AgentSkillsCN

flutter-riverpod-architecture

结合 Riverpod 状态管理,运用 Clean Architecture 设计模式打造 Flutter 应用。适用于构建或评审采用分层架构(领域层、数据层、应用层、表示层)的 Flutter 应用。

SKILL.md
--- frontmatter
name: flutter-riverpod-architecture
description: Clean Architecture patterns for Flutter with Riverpod state management. Use when building or reviewing Flutter apps with layered architecture (Domain, Data, Application, Presentation).

Flutter + Riverpod Clean Architecture

Overview

This skill provides architectural patterns and rules for building Flutter applications using Clean Architecture with Riverpod for state management. Follow these patterns to maintain clear layer boundaries, testability, and scalability.

Architecture Layers

code
┌─────────────────────────────────────────┐
│           Presentation Layer            │  Flutter UI, Widgets, Routing
├─────────────────────────────────────────┤
│           Application Layer             │  Riverpod Providers, State Management
├─────────────────────────────────────────┤
│              Data Layer                 │  Repositories, External APIs
├─────────────────────────────────────────┤
│             Domain Layer                │  Entities, Value Objects, Business Rules
└─────────────────────────────────────────┘

Layer Dependency Rules

LayerCan Depend OnCannot Depend On
DomainNothing (pure Dart)Flutter, Riverpod, Firebase, any SDK
DataDomainFlutter, Riverpod, Presentation
ApplicationDomain, DataFlutter UI classes
PresentationApplication, DomainData (direct access)

Quick Reference

LayerPrimary PurposeKey Technology
DomainBusiness entities, Value ObjectsFreezed, pure Dart
DataRepository implementations, API callsFirebase, HTTP clients
ApplicationState management, Provider definitionsRiverpod, AsyncNotifier
PresentationUI components, routingConsumerWidget, go_router

Layer References

  • references/domain-layer.md - Freezed entities, Value Objects, immutable data
  • references/data-layer.md - Repository pattern, dependency injection
  • references/application-layer.md - Riverpod providers, AsyncNotifier pattern
  • references/presentation-layer.md - ConsumerWidget, type-safe routing
  • references/ui-patterns.md - Widget composition, anti-patterns

Core Principles

1. Dependency Inversion

  • Inner layers don't know about outer layers
  • Domain is completely independent
  • Data depends only on Domain
  • Dependencies flow inward

2. Single Responsibility

  • Each layer has a clear purpose
  • Repositories handle data access only
  • Providers handle state management only
  • Widgets handle UI rendering only

3. Testability

  • Domain layer is easily unit-testable (no dependencies)
  • Data layer can mock external services
  • Application layer can mock repositories
  • Presentation layer can mock providers

Directory Structure (Recommended)

code
lib/
├── app/
│   ├── route/           # go_router configuration
│   └── providers/       # App-wide providers
├── features/
│   └── {feature}/
│       ├── domain/      # Entities, Value Objects
│       ├── data/        # Repositories
│       ├── application/ # Providers, Notifiers
│       └── presentation/# Screens, Widgets
└── shared/
    ├── domain/          # Shared entities
    ├── data/            # Shared repositories
    └── widgets/         # Shared UI components

Getting Started

  1. New Entity? -> See references/domain-layer.md
  2. API Integration? -> See references/data-layer.md
  3. State Management? -> See references/application-layer.md
  4. Building UI? -> See references/presentation-layer.md
  5. Widget Patterns? -> See references/ui-patterns.md

Compliance Verification

bash
# Verify Domain layer purity
grep -r "package:flutter" lib/features/*/domain/
grep -r "riverpod" lib/features/*/domain/

# Verify Data layer isolation
grep -r "package:flutter" lib/features/*/data/
grep -r "riverpod" lib/features/*/data/

# Verify Presentation doesn't access Data directly
grep -r "features/.*/data/.*_repository" lib/features/*/presentation/

All commands should return empty results if architecture is properly maintained.