Reapp is everything you need to build amazing apps with React: a collection of packages that work together, our UI kit, and a CLI that scaffolds your app and includes a server and build system.
Installation is done through npm:
npm install -g reapp
Generate a new base reapp stack with:
reapp new [name]
And finally in your app directory, run it on localhost:3010:
reapp run
The CLI has three main functions: creating new apps, running them, and building them for release.
Note that when you run your app, it will run in development mode by default which is much slower but easier to debug. Run it in production mode to get a feel for real-world performance.
CLI Usage:
Usage: reapp [command]
new [name] creates a directory with a new reapp-starter scaffold
run runs a reapp application with express/webpack-dev-server
build builds a reapp application to a bundle in ./build
debug use this for opening issues!
The build and run commands take a variety of options to help ease your development, such as:
Usage: reapp-run [options]
-d, --debug output extra information for debugging
-p, --port [number] specify a port [number]
-h, --host [host] specify hostname
-b, --bind [address] specify bind address if different from host
-e, --env [env] specify an environment
-t, --tool [tool] specify a webpack devtool
Usage: reapp-build [options]
-d, --debug output extra information for debugging
--no-assets only build the js
--no-js only build the assets
Use reapp run
to serve your app locally, by default at localhost:3010.
The run
command has a few options to help you out:
reapp run -d
(debug) to output information on how it's running your appreapp run -e production
(env=production) to run your app in production mode, which is much fasterreapp run -t source-map
(tool=source-map) to have full sourcemaps rather than the "eval" style sourcemaps we default to
You also have the same flags available to build commands.
The build
command is used once you're ready to deploy your app (to either the web or to cordova). For now,
we provide two types of builds:
reapp build
by default sets the platform to web, for mobile sites.reapp build ios
targets Cordova ios devices.
When you run reapp build
you'll notice a new ./build
folder where your assets have been copied to.
For example, a reapp build ios
will build to ./build/ios
. reapp build
goes to ./build/web
.
It will also copy your assets for you. Here's an example of running reapp build ios
:
./assets/shared/* => ./build/ios
./assets/ios/* => ./build/ios
./assets/ios/index.html => (Webpack inserts CSS/JS references) => ./build/ios/index.html
This allows a lot of flexibility. You can share assets between builds, or have
exclusive ones for a platform. Leave an asset in the base ./assets
folder
and it won't be copied at all, but you can still require()
it within your app.
A good case for shared assets is your Cordova config.xml. Leave it in ./assets/shared
and it'll output for all your builds.
You can see the exact app that's generated through the reapp-starter repo.
/app
/components
/theme
app.js
/assets
/web
index.html
/ios
index.html
/shared
/config (optional)
By default /app/app.js
is your entry point. Everything in the app folder should be pretty
self-explanatory. /assets
contains static assets as explained in the Running & Building
section. In general, you'll place your assets into shared
or the specific platform
subdirectory.
The /theme
folder is reapp-ui specific. You can
find docs for it in the repo, but it also should be pretty easy to understand.
If you place a build.webpack.js
or run.webpack.js
in your /config
dir, the reapp CLI
will use these configs when you run reapp build
or reapp run
.
To see some example configs, check out the files in the ./config
folder of the
reapp-pack repo.
There are a number of pieces we've included in a reapp. Let's explore a few of them in order of when you'll encounter them in your codebase. Think of this as a tour of a reapp app, giving an introduction to packages as we encounter them.
You can check out the reapp project on Github for more info.
You also have an entry point defined as app/app.js
. This starts your app.
The most important part here is the routing. Lets start there.
Load all your stuff. From theme to store to actions. Then, you run your routes,
which are done using reapp-routes. This simplifies routing down to the bare minimum.
Note that your routes will automatically look into ./components
to find files,
based on the name you give them.
An example:
routes(require,
route('home', '/', route('sub')))
// ./components/Home.jsx
// ./components/home/Sub.jsx
This is the reapp-routes syntax. The key to note here is the require
that
is passed to the routes function at the top level, which is how it dynamically
requires your components based on the route tree.
./app/theme (reapp-ui UI Kit)
The next theme we require is the ./app/theme/index.js
. Themes are loaded by calling
Reapp.theme()
and passing in an object with styles, constants and animations.
You can just use the included iOS theme, but we've included the ./app/theme
folder
as an example of how you can easily customize themes.
For more documentation on themes, read here.
This is the first React component in your structure, as defined in your routes.
Notice when we export it, we wrap it with Reapp
. This helper function will provide
the this.context
variables that you've set up when you loaded your theme, actions,
and store (if you decide to use all of those). It will also pass props to your Home route,
this.props.child
and this.props.viewListProps
. You can see that they correspond
to any children routes, and to properties needed to be on a <ViewList>
that will handle
those routes.
Reapp-pack takes in an object that lets you configure your builds. It provides you with default config files, but you can override them if you need custom Webpack loaders.
The build system generates your Webpack config using reapp-pack.
reapp run
looks for:./config/run.config.js
reapp build
looks for:./config/build.config.js
reapp build [platform]
looks for:./config/build.[platform].config.js
Place a config in your ./config/[run/build].[platform].config.js
to override the default.
Here's an example config:
module.exports = {
entry: './app/app.js',
devtool: 'none',
target: 'web',
env: 'production',
linkModules: true,
debug: true,
separateStylesheet: true,
minify: true
};
You can also provide the following options that are passed to Webpack:
loaders: array
modulesDirectories: array
prefetch: array
Reapp wasn't built purposefully to be a framework. Instead, it started as a UI kit. From that kit, two apps were built. While this isn't a lot, it was enough to see repetition between the two that could be extracted.
From those two apps, over a period of months, we extracted a set of packages, ensuring to keep each of them completely independent. It was an experiment in seeing if a framework was necessary.
What we found was this: if you can subscribe to a certain file structure, you can avoid the framework. With that file structure, we can provide helpers via a CLI. Bootstrap your app in one command and you have a mature build system built in, without having to do anything.
Really, Reapp is simple. You could even just use the UI kit and roll your own app. We just went through that headache, and decided to make it easier to avoid it if you like how we make apps.
We have two example apps you can check the source to:
Sublime users, here's a guide for getting syntax highlighting, snippets and linting that works with babel.
- reapp-kit (Combines Reapp packages together)
- reapp-routes (Routes generator)
- reapp-ui (UI Kit)
- reapp (CLI)
- reapp-platform (Base utils)
- reapp-component (DI and Factories)