一、SQLAlchemy介绍
QLAlchemy是一个基于Python的ORM框架。该框架是建立在DB-API之上,使用关系对象映射进行数据库操作。
简而言之就是,将类和对象转换成SQL,然后使用数据API执行SQL并获取执行结果。
什么是DB-API?
DB-API是Python的数据库接口规范。
在没有DB-API之前,各数据库之间的应用接口非常混乱,实现各不相同,
项目需要更换数据库的时候,需要做大量的修改,非常不方便,DB-API就是为了解决这样的问题。
pip install sqlalchemy
组成部分:
-- engine,框架的引擎
-- connection pooling 数据库连接池
-- Dialect 选择链接数据库的DB-API种类(实际选择哪个模块链接数据库)
-- Schema/Types 架构和类型
-- SQL Expression Language SQL表达式语言
二、连接数据库
SQLAlchemy 本身无法操作数据库,其必须依赖遵循DB-API规范的三方模块,
Dialect 用于和数据API进行交互,根据配置的不同调用不同数据库API,从而实现数据库的操作。
下面是不同数据库的API:
连接数据库
# create_engine就是去建立连接,相当于我们pymsql建立连接的时候 conn= pymysql.connect(...)
conn = create_engine(
"mysql+pymysql://root:123abc@127.0.0.1:3306/数据库名?charset=utf8mb4",
max_overflow=0, # 超过连接池大小外最多创建的连接数
pool_size=5, # 连接池大小
pool_timeout=30, # 连接池中没有线程最多等待时间,否则报错
pool_recycle=-1, # 多久之后对连接池中的连接进行回收(重置)-1不回收
)
三、执行原生SQL
conn = create_engine(
"mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",
max_overflow=0,
pool_size=5,
)
def test():
ret = conn.execute("select * from MyTest")
result = ret.fetchall()
print(result)
ret.close()
if __name__ == '__main__':
test()
四、ORM
1、创建表
# 1. 创建单表
from sqlalchemy import create_engine
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy import Column, Integer, String, DateTime
from sqlalchemy import Index, UniqueConstraint
import datetime
ENGINE = create_engine("mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",)
# Base是declarative_base的实例化对象
Base = declarative_base()
# 每个类都要继承Base
class UserInfo(Base):
# __tablename__是必须要的,它是设置实际存在数据库中的表名
__tablename__ = "user_info"
# Column是列的意思,固定写法 Column(字段类型, 参数)
# primary_key主键、index索引、nullable是否可以为空
id = Column(Integer, primary_key=True)
name = Column(String(32), index=True, nullable=False)
email = Column(String(32), unique=True)
create_time = Column(DateTime, default=datetime.datetime.now)
# 相当于Django的ORM的class Meta,是一些元信息
__table_args__ = (
UniqueConstraint("id", "name", name="uni_id_name"),
Index("name", "email")
)
def create_db():
# metadata.create_all创建所有表
Base.metadata.create_all(ENGINE)
def drop_db():
# metadata.drop_all删除所有表
Base.metadata.drop_all(ENGINE)
if __name__ == '__main__':
create_db()# 2. 创建一对多的表
from sqlalchemy import create_engine
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy import Column, Integer, String, DateTime
from sqlalchemy import Index, UniqueConstraint, ForeignKey
from sqlalchemy.orm import relationship
import datetime
ENGINE = create_engine("mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",)
Base = declarative_base()
# ======一对多示例=======
class UserInfo(Base):
__tablename__ = "user_info"
id = Column(Integer, primary_key=True)
# index=True,设置索引
name = Column(String(32), index=True, nullable=False)
email = Column(String(32), unique=True)
create_time = Column(DateTime, default=datetime.datetime.now)
# ForeignKey字段的建立,需要指定外键绑定哪个表的哪个字段
hobby_id = Column(Integer, ForeignKey("hobby.id"))
# 不生成表结构 方便查询和增加的操作
# 第一个参数是关联到哪个类(表), backref是给关联的那个类反向查询用的
hobby = relationship("Hobby", backref="user")
__table_args__ = (
# UniqueConstraint联合唯一,这个联合唯一的字段名为:uni_id_name
UniqueConstraint("id", "name", name="uni_id_name"),
# 联合索引
Index("name", "email")
)
class Hobby(Base):
__tablename__ = "hobby"
id = Column(Integer, primary_key=True)
title = Column(String(32), default="码代码")
def create_db():
Base.metadata.create_all(ENGINE)
def drop_db():
Base.metadata.drop_all(ENGINE)
if __name__ == '__main__':
create_db()
# drop_db()# 3. 创建多对多的表
from sqlalchemy import create_engine
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy import Column, Integer, String, DateTime
from sqlalchemy import Index, UniqueConstraint, ForeignKey
from sqlalchemy.orm import relationship
import datetime
ENGINE = create_engine("mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",)
Base = declarative_base()
# ======多对多示例=======
class Book(Base):
__tablename__ = "book"
id = Column(Integer, primary_key=True)
title = Column(String(32))
# 不生成表字段 仅用于查询和增加方便
# 多对多的relationship还需要设置额外的参数secondary:绑定多对多的中间表
tags = relationship("Tag", secondary="book2tag", backref="books")
class Tag(Base):
__tablename__ = "tag"
id = Column(Integer, primary_key=True)
title = Column(String(32))
class Book2Tag(Base):
__tablename__ = "book2tag"
id = Column(Integer, primary_key=True)
book_id = Column(Integer, ForeignKey("book.id"))
tag_id = Column(Integer, ForeignKey("tag.id"))
def create_db():
Base.metadata.create_all(ENGINE)
def drop_db():
Base.metadata.drop_all(ENGINE)
if __name__ == '__main__':
create_db()
# drop_db()from sqlalchemy import create_engine, ForeignKey, UniqueConstraint, Index
from sqlalchemy import Column, Integer, String
from sqlalchemy.ext.declarative import declarative_base
from sqlalchemy.orm import sessionmaker, scoped_session
from sqlalchemy.orm import relationship
from sqlalchemy import Index, UniqueConstraint
conn = create_engine(
"mysql+pymysql://root:123abc@127.0.0.1:3306/mytest?charset=utf8mb4",
max_overflow=0, # 超过连接池大小外最多创建的连接数
pool_size=5, # 连接池大小
pool_timeout=30, # 连接池中没有线程最多等待时间,否则报错
pool_recycle=-1, # 多久之后对连接池中的连接进行回收(重置)-1不回收
)
Base = declarative_base()
class Book(Base):
__tablename__ = 'book'
id = Column(Integer, primary_key=True)
title = Column(String(64), nullable=False)
publisher_id = Column(Integer, ForeignKey('publisher.id'))
publisher = relationship('Publisher', backref='books')
tags = relationship('Tag', backref='books', secondary='book2tag')
__table_args__ = (
# UniqueConstraint联合唯一,这个联合唯一的字段名为:uni_id_name
UniqueConstraint("id", "title", name="uni_id_title"),
# 联合索引
Index("id", "title")
)
def __repr__(self):
return self.title
class Publisher(Base):
__tablename__ = 'publisher'
id = Column(Integer, primary_key=True)
title = Column(String(64), nullable=False)
def __repr__(self):
return self.title
class Tag(Base):
__tablename__ = 'tag'
id = Column(Integer, primary_key=True)
title = Column(String(64), nullable=False)
def __repr__(self):
return self.title
class Book2Tag(Base):
__tablename__ = 'book2tag'
id = Column(Integer, primary_key=True)
book_id = Column(Integer, ForeignKey('book.id'))
tag_id = Column(Integer, ForeignKey('tag.id'))
def create_db():
# metadata.create_all创建所有表
Base.metadata.create_all(conn)
def drop_db():
# metadata.drop_all删除所有表
Base.metadata.drop_all(conn)
# 每次执行数据库操作的时候,都需要创建一个session,相当于管理器(相当于Django的ORM的objects)
session_factory = sessionmaker(bind=conn)
# 线程安全,基于本地线程实现每个线程用同一个session
Session = scoped_session(session_factory)
# 实例化(相当于实现了一个单例模式)
session = Session()
# session2 = Session() --> session is session2
# 下面这种情况
# session_factory = sessionmaker(bind=conn)
# session3 = session_factory()
# session4 = session_factory()
# session3 is not session4
if __name__ == '__main__':
# create_db()
# drop_db()
# publisher_obj = Publisher(title='xxx出版社')
# book_obj = Book(title='时间简史', publisher=publisher_obj)
# tag_obj1 = Tag(title='python')
# tag_obj2 = Tag(title='go')
# tag_obj3 = Tag(title='linux')
# session.add(publisher_obj)
# session.add(book_obj)
# session.add_all([tag_obj1, tag_obj2, tag_obj3])
# session.commit()
# session.close()
# ret1 = session.query(Tag).filter(Tag.id==1).first()
# ret2 = session.query(Tag).filter_by(id=2).first()
# print(ret1)
# print(ret2)
# session.query(Tag).filter_by(id=2).update({"title": 'golang'})
# tag_obj = Tag(title='heihei2')
# tag_obj.books = [session.query(Book).filter_by(id=1).first()]
# session.add(tag_obj)
# session.commit()
# book_obj = Book(title='狗屎仔',
# publisher_id=1,
# tags=[session.query(Tag).filter_by(id=1).first(), session.query(Tag).filter_by(id=2).first()])
# session.add(book_obj)
# session.commit()
# ret = session.query(Book, Publisher).filter(Book.publisher_id==Publisher.id).all()
# ret = session.query(Book).join(Publisher).all()
# ret = session.query(Book).join(Publisher, isouter=True).all()
ret = session.query(Book).outerjoin(Publisher).all()
print(ret)
2、对数据库表的操作(增删改查)
# 1. scoped_session
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker, scoped_session
from models_demo import Tag
ENGINE = create_engine("mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",)
# 每次执行数据库操作的时候,都需要创建一个session,相当于管理器(相当于Django的ORM的objects)
Session = sessionmaker(bind=ENGINE)
# 线程安全,基于本地线程实现每个线程用同一个session
session = scoped_session(Session)
# =======执行ORM操作==========
tag_obj = Tag(title="SQLAlchemy")
# 添加
session.add(tag_obj)
# 提交
session.commit()
# 关闭session
session.close()
# 2. 基本增删改查
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker, scoped_session
from models_demo import Tag, UserInfo
import threading
ENGINE = create_engine("mysql+pymysql://root:123abc@127.0.0.1:3306/test?charset=utf8mb4",)
Session = sessionmaker(bind=ENGINE)
# 每次执行数据库操作的时候,都需要创建一个session
session = Session()
session = scoped_session(Session)
# ============添加================
tag_obj = Tag(title="SQLAlchemy")
session.add(tag_obj)
# 批量添加
session.add_all([
Tag(title="Python"),
Tag(title="Django"),
])
# 提交
session.commit()
# 关闭session
session.close()
# ============基础查询============
ret = session.query(Tag).all()
# get(id)
ret1 = session.query(Tag).get(1) # 查询Tag表 id=1的记录
# filter(表达式)
ret2 = session.query(Tag).filter(Tag.title == "Python").all()
# filter_by(字段=xx)
ret3 = session.query(Tag).filter_by(title="Python").all()
ret4 = session.query(Tag).filter_by(title="Python").first()
print(ret1, ret2, ret3, ret4)
# ============删除===========
session.query(Tag).filter_by(id=1).delete()
session.commit()
# ===========修改===========
session.query(Tag).filter_by(id=22).update({Tag.title: "LOL"})
session.query(Tag).filter_by(id=23).update({"title": "吃鸡"})
session.query(Tag).filter_by(id=24).update({"title": Tag.title + "~"}, synchronize_session=False)
# synchronize_session="evaluate" 默认值进行数字加减
session.commit()
# 3. 常用操作
# 条件查询
ret1 = session.query(Tag).filter_by(id=22).first()
ret2 = session.query(Tag).filter(Tag.id > 1, Tag.title == "LOL").all()
ret3 = session.query(Tag).filter(Tag.id.between(22, 24)).all()
ret4 = session.query(Tag).filter(~Tag.id.in_([22, 24])).first()
from sqlalchemy import and_, or_
ret5 = session.query(Tag).filter(and_(Tag.id > 1, Tag.title == "LOL")).first()
ret6 = session.query(Tag).filter(or_(Tag.id > 1, Tag.title == "LOL")).first()
ret7 = session.query(Tag).filter(or_(
Tag.id>1,
and_(Tag.id>3, Tag.title=="LOL")
)).all()
# 通配符
ret8 = session.query(Tag).filter(Tag.title.like("L%")).all()
ret9 = session.query(Tag).filter(~Tag.title.like("L%")).all()
# 限制
ret10 = session.query(Tag).filter(~Tag.title.like("L%")).all()[1:2]
# 排序
ret11 = session.query(Tag).order_by(Tag.id.desc()).all() # 倒序
ret12 = session.query(Tag).order_by(Tag.id.asc()).all() # 正序
# 分组
ret13 = session.query(Tag.test).group_by(Tag.test).all()
# 聚合函数
from sqlalchemy.sql import func
ret14 = session.query(
func.max(Tag.id),
func.sum(Tag.test),
func.min(Tag.id)
).group_by(Tag.title).having(func.max(Tag.id > 22)).all()
# 连表
# print(ret15) 得到一个列表套元组 元组里是两个对象
# [(user_obj1, hobby_obj1), (user_obj2, hobby_obj2), ]
ret15 = session.query(UserInfo, Hobby).filter(UserInfo.hobby_id == Hobby.id).all()
# print(ret16) 得到列表里面是前一个对象,join相当于inner join
# [user_obj1, user_obj2, ]
ret16 = session.query(UserInfo).join(Hobby).all()
# 相当于inner join
# for i in ret16:
# # print(i[0].name, i[1].title)
# print(i.hobby.title)
# 指定isouter=True相当于left join
ret17 = session.query(Hobby).join(UserInfo, isouter=True).all()
ret17_1 = session.query(UserInfo).join(Hobby, isouter=True).all()
# 或者直接用outerjoin也是相当于left join
ret18 = session.query(Hobby).outerjoin(UserInfo).all()
ret18_1 = session.query(UserInfo).outerjoin(Hobby).all()
print(ret17)
print(ret17_1)
print(ret18)
print(ret18_1)
# 4. 基于relationship的ForeignKey
# 添加
user_obj = UserInfo(name="提莫", hobby=Hobby(title="种蘑菇"))
session.add(user_obj)
hobby = Hobby(title="弹奏一曲")
hobby.user = [UserInfo(name="琴女"), UserInfo(name="妹纸")]
# hobby.user = [session.query(UserInfo).filter_by(id=1).first(), ]
session.add(hobby)
session.commit()
# 基于relationship的正向查询
user_obj_1 = session.query(UserInfo).first()
print(user_obj_1.name)
print(user_obj_1.hobby.title)
# 基于relationship的反向查询
hb = session.query(Hobby).first()
print(hb.title)
for i in hb.user:
print(i.name)
session.close()
基于relationship的M2M
# 5. 基于relationship的M2M
# 添加
# 直接给中间表添加
book_obj = Book(title="Python源码剖析")
tag_obj = Tag(title="Python")
b2t = Book2Tag(book_id=book_obj.id, tag_id=tag_obj.id)
session.add_all([
book_obj,
tag_obj,
b2t,
])
session.commit()
# 通过反向字段添加
book = Book(title="测试")
book.tags = [Tag(title="测试标签1"), Tag(title="测试标签2")]
# book.tags = [session.query(Tag).filter_by(id=1).first(), ]
session.add(book)
session.commit()
tag = Tag(title="LOL")
tag.books = [Book(title="大龙刷新时间"), Book(title="小龙刷新时间")]
session.add(tag)
session.commit()
# 基于relationship的正向查询
book_obj = session.query(Book).filter_by(id=4).first()
print(book_obj.title)
print(book_obj.tags)
# 基于relationship的反向查询
tag_obj = session.query(Tag).first()
print(tag_obj.title)
print(tag_obj.books)