好久没有看多线程了把基础都快忘了,今天突然想复习一下.
在很久很久以前,操作系统处理问题都是单任务的,我想做听音乐和看电影两件事儿,那么一定要先排一下顺序。
from time import ctime,sleep
def music():
for i in range(2):
print ("I was listening to music. %s" %ctime())
sleep(1)
def move():
for i in range(2):
print ("I was at the movies! %s" %ctime())
sleep(5)
if __name__ == '__main__':
music()
move()
print "all over %s" %ctime()
我们先听了一首音乐,通过for循环来控制音乐的播放了两次,每首音乐播放需要1秒钟,sleep()来控制音乐播放的时长。接着我们又看了一场电影,每一场电影需要5秒钟,因为太好看了,所以我也通过for循环看两遍。在整个休闲娱乐活动结束后,我通过print “all over %s” %ctime() 看了一下当前时间,差不多该睡觉了。
之后我们对上述函数进行了改进。其实,music()和move()更应该被看作是音乐和视频播放器,至于要播放什么歌曲和视频应该由我们使用时决定。所以,我们对上面代码做了改造:
#coding=utf-8
import threading
from time import ctime,sleep
def music(func):
for i in range(2):
print "I was listening to %s. %s" %(func,ctime())
sleep(1)
def move(func):
for i in range(2):
print "I was at the %s! %s" %(func,ctime())
sleep(5)
if __name__ == '__main__':
music(u'爱情买卖')
move(u'阿凡达')
print "all over %s" %ctime()
科技在发展,时代在进步,我们的CPU也越来越快,CPU抱怨,P大点事儿占了我一定的时间,其实我同时干多个活都没问题的;于是,操作系统就进入了多任务时代。我们听着音乐吃着火锅的不在是梦想。
python提供了两个模块来实现多线程thread 和threading ,thread 有一些缺点,在threading 得到了弥补,为了不浪费你和时间,所以我们直接学习threading 就可以了。
继续对上面的例子进行改造,引入threadring来同时播放音乐和视频:
#coding=utf-8
import threading
from time import ctime,sleep
def music(func):
for i in range(2):
print("I was listening to %s. %s" %(func,ctime()))
sleep(1)
def move(func):
for i in range(2):
print ("I was at the %s! %s" %(func,ctime()))
sleep(5)
threads = []
t1 = threading.Thread(target=music,args=(u'沉默是金',))
threads.append(t1)
t2 = threading.Thread(target=move,args=(u'时空穿越',))
threads.append(t2)
if __name__ == '__main__':
for t in threads:
t.setDaemon(True)
t.start()
print ("all over %s" %ctime())
setDaemon(True)将线程声明为守护线程,必须在start() 方法调用之前设置,如果不设置为守护线程程序会被无限挂起。子线程启动后,父线程也继续执行下去,当父线程执行完最后一条语句print “all over %s” %ctime()后,没有等待子线程,直接就退出了,同时子线程也一同结束。输出结果如下
C:\Python34\python.exe C:/Users/ecaoyng/PycharmProjects/py3Demo/multi_thread.py
I was listening to 沉默是金. Thu Sep 7 10:08:58 2017
I was at the 时空穿越! Thu Sep 7 10:08:58 2017
all over Thu Sep 7 10:08:58 2017
Process finished with exit code 0
从执行结果来看,子线程(muisc 、move )和主线程(print “all over %s” %ctime())都是同一时间启动,但由于主线程执行完结束,所以导致子线程也终止。
继续调整主程序
if __name__ == '__main__':
for t in threads:
t.setDaemon(True)
t.start()
t.join()
print("all over %s" % ctime())
执行结果如下:
C:\Python34\python.exe C:/Users/ecaoyng/PycharmProjects/py3Demo/multi_thread.py
I was listening to 沉默是金. Thu Sep 7 10:12:30 2017
I was watching at the 时空穿越! Thu Sep 7 10:12:30 2017
I was listening to 沉默是金. Thu Sep 7 10:12:31 2017
I was watching at the 时空穿越! Thu Sep 7 10:12:35 2017
all over Thu Sep 7 10:12:40 2017
Process finished with exit code 0
Process finished with exit code 0
我们只对上面的程序加了个join()方法,用于等待线程终止。join()的作用是,在子线程完成运行之前,这个子线程的父线程将一直被阻塞.注意: join()方法的位置是在for循环外的,也就是说必须等待for循环里的两个进程都结束后,才去执行主进程。
==========================================================
class threading.Thread()说明:
class threading.Thread(group=None, target=None, name=None, args=(), kwargs={})
This constructor should always be called with keyword arguments. Arguments are:
group should be None; reserved for future extension when a ThreadGroup class is implemented.
target is the callable object to be invoked by the run() method. Defaults to None, meaning nothing is called.
name is the thread name. By default, a unique name is constructed of the form “Thread-N” where N is a small decimal number.
args is the argument tuple for the target invocation. Defaults to ().
kwargs is a dictionary of keyword arguments for the target invocation. Defaults to {}.
If the subclass overrides the constructor, it must make sure to invoke the base class constructor (Thread.__init__()) before doing anything else to the thread.