architecture-patterns
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Architecture Patterns
Master proven backend architecture patterns including Clean Architecture, Hexagonal Architecture, and Domain-Driven Design to build maintainable, testable, and scalable systems.
When to Use This Skill
- Designing new backend systems from scratch
- Refactoring monolithic applications for better maintainability
- Establishing architecture standards for your team
- Migrating from tightly coupled to loosely coupled architectures
- Implementing domain-driven design principles
- Creating testable and mockable codebases
- Planning microservices decomposition
Core Concepts
1. Clean Architecture (Uncle Bob)
Layers (dependency flows inward):
- Entities: Core business models
- Use Cases: Application business rules
- Interface Adapters: Controllers, presenters, gateways
- Frameworks & Drivers: UI, database, external services
Key Principles:
- Dependencies point inward
- Inner layers know nothing about outer layers
- Business logic independent of frameworks
- Testable without UI, database, or external services
2. Hexagonal Architecture (Ports and Adapters)
Components:
- Domain Core: Business logic
- Ports: Interfaces defining interactions
- Adapters: Implementations of ports (database, REST, message queue)
Benefits:
- Swap implementations easily (mock for testing)
- Technology-agnostic core
- Clear separation of concerns
3. Domain-Driven Design (DDD)
Strategic Patterns:
- Bounded Contexts: Separate models for different domains
- Context Mapping: How contexts relate
- Ubiquitous Language: Shared terminology
Tactical Patterns:
- Entities: Objects with identity
- Value Objects: Immutable objects defined by attributes
- Aggregates: Consistency boundaries
- Repositories: Data access abstraction
- Domain Events: Things that happened
Clean Architecture Pattern
Directory Structure
app/
├── domain/ # Entities & business rules
│ ├── entities/
│ │ ├── user.py
│ │ └── order.py
│ ├── value_objects/
│ │ ├── email.py
│ │ └── money.py
│ └── interfaces/ # Abstract interfaces
│ ├── user_repository.py
│ └── payment_gateway.py
├── use_cases/ # Application business rules
│ ├── create_user.py
│ ├── process_order.py
│ └── send_notification.py
├── adapters/ # Interface implementations
│ ├── repositories/
│ │ ├── postgres_user_repository.py
│ │ └── redis_cache_repository.py
│ ├── controllers/
│ │ └── user_controller.py
│ └── gateways/
│ ├── stripe_payment_gateway.py
│ └── sendgrid_email_gateway.py
└── infrastructure/ # Framework & external concerns
├── database.py
├── config.py
└── logging.py
Implementation Example
# domain/entities/user.py
from dataclasses import dataclass
from datetime import datetime
from typing import Optional
@dataclass
class User:
"""Core user entity - no framework dependencies."""
id: str
email: str
name: str
created_at: datetime
is_active: bool = True
def deactivate(self):
"""Business rule: deactivating user."""
self.is_active = False
def can_place_order(self) -> bool:
"""Business rule: active users can order."""
return self.is_active
# domain/interfaces/user_repository.py
from abc import ABC, abstractmethod
from typing import Optional, List
from domain.entities.user import User
class IUserRepository(ABC):
"""Port: defines contract, no implementation."""
@abstractmethod
async def find_by_id(self, user_id: str) -> Optional[User]:
pass
@abstractmethod
async def find_by_email(self, email: str) -> Optional[User]:
pass
@abstractmethod
async def save(self, user: User) -> User:
pass
@abstractmethod
async def delete(self, user_id: str) -> bool:
pass
# use_cases/create_user.py
from domain.entities.user import User
from domain.interfaces.user_repository import IUserRepository
from dataclasses import dataclass
from datetime import datetime
import uuid
@dataclass
class CreateUserRequest:
email: str
name: str
@dataclass
class CreateUserResponse:
user: User
success: bool
error: Optional[str] = None
class CreateUserUseCase:
"""Use case: orchestrates business logic."""
def __init__(self, user_repository: IUserRepository):
self.user_repository = user_repository
async def execute(self, request: CreateUserRequest) -> CreateUserResponse:
# Business validation
existing = await self.user_repository.find_by_email(request.email)
if existing:
return CreateUserResponse(
user=None,
success=False,
error="Email already exists"
)
# Create entity
user = User(
id=str(uuid.uuid4()),
email=request.email,
name=request.name,
created_at=datetime.now(),
is_active=True
)
# Persist
saved_user = await self.user_repository.save(user)
return CreateUserResponse(
user=saved_user,
success=True
)
# adapters/repositories/postgres_user_repository.py
from domain.interfaces.user_repository import IUserRepository
from domain.entities.user import User
from typing import Optional
import asyncpg
class PostgresUserRepository(IUserRepository):
"""Adapter: PostgreSQL implementation."""
def __init__(self, pool: asyncpg.Pool):
self.pool = pool
async def find_by_id(self, user_id: str) -> Optional[User]:
async with self.pool.acquire() as conn:
row = await conn.fetchrow(
"SELECT * FROM users WHERE id = $1", user_id
)
return self._to_entity(row) if row else None
async def find_by_email(self, email: str) -> Optional[User]:
async with self.pool.acquire() as conn:
row = await conn.fetchrow(
"SELECT * FROM users WHERE email = $1", email
)
return self._to_entity(row) if row else None
async def save(self, user: User) -> User:
async with self.pool.acquire() as conn:
await conn.execute(
"""
INSERT INTO users (id, email, name, created_at, is_active)
VALUES ($1, $2, $3, $4, $5)
ON CONFLICT (id) DO UPDATE
SET email = $2, name = $3, is_active = $5
""",
user.id, user.email, user.name, user.created_at, user.is_active
)
return user
async def delete(self, user_id: str) -> bool:
async with self.pool.acquire() as conn:
result = await conn.execute(
"DELETE FROM users WHERE id = $1", user_id
)
return result == "DELETE 1"
def _to_entity(self, row) -> User:
"""Map database row to entity."""
return User(
id=row["id"],
email=row["email"],
name=row["name"],
created_at=row["created_at"],
is_active=row["is_active"]
)
# adapters/controllers/user_controller.py
from fastapi import APIRouter, Depends, HTTPException
from use_cases.create_user import CreateUserUseCase, CreateUserRequest
from pydantic import BaseModel
router = APIRouter()
class CreateUserDTO(BaseModel):
email: str
name: str
@router.post("/users")
async def create_user(
dto: CreateUserDTO,
use_case: CreateUserUseCase = Depends(get_create_user_use_case)
):
"""Controller: handles HTTP concerns only."""
request = CreateUserRequest(email=dto.email, name=dto.name)
response = await use_case.execute(request)
if not response.success:
raise HTTPException(status_code=400, detail=response.error)
return {"user": response.user}
Hexagonal Architecture Pattern
# Core domain (hexagon center)
class OrderService:
"""Domain service - no infrastructure dependencies."""
def __init__(
self,
order_repository: OrderRepositoryPort,
payment_gateway: PaymentGatewayPort,
notification_service: NotificationPort
):
self.orders = order_repository
self.payments = payment_gateway
self.notifications = notification_service
async def place_order(self, order: Order) -> OrderResult:
# Business logic
if not order.is_valid():
return OrderResult(success=False, error="Invalid order")
# Use ports (interfaces)
payment = await self.payments.charge(
amount=order.total,
customer=order.customer_id
)
if not payment.success:
return OrderResult(success=False, error="Payment failed")
order.mark_as_paid()
saved_order = await self.orders.save(order)
await self.notifications.send(
to=order.customer_email,
subject="Order confirmed",
body=f"Order {order.id} confirmed"
)
return OrderResult(success=True, order=saved_order)
# Ports (interfaces)
class OrderRepositoryPort(ABC):
@abstractmethod
async def save(self, order: Order) -> Order:
pass
class PaymentGatewayPort(ABC):
@abstractmethod
async def charge(self, amount: Money, customer: str) -> PaymentResult:
pass
class NotificationPort(ABC):
@abstractmethod
async def send(self, to: str, subject: str, body: str):
pass
# Adapters (implementations)
class StripePaymentAdapter(PaymentGatewayPort):
"""Primary adapter: connects to Stripe API."""
def __init__(self, api_key: str):
self.stripe = stripe
self.stripe.api_key = api_key
async def charge(self, amount: Money, customer: str) -> PaymentResult:
try:
charge = self.stripe.Charge.create(
amount=amount.cents,
currency=amount.currency,
customer=customer
)
return PaymentResult(success=True, transaction_id=charge.id)
except stripe.error.CardError as e:
return PaymentResult(success=False, error=str(e))
class MockPaymentAdapter(PaymentGatewayPort):
"""Test adapter: no external dependencies."""
async def charge(self, amount: Money, customer: str) -> PaymentResult:
return PaymentResult(success=True, transaction_id="mock-123")
Domain-Driven Design Pattern
# Value Objects (immutable)
from dataclasses import dataclass
from typing import Optional
@dataclass(frozen=True)
class Email:
"""Value object: validated email."""
value: str
def __post_init__(self):
if "@" not in self.value:
raise ValueError("Invalid email")
@dataclass(frozen=True)
class Money:
"""Value object: amount with currency."""
amount: int # cents
currency: str
def add(self, other: "Money") -> "Money":
if self.currency != other.currency:
raise ValueError("Currency mismatch")
return Money(self.amount + other.amount, self.currency)
# Entities (with identity)
class Order:
"""Entity: has identity, mutable state."""
def __init__(self, id: str, customer: Customer):
self.id = id
self.customer = customer
self.items: List[OrderItem] = []
self.status = OrderStatus.PENDING
self._events: List[DomainEvent] = []
def add_item(self, product: Product, quantity: int):
"""Business logic in entity."""
item = OrderItem(product, quantity)
self.items.append(item)
self._events.append(ItemAddedEvent(self.id, item))
def total(self) -> Money:
"""Calculated property."""
return sum(item.subtotal() for item in self.items)
def submit(self):
"""State transition with business rules."""
if not self.items:
raise ValueError("Cannot submit empty order")
if self.status != OrderStatus.PENDING:
raise ValueError("Order already submitted")
self.status = OrderStatus.SUBMITTED
self._events.append(OrderSubmittedEvent(self.id))
# Aggregates (consistency boundary)
class Customer:
"""Aggregate root: controls access to entities."""
def __init__(self, id: str, email: Email):
self.id = id
self.email = email
self._addresses: List[Address] = []
self._orders: List[str] = [] # Order IDs, not full objects
def add_address(self, address: Address):
"""Aggregate enforces invariants."""
if len(self._addresses) >= 5:
raise ValueError("Maximum 5 addresses allowed")
self._addresses.append(address)
@property
def primary_address(self) -> Optional[Address]:
return next((a for a in self._addresses if a.is_primary), None)
# Domain Events
@dataclass
class OrderSubmittedEvent:
order_id: str
occurred_at: datetime = field(default_factory=datetime.now)
# Repository (aggregate persistence)
class OrderRepository:
"""Repository: persist/retrieve aggregates."""
async def find_by_id(self, order_id: str) -> Optional[Order]:
"""Reconstitute aggregate from storage."""
pass
async def save(self, order: Order):
"""Persist aggregate and publish events."""
await self._persist(order)
await self._publish_events(order._events)
order._events.clear()
Resources
- references/clean-architecture-guide.md: Detailed layer breakdown
- references/hexagonal-architecture-guide.md: Ports and adapters patterns
- references/ddd-tactical-patterns.md: Entities, value objects, aggregates
- assets/clean-architecture-template/: Complete project structure
- assets/ddd-examples/: Domain modeling examples
Best Practices
- Dependency Rule: Dependencies always point inward
- Interface Segregation: Small, focused interfaces
- Business Logic in Domain: Keep frameworks out of core
- Test Independence: Core testable without infrastructure
- Bounded Contexts: Clear domain boundaries
- Ubiquitous Language: Consistent terminology
- Thin Controllers: Delegate to use cases
- Rich Domain Models: Behavior with data
Common Pitfalls
- Anemic Domain: Entities with only data, no behavior
- Framework Coupling: Business logic depends on frameworks
- Fat Controllers: Business logic in controllers
- Repository Leakage: Exposing ORM objects
- Missing Abstractions: Concrete dependencies in core
- Over-Engineering: Clean architecture for simple CRUD
Source
git clone https://github.com/wshobson/agents/blob/main/plugins/backend-development/skills/architecture-patterns/SKILL.mdView on GitHub Overview
Master proven backend architecture patterns including Clean Architecture, Hexagonal Architecture, and Domain-Driven Design to build maintainable, testable, and scalable systems. This skill helps you design clear boundaries, isolate business logic from frameworks, and enable easy testing and refactoring.
How This Skill Works
It organizes code into inward-facing layers and defined ports/adapters, so business rules stay decoupled from frameworks. It also applies DDD strategic and tactical patterns to model domains, contexts, and aggregates, with concrete examples in a Clean/Hexagonal layout.
When to Use It
- Designing new backend systems from scratch
- Refactoring monolithic applications for better maintainability
- Establishing architecture standards for your team
- Migrating from tightly coupled to loosely coupled architectures
- Implementing domain-driven design principles
Quick Start
- Step 1: Map core domain with Entities and Value Objects in domain/
- Step 2: Define Ports (interfaces) for gateways, repositories, and adapters
- Step 3: Implement Adapters and Infrastructure to satisfy the ports (e.g., database, REST, payment gateway)
Best Practices
- Enforce inward dependencies so inner layers know nothing about outer layers
- Keep business logic independent of frameworks and UI
- Use Ports and Adapters to swap implementations and test easily
- Model domains with DDD: bounded contexts, ubiquitous language, and context mapping
- Apply tactical patterns: Entities, Value Objects, Aggregates, Repositories, and Domain Events
Example Use Cases
- Directory structure example for Clean Architecture showing domain, use_cases, adapters, and infrastructure
- Domain entity example: User with attributes, behavior, and can_place_order() rule
- Repository interface example: IUserRepository as a Port
- Adapter implementations: postgres_user_repository.py and redis_cache_repository.py
- Gateways and controllers examples: Stripe payment gateway and SendGrid email gateway
Frequently Asked Questions
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