资源总是有限的,程序运行如果对同一个对象进行操作,则有可能造成资源的争用,甚至导致死锁
也可能导致读写混乱
锁提供如下方法:
1.Lock.acquire([blocking])
2.Lock.release()
3.threading.Lock() 加载线程的锁对象,是一个基本的锁对象,一次只能一个锁定,其余锁请求,需等待锁释放后才能获取
4.threading.RLock() 多重锁,在同一线程中可用被多次acquire。如果使用RLock,那么acquire和release必须成对出现,
调用了n次acquire锁请求,则必须调用n次的release才能在线程中释放锁对象
例如:
无锁:
#coding=utf8
import threading
import time
num = 0
def sum_num(i):
global num
time.sleep(1)
num +=i
print num
print '%s thread start!'%(time.ctime())
try:
for i in range(6):
t =threading.Thread(target=sum_num,args=(i,))
t.start()
except KeyboardInterrupt,e:
print "you stop the threading"
print '%s thread end!'%(time.ctime())
输出:
Sun May 28 20:54:59 2017 thread start!
Sun May 28 20:54:59 2017 thread end!
01
3
710
15
1
2
3
4
5
6
结果显示混乱
引入锁:
#coding=utf8
import threading
import time
num = 0
def sum_num(i):
lock.acquire()
global num
time.sleep(1)
num +=i
print num
lock.release()
print '%s thread start!'%(time.ctime())
try:
lock=threading.Lock()
list = []
for i in range(6):
t =threading.Thread(target=sum_num,args=(i,))
list.append(t)
t.start()
for threadinglist in list:
threadinglist.join()
except KeyboardInterrupt,e:
print "you stop the threading"
print '%s thread end!'%(time.ctime())
结果:
Sun May 28 21:15:37 2017 thread start!
0
1
3
6
10
15
Sun May 28 21:15:43 2017 thread end!
其中:
lock=threading.Lock()加载锁的方法也可以换成lock=threading.RLock()
如果将上面的sum_num修改为:
lock.acquire()
global num
lock.acquire()
time.sleep(1)
num +=i
lock.release()
print num
lock.release()
那么:
lock=threading.Lock() 加载的锁,则一直处于等待中,锁等待
而lock=threading.RLock() 运行正常