线程queue用法
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import queue
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q = queue.Queue() 队列 先进先出
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q = queue.LifoQueue() #堆栈 先进后出
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q = queue.PriorityQueue() # 可以根据优先级取数据
线程定时器
- 导入
- from threading import Thread,Timer
- 使用
- t = Timer(4,task) #过了4秒开启了一个线程
socket 多线程
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服务端
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import socket from threading import Thread def task(conn): while True: try: msg = conn.recv(1024) if len(msg) == 0:break conn.send(msg.upper()) except Exception: print("客户端关闭了一个链接") break def run(): while True: s = socket.socket(socket.AF_INET,socket.SOCK_STREAM) s.bind(('127.0.0.1',8020)) s.listen(5) while True: conn,addr = s.accept() t = Thread(target=task,args=(conn,)) t.start() if __name__ == '__main__': run()
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客户端
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import socket from threading import Thread,currentThread def run(): s = socket.socket() s.connect(('127.0.0.1',8020)) while True: msg = f"{currentThread().name}" if len(msg) == 0:continue s.send(msg.encode('utf-8')) Msg = s.recv(1024) print(Msg.decode()) if __name__ == '__main__': for i in range(20): t = Thread(target=run) t.start()
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进程池与线程池
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进程池代码
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from concurrent.futures import ProcessPoolExecutor from multiprocessing import current_process import time """ 进程池 """ def task(i): print(f"线程:{current_process().name} 正在执行任务:{i}") time.sleep(1) return i ** 2 def parse(res): print(res.result()) if __name__ == '__main__': pool = ProcessPoolExecutor(4) #定义线程池大小 for i in range(20): res = pool.submit(task,i) res.add_done_callback(parse)
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线程池代码
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from concurrent.futures import ThreadPoolExecutor from threading import currentThread import time """ 线程池 """ def task(i): # currentThread().name 代表取出线程名字 名字由初始函数构造,可自行更改 f"{currentThread().name} 在执行任务{i}" time.sleep(1) return i ** 2 if __name__ == '__main__': # pool = ThreadPoolExecutor(4) 定义线程池大小 pool = ThreadPoolExecutor(4) fu_list = [] for i in range(20): #future = pool.submit(task,i) 提交执行函数和参数到线程池 future = pool.submit(task, i) fu_list.append(future) #pool.shutdown() # 关闭了池的入口,会等待所有的任务执行完,结束阻塞 pool.shutdown() for fu in fu_list: #print(fu.result()) 打印返回值 print(fu.result())
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