---
title: Get Started
---
import { CodeBlocksTable } from '~/components/plugins/CodeBlocksTable';
import { Terminal } from '~/ui/components/Snippet';
## Create a new module
To create a new Expo module from scratch, run the `create-expo-module` script as shown below. The script will ask you a few questions and then generate the native Expo module along with the example app for iOS and Android that uses your new module.
## Set up a library as an Expo module
You can use the Expo Modules API in existing React Native libraries.
The following steps will set up your existing React Native library to access Expo Modules APIs.
Create the [**expo-module.config.json**](./module-config.mdx) file at the root of your project and start from the empty object `{}` inside it. We will fill it in later to enable specific features.
The presence of the module config is enough for [Expo Autolinking](/workflow/glossary-of-terms/#expo-autolinking) to recognize it as an Expo module and automatically link your native code.
### Add the `expo-modules-core` native dependency
Add `expo-modules-core` as a dependency in your podspec and **build.gradle** files.
```ruby
# ...
Pod::Spec.new do |s|
# ...
s.dependency 'ExpoModulesCore'
end
```
```groovy
// ...
dependencies {
// ...
implementation project(':expo-modules-core')
}
```
### Add Expo packages to dependencies
Add `expo` package as a peer dependency in your **package.json** — we recommend using `*` as a version range so as not to cause any duplicated packages in user's **node_modules** folder. Your library also needs to depend on `expo-modules-core` but only as a dev dependency — it's already provided in the projects depending on your library by the `expo` package with the version of core that is compatible with the specific SDK used in the project.
```json package.json
{
// ...
"devDependencies": {
"expo-modules-core": "^X.Y.Z"
},
"peerDependencies": {
"expo": "*"
}
}
```
## Create a native module
To use the Expo Modules API for native modules, you need to [set up your library as an Expo module](#set-up-a-library-as-an-expo-module). Once complete, create Swift and Kotlin files from the templates below.
```swift
import ExpoModulesCore
public class MyModule: Module {
public func definition() -> ModuleDefinition {
// Definition components go here
}
}
```
```kotlin
package my.module.package
import expo.modules.kotlin.modules.Module
import expo.modules.kotlin.modules.ModuleDefinition
class MyModule : Module() {
override fun definition() = ModuleDefinition {
// Definition components go here
}
}
```
Then, add your classes to Android and/or iOS `modules` in the [module config](./module-config.mdx). Expo Autolinking will automatically link these classes as native modules in the user's project.
```json expo-module.config.json
{
"ios": {
"modules": ["MyModule"]
},
"android": {
"modules": ["my.module.package.MyModule"]
}
}
```
If you already have an example app in your workspace, ensure that the module is linked correctly.
- **On Android** the native module class will be linked automatically before building, as part of the Gradle build task.
- **On iOS** you need to run `pod install` to link the new class.
These module classes can now be accessed from the JavaScript code using the `requireNativeModule` function from the `expo-modules-core` package. We recommend creating a separate file that exports the native module for simplicity.
```ts MyModule.ts
import { requireNativeModule } from 'expo-modules-core';
export default requireNativeModule('MyModule');
```
Now that the class is set up and linked, you can start to implement its functionality. See the [native module API](./module-api.mdx) reference page and links to [examples](./module-api.mdx#examples) from simple to moderately complex real-world modules for your reference to better understand how to use the API.