多线程
线程是应用程序中工作的最小单元。
多线程是现实有两种方式:
方法一:将要执行的方法作为参数传给Thread的构造方法(和多进程类似)
t = threading.Thread(target=action, args=(i,))
方法二:从Thread继承,并重写run()
所以如果重写了run,就直接调用run的函数了,如果run没有重新,就调用target函数。
实例
import threading 方法一
def worker(n):
print("start worker{0}".format(n)) 方法二
class Mythread(threading.Thread):
def __init__(self,args):
super(Mythread,self).__init__()
self.args = args
def run(self):
print("start MyThread{0}".format(self.args)) if __name__ == "__main__":
for i in xrange(1,6): t1 = threading.Thread(target=worker,args=(i,))
t1.start()
t1.join()
for x in xrange(6,11):
t2 = Mythread(x)
t2.start()
t2.join() 输出结果:
start worker1
start worker2
start worker3
start worker4
start worker5
start MyThread6
start MyThread7
start MyThread8
start MyThread9
start MyThread10
线程锁
通过threading.Lock()来创建锁,函数在执行的只有先要获得锁,左后执行完以后要释放锁:
with lock:
lock.acquire()
lock.release()
import threading
import time def worker(name,lock):
with lock:
print("start {0}".format(name))
time.sleep(5)
print("end {0}".format(name)) if __name__ == "__main__":
lock = threading.Lock()
t1 = threading.Thread(target=worker, args=("worker1", lock))
t2 = threading.Thread(target=worker, args=("worker2", lock))
t1.start()
t2.start()
print("main end.") 输出结果
start worker1
main end.
end worker1 #中间间隔5秒
start worker2
end worker2