It might help to have an overview of the React Native architecture.
In react native, when you write, say,
<View/>, it gets sent across the bridge to the native code and dynamically translated into
UIView on iOS or
android.view.View on Android. Every basic component in the
react-native package has been implemented this way. If you want additional native functionality on both platforms, say a library which uses native map components, you will end up having to include the native libraries separately into your Android
build.gradle and your iOS
exp CLI is used to start apps built with the Expo SDK. Expo is essentially a prebuilt app with a certain set of native components already included for convenience; all you supply is your JSX; thus the recommendation to "eject" to a regular react native app if you need to use any other libraries.
react-native run-ios and
run-android builds the native
.apk using the iOS or Android toolchains, starts the Metro Bundler, which minifies and serves the JSX and other assets such as images over to your device in debug mode (You might see something like
Loading from localhost:8081).
On Android, it starts the
adb server to push the APK with all the native libraries included onto your device, if you have USB debugging enabled.
run-ios does the same with the
.app; if you install to a simulator it has automatically configured
AppDelegate.m to communicate with
localhost:8081, whereas live reload over USB has to be configured manually on a physical device.
react-native start simply starts the Metro bundler, which is useful if you already have the app installed.
Commands that begin with
npm are defined as scripts in your
package.json file. As of RN 0.57,
npm start simply calls
node node_modules/react-native/local-cli/cli.js start; which is the same as running
react-native start; according to the docs
react-native-cli installed separately will call the locally installed version of the CLI in