react-native-native-modules
Master native modules - Turbo Modules, JSI, Fabric, and platform bridging
Master native modules - Turbo Modules, JSI, Fabric, and platform bridging
React Native Native Modules Skill
Learn to build native modules for iOS and Android using Turbo Modules, JSI, and the new architecture.
Prerequisites
- React Native intermediate knowledge
- Basic iOS (Swift/Objective-C) or Android (Kotlin/Java)
- Understanding of async/sync patterns
Learning Objectives
After completing this skill, you will be able to:
- [ ] Create native modules for iOS and Android
- [ ] Implement Turbo Modules with Codegen
- [ ] Bridge third-party SDKs
- [ ] Handle native events
- [ ] Debug native code issues
Topics Covered
1. Turbo Module Spec
// specs/NativeCalculator.ts
import type { TurboModule } from 'react-native';
import { TurboModuleRegistry } from 'react-native';
export interface Spec extends TurboModule {
add(a: number, b: number): number; // Sync
multiply(a: number, b: number): Promise<number>; // Async
}
export default TurboModuleRegistry.getEnforcing<Spec>('Calculator');
2. iOS Implementation (Swift)
@objc(Calculator)
class Calculator: NSObject {
@objc static func requiresMainQueueSetup() -> Bool { false }
@objc func add(_ a: Double, b: Double) -> Double {
return a + b
}
@objc func multiply(_ a: Double, b: Double,
resolve: @escaping RCTPromiseResolveBlock,
reject: @escaping RCTPromiseRejectBlock) {
resolve(a * b)
}
}
3. Android Implementation (Kotlin)
@ReactModule(name = "Calculator")
class CalculatorModule(reactContext: ReactApplicationContext) :
ReactContextBaseJavaModule(reactContext) {
override fun getName() = "Calculator"
@ReactMethod(isBlockingSynchronousMethod = true)
fun add(a: Double, b: Double): Double = a + b
@ReactMethod
fun multiply(a: Double, b: Double, promise: Promise) {
promise.resolve(a * b)
}
}
4. Native Events
import { NativeEventEmitter, NativeModules } from 'react-native';
const { MyModule } = NativeModules;
const emitter = new NativeEventEmitter(MyModule);
// Subscribe
const subscription = emitter.addListener('onProgress', (data) => {
console.log('Progress:', data.percent);
});
// Cleanup
subscription.remove();
5. When to Use Native Modules
| Scenario | Solution |
|---|---|
| Access native APIs | Native module |
| Performance-critical | JSI/Turbo Module |
| Third-party SDK | Bridge wrapper |
| UI component | Fabric component |
Quick Start Example
// JavaScript usage
import NativeCalculator from './specs/NativeCalculator';
// Sync call (blocks JS thread briefly)
const sum = NativeCalculator.add(5, 3);
console.log('Sum:', sum); // 8
// Async call (non-blocking)
const product = await NativeCalculator.multiply(5, 3);
console.log('Product:', product); // 15
Common Errors & Solutions
| Error | Cause | Solution |
|---|---|---|
| "Module not found" | Not linked | Run pod install |
| Crash on sync | Main thread | Use async or background |
| Type mismatch | Codegen issue | Regenerate specs |
Validation Checklist
- [ ] Module loads on both platforms
- [ ] Sync methods don't block UI
- [ ] Async methods resolve correctly
- [ ] Events fire and cleanup properly
Usage
Skill("react-native-native-modules")
Bonded Agent: 04-react-native-native
You Might Also Like
Related Skills
cache-components
Expert guidance for Next.js Cache Components and Partial Prerendering (PPR). **PROACTIVE ACTIVATION**: Use this skill automatically when working in Next.js projects that have `cacheComponents: true` in their next.config.ts/next.config.js. When this config is detected, proactively apply Cache Components patterns and best practices to all React Server Component implementations. **DETECTION**: At the start of a session in a Next.js project, check for `cacheComponents: true` in next.config. If enabled, this skill's patterns should guide all component authoring, data fetching, and caching decisions. **USE CASES**: Implementing 'use cache' directive, configuring cache lifetimes with cacheLife(), tagging cached data with cacheTag(), invalidating caches with updateTag()/revalidateTag(), optimizing static vs dynamic content boundaries, debugging cache issues, and reviewing Cache Component implementations.
vercel
component-refactoring
Refactor high-complexity React components in Dify frontend. Use when `pnpm analyze-component --json` shows complexity > 50 or lineCount > 300, when the user asks for code splitting, hook extraction, or complexity reduction, or when `pnpm analyze-component` warns to refactor before testing; avoid for simple/well-structured components, third-party wrappers, or when the user explicitly wants testing without refactoring.
langgenius
web-artifacts-builder
Suite of tools for creating elaborate, multi-component claude.ai HTML artifacts using modern frontend web technologies (React, Tailwind CSS, shadcn/ui). Use for complex artifacts requiring state management, routing, or shadcn/ui components - not for simple single-file HTML/JSX artifacts.
anthropicsfrontend-design
Create distinctive, production-grade frontend interfaces with high design quality. Use this skill when the user asks to build web components, pages, artifacts, posters, or applications (examples include websites, landing pages, dashboards, React components, HTML/CSS layouts, or when styling/beautifying any web UI). Generates creative, polished code and UI design that avoids generic AI aesthetics.
anthropics
react-modernization
Upgrade React applications to latest versions, migrate from class components to hooks, and adopt concurrent features. Use when modernizing React codebases, migrating to React Hooks, or upgrading to latest React versions.
wshobsontailwind-design-system
Build scalable design systems with Tailwind CSS v4, design tokens, component libraries, and responsive patterns. Use when creating component libraries, implementing design systems, or standardizing UI patterns.
wshobson