Boilerplate for publishing modern React modules with Rollup and example usage via create-react-app.
Note: Modern means modern as of November, 2017.. I'm sure everything will change in a month... 😂 😂
Introductory blog post.
The purpose of this boilerplate is to make publishing your own React components as simple as possible.
There are some existing React library boilerplates, but none of them fulfilled the following goals which we set out to accomplish:
- Support all modern JS language features for component development out of the box
- Build process to convert source to
umd
andes
module formats for publishing to npm - Comes with an
example
app using a standard create-react-app, serving 2 purposes - Use Rollup for build process and Babel for transpilation
- See the blog post for an explanation of Rollup vs Webpack
- Allow the use of
npm
modules within your library, either as dependencies or peer-dependencies - Support importing CSS in your components (with css modules enabled by default)
- Note that CSS support will be a noop if you're using css-in-js
- Testing with Jest, using
react-scripts
fromcreate-react-app
- Thorough documentation written by someone who cares 😍
Check out the accompanying blog post which gives more in-depth explanations on how to create an example component using this boilerplate.
On this page, we'll give a quick rundown of the essential steps.
The first step is to clone this repo and rename / replace all boilerplate names to match your custom module. In this example, we'll be creating a module named react-poop-emoji
.
# clone and rename base boilerplate repo
git clone https://github.com/transitive-bullshit/react-modern-library-boilerplate.git
mv react-modern-library-boilerplate react-poop-emoji
cd react-poop-emoji
rm -rf .git
# replace boilerplate placeholders with your module-specific values
# NOTE: feel free to use your favorite find & replace method instead of sed
mv README.template.md README.md
sed -i 's/react-modern-library-boilerplate/react-poop-emoji/g' *.{json,md} src/*.js example/*.json example/src/*.js example/public/*.{html,json}
sed -i 's/transitive-bullshit/your-github-username/g' package.json example/package.json
Now you're ready to run a local version of rollup that will watch your src/
component and automatically recompile it into dist/
whenever you make changes.
# run example to start developing your new component against
npm link # the link commands are important for local development
npm install # disregard any warnings about missing peer dependencies
npm start # runs rollup with watch flag
We'll also be running our example/
create-react-app that's linked to the local version of your react-poop-emoji
module.
# (in another tab)
cd example
npm link react-poop-emoji
npm install
npm start # runs create-react-app dev server
Now, anytime you make a change to your component in src/
or to the example app's example/src
, create-react-app
will live-reload your local dev server so you can iterate on your component in real-time.
The only difference when publishing your component to npm is to make sure you add any npm modules you want as peer dependencies are properly marked as peerDependencies
in package.json
. The rollup config will automatically recognize them as peer dependencies and not try to bundle them in your module.
Then publish as per usual.
# note this will build `commonjs` and `es`versions of your module to dist/
npm publish
Deploying the example to github pages is simple. We create a production build of our example create-react-app
that showcases your library and then run gh-pages
to deploy the resulting bundle. This can be done as follows:
npm run deploy
Note that it's important for your example/package.json
to have the correct homepage
property set, as create-react-app
uses this value as a prefix for resolving static asset URLs.
Here is an example react module created from this guide: react-background-slideshow, a sexy tiled background slideshow for React. It comes with an example create-react-app hosted on github pages and should give you a good idea of the type of module you’ll be able to create starting from this boilerplate.
Here is a branch which demonstrates how to create a module with multiple named exports. The module in this branch exports two components, Foo
and Bar
, and shows how to use them from the example app.
Here is a branch which demonstrates how to create a module that makes use of a relatively complicated peer dependency, material-ui. It shows the power of rollup-plugin-peer-deps-external which makes it a breeze to create reusable modules that include complicated material-ui subcomponents without having them bundled as a part of your module.
MIT © Travis Fischer