LeonZhang0 2019-12-06
SQLAlchemy是Python编程语言下的一款开源软件。提供了SQL工具包及对象关系映射(ORM:Object Relational Mappers)工具。SQLAlchemy“采用简单的Python语言,为高效和高性能的数据库访问设计,实现了完整的企业级持久模型”。SQLAlchemy的理念是,SQL数据库的量级和性能重要于对象集合;而对象集合的抽象又重要于表和行。因此,SQLAlchemy采用了类似于Java里Hibernate的数据映射模型,而不是其他ORM框架采用的Active Record模型。
1.单数据表
1.1单数据表创建
#pip install SQLAlchemy模块 #(1)创建对象基类------类似django中的Model from sqlalchemy.ext.declarative import declarative_base Base=declarative_base() #(2)定义类对象---表 from sqlalchemy import Column,Integer,String class Student(Base):#继承基类 __tablename__=‘student‘#表名 id=Column(Integer,primary_key=True,autoincrement=True)#类属性---表字段 name=Column(String(32),nullable=False,index=True,unique=True) #(3)创建数据库引擎(依赖pymysql模块驱动) from sqlalchemy.engine import create_engine engine=create_engine("mysql+pymysql://root::3306/sqlalchemy?charset=utf8")#源码有配置说明:‘数据库类型+数据库驱动名称://用户名:口令@机器地址:端口号/数据库名‘ # (4)创建表 Base.metadata.create_all(engine)#创建基于Base基类的engine数据库引擎中的所有表 # Base.metadata.drop_all(engine)#删除基于Base基类的engine数据库引擎中的所有表
create_table.py
1.2单数据表的增删改查
1.2.1增
from sqlalchemy.orm import sessionmaker from create_table import Student,engine #创建与数据库的连接 session=sessionmaker(engine)#初始化与数据库引擎的连接类型 db_session=session()#创建数据库连接 #增 #单个增加add s=Student(name=‘yang‘)#实例化对象 db_session.add(s)#创建插入语句(只在当前的缓存中执行,但是id会被占用) db_session.commit()#提交数据库执行同步更新指令 db_session.close()#使用完之后最好关闭连接 #批量增加add_all s_list=[Student(name=‘zhang‘),Student(name=‘li‘)] db_session.add_all(s_list) db_session.commit() db_session.close()#使用完之后最好关闭连接
单数据表---增
1.2.2查
from sqlalchemy.orm import sessionmaker from create_table import Student,engine #创建与数据库的连接 session=sessionmaker(engine)#初始化与数据库引擎的连接类型 db_session=session()#创建数据库连接 #查query # (在执行其他操作之后务必关闭数据库连接,否则查询的是上一次连接建立时导入缓存的数据,导致数据不准确) print(db_session.query(Student))#直接打印出原生SQL:SELECT student.id AS student_id, student.name AS student_name FROM student #普通查询 res_all=db_session.query(Student).all()#查询所有 print(res_all) for i in res_all: print(i.id,i.name) res_first=db_session.query(Student).first()#查询所有结果的第一个 print(res_first) print(res_first.id,res_first.name) res_one=db_session.query(Student)[1]#查询结果中选取某一个 # res_one=db_session.query(Student).all()[1] print(res_one) print(res_one.id,res_one.name) res_many=db_session.query(Student)[:2]#查询结果中的连续的某几个 # res_many=db_session.query(Student).all()[:2] print(res_many) for i in res_many: print(i.id,i.name) # 带条件的查询 res=db_session.query(Student).filter(Student.id>1) print(res)#直接输出了原生SQL语句 #SELECT student.id AS student_id, student.name AS student_name # FROM student # WHERE student.id > %(id_1)s #filter中的算数运算符过滤 res=db_session.query(Student).filter(Student.id>1).all() print(res,[(i.id,i.name) for i in res],sep=‘\n‘) res=db_session.query(Student).filter(Student.id==5).all() print(res,[(i.id,i.name) for i in res],sep=‘\n‘) res=db_session.query(Student).filter(Student.id!=1).all() print(res,[(i.id,i.name) for i in res],sep=‘\n‘) #filter中的并列条件过滤(条件之间用逗号隔开) res=db_session.query(Student).filter(Student.id>1,Student.name!=‘yang‘).all() print(res,[(i.id,i.name) for i in res],sep=‘\n‘)单数据表---查
1.2.3改
from sqlalchemy.orm import sessionmaker from create_table import Student,engine #创建与数据库的连接 session=sessionmaker(engine)#初始化与数据库引擎的连接类型 db_session=session()#创建数据库连接 # 改(基于查询) res=db_session.query(Student).filter(Student.name==‘YANG‘).update({"name":‘yang‘})#单条修改,返回修改条数 db_session.commit()#务必要提交到数据库 print(res) db_session.close() res=db_session.query(Student).filter(Student.id>5).update({"name":‘yang‘})#更新多条,注意更新的该字段不能设置唯一,否则报错 db_session.commit() print(res)#更新记录条数 db_session.close()
单数据表---改
1.2.4删
from sqlalchemy.orm import sessionmaker from create_table import Student,engine #创建与数据库的连接 session=sessionmaker(engine)#初始化与数据库引擎的连接类型 db_session=session()#创建数据库连接 # 删(基于查询) res=db_session.query(Student).filter(Student.id>8).delete()#返回删除的记录条数 db_session.commit() print(res) db_session.close()
单数据表---删
1.2.5 高级版查询操作
# 高级版查询操作,厉害了哦 #老规矩 from create_table import Student,engine from sqlalchemy.orm import sessionmaker Session = sessionmaker(engine) db_session = Session() # db_session.add_all([User(name=‘yang‘),User(name=‘zhang‘),User(name=‘wang‘)]) # db_session.commit() # 查询数据表操作 # and or from sqlalchemy.sql import and_ , or_,text ret = db_session.query(Student).filter(and_(Student.id > 3, Student.name == ‘yang‘)).all() print(ret) ret = db_session.query(Student).filter(or_(Student.id < 2, Student.name == ‘yang‘)).all() print(ret) # # 查询所有数据 r1 = db_session.query(Student).all() # # 查询数据 指定查询数据列 加入别名 r2 = db_session.query(Student.name.label(‘username‘), Student.id).first() print(r2.id,r2.username) # 3 wang # 表达式筛选条件 r3 = db_session.query(Student).filter(Student.name == "yang").all() # # 原生SQL筛选条件 r4 = db_session.query(Student).filter_by(name=‘yang‘).all() r5 = db_session.query(Student).filter_by(name=‘yang‘).first() # 字符串匹配方式筛选条件 并使用 order_by进行排序 r6 = db_session.query(Student).filter(text("id<:value and name=:name")).params(value=224, name=‘yang‘).order_by(Student.id).all() # #原生SQL查询 r7 = db_session.query(Student).from_statement(text("SELECT * FROM User where name=:name")).params(name=‘yang‘).all() # # 筛选查询列 # # query的时候我们不在使用User ORM对象,而是使用User.name来对内容进行选取 user_list = db_session.query(Student.name).all() print(user_list)#[(‘wang‘,), (‘yang‘,), (‘zhang‘,)] for row in user_list: print(row.name) # # # 别名映射 name as nick user_list = db_session.query(Student.name.label("nick")).all() print(user_list) for row in user_list: print(row.nick) # 这里要写别名了 # # # 筛选条件格式 user_list = db_session.query(Student).filter(Student.name == "yang").all() user_list = db_session.query(Student).filter(Student.name == "yang").first() user_list = db_session.query(Student).filter_by(name="yang").first() for row in user_list: print(row.nick) # 复杂查询 from sqlalchemy.sql import text user_list = db_session.query(Student).filter(text("id<:value and name=:name")).params(value=3,name="DragonFire") # 查询语句 from sqlalchemy.sql import text user_list = db_session.query(Student).filter(text("select * from User id<:value and name=:name")).params(value=3,name="DragonFire") # 排序 : user_list = db_session.query(Student).order_by(Student.id).all() user_list = db_session.query(Student).order_by(Student.id.desc()).all() for row in user_list: print(row.name,row.id) #其他查询条件 """ ret = session.query(Student).filter_by(name=‘yang‘).all() ret = session.query(Student).filter(Student.id > 1, Student.name == ‘yang‘).all() ret = session.query(Student).filter(Student.id.between(1, 3), Student.name == ‘yang‘).all() # between 大于1小于3的 ret = session.query(Student).filter(Student.id.in_([1,3,4])).all() # in_([1,3,4]) 只查询id等于1,3,4的 ret = session.query(Student).filter(~Student.id.in_([1,3,4])).all() # ~xxxx.in_([1,3,4]) 查询不等于1,3,4的 ret = session.query(Student).filter(Student.id.in_(session.query(Student.id).filter_by(name=‘yang‘))).all() 子查询 from sqlalchemy import and_, or_ ret = session.query(Student).filter(and_(Student.id > 3, Student.name == ‘yang‘)).all() ret = session.query(Student).filter(or_(Student.id < 2, Student.name == ‘yang‘)).all() ret = session.query(Student).filter( or_( Student.id < 2, and_(User.name == ‘eric‘, Student.id > 3), Student.extra != "" )).all() # select * from Student where id<2 or (name="eric" and id>3) or extra != "" # 通配符 ret = db_session.query(Student).filter(Student.name.like(‘e%‘)).all() ret = db_session.query(Student).filter(~Student.name.like(‘e%‘)).all() # 限制 ret = db_session.query(Student)[1:2] # 排序 ret = db_session.query(Student).order_by(Student.name.desc()).all() ret = db_session.query(Student).order_by(Student.name.desc(), Student.id.asc()).all() # 分组 from sqlalchemy.sql import func ret = db_session.query(Student).group_by(Student.extra).all() ret = db_session.query( func.max(Student.id), func.sum(Student.id), func.min(Student.id)).group_by(Student.name).all() ret = db_session.query( func.max(Student.id), func.sum(Student.id), func.min(Student.id)).group_by(Student.name).having(func.min(Student.id) >2).all() """ # 关闭连接 db_session.close()
高级版查询
1.2.6高级版修改操作
#高级版更新操作 from create_table import Student,engine from sqlalchemy.orm import sessionmaker Session = sessionmaker(engine) db_session = Session() #直接修改 db_session.query(Student).filter(Student.id > 0).update({"name" : "099"}) #在原有值基础上添加 - 1 db_session.query(Student).filter(Student.id > 0).update({Student.name: Student.name + "099"}, synchronize_session=False) #在原有值基础上添加 - 2 db_session.query(Student).filter(Student.id > 0).update({"age": Student.age + 1}, synchronize_session="evaluate") db_session.commit() db_session.close()
高级版修改
2.一对多ForeignKey数据表(基于relationship)
2.1ForeignKey一对多数据表及relationshipi关系创建
from sqlalchemy.ext.declarative import declarative_base #(1)创建基类 Base=declarative_base() from sqlalchemy import Column,Integer,String,ForeignKey from sqlalchemy.orm import relationship #(2)创建对象,ForeignKey及relationship关系 class ClassTable(Base): __tablename__=‘classtable‘ id=Column(Integer,primary_key=True) name=Column(String(32),unique=False) class Student(Base): __tablename__=‘student‘ id=Column(Integer,primary_key=True) name=Column(String(32),nullable=False) #创建foreignKey和relationship关系 class_id=Column(Integer,ForeignKey(‘classtable.id‘)) # 关联字段,让class_id 与 classtable 的 id 进行关联,主外键关系(这里的ForeignKey一定要是表名.id不是对象名) stc=relationship("ClassTable",backref=‘cts‘)# 将student 与 ClassTable 创建关系 这个不是字段,只是关系,backref是反向关联的关键字 #(3)创建数据库引擎 from sqlalchemy import create_engine engine=create_engine("mysql+pymysql://root::3306/sqlalchemy?charset=utf8") #(4)基于数据库引擎创建集成基类的表 Base.metadata.create_all(engine) # Base.metadata.drop_all(engine)
ForeignKey一对多数据表及relationshipi关系创建(create_ForeignKey_table.py)
2.2一对多基于relationship的增查和改删操作
2.2.1一对多基于relationship的增
from sqlalchemy.orm import sessionmaker from create_ForeignKey_table import Student,ClassTable,engine #(1)建立数据库链接会话 session=sessionmaker(engine) db_session=session() #一对多的增 #普通的增 #先增加班级 db_session.add(ClassTable(name=‘三年一班‘)) db_session.add_all([ClassTable(name=‘三年二班‘),ClassTable(name=‘三年三班‘)]) db_session.commit() #查询要添加到的班级 cla=db_session.query(ClassTable).filter(ClassTable.name==‘三年一班‘).first() #增加对应班级的学生 db_session.add(Student(name=‘yang‘,class_id=cla.id)) db_session.add_all([Student(name=‘zhang‘,class_id=cla.id),Student(name=‘li‘,class_id=cla.id)]) db_session.commit() db_session.close() #基于relationshi增加 #正向增加(foreiKey决定) db_session.add(Student(name=‘he‘,stc=ClassTable(name=‘二年一班‘))) db_session.commit() #反向增加 class_obj=ClassTable(name=‘二年二班‘)#实例化班级或者查询出一个班级 # class_obj=db_session.query(ClassTable).filter(ClassTable.name==‘二年二班‘).first() # 向 Student 数据表中添加 1条或多条数据 并将 1条或多条数据的class_id 写成 class_obj的id class_obj.cts=[Student(name=‘wu‘),Student(name=‘feng‘)]#添加一个也必须是列表 db_session.add(class_obj) db_session.commit() db_session.close() 一对多基于relationship的增
一对多基于relationship的增
2.2.2一对多基于relationship的查
from sqlalchemy.orm import sessionmaker from create_ForeignKey_table import Student,ClassTable,engine #(1)建立数据库链接会话 session=sessionmaker(engine) db_session=session() #查(基于relationship) #正向查询 stu_list=db_session.query(Student).all() print([(stu.id,stu.name,stu.stc.name,stu.stc.id) for stu in stu_list]) #反向查询 cla_list=db_session.query(ClassTable).all() # print([(cla.id,cla.name,[stu.name for stu in cla.cts])for cla in cla_list]) for cla in cla_list: for stu in cla.cts:#通过relationship设置的backref反向关联到学生对象 print(cla.id,cla.name,stu.name) 一对多基于relationship的查
一对多基于relationship的查
2.2.3一对多的改
from sqlalchemy.orm import sessionmaker from create_ForeignKey_table import Student,ClassTable,engine #(1)建立数据库链接会话 session=sessionmaker(engine) db_session=session() #通过班级修改学生信息 class_obj=db_session.query(ClassTable).filter(ClassTable.name==‘二年二班‘).first() db_session.query(Student).filter(Student.class_id==class_obj.id).update({‘name‘:‘22‘}) db_session.commit() db_session.close() #通过学生修改班级信息 stu_obj=db_session.query(Student).filter(Student.name==‘22‘).first() db_session.query(ClassTable).filter(ClassTable.id==stu_obj.class_id).update({‘name‘:‘二年四班‘}) db_session.commit() db_session.close() 一对多的改
一对多的改
2.2.4一对多的删
from sqlalchemy.orm import sessionmaker from create_ForeignKey_table import Student,ClassTable,engine #(1)建立数据库链接会话 session=sessionmaker(engine) db_session=session() #删 class_obj=db_session.query(ClassTable).filter(ClassTable.name==‘二年四班‘).first() res=db_session.query(Student).filter(Student.class_id==class_obj.id).delete() db_session.commit() print(res) db_session.close() 一对多的删
一对多的删
3.多对多基于第三张的数据表
3.1多对多数据表relationship及第三张表ForeignKey创建
from sqlalchemy.ext.declarative import declarative_base #(1)创建基类 Base=declarative_base() from sqlalchemy import Column,Integer,String,ForeignKey from sqlalchemy.orm import relationship #(2)创建对象和relationship关系 class Girl(Base): __tablename__=‘girl‘ id=Column(Integer,primary_key=True) name=Column(String(32),nullable=False) gtb=relationship(‘Boy‘,secondary=‘friendship‘, backref=‘btg‘)#创建多对多的relationship关系,注意第三张表的桥梁关系 class Boy(Base): __tablename__=‘boy‘ id = Column(Integer, primary_key=True) name = Column(String(32), nullable=False) #多对多关系必须创建第三张关联表 class Friendship(Base): __tablename__=‘friendship‘ id = Column(Integer, primary_key=True) girl_id=Column(Integer,ForeignKey(‘girl.id‘))#创建于girl表的外键关联 boy_id = Column(Integer, ForeignKey(‘boy.id‘))#创建于boy表的外键关联 #(3)创建数据库引擎 from sqlalchemy import create_engine engine=create_engine(‘mysql+pymysql://root::3306/sqlalchemy?charset=utf8‘) #(4)基于数据库引擎创建继承Base基类的表 Base.metadata.create_all(engine)
多对多数据表relationship及第三张表ForeignKey创建(create_MTM_table.py)
3.2多对多基于relationship的增查
3.2.1多对多基于relationship的增
from sqlalchemy.orm import sessionmaker from create_MTM_table import engine,Girl,Boy #(1)创建数据库连接 session=sessionmaker(engine) db_session=session() #多对多表的增 #MTM基于relationship的正向增 db_session.add(Girl(name=‘g1‘,gtb=[Boy(name=‘b1‘),Boy(name=‘b11‘)])) db_session.commit() #MTM基于relationship的反向增 boy_obj=Boy(name=‘b2‘) boy_obj.btg=[Girl(name=‘g2‘),Girl(name=‘g22‘)] db_session.add(boy_obj) db_session.commit() db_session.close()
多对多基于relationship的增
3.2.1多对多基于relationship的查
from sqlalchemy.orm import sessionmaker from create_MTM_table import engine,Girl,Boy #(1)创建数据库连接 session=sessionmaker(engine) db_session=session() #多对多表的查 #通过girl查所有的boy girl_list=db_session.query(Girl).all() for girl in girl_list: for boy in girl.gtb: print(girl.name,"----------",boy.name) #通过boy查询所有的girl boy_list=db_session.query(Boy).all() for boy in boy_list: for girl in boy.btg: print(boy.name, "----------", girl.name)
多对多基于relationship的查