目录
和前面讲到的 python线程互斥锁Lock 类似,当有多个进程Process同时读写同一个文件时,为了避免数据读写产生异常,我们需要为正在操作的进程加上互斥锁,互斥锁的原理不管是对线程threading还是对进程Process而言都是一样。
一.线程互斥锁和进程互斥锁注意事项
1.创建线程互斥锁
# 导入线程threading模块
import threading
# 创建线程互斥锁
mutex = threading.Lock()2.创建进程互斥锁
from multip# 导入进程模块
from multiprocessing import Process,Lock
# 创建进程互斥锁
mutex = Lock()注意导入模块的区别,不要混淆使用!
二.进程互斥锁Lock函数介绍
acquire()— 锁定资源;
release() — 释放资源;
三.进程互斥锁Lock使用
案例一:使用进程,但不使用互斥锁
from multiprocessing import Lock, Process
import time
import random
import os
def foo(i, mutex):
print('%s: %s is running' % (i, os.getpid()))
time.sleep(random.random())
print('%s:%s is done' % (i, os.getpid()))
if __name__ == '__main__':
mutex = Lock()
for i in range(10):
process = Process(target=foo, args=(i, mutex))
process.start()输出结果:
0: 17008 is running
1: 5288 is running
2: 1228 is running
3: 9724 is running
4: 7520 is running
5: 10236 is running
3:9724 is done
6: 16452 is running
7: 13328 is running
0:17008 is done
8: 9356 is running
9: 16432 is running
8:9356 is done
2:1228 is done
5:10236 is done
9:16432 is done
7:13328 is done
4:7520 is done
6:16452 is done
1:5288 is done重输出的结果来看,多个进程同时在操作,如果是对同一个文件读写操作,很明显已经乱套了,这并不是我们想要的;如果多进程在读写同一文件时想要保证数据安全,必然需要加上互斥锁,例如下面这个demo;
案例二:进程互斥锁的使用
from multiprocessing import Lock, Process
import time
import random
import os
def foo(i, mutex):
mutex.acquire()
print('%s: %s is running' % (i, os.getpid()))
time.sleep(random.random())
print('%s:%s is done' % (i, os.getpid()))
mutex.release()
if __name__ == '__main__':
mutex = Lock()
for i in range(10):
process = Process(target=foo, args=(i, mutex))
process.start()输出结果:
0: 6908 is running
0:6908 is done
1: 7976 is running
1:7976 is done
3: 7824 is running
3:7824 is done
2: 17328 is running
2:17328 is done
4: 7844 is running
4:7844 is done
5: 15900 is running
5:15900 is done
6: 12648 is running
6:12648 is done
7: 16516 is running
7:16516 is done
8: 17348 is running
8:17348 is done
9: 13180 is running
9:13180 is done完美,即便是对同一个文件进行读写操作,进程Process使用互斥锁Lock之后也不会造成数据混乱的问题,同时也提高了效率,完美解决案例一的问题!
案例三:对全局变量累计求和看看计算结果
# !usr/bin/env python
# -*- coding:utf-8 _*-
"""
@Author:何以解忧
@Blog(个人博客地址): shuopython.com
@WeChat Official Account(微信公众号):猿说python
@Github:www.github.com
@File:python_process_lock.py
@Time:2019/12/31 21:25
@Motto:不积跬步无以至千里,不积小流无以成江海,程序人生的精彩需要坚持不懈地积累!
"""
# 导入进程模块
from multiprocessing import Process,Lock
num = 0
def get_sum1():
global num # 声明全局变量
for i in range(10000):
num = num +1
print("get_sum1:",num)
def get_sum2():
global num # 声明全局变量
for i in range(10000):
num = num + 1
print("get_sum2:", num)
def main():
global num # 声明全局变量
p1 = Process(target=get_sum1)
p1.start()
p2 = Process(target=get_sum2)
p2.start()
p1.join()
p2.join()
print("main:",num)
if __name__ == "__main__":
main()
print("main exit")输出结果:
get_sum1: 10000
get_sum2: 10000
main: 0
main exit可能有小伙伴会觉得很纳闷,main函数中得num值怎么会是0,明明主进程/两个子进程都用关键字 global 声明了全局变量,即便没有互斥锁,也应该是一个小于20000的随机数,在文章 python 进程Process与线程threading区别 中有详细讲解,同一进程的所有线程共享该进程的所有资源,进程与进程之间资源相互独立,互不影响(类似深拷贝);
上面的程序有三个进程,这就意味着num变量实际上有三份资源,其中两个进程对num分别做了10000次累计加1,所以每个子进程的值都是10000,主进程没有对num任何操作,所以主进程num值为0;
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