1.基本操作
增
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models.Tb1.objects.create(c1='xx', c2='oo') 增加一条数据,可以接受字典类型数据 **kwargs obj = models.Tb1(c1='xx', c2='oo')obj.save() |
查
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models.Tb1.objects.get(id=123) # 获取单条数据,不存在则报错(不建议)models.Tb1.objects.all() # 获取全部models.Tb1.objects.filter(name='seven') # 获取指定条件的数据models.Tb1.objects.exclude(name='seven') # 获取指定条件的数据 |
删
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models.Tb1.objects.filter(name='seven').delete() # 删除指定条件的数据 |
改
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models.Tb1.objects.filter(name='seven').update(gender='0') # 将指定条件的数据更新,均支持 **kwargsobj = models.Tb1.objects.get(id=1)obj.c1 = '111'obj.save() # 修改单条数据 |
2.Foreign key的使用原因
- 约束
- 节省硬盘
但是多表查询会降低速度,大型程序反而不使用外键,而是用单表(约束的时候,通过代码判断)
extra
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extra(self, select=None, where=None, params=None, tables=None, order_by=None, select_params=None) Entry.objects.extra(select={'new_id': "select col from sometable where othercol > %s"}, select_params=(1,)) Entry.objects.extra(where=['headline=%s'], params=['Lennon']) Entry.objects.extra(where=["foo='a' OR bar = 'a'", "baz = 'a'"]) Entry.objects.extra(select={'new_id': "select id from tb where id > %s"}, select_params=(1,), order_by=['-nid']) |
F查询
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models.Tb1.objects.update(num=F('num')+1) |
Q查询
方式一:
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Q(nid__gt=10)Q(nid=8) | Q(nid__gt=10)Q(Q(nid=8) | Q(nid__gt=10)) & Q(caption='root') |
方式二:
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con = Q()q1 = Q()q1.connector = 'OR'q1.children.append(('id', 1))q1.children.append(('id', 10))q1.children.append(('id', 9))q2 = Q()q2.connector = 'OR'q2.children.append(('c1', 1))q2.children.append(('c1', 10))q2.children.append(('c1', 9))con.add(q1, 'AND')con.add(q2, 'AND')models.Tb1.objects.filter(con) |
exclude(self, *args, **kwargs)
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# 条件查询 # 条件可以是:参数,字典,Q |
select_related(self, *fields)
性能相关:表之间进行join连表操作,一次性获取关联的数据。
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model.tb.objects.all().select_related()model.tb.objects.all().select_related('外键字段')model.tb.objects.all().select_related('外键字段__外键字段') |
prefetch_related(self, *lookups)
性能相关:多表连表操作时速度会慢,使用其执行多次SQL查询 在内存中做关联,而不会再做连表查询
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# 第一次 获取所有用户表# 第二次 获取用户类型表where id in (用户表中的查到的所有用户ID)models.UserInfo.objects.prefetch_related('外键字段') |
annotate(self, *args, **kwargs)
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# 用于实现聚合group by查询from django.db.models import Count, Avg, Max, Min, Sum v = models.UserInfo.objects.values('u_id').annotate(uid=Count('u_id'))# SELECT u_id, COUNT(ui) AS `uid` FROM UserInfo GROUP BY u_idv = models.UserInfo.objects.values('u_id').annotate(uid=Count('u_id')).filter(uid__gt=1)# SELECT u_id, COUNT(ui_id) AS `uid` FROM UserInfo GROUP BY u_id having count(u_id) > 1v = models.UserInfo.objects.values('u_id').annotate(uid=Count('u_id',distinct=True)).filter(uid__gt=1)# SELECT u_id, COUNT( DISTINCT ui_id) AS `uid` FROM UserInfo GROUP BY u_id having count(u_id) > 1 |
extra(self, select=None, where=None, params=None, tables=None, order_by=None, select_params=None)
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# 构造额外的查询条件或者映射,如:子查询Entry.objects.extra(select={'new_id': "select col from sometable where othercol > %s"}, select_params=(1,))Entry.objects.extra(where=['headline=%s'], params=['Lennon'])Entry.objects.extra(where=["foo='a' OR bar = 'a'", "baz = 'a'"])Entry.objects.extra(select={'new_id': "select id from tb where id > %s"}, select_params=(1,), order_by=['-nid']) |
reverse(self):
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# 倒序 models.UserInfo.objects.all().order_by('-nid').reverse()# 注:如果存在order_by,reverse则是倒序,如果多个排序则一一倒序 |
下面两个 取到的是对象,并且注意 取到的对象可以 获取其他字段(这样会再去查找该字段降低性能
defer(self, *fields):
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models.UserInfo.objects.defer('username','id')或models.UserInfo.objects.filter(...).defer('username','id')# 映射中排除某列数据 |
only(self, *fields):
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# 仅取某个表中的数据models.UserInfo.objects.only('username','id')或models.UserInfo.objects.filter(...).only('username','id') |
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持服务器之家。
原文链接:https://www.cnblogs.com/liujiliang/p/9171675.html
