def __init__(self, fast_window: int, slow_window: int): """""" super().__init__() self.fast_window = fast_window self.slow_window = slow_window self.bg = BarGenerator(self.on_bar, 5, self.on_5min_bar) self.am = ArrayManager()
def __init__(self, cci_window: int, cci_level: float): """""" super().__init__() self.cci_window = cci_window self.cci_level = cci_level self.cci_long = self.cci_level self.cci_short = -self.cci_level self.bg = BarGenerator(self.on_bar) self.am = ArrayManager()
def __init__(self, rsi_window: int, rsi_level: float): """Constructor""" super().__init__() self.rsi_window = rsi_window self.rsi_level = rsi_level self.rsi_long = 50 + self.rsi_level self.rsi_short = 50 - self.rsi_level self.bg = BarGenerator(self.on_bar) self.am = ArrayManager()
def __init__(self, cta_engine, strategy_name, vt_symbol, setting): """""" super().__init__(cta_engine, strategy_name, vt_symbol, setting) self.rsi_long = 50 + self.rsi_signal self.rsi_short = 50 - self.rsi_signal self.bg5 = BarGenerator(self.on_bar, 5, self.on_5min_bar) self.am5 = ArrayManager() self.bg15 = BarGenerator(self.on_bar, 15, self.on_15min_bar) self.am15 = ArrayManager()
def __init__(self, cta_engine, strategy_name, vt_symbol, setting): """""" super().__init__(cta_engine, strategy_name, vt_symbol, setting) self.bg = BarGenerator(self.on_bar) self.am = ArrayManager() self.bars = []
class MaSignal(CtaSignal): """""" def __init__(self, fast_window: int, slow_window: int): """""" super().__init__() self.fast_window = fast_window self.slow_window = slow_window self.bg = BarGenerator(self.on_bar, 5, self.on_5min_bar) self.am = ArrayManager() def on_tick(self, tick: TickData): """ Callback of new tick data update. """ self.bg.update_tick(tick) def on_bar(self, bar: BarData): """ Callback of new bar data update. """ self.bg.update_bar(bar) def on_5min_bar(self, bar: BarData): """""" self.am.update_bar(bar) if not self.am.inited: self.set_signal_pos(0) close = pd.Series(self.am.close_array) fast_ma = ta.sma(close, self.fast_window).iloc[-1] slow_ma = ta.sma(close, self.slow_window).iloc[-1] if fast_ma > slow_ma: self.set_signal_pos(1) elif fast_ma < slow_ma: self.set_signal_pos(-1) else: self.set_signal_pos(0)
class CciSignal(CtaSignal): """""" def __init__(self, cci_window: int, cci_level: float): """""" super().__init__() self.cci_window = cci_window self.cci_level = cci_level self.cci_long = self.cci_level self.cci_short = -self.cci_level self.bg = BarGenerator(self.on_bar) self.am = ArrayManager() def on_tick(self, tick: TickData): """ Callback of new tick data update. """ self.bg.update_tick(tick) def on_bar(self, bar: BarData): """ Callback of new bar data update. """ self.am.update_bar(bar) if not self.am.inited: self.set_signal_pos(0) close = pd.Series(self.am.close_array) high = pd.Series(self.am.high_array) low = pd.Series(self.am.low_array) cci_value = ta.cci(high, low, close, self.cci_window).iloc[-1] if cci_value >= self.cci_long: self.set_signal_pos(1) elif cci_value <= self.cci_short: self.set_signal_pos(-1) else: self.set_signal_pos(0)
class RsiSignal(CtaSignal): """""" def __init__(self, rsi_window: int, rsi_level: float): """Constructor""" super().__init__() self.rsi_window = rsi_window self.rsi_level = rsi_level self.rsi_long = 50 + self.rsi_level self.rsi_short = 50 - self.rsi_level self.bg = BarGenerator(self.on_bar) self.am = ArrayManager() def on_tick(self, tick: TickData): """ Callback of new tick data update. """ self.bg.update_tick(tick) def on_bar(self, bar: BarData): """ Callback of new bar data update. """ self.am.update_bar(bar) if not self.am.inited: self.set_signal_pos(0) close = pd.Series(self.am.close_array) rsi_value = ta.rsi(close, self.rsi_window).iloc[-1] if rsi_value >= self.rsi_long: self.set_signal_pos(1) elif rsi_value <= self.rsi_short: self.set_signal_pos(-1) else: self.set_signal_pos(0)
class MultiTimeframeStrategy(CtaTemplate): """""" author = "用Python的交易员" rsi_signal = 20 rsi_window = 14 fast_window = 5 slow_window = 20 fixed_size = 1 rsi_value = 0 rsi_long = 0 rsi_short = 0 fast_ma = 0 slow_ma = 0 ma_trend = 0 parameters = [ "rsi_signal", "rsi_window", "fast_window", "slow_window", "fixed_size" ] variables = [ "rsi_value", "rsi_long", "rsi_short", "fast_ma", "slow_ma", "ma_trend" ] def __init__(self, cta_engine, strategy_name, vt_symbol, setting): """""" super().__init__(cta_engine, strategy_name, vt_symbol, setting) self.rsi_long = 50 + self.rsi_signal self.rsi_short = 50 - self.rsi_signal self.bg5 = BarGenerator(self.on_bar, 5, self.on_5min_bar) self.am5 = ArrayManager() self.bg15 = BarGenerator(self.on_bar, 15, self.on_15min_bar) self.am15 = ArrayManager() def on_init(self): """ Callback when strategy is inited. """ self.write_log("策略初始化") self.load_bar(10) def on_start(self): """ Callback when strategy is started. """ self.write_log("策略启动") def on_stop(self): """ Callback when strategy is stopped. """ self.write_log("策略停止") def on_tick(self, tick: TickData): """ Callback of new tick data update. """ self.bg5.update_tick(tick) def on_bar(self, bar: BarData): """ Callback of new bar data update. """ self.bg5.update_bar(bar) self.bg15.update_bar(bar) def on_5min_bar(self, bar: BarData): """""" self.cancel_all() self.am5.update_bar(bar) if not self.am5.inited: return if not self.ma_trend: return close_5 = pd.Series(self.am5.close_array) self.rsi_value = ta.rsi(close_5, self.rsi_window).iloc[-1] if self.pos == 0: if self.ma_trend > 0 and self.rsi_value >= self.rsi_long: self.buy(bar.close_price + 5, self.fixed_size) elif self.ma_trend < 0 and self.rsi_value <= self.rsi_short: self.short(bar.close_price - 5, self.fixed_size) elif self.pos > 0: if self.ma_trend < 0 or self.rsi_value < 50: self.sell(bar.close_price - 5, abs(self.pos)) elif self.pos < 0: if self.ma_trend > 0 or self.rsi_value > 50: self.cover(bar.close_price + 5, abs(self.pos)) self.put_event() def on_15min_bar(self, bar: BarData): """""" self.am15.update_bar(bar) if not self.am15.inited: return close_15 = pd.Series(self.am15.close_array) self.fast_ma = ta.sma(close_15, self.fast_window).iloc[-1] self.slow_ma = ta.sma(close_15, self.slow_window).iloc[-1] if self.fast_ma > self.slow_ma: self.ma_trend = 1 else: self.ma_trend = -1 def on_order(self, order: OrderData): """ Callback of new order data update. """ pass def on_trade(self, trade: TradeData): """ Callback of new trade data update. """ self.put_event() def on_stop_order(self, stop_order: StopOrder): """ Callback of stop order update. """ pass
class TurtleSignalStrategy(CtaTemplate): """""" author = "用Python的交易员" entry_window = 20 exit_window = 10 atr_window = 20 fixed_size = 1 entry_up = 0 entry_down = 0 exit_up = 0 exit_down = 0 atr_value = 0 long_entry = 0 short_entry = 0 long_stop = 0 short_stop = 0 parameters = ["entry_window", "exit_window", "atr_window", "fixed_size"] variables = ["entry_up", "entry_down", "exit_up", "exit_down", "atr_value"] def __init__(self, cta_engine, strategy_name, vt_symbol, setting): """""" super().__init__(cta_engine, strategy_name, vt_symbol, setting) self.bg = BarGenerator(self.on_bar) self.am = ArrayManager() def on_init(self): """ Callback when strategy is inited. """ self.write_log("策略初始化") self.load_bar(20) def on_start(self): """ Callback when strategy is started. """ self.write_log("策略启动") def on_stop(self): """ Callback when strategy is stopped. """ self.write_log("策略停止") def on_tick(self, tick: TickData): """ Callback of new tick data update. """ self.bg.update_tick(tick) def on_bar(self, bar: BarData): """ Callback of new bar data update. """ self.cancel_all() self.am.update_bar(bar) if not self.am.inited: return high = pd.Series(self.am.high_array) low = pd.Series(self.am.low_array) close = pd.Series(self.am.close_array) if not self.pos: self.entry_up, self.entry_down = high.rolling( self.entry_window).max().iloc[-1], low.rolling( self.entry_window).min().iloc[-1] self.exit_up, self.exit_down = high.rolling(self.exit_window).max().iloc[-1], \ low.rolling(self.entry_window).min().iloc[-1] if not self.pos: self.atr_value = ta.atr( high, low, close, self.atr_window).iloc[-1] # self.am.atr(self.atr_window) self.long_entry = 0 self.short_entry = 0 self.long_stop = 0 self.short_stop = 0 self.send_buy_orders(self.entry_up) self.send_short_orders(self.entry_down) elif self.pos > 0: self.send_buy_orders(self.entry_up) sell_price = max(self.long_stop, self.exit_down) self.sell(sell_price, abs(self.pos), True) elif self.pos < 0: self.send_short_orders(self.entry_down) cover_price = min(self.short_stop, self.exit_up) self.cover(cover_price, abs(self.pos), True) self.put_event() def on_trade(self, trade: TradeData): """ Callback of new trade data update. """ if trade.direction == Direction.LONG: self.long_entry = trade.price self.long_stop = self.long_entry - 2 * self.atr_value else: self.short_entry = trade.price self.short_stop = self.short_entry + 2 * self.atr_value def on_order(self, order: OrderData): """ Callback of new order data update. """ pass def on_stop_order(self, stop_order: StopOrder): """ Callback of stop order update. """ pass def send_buy_orders(self, price): """""" t = self.pos / self.fixed_size if t < 1: self.buy(price, self.fixed_size, True) if t < 2: self.buy(price + self.atr_value * 0.5, self.fixed_size, True) if t < 3: self.buy(price + self.atr_value, self.fixed_size, True) if t < 4: self.buy(price + self.atr_value * 1.5, self.fixed_size, True) def send_short_orders(self, price): """""" t = self.pos / self.fixed_size if t > -1: self.short(price, self.fixed_size, True) if t > -2: self.short(price - self.atr_value * 0.5, self.fixed_size, True) if t > -3: self.short(price - self.atr_value, self.fixed_size, True) if t > -4: self.short(price - self.atr_value * 1.5, self.fixed_size, True)