def load_cryptowat_short(): i = 0 while i < 1000: time.sleep(1) get_ohlc(300, 1) i += 1 print(i)
def load_cryptowat_lostcheck(): i = 0 s = "" t = 0 while True: res, allo = get_ohlc(300, 1) # res = "1" t += 1 if len(res) == 1 else 0 i += 1 os.system('clear') if i % 10 == 0: s += "A" if t == 10 else str(t) t = 0 if i % 200 == 0: s += "\n" print(s + str(t)) rema = allo["remaining"] print(f"{rema}/4000000000") time.sleep(10)
def sell_judge(self, margin=0): if tconf.cycle_debug: return True data, _ = get_ohlc(self.size_candle, self.size, self.market, self.pair) return sell_judge_snake(data, self.size, margin=margin, entry_min=self.minsize)[0]
def sell_judge(self, size=tconf.cbs_size, margin=0): if tconf.cycle_debug: return True data, _ = get_ohlc(tconf.size_candle, size) return sell_judge_channelbreakout(data, margin)
def get_price_data(): return get_ohlc(period, 1000)
def get_recent_data(): print(market, pair) data, _ = get_ohlc(candle, 100000, market, pair) return data
def load_cryptowat(): for _ in range(10): time.sleep(0.5) res, _ = get_ohlc(300, 1) print(res) print(len(res))
def get_price_data(): data, _ = get_ohlc(tconf.size_candle, 1000) return data