pymysql:python操作mysql 安装 : pip3 install pymysql 增删改查 # 选取操作的模块 pymysql# pymysql连接数据库的必要参数:主机、端口、用户名、密码、数据库# 注:pymysql不能提供创建数据库的服务
pymysql:python操作mysql
安装
>: pip3 install pymysql
增删改查
# 选取操作的模块 pymysql # pymysql连接数据库的必要参数:主机、端口、用户名、密码、数据库 # 注:pymysql不能提供创建数据库的服务,数据库要提前创建 import pymysql # 1)建立数据库连接对象 conn # 2)通过 conn 创建操作sql的 游标对象 # 3)编写sql交给 cursor 执行 # 4)如果是查询,通过 cursor对象 获取结果 # 5)操作完毕,端口操作与连接 # 1)建立数据库连接对象 conn conn = pymysql.connect(user='root', passwd='root', database='oldboy') # conn = pymysql.connect(user='root', passwd='root', database='oldboy', autocommit=True) # 2)通过 conn 创建操作sql的 游标对象 # 注:游标不设置参数,查询的结果就是数据元组,数据没有标识性 # 设置pymysql.cursors.DictCursor,查询的结果是字典,key是表的字段 cursor = conn.cursor(pymysql.cursors.DictCursor) # 3)编写sql交给 cursor 执行
创建表
# 创建表 sql1 = 'create table t1(id int, x int, y int)' cursor.execute(sql1)
增
sql2 = 'insert into t1 values(%s, %s, %s)' # 增1 cursor.execute(sql2, (1, 10, 100)) cursor.execute(sql2, (2, 20, 200)) # 重点:在创建conn对象时,不设置autocommit,默认开启事务,增删改操作不会直接映射到数据库中, # 需要执行 conn.commit() 动作 conn.commit() # 增多 cursor.executemany(sql2, [(3, 30, 300), (4, 40, 400)]) conn.commit()
删
sql3 = 'delete from t1 where id=%s' cursor.execute(sql3, 4) conn.commit()
改
sql4 = 'update t1 set y=666 where id=2' cursor.execute(sql4) conn.commit()
查
sql5 = 'select * from t1' row = cursor.execute(sql5) # 返回值是受影响的行 print(row) # 4)如果是查询,通过 cursor对象 获取结果 # fetchone() 偏移一条取出,fetchmany(n) 偏移n条取出,fetchall() 偏移剩余全部 r1 = cursor.fetchone() print(r1) r2 = cursor.fetchone() print(r2) r3 = cursor.fetchmany(1) print(r3) r4 = cursor.fetchall() print(r4) # 5)操作完毕,端口操作与连接 cursor.close() conn.close()
游标操作
import pymysql
from pymysql.cursors import DictCursor
# 1)建立数据库连接对象 conn
conn = pymysql.connect(user='root', passwd='root', db='oldboy')
# 2)通过 conn 创建操作sql的 游标对象
cursor = conn.cursor(DictCursor)
# 3)编写sql交给 cursor 执行
sql = 'select * from t1'
# 4)如果是查询,通过 cursor对象 获取结果
row = cursor.execute(sql)
if row:
r1 = cursor.fetchmany(2)
print(r1)
# 操作游标
# cursor.scroll(0, 'absolute') # absolute绝对偏移,游标重置,从头开始偏移
cursor.scroll(-2, 'relative') # relative相对偏移,游标在当前位置进行左右偏移
r2 = cursor.fetchone()
print(r2)
# 5)操作完毕,端口操作与连接
cursor.close()
conn.close()
pymysql事务
import pymysql
from pymysql.cursors import DictCursor
conn = pymysql.connect(user='root', passwd='root', db='oldboy')
cursor = conn.cursor(DictCursor)
try:
sql = 'create table t2(id int, name char(4), money int)'
row = cursor.execute(sql)
print(row)
except:
print('表已创建')
pass
# 空表才插入
row = cursor.execute('select * from t2')
if not row:
sql = 'insert into t2 values(%s,%s,%s)'
row = cursor.executemany(sql, [(1, 'tom', 10), (2, 'Bob', 10)])
conn.commit()
# 可能会出现异常的sql
"""
try:
sql1 = 'update t2 set money=money-1 where name="tom"'
cursor.execute(sql1)
sql2 = 'update t2 set moneys=money+1 where name="Bob"'
cursor.execute(sql2)
except:
print('转账执行异常')
conn.rollback()
else:
print('转账成功')
conn.commit()
"""
try:
sql1 = 'update t2 set money=money-1 where name="tom"'
r1 = cursor.execute(sql1)
sql2 = 'update t2 set money=money+1 where name="ruakei"' # 转入的人不存在
r2 = cursor.execute(sql2)
except:
print('转账执行异常')
conn.rollback()
else:
print('转账没有异常')
if r1 == 1 and r2 == 1:
print('转账成功')
conn.commit()
else:
conn.rollback()
sql注入
import pymysql
from pymysql.cursors import DictCursor
conn = pymysql.connect(user='root', passwd='root', db='oldboy')
cursor = conn.cursor(DictCursor)
try:
sql = 'create table user(id int, name char(4), password char(6))'
row = cursor.execute(sql)
print(row)
except:
print('表已创建')
pass
# 空表才插入
row = cursor.execute('select * from user')
if not row:
sql = 'insert into user values(%s,%s,%s)'
row = cursor.executemany(sql, [(1, 'tom', '123'), (2, 'bob', 'abc')])
conn.commit()
# 用户登录
usr = input('usr: ')
pwd = input('pwd: ')
# 自己拼接参数一定有sql注入,将数据的占位填充交给pymysql
"""
sql = 'select * from user where name="%s" and password="%s"' % (usr, pwd)
row = cursor.execute(sql)
if row:
print('登录成功')
else:
print('登录失败')
"""
sql = 'select * from user where name=%s and password=%s'
row = cursor.execute(sql, (usr, pwd))
if row:
print('登录成功')
else:
print('登录失败')
# 知道用户名时
# 输入用户时:
# tom => select * from user where name="tom" and password="%s"
# tom" # => select * from user where name="tom" #" and password="%s"
# 不自定义用户名时
# " or 1=1 # => select * from user where name="" or 1=1 #" and password="%s"
索引
# 索引就是 键 - key
"""
1)键 是添加给数据库表的 字段 的
2)给表创建 键 后,该表不仅会形参 表结构、表数据,还有 键的B+结构图
3)键的结构图是需要维护的,在数据完成增、删、改操作时,只要影响到有键的字段,结构图都要维护一次
所以创建键后一定会降低 增、删、改 的效率
4)键可以极大的加快查询速度(开发需求中,几乎业务都和查有关系)
5)建立键的方式:主键、外键、唯一键、index
"""
import pymysql
from pymysql.cursors import DictCursor
conn = pymysql.connect(user='root', passwd='root', db='oldboy')
cursor = conn.cursor(DictCursor)
# 创建两张表
# sql1 = """create table a1(
# id int primary key auto_increment,
# x int,
# y int
# )"""
# cursor.execute(sql1)
# sql2 = """create table a2(
# id int primary key auto_increment,
# x int,
# y int,
# index(x)
# )"""
# cursor.execute(sql2)
# 每个表插入5000条数据
# import random
# for i in range(1, 5001):
# x = i
# y = random.randint(1, 5000)
# cursor.execute('insert into a1(x, y) values(%s, %s)', (x, y))
# cursor.execute('insert into a2(x, y) values(%s, %s)', (x, y))
#
# conn.commit()
import time
# a1的x、a1的id、a2的x
b_time = time.time()
sql = 'select * from a1 where id=4975'
cursor.execute(sql)
e_time = time.time()
print(e_time - b_time)
b_time = time.time()
sql = 'select * from a1 where x=4975'
cursor.execute(sql)
e_time = time.time()
print(e_time - b_time)
b_time = time.time()
sql = 'select * from a2 where x=4975'
cursor.execute(sql)
e_time = time.time()
print(e_time - b_time)