SQLAlchemy 使用教程
前戏:
不用怀疑,你肯定用过Django中的orm,这个orm框架是django框架中自己封装的,在Django中配置和使用较为简单,但是并不适用于其他web框架,而今天说的sqlalchemy是兼容python语言的orm框架,相信你已经明白谁牛逼!
下面,接下来....
还有比案例更好的教程吗,那下面请您享用为您准备好的大餐...
1.单表操作
1.1创建表
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导入sqlachemy资源包
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案例
from sqlalchemy.ext.declarative import declarative_base BaseModel = declarative_base() # 创建 Class / Table from sqlalchemy import Column,Integer,String class User(BaseModel): __tablename__ = "user" # 创建Table时名字 id = Column(Integer,primary_key=True,autoincrement=True) name = Column(String(32),nullable=False,index=True,unique=True) # Column 定义数据列 # int string 数据类型 # 数据库引擎的创建: from sqlalchemy.engine import create_engine engine = create_engine("mysql+pymysql://root:123@127.0.0.1:3306/dbname?charset=utf8") # 数据库连接驱动语句 #利用 User 去数据库创建 user Table BaseModel.metadata.create_all(engine) # 数据库引擎 # 数据库呢? 数据库服务器地址呢? # 数据库连接呢?
1.2CURD(增删改查)
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案例
# 模拟 navcat 操作 # 1.选择数据库 from sqlalchemy.engine import create_engine engine = create_engine("mysql+pymysql://root:123@127.0.0.1:3306/s21?charset=utf8") # 2.选择表 # 3.创建查询窗口 from sqlalchemy.orm import sessionmaker select_db = sessionmaker(engine) # 选中数据库 db_session = select_db() # 已经打开查询窗口 # 4.写入SQL语句 user = User(name="Alexander.DSB.Li") # == insert into user(`name`) value ("Alexander.DSB.Li") user_list = [User(name="Alex's Father"),User(name="李杰")] # 放入查询窗口 db_session.add(user) db_session.add_all(user_list) # 5.提交sql语句 db_session.commit() # 6.关闭查询窗口 db_session.close() # 简单无条件查询 # """ # select * from user table_user == class_User # """ res = db_session.query(User).all() # 查询全部符合条件的数据 res = db_session.query(User).first() # 查询符合条件的第一条数据 print(res.id,res.name) # 简单条件查询 # """ # select * from user where id=3 # """ res = db_session.query(User).filter(User.id==3).all() print(res[0].id,res[0].name) res = db_session.query(User).filter_by(id=3).all() res = db_session.query(User).filter(User.id==3 , User.name == "123").all() print(res) # is_true_or_false = User.id==3 and User.name == "123" # 修改数据 update res = db_session.query(User).filter(User.id == 1).update({"name":"李亚历山大"}) db_session.commit() db_session.close() # 删除数据 res = db_session.query(User).filter(User.id == 2).delete() db_session.commit() db_session.close()
2.一对多
2.1创建表
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案例
from sqlalchemy.ext.declarative import declarative_base from sqlalchemy import Column,Integer,String,ForeignKey from sqlalchemy.engine import create_engine #ORM精髓 relationship from sqlalchemy.orm import relationship engine = create_engine("mysql+pymysql://root:123@127.0.0.1:3306/s21?charset=utf8") BaseModel = declarative_base() # 一对多 class School(BaseModel): __tablename__ = "school" id = Column(Integer,primary_key=True) name = Column(String(32),nullable=False) class Student(BaseModel): __tablename__ = "student" id = Column(Integer,primary_key=True) name = Column(String(32),nullable=False) sch_id = Column(Integer,ForeignKey("school.id")) # 关系映射 stu2sch = relationship("School",backref="sch2stu") BaseModel.metadata.create_all(engine)
2.2CURD
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使用案例
from sqlalchemy.orm import sessionmaker from app01.static.上午.createForeignKey import engine select_db = sessionmaker(engine) db_session = select_db() # 增加数据 # 先建立一个学校 再查询这个学校的id 利用这个ID 再去创建学生添加sch_id # relationship 正向添加 relationship字段出现在哪个类 # stu = Student(name="DragonFire",stu2sch=School(name="OldBoyBeijing")) # stu sql 语句 # db_session.add(stu) # db_session.commit() # db_session.close() # relationship 反向添加 # sch = School(name="OldBoyShanghai") # sch.sch2stu = [ # Student(name="赵丽颖"), # Student(name="冯绍峰") # ] # # db_session.add(sch) # db_session.commit() # db_session.close() # 查询 relationship 正向 # res = db_session.query(Student).all() # for stu in res: # print(stu.name,stu.stu2sch.name) # 查询 relationship 反向 # res = db_session.query(School).all() # for sch in res: # # print(sch.name,len(sch.sch2stu)) 学校里面有多少学生 # for stu in sch.sch2stu: # print(sch.name,stu.name)
3.多对多
3.1 创建表
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案例
from sqlalchemy.ext.declarative import declarative_base from sqlalchemy import Column,Integer,String,ForeignKey from sqlalchemy.engine import create_engine from sqlalchemy.orm import relationship BaseModel = declarative_base() engine = create_engine("mysql+pymysql://root:123@127.0.0.1:3306/s21?charset=utf8") class Girl(BaseModel): __tablename__ = "girl" id = Column(Integer,primary_key=True) name = Column(String(32),nullable=False) gyb = relationship("Boy",backref="byg",secondary="hotel") # secondary="hotel" 数据表中的数据才能证明两者关系 class Boy(BaseModel): __tablename__ = "boy" id = Column(Integer,primary_key=True) name = Column(String(32),nullable=False) class Hotel(BaseModel): __tablename__ = "hotel" id = Column(Integer,primary_key=True) bid = Column(Integer,ForeignKey("boy.id")) gid = Column(Integer,ForeignKey("girl.id")) BaseModel.metadata.create_all(engine)
3.2CURD
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案例
from sqlalchemy.orm import sessionmaker from app01.static.上午.createM2M import engine select_db = sessionmaker(engine) db_session = select_db() # 增加数据 relationship 正向添加 # g = Girl(name="赵丽颖",gyb=[Boy(name="DragonFire"),Boy(name="冯绍峰")]) # db_session.add(g) # db_session.commit() # db_session.close() # 增加数据 relationship 反向添加 # b = Boy(name="李杰") # b.byg = [ # Girl(name="罗玉凤"), # Girl(name="朱利安"), # Girl(name="乔碧萝") # ] # # db_session.add(b) # db_session.commit() # db_session.close() # 查询 relationship 正向 # res = db_session.query(Girl).all() # for g in res: # print(g.name,len(g.gyb)) # 查询 relationship 反向 # res = db_session.query(Boy).all() # for b in res: # print(b.name,len(b.byg))