π·ββοΈ Simple set of CLIs to scaffold and build React Native libraries for different targets.
If you want to create your own React Native module, scaffolding the project can be a daunting task. create-react-native-library
can scaffold a new project for you with the following things:
- Simple example modules for Android and iOS which you can build upon
- Kotlin configured for building the module on Android
- C++ support for native modules on Android and iOS
- Expo support for libraries without native code and web support
- Example React Native app to manually test your modules
- ESLint, Prettier, TypeScript, Husky and Release It pre-configured
react-native-builder-bob
pre-configured to compile your files- CircleCI pre-configured to run tests on the CI
To create new project, run the following:
npx create-react-native-library react-native-awesome-module
This will ask you few questions about your project and generate a new project in a folder named react-native-awesome-module
.
react-native-builder-bob
can build code in your React Native library for following targets:
- Generic CommonJS build
- ES modules build for bundlers such as webpack
- Flow definitions (copies .js files to .flow files)
- TypeScript definitions (uses
tsc
to generate declaration files) - Android AAR files
To automatically configure your project to use react-native-builder-bob
, open a Terminal and run:
npx react-native-builder-bob init
To configure your project manually, follow these steps:
- First, install
react-native-builder-bob
in your project. Open a Terminal in your project, and run:
yarn add --dev react-native-builder-bob
-
In your
package.json
, specify the targets to build for:"react-native-builder-bob": { "source": "src", "output": "lib", "targets": [ ["aar", {"reverseJetify": true}], ["commonjs", {"copyFlow": true}], "module", "typescript", ] }
See options below for more details.
-
Add
bob
to yourprepare
step:"scripts": { "prepare": "bob build" }
-
Configure the appropriate entry points:
"main": "lib/commonjs/index.js", "module": "lib/module/index.js", "react-native": "src/index.ts", "types": "lib/typescript/index.d.ts", "files": [ "lib/", "src/" ]
Make sure to change specify correct files according to the targets you have enabled.
It's usually good to point to your source code with the
react-native
field to make debugging easier. Metro already supports compiling a lot of new syntaxes including JSX, Flow and TypeScript and it will use this field if present.If you're building TypeScript definition files, also make sure that the
types
field points to a correct path. Depending on the project configuration, the path can be different for you than the example snippet (e.g.lib/typescript/index.d.ts
if you have only thesrc
directory). -
Add the output directory to
.gitignore
and.eslintignore
# generated files by bob lib/
-
Add the output directory to
jest.modulePathIgnorePatterns
if you use Jest"modulePathIgnorePatterns": ["<rootDir>/lib/"]
And we're done π
The options can be specified in the package.json
file under the react-native-builder-bob
property, or in a bob.config.js
file in your project directory.
The name of the folder with the source code which should be compiled. The folder should include an index
file.
The name of the folder where the compiled files should be output to. It will contain separate folder for each target.
Various targets to build for. The available targets are:
Enable compiling source files with Babel and use commonjs module system.
This is useful for running the code in Node (SSR, tests etc.). The output file should be referenced in the main
field of package.json
.
By default, this will compile the code for last 2 versions of modern browsers, as well as JSX. It'll also strip TypeScript and Flow annotations. You can customize the environments to compile for by using a browserslist config. To customize the babel config used, you can pass the configFile
or babelrc
options.
If your source code is written in Flow, You can also specify the copyFlow
option to copy the source files as .js.flow
to the output folder. If the main
entry in package.json
points to the index
file in the output folder, the flow type checker will pick these files up to use for type definitions.
Example:
["commonjs", { "babelrc": true, "copyFlow": true }]
Enable compiling source files with Babel and use ES module system. This is essentially same as the commonjs
target and accepts the same options, but leaves the import
/export
statements in your code.
This is useful for bundlers which understand ES modules and can tree-shake. The output file should be referenced in the module
field of package.json
.
Example:
["module", { "babelrc": true, "copyFlow": true }]
Enable generating type definitions with tsc
if your source code is written in TypeScript.
By default, it'll use the tsconfig.json
file in your project root. If you want to use a different config, you can specify it using the project
option. Furthermore, the tsc binary will be resolved to ./node_modules/.bin/tsc. Use the tsc
option to specify a different path.
Example:
["typescript", { "project": "tsconfig.build.json" }]
Enable assembling Android AAR files for a library for React Native modules including native code.
It's also possible to convert the AAR with the reverseJetify
option to use the Android support Library using the jetifier
package if your package is using AndroidX. This is useful to publish packages for older projects which haven't migrated to AndroidX.
You can also specify the androidPath
(defaults to android
) to specify the android
directory and androidBundleName
(defaults to android.aar
) to customize the name of AAR file.
Example:
["aar", { "reverseJetify": true }]
We write our library code in non-standard syntaxes such as JSX, TypeScript etc. as well as proposed syntaxes which aren't part of the standard yet. This means that our code needs to be compiled to be able to run on JavaScript engines.
When using the library in a React Native app, Metro handles compiling the source code. However, it's also possible to use them in other targets such as web, run in Node for tests or SSR etc. So we need to compile the source code for them as well.
Currently, to handle such multiple targets, we need to have multiple babel configs and write a long babel-cli
command in our package.json
. We also need to keep the configs in sync between our projects.
Just as an example, this is a command we have in one of the packages: babel --extensions '.js,.ts,.tsx' --no-babelrc --config-file=./babel.config.publish.js src --ignore '**/__tests__/**' --copy-files --source-maps --delete-dir-on-start --out-dir dist && del-cli 'dist/**/__tests__' && yarn tsc --emitDeclarationOnly
. This isn't all, there's even a separate babel.config.publish.js
file. And this only works for webpack and Metro, and will fail on Node due to ESM usage.
react-native-builder-bob
wraps tools such as babel
and typescript
to simplify these common tasks across multiple projects. It's tailored specifically to React Native projects to minimize the configuration required.
If your library depends on another react-native library containing native code, you should do the following:
- Add the native library to
peerDependencies
: This makes sure that there are no conflicts between the version you have specified and the version user has installed (in case they also want to use that library). By deferring the installation to the user, it also makes sure the package manager installs it in correct location and that autolinking can work properly. - Add the native library to
devDependencies
: This makes sure that you can use it for tests, and there are no other errors such as type errors due to the missing module. - Add the native library to
dependencies
underexample
: This is equivalent to the consumer of the library installing the dependency, and is needed so that this module is also available to the example app.
To get started with the project, run yarn
in the root directory to install the required dependencies.
yarn
While developing, you can run watch mode to automatically rebuild the changes:
yarn watch
To test the CLI locally, you can point to the bin/bob
executable:
../bob/packages/create-react-native-library/bin/create-react-native-library
Before sending a pull request, make sure your code passes TypeScript and ESLint. Run the following to verify:
yarn typescript
yarn lint
To fix formatting errors, run the following:
yarn lint --fix
Thanks to the authors of these libraries for inspiration:
There are other similar tools to scaffold React Native libraries. The difference is that the generated project with create-react-native-library
is very opinionated and configured with additional tools.
MIT