--- name: django-patterns description: Patrones de arquitectura Django, diseño de API REST con DRF, buenas prácticas de ORM, caché, señales, middleware y aplicaciones Django de nivel producción. origin: ECC --- # Patrones de Desarrollo Django Patrones de arquitectura Django de nivel producción para aplicaciones escalables y mantenibles. ## Cuándo Activar - Construir aplicaciones web Django - Diseñar APIs con Django REST Framework - Trabajar con el ORM de Django y modelos - Configurar la estructura del proyecto Django - Implementar caché, señales, middleware ## Estructura del Proyecto ### Layout Recomendado ``` myproject/ ├── config/ │ ├── __init__.py │ ├── settings/ │ │ ├── __init__.py │ │ ├── base.py # Configuración base │ │ ├── development.py # Configuración de desarrollo │ │ ├── production.py # Configuración de producción │ │ └── test.py # Configuración de pruebas │ ├── urls.py │ ├── wsgi.py │ └── asgi.py ├── manage.py └── apps/ ├── __init__.py ├── users/ │ ├── __init__.py │ ├── models.py │ ├── views.py │ ├── serializers.py │ ├── urls.py │ ├── permissions.py │ ├── filters.py │ ├── services.py │ └── tests/ └── products/ └── ... ``` ### Patrón de Configuración Dividida ```python # config/settings/base.py from pathlib import Path BASE_DIR = Path(__file__).resolve().parent.parent.parent SECRET_KEY = env('DJANGO_SECRET_KEY') DEBUG = False ALLOWED_HOSTS = [] INSTALLED_APPS = [ 'django.contrib.admin', 'django.contrib.auth', 'django.contrib.contenttypes', 'django.contrib.sessions', 'django.contrib.messages', 'django.contrib.staticfiles', 'rest_framework', 'rest_framework.authtoken', 'corsheaders', # Apps locales 'apps.users', 'apps.products', ] MIDDLEWARE = [ 'django.middleware.security.SecurityMiddleware', 'whitenoise.middleware.WhiteNoiseMiddleware', 'django.contrib.sessions.middleware.SessionMiddleware', 'corsheaders.middleware.CorsMiddleware', 'django.middleware.common.CommonMiddleware', 'django.middleware.csrf.CsrfViewMiddleware', 'django.contrib.auth.middleware.AuthenticationMiddleware', 'django.contrib.messages.middleware.MessageMiddleware', 'django.middleware.clickjacking.XFrameOptionsMiddleware', ] ROOT_URLCONF = 'config.urls' WSGI_APPLICATION = 'config.wsgi.application' DATABASES = { 'default': { 'ENGINE': 'django.db.backends.postgresql', 'NAME': env('DB_NAME'), 'USER': env('DB_USER'), 'PASSWORD': env('DB_PASSWORD'), 'HOST': env('DB_HOST'), 'PORT': env('DB_PORT', default='5432'), } } # config/settings/development.py from .base import * DEBUG = True ALLOWED_HOSTS = ['localhost', '127.0.0.1'] DATABASES['default']['NAME'] = 'myproject_dev' INSTALLED_APPS += ['debug_toolbar'] MIDDLEWARE += ['debug_toolbar.middleware.DebugToolbarMiddleware'] EMAIL_BACKEND = 'django.core.mail.backends.console.EmailBackend' # config/settings/production.py from .base import * DEBUG = False ALLOWED_HOSTS = env.list('ALLOWED_HOSTS') SECURE_SSL_REDIRECT = True SESSION_COOKIE_SECURE = True CSRF_COOKIE_SECURE = True SECURE_HSTS_SECONDS = 31536000 SECURE_HSTS_INCLUDE_SUBDOMAINS = True SECURE_HSTS_PRELOAD = True # Logging LOGGING = { 'version': 1, 'disable_existing_loggers': False, 'handlers': { 'file': { 'level': 'WARNING', 'class': 'logging.FileHandler', 'filename': '/var/log/django/django.log', }, }, 'loggers': { 'django': { 'handlers': ['file'], 'level': 'WARNING', 'propagate': True, }, }, } ``` ## Patrones de Diseño de Modelos ### Buenas Prácticas de Modelos ```python from django.db import models from django.contrib.auth.models import AbstractUser from django.core.validators import MinValueValidator, MaxValueValidator class User(AbstractUser): """Modelo de usuario personalizado que extiende AbstractUser.""" email = models.EmailField(unique=True) phone = models.CharField(max_length=20, blank=True) birth_date = models.DateField(null=True, blank=True) USERNAME_FIELD = 'email' REQUIRED_FIELDS = ['username'] class Meta: db_table = 'users' verbose_name = 'user' verbose_name_plural = 'users' ordering = ['-date_joined'] def __str__(self): return self.email def get_full_name(self): return f"{self.first_name} {self.last_name}".strip() class Product(models.Model): """Modelo de producto con configuración de campos apropiada.""" name = models.CharField(max_length=200) slug = models.SlugField(unique=True, max_length=250) description = models.TextField(blank=True) price = models.DecimalField( max_digits=10, decimal_places=2, validators=[MinValueValidator(0)] ) stock = models.PositiveIntegerField(default=0) is_active = models.BooleanField(default=True) category = models.ForeignKey( 'Category', on_delete=models.CASCADE, related_name='products' ) tags = models.ManyToManyField('Tag', blank=True, related_name='products') created_at = models.DateTimeField(auto_now_add=True) updated_at = models.DateTimeField(auto_now=True) class Meta: db_table = 'products' ordering = ['-created_at'] indexes = [ models.Index(fields=['slug']), models.Index(fields=['-created_at']), models.Index(fields=['category', 'is_active']), ] constraints = [ models.CheckConstraint( check=models.Q(price__gte=0), name='price_non_negative' ) ] def __str__(self): return self.name def save(self, *args, **kwargs): if not self.slug: self.slug = slugify(self.name) super().save(*args, **kwargs) ``` ### Buenas Prácticas de QuerySet ```python from django.db import models class ProductQuerySet(models.QuerySet): """QuerySet personalizado para el modelo Product.""" def active(self): """Retornar solo productos activos.""" return self.filter(is_active=True) def with_category(self): """Seleccionar categoría relacionada para evitar consultas N+1.""" return self.select_related('category') def with_tags(self): """Prefetch tags para relación muchos-a-muchos.""" return self.prefetch_related('tags') def in_stock(self): """Retornar productos con stock > 0.""" return self.filter(stock__gt=0) def search(self, query): """Buscar productos por nombre o descripción.""" return self.filter( models.Q(name__icontains=query) | models.Q(description__icontains=query) ) class Product(models.Model): # ... campos ... objects = ProductQuerySet.as_manager() # Usar QuerySet personalizado # Uso Product.objects.active().with_category().in_stock() ``` ### Métodos de Manager ```python class ProductManager(models.Manager): """Manager personalizado para consultas complejas.""" def get_or_none(self, **kwargs): """Retornar objeto o None en lugar de DoesNotExist.""" try: return self.get(**kwargs) except self.model.DoesNotExist: return None def create_with_tags(self, name, price, tag_names): """Crear producto con tags asociados.""" product = self.create(name=name, price=price) tags = [Tag.objects.get_or_create(name=name)[0] for name in tag_names] product.tags.set(tags) return product def bulk_update_stock(self, product_ids, quantity): """Actualización masiva de stock para múltiples productos.""" return self.filter(id__in=product_ids).update(stock=quantity) # En el modelo class Product(models.Model): # ... campos ... custom = ProductManager() ``` ## Patrones de Django REST Framework ### Patrones de Serializer ```python from rest_framework import serializers from django.contrib.auth.password_validation import validate_password from .models import Product, User class ProductSerializer(serializers.ModelSerializer): """Serializer para el modelo Product.""" category_name = serializers.CharField(source='category.name', read_only=True) average_rating = serializers.FloatField(read_only=True) discount_price = serializers.SerializerMethodField() class Meta: model = Product fields = [ 'id', 'name', 'slug', 'description', 'price', 'discount_price', 'stock', 'category_name', 'average_rating', 'created_at' ] read_only_fields = ['id', 'slug', 'created_at'] def get_discount_price(self, obj): """Calcular precio con descuento si aplica.""" if hasattr(obj, 'discount') and obj.discount: return obj.price * (1 - obj.discount.percent / 100) return obj.price def validate_price(self, value): """Asegurar que el precio no sea negativo.""" if value < 0: raise serializers.ValidationError("Price cannot be negative.") return value class ProductCreateSerializer(serializers.ModelSerializer): """Serializer para crear productos.""" class Meta: model = Product fields = ['name', 'description', 'price', 'stock', 'category'] def validate(self, data): """Validación personalizada para múltiples campos.""" if data['price'] > 10000 and data['stock'] > 100: raise serializers.ValidationError( "Cannot have high-value products with large stock." ) return data class UserRegistrationSerializer(serializers.ModelSerializer): """Serializer para registro de usuario.""" password = serializers.CharField( write_only=True, required=True, validators=[validate_password], style={'input_type': 'password'} ) password_confirm = serializers.CharField(write_only=True, style={'input_type': 'password'}) class Meta: model = User fields = ['email', 'username', 'password', 'password_confirm'] def validate(self, data): """Validar que las contraseñas coincidan.""" if data['password'] != data['password_confirm']: raise serializers.ValidationError({ "password_confirm": "Password fields didn't match." }) return data def create(self, validated_data): """Crear usuario con contraseña hasheada.""" validated_data.pop('password_confirm') password = validated_data.pop('password') user = User.objects.create(**validated_data) user.set_password(password) user.save() return user ``` ### Patrones de ViewSet ```python from rest_framework import viewsets, status, filters from rest_framework.decorators import action from rest_framework.response import Response from rest_framework.permissions import IsAuthenticated, IsAdminUser from django_filters.rest_framework import DjangoFilterBackend from .models import Product from .serializers import ProductSerializer, ProductCreateSerializer from .permissions import IsOwnerOrReadOnly from .filters import ProductFilter from .services import ProductService class ProductViewSet(viewsets.ModelViewSet): """ViewSet para el modelo Product.""" queryset = Product.objects.select_related('category').prefetch_related('tags') permission_classes = [IsAuthenticated, IsOwnerOrReadOnly] filter_backends = [DjangoFilterBackend, filters.SearchFilter, filters.OrderingFilter] filterset_class = ProductFilter search_fields = ['name', 'description'] ordering_fields = ['price', 'created_at', 'name'] ordering = ['-created_at'] def get_serializer_class(self): """Retornar serializer apropiado según la acción.""" if self.action == 'create': return ProductCreateSerializer return ProductSerializer def perform_create(self, serializer): """Guardar con contexto de usuario.""" serializer.save(created_by=self.request.user) @action(detail=False, methods=['get']) def featured(self, request): """Retornar productos destacados.""" featured = self.queryset.filter(is_featured=True)[:10] serializer = self.get_serializer(featured, many=True) return Response(serializer.data) @action(detail=True, methods=['post']) def purchase(self, request, pk=None): """Comprar un producto.""" product = self.get_object() service = ProductService() result = service.purchase(product, request.user) return Response(result, status=status.HTTP_201_CREATED) @action(detail=False, methods=['get'], permission_classes=[IsAuthenticated]) def my_products(self, request): """Retornar productos creados por el usuario actual.""" products = self.queryset.filter(created_by=request.user) page = self.paginate_queryset(products) serializer = self.get_serializer(page, many=True) return self.get_paginated_response(serializer.data) ``` ### Acciones Personalizadas ```python from rest_framework.decorators import api_view, permission_classes from rest_framework.permissions import IsAuthenticated from rest_framework.response import Response @api_view(['POST']) @permission_classes([IsAuthenticated]) def add_to_cart(request): """Agregar producto al carrito del usuario.""" product_id = request.data.get('product_id') quantity = request.data.get('quantity', 1) try: product = Product.objects.get(id=product_id) except Product.DoesNotExist: return Response( {'error': 'Product not found'}, status=status.HTTP_404_NOT_FOUND ) cart, _ = Cart.objects.get_or_create(user=request.user) CartItem.objects.create( cart=cart, product=product, quantity=quantity ) return Response({'message': 'Added to cart'}, status=status.HTTP_201_CREATED) ``` ## Patrón de Capa de Servicio ```python # apps/orders/services.py from typing import Optional from django.db import transaction from .models import Order, OrderItem class OrderService: """Capa de servicio para la lógica de negocio relacionada con pedidos.""" @staticmethod @transaction.atomic def create_order(user, cart: Cart) -> Order: """Crear pedido a partir del carrito.""" order = Order.objects.create( user=user, total_price=cart.total_price ) for item in cart.items.all(): OrderItem.objects.create( order=order, product=item.product, quantity=item.quantity, price=item.product.price ) # Vaciar carrito cart.items.all().delete() return order @staticmethod def process_payment(order: Order, payment_data: dict) -> bool: """Procesar el pago del pedido.""" # Integración con pasarela de pago payment = PaymentGateway.charge( amount=order.total_price, token=payment_data['token'] ) if payment.success: order.status = Order.Status.PAID order.save() # Enviar email de confirmación OrderService.send_confirmation_email(order) return True return False @staticmethod def send_confirmation_email(order: Order): """Enviar email de confirmación del pedido.""" # Lógica de envío de email pass ``` ## Estrategias de Caché ### Caché a Nivel de Vista ```python from django.views.decorators.cache import cache_page from django.utils.decorators import method_decorator @method_decorator(cache_page(60 * 15), name='dispatch') # 15 minutos class ProductListView(generic.ListView): model = Product template_name = 'products/list.html' context_object_name = 'products' ``` ### Caché de Fragmentos de Plantilla ```django {% load cache %} {% cache 500 sidebar %} ... contenido costoso del sidebar ... {% endcache %} ``` ### Caché de Bajo Nivel ```python from django.core.cache import cache def get_featured_products(): """Obtener productos destacados con caché.""" cache_key = 'featured_products' products = cache.get(cache_key) if products is None: products = list(Product.objects.filter(is_featured=True)) cache.set(cache_key, products, timeout=60 * 15) # 15 minutos return products ``` ### Caché de QuerySet ```python from django.core.cache import cache def get_popular_categories(): cache_key = 'popular_categories' categories = cache.get(cache_key) if categories is None: categories = list(Category.objects.annotate( product_count=Count('products') ).filter(product_count__gt=10).order_by('-product_count')[:20]) cache.set(cache_key, categories, timeout=60 * 60) # 1 hora return categories ``` ## Señales ### Patrones de Señal ```python # apps/users/signals.py from django.db.models.signals import post_save from django.dispatch import receiver from django.contrib.auth import get_user_model from .models import Profile User = get_user_model() @receiver(post_save, sender=User) def create_user_profile(sender, instance, created, **kwargs): """Crear perfil cuando se crea el usuario.""" if created: Profile.objects.create(user=instance) @receiver(post_save, sender=User) def save_user_profile(sender, instance, **kwargs): """Guardar perfil cuando se guarda el usuario.""" instance.profile.save() # apps/users/apps.py from django.apps import AppConfig class UsersConfig(AppConfig): default_auto_field = 'django.db.models.BigAutoField' name = 'apps.users' def ready(self): """Importar señales cuando la app esté lista.""" import apps.users.signals ``` ## Middleware ### Middleware Personalizado ```python # middleware/active_user_middleware.py import time from django.utils.deprecation import MiddlewareMixin class ActiveUserMiddleware(MiddlewareMixin): """Middleware para rastrear usuarios activos.""" def process_request(self, request): """Procesar request entrante.""" if request.user.is_authenticated: # Actualizar última hora activa request.user.last_active = timezone.now() request.user.save(update_fields=['last_active']) class RequestLoggingMiddleware(MiddlewareMixin): """Middleware para logging de requests.""" def process_request(self, request): """Registrar hora de inicio del request.""" request.start_time = time.time() def process_response(self, request, response): """Registrar duración del request.""" if hasattr(request, 'start_time'): duration = time.time() - request.start_time logger.info(f'{request.method} {request.path} - {response.status_code} - {duration:.3f}s') return response ``` ## Optimización de Rendimiento ### Prevención de Consultas N+1 ```python # Mal - consultas N+1 products = Product.objects.all() for product in products: print(product.category.name) # Consulta separada para cada producto # Bien - consulta única con select_related products = Product.objects.select_related('category').all() for product in products: print(product.category.name) # Bien - Prefetch para muchos-a-muchos products = Product.objects.prefetch_related('tags').all() for product in products: for tag in product.tags.all(): print(tag.name) ``` ### Indexación de Base de Datos ```python class Product(models.Model): name = models.CharField(max_length=200, db_index=True) slug = models.SlugField(unique=True) category = models.ForeignKey('Category', on_delete=models.CASCADE) created_at = models.DateTimeField(auto_now_add=True) class Meta: indexes = [ models.Index(fields=['name']), models.Index(fields=['-created_at']), models.Index(fields=['category', 'created_at']), ] ``` ### Operaciones Masivas ```python # Creación masiva Product.objects.bulk_create([ Product(name=f'Product {i}', price=10.00) for i in range(1000) ]) # Actualización masiva products = Product.objects.all()[:100] for product in products: product.is_active = True Product.objects.bulk_update(products, ['is_active']) # Eliminación masiva Product.objects.filter(stock=0).delete() ``` ## Referencia Rápida | Patrón | Descripción | |---------|-------------| | Configuración dividida | Separar configuración de dev/prod/test | | QuerySet personalizado | Métodos de consulta reutilizables | | Capa de Servicio | Separación de lógica de negocio | | ViewSet | Endpoints de API REST | | Validación de Serializer | Transformación de request/response | | select_related | Optimización de clave foránea | | prefetch_related | Optimización de muchos-a-muchos | | Cache first | Cachear operaciones costosas | | Señales | Acciones basadas en eventos | | Middleware | Procesamiento de request/response | Recuerda: Django proporciona muchos atajos, pero para aplicaciones de producción, la estructura y organización importan más que el código conciso. Construir para la mantenibilidad.