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():
