Стратегия VoVix DEVMA

Эта стратегия анализирует волатильность через отклонение ATR и использует скользящие средние DEVMA для определения смены режимов. Сделки открываются при пересечении быстрый и медленной DEVMA, управление риском основано на ATR.

Детали

Критерии входа:
- Лонг: быстрый DEVMA пересекает сверху медленный.
- Шорт: быстрый DEVMA пересекает снизу медленный.
Длинные/короткие: обе стороны.
Критерии выхода:
- стоп-лосс и тейк-профит по ATR.
Стопы: да, множители ATR.
Значения по умолчанию:
- DeviationLookback = 59
- FastLength = 20
- SlowLength = 60
- ATR SL Mult = 2
- ATR TP Mult = 3
Фильтры:
- Категория: Следование тренду
- Направление: Обе
- Индикаторы: Несколько
- Стопы: Да
- Сложность: Сложная
- Таймфрейм: Среднесрочный
- Сезонность: Нет
- Нейросети: Нет
- Дивергенция: Нет
- Уровень риска: Средний

using System;
using System.Linq;
using System.Collections.Generic;

using Ecng.Common;
using Ecng.Collections;
using Ecng.Serialization;

using StockSharp.Algo.Indicators;
using StockSharp.Algo.Strategies;
using StockSharp.BusinessEntities;
using StockSharp.Messages;

namespace StockSharp.Samples.Strategies;

/// <summary>
/// VoVix DEVMA strategy.
/// Uses fast/slow StdDev deviation crossover as volatility regime shift signal.
/// Enters on deviation crossover, exits on percent TP/SL.
/// </summary>
public class VoVixDevmaStrategy : Strategy
{
	private readonly StrategyParam<int> _fastLength;
	private readonly StrategyParam<int> _slowLength;
	private readonly StrategyParam<decimal> _stopPct;
	private readonly StrategyParam<decimal> _tpMult;
	private readonly StrategyParam<DataType> _candleType;
	private readonly StrategyParam<int> _signalCooldownBars;
	private static readonly object _sync = new();

	private decimal _prevFastStd;
	private decimal _prevSlowStd;
	private decimal _entryPrice;
	private decimal _stopDist;
	private int _cooldownRemaining;

	public int FastLength { get => _fastLength.Value; set => _fastLength.Value = value; }
	public int SlowLength { get => _slowLength.Value; set => _slowLength.Value = value; }
	public decimal StopPct { get => _stopPct.Value; set => _stopPct.Value = value; }
	public decimal TpMult { get => _tpMult.Value; set => _tpMult.Value = value; }
	public DataType CandleType { get => _candleType.Value; set => _candleType.Value = value; }
	public int SignalCooldownBars { get => _signalCooldownBars.Value; set => _signalCooldownBars.Value = value; }

	public VoVixDevmaStrategy()
	{
		_fastLength = Param(nameof(FastLength), 10)
			.SetGreaterThanZero()
			.SetDisplay("Fast Length", "Fast StdDev period", "DEVMA");

		_slowLength = Param(nameof(SlowLength), 20)
			.SetGreaterThanZero()
			.SetDisplay("Slow Length", "Slow StdDev period", "DEVMA");

		_stopPct = Param(nameof(StopPct), 1m)
			.SetGreaterThanZero()
			.SetDisplay("Stop %", "Stop loss percent", "Risk");

		_tpMult = Param(nameof(TpMult), 2m)
			.SetGreaterThanZero()
			.SetDisplay("TP Mult", "Take profit as multiple of stop", "Risk");

		_candleType = Param(nameof(CandleType), TimeSpan.FromHours(1).TimeFrame())
			.SetDisplay("Candle Type", "Type of candles", "General");

		_signalCooldownBars = Param(nameof(SignalCooldownBars), 3)
			.SetNotNegative()
			.SetDisplay("Signal Cooldown", "Closed candles to wait before a new entry", "General");
	}

	public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities()
	{
		return [(Security, CandleType)];
	}

	protected override void OnReseted()
	{
		base.OnReseted();
		_prevFastStd = 0;
		_prevSlowStd = 0;
		_entryPrice = 0;
		_stopDist = 0;
		_cooldownRemaining = 0;
	}

	protected override void OnStarted2(DateTime time)
	{
		base.OnStarted2(time);

		var fastStd = new StandardDeviation { Length = FastLength };
		var slowStd = new StandardDeviation { Length = SlowLength };
		var ema = new ExponentialMovingAverage { Length = FastLength };

		_prevFastStd = 0;
		_prevSlowStd = 0;
		_entryPrice = 0;
		_stopDist = 0;

		var subscription = SubscribeCandles(CandleType);
		subscription.Bind(candle => ProcessCandle(candle, fastStd, slowStd, ema)).Start();

		var area = CreateChartArea();
		if (area != null)
		{
			DrawCandles(area, subscription);
			DrawIndicator(area, ema);
			DrawOwnTrades(area);
		}
	}

	private void ProcessCandle(ICandleMessage candle, StandardDeviation fastStd, StandardDeviation slowStd, ExponentialMovingAverage ema)
	{
		if (candle.State != CandleStates.Finished)
			return;

		lock (_sync)
		{
			var time = candle.OpenTime;
			var priceValue = new DecimalIndicatorValue(fastStd, candle.ClosePrice, time) { IsFinal = true };
			var fastStdValue = fastStd.Process(priceValue);
			var slowStdValue = slowStd.Process(new DecimalIndicatorValue(slowStd, candle.ClosePrice, time) { IsFinal = true });
			var emaValue = ema.Process(new DecimalIndicatorValue(ema, candle.ClosePrice, time) { IsFinal = true });
			if (!fastStdValue.IsFinal || !slowStdValue.IsFinal || !emaValue.IsFinal || !fastStd.IsFormed || !slowStd.IsFormed || !ema.IsFormed)
				return;

			if (_cooldownRemaining > 0)
				_cooldownRemaining--;

			var fastStdVal = fastStdValue.ToDecimal();
			var slowStdVal = slowStdValue.ToDecimal();
			var emaVal = emaValue.ToDecimal();

			if (Position > 0 && _entryPrice > 0 && _stopDist > 0)
			{
				if (candle.ClosePrice <= _entryPrice - _stopDist || candle.ClosePrice >= _entryPrice + _stopDist * TpMult)
				{
					SellMarket(Position);
					_entryPrice = 0m;
					_stopDist = 0m;
					_cooldownRemaining = SignalCooldownBars;
				}
			}
			else if (Position < 0 && _entryPrice > 0 && _stopDist > 0)
			{
				if (candle.ClosePrice >= _entryPrice + _stopDist || candle.ClosePrice <= _entryPrice - _stopDist * TpMult)
				{
					BuyMarket(-Position);
					_entryPrice = 0m;
					_stopDist = 0m;
					_cooldownRemaining = SignalCooldownBars;
				}
			}

			if (_prevFastStd == 0m || _prevSlowStd == 0m || fastStdVal <= 0m || slowStdVal <= 0m)
			{
				_prevFastStd = fastStdVal;
				_prevSlowStd = slowStdVal;
				return;
			}

			var volExpanding = fastStdVal > slowStdVal;
			var wasContracting = _prevFastStd <= _prevSlowStd;
			var bullCross = _cooldownRemaining == 0 && wasContracting && volExpanding && candle.ClosePrice > emaVal;
			var bearCross = _cooldownRemaining == 0 && wasContracting && volExpanding && candle.ClosePrice < emaVal;

			if (bullCross && Position <= 0)
			{
				BuyMarket(Volume + Math.Abs(Position));
				_entryPrice = candle.ClosePrice;
				_stopDist = candle.ClosePrice * StopPct / 100m;
				_cooldownRemaining = SignalCooldownBars;
			}
			else if (bearCross && Position >= 0)
			{
				SellMarket(Volume + Math.Abs(Position));
				_entryPrice = candle.ClosePrice;
				_stopDist = candle.ClosePrice * StopPct / 100m;
				_cooldownRemaining = SignalCooldownBars;
			}

			_prevFastStd = fastStdVal;
			_prevSlowStd = slowStdVal;
		}
	}
}

import clr

clr.AddReference("StockSharp.Messages")
clr.AddReference("StockSharp.Algo")
clr.AddReference("StockSharp.Algo.Indicators")
clr.AddReference("StockSharp.Algo.Strategies")

from System import TimeSpan, Math
from StockSharp.Messages import DataType, CandleStates
from StockSharp.Algo.Indicators import ExponentialMovingAverage, StandardDeviation
from StockSharp.Algo.Strategies import Strategy
from indicator_extensions import *

class vo_vix_devma_strategy(Strategy):
    def __init__(self):
        super(vo_vix_devma_strategy, self).__init__()
        self._fast_length = self.Param("FastLength", 10) \
            .SetDisplay("Fast Length", "Fast StdDev period", "DEVMA")
        self._slow_length = self.Param("SlowLength", 20) \
            .SetDisplay("Slow Length", "Slow StdDev period", "DEVMA")
        self._stop_pct = self.Param("StopPct", 1.0) \
            .SetDisplay("Stop %", "Stop loss percent", "Risk")
        self._tp_mult = self.Param("TpMult", 2.0) \
            .SetDisplay("TP Mult", "Take profit as multiple of stop", "Risk")
        self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromHours(1))) \
            .SetDisplay("Candle Type", "Type of candles", "General")
        self._signal_cooldown_bars = self.Param("SignalCooldownBars", 3) \
            .SetDisplay("Signal Cooldown", "Closed candles to wait before a new entry", "General")
        self._prev_fast_std = 0.0
        self._prev_slow_std = 0.0
        self._entry_price = 0.0
        self._stop_dist = 0.0
        self._cooldown_remaining = 0
        self._fast_std = None
        self._slow_std = None
        self._ema = None

    @property
    def fast_length(self):
        return self._fast_length.Value

    @property
    def slow_length(self):
        return self._slow_length.Value

    @property
    def stop_pct(self):
        return self._stop_pct.Value

    @property
    def tp_mult(self):
        return self._tp_mult.Value

    @property
    def candle_type(self):
        return self._candle_type.Value

    @property
    def signal_cooldown_bars(self):
        return self._signal_cooldown_bars.Value

    def OnReseted(self):
        super(vo_vix_devma_strategy, self).OnReseted()
        self._prev_fast_std = 0.0
        self._prev_slow_std = 0.0
        self._entry_price = 0.0
        self._stop_dist = 0.0
        self._cooldown_remaining = 0

    def OnStarted2(self, time):
        super(vo_vix_devma_strategy, self).OnStarted2(time)
        self._fast_std = StandardDeviation()
        self._fast_std.Length = self.fast_length
        self._slow_std = StandardDeviation()
        self._slow_std.Length = self.slow_length
        self._ema = ExponentialMovingAverage()
        self._ema.Length = self.fast_length
        self._prev_fast_std = 0.0
        self._prev_slow_std = 0.0
        self._entry_price = 0.0
        self._stop_dist = 0.0
        self._cooldown_remaining = 0
        subscription = self.SubscribeCandles(self.candle_type)
        subscription.Bind(self.on_process).Start()
        area = self.CreateChartArea()
        if area is not None:
            self.DrawCandles(area, subscription)
            self.DrawIndicator(area, self._ema)
            self.DrawOwnTrades(area)

    def on_process(self, candle):
        if candle.State != CandleStates.Finished:
            return
        t = candle.OpenTime
        fast_std_value = process_float(self._fast_std, candle.ClosePrice, t, True)
        slow_std_value = process_float(self._slow_std, candle.ClosePrice, t, True)
        ema_value = process_float(self._ema, candle.ClosePrice, t, True)
        if not fast_std_value.IsFinal or not slow_std_value.IsFinal or not ema_value.IsFinal:
            return
        if not self._fast_std.IsFormed or not self._slow_std.IsFormed or not self._ema.IsFormed:
            return
        if self._cooldown_remaining > 0:
            self._cooldown_remaining -= 1
        fast_std_val = float(fast_std_value)
        slow_std_val = float(slow_std_value)
        ema_val = float(ema_value)
        close = float(candle.ClosePrice)
        if self.Position > 0 and self._entry_price > 0 and self._stop_dist > 0:
            if close <= self._entry_price - self._stop_dist or close >= self._entry_price + self._stop_dist * float(self.tp_mult):
                self.SellMarket(self.Position)
                self._entry_price = 0.0
                self._stop_dist = 0.0
                self._cooldown_remaining = self.signal_cooldown_bars
        elif self.Position < 0 and self._entry_price > 0 and self._stop_dist > 0:
            if close >= self._entry_price + self._stop_dist or close <= self._entry_price - self._stop_dist * float(self.tp_mult):
                self.BuyMarket(-self.Position)
                self._entry_price = 0.0
                self._stop_dist = 0.0
                self._cooldown_remaining = self.signal_cooldown_bars
        if self._prev_fast_std == 0 or self._prev_slow_std == 0 or fast_std_val <= 0 or slow_std_val <= 0:
            self._prev_fast_std = fast_std_val
            self._prev_slow_std = slow_std_val
            return
        vol_expanding = fast_std_val > slow_std_val
        was_contracting = self._prev_fast_std <= self._prev_slow_std
        bull_cross = self._cooldown_remaining == 0 and was_contracting and vol_expanding and close > ema_val
        bear_cross = self._cooldown_remaining == 0 and was_contracting and vol_expanding and close < ema_val
        if bull_cross and self.Position <= 0:
            self.BuyMarket(self.Volume + Math.Abs(self.Position))
            self._entry_price = close
            self._stop_dist = close * float(self.stop_pct) / 100.0
            self._cooldown_remaining = self.signal_cooldown_bars
        elif bear_cross and self.Position >= 0:
            self.SellMarket(self.Volume + Math.Abs(self.Position))
            self._entry_price = close
            self._stop_dist = close * float(self.stop_pct) / 100.0
            self._cooldown_remaining = self.signal_cooldown_bars
        self._prev_fast_std = fast_std_val
        self._prev_slow_std = slow_std_val

    def CreateClone(self):
        return vo_vix_devma_strategy()