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Estratégia OzFx Accelerator Stochastic

Visão geral

  • Conversão do consultor especializado MetaTrader OzFx (edição de barabashkakvn) para a API de estratégia de alto nível do StockSharp.
  • Combina o oscilador Acceleration/Deceleration (AC) com um limiar estocástico para entrar em camadas nas tendências.
  • Projetado para negociação forex de estilo discricionário onde as ordens são dimensionadas em lotes e a proteção é expressa em pips.

Lógica de negociação

  1. Calcular o oscilador Acceleration/Deceleration como a diferença entre o Awesome Oscillator e sua SMA de 5 períodos.
  2. Assinar um oscilador estocástico com períodos %K, %D e de suavização configuráveis.
  3. Quando um novo candle fecha, avaliar os dois valores de AC mais recentes junto com o nível estocástico:
    • Configuração comprada: %K cruza acima do nível configurado, o AC atual é positivo e subindo enquanto o valor anterior era negativo.
    • Configuração vendida: %K cruza abaixo do nível, o AC atual é negativo e caindo enquanto o valor anterior era positivo.
  4. Com um sinal válido, abrir até cinco ordens a mercado de tamanho igual. A primeira camada espelha o EA original ao iniciar sem stop/alvo, enquanto as camadas restantes herdam o stop loss configurado e take profits escalonados.
  5. A gestão de saídas emula o comportamento original do flag modok:
    • Quando trailing stops estão desabilitados, a estratégia apenas ajusta stops para o ponto de equilíbrio após uma saída rentável, e fechará todas as camadas se a combinação estocástico/AC virar contra a posição.
    • Com trailing stops habilitados, o stop segue o preço uma vez que o movimento supera TrailingStop + TrailingStep, e a mesma reversão de momentum fecha a pilha.

Escalonamento de posição e alvos

  • Posições compradas colocam quatro camadas adicionais com take profits em entry + TakeProfit * i para i = 1..4. Vendidos espelham isso abaixo do preço.
  • Stop losses (quando configurados) são anexados a cada camada, exceto a primeira, exatamente como o script MT5.
  • Take profits parciais atualizam o flag interno para que a próxima campanha comece imediatamente no estado "modok = true", desbloqueando a proteção de ponto de equilíbrio para a camada inicial.

Gestão de risco

  • StopLossPips e TakeProfitPips são definidos em pips. A estratégia os converte usando o tamanho de tick do instrumento e a precisão de dígitos (5 ou 3 pares decimais contam como pips fracionários).
  • TrailingStopPips = 0 desativa a lógica de trailing e habilita apenas o ajuste de ponto de equilíbrio após um take profit. Qualquer valor positivo ativa o bloco de trailing descrito acima.
  • Todas as saídas são executadas com ordens a mercado quando o range do candle cruza os níveis de stop ou alvo armazenados, correspondendo ao comportamento do especialista original que dependia de ordens protetoras do lado do broker.

Parâmetros

Nome Descrição Padrão
OrderVolume Tamanho de lote por camada. 0.1
StopLossPips Distância para ordens stop protetoras (pips). 100
TakeProfitPips Distância base entre take profits em camadas (pips). 50
TrailingStopPips Distância de trailing stop em pips (0 desabilita trailing). 50
TrailingStepPips Distância adicional antes de avançar o trailing stop. 5
KPeriod Lookback do %K estocástico. 5
DPeriod Suavização do %D estocástico. 3
SmoothingPeriod Suavização final aplicada ao %K. 3
StochasticLevel Limite separando regimes de alta/baixa. 50
CandleType Série de candles fonte para cálculos. Período 4h

Notas de implementação

  • Sinais, atualizações de trailing e saídas protetoras são processadas em candles completados para permanecer consistente com o EA que dispara em novas barras.
  • O indicador AC é reproduzido vinculando o Awesome Oscillator e subtraindo sua SMA de 5 períodos; nenhum buffer de indicador de baixo nível é acessado.
  • A conversão de pips se adapta automaticamente a símbolos forex de 4/5 dígitos e recorre a um padrão razoável quando metadados de tamanho de tick estão ausentes.
  • A estratégia mantém um registro interno de entradas em camadas para que take profits parciais e ajustes de stop correspondam à lógica por posição da versão MetaTrader.
  • Como o StockSharp executa saídas via ordens a mercado, os trades são nivelados quando a máxima/mínima do candle perfura os níveis armazenados de stop ou alvo, em vez de esperar gatilhos do lado do broker.
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;
using StockSharp.Algo;

namespace StockSharp.Samples.Strategies;



/// <summary>
/// OzFx strategy converted from MetaTrader 5 to the StockSharp high-level API.
/// Stacks multiple entries when the Acceleration/Deceleration oscillator and stochastic agree.
/// Implements layered targets and dynamic protection to mimic the expert advisor behaviour.
/// </summary>
public class OzFxAcceleratorStochasticStrategy : Strategy
{
	private readonly StrategyParam<int> _maxLayers;

	private readonly StrategyParam<decimal> _orderVolume;
	private readonly StrategyParam<decimal> _stopLossPips;
	private readonly StrategyParam<decimal> _takeProfitPips;
	private readonly StrategyParam<decimal> _trailingStopPips;
	private readonly StrategyParam<decimal> _trailingStepPips;
	private readonly StrategyParam<int> _kPeriod;
	private readonly StrategyParam<int> _dPeriod;
	private readonly StrategyParam<int> _smoothingPeriod;
	private readonly StrategyParam<decimal> _stochasticLevel;
	private readonly StrategyParam<DataType> _candleType;

	private AwesomeOscillator _ao = null!;
	private SimpleMovingAverage _aoSma = null!;
	private StochasticOscillator _stochastic = null!;

	private decimal? _lastAc;
	private bool _lastExitWasTakeProfit;
	private decimal _pipSize;
	private bool _pipInitialized;

	private readonly List<EntryInfo> _longEntries = new();
	private readonly List<EntryInfo> _shortEntries = new();

	/// <summary>
	/// Defines exit origin to replicate modok flag logic.
	/// </summary>
	private enum ExitReasons
	{
		Manual,
		TakeProfit,
		StopLoss,
	}

	/// <summary>
	/// Stores layered entry metadata (volume, price, protective levels).
	/// </summary>
	private sealed class EntryInfo
	{
		public decimal Volume;
		public decimal EntryPrice;
		public decimal? StopPrice;
		public decimal? TakeProfitPrice;
		public int Layer;
	}

	/// <summary>
	/// Maximum number of layered positions.
	/// </summary>
	public int MaxLayers
	{
		get => _maxLayers.Value;
		set => _maxLayers.Value = value;
	}

	/// <summary>
	/// Order volume for each layer.
	/// </summary>
	public decimal OrderVolume
	{
		get => _orderVolume.Value;
		set => _orderVolume.Value = value;
	}

	/// <summary>
	/// Stop loss distance measured in pips.
	/// </summary>
	public decimal StopLossPips
	{
		get => _stopLossPips.Value;
		set => _stopLossPips.Value = value;
	}

	/// <summary>
	/// Base take profit distance per layer measured in pips.
	/// </summary>
	public decimal TakeProfitPips
	{
		get => _takeProfitPips.Value;
		set => _takeProfitPips.Value = value;
	}

	/// <summary>
	/// Trailing stop distance in pips. Zero disables trailing mode.
	/// </summary>
	public decimal TrailingStopPips
	{
		get => _trailingStopPips.Value;
		set => _trailingStopPips.Value = value;
	}

	/// <summary>
	/// Additional distance in pips before the trailing stop is advanced.
	/// </summary>
	public decimal TrailingStepPips
	{
		get => _trailingStepPips.Value;
		set => _trailingStepPips.Value = value;
	}

	/// <summary>
	/// Main stochastic lookback period.
	/// </summary>
	public int KPeriod
	{
		get => _kPeriod.Value;
		set => _kPeriod.Value = value;
	}

	/// <summary>
	/// %D smoothing length.
	/// </summary>
	public int DPeriod
	{
		get => _dPeriod.Value;
		set => _dPeriod.Value = value;
	}

	/// <summary>
	/// Final smoothing applied to %K.
	/// </summary>
	public int SmoothingPeriod
	{
		get => _smoothingPeriod.Value;
		set => _smoothingPeriod.Value = value;
	}

	/// <summary>
	/// Stochastic threshold separating bullish and bearish regimes.
	/// </summary>
	public decimal StochasticLevel
	{
		get => _stochasticLevel.Value;
		set => _stochasticLevel.Value = value;
	}

	/// <summary>
	/// Candle type processed by the strategy.
	/// </summary>
	public DataType CandleType
	{
		get => _candleType.Value;
		set => _candleType.Value = value;
	}

	/// <summary>
	/// Initializes <see cref="OzFxAcceleratorStochasticStrategy"/>.
	/// </summary>
	public OzFxAcceleratorStochasticStrategy()
	{
		_maxLayers = Param(nameof(MaxLayers), 1)
			.SetGreaterThanZero()
			.SetDisplay("Max Layers", "Maximum number of layered positions", "Risk");

		_orderVolume = Param(nameof(OrderVolume), 1m)
			.SetGreaterThanZero()
			.SetDisplay("Volume", "Order volume for each layer", "Trading");

		_stopLossPips = Param(nameof(StopLossPips), 10m)
			.SetDisplay("Stop Loss (pips)", "Protective stop distance in pips", "Risk");

		_takeProfitPips = Param(nameof(TakeProfitPips), 5m)
			.SetDisplay("Take Profit (pips)", "Base take profit increment in pips", "Risk");

		_trailingStopPips = Param(nameof(TrailingStopPips), 5m)
			.SetDisplay("Trailing Stop (pips)", "Trailing stop distance in pips", "Risk");

		_trailingStepPips = Param(nameof(TrailingStepPips), 5m)
			.SetDisplay("Trailing Step (pips)", "Extra move required before advancing the trailing stop", "Risk");

		_kPeriod = Param(nameof(KPeriod), 5)
			.SetGreaterThanZero()
			.SetDisplay("%K Period", "Stochastic lookback window", "Stochastic");

		_dPeriod = Param(nameof(DPeriod), 3)
			.SetGreaterThanZero()
			.SetDisplay("%D Period", "Smoothing length for %D", "Stochastic");

		_smoothingPeriod = Param(nameof(SmoothingPeriod), 3)
			.SetGreaterThanZero()
			.SetDisplay("Slowing", "Final smoothing for %K", "Stochastic");

		_stochasticLevel = Param(nameof(StochasticLevel), 50m)
			.SetDisplay("Stochastic Level", "Threshold used to trigger signals", "Stochastic");

		_candleType = Param(nameof(CandleType), TimeSpan.FromHours(4).TimeFrame())
			.SetDisplay("Candle Type", "Primary candle series", "General");
	}

	/// <inheritdoc />
	public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities()
	{
		return [(Security, CandleType)];
	}

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

		_longEntries.Clear();
		_shortEntries.Clear();
		_lastAc = null;
		_lastExitWasTakeProfit = false;
		_pipInitialized = false;
		_pipSize = 0m;
	}

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

		_ao = new AwesomeOscillator
		{
			ShortMa = { Length = 5 },
			LongMa = { Length = 34 },
		};

		_aoSma = new SMA
		{
			Length = 5,
		};

		_stochastic = new StochasticOscillator
		{
			K = { Length = KPeriod },
			D = { Length = DPeriod },
		};

		var subscription = SubscribeCandles(CandleType);
		subscription
			.BindEx(_ao, _stochastic, ProcessCandle)
			.Start();

		var area = CreateChartArea();
		if (area != null)
		{
			DrawCandles(area, subscription);
			DrawIndicator(area, _ao);
			DrawIndicator(area, _stochastic);
			DrawOwnTrades(area);
		}
	}

	/// <summary>
	/// Processes finished candles, updates indicators, and manages entries/exits.
	/// </summary>
	private void ProcessCandle(ICandleMessage candle, IIndicatorValue aoValue, IIndicatorValue stochValue)
	{
		if (candle.State != CandleStates.Finished)
			return;

		if (!aoValue.IsFinal || !stochValue.IsFinal)
			return;

		var stoch = (StochasticOscillatorValue)stochValue;
		if (stoch.K is not decimal stochK)
			return;

		var ao = aoValue.GetValue<decimal>();
		var aoSmaValue = _aoSma.Process(new DecimalIndicatorValue(_aoSma, ao, candle.ServerTime) { IsFinal = true });
		if (!_aoSma.IsFormed)
			return;

		var ac = ao - aoSmaValue.GetValue<decimal>();
		var prevAcNullable = _lastAc;
		if (prevAcNullable is not decimal prevAc)
		{
			_lastAc = ac;
			return;
		}

		// indicators checked via BindEx
		if (!_ao.IsFormed || !_stochastic.IsFormed)
		{
			_lastAc = ac;
			return;
		}

		var pip = GetPipSize();
		var stopDistance = StopLossPips > 0m ? StopLossPips * pip : 0m;
		var takeDistance = TakeProfitPips > 0m ? TakeProfitPips * pip : 0m;
		var trailingStopDistance = TrailingStopPips > 0m ? TrailingStopPips * pip : 0m;
		var trailingStepDistance = TrailingStepPips > 0m ? TrailingStepPips * pip : 0m;
		var useTrailing = TrailingStopPips > 0m;

		TryEnterLong(candle, stochK, ac, prevAc, stopDistance, takeDistance);
		TryEnterShort(candle, stochK, ac, prevAc, stopDistance, takeDistance);

		ManageLongPositions(candle, stochK, ac, prevAc, trailingStopDistance, trailingStepDistance, useTrailing);
		ManageShortPositions(candle, stochK, ac, prevAc, trailingStopDistance, trailingStepDistance, useTrailing);

		_lastAc = ac;
	}

	/// <summary>
	/// Opens up to five long layers when momentum turns bullish.
	/// </summary>
	private void TryEnterLong(ICandleMessage candle, decimal stochK, decimal currentAc, decimal previousAc, decimal stopDistance, decimal takeDistance)
	{
		if (_longEntries.Count != 0 || _shortEntries.Count != 0)
			return;

		if (!(stochK > StochasticLevel && currentAc > previousAc))
			return;

		var volume = OrderVolume;
		if (volume <= 0m)
			return;

		var entryPrice = candle.ClosePrice;

		// First layer mirrors the expert advisor: no stop or target until trailing engages.
		BuyMarket();
		_longEntries.Add(new EntryInfo
		{
			Volume = volume,
			EntryPrice = entryPrice,
			StopPrice = null,
			TakeProfitPrice = null,
			Layer = 0,
		});

		for (var i = 1; i < MaxLayers; i++)
		{
			BuyMarket();

			var stopPrice = stopDistance > 0m ? entryPrice - stopDistance : (decimal?)null;
			var takePrice = takeDistance > 0m ? entryPrice + takeDistance * i : (decimal?)null;

			_longEntries.Add(new EntryInfo
			{
				Volume = volume,
				EntryPrice = entryPrice,
				StopPrice = stopPrice,
				TakeProfitPrice = takePrice,
				Layer = i,
			});
		}
	}

	/// <summary>
	/// Opens up to five short layers when momentum turns bearish.
	/// </summary>
	private void TryEnterShort(ICandleMessage candle, decimal stochK, decimal currentAc, decimal previousAc, decimal stopDistance, decimal takeDistance)
	{
		if (_shortEntries.Count != 0 || _longEntries.Count != 0)
			return;

		if (!(stochK < StochasticLevel && currentAc < previousAc))
			return;

		var volume = OrderVolume;
		if (volume <= 0m)
			return;

		var entryPrice = candle.ClosePrice;

		SellMarket();
		_shortEntries.Add(new EntryInfo
		{
			Volume = volume,
			EntryPrice = entryPrice,
			StopPrice = null,
			TakeProfitPrice = null,
			Layer = 0,
		});

		for (var i = 1; i < MaxLayers; i++)
		{
			SellMarket();

			var stopPrice = stopDistance > 0m ? entryPrice + stopDistance : (decimal?)null;
			var takePrice = takeDistance > 0m ? entryPrice - takeDistance * i : (decimal?)null;

			_shortEntries.Add(new EntryInfo
			{
				Volume = volume,
				EntryPrice = entryPrice,
				StopPrice = stopPrice,
				TakeProfitPrice = takePrice,
				Layer = i,
			});
		}
	}

	/// <summary>
	/// Manages open long layers including trailing logic and staged targets.
	/// </summary>
	private void ManageLongPositions(ICandleMessage candle, decimal stochK, decimal currentAc, decimal previousAc, decimal trailingStopDistance, decimal trailingStepDistance, bool useTrailing)
	{
		if (_longEntries.Count == 0)
			return;

		if (Position <= 0m)
		{
			_longEntries.Clear();
			return;
		}

		var closePrice = candle.ClosePrice;
		var highPrice = candle.HighPrice;
		var lowPrice = candle.LowPrice;

		var exitSignal = stochK < 50m && currentAc < previousAc;

		if (useTrailing)
		{
			if (exitSignal)
			{
				CloseAllLong(ExitReasons.Manual);
				return;
			}

			if (trailingStopDistance > 0m)
			{
				for (var i = 0; i < _longEntries.Count; i++)
				{
					var entry = _longEntries[i];
					var profit = closePrice - entry.EntryPrice;
					if (profit > trailingStopDistance + trailingStepDistance)
					{
						var newStop = closePrice - trailingStopDistance;
						if (entry.StopPrice is not decimal existing || newStop > existing)
							entry.StopPrice = newStop;
					}
				}
			}
		}
		else if (_lastExitWasTakeProfit)
		{
			if (exitSignal)
			{
				CloseAllLong(ExitReasons.Manual);
				return;
			}

			for (var i = 0; i < _longEntries.Count; i++)
			{
				var entry = _longEntries[i];
				if (entry.StopPrice is null && closePrice > entry.EntryPrice)
					entry.StopPrice = entry.EntryPrice;
			}
		}

		for (var i = 0; i < _longEntries.Count; i++)
		{
			var entry = _longEntries[i];
			if (entry.StopPrice is decimal stopPrice && lowPrice <= stopPrice)
			{
				CloseAllLong(ExitReasons.StopLoss);
				return;
			}
		}

		var anyTakeProfit = false;
		for (var i = _longEntries.Count - 1; i >= 0; i--)
		{
			var entry = _longEntries[i];
			if (entry.TakeProfitPrice is decimal takePrice && highPrice >= takePrice)
			{
				SellMarket();
				_longEntries.RemoveAt(i);
				anyTakeProfit = true;
			}
		}

		if (anyTakeProfit)
			_lastExitWasTakeProfit = true;
	}

	/// <summary>
	/// Manages open short layers including trailing logic and staged targets.
	/// </summary>
	private void ManageShortPositions(ICandleMessage candle, decimal stochK, decimal currentAc, decimal previousAc, decimal trailingStopDistance, decimal trailingStepDistance, bool useTrailing)
	{
		if (_shortEntries.Count == 0)
			return;

		if (Position >= 0m)
		{
			_shortEntries.Clear();
			return;
		}

		var closePrice = candle.ClosePrice;
		var highPrice = candle.HighPrice;
		var lowPrice = candle.LowPrice;

		var exitSignal = stochK > 50m && currentAc > previousAc;

		if (useTrailing)
		{
			if (exitSignal)
			{
				CloseAllShort(ExitReasons.Manual);
				return;
			}

			if (trailingStopDistance > 0m)
			{
				for (var i = 0; i < _shortEntries.Count; i++)
				{
					var entry = _shortEntries[i];
					var profit = entry.EntryPrice - closePrice;
					if (profit > trailingStopDistance + trailingStepDistance)
					{
						var newStop = closePrice + trailingStopDistance;
						if (entry.StopPrice is not decimal existing || newStop < existing)
							entry.StopPrice = newStop;
					}
				}
			}
		}
		else if (_lastExitWasTakeProfit)
		{
			if (exitSignal)
			{
				CloseAllShort(ExitReasons.Manual);
				return;
			}

			for (var i = 0; i < _shortEntries.Count; i++)
			{
				var entry = _shortEntries[i];
				if (entry.StopPrice is null && closePrice < entry.EntryPrice)
					entry.StopPrice = entry.EntryPrice;
			}
		}

		for (var i = 0; i < _shortEntries.Count; i++)
		{
			var entry = _shortEntries[i];
			if (entry.StopPrice is decimal stopPrice && highPrice >= stopPrice)
			{
				CloseAllShort(ExitReasons.StopLoss);
				return;
			}
		}

		var anyTakeProfit = false;
		for (var i = _shortEntries.Count - 1; i >= 0; i--)
		{
			var entry = _shortEntries[i];
			if (entry.TakeProfitPrice is decimal takePrice && lowPrice <= takePrice)
			{
				BuyMarket();
				_shortEntries.RemoveAt(i);
				anyTakeProfit = true;
			}
		}

		if (anyTakeProfit)
			_lastExitWasTakeProfit = true;
	}

	/// <summary>
	/// Closes all long layers and updates the modok-like flag.
	/// </summary>
	private void CloseAllLong(ExitReasons reason)
	{
		var volume = 0m;
		for (var i = 0; i < _longEntries.Count; i++)
			volume += _longEntries[i].Volume;

		if (volume > 0m && Position > 0m)
			SellMarket();

		_longEntries.Clear();

		if (reason == ExitReasons.TakeProfit)
			_lastExitWasTakeProfit = true;
		else if (reason == ExitReasons.StopLoss)
			_lastExitWasTakeProfit = false;
	}

	/// <summary>
	/// Closes all short layers and updates the modok-like flag.
	/// </summary>
	private void CloseAllShort(ExitReasons reason)
	{
		var volume = 0m;
		for (var i = 0; i < _shortEntries.Count; i++)
			volume += _shortEntries[i].Volume;

		if (volume > 0m && Position < 0m)
			BuyMarket();

		_shortEntries.Clear();

		if (reason == ExitReasons.TakeProfit)
			_lastExitWasTakeProfit = true;
		else if (reason == ExitReasons.StopLoss)
			_lastExitWasTakeProfit = false;
	}

	/// <summary>
	/// Calculates pip value based on the security tick size and decimal digits.
	/// </summary>
	private decimal GetPipSize()
	{
		if (_pipInitialized)
			return _pipSize;

		var security = Security;
		var step = security?.PriceStep ?? 0m;
		if (step <= 0m)
			step = 0.0001m;

		var decimals = security?.Decimals ?? 0;
		var adjust = decimals == 3 || decimals == 5 ? 10m : 1m;

		_pipSize = step * adjust;
		if (_pipSize <= 0m)
			_pipSize = step;

		if (_pipSize <= 0m)
			_pipSize = 0.0001m;

		_pipInitialized = true;
		return _pipSize;
	}
}