cct.sleep(ct.sleep_time) elif int_time < 930: cct.sleep((930 - int_time) * 55) # top_all = pd.DataFrame() time_s = time.time() else: cct.sleep(ct.duration_sleep_time) elif cct.get_work_duration(): while 1: cct.sleep(ct.duration_sleep_time) if cct.get_work_duration(): print ".", cct.sleep(ct.duration_sleep_time) else: # top_all = pd.DataFrame() cct.sleeprandom(60) time_s = time.time() print "." break else: raise KeyboardInterrupt("StopTime") except (KeyboardInterrupt) as e: # try: # st = cct.cct_raw_input(status # except (KeyboardInterrupt) as e: # st = '' # pass st = cct.cct_raw_input(ct.RawMenuArgmain() % (market_sort_value)) if len(st) == 0: status = False
ave=ave) code = num_input # int_time = cct.get_now_time_int() # if cct.get_work_time(): # if 930 < int_time < 1000: # cct.sleep(45) # else: # cct.sleep(ct.duration_sleep_time) int_time = cct.get_now_time_int() if cct.get_work_time(): log.debug('into get_work_time:%s' % (int_time)) if 915 < int_time < 926: while 1: cct.sleeprandom(15) break elif int_time < 930: while 1: cct.sleep(60) if cct.get_now_time_int() < 931: cct.sleep(60) print ".", else: # cct.sleep(random.randint(0, 30)) # print "." fibcount = 0 break else: cct.sleep(60) elif cct.get_work_duration():