# 第七模块 DRF (中)
drf内置了很多便捷的功能,在接下来的课程中会给大家依次讲解下面的内容:
- 快速上手
- 请求的封装
- 版本管理
- 认证
- 权限
- 限流
- 序列化
- 视图
- 条件搜索
- 分页
- 路由
- 解析器
# 6. 限流
限流,限制用户访问频率,例如:用户1分钟最多访问100次 或者 短信验证码一天每天可以发送50次, 防止盗刷。
- 对于匿名用户,使用用户IP作为唯一标识。
- 对于登录用户,使用用户ID或名称作为唯一标识。
缓存={
用户标识:[12:33,12:32,12:31,12:30,12,] 1小时/5次 12:34 11:34
{
pip3 install django-redis
# settings.py
CACHES = {
"default": {
"BACKEND": "django_redis.cache.RedisCache",
"LOCATION": "redis://127.0.0.1:6379",
"OPTIONS": {
"CLIENT_CLASS": "django_redis.client.DefaultClient",
"PASSWORD": "qwe123",
}
}
}
CACHES = {
"default": {
"BACKEND": "django_redis.cache.RedisCache",
"LOCATION": "redis://127.0.0.1:6379",
"OPTIONS": {
"CLIENT_CLASS": "django_redis.client.DefaultClient",
"PASSWORD": "qwe123",
}
}
}
from django.urls import path, re_path
from app01 import views
urlpatterns = [
path('api/order/', views.OrderView.as_view()),
]
# views.py
from rest_framework.views import APIView
from rest_framework.response import Response
from rest_framework import exceptions
from rest_framework import status
from rest_framework.throttling import SimpleRateThrottle
from django.core.cache import cache as default_cache
class ThrottledException(exceptions.APIException):
status_code = status.HTTP_429_TOO_MANY_REQUESTS
default_code = 'throttled'
class MyRateThrottle(SimpleRateThrottle):
cache = default_cache # 访问记录存放在django的缓存中(需设置缓存)
scope = "user" # 构造缓存中的key
cache_format = 'throttle_%(scope)s_%(ident)s'
# 设置访问频率,例如:1分钟允许访问10次
# 其他:'s', 'sec', 'm', 'min', 'h', 'hour', 'd', 'day'
THROTTLE_RATES = {"user": "10/m"}
def get_cache_key(self, request, view):
if request.user:
ident = request.user.pk # 用户ID
else:
ident = self.get_ident(request) # 获取请求用户IP(去request中找请求头)
# throttle_u # throttle_user_11.11.11.11ser_2
return self.cache_format % {'scope': self.scope, 'ident': ident}
def throttle_failure(self):
wait = self.wait()
detail = {
"code": 1005,
"data": "访问频率限制",
'detail': "需等待{}s才能访问".format(int(wait))
}
raise ThrottledException(detail)
class OrderView(APIView):
throttle_classes = [MyRateThrottle, ]
def get(self, request):
return Response({"code": 0, "data": "数据..."})
多个限流类
本质,每个限流的类中都有一个 allow_request 方法,此方法内部可以有三种情况:
- 返回True,表示当前限流类允许访问,继续执行后续的限流类。
- 返回False,表示当前限流类不允许访问,继续执行后续的限流类。所有的限流类执行完毕后,读取所有不允许的限流,并计算还需等待的时间。
- 抛出异常,表示当前限流类不允许访问,后续限流类不再执行。
全局配置
REST_FRAMEWORK = {
"DEFAULT_THROTTLE_CLASSES":["xxx.xxx.xx.限流类", ],
"DEFAULT_THROTTLE_RATES": {
"user": "10/m",
"xx":"100/h"
}
}
底层源码实现:
# settings.py
...
CACHES = {
"default": {
"BACKEND": "django_redis.cache.RedisCache",
"LOCATION": "redis://127.0.0.1:6379",
"OPTIONS": {
"CLIENT_CLASS": "django_redis.client.DefaultClient",
"PASSWORD": "qwe123",
}
}
}
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/order/', views.OrderView.as_view()),
]
# views.py
from rest_framework.views import APIView
from rest_framework.response import Response
from rest_framework import exceptions
from rest_framework import status
from rest_framework.throttling import SimpleRateThrottle
from django.core.cache import cache as default_cache
class ThrottledException(exceptions.APIException):
status_code = status.HTTP_429_TOO_MANY_REQUESTS
default_code = 'throttled'
class MyRateThrottle(SimpleRateThrottle):
cache = default_cache # 访问记录存放在django的缓存中(需设置缓存)
scope = "user" # 构造缓存中的key
cache_format = 'throttle_%(scope)s_%(ident)s'
# 设置访问频率,例如:1分钟允许访问10次
# 其他:'s', 'sec', 'm', 'min', 'h', 'hour', 'd', 'day'
THROTTLE_RATES = {"user": "10/m"}
def get_cache_key(self, request, view):
if request.user:
ident = request.user.pk # 用户ID
else:
ident = self.get_ident(request) # 获取用户IP
return self.cache_format % {'scope': self.scope, 'ident': ident}
class OrderView(APIView):
throttle_classes = [MyRateThrottle, ]
def get(self, request):
return Response({"code": 0, "data": "数据..."})
def throttled(self, request, wait):
detail = {
"code": 1005,
"data": "访问频率",
'detail': "需等待{}s才能访问".format(int(wait))
}
raise ThrottledException(detail)
# 7. Serializer(*)
drf中为我们提供了Serializer,他主要有两大功能:
- 对请求数据校验(底层调用Django的Form和ModelForm)
- 对数据库查询到的对象进行序列化
# 7.1.数据校验
示例1:基于Serializer:
示例2:基于ModelSerializer:
# models.py
from django.db import models
class Role(models.Model):
""" 角色表 """
title = models.CharField(verbose_name="名称", max_length=32)
class Department(models.Model):
""" 部门表 """
title = models.CharField(verbose_name="名称", max_length=32)
class UserInfo(models.Model):
""" 用户表 """
level_choices = ((1, "普通会员"), (2, "VIP"), (3, "SVIP"),)
level = models.IntegerField(verbose_name="级别", choices=level_choices, default=1)
username = models.CharField(verbose_name="用户名", max_length=32)
password = models.CharField(verbose_name="密码", max_length=64)
age = models.IntegerField(verbose_name="年龄", default=0)
email = models.CharField(verbose_name="邮箱", max_length=64)
token = models.CharField(verbose_name="TOKEN", max_length=64, null=True, blank=True)
# 外键
depart = models.ForeignKey(verbose_name="部门", to="Department", on_delete=models.CASCADE)
# 多对多
roles = models.ManyToManyField(verbose_name="角色", to="Role")
提示:save方法会返回新生成的数据对象。
示例3:基于ModelSerializer(含FK+M2M):
提示:save方法会返回新生成的数据对象。
# 7.2 序列化
通过ORM从数据库获取到的 QuerySet 或 对象 均可以被序列化为 json 格式数据。
# models.py
from django.db import models
class Role(models.Model):
""" 角色表 """
title = models.CharField(verbose_name="名称", max_length=32)
class Department(models.Model):
""" 部门表 """
title = models.CharField(verbose_name="名称", max_length=32)
class UserInfo(models.Model):
""" 用户表 """
level_choices = ((1, "普通会员"), (2, "VIP"), (3, "SVIP"),)
level = models.IntegerField(verbose_name="级别", choices=level_choices, default=1)
username = models.CharField(verbose_name="用户名", max_length=32)
password = models.CharField(verbose_name="密码", max_length=64)
age = models.IntegerField(verbose_name="年龄", default=0)
email = models.CharField(verbose_name="邮箱", max_length=64, null=True, blank=True)
token = models.CharField(verbose_name="TOKEN", max_length=64, null=True, blank=True)
depart = models.ForeignKey(verbose_name="部门", to="Department", on_delete=models.CASCADE, null=True, blank=True)
roles = models.ManyToManyField(verbose_name="角色", to="Role")
示例1:序列化基本字段
# 切记, 如果从数据库获取的不是QuerySet对象,而是单一对象,例如:
data_object = modes.UserInfo.objects.filter(id=2).first()
ser = UserModelSerializer(instance=data_object,many=False)
print(ser.data)
示例2:自定义字段
示例3:序列化类的嵌套
# 7.3 数据校验&序列化
上述示例均属于单一功能(要么校验,要么序列化),其实当我们编写一个序列化类既可以做数据校验,也可以做序列化,例如:
# models.py
from django.db import models
class Role(models.Model):
""" 角色表 """
title = models.CharField(verbose_name="名称", max_length=32)
class Department(models.Model):
""" 部门表 """
title = models.CharField(verbose_name="名称", max_length=32)
class UserInfo(models.Model):
""" 用户表 """
level_choices = ((1, "普通会员"), (2, "VIP"), (3, "SVIP"),)
level = models.IntegerField(verbose_name="级别", choices=level_choices, default=1)
username = models.CharField(verbose_name="用户名", max_length=32)
password = models.CharField(verbose_name="密码", max_length=64)
age = models.IntegerField(verbose_name="年龄", default=0)
email = models.CharField(verbose_name="邮箱", max_length=64, null=True, blank=True)
token = models.CharField(verbose_name="TOKEN", max_length=64, null=True, blank=True)
depart = models.ForeignKey(verbose_name="部门", to="Department", on_delete=models.CASCADE, null=True, blank=True)
roles = models.ManyToManyField(verbose_name="角色", to="Role")
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view()),
]
# views.py
from django.core.validators import EmailValidator
from rest_framework.views import APIView
from rest_framework.response import Response
from rest_framework import serializers
from app01 import models
class DepartModelSerializer(serializers.ModelSerializer):
class Meta:
model = models.Department
fields = ['id', "title"]
extra_kwargs = {
"id": {"read_only": False}, # 数据验证
"title": {"read_only": True} # 序列化
}
class RoleModelSerializer(serializers.ModelSerializer):
class Meta:
model = models.Role
fields = ['id', "title"]
extra_kwargs = {
"id": {"read_only": False}, # 数据验证
"title": {"read_only": True} # 序列化
}
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(source="get_level_display", read_only=True)
# Serializer嵌套,不是read_only,一定要自定义create和update,自定义新增和更新的逻辑。
depart = DepartModelSerializer(many=False)
roles = RoleModelSerializer(many=True)
extra = serializers.SerializerMethodField(read_only=True)
email2 = serializers.EmailField(write_only=True)
# 数据校验:username、email、email2、部门、角色信息
class Meta:
model = models.UserInfo
fields = [
"username", "age", "email", "level_text", "depart", "roles", "extra", "email2"
]
extra_kwargs = {
"age": {"read_only": True},
"email": {"validators": [EmailValidator, ]},
}
def get_extra(self, obj):
return 666
def validate_username(self, value):
return value
# 新增加数据时
def create(self, validated_data):
""" 如果有嵌套的Serializer,在进行数据校验时,只有两种选择:
1. 将嵌套的序列化设置成 read_only
2. 自定义create和update方法,自定义新建和更新的逻辑
注意:用户端提交数据的格式。
"""
depart_id = validated_data.pop('depart')['id']
role_id_list = [ele['id'] for ele in validated_data.pop('roles')]
# 新增用户表
validated_data['depart_id'] = depart_id
user_object = models.UserInfo.objects.create(**validated_data)
# 在用户表和角色表的关联表中添加对应关系
user_object.roles.add(*role_id_list)
return user_object
class UserView(APIView):
""" 用户管理 """
def get(self, request):
""" 添加用户 """
queryset = models.UserInfo.objects.all()
ser = UserModelSerializer(instance=queryset, many=True)
return Response({"code": 0, 'data': ser.data})
def post(self, request):
""" 添加用户 """
ser = UserModelSerializer(data=request.data)
if not ser.is_valid():
return Response({'code': 1006, 'data': ser.errors})
ser.validated_data.pop('email2')
instance = ser.save(age=18, password="123", depart_id=1)
# 新增之后的一个对象(内部调用UserModelSerializer进行序列化)
print(instance)
# ser = UserModelSerializer(instance=instance, many=False)
# ser.data
return Response({'code': 0, 'data': ser.data})
底层源码实现:
序列化的底层源码实现有别于上述其他的组件,序列化器相关类的定义和执行都是在视图中被调用的,所以源码的分析过程可以分为:定义类、序列化、数据校验。
源码1:序列化过程
源码2:数据校验过程
# 8. 视图
# 8.1 APIView
- View,django
- APIView,drf,在请求到来时,新增了:免除csrf、请求封装、版本、认证、权限、限流的功能。
class GenericAPIView(APIView):
pass # 10功能
class GenericViewSet(xxxx.View-2个功能, GenericAPIView):
pass # 5功能能
class UserView(GenericViewSet):
def get(self,request):
pass
APIView是drf中 “顶层” 的视图类,在他的内部主要实现drf基础的组件的使用,例如:版本、认证、权限、限流等。
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view()),
path('api/users/<int:pk>/', views.UserDetailView.as_view()),
]
# views.py
from rest_framework.views import APIView
from rest_framework.response import Response
class UserView(APIView):
# 认证、权限、限流等
def get(self, request):
# 业务逻辑:查看列表
return Response({"code": 0, 'data': "..."})
def post(self, request):
# 业务逻辑:新建
return Response({'code': 0, 'data': "..."})
class UserDetailView(APIView):
# 认证、权限、限流等
def get(self, request,pk):
# 业务逻辑:查看某个数据的详细
return Response({"code": 0, 'data': "..."})
def put(self, request,pk):
# 业务逻辑:全部修改
return Response({'code': 0, 'data': "..."})
def patch(self, request,pk):
# 业务逻辑:局部修改
return Response({'code': 0, 'data': "..."})
def delete(self, request,pk):
# 业务逻辑:删除
return Response({'code': 0, 'data': "..."})
# 8.2 GenericAPIView
GenericAPIView 继承APIView,在APIView的基础上又增加了一些功能。例如:get_queryset、get_object等。
实际在开发中一般不会直接继承它,他更多的是担任 中间人的角色,为子类提供公共功能。
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view()),
path('api/users/<int:pk>/', views.UserDetailView.as_view()),
]
# views.py
from rest_framework.generics import GenericAPIView
from rest_framework.response import Response
class UserView(GenericAPIView):
queryset = models.UserInfo.objects.filter(status=True)
serializer_class = 序列化类
def get(self, request):
queryset = self.get_queryset()
ser = self.get_serializer(intance=queryset,many=True)
print(ser.data)
return Response({"code": 0, 'data': "..."})
注意:最大的意义,将数据库查询、序列化类提取到类变量中,后期再提供公共的get/post/put/delete等方法,让开发者只定义类变量,自动实现增删改查。
# 8.3 GenericViewSet
GenericViewSet类中没有定义任何代码,他就是继承 ViewSetMixin 和 GenericAPIView,也就说他的功能就是将继承的两个类的功能继承到一起。
GenericAPIView,将数据库查询、序列化类的定义提取到类变量中,便于后期处理。ViewSetMixin,将 get/post/put/delete 等方法映射到 list、create、retrieve、update、partial_update、destroy方法中,让视图不再需要两个类。
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view({"get":"list","post":"create"})),
path('api/users/<int:pk>/', views.UserView.as_view({"get":"retrieve","put":"update","patch":"partial_update","delete":"destory"})),
]
# views.py
from rest_framework.viewsets import GenericViewSet
from rest_framework.response import Response
class UserView(GenericViewSet):
# 认证、权限、限流等
queryset = models.UserInfo.objects.filter(status=True)
serializer_class = 序列化类
def list(self, request):
# 业务逻辑:查看列表
queryset = self.get_queryset()
ser = self.get_serializer(intance=queryset,many=True)
print(ser.data)
return Response({"code": 0, 'data': "..."})
def create(self, request):
# 业务逻辑:新建
return Response({'code': 0, 'data': "..."})
def retrieve(self, request,pk):
# 业务逻辑:查看某个数据的详细
return Response({"code": 0, 'data': "..."})
def update(self, request,pk):
# 业务逻辑:全部修改
return Response({'code': 0, 'data': "..."})
def partial_update(self, request,pk):
# 业务逻辑:局部修改
return Response({'code': 0, 'data': "..."})
def destory(self, request,pk):
# 业务逻辑:删除
return Response({'code': 0, 'data': "..."})
注意:开发中一般也很少直接去继承他,因为他也属于是 中间人类,在原来 GenericAPIView 基础上又增加了一个映射而已。
# 8.4 五大类
在drf的为我们提供好了5个用于做 增、删、改(含局部修改)、查列表、查单个数据的5个类(需结合 GenericViewSet 使用)。
# urls.py
from django.urls import path, re_path, include
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view({"get":"list","post":"create"})),
path('api/users/<int:pk>/', views.UserView.as_view({"get":"retrieve","put":"update","patch":"partial_update","delete":"destroy"})),
]
# views.py
from rest_framework.viewsets import GenericViewSet
from rest_framework.mixins import (
ListModelMixin, CreateModelMixin, RetrieveModelMixin, UpdateModelMixin,
DestroyModelMixin, ListModelMixin
)
class UserView(CreateModelMixin,RetrieveModelMixin, UpdateModelMixin, DestroyModelMixin,ListModelMixin,GenericViewSet):
# 认证、权限、限流等
queryset = models.UserInfo.objects.filter(status=True)
serializer_class = 序列化类
在这个5个类中已帮我们写好了 list、create、retrieve、update、partial_update、destory 方法,我们只需要在根据写 类变量:queryset、serializer_class即可。
示例1:
# urls.py
from django.urls import path
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view({"get": "list"})),
path('api/users/<int:pk>/', views.UserView.as_view({"get": "retrieve"})),
]
# views.py
from rest_framework import serializers
from rest_framework.viewsets import GenericViewSet
from rest_framework import mixins
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class UserView(mixins.ListModelMixin, mixins.RetrieveModelMixin, GenericViewSet):
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
示例2:
# urls.py
from django.urls import path
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view({"get": "list", "post": "create"})),
path('api/users/<int:pk>/', views.UserView.as_view({"get": "retrieve"})),
]
# views.py
from rest_framework import serializers
from rest_framework.viewsets import GenericViewSet
from rest_framework import mixins
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class UserView(mixins.ListModelMixin, mixins.RetrieveModelMixin, mixins.CreateModelMixin, GenericViewSet):
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
示例3:
# urls.py
from django.urls import path
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view(
{"get": "list", "post": "create"}
)),
path('api/users/<int:pk>/', views.UserView.as_view(
{"get": "retrieve", "put": "update", "patch": "partial_update", "delete": "destroy"}
)),
]
# views.py
from rest_framework import serializers
from rest_framework.viewsets import GenericViewSet
from rest_framework import mixins
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class UserView(mixins.ListModelMixin,
mixins.RetrieveModelMixin,
mixins.CreateModelMixin,
mixins.UpdateModelMixin,
mixins.DestroyModelMixin,
GenericViewSet):
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
def perform_update(self, serializer):
serializer.save()
def perform_destroy(self, instance):
instance.delete()
示例4:
# urls.py
from django.urls import path
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view(
{"get": "list", "post": "create"}
)),
path('api/users/<int:pk>/', views.UserView.as_view(
{"get": "retrieve", "put": "update", "patch": "partial_update", "delete": "destroy"}
)),
]
# views.py
from rest_framework import serializers
from rest_framework.viewsets import ModelViewSet
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class UserView(ModelViewSet):
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
在开发过程中使用 五大类 或 ModelViewSet 是比较常见的,并且如果他们内部的某些功能不够用,还可以进行重新某些方法进行扩展。
问题:drf中提供了这么多视图,以后那个用的比较多?
接口与数据库操作无关,直接继承APIView
接口背后需要对数据库进行操作,一般:
ModelViewSet或CreateModelMixin、ListModelMixin...- 利用钩子自定义功能。 - 重写某个写方法,实现更加完善的功能。根据自己公司的习惯,自定义 :
ModelViewSet或CreateModelMixin、ListModelMixin...
# 补充:权限
在之前定义权限类时,类中可以定义两个方法:has_permission 和 has_object_permission
has_permission,在请求进入视图之前就会执行。has_object_permission,当视图中调用self.get_object时就会被调用(删除、更新、查看某个对象时都会调用),一般用于检查对某个对象是否具有权限进行操作。
class PermissionA(BasePermission):
message = {"code": 1003, 'data': "无权访问"}
def has_permission(self, request, view):
exists = request.user.roles.filter(title="员工").exists()
if exists:
return True
return False
def has_object_permission(self, request, view, obj):
return True
所以,让我们在编写视图类时,如果是直接获取间接继承了 GenericAPIView,同时内部调用 get_object方法,这样在权限中通过 has_object_permission 就可以进行权限的处理。
# 9. 条件搜索
如果某个API需要传递一些条件进行搜索,其实就在是URL后面通过GET传参即可,例如:
/api/users?age=19&category=12
在drf中也有相应组件可以支持条件搜索。
# 9.1 自定义Filter
# urls.py
from django.urls import path
from app01 import views
urlpatterns = [
path('api/users/', views.UserView.as_view(
{"get": "list", "post": "create"}
)),
path('api/users/<int:pk>/', views.UserView.as_view(
{"get": "retrieve", "put": "update", "patch": "partial_update", "delete": "destroy"}
)),
]
# views.py
from rest_framework import serializers
from rest_framework.viewsets import ModelViewSet
from rest_framework.filters import BaseFilterBackend
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class Filter1(BaseFilterBackend):
def filter_queryset(self, request, queryset, view):
age = request.query_params.get('age')
if not age:
return queryset
return queryset.filter(age=age)
class Filter2(BaseFilterBackend):
def filter_queryset(self, request, queryset, view):
user_id = request.query_params.get('id')
if not user_id:
return queryset
return queryset.filter(id__gt=user_id)
class UserView(ModelViewSet):
filter_backends = [Filter1, Filter2]
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
# 9.2 第三方Filter
在drf开发中有一个常用的第三方过滤器:DjangoFilterBackend。
pip install django-filter
注册app:
INSTALLED_APPS = [
...
'django_filters',
...
]
视图配置和应用(示例1):
# views.py
from rest_framework import serializers
from rest_framework.viewsets import ModelViewSet
from django_filters.rest_framework import DjangoFilterBackend
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["username", "age", "email", "level_text", "extra"]
def get_extra(self, obj):
return 666
class UserView(ModelViewSet):
filter_backends = [DjangoFilterBackend, ]
filterset_fields = ["id", "age", "email"]
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
视图配置和应用(示例2):
from rest_framework import serializers
from rest_framework.viewsets import ModelViewSet
from django_filters.rest_framework import DjangoFilterBackend
from django_filters import FilterSet, filters
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
depart_title = serializers.CharField(
source="depart.title",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["id", "username", "age", "email", "level_text", "extra", "depart_title"]
def get_extra(self, obj):
return 666
class MyFilterSet(FilterSet):
depart = filters.CharFilter(field_name="depart__title", lookup_expr="exact")
min_id = filters.NumberFilter(field_name='id', lookup_expr='gte')
class Meta:
model = models.UserInfo
fields = ["min_id", "depart"]
class UserView(ModelViewSet):
filter_backends = [DjangoFilterBackend, ]
filterset_class = MyFilterSet
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
视图配置和应用(示例3):
from rest_framework import serializers
from rest_framework.viewsets import ModelViewSet
from django_filters.rest_framework import DjangoFilterBackend, OrderingFilter
from django_filters import FilterSet, filters
from app01 import models
class UserModelSerializer(serializers.ModelSerializer):
level_text = serializers.CharField(
source="get_level_display",
read_only=True
)
depart_title = serializers.CharField(
source="depart.title",
read_only=True
)
extra = serializers.SerializerMethodField(read_only=True)
class Meta:
model = models.UserInfo
fields = ["id", "username", "age", "email", "level_text", "extra", "depart_title"]
def get_extra(self, obj):
return 666
class MyFilterSet(FilterSet):
# /api/users/?min_id=2 -> id>=2
min_id = filters.NumberFilter(field_name='id', lookup_expr='gte')
# /api/users/?name=wupeiqi -> not ( username=wupeiqi )
name = filters.CharFilter(field_name="username", lookup_expr="exact", exclude=True)
# /api/users/?depart=xx -> depart__title like %xx%
depart = filters.CharFilter(field_name="depart__title", lookup_expr="contains")
# /api/users/?token=true -> "token" IS NULL
# /api/users/?token=false -> "token" IS NOT NULL
token = filters.BooleanFilter(field_name="token", lookup_expr="isnull")
# /api/users/?email=xx -> email like xx%
email = filters.CharFilter(field_name="email", lookup_expr="startswith")
# /api/users/?level=2&level=1 -> "level" = 1 OR "level" = 2(必须的是存在的数据,否则报错-->内部有校验机制)
# level = filters.AllValuesMultipleFilter(field_name="level", lookup_expr="exact")
level = filters.MultipleChoiceFilter(field_name="level", lookup_expr="exact", choices=models.UserInfo.level_choices)
# /api/users/?age=18,20 -> age in [18,20]
age = filters.BaseInFilter(field_name='age', lookup_expr="in")
# /api/users/?range_id_max=10&range_id_min=1 -> id BETWEEN 1 AND 10
range_id = filters.NumericRangeFilter(field_name='id', lookup_expr='range')
# /api/users/?ordering=id -> order by id asc
# /api/users/?ordering=-id -> order by id desc
# /api/users/?ordering=age -> order by age asc
# /api/users/?ordering=-age -> order by age desc
ordering = filters.OrderingFilter(fields=["id", "age"])
# /api/users/?size=1 -> limit 1(自定义搜索)
size = filters.CharFilter(method='filter_size', distinct=False, required=False)
class Meta:
model = models.UserInfo
fields = ["id", "min_id", "name", "depart", "email", "level", "age", 'range_id', "size", "ordering"]
def filter_size(self, queryset, name, value):
int_value = int(value)
return queryset[0:int_value]
class UserView(ModelViewSet):
filter_backends = [DjangoFilterBackend, ]
filterset_class = MyFilterSet
queryset = models.UserInfo.objects.all()
serializer_class = UserModelSerializer
def perform_create(self, serializer):
""" 序列化:对请求的数据校验成功后,执行保存。"""
serializer.save(depart_id=1, password="123")
lookup_expr有很多常见选择:
'exact': _(''),
'iexact': _(''),
'contains': _('contains'),
'icontains': _('contains'),
'startswith': _('starts with'),
'istartswith': _('starts with'),
'endswith': _('ends with'),
'iendswith': _('ends with'),
'gt': _('is greater than'),
'gte': _('is greater than or equal to'),
'lt': _('is less than'),
'lte': _('is less than or equal to'),
'in': _('is in'),
'range': _('is in range'),
'isnull': _(''),
'regex': _('matches regex'),
'iregex': _('matches regex'),
全局配置和应用:
# settings.py 全局配置
REST_FRAMEWORK = {
'DEFAULT_FILTER_BACKENDS': ['django_filters.rest_framework.DjangoFilterBackend',]
}
# 9.3 内置Filter
drf源码中内置了2个filter,分别是:
OrderingFilter,支持排序。
from rest_framework import serializers from rest_framework.viewsets import ModelViewSet from app01 import models from rest_framework.filters import OrderingFilter class UserModelSerializer(serializers.ModelSerializer): level_text = serializers.CharField( source="get_level_display", read_only=True ) depart_title = serializers.CharField( source="depart.title", read_only=True ) extra = serializers.SerializerMethodField(read_only=True) class Meta: model = models.UserInfo fields = ["id", "username", "age", "email", "level_text", "extra", "depart_title"] def get_extra(self, obj): return 666 class UserView(ModelViewSet): filter_backends = [OrderingFilter, ] # ?order=id # ?order=-id # ?order=age ordering_fields = ["id", "age"] queryset = models.UserInfo.objects.all() serializer_class = UserModelSerializer def perform_create(self, serializer): """ 序列化:对请求的数据校验成功后,执行保存。""" serializer.save(depart_id=1, password="123")SearchFilter,支持模糊搜索。
from rest_framework import serializers from rest_framework.viewsets import ModelViewSet from app01 import models from rest_framework.filters import SearchFilter class UserModelSerializer(serializers.ModelSerializer): level_text = serializers.CharField( source="get_level_display", read_only=True ) depart_title = serializers.CharField( source="depart.title", read_only=True ) extra = serializers.SerializerMethodField(read_only=True) class Meta: model = models.UserInfo fields = ["id", "username", "age", "email", "level_text", "extra", "depart_title"] def get_extra(self, obj): return 666 class UserView(ModelViewSet): # ?search=武沛%齐 filter_backends = [SearchFilter, ] search_fields = ["id", "username", "age"] queryset = models.UserInfo.objects.all() serializer_class = UserModelSerializer def perform_create(self, serializer): """ 序列化:对请求的数据校验成功后,执行保存。""" serializer.save(depart_id=1, password="123")"app01_userinfo"."id" LIKE %武沛齐% ESCAPE '\' OR "app01_userinfo"."username" LIKE %武沛齐% ESCAPE '\' OR "app01_userinfo"."age" LIKE %武沛齐% ESCAPE '\'