Fine-Tune Inputs Fourier Smoothed Hybrid Volume Spread Analysis

This strategy combines smoothed volume with EMA of open and close prices to analyze volume spread. It enters long when both the volume spread and its moving average are positive, and short when both are negative. An optional parameter allows closing positions when no signal is present.

Details

Entry Conditions:
- Long: vd > 0 and vdma > 0
- Short: vd < 0 and vdma < 0
Exit Conditions: Optionally close position when signals are neutral.
Type: Trend-following
Indicators: EMA
Timeframe: 1 minute (default)

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; public class FineTuneInputsFourierSmoothedHybridVolumeSpreadAnalysisStrategy : Strategy { private readonly StrategyParam<int> _fastEmaPeriod; private readonly StrategyParam<int> _slowEmaPeriod; private readonly StrategyParam<DataType> _candleType; private decimal _prevFastEma; private decimal _prevSlowEma; public int FastEmaPeriod { get => _fastEmaPeriod.Value; set => _fastEmaPeriod.Value = value; } public int SlowEmaPeriod { get => _slowEmaPeriod.Value; set => _slowEmaPeriod.Value = value; } public DataType CandleType { get => _candleType.Value; set => _candleType.Value = value; } public FineTuneInputsFourierSmoothedHybridVolumeSpreadAnalysisStrategy() { _fastEmaPeriod = Param(nameof(FastEmaPeriod), 120) .SetGreaterThanZero() .SetDisplay("Fast EMA", "Fast EMA period", "Indicators"); _slowEmaPeriod = Param(nameof(SlowEmaPeriod), 450) .SetGreaterThanZero() .SetDisplay("Slow EMA", "Slow EMA period", "Indicators"); _candleType = Param(nameof(CandleType), TimeSpan.FromMinutes(1).TimeFrame()) .SetDisplay("Candle Type", "Type of candles to use", "General"); } public override IEnumerable<(Security sec, DataType dt)> GetWorkingSecurities() { return [(Security, CandleType)]; } protected override void OnReseted() { base.OnReseted(); _prevFastEma = 0m; _prevSlowEma = 0m; } protected override void OnStarted2(DateTime time) { base.OnStarted2(time); var fastEma = new ExponentialMovingAverage { Length = FastEmaPeriod }; var slowEma = new ExponentialMovingAverage { Length = SlowEmaPeriod }; var subscription = SubscribeCandles(CandleType); subscription.Bind(fastEma, slowEma, ProcessCandle).Start(); var area = CreateChartArea(); if (area != null) { DrawCandles(area, subscription); DrawIndicator(area, fastEma); DrawIndicator(area, slowEma); DrawOwnTrades(area); } } private void ProcessCandle(ICandleMessage candle, decimal fastEmaValue, decimal slowEmaValue) { if (candle.State != CandleStates.Finished) return; if (_prevFastEma == 0m || _prevSlowEma == 0m) { _prevFastEma = fastEmaValue; _prevSlowEma = slowEmaValue; return; } if (_prevFastEma <= _prevSlowEma && fastEmaValue > slowEmaValue && Position <= 0) BuyMarket(); else if (_prevFastEma >= _prevSlowEma && fastEmaValue < slowEmaValue && Position >= 0) SellMarket(); _prevFastEma = fastEmaValue; _prevSlowEma = slowEmaValue; } }

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 from StockSharp.Algo.Strategies import Strategy class fine_tune_inputs_fourier_smoothed_hybrid_volume_spread_analysis_strategy(Strategy): """ FineTuneInputsFourierSmoothedHybridVolumeSpreadAnalysis: EMA crossover strategy. Buys when fast EMA crosses above slow EMA, sells on reverse. """ def __init__(self): super(fine_tune_inputs_fourier_smoothed_hybrid_volume_spread_analysis_strategy, self).__init__() self._fast_period = self.Param("FastPeriod", 120) .SetDisplay("Fast EMA", "Fast EMA period", "Indicator") self._slow_period = self.Param("SlowPeriod", 450) .SetDisplay("Slow EMA", "Slow EMA period", "Indicator") self._candle_type = self.Param("CandleType", DataType.TimeFrame(TimeSpan.FromMinutes(1))) .SetDisplay("Candle Type", "Time frame for candles", "General") self._prev_fast = 0.0 self._prev_slow = 0.0 @property def candle_type(self): return self._candle_type.Value def OnReseted(self): super(fine_tune_inputs_fourier_smoothed_hybrid_volume_spread_analysis_strategy, self).OnReseted() self._prev_fast = 0.0 self._prev_slow = 0.0 def OnStarted2(self, time): super(fine_tune_inputs_fourier_smoothed_hybrid_volume_spread_analysis_strategy, self).OnStarted2(time) fast = ExponentialMovingAverage() fast.Length = self._fast_period.Value slow = ExponentialMovingAverage() slow.Length = self._slow_period.Value subscription = self.SubscribeCandles(self.candle_type) subscription.Bind(fast, slow, self._process_candle).Start() area = self.CreateChartArea() if area is not None: self.DrawCandles(area, subscription) self.DrawIndicator(area, fast) self.DrawIndicator(area, slow) self.DrawOwnTrades(area) def _process_candle(self, candle, fast_val, slow_val): if candle.State != CandleStates.Finished: return fast_v = float(fast_val) slow_v = float(slow_val) if self._prev_fast <= self._prev_slow and fast_val > slow_val and self.Position <= 0: self.BuyMarket() elif self._prev_fast >= self._prev_slow and fast_val < slow_val and self.Position >= 0: self.SellMarket() self._prev_fast = fast_val self._prev_slow = slow_val def CreateClone(self): return fine_tune_inputs_fourier_smoothed_hybrid_volume_spread_analysis_strategy()