锁: import time from threading import Lock,Thread # Lock 互斥锁 # def func(lock): # global n # lock.acquire() # temp = n # time.sleep(0.2) # n = temp - 1 # lock.release() # # n = 10 # t_lst = [] # lock = Lock() # for i in range(10): # t = Thread(target=func,args=(lock,)) # t.start() # t_lst.append(t) # for t in t_lst: t.join() # print(n)
# 科学家吃面 # noodle_lock = Lock() # fork_lock = Lock() # def eat1(name): # noodle_lock.acquire() # print(‘%s拿到面条啦‘%name) # fork_lock.acquire() # print(‘%s拿到叉子了‘%name) # print(‘%s吃面‘%name) # fork_lock.release() # noodle_lock.release() # # def eat2(name): # fork_lock.acquire() # print(‘%s拿到叉子了‘%name) # time.sleep(1) # noodle_lock.acquire() # print(‘%s拿到面条啦‘%name) # print(‘%s吃面‘%name) # noodle_lock.release() # fork_lock.release() # # Thread(target=eat1,args=(‘alex‘,)).start() # Thread(target=eat2,args=(‘Egon‘,)).start() # Thread(target=eat1,args=(‘bossjin‘,)).start() # Thread(target=eat2,args=(‘nezha‘,)).start()
from threading import RLock # 递归锁
fork_lock = noodle_lock = RLock() # 一个钥匙串上的两把钥匙
def eat1(name):
noodle_lock.acquire() # 一把钥匙
print(‘%s拿到面条啦‘%name)
fork_lock.acquire()
print(‘%s拿到叉子了‘%name)
print(‘%s吃面‘%name)
fork_lock.release()
noodle_lock.release()
def eat2(name):
fork_lock.acquire()
print(‘%s拿到叉子了‘%name)
time.sleep(1)
noodle_lock.acquire()
print(‘%s拿到面条啦‘%name)
print(‘%s吃面‘%name)
noodle_lock.release()
fork_lock.release()
Thread(target=eat1,args=(‘alex‘,)).start()
Thread(target=eat2,args=(‘Egon‘,)).start()
Thread(target=eat1,args=(‘bossjin‘,)).start()
Thread(target=eat2,args=(‘nezha‘,)).start()
递归锁RLock:在一个线程里可以多次acquire(),解决死锁问题
进程也有死锁问题,当在同一个线程或者同一个进程中,用到两把及以上的互斥锁的时候,容易出现死锁
为什么加锁:全局解释器锁(GIL)是给线程加了锁,是为了避免多个线程同一时间对一个数据进行操作,
但是并不能避免时间片的轮转带来的数据不安全性
lock.acquire()会阻塞
信号量:
import time
from threading import Semaphore,Thread
def func(sem,a,b):
sem.acquire()
time.sleep(1)
print(a+b)
sem.release()
sem = Semaphore(4)
for i in range(10):
t = Thread(target=func,args=(sem,i,i+5))
t.start()
事件:
# 事件被创建的时候 # False状态 # wait() 阻塞 # True状态 # wait() 非阻塞 # clear 设置状态为False # set 设置状态为True
# 数据库 - 文件夹 # 文件夹里有好多excel表格 # 1.能够更方便的对数据进行增删改查 # 2.安全访问的机制
# 起两个线程 # 第一个线程 : 连接数据库 # 等待一个信号 告诉我我们之间的网络是通的 # 连接数据库 # 第二个线程 : 检测与数据库之间的网络是否连通 # time.sleep(0,2) 2 # 将事件的状态设置为True
import time
import random
from threading import Thread,Event
def connect_db(e):
count = 0
while count < 3:
e.wait(0.5) # 状态为False的时候,我只等待1s就结束
if e.is_set() == True:
print(‘连接数据库‘)
break
else:
count += 1
print(‘第%s次连接失败‘%count)
else:
raise TimeoutError(‘数据库连接超时‘)
def check_web(e):
time.sleep(random.randint(0,3))
e.set()
e = Event()
t1 = Thread(target=connect_db,args=(e,))
t2 = Thread(target=check_web,args=(e,))
t1.start()
t2.start()
查看更多关于python基础一 day40 线程锁 信号量 事件的详细内容...
声明:本文来自网络,不代表【好得很程序员自学网】立场,转载请注明出处:http://www.haodehen.cn/did172280