线程与进程

 1 import threading
 2 import time
 3 def haha(num):
 4     print("running thread:%s" %num)
 5     time.sleep(3)
 6 
 7 if __name__ == "__main__":
 8     t1 = threading.Thread(target=haha,args=(1,)) #生成一个线程实例，执行sayhi，参数args
 9     t2 = threading.Thread(target=haha,args=(2,)) #生成另一个线程实例
10 
11     t1.start() #启动线程
12     t2.start() #启动另一个线程
13 
14     print(t1.getName()) #获取线程名
15     print(t2.getName())

 1 import threading
 2 import time
 3 
 4 class MyThread(threading.Thread):
 5     def __init__(self,num):
 6         threading.Thread.__init__(self)
 7         self.num = num
 8 
 9     def run(self): #定义每个线程要运行的函数，必须是run
10         print("running thread:%s" %self.num)
11         time.sleep(3)
12 
13 if __name__ == "__main__":
14     t1 = MyThread(1)
15     t2 = MyThread(2)
16     t1.start()
17     t2.start()

 1 import threading
 2 import time
 3 
 4 def sayhi(num): #定义每个线程要运行的函数
 5     print("running on number:%s" %num)
 6     time.sleep(3)
 7 
 8 if __name__ == ‘__main__‘:
 9      t_list = []
10      for i in range (10):
11          t = threading.Thread(target=sayhi,args=[i,])
12          t.start()
13          t_list.append(t)
14      for i in t_list:
15          i.join()
16      print(‘---main---‘)

 1 import threading
 2 import time
 3 
 4 def sayhi(num): #定义每个线程要运行的函数
 5     print("running on number:%s" %num)
 6     time.sleep(3)
 7 
 8 if __name__ == ‘__main__‘:
 9 
10     t1 = threading.Thread(target=sayhi,args=(1,)) #生成一个线程实例
11     t2 = threading.Thread(target=sayhi,args=(2,)) #生成另一个线程实例
12 
13     t1.start() #启动线程
14     t2.start() #启动另一个线程
15 
16     print(t1.getName()) #获取线程名
17     print(t2.getName())
18     
19     t1.join() #t1.wait() 等待线程执行完
20     t2.join() #t2.wait()
21     
22     print(‘---main---‘) #等线程执行完打印，如果不加join，会同线程执行的同时打印

 1 import time
 2 import threading
 3 
 4 def run(n):
 5 
 6     print(‘[%s]------running----\n‘ % n)
 7     time.sleep(2)
 8     print(‘--done--‘)
 9 
10 def main():
11     for i in range(5):
12         t = threading.Thread(target=run,args=[i,])
13         t.start()
14         print(‘starting thread‘, t.getName())
15 
16 
17 m = threading.Thread(target=main,args=[])
18 m.setDaemon(True) #将主线程设置为Daemon线程,它退出时,其它子线程会同时退出,不管是否执行完任务
19 m.start()
20 print("---main thread done----")

 1 import time
 2 import threading
 3 
 4 def addNum():
 5     global num #在每个线程中都获取这个全局变量
 6     print(‘--get num:‘,num )
 7     time.sleep(1)
 8     num  -=1 #对此公共变量进行-1操作
 9 
10 num = 100  #设定一个共享变量
11 thread_list = []
12 for i in range(100):
13     t = threading.Thread(target=addNum)
14     t.start()
15     thread_list.append(t)
16 
17 for t in thread_list: #等待所有线程执行完毕
18     t.join()
19 
20 print(‘final num:‘, num )

 1 import time
 2 import threading
 3 
 4 def addNum():
 5     global num #在每个线程中都获取这个全局变量
 6     print(‘--get num:‘,num )
 7     time.sleep(1)
 8     lock.acquire() #修改数据前加锁
 9     num  -=1 #对此公共变量进行-1操作
10     lock.release() #修改后解锁
11 
12 num = 100  #设定一个共享变量
13 thread_list = []
14 lock = threading.Lock() #生成全局锁
15 for i in range(100):
16     t = threading.Thread(target=addNum)
17     t.start()
18     thread_list.append(t)
19 
20 for t in thread_list: #等待所有线程执行完毕
21     t.join()
22 
23 print(‘final num:‘, num )

 1 import threading,time
 2  
 3 def run1():
 4     print("grab the first part data")
 5     lock.acquire()
 6     global num
 7     num +=1
 8     lock.release()
 9     return num
10 def run2():
11     print("grab the second part data")
12     lock.acquire()
13     global  num2
14     num2+=1
15     lock.release()
16     return num2
17 def run3():
18     lock.acquire()
19     res = run1()
20     print(‘--------between run1 and run2-----‘)
21     res2 = run2()
22     lock.release()
23     print(res,res2)
24  
25  
26 if __name__ == ‘__main__‘:
27  
28     num,num2 = 0,0
29     lock = threading.RLock()
30     for i in range(10):
31         t = threading.Thread(target=run3)
32         t.start()
33  
34 while threading.active_count() != 1:
35     print(threading.active_count())
36 else:
37     print(‘----all threads done---‘)
38     print(num,num2)

 1 import threading,time
 2 
 3 def run(n):
 4     semaphore.acquire()
 5     time.sleep(1)
 6     print("run the thread: %s\n" %n)
 7     semaphore.release()
 8 
 9 if __name__ == ‘__main__‘:
10 
11     num= 0
12     semaphore  = threading.BoundedSemaphore(3) #最多允许3个线程同时运行
13     for i in range(20):
14         t = threading.Thread(target=run,args=(i,))
15         t.start()
16 
17 while threading.active_count() != 1:
18     pass #print threading.active_count()
19 else:
20     print(‘----all threads done---‘)
21     print(num)

 1 import threading,time
 2 import random
 3 def light():
 4     if not event.isSet():
 5         event.set() #wait就不阻塞 #绿灯状态
 6     count = 0
 7     while True:
 8         if count < 10:
 9             print(‘\033[42;1m--green light on---\033[0m‘)
10         elif count <13:
11             print(‘\033[43;1m--yellow light on---\033[0m‘)
12         elif count <20:
13             if event.isSet():
14                 event.clear()
15             print(‘\033[41;1m--red light on---\033[0m‘)
16         else:
17             count = 0
18             event.set() #打开绿灯
19         time.sleep(1)
20         count +=1
21 # def car1(n):
22 #     while 1:
23 #         time.sleep(random.randrange(10))  #随机几秒
24 #         if  event.isSet(): #绿灯
25 #             print("car [%s] is running.." % n)
26 #         else:
27 #             print("car [%s] is waiting for the red light.." %n)
28 
29 def car(n):  #无bug
30     while 1:
31         time.sleep(1)
32         if  event.isSet(): #绿灯
33             print("car [%s] is running.." % n)
34         else:
35             print("car [%s] is waiting for the red light.." %n)
36             event.wait()
37 
38 if __name__ == ‘__main__‘:
39     event = threading.Event()
40     Light = threading.Thread(target=light)
41     Light.start()
42     for i in range(3):
43         t = threading.Thread(target=car,args=(i,))
44         t.start()

 1 from multiprocessing import Process
 2 import time
 3 def f(name):
 4     time.sleep(2)
 5     print(‘hello‘,name)
 6 
 7 if __name__ == ‘__main__‘:
 8     p = Process(target=f,args=(‘bob‘,))
 9     p2 = Process(target=f,args=(‘bob‘,))
10     p.start()
11     p2.start()
12     p.join()
13     p2.join()

 1 from multiprocessing import Process
 2 import os
 3 
 4 def info(title):
 5     print(title)
 6     print(‘module name:‘, __name__)
 7     print(‘parent process:‘, os.getppid())
 8     print(‘process id:‘, os.getpid())
 9     print("\n")
10 
11 if __name__ == ‘__main__‘:
12     info(‘\033[32;1mmain process line\033[0m‘)
13     p = Process(target=info, args=(‘bob‘,))
14     p.start()
15     p.join()
16 
17 #显示结果
18 """
19 main process line
20 module name: __main__
21 parent process: 5228
22 process id: 6628
23 
24 
25 bob
26 module name: __mp_main__
27 parent process: 6628
28 process id: 6908
29 """

 1 from multiprocessing import Process, Queue
 2 
 3 def f(q):
 4     q.put([42, None, ‘hello‘])
 5 
 6 if __name__ == ‘__main__‘:
 7     q = Queue()  #queue队列，先进先出
 8     p = Process(target=f, args=(q,))
 9     p2 = Process(target=f, args=(q,))
10     p.start()
11     p2.start()
12     print(q.get())    # print "[42, None, ‘hello‘]"
13     print(q.get())    #先进先出
14     p.join()

 1 from multiprocessing import Process, Pipe
 2 
 3 def f(conn):
 4     conn.send([42, None, ‘hello‘])
 5     conn.close()
 6 
 7 if __name__ == ‘__main__‘:
 8     parent_conn, child_conn = Pipe()
 9     p = Process(target=f, args=(child_conn,))
10     p.start()
11     print(parent_conn.recv())   # print "[42, None, ‘hello‘]"
12     p.join()

 1 from multiprocessing import Process, Manager
 2 
 3 def f(d, l):
 4     d[1] = ‘1‘
 5     d[‘2‘] = 2
 6     d[0.25] = None
 7     l.append(1)
 8     print(l)
 9 
10 if __name__ == ‘__main__‘:
11     with Manager() as manager:
12         d = manager.dict()
13         l = manager.list(range(5))
14         p_list = []
15         for i in range(10):
16             p = Process(target=f, args=(d, l))
17             p.start()
18             p_list.append(p)
19         for res in p_list:
20             res.join()
21 
22         print(d)
23         print(l)

 1 from multiprocessing import Process, Lock
 2 
 3 def f(l, i):
 4     l.acquire()
 5     try:
 6         print(‘hello world‘, i)
 7     finally:
 8         l.release()
 9 
10 if __name__ == ‘__main__‘:
11     lock = Lock()
12 
13     for num in range(10):
14         Process(target=f, args=(lock, num)).start()

 1 from  multiprocessing import Process,Pool,freeze_support
 2 import time
 3 
 4 def Foo(i):
 5     time.sleep(2)
 6     return i+100
 7 
 8 def Bar(arg):
 9     print(‘-->exec done:‘,arg)
10 
11 
12 if __name__ == ‘__main__‘:
13     freeze_support()
14     pool = Pool(5)  #5个一起运行
15 
16     for i in range(10):
17         pool.apply_async(func=Foo, args=(i,),callback=Bar) #回调，执行完foo执行bar
18         #pool.apply(func=Foo, args=(i,))  #同步
19 
20     print(‘end‘)
21     pool.close()
22     pool.join()#进程池中进程执行完毕后再关闭，如果注释，那么程序直接关闭。