if len(str(args.start)) > 0: end_date = args.end duration_date = args.start if len(str(duration_date)) < 4: du_date = tdd.get_duration_Index_date('999999', dl=int(duration_date)) # print duration_date ct.PowerCountdl = duration_date set_duration_console(du_date) time_s = time.time() status = False top_all = pd.DataFrame() lastpTDX_DF = pd.DataFrame() elif st.startswith('w') or st.startswith('a'): args = cct.writeArgmain().parse_args(st.split()) codew = stf.WriteCountFilter(top_temp, duration=duration_date, writecount=args.dl) if args.code == 'a': cct.write_to_blocknew(block_path, codew) # sl.write_to_blocknew(all_diffpath, codew) else: cct.write_to_blocknew(block_path, codew, False) # sl.write_to_blocknew(all_diffpath, codew, False) print "wri ok:%s" % block_path cct.sleeprandom(ct.duration_sleep_time / 2) elif st.startswith('sh'): while 1: input = cct.cct_raw_input("code:") if len(input) >= 6: args = parser.parse_args(input.split()) if len(str(args.code)) == 6: # print args.code
# # print duration_date # ct.PowerCountdl = duration_date # set_duration_console(du_date) # time_s = time.time() # status = False # top_all = pd.DataFrame() # lastpTDX_DF = pd.DataFrame() elif st.lower() == 'g' or st.lower() == 'go': status = True elif st.lower() == 'clear' or st.lower() == 'c': top_all = pd.DataFrame() status = False elif st.startswith('w') or st.startswith('a'): args = cct.writeArgmain().parse_args(st.split()) codew = stf.WriteCountFilter(top_temp, writecount=args.dl) if args.code == 'a': cct.write_to_blocknew(block_path, codew) # cct.write_to_blocknew(all_diffpath,codew) else: cct.write_to_blocknew(block_path, codew, False) # cct.write_to_blocknew(all_diffpath,codew,False) print "wri ok:%s" % block_path cct.sleeprandom(ct.duration_sleep_time / 2) # cct.sleep(5) elif st.lower() == 'r': dir_mo = eval(cct.eval_rule) evalcmd(dir_mo) elif st.startswith('q') or st.startswith('e'): print "exit:%s" % (st)