Once you've installed React Native and the Ignite CLI, you can get started with this boilerplate.
This is the boilerplate that the Infinite Red team recommends and uses on a day-to-day basis. Prior art includes Ignite Andross.
Includes:
- React Native
- React Navigation 5
- MobX State Tree (Why MST?)
- TypeScript
- Reactotron (requires 2.x)
- And more!
To see it in action, check out the blog post by Robin Heinze here: Creating a Trivia App with Ignite Bowser.
You can also watch a live coding demo at React Live Amsterdam, where Jamon Holmgren codes an Ignite Bowser app in less than 30 minutes.
Prerequisites:
- For classic React Native: install the React Native CLI -- choose React Native CLI
- For Expo: install the Expo CLI -- choose Expo CLI
- Note: Expo support is experimental.
First, install Ignite CLI globally:
npm install -g ignite-cli
# or
yarn global add ignite-cli
Note: Make sure you have CocoaPods installed because otherwise, React Native installation will fail.
Then spin up a new Bowser-powered React Native app:
ignite new MyApp -b bowser
cd
into your new app and run react-native run-ios
or react-native run-android
(note: in Android, you'll need an Android emulator running or an Android phone attached).
You should see an app that looks like the screenshot above!
Next step -- follow this tutorial to learn how to create a trivia app with Ignite Bowser: https://shift.infinite.red/creating-a-trivia-app-with-ignite-bowser-part-1-1987cc6e93a1
The true gem of Ignite Bowser. Generators help you scaffold your app very quickly, be it for a proof-of-concept, a demo, or a production app. Generators are there to save you time, keep your code consistent, and help you with the basic structure of your app.
ignite generate
Will give you information on what generators are present.
This is the generator you will be using most often. There are two flavors:
- Wrapped with mobx-react-lite's
observer
function - you need this if you pass any mobx-state-tree objects as props to the component, and the component will dereference properties of those objects. - Plain, not wrapped with
observer
. If you're only passing plain values or non-MST objects, this is fine.
ignite generate component awesome-component
- Creates the component/function
- Creates a style file
- Creates a storybook test
- Will make the required additions to configuration files.
You can also bypass the choice by providing which component type you want to create:
ignite generate component awesome-component --function-component
Or
ignite generate component awesome-component --stateless-function
Generates a "hooks enabled" screen.
ignite generate screen awesome-screen
- Creates the screen
Creates a Mobx-State-Tree model.
ignite generate model awesome-model
- Creates the model
- Creates a unit test file
- Will make the required additions to configuration files.
The built-in generators aren't enough? Fret not, you can create your own generators that suit your project/company. These generators can live with the default ignite-bowser generators.
Please refer to the documentation on how to create your own generators.
The Ignite Bowser boilerplate project's structure will look similar to this:
ignite-project
├── app
│ ├── components
│ ├── i18n
│ ├── models
│ ├── navigation
│ ├── screens
│ ├── services
│ ├── theme
│ ├── utils
│ ├── app.tsx
│ ├── environment-variables.ts
| ├── assets/fonts/
├── storybook
│ ├── views
│ ├── index.ts
│ ├── storybook-registry.ts
│ ├── storybook.ts
├── test
│ ├── __snapshots__
│ ├── storyshots.test.ts.snap
│ ├── mock-i18n.ts
│ ├── mock-reactotron.ts
│ ├── setup.ts
│ ├── storyshots.test.ts
├── README.md
├── android
├── ignite
│ ├── ignite.json
│ └── plugins
├── index.js
├── ios
└── package.json
Included in an Ignite boilerplate project is the app
directory. This is a directory you would normally have to create when using vanilla React Native.
The inside of the app
directory looks similar to the following:
app
│── components
│── i18n
├── models
├── navigation
├── screens
├── services
├── theme
├── utils
├── app.tsx
components
This is where your React dumb components will live. Each component will have a directory containing the .tsx
file, along with a story file, and optionally .presets
and .props
files for larger components. The app will come with some commonly used components like Button.
i18n
This is where your translations will live if you are using react-native-i18n
.
models
This is where your app's models will live. Each model has a directory that will contain the mobx-state-tree
model file, test file, and any other supporting files like actions, types, etc. There's also an extensions directory with useful shared extensions that you can include in your models like .extend(withRootStore)
or .extend(withEnvironment)
to access the root store or environment, respectively.
navigation
This is where your react-navigation
navigators will live.
For a walkthrough about how React Navigation v5 works, check out Harris Robin's post: Getting Started with the New React Navigation v5 and Ignite Bowser v5.
screens
This is where your screen components will live. A screen is a React component that will take up the entire screen and be part of the navigation hierarchy. Each screen will have a directory containing the .tsx
file, along with any assets or other helper files.
services Any services that interface with the outside world will live here (think REST APIs, Push Notifications, etc.).
theme Here lives the theme for your application, including spacing, colors, and typography. For help with adding custom fonts to your application, check out the readme in ./assets/fonts/.
utils This is a great place to put miscellaneous helpers and utilities. Things like date helpers, formatters, etc. are often found here. However, it should only be used for things that are truly shared across your application. If a helper or utility is only used by a specific component or model, consider co-locating your helper with that component or model.
app.tsx This is the entry point to your app. This is where you will find the main App component, which renders the rest of the application. This is also where you will specify whether you want to run the app in storybook mode.
The ignite
directory stores all things Ignite, including CLI and boilerplate items. Here you will find generators, plugins, and examples to help you get started with React Native.
This is where your stories will be registered and where the Storybook configs will live.
This directory will hold your Jest configs and mocks, as well as your storyshots test file. This is a file that contains the snapshots of all your component storybooks.
If you've used Ignite Andross (the first Ignite stack), you know we formerly used Redux for state management, as does much of the community. However, we encountered some pain points with Redux so we went in search of a different solution to meet our needs and landed on mobx-state-tree
. We find that it’s a great middle-ground between completely structured (like redux
) and completely freestyle (like mobx
). It brings more than just state-management to the table as well (such as dependency injection, serialization, and lifecycle events).
MST is...
- Intuitive
- With concepts like
props
andactions
, it feels familiar for React developers - Updating your data means calling functions on objects, rather than dispatching actions.
- Feels similar to relational databases, with concepts like
identifiers
(primary keys),references
(foreign keys), andviews
(calculated fields)
- With concepts like
- Streamlined
- No more
actionTypes
,actionCreators
, orreducers
- You don't have to declare your usage intentions with
mapStateToProps
; they are inferred - Side-effects are built-in; no need for 3rd party libraries like
redux-saga
,redux-observable
, orredux-thunk
- Immutability is built-in - no need for
immutable.js
orseamless-immutable
types.compose
andmodel.extend
allow for easy code-sharing of common patterns
- No more
- More than state management
- Lifecycle hooks like
afterCreate
,preProcessSnapshot
, andbeforeDestroy
let you have control over your data at various points in its lifecycle - Dependency injection with
getEnv
allows you to reference your environment (like API or other services)
- Lifecycle hooks like
- Performant
- Round-trip store writes are much faster
- Computed values (views) are only calculated when needed
mobx-react-lite
makes React "MobX-aware" and only re-renders when absolutely necessary
- Customizable
- MST ships with pre-built middlewares, including one which allows for Redux interoperability. These middlewares can also serve as examples to create your own!
We also recognize no state management solution is perfect. MST has some known downfalls:
- Integration with TypeScript is clunky at times. MST's own typing system is sometimes at odds with what TypeScript wants
mobx
andmobx-state-tree
both seem to have "magic" or "sorcery" that makes issues less straightforward to debug because you don't always have a clear picture of what's happening (but using Reactotron, which hasmobx-state-tree
support built-in, helps a lot). The MobX docs can also help illumitate some of the magic.- The user base is small, so finding help on GitHub or Stack overflow is less convenient (however, the Infinite Red Slack Community, as well as the MobX State Tree Spectrum channel are both very helpful)
- Fatal errors are sometimes too-easily triggered, and error messages can be verbose and hard to grok
- The API has a large surface area and, the docs tend to be technical and unfriendly
MobX and MobX State Tree can be a lot to learn if you're coming from Redux, so here are a few of our favorite resources to learn the basics:
-
Be sure to check out the official Getting Started guide for MobX State Tree.
-
There is also a free egghead.io course.
-
For a great explanation and walkthrough of the basics, check out State Management with MobX State Tree by React Native Training.
-
And for more in-depth reading, the official documentation is a great resource.
-
The official docs for MobX are another important resource since MST is built on MobX.
-
For help from real people in the community, make sure to check out the Infinite Red Community Slack as well as the MobX State Tree spectrum channel.
-
To see example codebases using Bowser (and MST), check out these repositories:
-
https://github.com/jamonholmgren/PlayerPopularity (simple implementation)
-
https://github.com/jamonholmgren/TrailBlazers (simple implementation with hooks)
-
https://github.com/infinitered/ChainReactApp2019 (more in-depth implementation)
To keep your React Native app updated:
- React Native Upgrade Helper great web-based tool
- rn-diff-purge
To keep your Ignite Bowser based app updated:
- ignite-bowser-diff-purge To help you see the diffs between versions
In addition to redux
--> mobx-state-tree
, we've also transitioned to using TypeScript
vs plain JavaScript
. We find that TypeScript streamlines the developer experience by catching errors before you hit refresh on that simulator and prevents costly bugs by enforcing type safety.
In Bowser, TypeScript is fully set up, so if you know TS, all you need to do is start coding!
If you are new to TypeScript, here are some of our favorite resources:
- TypeScript in 5 minutes for a quick read
- TypeScript in 50 minutes for a longer watch
- Execute Program -- TypeScript course -- free course by Gary Bernhardt
- TypeScript and VSCode for awesome developer tools
- Official Docs
Ignite CLI, Ignite Andross, and Ignite Bowser, as open-source projects, are free to use and always will be. Infinite Red offers premium Ignite CLI support and general mobile app design/development services. Email us at hello@infinite.red to get in touch with us for more details.