Oscillator Evaluator Strategy

This strategy combines the Relative Strength Index (RSI) and Stochastic Oscillator to identify entry and exit points. A long position is opened when both oscillators fall below the oversold threshold, while a short position is opened when both rise above the overbought threshold. Positions are closed once both indicators return to the neutral zone. The strategy also supports configurable take-profit and stop-loss protection.

using System; using Ecng.Common; using StockSharp.Algo.Indicators; using StockSharp.Algo.Strategies; using StockSharp.Messages; namespace StockSharp.Samples.Strategies; public class OscillatorEvaluatorStrategy : Strategy { private readonly StrategyParam<int> _rsiPeriod; private readonly StrategyParam<DataType> _candleType; public int RsiPeriod { get => _rsiPeriod.Value; set => _rsiPeriod.Value = value; } public DataType CandleType { get => _candleType.Value; set => _candleType.Value = value; } public OscillatorEvaluatorStrategy() { _rsiPeriod = Param(nameof(RsiPeriod), 14).SetGreaterThanZero(); _candleType = Param(nameof(CandleType), TimeSpan.FromMinutes(5).TimeFrame()); } /// <inheritdoc /> protected override void OnStarted2(DateTime time) { base.OnStarted2(time); var fast = new ExponentialMovingAverage { Length = 14 }; var slow = new ExponentialMovingAverage { Length = 40 }; var rsi = new RelativeStrengthIndex { Length = RsiPeriod }; var prevF = 0m; var prevS = 0m; var init = false; var lastSignal = DateTimeOffset.MinValue; var cooldown = TimeSpan.FromMinutes(360); var subscription = SubscribeCandles(CandleType); subscription .Bind(fast, slow, rsi, (candle, f, s, r) => { if (candle.State != CandleStates.Finished) return; if (!fast.IsFormed || !slow.IsFormed || !rsi.IsFormed) return; if (!init) { prevF = f; prevS = s; init = true; return; } if (candle.OpenTime - lastSignal >= cooldown) { if (prevF <= prevS && f > s && r > 50 && Position <= 0) { BuyMarket(); lastSignal = candle.OpenTime; } else if (prevF >= prevS && f < s && r < 50 && Position >= 0) { SellMarket(); lastSignal = candle.OpenTime; } } prevF = f; prevS = s; }) .Start(); var area = CreateChartArea(); if (area != null) { DrawCandles(area, subscription); DrawIndicator(area, fast); DrawIndicator(area, slow); DrawOwnTrades(area); } } }

import clr clr.AddReference("StockSharp.Messages") clr.AddReference("StockSharp.Algo") clr.AddReference("StockSharp.Algo.Indicators") clr.AddReference("StockSharp.Algo.Strategies") from System import TimeSpan from StockSharp.Messages import DataType, CandleStates from StockSharp.Algo.Indicators import ExponentialMovingAverage, RelativeStrengthIndex from StockSharp.Algo.Strategies import Strategy class oscillator_evaluator_strategy(Strategy): def __init__(self): super(oscillator_evaluator_strategy, self).__init__() self._rsi_period = self.Param("RsiPeriod", 14) \ .SetGreaterThanZero() self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromMinutes(5))) self._prev_fast = 0.0 self._prev_slow = 0.0 self._initialized = False self._last_signal_ticks = 0 @property def candle_type(self): return self._candle_type.Value @candle_type.setter def candle_type(self, value): self._candle_type.Value = value def OnReseted(self): super(oscillator_evaluator_strategy, self).OnReseted() self._prev_fast = 0.0 self._prev_slow = 0.0 self._initialized = False self._last_signal_ticks = 0 def OnStarted2(self, time): super(oscillator_evaluator_strategy, self).OnStarted2(time) self._prev_fast = 0.0 self._prev_slow = 0.0 self._initialized = False self._last_signal_ticks = 0 self._fast = ExponentialMovingAverage() self._fast.Length = 14 self._slow = ExponentialMovingAverage() self._slow.Length = 40 self._rsi = RelativeStrengthIndex() self._rsi.Length = self._rsi_period.Value subscription = self.SubscribeCandles(self.candle_type) subscription.Bind(self._fast, self._slow, self._rsi, self.OnProcess).Start() def OnProcess(self, candle, f, s, r): if candle.State != CandleStates.Finished: return if not self._fast.IsFormed or not self._slow.IsFormed or not self._rsi.IsFormed: return fv = float(f) sv = float(s) rv = float(r) if not self._initialized: self._prev_fast = fv self._prev_slow = sv self._initialized = True return cooldown_ticks = TimeSpan.FromMinutes(360).Ticks current_ticks = candle.OpenTime.Ticks if current_ticks - self._last_signal_ticks >= cooldown_ticks: if self._prev_fast <= self._prev_slow and fv > sv and rv > 50 and self.Position <= 0: self.BuyMarket() self._last_signal_ticks = current_ticks elif self._prev_fast >= self._prev_slow and fv < sv and rv < 50 and self.Position >= 0: self.SellMarket() self._last_signal_ticks = current_ticks self._prev_fast = fv self._prev_slow = sv def CreateClone(self): return oscillator_evaluator_strategy()