复习
"""
1、解析模块:全局局部配置
REST_FRAMEWORK = {
# 全局解析类配置
'DEFAULT_PARSER_CLASSES': [
'rest_framework.parsers.JSONParser',
'rest_framework.parsers.FormParser',
'rest_framework.parsers.MultiPartParser'
],
}
form rest_framework.parsers import JSONParser, FormParser
class User(APIView):
parser_classes = [JSONParser, FormParser]
def get():
pass
2、异常模块
REST_FRAMEWORK = {
# 全局配置异常模块
'EXCEPTION_HANDLER': 'api.exception.exception_handler',
}
def exception_handler(exc, context):
response = drf views 中的 exception_handler 先处理
if response is None:
通过context,exc记录详细的异常信息
自己自定义响应对象
return Response({
'detail': '服务器错误'
}, status=status.HTTP_500_INTERNAL_SERVER_ERROR, exception=True)
return response
3、响应模块
Response(data, status, headers, content_type, exception)
4、Serializer序列化模块
序列化
ser:
1)设置需要返回给前台 那些model类有对应的 字段,不需要返回的就不用设置了
2)设置方法字段,字段名可以随意,字段值有 get_字段名 提供,来完成一些需要处理在返回的数据
view:
1)从数据库中将要序列化给前台的model对象,或是对个model对象查询出来
user_obj = models.User.objects.get(pk=pk) 或者
user_obj_list = models.User.objects.all()
2)将对象交给序列化处理,产生序列化对象,如果序列化的是多个数据,要设置many=True
user_ser = serializers.UserSerializer(user_obj) 或者
user_ser = serializers.UserSerializer(user_obj_list, many=True)
3)序列化 对象.data 就是可以返回给前台的序列化数据
return Response({
'status': 0,
'msg': 0,
'results': user_ser.data
})
反序列化
ser:
1)设置必填与选填序列化字段,设置校验规则
2)为需要额外校验的字段提供局部钩子函数,如果该字段不入库,且不参与全局钩子校验,可以将值取出校验
3)为有联合关系的字段们提供全局钩子函数,如果某些字段不入库,可以将值取出校验
4)重写create方法,完成校验通过的数据入库工作,得到新增的对象
view:
"""
课程准备
配置:settings.py
INSTALLED_APPS = [
# ...
'rest_framework',
]
DATABASES = {
'default': {
'ENGINE': 'django.db.backends.mysql',
'NAME': 'dg_proj',
'USER': 'root',
'PASSWORD': '123',
}
}
"""
任何__init__文件
import pymysql
pymysql.install_as_MySQLdb()
"""
LANGUAGE_CODE = 'zh-hans'
TIME_ZONE = 'Asia/Shanghai'
USE_I18N = True
USE_L10N = True
USE_TZ = False
MEDIA_URL = '/media/'
MEDIA_ROOT = os.path.join(BASE_DIR, 'media')
路由
# 主
from django.conf.urls import url, include
from django.contrib import admin
from django.views.static import serve
from django.conf import settings
urlpatterns = [
url(r'^admin/', admin.site.urls),
url(r'^api/', include('api.urls')),
url(r'^media/(?P<path>.*)', serve, {'document_root': settings.MEDIA_ROOT}),
]
# 子
from django.conf.urls import url
from . import views
urlpatterns = [
]
多表设计
"""
Book表:name、price、img、authors、publish、is_delete、create_time
Publish表:name、address、is_delete、create_time
Author表:name、age、is_delete、create_time
AuthorDetail表:mobile, author、is_delete、create_time
BaseModel基表
is_delete、create_time
上面四表继承基表,可以继承两个字段
"""
基表
class BaseModel(models.Model):
is_delete = models.BooleanField(default=False)
create_time = models.DateTimeField(auto_now_add=True)
# 设置 abstract = True 来声明基表,作为基表的Model不能在数据库中形成对应的表
class Meta:
abstract = True
多表关系断关联
知识点(重点)
"""
1、外键位置:
一对多 - 外键放多的一方
一对一 - 从逻辑正反向考虑,如作者表与作者详情表,作者删除级联删除详情,详情删除作者依旧存在,所以建议外键在详情表中
多对多 - 外键在关系表中
2、ORM正向反向连表查找:
正向:通过外键字段 eg: author_detial_obj.author
反向:通过related_name的值 eg:author_obj.detail
注:依赖代码见下方
3、连表操作关系:
1)作者删除,详情级联 - on_delete=models.CASCADE
2)作者删除,详情置空 - null=True, on_delete=models.SET_NULL
3)作者删除,详情重置 - default=0, on_delete=models.SET_DEFAULT
4)作者删除,详情不动 - on_delete=models.DO_NOTHING
注:拿作者与作者详情表举例
4、外键关联字段的参数 - 如何实现 断关联、目前表间操作关系、方向查询字段
i)作者详情表中的
author = models.OneToOneField(
to='Author',
related_name='detail',
db_constraint=False,
on_delete=models.CASCADE
)
ii)图书表中的
publish = models.ForeignKey(
to='Publish',
related_name='books',
db_constraint=False,
on_delete=models.DO_NOTHING,
)
authors = models.ManyToManyField(
to='Author'
related_name='books',
db_constraint=False,
)
注:ManyToManyField不能设置on_delete,OneToOneField、ForeignKey必须设置on_delete(django1.x系统默认级联,但是django2.x必须手动明确)
"""
model类
from django.db import models
# 图书管理系统:Book、Author、AuthorDetail、Publish
"""
Book表: name、price、img、authors、publish、is_delete、create_time
Publish表: name、address、is_delete、create_time
Author表: name、age、is_delete、create_time
AuthorDetail表: mobile, author、is_delete、create_time
"""
# 1) 基表
class BaseModel(models.Model):
is_delete = models.BooleanField(default=False)
create_time = models.DateTimeField(auto_now_add=True)
# 作为基表的Model不能在数据库中形成对应的表,设置 abstract = True
class Meta:
abstract = True
class Book(BaseModel):
"""name、price、img、authors、publish、is_delete、create_time"""
name = models.CharField(max_length=64)
price = models.DecimalField(max_digits=5, decimal_places=2)
img = models.ImageField(upload_to='img', default='img/default.jpg')
publish = models.ForeignKey(
to='Publish',
db_constraint=False, # 断关联
related_name='books', # 反向查询字段:publish_obj.books 就能访问所有出版的书
on_delete=models.DO_NOTHING, # 设置连表操作关系
)
authors = models.ManyToManyField(
to='Author',
db_constraint=False,
related_name='books'
)
# 序列化插拔式属性 - 完成自定义字段名完成连表查询
@property
def publish_name(self):
return self.publish.name
@property
def author_list(self):
return self.authors.values('name', 'age', 'detail__mobile').all()
class Meta:
db_table = 'book'
verbose_name = '书籍'
verbose_name_plural = verbose_name
def __str__(self):
return self.name
class Publish(BaseModel):
"""name、address、is_delete、create_time"""
name = models.CharField(max_length=64)
address = models.CharField(max_length=64)
class Meta:
db_table = 'publish'
verbose_name = '出版社'
verbose_name_plural = verbose_name
def __str__(self):
return self.name
class Author(BaseModel):
"""name、age、is_delete、create_time"""
name = models.CharField(max_length=64)
age = models.IntegerField()
class Meta:
db_table = 'author'
verbose_name = '作者'
verbose_name_plural = verbose_name
def __str__(self):
return self.name
class AuthorDetail(BaseModel):
"""mobile, author、is_delete、create_time"""
mobile = models.CharField(max_length=11)
author = models.OneToOneField(
to='Author',
db_constraint=False,
related_name='detail',
on_delete=models.CASCADE,
)
class Meta:
db_table = 'author_detail'
verbose_name = '作者详情'
verbose_name_plural = verbose_name
def __str__(self):
return '%s的详情' % self.author.name
序列化
序列化层:api/serializers.py
from rest_framework.serializers import ModelSerializer, SerializerMethodField
from rest_framework.exceptions import ValidationError
from . import models
# 可以单独作为Publish接口的序列化类,也可以作为Book序列化外键publish辅助的序列化组件
class PublishModelSerializer(ModelSerializer):
class Meta:
model = models.Publish
fields = ('name', 'address')
class BookModelSerializer(ModelSerializer):
# 了解: 该方式设置的序列化字段,必须在fields中声明
# publish_address = SerializerMethodField()
# def get_publish_address(self, obj):
# return obj.publish.address
# 自定义连表深度 - 子序列化方式 - 该方式不能参与反序列化,使用在序列化反序列化共存时,不能书写
publish = PublishModelSerializer()
class Meta:
# 序列化类关联的model类
model = models.Book
# 参与序列化的字段
fields = ('name', 'price', 'img', 'author_list', 'publish')
# 了解知识点
# 所有字段
# fields = '__all__'
# 与fields不共存,exclude排除哪些字段
# exclude = ('id', 'is_delete', 'create_time')
# 自动连表深度
# depth = 1
视图层:api/views.py
class Book(APIView):
def get(self, request, *args, **kwargs):
pk = kwargs.get('pk')
if pk:
try:
book_obj = models.Book.objects.get(pk=pk, is_delete=False)
book_data = serializers.BookModelSerializer(book_obj).data
except:
return Response({
'status': 1,
'msg': '书籍不存在'
})
else:
book_query = models.Book.objects.filter(is_delete=False).all()
book_data = serializers.BookModelSerializer(book_query, many=True).data
return Response({
'status': 0,
'msg': 'ok',
'results': book_data
})
路由层:api/urls.py
urlpatterns = [
url(r'^books/$', views.Book.as_view()),
url(r'^books/(?P<pk>.*)/$', views.Book.as_view()),
]
反序列化
序列化层:api/serializers.py
class BookModelDeserializer(ModelSerializer):
class Meta:
model = models.Book
fields = ('name', 'price', 'publish', 'authors')
# extra_kwargs 用来完成反序列化字段的 系统校验规则
extra_kwargs = {
'name': {
'required': True,
'min_length': 1,
'error_messages': {
'required': '必填项',
'min_length': '太短',
}
}
}
# 局部钩子
def validate_name(self, value):
# 书名不能包含 g 字符
if 'g' in value.lower():
raise ValidationError('该g书不能出版')
return value
# 全局钩子
def validate(self, attrs):
publish = attrs.get('publish')
name = attrs.get('name')
if models.Book.objects.filter(name=name, publish=publish):
raise ValidationError({'book': '该书已存在'})
return attrs
# ModelSerializer类已经帮我们实现了 create 与 update 方法
视图层:api/views.py
class Book(APIView):
def post(self, request, *args, **kwargs):
request_data = request.data
book_ser = serializers.BookModelDeserializer(data=request_data)
# raise_exception=True:当校验失败,马上终止当前视图方法,抛异常返回给前台
book_ser.is_valid(raise_exception=True)
book_obj = book_ser.save()
return Response({
'status': 0,
'msg': 'ok',
'results': serializers.BookModelSerializer(book_obj).data
})
路由层:api/urls.py
urlpatterns = [
url(r'^books/$', views.Book.as_view()),
url(r'^books/(?P<pk>.*)/$', views.Book.as_view()),
]
序列化与反序列化整合(重点)
序列化层:api/serializers.py
"""
1) fields中设置所有序列化与反序列化字段
2) extra_kwargs划分只序列化或只反序列化字段
write_only:只反序列化
read_only:只序列化
自定义字段默认只序列化(read_only)
3) 设置反序列化所需的 系统、局部钩子、全局钩子 等校验规则
"""
class V2BookModelSerializer(ModelSerializer):
class Meta:
model = models.Book
fields = ('name', 'price', 'img', 'author_list', 'publish_name', 'publish', 'authors')
extra_kwargs = {
'name': {
'required': True,
'min_length': 1,
'error_messages': {
'required': '必填项',
'min_length': '太短',
}
},
'publish': {
'write_only': True
},
'authors': {
'write_only': True
},
'img': {
'read_only': True,
},
'author_list': {
'read_only': True,
},
'publish_name': {
'read_only': True,
}
}
def validate_name(self, value):
# 书名不能包含 g 字符
if 'g' in value.lower():
raise ValidationError('该g书不能出版')
return value
def validate(self, attrs):
publish = attrs.get('publish')
name = attrs.get('name')
if models.Book.objects.filter(name=name, publish=publish):
raise ValidationError({'book': '该书已存在'})
return attrs
视图层:api/views.py
class V2Book(APIView):
# 单查:有pk
# 群查:无pk
def get(self, request, *args, **kwargs):
pk = kwargs.get('pk')
if pk:
try:
book_obj = models.Book.objects.get(pk=pk, is_delete=False)
book_data = serializers.V2BookModelSerializer(book_obj).data
except:
return Response({
'status': 1,
'msg': '书籍不存在'
})
else:
book_query = models.Book.objects.filter(is_delete=False).all()
book_data = serializers.V2BookModelSerializer(book_query, many=True).data
return Response({
'status': 0,
'msg': 'ok',
'results': book_data
})
# 单增:传的数据是与model对应的字典
# 群增:传的数据是 装多个 model对应字典 的列表
def post(self, request, *args, **kwargs):
request_data = request.data
if isinstance(request_data, dict):
many = False
elif isinstance(request_data, list):
many = True
else:
return Response({
'status': 1,
'msg': '数据有误',
})
book_ser = serializers.V2BookModelSerializer(data=request_data, many=many)
# 当校验失败,马上终止当前视图方法,抛异常返回给前台
book_ser.is_valid(raise_exception=True)
book_result = book_ser.save()
return Response({
'status': 0,
'msg': 'ok',
'results': serializers.V2BookModelSerializer(book_result, many=many).data
})
# 单删:有pk
# 群删:有pks | {"pks": [1, 2, 3]}
def delete(self, request, *args, **kwargs):
pk = kwargs.get('pk')
if pk:
pks = [pk]
else:
pks = request.data.get('pks')
if models.Book.objects.filter(pk__in=pks, is_delete=False).update(is_delete=True):
return Response({
'status': 0,
'msg': '删除成功',
})
return Response({
'status': 1,
'msg': '删除失败',
})
路由层:api/urls.py
urlpatterns = [
url(r'^v2/books/$', views.V2Book.as_view()),
url(r'^v2/books/(?P<pk>.*)/$', views.V2Book.as_view()),
]