多线程适用于IO密集型，多线程实现方式有两种，详见下方例子

例子：

import threading

class MyThread(threading.Thread):

    def __init__(self, args):

        #使用super写法，按照父类.方法的方式直接重写

        super(MyThread, self).__init__()

        self.args = args

    def run(self):

        print ("start MyThread {0}".format(self.args))

def worker(n):

    print ("start worker{0}".format(n))

if __name__ == "__main__":

    #同多进程使用方法

    for i in xrange(1, 6):

        #使用threading.Thread指定函数和参数，多线程执行

        t1 = threading.Thread(target=worker, args=(i,))

        #开始多线程执行

        t1.start()

    t1.join()

    #重写threading.Thread中的run方法实现多线程

    for x in xrange(6, 11):

        t2 = MyThread(x)

        t2.start()

    t2.join()

输出：

start worker1

start worker2

start worker3

start worker4

start worker5

start MyThread 6

start MyThread 7

start MyThread 8

start MyThread 9

start MyThread 10

多线程锁

多线程锁的两种写法，详见下面两个例子

例子：

import threading

import time

def worker(name, lock):

    #with写法会自动获得锁并自动释放锁，与

    with lock:

        print ("start {0}".format(name))

        time.sleep(2)

        print ("end {0}".format(name))

if __name__ == "__main__":

    #锁的实例化

    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：

start worker1

main end

end worker1

start worker2

end worker2

例子：

import threading

import time

def worker(name, lock):

    #获取线程锁

    lock.acquire()

    #捕获异常

    try:

        print ("start {0}".format(name))

        time.sleep(2)

        print ("end {0}".format(name))

    except Exception as e:

        raise e

    finally:

        #释放线程锁

        lock.release()

if __name__ == "__main__":

    #锁的实例化

    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：

start worker1

main end

end worker1

start worker2

end worker2

线程的共享内存

线程缺点是有一个线程崩溃时所有剩余线程均会崩溃

例子：

#线程共享内存

import threading

def worker(l):

    l.append("a")

    l.append("b")

    l.append("c")

if __name__ == "__main__":

    l = list()

    l += xrange(1,6)

    print (l)

    t = threading.Thread(target=worker, args=(l,))

    t.start()

    print (l)

输出：

a1 b2 c3

a4 b5 c6

线程池

例子：

#此包为第三方包，需要使用pip安装

import threadpool

def test1(a, b, c):

    print("a{0} b{1} c{2}".format(a, b, c))

if __name__ == "__main__":

    #the way one

    lst_vars_1 = ['1', '2', '3']

    lst_vars_2 = ['4', '5', '6']

    func_var = [(lst_vars_1, None), (lst_vars_2, None)]

    # the way two

    dict_vars_1 = {'a':'1', 'b':'2', 'c':'3'}

    dict_vars_2 = {'a':'4', 'b':'5', 'c':'6'}

    func_var = [(None, dict_vars_1), (None, dict_vars_2)]

    pool1 = threadpool.ThreadPool(2)

    request = threadpool.makeRequests(test1, func_var)

    [pool1.putRequest(req) for req in request]

    pool1.wait()