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flutter-development skill

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This skill helps you build high-performance cross-platform mobile apps with Flutter and Dart, covering widgets, state management, navigation, and API

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---
name: flutter-development
description: Build beautiful cross-platform mobile apps with Flutter and Dart. Covers widgets, state management with Provider/BLoC, navigation, API integration, and material design.
---

# Flutter Development

## Overview

Create high-performance, visually stunning mobile applications using Flutter with Dart language. Master widget composition, state management patterns, navigation, and API integration.

## When to Use

- Building iOS and Android apps with native performance
- Designing custom UIs with Flutter's widget system
- Implementing complex animations and visual effects
- Rapid app development with hot reload
- Creating consistent UX across platforms

## Instructions

### 1. **Project Structure & Navigation**

```dart
// pubspec.yaml
name: my_flutter_app
version: 1.0.0

dependencies:
  flutter:
    sdk: flutter
  provider: ^6.0.0
  http: ^1.1.0
  go_router: ^12.0.0

// main.dart with GoRouter navigation
import 'package:flutter/material.dart';
import 'package:go_router/go_router.dart';

void main() {
  runApp(const MyApp());
}

class MyApp extends StatelessWidget {
  const MyApp({Key? key}) : super(key: key);

  @override
  Widget build(BuildContext context) {
    return MaterialApp.router(
      title: 'Flutter App',
      theme: ThemeData(primarySwatch: Colors.blue, useMaterial3: true),
      routerConfig: _router,
    );
  }
}

final GoRouter _router = GoRouter(
  routes: <RouteBase>[
    GoRoute(
      path: '/',
      builder: (context, state) => const HomeScreen(),
      routes: [
        GoRoute(
          path: 'details/:id',
          builder: (context, state) => DetailsScreen(
            itemId: state.pathParameters['id']!
          ),
        ),
      ],
    ),
    GoRoute(
      path: '/profile',
      builder: (context, state) => const ProfileScreen(),
    ),
  ],
);
```

### 2. **State Management with Provider**

```dart
import 'package:flutter/material.dart';
import 'package:http/http.dart' as http;
import 'dart:convert';

class User {
  final String id;
  final String name;
  final String email;

  User({required this.id, required this.name, required this.email});

  factory User.fromJson(Map<String, dynamic> json) {
    return User(
      id: json['id'],
      name: json['name'],
      email: json['email'],
    );
  }
}

class UserProvider extends ChangeNotifier {
  User? _user;
  bool _isLoading = false;
  String? _error;

  User? get user => _user;
  bool get isLoading => _isLoading;
  String? get error => _error;

  Future<void> fetchUser(String userId) async {
    _isLoading = true;
    _error = null;
    notifyListeners();

    try {
      final response = await http.get(
        Uri.parse('https://api.example.com/users/$userId'),
        headers: {'Content-Type': 'application/json'},
      );

      if (response.statusCode == 200) {
        _user = User.fromJson(jsonDecode(response.body));
      } else {
        _error = 'Failed to fetch user';
      }
    } catch (e) {
      _error = 'Error: ${e.toString()}';
    } finally {
      _isLoading = false;
      notifyListeners();
    }
  }

  void logout() {
    _user = null;
    notifyListeners();
  }
}

class ItemsProvider extends ChangeNotifier {
  List<Map<String, dynamic>> _items = [];

  List<Map<String, dynamic>> get items => _items;

  Future<void> fetchItems() async {
    try {
      final response = await http.get(
        Uri.parse('https://api.example.com/items'),
      );

      if (response.statusCode == 200) {
        _items = List<Map<String, dynamic>>.from(
          jsonDecode(response.body) as List
        );
        notifyListeners();
      }
    } catch (e) {
      print('Error fetching items: $e');
    }
  }
}
```

### 3. **Screens with Provider Integration**

```dart
class HomeScreen extends StatefulWidget {
  const HomeScreen({Key? key}) : super(key: key);

  @override
  State<HomeScreen> createState() => _HomeScreenState();
}

class _HomeScreenState extends State<HomeScreen> {
  @override
  void initState() {
    super.initState();
    Future.microtask(() {
      Provider.of<ItemsProvider>(context, listen: false).fetchItems();
    });
  }

  @override
  Widget build(BuildContext context) {
    return Scaffold(
      appBar: AppBar(title: const Text('Home Feed')),
      body: Consumer<ItemsProvider>(
        builder: (context, itemsProvider, child) {
          if (itemsProvider.items.isEmpty) {
            return const Center(child: Text('No items found'));
          }
          return ListView.builder(
            itemCount: itemsProvider.items.length,
            itemBuilder: (context, index) {
              final item = itemsProvider.items[index];
              return ItemCard(item: item);
            },
          );
        },
      ),
    );
  }
}

class ItemCard extends StatelessWidget {
  final Map<String, dynamic> item;

  const ItemCard({required this.item, Key? key}) : super(key: key);

  @override
  Widget build(BuildContext context) {
    return Card(
      margin: const EdgeInsets.all(8),
      child: ListTile(
        title: Text(item['title'] ?? 'Untitled'),
        subtitle: Text(item['description'] ?? ''),
        trailing: const Icon(Icons.arrow_forward),
        onTap: () => context.go('/details/${item['id']}'),
      ),
    );
  }
}

class DetailsScreen extends StatelessWidget {
  final String itemId;

  const DetailsScreen({required this.itemId, Key? key}) : super(key: key);

  @override
  Widget build(BuildContext context) {
    return Scaffold(
      appBar: AppBar(title: const Text('Details')),
      body: Center(
        child: Column(
          mainAxisAlignment: MainAxisAlignment.center,
          children: [
            Text('Item ID: $itemId', style: const TextStyle(fontSize: 18)),
            const SizedBox(height: 16),
            ElevatedButton(
              onPressed: () => context.pop(),
              child: const Text('Go Back'),
            ),
          ],
        ),
      ),
    );
  }
}

class ProfileScreen extends StatelessWidget {
  const ProfileScreen({Key? key}) : super(key: key);

  @override
  Widget build(BuildContext context) {
    return Scaffold(
      appBar: AppBar(title: const Text('Profile')),
      body: Consumer<UserProvider>(
        builder: (context, userProvider, child) {
          if (userProvider.isLoading) {
            return const Center(child: CircularProgressIndicator());
          }
          if (userProvider.error != null) {
            return Center(child: Text('Error: ${userProvider.error}'));
          }
          final user = userProvider.user;
          if (user == null) {
            return const Center(child: Text('No user data'));
          }
          return Padding(
            padding: const EdgeInsets.all(16),
            child: Column(
              crossAxisAlignment: CrossAxisAlignment.start,
              children: [
                Text('Name: ${user.name}', style: const TextStyle(fontSize: 18)),
                Text('Email: ${user.email}', style: const TextStyle(fontSize: 16)),
                const SizedBox(height: 16),
                ElevatedButton(
                  onPressed: () => userProvider.logout(),
                  child: const Text('Logout'),
                ),
              ],
            ),
          );
        },
      ),
    );
  }
}
```

## Best Practices

### ✅ DO
- Use widgets for every UI element
- Implement proper state management
- Use const constructors where possible
- Dispose resources in state lifecycle
- Test on multiple device sizes
- Use meaningful widget names
- Implement error handling
- Use responsive design patterns
- Test on both iOS and Android
- Document custom widgets

### ❌ DON'T
- Build entire screens in build() method
- Use setState for complex state logic
- Make network calls in build()
- Ignore platform differences
- Create overly nested widget trees
- Hardcode strings
- Ignore performance warnings
- Skip testing
- Forget to handle edge cases
- Deploy without thorough testing

Overview

This skill teaches building beautiful, high-performance cross-platform mobile apps with Flutter and Dart. It focuses on widget composition, navigation with GoRouter, state management (Provider/BLoC patterns), API integration, and Material design principles. The goal is practical app structure and reliable UX across iOS and Android.

How this skill works

The skill inspects common app architecture patterns and provides compact, runnable examples: project setup, router-driven navigation, Provider-based state holders, API fetch flows, and screen widgets wired to providers. It demonstrates fetching lists and user data, handling loading and error states, and connecting UI elements to navigation and state. Code samples highlight safe async calls, notifyListeners usage, and recommended folder/widget organization.

When to use it

Building a new cross-platform mobile app targeting iOS and Android
Creating complex, custom UIs and animations with widgets
Implementing predictable state management with Provider or migrating to BLoC
Integrating REST APIs and handling network/error states gracefully
Prototyping features quickly using hot reload and iterative layouts

Best practices

Break UI into small reusable widgets and avoid huge build() methods
Use Provider (or BLoC) for complex state; minimize setState usage
Keep network calls out of build; perform them in initState or providers
Use const constructors where possible and dispose controllers in lifecycle methods
Test on multiple screen sizes and both platforms; avoid hardcoded strings
Handle loading, error, and empty states explicitly in UI

Example use cases

Home feed screen that fetches and displays items with pull-to-refresh support
Detail screen routed with GoRouter using path parameters
Profile screen fetching user data and showing loading/error states with logout
Shared items provider powering multiple screens and updating UI reactively
API-backed list + item detail flow with navigation and error handling

FAQ

Can I use BLoC instead of Provider?

Yes. The examples use Provider for simplicity, but you can replace providers with BLoC or Riverpod for stricter separation and testability.

Where should I place network code?

Keep network calls inside providers or repository classes, not in build(). Trigger fetches from initState or on user actions and surface results via ChangeNotifier or streams.