Стратегия валютного значения PPP

using System;
using System.Collections.Generic;

using Ecng.Common;

using StockSharp.Algo.Indicators;
using StockSharp.Algo.Strategies;
using StockSharp.BusinessEntities;
using StockSharp.Configuration;
using StockSharp.Messages;

namespace StockSharp.Samples.Strategies;

/// <summary>
/// Currency PPP value strategy that trades the primary instrument when its synthetic PPP deviation becomes extreme relative to a benchmark currency.
/// </summary>
public class CurrencyPppValueStrategy : Strategy
{
	private readonly StrategyParam<string> _security2Id;
	private readonly StrategyParam<int> _pppLength;
	private readonly StrategyParam<int> _lookbackPeriod;
	private readonly StrategyParam<decimal> _entryThreshold;
	private readonly StrategyParam<decimal> _exitThreshold;
	private readonly StrategyParam<int> _cooldownBars;
	private readonly StrategyParam<decimal> _stopLoss;
	private readonly StrategyParam<DataType> _candleType;

	private Security _benchmark = null!;
	private ExponentialMovingAverage _primaryPpp = null!;
	private ExponentialMovingAverage _benchmarkPpp = null!;
	private SimpleMovingAverage _spreadAverage = null!;
	private StandardDeviation _spreadDeviation = null!;
	private decimal _latestPrimaryDeviation;
	private decimal _latestBenchmarkDeviation;
	private decimal? _previousZScore;
	private bool _primaryUpdated;
	private bool _benchmarkUpdated;
	private int _cooldownRemaining;

	/// <summary>
	/// Benchmark currency identifier.
	/// </summary>
	public string Security2Id
	{
		get => _security2Id.Value;
		set => _security2Id.Value = value;
	}

	/// <summary>
	/// Smoothing length for the synthetic PPP anchor.
	/// </summary>
	public int PppLength
	{
		get => _pppLength.Value;
		set => _pppLength.Value = value;
	}

	/// <summary>
	/// Lookback period used to normalize the deviation spread.
	/// </summary>
	public int LookbackPeriod
	{
		get => _lookbackPeriod.Value;
		set => _lookbackPeriod.Value = value;
	}

	/// <summary>
	/// Z-score threshold required to open a position.
	/// </summary>
	public decimal EntryThreshold
	{
		get => _entryThreshold.Value;
		set => _entryThreshold.Value = value;
	}

	/// <summary>
	/// Z-score threshold required to close a position.
	/// </summary>
	public decimal ExitThreshold
	{
		get => _exitThreshold.Value;
		set => _exitThreshold.Value = value;
	}

	/// <summary>
	/// Closed candles to wait before another position change.
	/// </summary>
	public int CooldownBars
	{
		get => _cooldownBars.Value;
		set => _cooldownBars.Value = value;
	}

	/// <summary>
	/// Stop loss percentage.
	/// </summary>
	public decimal StopLoss
	{
		get => _stopLoss.Value;
		set => _stopLoss.Value = value;
	}

	/// <summary>
	/// Candle type used for both instruments.
	/// </summary>
	public DataType CandleType
	{
		get => _candleType.Value;
		set => _candleType.Value = value;
	}

	/// <summary>
	/// Constructor.
	/// </summary>
	public CurrencyPppValueStrategy()
	{
		_security2Id = Param(nameof(Security2Id), Paths.HistoryDefaultSecurity2)
			.SetDisplay("Benchmark Security Id", "Identifier of the benchmark currency security", "General");

		_pppLength = Param(nameof(PppLength), 14)
			.SetRange(2, 80)
			.SetDisplay("PPP Length", "Smoothing length for the synthetic PPP anchor", "Indicators");

		_lookbackPeriod = Param(nameof(LookbackPeriod), 24)
			.SetRange(5, 120)
			.SetDisplay("Lookback Period", "Lookback period used to normalize the deviation spread", "Indicators");

		_entryThreshold = Param(nameof(EntryThreshold), 1.25m)
			.SetRange(0.2m, 5m)
			.SetDisplay("Entry Threshold", "Z-score threshold required to open a position", "Signals");

		_exitThreshold = Param(nameof(ExitThreshold), 0.3m)
			.SetRange(0m, 2m)
			.SetDisplay("Exit Threshold", "Z-score threshold required to close a position", "Signals");

		_cooldownBars = Param(nameof(CooldownBars), 8)
			.SetRange(0, 120)
			.SetDisplay("Cooldown Bars", "Closed candles to wait before another position change", "Risk");

		_stopLoss = Param(nameof(StopLoss), 2.5m)
			.SetRange(0.5m, 10m)
			.SetDisplay("Stop Loss %", "Stop loss percentage", "Risk");

		_candleType = Param(nameof(CandleType), TimeSpan.FromHours(4).TimeFrame())
			.SetDisplay("Candle Type", "Time frame of candles", "General");
	}

	/// <inheritdoc />
	public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities()
	{
		if (Security != null)
			yield return (Security, CandleType);

		if (!Security2Id.IsEmpty())
			yield return (new Security { Id = Security2Id }, CandleType);
	}

	/// <inheritdoc />
	protected override void OnReseted()
	{
		base.OnReseted();

		_benchmark = null!;
		_primaryPpp = null!;
		_benchmarkPpp = null!;
		_spreadAverage = null!;
		_spreadDeviation = null!;
		_latestPrimaryDeviation = 0m;
		_latestBenchmarkDeviation = 0m;
		_previousZScore = null;
		_primaryUpdated = false;
		_benchmarkUpdated = false;
		_cooldownRemaining = 0;
	}

	/// <inheritdoc />
	protected override void OnStarted2(DateTime time)
	{
		base.OnStarted2(time);

		if (Security == null)
			throw new InvalidOperationException("Primary currency security is not specified.");

		if (Security2Id.IsEmpty())
			throw new InvalidOperationException("Benchmark currency identifier is not specified.");

		_benchmark = this.LookupById(Security2Id) ?? new Security { Id = Security2Id };
		_primaryPpp = new ExponentialMovingAverage { Length = PppLength };
		_benchmarkPpp = new ExponentialMovingAverage { Length = PppLength };
		_spreadAverage = new SimpleMovingAverage { Length = LookbackPeriod };
		_spreadDeviation = new StandardDeviation { Length = LookbackPeriod };

		var primarySubscription = SubscribeCandles(CandleType, security: Security);
		var benchmarkSubscription = SubscribeCandles(CandleType, security: _benchmark);

		primarySubscription
			.Bind(ProcessPrimaryCandle)
			.Start();

		benchmarkSubscription
			.Bind(ProcessBenchmarkCandle)
			.Start();

		var area = CreateChartArea();
		if (area != null)
		{
			DrawCandles(area, primarySubscription);
			DrawCandles(area, benchmarkSubscription);
			DrawOwnTrades(area);
		}

		StartProtection(
			new Unit(2, UnitTypes.Percent),
			new Unit(StopLoss, UnitTypes.Percent));
	}

	private void ProcessPrimaryCandle(ICandleMessage candle)
	{
		if (candle.State != CandleStates.Finished)
			return;

		_latestPrimaryDeviation = UpdateDeviation(_primaryPpp, candle);
		_primaryUpdated = true;
		TryProcessSpread(candle.OpenTime);
	}

	private void ProcessBenchmarkCandle(ICandleMessage candle)
	{
		if (candle.State != CandleStates.Finished)
			return;

		_latestBenchmarkDeviation = UpdateDeviation(_benchmarkPpp, candle);
		_benchmarkUpdated = true;
		TryProcessSpread(candle.OpenTime);
	}

	private decimal UpdateDeviation(ExponentialMovingAverage average, ICandleMessage candle)
	{
		var syntheticPpp = CalculateSyntheticPpp(candle);
		var pppAnchor = average.Process(syntheticPpp, candle.OpenTime, true).ToDecimal();

		return (candle.ClosePrice - pppAnchor) / Math.Max(pppAnchor, 1m);
	}

	private decimal CalculateSyntheticPpp(ICandleMessage candle)
	{
		var priceBase = Math.Max(candle.OpenPrice, 1m);
		var range = Math.Max(candle.HighPrice - candle.LowPrice, Security?.PriceStep ?? 1m);
		var purchasingPowerAnchor = (candle.OpenPrice + candle.LowPrice + candle.ClosePrice) / 3m;
		var inflationPenalty = priceBase * Math.Min(0.12m, range / priceBase);

		return purchasingPowerAnchor - inflationPenalty;
	}

	private void TryProcessSpread(DateTime time)
	{
		if (!_primaryUpdated || !_benchmarkUpdated)
			return;

		_primaryUpdated = false;
		_benchmarkUpdated = false;

		var spread = _latestPrimaryDeviation - _latestBenchmarkDeviation;
		var mean = _spreadAverage.Process(spread, time, true).ToDecimal();
		var deviation = _spreadDeviation.Process(spread, time, true).ToDecimal();

		if (!_spreadAverage.IsFormed || !_spreadDeviation.IsFormed || deviation <= 0m)
			return;

		if (!IsFormedAndOnlineAndAllowTrading())
			return;

		if (_cooldownRemaining > 0)
			_cooldownRemaining--;

		var zScore = (spread - mean) / deviation;
		var bullishEntry = _previousZScore is decimal previousBullish && previousBullish > -EntryThreshold && zScore <= -EntryThreshold;
		var bearishEntry = _previousZScore is decimal previousBearish && previousBearish < EntryThreshold && zScore >= EntryThreshold;

		if (_cooldownRemaining == 0 && Position == 0)
		{
			if (bullishEntry)
			{
				BuyMarket();
				_cooldownRemaining = CooldownBars;
			}
			else if (bearishEntry)
			{
				SellMarket();
				_cooldownRemaining = CooldownBars;
			}
		}
		else if (Position > 0 && zScore >= -ExitThreshold)
		{
			SellMarket(Position);
			_cooldownRemaining = CooldownBars;
		}
		else if (Position < 0 && zScore <= ExitThreshold)
		{
			BuyMarket(Math.Abs(Position));
			_cooldownRemaining = CooldownBars;
		}

		_previousZScore = zScore;
	}
}

import clr

clr.AddReference("StockSharp.Messages")
clr.AddReference("StockSharp.Algo")
clr.AddReference("StockSharp.BusinessEntities")
clr.AddReference("StockSharp.Algo.Indicators")
clr.AddReference("StockSharp.Algo.Strategies")

from System import TimeSpan, Math
from StockSharp.Messages import DataType, CandleStates, Unit, UnitTypes
from StockSharp.Algo.Indicators import ExponentialMovingAverage, SimpleMovingAverage, StandardDeviation
from StockSharp.Algo.Strategies import Strategy
from StockSharp.BusinessEntities import Security
from indicator_extensions import *

class currency_ppp_value_strategy(Strategy):
    """Currency PPP value strategy that trades the primary instrument when its synthetic PPP deviation becomes extreme relative to a benchmark currency."""

    def __init__(self):
        super(currency_ppp_value_strategy, self).__init__()

        self._security2_id = self.Param("Security2Id", "TONUSDT@BNBFT") \
            .SetDisplay("Benchmark Security Id", "Identifier of the benchmark currency security", "General")

        self._ppp_length = self.Param("PppLength", 14) \
            .SetRange(2, 80) \
            .SetDisplay("PPP Length", "Smoothing length for the synthetic PPP anchor", "Indicators")

        self._lookback_period = self.Param("LookbackPeriod", 24) \
            .SetRange(5, 120) \
            .SetDisplay("Lookback Period", "Lookback period used to normalize the deviation spread", "Indicators")

        self._entry_threshold = self.Param("EntryThreshold", 1.25) \
            .SetRange(0.2, 5.0) \
            .SetDisplay("Entry Threshold", "Z-score threshold required to open a position", "Signals")

        self._exit_threshold = self.Param("ExitThreshold", 0.3) \
            .SetRange(0.0, 2.0) \
            .SetDisplay("Exit Threshold", "Z-score threshold required to close a position", "Signals")

        self._cooldown_bars = self.Param("CooldownBars", 8) \
            .SetRange(0, 120) \
            .SetDisplay("Cooldown Bars", "Closed candles to wait before another position change", "Risk")

        self._stop_loss = self.Param("StopLoss", 2.5) \
            .SetRange(0.5, 10.0) \
            .SetDisplay("Stop Loss %", "Stop loss percentage", "Risk")

        self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromHours(4))) \
            .SetDisplay("Candle Type", "Time frame of candles", "General")

        self._benchmark = None
        self._primary_ppp = None
        self._benchmark_ppp = None
        self._spread_average = None
        self._spread_deviation = None
        self._latest_primary_deviation = 0.0
        self._latest_benchmark_deviation = 0.0
        self._previous_z_score = None
        self._primary_updated = False
        self._benchmark_updated = False
        self._cooldown_remaining = 0

    @property
    def candle_type(self):
        return self._candle_type.Value

    def GetWorkingSecurities(self):
        result = []
        if self.Security is not None:
            result.append((self.Security, self.candle_type))
        sec2_id = str(self._security2_id.Value)
        if sec2_id:
            s = Security()
            s.Id = sec2_id
            result.append((s, self.candle_type))
        return result

    def OnReseted(self):
        super(currency_ppp_value_strategy, self).OnReseted()
        self._benchmark = None
        self._primary_ppp = None
        self._benchmark_ppp = None
        self._spread_average = None
        self._spread_deviation = None
        self._latest_primary_deviation = 0.0
        self._latest_benchmark_deviation = 0.0
        self._previous_z_score = None
        self._primary_updated = False
        self._benchmark_updated = False
        self._cooldown_remaining = 0

    def OnStarted2(self, time):
        super(currency_ppp_value_strategy, self).OnStarted2(time)

        sec2_id = str(self._security2_id.Value)
        if not sec2_id:
            raise Exception("Benchmark currency identifier is not specified.")

        s = Security()
        s.Id = sec2_id
        self._benchmark = s

        ppp_len = int(self._ppp_length.Value)
        lookback = int(self._lookback_period.Value)

        self._primary_ppp = ExponentialMovingAverage()
        self._primary_ppp.Length = ppp_len
        self._benchmark_ppp = ExponentialMovingAverage()
        self._benchmark_ppp.Length = ppp_len
        self._spread_average = SimpleMovingAverage()
        self._spread_average.Length = lookback
        self._spread_deviation = StandardDeviation()
        self._spread_deviation.Length = lookback

        primary_subscription = self.SubscribeCandles(self.candle_type, True, self.Security)
        benchmark_subscription = self.SubscribeCandles(self.candle_type, True, self._benchmark)

        primary_subscription.Bind(self.ProcessPrimaryCandle).Start()
        benchmark_subscription.Bind(self.ProcessBenchmarkCandle).Start()

        area = self.CreateChartArea()
        if area is not None:
            self.DrawCandles(area, primary_subscription)
            self.DrawCandles(area, benchmark_subscription)
            self.DrawOwnTrades(area)

        self.StartProtection(
            Unit(2, UnitTypes.Percent),
            Unit(float(self._stop_loss.Value), UnitTypes.Percent)
        )

    def ProcessPrimaryCandle(self, candle):
        if candle.State != CandleStates.Finished:
            return

        self._latest_primary_deviation = self.UpdateDeviation(self._primary_ppp, candle)
        self._primary_updated = True
        self.TryProcessSpread(candle.OpenTime)

    def ProcessBenchmarkCandle(self, candle):
        if candle.State != CandleStates.Finished:
            return

        self._latest_benchmark_deviation = self.UpdateDeviation(self._benchmark_ppp, candle)
        self._benchmark_updated = True
        self.TryProcessSpread(candle.OpenTime)

    def UpdateDeviation(self, average, candle):
        synthetic_ppp = self.CalculateSyntheticPpp(candle)
        result = process_float(average, synthetic_ppp, candle.OpenTime, True)
        ppp_anchor = float(result)

        return (float(candle.ClosePrice) - ppp_anchor) / max(ppp_anchor, 1.0)

    def CalculateSyntheticPpp(self, candle):
        price_base = max(float(candle.OpenPrice), 1.0)
        price_step = float(self.Security.PriceStep) if self.Security is not None and self.Security.PriceStep is not None else 1.0
        range_val = max(float(candle.HighPrice) - float(candle.LowPrice), price_step)
        purchasing_power_anchor = (float(candle.OpenPrice) + float(candle.LowPrice) + float(candle.ClosePrice)) / 3.0
        inflation_penalty = price_base * min(0.12, range_val / price_base)

        return purchasing_power_anchor - inflation_penalty

    def TryProcessSpread(self, time):
        if not self._primary_updated or not self._benchmark_updated:
            return

        self._primary_updated = False
        self._benchmark_updated = False

        spread = self._latest_primary_deviation - self._latest_benchmark_deviation

        mean_result = process_float(self._spread_average, spread, time, True)
        mean = float(mean_result)

        dev_result = process_float(self._spread_deviation, spread, time, True)
        deviation = float(dev_result)

        if not self._spread_average.IsFormed or not self._spread_deviation.IsFormed or deviation <= 0:
            return

        if not self.IsFormedAndOnlineAndAllowTrading():
            return

        if self._cooldown_remaining > 0:
            self._cooldown_remaining -= 1

        z_score = (spread - mean) / deviation
        entry_thresh = float(self._entry_threshold.Value)
        exit_thresh = float(self._exit_threshold.Value)
        cooldown = int(self._cooldown_bars.Value)

        bullish_entry = self._previous_z_score is not None and self._previous_z_score > -entry_thresh and z_score <= -entry_thresh
        bearish_entry = self._previous_z_score is not None and self._previous_z_score < entry_thresh and z_score >= entry_thresh

        if self._cooldown_remaining == 0 and self.Position == 0:
            if bullish_entry:
                self.BuyMarket()
                self._cooldown_remaining = cooldown
            elif bearish_entry:
                self.SellMarket()
                self._cooldown_remaining = cooldown
        elif self.Position > 0 and z_score >= -exit_thresh:
            self.SellMarket(self.Position)
            self._cooldown_remaining = cooldown
        elif self.Position < 0 and z_score <= exit_thresh:
            self.BuyMarket(Math.Abs(self.Position))
            self._cooldown_remaining = cooldown

        self._previous_z_score = z_score

    def CreateClone(self):
        return currency_ppp_value_strategy()