, via package
webpack-assets-manifest
that maps output names (your 'packs') to the fingerprinted versions, including bundle-splitting dependencies. That's the main secret sauce of Shakapacker!
The webpack configuration used by Shakapacker lives in config/webpack/webpack.config.js
; this makes it easy to customize the configuration beyond what's available in config/shakapacker.yml
by giving you complete control of the final configuration. By default, this file exports the result of generateWebpackConfig
which handles generating a webpack configuration based on config/shakapacker.yml
.
The easiest way to modify this config is to pass your desired customizations to generateWebpackConfig
which will use webpack-merge to merge them with the configuration generated from config/shakapacker.yml
:
// config/webpack/webpack.config.js
const { generateWebpackConfig } = require('shakapacker')
const options = {
resolve: {
extensions: ['.css', '.ts', '.tsx']
}
}
// This results in a new object copied from the mutable global
module.exports = generateWebpackConfig(options)
The shakapacker
package also exports the merge
function from webpack-merge to make it easier to do more advanced customizations:
// config/webpack/webpack.config.js
const { generateWebpackConfig, merge } = require('shakapacker')
const webpackConfig = generateWebpackConfig()
const options = {
resolve: {
extensions: ['.css', '.ts', '.tsx']
}
}
module.exports = merge(options, webpackConfig)
This example is based on an example project
Shakapacker gives you a default configuration file config/webpack/webpack.config.js
, which, by default, you don't need to make any changes to config/webpack/webpack.config.js
since it's a standard production-ready configuration. However, you will probably want to customize or add a new loader by modifying the webpack configuration, as shown above.
You might add separate files to keep your code more organized.
// config/webpack/custom.js
module.exports = {
resolve: {
alias: {
jquery: 'jquery/src/jquery',
vue: 'vue/dist/vue.js',
React: 'react',
ReactDOM: 'react-dom',
vue_resource: 'vue-resource/dist/vue-resource'
}
}
}
Then require
this file in your config/webpack/webpack.config.js
:
// config/webpack/webpack.config.js
// use the new NPM package name, `shakapacker`.
const { generateWebpackConfig } = require('shakapacker')
const customConfig = require('./custom')
module.exports = generateWebpackConfig(customConfig)
If you need access to configs within Shakapacker's configuration, you can import them like so:
// config/webpack/webpack.config.js
const { generateWebpackConfig } = require('shakapacker')
const webpackConfig = generateWebpackConfig()
console.log(webpackConfig.output_path)
console.log(webpackConfig.source_path)
// Or to print out your whole webpack configuration
console.log(JSON.stringify(webpackConfig, undefined, 2))
You may want to modify the rules in the default configuration. For instance, if you are using a custom svg loader, you may want to remove .svg
from the default file loader rules. You can search and filter the default rules like so:
const fileRule = config.module.rules.find(rule => rule.test.test('.svg'));
// removing svg from asset file rule's test RegExp
fileRule.test = /\.(bmp|gif|jpe?g|png|tiff|ico|avif|webp|eot|otf|ttf|woff|woff2)$/
// changing the rule type from 'asset/resource' to 'asset'. See https://webpack.js.org/guides/asset-modules/
fileRule.type = 'asset'
By default, you will find the Shakapacker preset in your package.json
. Note, you need to use the new NPM package name, shakapacker
.
"babel": {
"presets": [
"./node_modules/shakapacker/package/babel/preset.js"
]
},
Optionally, you can change your Babel configuration by removing these lines in your package.json
and adding a Babel configuration file](https://babeljs.io/docs/en/config-files) to your project. For an example of customization based on the original, see Customizing Babel Config.
You can try out experimental integration with the SWC loader. You can read more at SWC usage docs.
Please note that if you want opt-in to use SWC, you can skip React integration instructions as it is supported out of the box.
You can try out experimental integration with the esbuild-loader. You can read more at esbuild-loader usage docs.
Please note that if you want opt-in to use esbuild-loader, you can skip React integration instructions as it is supported out of the box.
Shakapacker out of the box supports JS and static assets (fonts, images etc.) compilation. To enable support for CoffeeScript or TypeScript install relevant packages:
See here for detailed instructions on how to configure Shakapacker to bundle a React app (with optional HMR).
See also Customizing Babel Config for an example React configuration.
npm install typescript @babel/preset-typescript
Babel won’t perform any type-checking on TypeScript code. To optionally use type-checking run:
npm install fork-ts-checker-webpack-plugin
Add tsconfig.json
{
"compilerOptions": {
"declaration": false,
"emitDecoratorMetadata": true,
"experimentalDecorators": true,
"lib": ["es6", "dom"],
"module": "es6",
"moduleResolution": "node",
"sourceMap": true,
"target": "es5",
"jsx": "react",
"noEmit": true
},
"exclude": ["**/*.spec.ts", "node_modules", "vendor", "public"],
"compileOnSave": false
}
Then modify the webpack config to use it as a plugin:
// config/webpack/webpack.config.js
const { generateWebpackConfig } = require("shakapacker");
const ForkTSCheckerWebpackPlugin = require("fork-ts-checker-webpack-plugin");
module.exports = generateWebpackConfig({
plugins: [new ForkTSCheckerWebpackPlugin()],
});
To enable CSS support in your application, add the following packages:
npm install css-loader style-loader mini-css-extract-plugin css-minimizer-webpack-plugin
Optionally, add the CSS
extension to webpack config for easy resolution.
// config/webpack/webpack.config.js
const { generateWebpackConfig } = require('shakapacker')
const customConfig = {
resolve: {
extensions: ['.css']
}
}
module.exports = generateWebpackConfig(customConfig)
To enable PostCSS
, Sass
or Less
support, add CSS
support first and
then add the relevant pre-processors:
npm install postcss postcss-loader
Optionally add these two plugins if they are required in your postcss.config.js
:
npm install postcss-preset-env postcss-flexbugs-fixes
npm install sass-loader
You will also need to install Dart Sass, Node Sass or Sass Embedded to pick the implementation to use. sass-loader will automatically pick an implementation based on installed packages.
Please refer to sass-loader documentation and individual packages repos for more information on all the options.
npm install sass
npm install node-sass
npm install sass-embedded
npm install less less-loader
npm install stylus stylus-loader
npm install coffeescript coffee-loader
Please follow Webpack integration guide for the relevant framework or library,
For example to add Vue support:
// config/webpack/rules/vue.js
const { VueLoaderPlugin } = require('vue-loader')
module.exports = {
module: {
rules: [
{
test: /\.vue$/,
loader: 'vue-loader'
}
]
},
plugins: [new VueLoaderPlugin()],
resolve: {
extensions: ['.vue']
}
}
// config/webpack/webpack.config.js
const { generateWebpackConfig, merge } = require('shakapacker')
const webpackConfig = generateWebpackConfig()
const vueConfig = require('./rules/vue')
module.exports = merge(vueConfig, webpackConfig)
Out of the box Shakapacker ships with - development, test and production environments in config/shakapacker.yml
however, in most production apps extra environments are needed as part of the deployment workflow. Shakapacker supports this out of the box from version 3.4.0+ onwards.
You can choose to define additional environment configurations in shakapacker.yml,
staging:
<<: *default
# Production depends on precompilation of packs prior to booting for performance.
compile: false
# Cache manifest.json for performance
cache_manifest: true
# Compile staging packs to a separate directory
public_output_path: packs-staging
Otherwise, Shakapacker will use the production environment as a fallback environment for loading configurations. Please note, NODE_ENV
can either be set to production
, development
or test
. This means you don't need to create additional environment files inside config/shakapacker/*
and instead use shakapacker.yml to load different configurations using RAILS_ENV
.
For example, the below command will compile assets in production mode but will use staging configurations from config/shakapacker.yml
if available or use fallback production environment configuration:
RAILS_ENV=staging bundle exec rails assets:precompile
And, this will compile in development mode and load configuration for the cucumber environment if defined in shakapacker.yml
or fallback to production configuration
RAILS_ENV=cucumber NODE_ENV=development bundle exec rails assets:precompile
Please note, binstubs compiles in development mode however rake tasks compiles in production mode.
# Compiles in development mode unless NODE_ENV is specified, per the binstub source
./bin/shakapacker
./bin/shakapacker-dev-server
# Compiles in production mode by default unless NODE_ENV is specified, per `lib/tasks/shakapacker/compile.rake`
bundle exec rails assets:precompile
bundle exec rails shakapacker:compile
You can run the following commands to upgrade Shakapacker to the latest stable version. This process involves upgrading the gem and related JavaScript packages:
# check your Gemfile for version restrictions
bundle update shakapacker
# overwrite your changes to the default install files and revert any unwanted changes from the install
rails shakapacker:install
# using npm
npm install shakapacker@latest
npm install webpack-dev-server@latest
# using yarn classic
yarn upgrade shakapacker --latest
yarn upgrade webpack-dev-server --latest
# using yarn berry
yarn up shakapacker@latest
yarn up webpack-dev-server@latest
# using pnpm
pnpm up shakapacker@latest
pnpm up webpack-dev-server@latest
# Or to install the latest release (including pre-releases)
npm install shakapacker@next
Also, consult the CHANGELOG for additional upgrade links.
By default, Shakapacker ships with simple conventions for where the JavaScript app files and compiled webpack bundles will go in your Rails app. All these options are configurable from config/shakapacker.yml
file.
The configuration for what webpack is supposed to compile by default rests on the convention that every file in app/javascript/
(default) or whatever path you set for source_entry_path
in the shakapacker.yml
configuration is turned into their own output files (or entry points, as webpack calls it). Therefore you don't want to put any file inside app/javascript
directory that you do not want to be an entry file. As a rule of thumb, put all files you want to link in your views inside "app/javascript/" directory and keep everything else under subdirectories like app/javascript/controllers
.
Suppose you want to change the source directory from app/javascript
to frontend
and output to assets/packs
. This is how you would do it:
# config/shakapacker.yml
source_path: frontend # packs are the files in frontend/
public_output_path: assets/packs # outputs to => public/assets/packs
Similarly, you can also control and configure webpack-dev-server
settings from config/shakapacker.yml
file:
# config/shakapacker.yml
development:
dev_server:
host: localhost
port: 3035
If you have hmr
turned to true and inline_css
is not false, then the stylesheet_pack_tag
generates no output, as you will want to configure your styles to be inlined in your JavaScript for hot reloading. During production and testing, the stylesheet_pack_tag
will create the appropriate HTML tags.
If you want to have HMR and separate link tags, set hmr: true
and inline_css: false
. This will cause styles to be extracted and reloaded with the mini-css-extract-plugin
loader. Note that in this scenario, you do not need to include style-loader in your project dependencies.
If you are adding Shakapacker to an existing app that has most of the assets inside app/assets
or inside an engine, and you want to share that with webpack modules, you can use the additional_paths
option available in config/shakapacker.yml
. This lets you
add additional paths that webpack should look up when resolving modules:
additional_paths: ['app/assets', 'vendor/assets']
You can then import these items inside your modules like so:
// Note it's relative to parent directory i.e. app/assets
import 'stylesheets/main'
import 'images/rails.png'
Assets put in these folders will also have their path stripped just like with the source_path
.
Example:
A file in app/assets/images/image.svg
with additional_paths: ['app/assets']
will result in static/images/image.svg
Note: Please be careful when adding paths here otherwise it will make the compilation slow, consider adding specific paths instead of the whole parent directory if you just need to reference one or two modules
Also note: While importing assets living outside your source_path
defined in shakapacker.yml (like, for instance, assets under app/assets
) from within your packs using relative paths like import '../../assets/javascripts/file.js'
will work in development, Shakapacker won't recompile the bundle in production unless a file that lives in one of it's watched paths has changed (check out Shakapacker::MtimeStrategy#latest_modified_timestamp
or Shakapacker::DigestStrategy#watched_files_digest
depending on strategy configured by compiler_strategy
option in shakapacker.yml
). That's why you'd need to add app/assets
to the additional_paths as stated above and use import 'javascripts/file.js'
instead.
Shakapacker hooks up a new shakapacker:compile
task to assets:precompile
, which gets run whenever you run assets:precompile
. If you are not using Sprockets, shakapacker:compile
is automatically aliased to assets:precompile
. Similar to sprockets both rake tasks will compile packs in production mode but will use RAILS_ENV
to load configuration from config/shakapacker.yml
(if available).
This behavior is optional & can be disabled by either setting a SHAKAPACKER_PRECOMPILE
environment variable to false
, no
, n
, or f
, or by setting a shakapacker_precompile
key in your shakapacker.yml
to false
. (source code)
When compiling assets for production on a remote server, such as a continuous integration environment, it's recommended to ensure the exact versions specified in your lockfile are installed:
# using npm
npm ci
# using yarn classic
yarn install --frozen-lockfile
# using yarn berry
yarn install --immutable
# using pnpm
pnpm install --frozen-lockfile
# using bun
bun install --frozen-lockfile
If you are using a CDN setup, Shakapacker does NOT use the ASSET_HOST
environment variable to prefix URLs for assets during bundle compilation. You must use the SHAKAPACKER_ASSET_HOST
environment variable instead (WEBPACKER_ASSET_HOST
if you're using any version of Webpacker or Shakapacker before Shakapacker v7).
See the doc page for Troubleshooting.
We encourage you to contribute to Shakapacker! See CONTRIBUTING for guidelines about how to proceed. We have a Slack discussion channel.
Shakapacker is released under the MIT License.
The following companies support our Open Source projects, and ShakaCode uses their products!