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在task_master.py中修改如下:
- #!/user/bin/pytthon
- # -*- coding:utf-8 -*-
- # @Time: 2018/3/3 16:46
- # @Author: lichexo
- # @File: task_master.py
- # task_master.py
- import random,time,queue
- from multiprocessing.managers import BaseManager
- from multiprocessing import freeze_support
- task_queue = queue.Queue() # 发送任务的队列:
- result_queue = queue.Queue() # 接收结果的队列:
- class QueueManager(BaseManager): # 从BaseManager继承的QueueManager:
- pass
- # windows下运行
- def return_task_queue():
- global task_queue
- return task_queue # 返回发送任务队列
- def return_result_queue ():
- global result_queue
- return result_queue # 返回接收结果队列
- def test():
- # 把两个Queue都注册到网络上, callable参数关联了Queue对象,它们用来进行进程间通信,交换对象
- #QueueManager.register('get_task_queue', callable=lambda: task_queue)
- #QueueManager.register('get_result_queue', callable=lambda: result_queue)
- QueueManager.register('get_task_queue', callable=return_task_queue)
- QueueManager.register('get_result_queue', callable=return_result_queue)
- # 绑定端口5000, 设置验证码'abc':
- #manager = QueueManager(address=('', 5000), authkey=b'abc')
- # windows需要写ip地址
- manager = QueueManager(address=('127.0.0.1', 5000), authkey=b'abc')
- manager.start() # 启动Queue:
- # 获得通过网络访问的Queue对象:
- task = manager.get_task_queue()
- result = manager.get_result_queue()
- for i in range(10): # 放几个任务进去:
- n = random.randint(0, 10000)
- print('Put task %d...' % n)
- task.put(n)
- # 从result队列读取结果:
- print('Try get results...')
- for i in range(10):
- # 这里加了异常捕获
- try:
- r = result.get(timeout=5)
- print('Result: %s' % r)
- except queue.Empty:
- print('result queue is empty.')
- # 关闭:
- manager.shutdown()
- print('master exit.')
- if __name__=='__main__':
- freeze_support()
- print('start!')
- test()
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