A Webpack-based toolkit to build your React Native application with full support of Webpack ecosystem.
react-native-webpack-toolkit
is a next generation of Haul — a Webpack-based bundler for React Native applications.
react-native-webpack-toolkit
uses Webpack 5 and React Native CLI's plugin system to allow you to bundle your application using Webpack and allow to easily switch from Metro.
Check the base webpack.config.js
template, if you're curious how it all looks like.
- Webpack ecosystem, plugins and utilities
- Build production bundle for iOS, Android and out-of-tree platforms
- Build development bundle for iOS, Android and out-of-tree platforms
- Development server with support for:
- Remote JS debugging
- Source Map symbolication
- Hot Module Replacement and React Refresh
- Reloading application from CLI using
r
key
- Built-in Hot Module Replacement + React Refresh support
- Flipper support:
- Crash Reporter,
- Application logs
- Layout
- Network
- React DevTools
- Development server (debugging/verbose) logs
- Hermes support:
- Running the production/development bundle using Harmes engine
- Transforming production bundle into bytecode bundle
- Asynchronous chunks support:
- Dynamic
import()
support with and withoutReact.lazy()
. - Manual chunks using
entry
option.
- Dynamic
-
ChunksToHermesBytecodePlugin
plugin to automatically transform async chunks to bytecode format. - Inspecting Hermes with Flipper
-
webpack-init
command - Web dashboard / Flipper plugin with:
- Logs
- Compilations progress, errors and emitted assets
- Bundle visualizations
- Module Federation support
The main feature of react-native-webpack-toolkit
is Webpack and its ecosystem of loaders, plugins and support for various features like symlinks, aliases etc. However, because react-native-webpack-toolkit
is based on Webpack, it is targeted towards advanced users who already know how to use Webpack and want to leverage Webpack ecosystem.
If you're just starting with React Native, it's better to stick with the default solution — Metro, since you probably won't benefit much from switching to Webpack.
react-native-webpack-toolkit
was design for the advanced users, as such it exposes low-level API in form of Webpack plugins and utilities, meaning we only give you the tools you need to build React Native application, but the actual configuration and maintenance of said config is on your shoulders.- To support wide variety of use cases and give you as much control as possible,
react-native-webpack-toolkit
is written to allow you to bundle and run development server directly from Webpack CLI as well by using React Native CLI. You can pick one you want to go with. - Based on our experience with Haul, we shift as much responsibility onto you as possible, so that we can develop features, move at reasonable pace and reduce maintenance cost. Therefor,
react-native-webpack-toolkit
should be used by seasoned React Native developers with at least basic experience with Webpack. - [Future] We plan to use
react-native-webpack-toolkit
as a foundation for bringing multi-bundle support to React Native, by allowing you to use asynchronous chunks and finally Webpack 5 latest feature — Module Federation.
Both Metro and react-native-webpack-toolkit
have different approaches for the similar problem — bundling JavaScript code for your React Native application, where Metro is custom-built solution and react-native-webpack-toolkit
uses Webpack. As a result there few differences that you should consider when deciding the solution to use:
- Metro is slightly faster, since it has less overhead compared to Webpack, and it's configuration options, plugin and loader system.
- Webpack configuration options and ecosystem allows for much greater control and support for advanced use-cases.
- Metro's Fast Refresh is slightly more flexible compared to Webpack's solution: Hot Module Replacement + React Refresh — some cases require full application reloaded with
react-native-webpack-toolkit
, but they are supported with Metro See: Known issues.
react-native-webpack-toolkit
is a direct successor to Haul. Therefore we took the experience we gained with Haul while making rather major changes in the approach:
react-native-webpack-toolkit
has smaller footprint and allows for greater level of customization, since you have access to the Webpack config.react-native-webpack-toolkit
supports Hot Module Replacement + React Refresh, whereas Haul does not.react-native-webpack-toolkit
doesn't support any kind of multi-bundling yet, whereas Haul supports legacy implementation of multi-bundling (though it requires to alter React Native source code, so we don't recommend that).react-native-webpack-toolkit
delivers better Developer Experience by providing you with more meaningful logs, easier usage and more customizability.
webpack |
react-native-webpack-toolkit |
---|---|
5.22.0 |
1.0.x , 1.1.x |
- Install necessary dependencies:
npm i -D [email protected] terser-webpack-plugin babel-loader react-native-webpack-toolkit
# or
yarn add -D [email protected] terser-webpack-plugin babel-loader react-native-webpack-toolkit
- Create
webpack.config.js
based on the template. - Configure XCode/Gradle to use
webpack-bundle
/webpack-start
commands:- XCode: Add
export BUNDLE_COMMAND=webpack-bundle
to Bundle React Native code and images phase inside Build Phases in your project XCode config. The final phase should look similar to:export NODE_BINARY=node export BUNDLE_COMMAND=webpack-bundle ../node_modules/react-native/scripts/react-native-xcode.sh
- Gradle: Add
bundleCommand: "webpack-bundle"
setting toproject.ext.react
insideandroid/app/build.gradle
file, so it looks similar to:project.ext.react = [ enableHermes: false, // clean and rebuild if changing bundleCommand: "webpack-bundle", bundleInDebug: false ]
- XCode: Add
- Now you can build your app for production or run development server with
npx react-native webpack-start
and develop your app.
Once you've completed Installation & setup you can:
- Build your application for production using XCode/Android Studio/Gradle/Fastlane or whichever tool you use.
- Develop your application by starting development server with
npx react-native webpack-start
. - Create JavaScript bundle only by running
npx react-native webpack-bundle
. - Create JavaScript bundle or start development server with Webpack CLI by running
npx webpack-cli -c webpack.config.js
.
The API documentation is available at https://react-native-webpack-toolkit.netlify.app/.
Asynchronous chunks allows you to split your code into separate files using dynamic import()
or by
manually declaring them in Webpack configuration using entry
option.
Each chunk's code will get saved separately from the main bundle inside its own .chunk.bundle
file and included in the
final application file (ipa
/apk
). Chunks can help you improve startup time by deferring parts of the application
from being both parsed and evaluated at the start of the app. The chunks code will still be included in the file,
so the total download size the user will have to download from App Store/Google Play will not shrink.
Asynchronous chunks support requires react-native-webpack-toolkit
native module to be included in the app
to download/read and evaluate JavaScript code from chunks. By default, the native module should be auto-linked
so there's no additional steps for you to perform. The template webpack.config.js
is configured to support asynchronous chunks as well.
Chunks are fully supported when using Hermes, with one caveat: only the main bundle will be automatically transformed into bytecode bundle by Hermes. By default, all chunks will be left as regular JavaScript files.
If you want all files, including chunks, to be transformed into bytecode ones, you will need to add additional build task/step to XCode/Gradle configuration to transform chunks with Hermes CLI or create a Webpack plugin to transform chunks with Hermes CLI after compilation is finished, but before the process exits.
In the future you will be able to use ChunksToHermesBytecodePlugin
for that.
With Webpack's Hot Module Replacement, the modules don't refresh themselves, but their parents refresh them, meaning for components A
-> B
(A
renders B
),
if you edit B
, the component A
will refresh B
, but if you edit component A
there's no one to refresh A
.
The easiest workaround it create additional component that will simply render your previous root component, eg:
// --- index.js -------------------------------------------
import React from 'react';
import { App } from './App';
// Your new root component, make sure it's exported!
// Editing `Root` will result in full page reload`
export function Root() {
return <App />;
}
AppRegistry.registerComponent('AppName', () => Root);
// --- App.js ---------------------------------------------
import React from 'react';
// -- snip --
// `Root` will refresh `App` so HMR wll work as expected.
export function App() {
// -- snip --
}
After applying Hot Module replacement update, if the error is throw or console.log
/console.error
is called,
the stack trace that React Native prints will be different — less precise — compared to running the same code after a full reload.
It's because HMR updates (which can consist of multiple files and runtime logic) created by Webpack
have to evaluated at once, so it's impossible for the JavaScript engine to identify from which file each pice of code from HMR update is.
Instead it will fallback to the name of the file that evaluated the update — WebpackHMRClient.ts
.
This expected and there's little we can do about it. The stack trace is still correct, but it's less precise.
If you encounter such situation, and you need to get the precise stack trace, you can do a full reload
and reproduce the error or console.log
/console.error
call.
react-native-webpack-toolkit
is an open source project and will always remain free to use. If you think it's cool, please star it 🌟. Callstack is a group of React and React Native geeks, contact us at [email protected] if you need any help with these or just want to say hi!