标签:多进程 python cas one main 不清楚 time() get tar
# -*- coding: utf-8 -*- """ 多进程 锁使用 逻辑: 10个进程各种睡眠2秒,然后打印。 不加锁同时打印出来,总共2秒,加锁一个接一个打印,总共20秒 总结: 1、Lock 只要1把锁,RLock 有多把锁,但是不清楚什么场景只适合用RLock 使用: 1. 创建所 lock = Lock() or lock = RLock() 2. 把锁当做参数传入给子进程 3. 在子进程执行代码中对代码块,加锁 lock.acquire(); 其他代码 lock.release() """ from multiprocessing import Process, Lock, RLock import time # 不加锁 def f(l, i): time.sleep(2) print(time.strftime(‘%M:%S‘, time.localtime(time.time())),‘hello world‘, i) # 加Lock def f2(l, i): l.acquire() # 竞争锁 time.sleep(2) print(time.strftime(‘%M:%S‘, time.localtime(time.time())),‘hello world‘, i) l.release() # 释放锁 # 加Rlock def f3(l, i): l.acquire() # 竞争锁 l.acquire() # 抢到锁后,再加一把锁 time.sleep(2) print(time.strftime(‘%M:%S‘, time.localtime(time.time())),‘hello world‘, i) l.release() # 释放锁 l.release() # 前面几个acquire,这里就有几个 release 如果注释掉,其他进程阻塞 if __name__ == ‘__main__‘: lock = Lock() rlock = RLock() import ptools;ptools.checkname(rlock);exit(0) # base # for num in range(10): # Process(target=f, args=(None, num)).start() # case1 for num in range(10): Process(target=f2, args=(lock, num)).start() # # # case2 # for num in range(10): # Process(target=f3, args=(rlock, num)).start() """ Out: 不加锁 (‘49:31‘, ‘hello world‘, 3) (‘49:31‘, ‘hello world‘, 2) (‘49:31‘, ‘hello world‘, 1) (‘49:31‘, ‘hello world‘, 7) (‘49:31‘, ‘hello world‘, 8) (‘49:31‘, ‘hello world‘, 5) (‘49:31‘, ‘hello world‘, 6) (‘49:31‘, ‘hello world‘, 4) (‘49:31‘, ‘hello world‘, 9) (‘49:31‘, ‘hello world‘, 0) case1 加锁,case2差不多 ‘49:52‘, ‘hello world‘, 0) (‘49:54‘, ‘hello world‘, 7) (‘49:56‘, ‘hello world‘, 2) (‘49:58‘, ‘hello world‘, 5) (‘50:00‘, ‘hello world‘, 4) (‘50:02‘, ‘hello world‘, 3) (‘50:04‘, ‘hello world‘, 8) (‘50:06‘, ‘hello world‘, 1) (‘50:08‘, ‘hello world‘, 6) (‘50:10‘, ‘hello world‘, 9) """
python 归纳 (二四)_多进程数据共享和同步_锁Lock&RLock
标签:多进程 python cas one main 不清楚 time() get tar
原文地址:https://www.cnblogs.com/sunzebo/p/9637662.html