React-Rails is a flexible tool to use React with Rails. The benefits:
- Automatically renders React server-side and client-side
- Supports Webpacker 4.x, 3.x, 2.x, 1.1+
- Supports Sprockets 4.x, 3.x, 2.x
- Lets you use JSX, ES6, TypeScript, CoffeeScript
A source code example utilizing React-Rails: https://github.com/BookOfGreg/react-rails-example-app
- Get started with Webpacker
- Use with Asset Pipeline
- View Helper
- UJS
- Server-Side Rendering
- Controller Actions
- Component Generator
- Upgrading
- Common Errors
- Related Projects
- Contributing
After reading this README file, additional information about React-Rails can be found in the Wiki page: https://github.com/reactjs/React-Rails/wiki The Wiki page features a significant amount of additional information about React-Rails which includes instructional articles and answers to the most frequently asked questions.
Alternatively, get started with Sprockets
Webpacker provides modern JS tooling for Rails. Here are the listed steps for integrating Webpacker and Rails-React with Rails:
$ rails new my-app
$ cd my-app
gem 'webpacker'
gem 'react-rails'
$ bundle install
$ rails webpacker:install
$ rails webpacker:install:react
$ rails generate react:install
Note: For Rails 6, You don't need to add javascript_pack_tag
as in Step 4. Since its already added by default.
$ bundle install
$ rails webpacker:install # OR (on rails version < 5.0) rake webpacker:install
$ rails webpacker:install:react # OR (on rails version < 5.0) rake webpacker:install:react
$ rails generate react:install
This gives you:
app/javascript/components/
directory for your React componentsReactRailsUJS
setup inapp/javascript/packs/application.js
app/javascript/packs/server_rendering.js
for server-side rendering
4) Link the JavaScript pack in Rails view using javascript_pack_tag
helper:
<!-- application.html.erb in Head tag below turbolinks -->
<%= javascript_pack_tag 'application' %>
$ rails g react:component HelloWorld greeting:string
$ rails g react:component my_subdirectory/HelloWorld greeting:string
Note: Your component is added to app/javascript/components/
by default.
Note: If your component is in a subdirectory you will append the directory path to your erb component call.
Example:
<%= react_component("my_subdirectory/HelloWorld", { greeting: "Hello from react-rails." }) %>
<!-- erb: paste this in view -->
<%= react_component("HelloWorld", { greeting: "Hello from react-rails." }) %>
$ rails s
output: greeting: Hello from react-rails", inspect webpage in your browser too see change in tag props.
The component name tells react-rails
where to load the component. For example:
react_component call |
component require |
---|---|
react_component("Item") |
require("Item") |
react_component("items/index") |
require("items/index") |
react_component("items.Index") |
require("items").Index |
react_component("items.Index.Header") |
require("items").Index.Header |
This way, you can access top-level, default, or named exports.
The require.context
inserted into packs/application.js
is used to load components. If you want to load components from a different directory, override it by calling ReactRailsUJS.useContext
:
var myCustomContext = require.context("custom_components", true)
var ReactRailsUJS = require("react_ujs")
// use `custom_components/` for <%= react_component(...) %> calls
ReactRailsUJS.useContext(myCustomContext)
If require
fails to find your component, ReactRailsUJS
falls back to the global namespace, described in Use with Asset Pipeline.
React-Rails supports plenty of file extensions such as: .js, .jsx.js, .js.jsx, .es6.js, .coffee, etcetera! Sometimes this will cause a stumble when searching for filenames.
Component File Name | react_component call |
---|---|
app/javascript/components/samplecomponent.js |
react_component("samplecomponent") |
app/javascript/components/sample_component.js |
react_component("sample_component") |
app/javascript/components/SampleComponent.js |
react_component("SampleComponent") |
app/javascript/components/SampleComponent.js.jsx |
Has to be renamed to SampleComponent.jsx, then use react_component("SampleComponent") |
If you want to use React-Rails with Typescript, simply run the installer and add @types:
$ bundle exec rails webpacker:install:typescript
$ yarn add @types/react @types/react-dom
Doing this will allow React-Rails to support the .tsx extension. Additionally, it is recommended to add ts
and tsx
to the server_renderer_extensions
in your application configuration:
config.react.server_renderer_extensions = ["jsx", "js", "tsx", "ts"]
You can use assert_react_component
to test component render:
app/views/welcome/index.html.erb
<%= react_component("HelloWorld", { greeting: "Hello from react-rails.", info: { name: "react-rails" } }, { class: "hello-world" }) %>
class WelcomeControllerTest < ActionDispatch::IntegrationTest
test 'assert_react_component' do
get "/welcome"
assert_equal 200, response.status
# assert rendered react component and check the props
assert_react_component "HelloWorld" do |props|
assert_equal "Hello from react-rails.", props[:greeting]
assert_equal "react-rails", props[:info][:name]
assert_select "[class=?]", "hello-world"
end
# or just assert component rendered
assert_react_component "HelloWorld"
end
end
react-rails
provides a pre-bundled React.js & a UJS driver to the Rails asset pipeline. Get started by adding the react-rails
gem:
gem 'react-rails'
And then install the react generator:
$ rails g react:install
Then restart your development server.
This will:
- add some
//= require
s toapplication.js
- add a
components/
directory for React components - add
server_rendering.js
for server-side rendering
Now, you can create React components in .jsx
files:
// app/assets/javascripts/components/post.jsx
window.Post = createReactClass({
render: function() {
return <h1>{this.props.title}</h1>
}
})
// or, equivalent:
class Post extends React.Component {
render() {
return <h1>{this.props.title}</h1>
}
}
Then, you can render those components in views:
<%= react_component("Post", {title: "Hello World"}) %>
Components must be accessible from the top level, but they may be namespaced, for example:
<%= react_component("Comments.NewForm", {post_id: @post.id}) %>
<!-- looks for `window.Comments.NewForm` -->
react-rails
uses a transformer class to transform JSX in the asset pipeline. The transformer is initialized once, at boot. You can provide a custom transformer to config.react.jsx_transformer_class
. The transformer must implement:
#initialize(options)
, where options is the value passed toconfig.react.jsx_transform_options
#transform(code_string)
to return a string of transformed code
react-rails
provides two transformers, React::JSX::BabelTransformer
(which uses ruby-babel-transpiler) and React::JSX::JSXTransformer
(which uses the deprecated JSXTransformer.js
).
To supply additional transform plugins to your JSX Transformer, assign them to config.react.jsx_transform_options
react-rails
uses the Babel version of the babel-source
gem.
For example, to use babel-plugin-transform-class-properties
:
config.react.jsx_transform_options = {
optional: ['es7.classProperties']
}
//= require react
brings React
into your project.
By default, React's [development version] is provided to Rails.env.development
. You can override the React build with a config:
# Here are the defaults:
# config/environments/development.rb
MyApp::Application.configure do
config.react.variant = :development
end
# config/environments/production.rb
MyApp::Application.configure do
config.react.variant = :production
end
Be sure to restart your Rails server after changing these files. See VERSIONS.md to learn which version of React.js is included with your react-rails
version. In some edge cases you may need to bust the sprockets cache with rake tmp:clear
react-rails
includes a view helper and an unobtrusive JavaScript driver which work together to put React components on the page.
The view helper (react_component
) puts a div
on the page with the requested component class & props. For example:
<%= react_component('HelloMessage', name: 'John') %>
<!-- becomes: -->
<div data-react-class="HelloMessage" data-react-props="{"name":"John"}"></div>
On page load, the react_ujs
driver will scan the page and mount components using data-react-class
and data-react-props
.
The view helper's signature is:
react_component(component_class_name, props={}, html_options={})
component_class_name
is a string which identifies a component. See getConstructor for details.props
is either:- an object that responds to
#to_json
; or - an already-stringified JSON object (see JBuilder note below).
- an object that responds to
html_options
may include:tag:
to use an element other than adiv
to embeddata-react-class
anddata-react-props
.prerender: true
to render the component on the server.camelize_props
to transform a props hash**other
Any other arguments (egclass:
,id:
) are passed through tocontent_tag
.
react-rails
uses a "helper implementation" class to generate the output of the react_component
helper. The helper is initialized once per request and used for each react_component
call during that request. You can provide a custom helper class to config.react.view_helper_implementation
. The class must implement:
#react_component(name, props = {}, options = {}, &block)
to return a string to inject into the Rails view#setup(controller_instance)
, called when the helper is initialized at the start of the request#teardown(controller_instance)
, called at the end of the request
react-rails
provides one implementation, React::Rails::ComponentMount
.
react-rails
's JavaScript is available as "react_ujs"
in the asset pipeline or from NPM. It attaches itself to the window as ReactRailsUJS
.
Usually, react-rails
mounts & unmounts components automatically as described in Event Handling below.
You can also mount & unmount components from <%= react_component(...) %>
tags using UJS:
// Mount all components on the page:
ReactRailsUJS.mountComponents()
// Mount components within a selector:
ReactRailsUJS.mountComponents(".my-class")
// Mount components within a specific node:
ReactRailsUJS.mountComponents(specificDOMnode)
// Unmounting works the same way:
ReactRailsUJS.unmountComponents()
ReactRailsUJS.unmountComponents(".my-class")
ReactRailsUJS.unmountComponents(specificDOMnode)
You can use this when the DOM is modified by AJAX calls or modal windows.
ReactRailsUJS
checks for various libraries to support their page change events:
Turbolinks
pjax
jQuery
- Native DOM events
ReactRailsUJS
will automatically mount components on <%= react_component(...) %>
tags and unmount them when appropriate.
If you need to re-detect events, you can call detectEvents
:
// Remove previous event handlers and add new ones:
ReactRailsUJS.detectEvents()
For example, if Turbolinks
is loaded after ReactRailsUJS
, you'll need to call this again. This function removes previous handlers before adding new ones, so it's safe to call as often as needed.
If Turbolinks
is import
ed via Webpacker (and thus not available globally), ReactRailsUJS
will be unable to locate it. To fix this, you can temporarily add it to the global namespace:
// Order is particular. First start Turbolinks:
Turbolinks.start();
// Add Turbolinks to the global namespace:
window.Turbolinks = Turbolinks;
// Remove previous event handlers and add new ones:
ReactRailsUJS.detectEvents();
// (Optional) Clean up global namespace:
delete window.Turbolinks;
Components are loaded with ReactRailsUJS.getConstructor(className)
. This function has two built-in implementations:
- On the asset pipeline, it looks up
className
in the global namespace. - On Webpacker, it
require
s files and accesses named exports, as described in Get started with Webpacker.
You can override this function to customize the mapping of name-to-constructor. Server-side rendering also uses this function.
You can render React components inside your Rails server with prerender: true
:
<%= react_component('HelloMessage', {name: 'John'}, {prerender: true}) %>
<!-- becomes: -->
<div data-react-class="HelloMessage" data-react-props="{"name":"John"}">
<h1>Hello, John!</h1>
</div>
(It will also be mounted by the UJS on page load.)
Server rendering is powered by ExecJS
and subject to some requirements:
react-rails
must load your code. By convention, it usesserver_rendering.js
, which was created by the install task. This file must include your components and their dependencies (eg, Underscore.js).- Your code can't reference
document
orwindow
. Prerender processes don't have access todocument
orwindow
, so jQuery and some other libs won't work in this environment :(
ExecJS
supports many backends. CRuby users will get the best performance from mini_racer
.
Server renderers are stored in a pool and reused between requests. Threaded Rubies (eg jRuby) may see a benefit to increasing the pool size beyond the default 0
.
These are the default configurations:
# config/application.rb
# These are the defaults if you don't specify any yourself
module MyApp
class Application < Rails::Application
# Settings for the pool of renderers:
config.react.server_renderer_pool_size ||= 1 # ExecJS doesn't allow more than one on MRI
config.react.server_renderer_timeout ||= 20 # seconds
config.react.server_renderer = React::ServerRendering::BundleRenderer
config.react.server_renderer_options = {
files: ["server_rendering.js"], # files to load for prerendering
replay_console: true, # if true, console.* will be replayed client-side
}
# Changing files matching these dirs/exts will cause the server renderer to reload:
config.react.server_renderer_extensions = ["jsx", "js"]
config.react.server_renderer_directories = ["/app/assets/javascripts", "/app/javascript/"]
end
end
Some of ExecJS's backends are stateful (eg, mini_racer, therubyracer). This means that any side-effects of a prerender will affect later renders with that renderer.
To manage state, you have a couple options:
- Make a custom renderer with
#before_render
/#after_render
hooks as described below - Use
per_request_react_rails_prerenderer
to manage state for a whole controller action.
To check out a renderer for the duration of a controller action, call the per_request_react_rails_prerenderer
helper in the controller class:
class PagesController < ApplicationController
# Use the same React server renderer for the entire request:
per_request_react_rails_prerenderer
end
Then, you can access the ExecJS context directly with react_rails_prerenderer.context
:
def show
react_rails_prerenderer # => #<React::ServerRendering::BundleRenderer>
react_rails_prerenderer.context # => #<ExecJS::Context>
# Execute arbitrary JavaScript code
# `self` is the global context
react_rails_prerenderer.context.exec("self.Store.setup()")
render :show
react_rails_prerenderer.context.exec("self.Store.teardown()")
end
react_rails_prerenderer
may also be accessed in before- or after-actions.
react-rails
depends on a renderer class for rendering components on the server. You can provide a custom renderer class to config.react.server_renderer
. The class must implement:
#initialize(options={})
, which accepts the hash fromconfig.react.server_renderer_options
#render(component_name, props, prerender_options)
to return a string of HTML
react-rails
provides two renderer classes: React::ServerRendering::ExecJSRenderer
and React::ServerRendering::BundleRenderer
.
ExecJSRenderer
offers two other points for extension:
#before_render(component_name, props, prerender_options)
to return a string of JavaScript to execute before callingReact.render
#after_render(component_name, props, prerender_options)
to return a string of JavaScript to execute after callingReact.render
Any subclass of ExecJSRenderer
may use those hooks (for example, BundleRenderer
uses them to handle console.*
on the server).
Components can also be server-rendered directly from a controller action with the custom component
renderer. For example:
class TodoController < ApplicationController
def index
@todos = Todo.all
render component: 'TodoList', props: { todos: @todos }, tag: 'span', class: 'todo'
end
end
You can also provide the "usual" render
arguments: content_type
, layout
, location
and status
. By default, your current layout will be used and the component, rather than a view, will be rendered in place of yield
. Custom data-* attributes can be passed like data: {remote: true}
.
Prerendering is set to true
by default, but can be turned off with prerender: false
.
You can generate a new component file with:
rails g react:component ComponentName prop1:type prop2:type ...
For example,
rails g react:component Post title:string published:bool published_by:instanceOf{Person}
would generate:
var Post = createReactClass({
propTypes: {
title: PropTypes.string,
published: PropTypes.bool,
publishedBy: PropTypes.instanceOf(Person)
},
render: function() {
return (
<React.Fragment>
Title: {this.props.title}
Published: {this.props.published}
Published By: {this.props.publishedBy}
</React.Fragment>
);
}
});
The generator also accepts options:
--es6
: useclass ComponentName extends React.Component
--coffee
: use CoffeeScript
Accepted PropTypes are:
- Plain types:
any
,array
,bool
,element
,func
,number
,object
,node
,shape
,string
instanceOf
takes an optional class name in the form ofinstanceOf{className}
.oneOf
behaves like an enum, and takes an optional list of strings in the form of'name:oneOf{one,two,three}'
.oneOfType
takes an optional list of react and custom types in the form of'model:oneOfType{string,number,OtherType}'
.
Note that the arguments for oneOf
and oneOfType
must be enclosed in single quotes
to prevent your terminal from expanding them into an argument list.
If you use Jbuilder to pass a JSON string to react_component
, make sure your JSON is a stringified hash,
not an array. This is not the Rails default -- you should add the root node yourself. For example:
# BAD: returns a stringified array
json.array!(@messages) do |message|
json.extract! message, :id, :name
json.url message_url(message, format: :json)
end
# GOOD: returns a stringified hash
json.messages(@messages) do |message|
json.extract! message, :id, :name
json.url message_url(message, format: :json)
end
You can configure camelize_props
option:
MyApp::Application.configure do
config.react.camelize_props = true # default false
end
Now, Ruby hashes given to react_component(...)
as props will have their keys transformed from underscore- to camel-case, for example:
{ all_todos: @todos, current_status: @status }
# becomes:
{ "allTodos" => @todos, "currentStatus" => @status }
You can also specify this option in react_component
:
<%= react_component('HelloMessage', {name: 'John'}, {camelize_props: true}) %>
Keep your react_ujs
up to date, yarn upgrade
React-Rails 2.4.x uses React 16+ which no longer has React Addons. Therefore the pre-bundled version of react no longer has an addons version, if you need addons still, there is the 2.3.1+ version of the gem that still has addons.
If you need to make changes in your components for the prebundled react, see the migration docs here:
- https://reactjs.org/blog/2016/11/16/react-v15.4.0.html
- https://reactjs.org/blog/2017/04/07/react-v15.5.0.html
- https://reactjs.org/blog/2017/06/13/react-v15.6.0.html
For the vast majority of cases this will get you most of the migration:
- global find+replace
React.Prop
->Prop
- add
import PropTypes from 'prop-types'
(Webpacker only) - re-run
bundle exec rails webpacker:install:react
to update npm packages (Webpacker only)
- While using installers.(rails webpacker:install:react && rails webpacker:install) Error:
public/packs/manifest.json. Possible causes:
1. You want to set webpacker.yml value of compile to true for your environment
unless you are using the `webpack -w` or the webpack-dev-server.
2. webpack has not yet re-run to reflect updates.
3. You have misconfigured Webpacker's config/webpacker.yml file.
4. Your webpack configuration is not creating a manifest.
or
yarn: error: no such option: --dev
ERROR: [Errno 2] No such file or directory: 'add'
Fix: Try updating yarn package.
sudo apt remove cmdtest
sudo apt remove yarn
curl -sS https://dl.yarnpkg.com/debian/pubkey.gpg | sudo apt-key add -
echo "deb https://dl.yarnpkg.com/debian/ stable main" | sudo tee /etc/apt/sources.list.d/yarn.list
sudo apt-get update && sudo apt-get install yarn
yarn install
ExecJS::ProgramError (identifier 'Set' undefined):
(execjs):1
If you see any variation of this issue, see Using TheRubyRacer
TheRubyRacer hasn't updated LibV8 (The library that powers Node.js) from v3 in 2 years, any new features are unlikely to work.
LibV8 itself is already beyond version 7 therefore many serverside issues are caused by old JS engines and fixed by using an up to date one such as MiniRacer or TheRubyRhino on JRuby.
Hot Module Replacement is possible with this gem as it does just pass through to Webpacker. Please open an issue to let us know tips and tricks for it to add to the wiki.
Sample repo that shows HMR working with react-rails
: https://github.com/edelgado/react-rails-hmr
One caveat is that currently you cannot Server-Side Render along with HMR.
- webpacker-react: Integration of React with Rails utilizing Webpack with Hot Module Replacement (HMR).
- The React on Rails Course A video course which teaches the basics of React and how to get started using it in Rails with
react-rails
. - react_on_rails: Integration of React with Rails utilizing Webpack, Redux, React-Router.
- react-rails-hot-loader Simple live-reloader for
react-rails
. - react-rails-benchmark_renderer adds performance instrumentation to server rendering.
- Ruby Hyperstack: Use Ruby to build reactive user interfaces with React.
π Thanks for taking the time to contribute! π
With 5 Million+ downloads of the react-rails Gem and another 2 Million+ downloads of react_ujs on NPM, you're helping the biggest React + Rails community!
By contributing to React-Rails, you agree to abide by the code of conduct.
You can always help by submitting patches or triaging issues, even offering reproduction steps to issues is incredibly helpful!
Please see our Contribution guide for more info.