import queue
import threading
import time
import pdb
class WorkManager(object):
def __init__(self, work_num=1000,thread_num=2):
self.work_queue = queue.Queue()
self.threads = []
self.__init_work_queue(work_num)
self.__init_thread_pool(thread_num)
"""
初始化线程
"""
def __init_thread_pool(self,thread_num):
for i in range(thread_num):
self.threads.append(Work(self.work_queue))
"""
初始化工作队列
"""
def __init_work_queue(self, jobs_num):
for i in range(jobs_num):
self.add_job(do_job, i)
"""
添加一项工作入队
"""
def add_job(self, func, *args):
self.work_queue.put((func, list(args)))#任务入队,Queue内部实现了同步机制
"""
等待所有线程运行完毕
"""
def wait_allcomplete(self):
for item in self.threads:
if item.isAlive():
item.join()
class Work(threading.Thread):
def __init__(self, work_queue):
threading.Thread.__init__(self)
self.work_queue = work_queue
self.start()
def run(self):
#死循环,从而让创建的线程在一定条件下关闭退出
while True:
try:
#do, args = self.work_queue.get(block=False)#任务异步出队,Queue内部实现了同步机制
func,args = self.work_queue.get(block=False)
#pdb.set_trace()
try:
func(args)
except Exception as e:
print('b')
raise ('bad execution: %s'%str(e))
#do(args)
self.work_queue.task_done()#通知系统任务完成
except Exception as l:
#pdb.set_trace()
print('a')
print(str(l))
break
#具体要做的任务
def do_job(args):
pdb.set_trace()
time.sleep(0.1)#模拟处理时间
print ('\n111%s, %s'%(threading.current_thread(), list(args)))
if __name__ == '__main__':
start = time.time()
work_manager = WorkManager(10, 1)#或者work_manager = WorkManager(10000, 20)
work_manager.wait_allcomplete()
end = time.time()
print ("cost all time: %s" % (end-start))
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