Estratégia Exp Oracle
Esta estratégia é uma portação em C# do consultor especialista MetaTrader Exp_Oracle. Ela depende de um indicador personalizado Oracle que mistura o Índice de Força Relativa (RSI) e o Índice de Canal de Commodities (CCI) para prever a direção do mercado vários bares à frente. O indicador gera duas linhas:
- Linha Oracle – combinação bruta dos extremos de CCI e RSI.
- Linha de sinal – média móvel suavizada da linha Oracle.
A estratégia fornece três modos de negociação para interpretar essas linhas:
- Breakdown – abre posições quando a linha de sinal cruza o nível zero.
- Twist – reage a pontos de inflexão locais da linha de sinal.
- Disposition – opera nos cruzamentos entre a linha de sinal e a linha Oracle.
Parâmetros
OraclePeriod– período para os cálculos de RSI e CCI.Smooth– número de barras usadas para suavizar a linha de sinal.Mode– algoritmo usado para gerar sinais de negociação (Breakdown,TwistouDisposition).CandleType– período das velas recebidas.AllowBuy– habilita entradas compradas.AllowSell– habilita entradas vendidas.Volume– volume da estratégia herdado da classe baseStrategy.
Regras de entrada e saída
Breakdown
- Comprar quando a linha de sinal cruza acima de zero.
- Vender quando a linha de sinal cruza abaixo de zero.
Twist
- Comprar quando a linha de sinal vira para cima após uma queda.
- Vender quando a linha de sinal vira para baixo após uma subida.
Disposition
- Comprar quando a linha de sinal cruza acima da linha Oracle.
- Vender quando a linha de sinal cruza abaixo da linha Oracle.
As posições existentes são fechadas e revertidas quando um sinal oposto aparece. A estratégia usa ordens de mercado por simplicidade.
Lógica do indicador
Para cada barra:
- Calcular RSI e CCI com o
OraclePeriodespecificado. - Construir quatro valores de divergência usando diferenças entre valores recentes de CCI e RSI.
- A linha Oracle é a soma da divergência máxima e mínima.
- A linha de sinal é a média móvel simples da linha Oracle ao longo de
Smoothbarras.
Esta abordagem tenta prever o movimento de preço de curto prazo combinando momentum (RSI) e canal (CCI).
Notas
- A estratégia opera somente em velas concluídas.
- Stops de proteção não estão implementados; use controles de risco externos se necessário.
using System;
using System.Collections.Generic;
using Ecng.Common;
using StockSharp.Algo.Indicators;
using StockSharp.Algo.Strategies;
using StockSharp.BusinessEntities;
using StockSharp.Messages;
namespace StockSharp.Samples.Strategies;
/// <summary>
/// Strategy based on the Oracle indicator combining RSI and CCI.
/// Supports three signal modes: zero line breakdown, direction twist,
/// and crossing between indicator and its signal line.
/// </summary>
public class ExpOracleStrategy : Strategy
{
/// <summary>
/// Trading algorithm modes.
/// </summary>
public enum AlgorithmModes
{
/// <summary>
/// Signal line crossing zero.
/// </summary>
Breakdown,
/// <summary>
/// Change of signal line direction.
/// </summary>
Twist,
/// <summary>
/// Signal line crossing main line.
/// </summary>
Disposition
}
private readonly StrategyParam<int> _oraclePeriod;
private readonly StrategyParam<int> _smooth;
private readonly StrategyParam<AlgorithmModes> _mode;
private readonly StrategyParam<int> _cooldownBars;
private readonly StrategyParam<DataType> _candleType;
private readonly StrategyParam<bool> _allowBuy;
private readonly StrategyParam<bool> _allowSell;
private RelativeStrengthIndex _rsi;
private CommodityChannelIndex _cci;
private SimpleMovingAverage _sma;
private readonly decimal[] _rsiBuf = new decimal[4];
private readonly decimal[] _cciBuf = new decimal[4];
private decimal _prevSignal;
private decimal _prevPrevSignal;
private decimal _prevOracle;
private int _barsSinceTrade;
/// <summary>
/// Oracle calculation period.
/// </summary>
public int OraclePeriod
{
get => _oraclePeriod.Value;
set => _oraclePeriod.Value = value;
}
/// <summary>
/// Smoothing length for signal line.
/// </summary>
public int Smooth
{
get => _smooth.Value;
set => _smooth.Value = value;
}
/// <summary>
/// Selected trading algorithm.
/// </summary>
public AlgorithmModes Mode
{
get => _mode.Value;
set => _mode.Value = value;
}
/// <summary>
/// Minimum number of bars between entries.
/// </summary>
public int CooldownBars
{
get => _cooldownBars.Value;
set => _cooldownBars.Value = value;
}
/// <summary>
/// Candle type for subscription.
/// </summary>
public DataType CandleType
{
get => _candleType.Value;
set => _candleType.Value = value;
}
/// <summary>
/// Allow long positions.
/// </summary>
public bool AllowBuy
{
get => _allowBuy.Value;
set => _allowBuy.Value = value;
}
/// <summary>
/// Allow short positions.
/// </summary>
public bool AllowSell
{
get => _allowSell.Value;
set => _allowSell.Value = value;
}
/// <summary>
/// Initializes a new instance of <see cref="ExpOracleStrategy"/>.
/// </summary>
public ExpOracleStrategy()
{
_oraclePeriod = Param(nameof(OraclePeriod), 55)
.SetGreaterThanZero()
.SetDisplay("Oracle Period", "Oracle period", "Parameters");
_smooth = Param(nameof(Smooth), 8)
.SetGreaterThanZero()
.SetDisplay("Smooth", "Smoothing length", "Parameters");
_mode = Param(nameof(Mode), AlgorithmModes.Breakdown)
.SetDisplay("Mode", "Signal algorithm", "Parameters");
_cooldownBars = Param(nameof(CooldownBars), 4)
.SetGreaterThanZero()
.SetDisplay("Cooldown Bars", "Minimum number of bars between entries", "Parameters");
_candleType = Param(nameof(CandleType), TimeSpan.FromHours(1).TimeFrame())
.SetDisplay("Candle Type", "Candle type", "Parameters");
_allowBuy = Param(nameof(AllowBuy), true)
.SetDisplay("Allow Buy", "Enable long entries", "Parameters");
_allowSell = Param(nameof(AllowSell), true)
.SetDisplay("Allow Sell", "Enable short entries", "Parameters");
}
/// <inheritdoc />
public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities()
{
return [(Security, CandleType)];
}
/// <inheritdoc />
protected override void OnReseted()
{
base.OnReseted();
_prevSignal = 0;
_prevPrevSignal = 0;
_prevOracle = 0;
_barsSinceTrade = CooldownBars;
Array.Clear(_rsiBuf, 0, _rsiBuf.Length);
Array.Clear(_cciBuf, 0, _cciBuf.Length);
}
/// <inheritdoc />
protected override void OnStarted2(DateTime time)
{
base.OnStarted2(time);
_rsi = new RelativeStrengthIndex { Length = OraclePeriod };
_cci = new CommodityChannelIndex { Length = OraclePeriod };
_sma = new SimpleMovingAverage { Length = Smooth };
StartProtection(null, null);
var subscription = SubscribeCandles(CandleType);
subscription.Bind(ProcessCandle).Start();
var area = CreateChartArea();
if (area != null)
{
DrawCandles(area, subscription);
DrawOwnTrades(area);
}
}
private void ProcessCandle(ICandleMessage candle)
{
if (candle.State != CandleStates.Finished)
return;
// RSI uses decimal input, CCI uses candle input
var rsiResult = _rsi.Process(candle.ClosePrice, candle.OpenTime, true);
var cciResult = _cci.Process(candle);
if (!rsiResult.IsFormed || !cciResult.IsFormed)
return;
var rsiVal = rsiResult.ToDecimal();
var cciVal = cciResult.ToDecimal();
// shift buffers
_rsiBuf[3] = _rsiBuf[2];
_rsiBuf[2] = _rsiBuf[1];
_rsiBuf[1] = _rsiBuf[0];
_rsiBuf[0] = rsiVal;
_cciBuf[3] = _cciBuf[2];
_cciBuf[2] = _cciBuf[1];
_cciBuf[1] = _cciBuf[0];
_cciBuf[0] = cciVal;
// compute Oracle value
var div0 = _cciBuf[0] - _rsiBuf[0];
var dDiv = div0;
var div1 = _cciBuf[1] - _rsiBuf[1] - dDiv;
dDiv += div1;
var div2 = _cciBuf[2] - _rsiBuf[2] - dDiv;
dDiv += div2;
var div3 = _cciBuf[3] - _rsiBuf[3] - dDiv;
var max = Math.Max(Math.Max(div0, div1), Math.Max(div2, div3));
var min = Math.Min(Math.Min(div0, div1), Math.Min(div2, div3));
var oracle = max + min;
// smooth to get signal
var signalResult = _sma.Process(oracle, candle.OpenTime, true);
if (!signalResult.IsFormed)
return;
var signal = signalResult.ToDecimal();
_barsSinceTrade++;
switch (Mode)
{
case AlgorithmModes.Breakdown:
if (AllowBuy && _barsSinceTrade >= CooldownBars && _prevSignal <= 0m && signal > 0m && Position <= 0)
{
if (Position < 0)
BuyMarket();
BuyMarket();
_barsSinceTrade = 0;
}
else if (AllowSell && _barsSinceTrade >= CooldownBars && _prevSignal >= 0m && signal < 0m && Position >= 0)
{
if (Position > 0)
SellMarket();
SellMarket();
_barsSinceTrade = 0;
}
break;
case AlgorithmModes.Twist:
if (AllowBuy && _barsSinceTrade >= CooldownBars && _prevPrevSignal > _prevSignal && signal >= _prevSignal && Position <= 0)
{
if (Position < 0)
BuyMarket();
BuyMarket();
_barsSinceTrade = 0;
}
else if (AllowSell && _barsSinceTrade >= CooldownBars && _prevPrevSignal < _prevSignal && signal <= _prevSignal && Position >= 0)
{
if (Position > 0)
SellMarket();
SellMarket();
_barsSinceTrade = 0;
}
break;
case AlgorithmModes.Disposition:
if (AllowBuy && _barsSinceTrade >= CooldownBars && _prevSignal < _prevOracle && signal >= oracle && Position <= 0)
{
if (Position < 0)
BuyMarket();
BuyMarket();
_barsSinceTrade = 0;
}
else if (AllowSell && _barsSinceTrade >= CooldownBars && _prevSignal > _prevOracle && signal <= oracle && Position >= 0)
{
if (Position > 0)
SellMarket();
SellMarket();
_barsSinceTrade = 0;
}
break;
}
_prevPrevSignal = _prevSignal;
_prevSignal = signal;
_prevOracle = oracle;
}
}
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, Decimal
from StockSharp.Messages import DataType, CandleStates
from StockSharp.Algo.Indicators import RelativeStrengthIndex, CommodityChannelIndex, SimpleMovingAverage, CandleIndicatorValue
from StockSharp.Algo.Strategies import Strategy
from indicator_extensions import *
class exp_oracle_strategy(Strategy):
# Algorithm modes
BREAKDOWN = 0
TWIST = 1
DISPOSITION = 2
def __init__(self):
super(exp_oracle_strategy, self).__init__()
self._oracle_period = self.Param("OraclePeriod", 55) \
.SetGreaterThanZero() \
.SetDisplay("Oracle Period", "Oracle period", "Parameters")
self._smooth = self.Param("Smooth", 8) \
.SetGreaterThanZero() \
.SetDisplay("Smooth", "Smoothing length", "Parameters")
self._mode = self.Param("Mode", 0) \
.SetDisplay("Mode", "Signal algorithm (0=Breakdown, 1=Twist, 2=Disposition)", "Parameters")
self._cooldown_bars = self.Param("CooldownBars", 4) \
.SetGreaterThanZero() \
.SetDisplay("Cooldown Bars", "Minimum number of bars between entries", "Parameters")
self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromHours(1))) \
.SetDisplay("Candle Type", "Candle type", "Parameters")
self._allow_buy = self.Param("AllowBuy", True) \
.SetDisplay("Allow Buy", "Enable long entries", "Parameters")
self._allow_sell = self.Param("AllowSell", True) \
.SetDisplay("Allow Sell", "Enable short entries", "Parameters")
self._rsi = None
self._cci = None
self._sma = None
self._rsi_buf = [0.0] * 4
self._cci_buf = [0.0] * 4
self._prev_signal = 0.0
self._prev_prev_signal = 0.0
self._prev_oracle = 0.0
self._bars_since_trade = 0
@property
def oracle_period(self):
return self._oracle_period.Value
@property
def smooth(self):
return self._smooth.Value
@property
def mode(self):
return self._mode.Value
@property
def cooldown_bars(self):
return self._cooldown_bars.Value
@property
def candle_type(self):
return self._candle_type.Value
@property
def allow_buy(self):
return self._allow_buy.Value
@property
def allow_sell(self):
return self._allow_sell.Value
def OnReseted(self):
super(exp_oracle_strategy, self).OnReseted()
self._prev_signal = 0.0
self._prev_prev_signal = 0.0
self._prev_oracle = 0.0
self._bars_since_trade = self.cooldown_bars
self._rsi_buf = [0.0] * 4
self._cci_buf = [0.0] * 4
def OnStarted2(self, time):
super(exp_oracle_strategy, self).OnStarted2(time)
self._rsi = RelativeStrengthIndex()
self._rsi.Length = self.oracle_period
self._cci = CommodityChannelIndex()
self._cci.Length = self.oracle_period
self._sma = SimpleMovingAverage()
self._sma.Length = self.smooth
self.StartProtection(None, None)
subscription = self.SubscribeCandles(self.candle_type)
subscription.Bind(self.process_candle).Start()
area = self.CreateChartArea()
if area is not None:
self.DrawCandles(area, subscription)
self.DrawOwnTrades(area)
def process_candle(self, candle):
if candle.State != CandleStates.Finished:
return
rsi_result = process_float(self._rsi, candle.ClosePrice, candle.OpenTime, True)
cci_inp = CandleIndicatorValue(self._cci, candle)
cci_result = self._cci.Process(cci_inp)
if not rsi_result.IsFormed or not cci_result.IsFormed:
return
rsi_val = float(rsi_result)
cci_val = float(cci_result)
# shift buffers
self._rsi_buf[3] = self._rsi_buf[2]
self._rsi_buf[2] = self._rsi_buf[1]
self._rsi_buf[1] = self._rsi_buf[0]
self._rsi_buf[0] = rsi_val
self._cci_buf[3] = self._cci_buf[2]
self._cci_buf[2] = self._cci_buf[1]
self._cci_buf[1] = self._cci_buf[0]
self._cci_buf[0] = cci_val
# compute Oracle value
div0 = self._cci_buf[0] - self._rsi_buf[0]
d_div = div0
div1 = self._cci_buf[1] - self._rsi_buf[1] - d_div
d_div += div1
div2 = self._cci_buf[2] - self._rsi_buf[2] - d_div
d_div += div2
div3 = self._cci_buf[3] - self._rsi_buf[3] - d_div
max_val = max(div0, div1, div2, div3)
min_val = min(div0, div1, div2, div3)
oracle = max_val + min_val
# smooth to get signal
signal_result = process_float(self._sma, Decimal(oracle), candle.OpenTime, True)
if not signal_result.IsFormed:
return
signal = float(signal_result)
self._bars_since_trade += 1
m = self.mode
if m == self.BREAKDOWN:
if self.allow_buy and self._bars_since_trade >= self.cooldown_bars and self._prev_signal <= 0.0 and signal > 0.0 and self.Position <= 0:
if self.Position < 0:
self.BuyMarket()
self.BuyMarket()
self._bars_since_trade = 0
elif self.allow_sell and self._bars_since_trade >= self.cooldown_bars and self._prev_signal >= 0.0 and signal < 0.0 and self.Position >= 0:
if self.Position > 0:
self.SellMarket()
self.SellMarket()
self._bars_since_trade = 0
elif m == self.TWIST:
if self.allow_buy and self._bars_since_trade >= self.cooldown_bars and self._prev_prev_signal > self._prev_signal and signal >= self._prev_signal and self.Position <= 0:
if self.Position < 0:
self.BuyMarket()
self.BuyMarket()
self._bars_since_trade = 0
elif self.allow_sell and self._bars_since_trade >= self.cooldown_bars and self._prev_prev_signal < self._prev_signal and signal <= self._prev_signal and self.Position >= 0:
if self.Position > 0:
self.SellMarket()
self.SellMarket()
self._bars_since_trade = 0
elif m == self.DISPOSITION:
if self.allow_buy and self._bars_since_trade >= self.cooldown_bars and self._prev_signal < self._prev_oracle and signal >= oracle and self.Position <= 0:
if self.Position < 0:
self.BuyMarket()
self.BuyMarket()
self._bars_since_trade = 0
elif self.allow_sell and self._bars_since_trade >= self.cooldown_bars and self._prev_signal > self._prev_oracle and signal <= oracle and self.Position >= 0:
if self.Position > 0:
self.SellMarket()
self.SellMarket()
self._bars_since_trade = 0
self._prev_prev_signal = self._prev_signal
self._prev_signal = signal
self._prev_oracle = oracle
def CreateClone(self):
return exp_oracle_strategy()