//+------------------------------------------------------------------+ //| Study.mq5 | //| Copyright DNG® | //| https://www.mql5.com/ru/users/dng | //+------------------------------------------------------------------+ #property copyright "Copyright DNG®" #property link "https://www.mql5.com/ru/users/dng" #property version "1.00" //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ #define Study #define StudyOnline #include "Trajectory.mqh" #include #include //+------------------------------------------------------------------+ //| Input parameters | //+------------------------------------------------------------------+ input datetime Start = D'2010.01.01'; input datetime End = D'2025.01.01'; input int Iterations = 1000000; input double MinBalance = 50; input double MaxBalance = 300; input group "---- Indicators ----" input ENUM_TIMEFRAMES TimeFrame = PERIOD_M1; //--- input group "---- RSI ----" input int RSIPeriod = 14; //Period input ENUM_APPLIED_PRICE RSIPrice = PRICE_CLOSE; //Applied price //--- input group "---- CCI ----" input int CCIPeriod = 14; //Period input ENUM_APPLIED_PRICE CCIPrice = PRICE_TYPICAL; //Applied price //--- input group "---- ATR ----" input int ATRPeriod = 14; //Period //--- input group "---- MACD ----" input int FastPeriod = 12; //Fast input int SlowPeriod = 26; //Slow input int SignalPeriod = 9; //Signal input ENUM_APPLIED_PRICE MACDPrice = PRICE_CLOSE; //Applied price //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ CNet cEncoder; CNet caForecast[3]; CNet cActor; CNet cCritic; CNet cDirector; //--- CSymbolInfo Symb; MqlRates Rates[]; CiRSI RSI; CiCCI CCI; CiATR ATR; CiMACD MACD; //--- float dError; datetime dtStudied; //--- CBufferFloat bState; CBufferFloat bAccount; CBufferFloat bTime; CBufferFloat bGradient; CBufferFloat *Result; CBufferFloat *Action; vector check; //+------------------------------------------------------------------+ //| Expert initialization function | //+------------------------------------------------------------------+ int OnInit() { //--- ResetLastError(); //--- load models float temp; CArrayObj *encoder = new CArrayObj(); CArrayObj *forecast[3]; CArrayObj *actor = new CArrayObj(); CArrayObj *director = new CArrayObj(); CArrayObj *critic = new CArrayObj(); if(!CreateDescriptions(encoder, forecast[0], forecast[1], forecast[2], actor, director, critic)) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } if(!cEncoder.Load(FileName + "Enc.nnw", temp, temp, temp, dtStudied, true)) { Print("Create new State Encoder"); if(!cEncoder.Create(encoder)) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } } for(uint f = 0; f < forecast.Size(); f++) { if(!caForecast[f].Load(StringFormat("%sFrc%d.nnw", FileName, f), temp, temp, temp, dtStudied, true)) { Print("Create new Forecast model"); if(!caForecast[f].Create(forecast[f])) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } } } if(!cActor.Load(FileName + "Act.nnw", temp, temp, temp, dtStudied, true)) { Print("Create new Actor"); if(!cActor.Create(actor)) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } } if(!cCritic.Load(FileName + "Crt.nnw", temp, temp, temp, dtStudied, true)) { Print("Create new Critic"); if(!cCritic.Create(critic)) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } } if(!cDirector.Load(FileName + "Drc.nnw", temp, temp, temp, dtStudied, true)) { Print("Create new Director"); if(!cDirector.Create(director)) { delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; return INIT_FAILED; } } delete encoder; delete actor; delete director; delete critic; for(uint i = 0; i < forecast.Size(); i++) delete forecast[i]; //--- cEncoder.TrainMode(true); cActor.TrainMode(true); cCritic.TrainMode(true); cDirector.TrainMode(true); for(uint i = 0; i < caForecast.Size(); i++) caForecast[i].TrainMode(true); COpenCL *opencl=cActor.GetOpenCL(); cDirector.SetOpenCL(opencl); cCritic.SetOpenCL(opencl); cEncoder.SetOpenCL(opencl); for(uint i = 0; i < caForecast.Size(); i++) caForecast[i].SetOpenCL(opencl); //--- if(!Symb.Name(_Symbol) || !Symb.Refresh()) return INIT_FAILED; //--- if(!RSI.Create(Symb.Name(), TimeFrame, RSIPeriod, RSIPrice)) return INIT_FAILED; //--- if(!CCI.Create(Symb.Name(), TimeFrame, CCIPeriod, CCIPrice)) return INIT_FAILED; //--- if(!ATR.Create(Symb.Name(), TimeFrame, ATRPeriod)) return INIT_FAILED; //--- if(!MACD.Create(Symb.Name(), TimeFrame, FastPeriod, SlowPeriod, SignalPeriod, MACDPrice)) return INIT_FAILED; //--- cEncoder.TrainMode(true); //--- cEncoder.GetLayerOutput(0, Result); if(Result.Total() != (HistoryBars * BarDescr)) { PrintFormat("Input size of Encoder doesn't match state description (%d <> %d)", Result.Total(), (HistoryBars * BarDescr)); return INIT_FAILED; } //--- if(!EventChartCustom(ChartID(), 1, 0, 0, "Init")) { PrintFormat("Error of create study event: %d", GetLastError()); return INIT_FAILED; } //--- return(INIT_SUCCEEDED); } //+------------------------------------------------------------------+ //| Expert deinitialization function | //+------------------------------------------------------------------+ void OnDeinit(const int reason) { //--- if(!(reason == REASON_INITFAILED || reason == REASON_RECOMPILE)) { if(!cEncoder.Save(FileName + "Enc.nnw", 0, 0, 0, TimeCurrent(), true)) PrintFormat("Error of save model: %s", "Encoder"); for(uint f = 0; f < caForecast.Size(); f++) { if(!caForecast[f].Save(StringFormat("%sFrc%d.nnw", FileName, f), 0, 0, 0, TimeCurrent(), true)) PrintFormat("Error of save model: %s %d", "Forecast", f); } if(!cActor.Save(FileName + "Act.nnw", 0, 0, 0, TimeCurrent(), true)) PrintFormat("Error of save model: %s", "Encoder"); if(!cCritic.Save(FileName + "Crt.nnw", 0, 0, 0, TimeCurrent(), true)) PrintFormat("Error of save model: %s", "Encoder"); if(!cDirector.Save(FileName + "Drc.nnw", 0, 0, 0, TimeCurrent(), true)) PrintFormat("Error of save model: %s", "Encoder"); } delete Result; delete Action; } //+------------------------------------------------------------------+ //| ChartEvent function | //+------------------------------------------------------------------+ void OnChartEvent(const int id, const long &lparam, const double &dparam, const string &sparam) { //--- switch(id) { case 1001: Train(); break; case 1007: PrintFormat("Wrong event: %d", id); ExpertRemove(); break; } } //+------------------------------------------------------------------+ //| Train function | //+------------------------------------------------------------------+ void Train(void) { int start = iBarShift(Symb.Name(), TimeFrame, Start); int end = iBarShift(Symb.Name(), TimeFrame, End); int bars = CopyRates(Symb.Name(), TimeFrame, 0, start, Rates); //--- if(!RSI.BufferResize(bars) || !CCI.BufferResize(bars) || !ATR.BufferResize(bars) || !MACD.BufferResize(bars)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); ExpertRemove(); return; } //--- int count = -1; bool calculated = false; do { count++; calculated = (RSI.BarsCalculated() >= bars && CCI.BarsCalculated() >= bars && ATR.BarsCalculated() >= bars && MACD.BarsCalculated() >= bars ); Sleep(100); count++; } while(!calculated && count < 100); if(!calculated) { PrintFormat("%s -> %d The training data has not been loaded", __FUNCTION__, __LINE__); ExpertRemove(); return; } RSI.Refresh(); CCI.Refresh(); ATR.Refresh(); MACD.Refresh(); //--- if(!ArraySetAsSeries(Rates, true)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); ExpertRemove(); return; } bars -= end + HistoryBars + NForecast; if(bars < 0) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); ExpertRemove(); return; } //--- vector result, target, neg_target; bool Stop = false; //--- uint ticks = GetTickCount(); //--- for(int iter = 0; (iter < Iterations && !IsStopped() && !Stop); iter ++) { int posit = (int)((MathRand() * MathRand() / MathPow(32767, 2)) * bars); if(!CreateBuffers(posit + end, GetPointer(bState), GetPointer(bTime), Result)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); ExpertRemove(); return; } const vector account = SampleAccount(GetPointer(bState), datetime(bTime[0])); if(!bAccount.AssignArray(account)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); ExpertRemove(); return; } //--- Feed Forward if(!cEncoder.feedForward((CBufferFloat*)GetPointer(bState), 1, false, (CBufferFloat*)GetPointer(bTime))) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } for(uint f = 0; f < caForecast.Size(); f++) if(!caForecast[f].feedForward(GetPointer(cEncoder), -1, (CBufferFloat*)NULL)) { PrintFormat("%s -> %d - Forecast %d", __FUNCTION__, __LINE__, f); Stop = true; break; } if(!cActor.feedForward(GetPointer(bAccount), 1, false, GetPointer(cEncoder), LatentLayer)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(!cCritic.feedForward(GetPointer(cActor), -1, GetPointer(cEncoder), LatentLayer)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(!cDirector.feedForward(GetPointer(cActor), -1, GetPointer(cEncoder), LatentLayer)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } //--- Study for(uint f = 0; f < caForecast.Size(); f++) if(!caForecast[f].backProp(Result, (CBufferFloat*)NULL) || !cEncoder.backPropGradient((CBufferFloat*)NULL)) { PrintFormat("%s -> %d - Forecast %d", __FUNCTION__, __LINE__, f); Stop = true; break; } //--- cActor.getResults(Action); double equity = bAccount[2] * bAccount[0] * EtalonBalance / (1 + bAccount[1]); double reward = CheckAction(Action, Result, equity); Result.Clear(); if(!Result.Add(float(reward))) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(!cCritic.backProp(Result, GetPointer(cEncoder), LatentLayer) || !cActor.backPropGradient(GetPointer(cEncoder), LatentLayer, -1, true)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(!Result.Update(0, float(reward > 0))) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(!cDirector.backProp(Result, GetPointer(cEncoder), LatentLayer) || !cActor.backPropGradient(GetPointer(cEncoder), LatentLayer, -1, true)) { PrintFormat("%s -> %d", __FUNCTION__, __LINE__); Stop = true; break; } if(GetTickCount() - ticks > 500) { double percent = double(iter) * 100.0 / (Iterations); string str = ""; for(uint f = 0; f < caForecast.Size(); f++) str += StringFormat("%-12s%d %6.2f%% -> Error %15.8f\n", "Forecast", f, percent, caForecast[f].getRecentAverageError()); str += StringFormat("%-12s %6.2f%% -> Error %15.8f\n", "Critic", percent, cCritic.getRecentAverageError()); str += StringFormat("%-12s %6.2f%% -> Error %15.8f\n", "Director", percent, cDirector.getRecentAverageError()); Comment(str); ticks = GetTickCount(); } } Comment(""); //--- for(uint f = 0; f < caForecast.Size(); f++) PrintFormat("%s -> %d -> %-15s%d %10.7f", __FUNCTION__, __LINE__, "Forecast", f, caForecast[f].getRecentAverageError()); PrintFormat("%s -> %d -> %-15s %10.7f", __FUNCTION__, __LINE__, "Critic", cCritic.getRecentAverageError()); PrintFormat("%s -> %d -> %-15s %10.7f", __FUNCTION__, __LINE__, "Director", cDirector.getRecentAverageError()); ExpertRemove(); //--- } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool CreateBuffers(const int start_bar, CBufferFloat* state, CBufferFloat *time, CBufferFloat* forecast) { if(!state || !time || start_bar < 0 || (start_bar + HistoryBars + NForecast) >= int(Rates.Size())) return false; //--- vector vState = vector::Zeros(HistoryBars * BarDescr); vector vForecast = vector::Zeros(NForecast * BarDescr); time.Clear(); time.Reserve(HistoryBars); int bar = start_bar + NForecast; for(int b = 0; b < (int)HistoryBars; b++) { float open = (float)Rates[b + bar].open; float rsi = (float)RSI.Main(b + bar); float cci = (float)CCI.Main(b + bar); float atr = (float)ATR.Main(b + bar); float macd = (float)MACD.Main(b + bar); float sign = (float)MACD.Signal(b + bar); if(rsi == EMPTY_VALUE || cci == EMPTY_VALUE || atr == EMPTY_VALUE || macd == EMPTY_VALUE || sign == EMPTY_VALUE) return false; //--- int shift = b * BarDescr; vState[shift] = (float)(Rates[b + bar].close - open); vState[shift + 1] = (float)(Rates[b + bar].high - open); vState[shift + 2] = (float)(Rates[b + bar].low - open); vState[shift + 3] = (float)(Rates[b + bar].tick_volume / 1000.0f); vState[shift + 4] = rsi; vState[shift + 5] = cci; vState[shift + 6] = atr; vState[shift + 7] = macd; vState[shift + 8] = sign; if(!time.Add(float(Rates[b + bar].time))) return false; } //--- bar--; for(int b = 0; b < (int)NForecast; b++) { float open = (float)Rates[bar - b].open; float rsi = (float)RSI.Main(bar - b); float cci = (float)CCI.Main(bar - b); float atr = (float)ATR.Main(bar - b); float macd = (float)MACD.Main(bar - b); float sign = (float)MACD.Signal(bar - b); if(rsi == EMPTY_VALUE || cci == EMPTY_VALUE || atr == EMPTY_VALUE || macd == EMPTY_VALUE || sign == EMPTY_VALUE) return false; //--- int shift = (NForecast - b - 1) * BarDescr; vForecast[shift] = (float)(Rates[bar - b].close - open); vForecast[shift + 1] = (float)(Rates[bar - b].high - open); vForecast[shift + 2] = (float)(Rates[bar - b].low - open); vForecast[shift + 3] = (float)(Rates[bar - b].tick_volume / 1000.0f); vForecast[shift + 4] = rsi; vForecast[shift + 5] = cci; vForecast[shift + 6] = atr; vForecast[shift + 7] = macd; vForecast[shift + 8] = sign; } //--- if(!state.AssignArray(vState)) return false; if(!forecast.AssignArray(vForecast)) return false; if(time.GetIndex() >= 0) if(!time.BufferWrite()) return false; //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ const vector SampleAccount(CBufferFloat *state, datetime time) { vector result = vector::Zeros(AccountDescr); if(!state) return result; //--- double marg = 0; if(!Symb.RefreshRates() || !OrderCalcMargin(ORDER_TYPE_BUY, Symb.Name(), 1, Symb.Ask(), marg)) return result; double buy_lot = 0, sell_lot = 0, profit = 0; double deal = MathRand() / (32767 * 0.5) - 1; double multiplyer = 1.0 / (60.0 * 60.0 * 10.0); //--- double balance = (MaxBalance - MinBalance) * MathRand() / 32767.0 + MinBalance; double prev_balance = balance; double equity = balance; double prev_equity = balance; double position_discount = 0; //--- if(deal > 0) { double lot = balance / (2.0 * marg) * deal; if(lot >= Symb.LotsMin()) buy_lot = MathMin(int((lot - Symb.LotsMin()) / Symb.LotsStep()) * Symb.LotsStep() + Symb.LotsMin(), 1.0); } else if(deal < 0) { double lot = MathAbs(balance / (2.0 * marg) * deal); if(lot >= Symb.LotsMin()) sell_lot = MathMin(int((lot - Symb.LotsMin()) / Symb.LotsStep()) * Symb.LotsStep() + Symb.LotsMin(), 1.0); } else prev_balance += (MathRand() / (2.0 * 32767.0) - 0.25) * balance; //--- if(sell_lot > 0 || buy_lot > 0) { int pos_open = int(MathRand() / 32767.0 * (state.Total()/BarDescr - 1)); for(int i = 0; i <= pos_open; i++) profit += state.At(i * BarDescr) / Symb.TickSize() * Symb.TickValue(); profit *= buy_lot - sell_lot; equity += profit; prev_equity = equity - state.At(0) / Symb.TickSize() * Symb.TickValue() * (buy_lot - sell_lot); position_discount = pos_open * PeriodSeconds(TimeFrame) * multiplyer * MathAbs(profit); } //--- result[0] = float(balance / EtalonBalance); result[1] = float((balance - prev_balance) / prev_balance); result[2] = float(equity / prev_balance); result[3] = float((equity - prev_equity) / prev_equity); result[4] = float(buy_lot); result[5] = float(sell_lot); result[6] = float(buy_lot * profit / prev_balance); result[7] = float(sell_lot * profit / prev_balance); result[8] = float(position_discount / prev_balance); double x = time / (double)(D'2024.01.01' - D'2023.01.01'); result[9] = float(MathSin(x != 0 ? 2.0 * M_PI * x : 0)); x = time / (double)PeriodSeconds(PERIOD_MN1); result[10] = float(MathCos(x != 0 ? 2.0 * M_PI * x : 0)); x = time / (double)PeriodSeconds(PERIOD_W1); result[11] = float(MathSin(x != 0 ? 2.0 * M_PI * x : 0)); x = time / (double)PeriodSeconds(PERIOD_D1); result[12] = float(MathSin(x != 0 ? 2.0 * M_PI * x : 0)); //--- return result; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ double CheckAction(CBufferFloat *action, CBufferFloat *forecast, double equity) { if(!action || !forecast) return 0; //--- double buy_lot = MathMax(double(action[0] - action[3]), 0); double sell_lot = MathMax(double(action[3] - action[0]), 0); if(MathMax(buy_lot, sell_lot) < Symb.LotsMin()) return -10; double marg = 0; if(!OrderCalcMargin(ORDER_TYPE_BUY, Symb.Name(), 1, Symb.Ask(), marg)) return 0; if((marg * MathMax(buy_lot, sell_lot)) >= equity) return -10; //--- double tp = 0, sl = 0, profit = 0; double point_cost = 1 / Symb.TickSize() * Symb.TickValue() * (buy_lot - sell_lot); if(buy_lot > 0) { tp = action[1] * MaxTP - Symb.Spread(); sl = action[2] * MaxSL + Symb.Spread(); if(int(tp) < Symb.StopsLevel() || int(sl) < Symb.StopsLevel()) return -10; tp *= Symb.Point(); sl *= Symb.Point(); for(int i = 0; i < forecast.Total(); i++) { int shift = i * BarDescr; if(sl <= (-forecast[shift + 2])) { profit -= sl * point_cost * MathPow(DiscFactor, i); break; } if(tp <= forecast[shift + 1]) { profit += tp * point_cost * MathPow(DiscFactor, i); break; } profit += forecast[shift] * point_cost * MathPow(DiscFactor, i); if(-profit >= equity) break; tp-=forecast[shift]; sl+=forecast[shift]; } } //--- if(sell_lot > 0) { tp = action[4] * MaxTP - Symb.Spread(); sl = action[5] * MaxSL + Symb.Spread(); if(int(tp) < Symb.StopsLevel() || int(sl) < Symb.StopsLevel()) return -10; tp *= Symb.Point(); sl *= Symb.Point(); for(int i = 0; i < forecast.Total(); i++) { int shift = i * BarDescr; if(sl <= forecast[shift + 1]) { profit += sl * point_cost * MathPow(DiscFactor, i); break; } if(tp <= (-forecast[shift + 2])) { profit -= tp * point_cost * MathPow(DiscFactor, i); break; } profit += forecast[shift] * point_cost * MathPow(DiscFactor, i); if(-profit >= equity) break; sl-=forecast[shift]; tp+=forecast[shift]; } } //--- return profit; } //+------------------------------------------------------------------+