//+------------------------------------------------------------------+ //| Trajectory.mqh | //| 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" //+------------------------------------------------------------------+ //| Rewards structure | //| 0 - Delta Balance | //| 1 - Delta Equity ( "-" Drawdown / "+" Profit) | //| 2 - Penalty for no open positions | //| 3 - NNM | //+------------------------------------------------------------------+ #include "..\RL\FQF.mqh" //--- #define HistoryBars 20 //Depth of history #define BarDescr 9 //Elements for 1 bar description #define AccountDescr 12 //Account description #define NActions 6 //Number of possible Actions #define NRewards 4 //Number of rewards #define EmbeddingSize 16 #define Buffer_Size 6500 #define DiscFactor 0.99f #define FileName "NNM" #define LatentLayer 6 #define LatentCount 512 #define MaxSL 1000 #define MaxTP 1000 #define MaxReplayBuffer 500 #define StartTargetIteration 50000 #define fCAGrad_C 0.5f #define iCAGrad_Iters 15 //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ struct SState { float state[HistoryBars * BarDescr]; float account[AccountDescr - 4]; float action[NActions]; float rewards[NRewards]; //--- SState(void); //--- bool Save(int file_handle); bool Load(int file_handle); //--- overloading void operator=(const SState &obj) { ArrayCopy(state, obj.state); ArrayCopy(account, obj.account); ArrayCopy(action, obj.action); ArrayCopy(rewards, obj.rewards); } }; //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ SState::SState(void) { ArrayInitialize(state, 0); ArrayInitialize(account, 0); ArrayInitialize(action, 0); ArrayInitialize(rewards, 0); } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool SState::Save(int file_handle) { if(file_handle == INVALID_HANDLE) return false; //--- int total = ArraySize(state); if(FileWriteInteger(file_handle, total) < sizeof(int)) return false; for(int i = 0; i < total; i++) if(FileWriteFloat(file_handle, state[i]) < sizeof(float)) return false; //--- total = ArraySize(account); if(FileWriteInteger(file_handle, total) < sizeof(int)) return false; for(int i = 0; i < total; i++) if(FileWriteFloat(file_handle, account[i]) < sizeof(float)) return false; //--- total = ArraySize(action); if(FileWriteInteger(file_handle, total) < sizeof(int)) return false; for(int i = 0; i < total; i++) if(FileWriteFloat(file_handle, action[i]) < sizeof(float)) return false; total = ArraySize(rewards); if(FileWriteInteger(file_handle, total) < sizeof(int)) return false; for(int i = 0; i < total; i++) if(FileWriteFloat(file_handle, rewards[i]) < sizeof(float)) return false; //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool SState::Load(int file_handle) { if(file_handle == INVALID_HANDLE) return false; if(FileIsEnding(file_handle)) return false; //--- int total = FileReadInteger(file_handle); if(total != ArraySize(state)) return false; //--- for(int i = 0; i < total; i++) { if(FileIsEnding(file_handle)) return false; state[i] = FileReadFloat(file_handle); } //--- total = FileReadInteger(file_handle); if(total != ArraySize(account)) return false; //--- for(int i = 0; i < total; i++) { if(FileIsEnding(file_handle)) return false; account[i] = FileReadFloat(file_handle); } //--- total = FileReadInteger(file_handle); if(total != ArraySize(action)) return false; //--- for(int i = 0; i < total; i++) { if(FileIsEnding(file_handle)) return false; action[i] = FileReadFloat(file_handle); } //--- total = FileReadInteger(file_handle); if(total != ArraySize(rewards)) return false; //--- for(int i = 0; i < total; i++) { if(FileIsEnding(file_handle)) return false; rewards[i] = FileReadFloat(file_handle); } //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ struct STrajectory { SState States[Buffer_Size]; int Total; float DiscountFactor; bool CumCounted; //--- STrajectory(void); //--- bool Add(SState &state); void CumRevards(void); //--- bool Save(int file_handle); bool Load(int file_handle); }; //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ STrajectory::STrajectory(void) : Total(0), DiscountFactor(DiscFactor), CumCounted(false) { } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool STrajectory::Save(int file_handle) { if(file_handle == INVALID_HANDLE) return false; //--- if(!CumCounted) CumRevards(); if(FileWriteInteger(file_handle, Total) < sizeof(int)) return false; if(FileWriteFloat(file_handle, DiscountFactor) < sizeof(float)) return false; for(int i = 0; i < Total; i++) if(!States[i].Save(file_handle)) return false; //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool STrajectory::Load(int file_handle) { if(file_handle == INVALID_HANDLE) return false; //--- Total = FileReadInteger(file_handle); if(FileIsEnding(file_handle) || Total >= ArraySize(States)) return false; DiscountFactor=FileReadFloat(file_handle); CumCounted = true; //--- for(int i = 0; i < Total; i++) if(!States[i].Load(file_handle)) return false; //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ void STrajectory::CumRevards(void) { if(CumCounted) return; //--- for(int i = Total - 2; i >= 0; i--) for(int r = 0; r < NRewards; r++) States[i].rewards[r] += States[i + 1].rewards[r] * DiscountFactor; CumCounted = true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool STrajectory::Add(SState &state) { if(Total + 1 >= ArraySize(States)) return false; States[Total] = state; Total++; //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool SaveTotalBase(void) { int total = ArraySize(Buffer); if(total < 0) return true; int handle = FileOpen(FileName + ".bd", FILE_WRITE | FILE_BIN | FILE_COMMON); if(handle < 0) return false; int start = MathMax(total - MaxReplayBuffer, 0); if(FileWriteInteger(handle, total - start) < INT_VALUE) { FileClose(handle); return false; } for(int i = start; i < total; i++) if(!Buffer[i].Save(handle)) { FileClose(handle); return false; } FileFlush(handle); FileClose(handle); //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool LoadTotalBase(void) { int handle = FileOpen(FileName + ".bd", FILE_READ | FILE_BIN | FILE_COMMON | FILE_SHARE_READ); if(handle < 0) return false; int total = FileReadInteger(handle); if(total <= 0) { FileClose(handle); return false; } if(ArrayResize(Buffer, total) < total) { FileClose(handle); return false; } for(int i = 0; i < total; i++) if(!Buffer[i].Load(handle)) { FileClose(handle); return false; } FileClose(handle); //--- return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool CreateDescriptions(CArrayObj *actor, CArrayObj *critic, CArrayObj *convolution) { //--- CLayerDescription *descr; //--- if(!actor) { actor = new CArrayObj(); if(!actor) return false; } if(!critic) { critic = new CArrayObj(); if(!critic) return false; } if(!convolution) { convolution = new CArrayObj(); if(!convolution) return false; } //--- Actor actor.Clear(); //--- Input layer if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; uint prev_count = descr.count = (HistoryBars * BarDescr); descr.activation = None; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 1 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBatchNormOCL; descr.count = prev_count; descr.batch = 1000; descr.activation = None; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 2 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConvOCL; prev_count = descr.count = BarDescr; descr.window = HistoryBars; descr.step = HistoryBars; uint prev_wout=descr.window_out = HistoryBars/2; descr.activation = LReLU; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 3 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConvOCL; prev_count = descr.count = prev_count; descr.window = prev_wout; descr.step = prev_wout; descr.window_out = 8; descr.activation = LReLU; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 4 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = LatentCount; descr.optimization = ADAM; descr.activation = LReLU; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 5 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; prev_count = descr.count = LatentCount; descr.activation = LReLU; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 6 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConcatenate; descr.count = LatentCount; descr.window = prev_count; descr.step = AccountDescr; descr.optimization = ADAM; descr.activation = SIGMOID; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 7 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = LatentCount; descr.activation = LReLU; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 8 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = LatentCount; descr.activation = LReLU; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 9 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = 2 * NActions; descr.activation = SIGMOID; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- layer 10 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronVAEOCL; descr.count = NActions; descr.optimization = ADAM; if(!actor.Add(descr)) { delete descr; return false; } //--- Critic critic.Clear(); //--- Input layer if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; prev_count = descr.count = LatentCount; descr.activation = None; descr.optimization = ADAM; if(!critic.Add(descr)) { delete descr; return false; } //--- layer 1 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConcatenate; descr.count = LatentCount; descr.window = prev_count; descr.step = NActions; descr.optimization = ADAM; descr.activation = LReLU; if(!critic.Add(descr)) { delete descr; return false; } //--- layer 2 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = LatentCount; descr.activation = LReLU; descr.optimization = ADAM; if(!critic.Add(descr)) { delete descr; return false; } //--- layer 3 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = LatentCount; descr.activation = LReLU; descr.optimization = ADAM; if(!critic.Add(descr)) { delete descr; return false; } //--- layer 4 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = NRewards; descr.optimization = ADAM; descr.activation = None; if(!critic.Add(descr)) { delete descr; return false; } //--- Convolution convolution.Clear(); //--- Input layer if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; prev_count = descr.count = (HistoryBars * BarDescr) + AccountDescr; descr.activation = None; descr.optimization = ADAM; if(!convolution.Add(descr)) { delete descr; return false; } //--- layer 1 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = 1024; descr.window = prev_count; descr.step = NActions; descr.optimization = ADAM; descr.activation = SIGMOID; if(!convolution.Add(descr)) { delete descr; return false; } //--- layer 2 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConvOCL; prev_count = descr.count = 1024 / 16; descr.window = 16; descr.step = 16; prev_wout = descr.window_out = 4; descr.activation = LReLU; descr.optimization = ADAM; if(!convolution.Add(descr)) { delete descr; return false; } //--- layer 3 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConvOCL; prev_count = descr.count = (prev_count * prev_wout) / 8; descr.window = 8; descr.step = 8; prev_wout = descr.window_out = 4; descr.activation = LReLU; descr.optimization = ADAM; if(!convolution.Add(descr)) { delete descr; return false; } //--- layer 4 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronConvOCL; prev_count = descr.count = (prev_count * prev_wout) / 4; descr.window = 4; descr.step = 4; prev_wout = descr.window_out = 2; descr.activation = LReLU; descr.optimization = ADAM; if(!convolution.Add(descr)) { delete descr; return false; } //--- layer 5 if(!(descr = new CLayerDescription())) return false; descr.type = defNeuronBaseOCL; descr.count = EmbeddingSize; descr.activation = LReLU; descr.optimization = ADAM; if(!convolution.Add(descr)) { delete descr; return false; } //--- return true; } #ifndef Study //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool IsNewBar(void) { static datetime last_bar = 0; if(last_bar >= iTime(Symb.Name(), TimeFrame, 0)) return false; //--- last_bar = iTime(Symb.Name(), TimeFrame, 0); return true; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool CloseByDirection(ENUM_POSITION_TYPE type) { int total = PositionsTotal(); bool result = true; for(int i = total - 1; i >= 0; i--) { if(PositionGetSymbol(i) != Symb.Name()) continue; if(PositionGetInteger(POSITION_TYPE) != type) continue; result = (Trade.PositionClose(PositionGetInteger(POSITION_TICKET)) && result); } //--- return result; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool TrailPosition(ENUM_POSITION_TYPE type, double sl, double tp) { int total = PositionsTotal(); bool result = true; //--- for(int i = 0; i < total; i++) { if(PositionGetSymbol(i) != Symb.Name()) continue; if(PositionGetInteger(POSITION_TYPE) != type) continue; bool modify = false; double psl = PositionGetDouble(POSITION_SL); double ptp = PositionGetDouble(POSITION_TP); switch(type) { case POSITION_TYPE_BUY: if((sl - psl) >= Symb.Point()) { psl = sl; modify = true; } if(MathAbs(tp - ptp) >= Symb.Point()) { ptp = tp; modify = true; } break; case POSITION_TYPE_SELL: if((psl - sl) >= Symb.Point()) { psl = sl; modify = true; } if(MathAbs(tp - ptp) >= Symb.Point()) { ptp = tp; modify = true; } break; } if(modify) result = (Trade.PositionModify(PositionGetInteger(POSITION_TICKET), psl, ptp) && result); } //--- return result; } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ bool ClosePartial(ENUM_POSITION_TYPE type, double value) { if(value <= 0) return true; //--- for(int i = 0; (i < PositionsTotal() && value > 0); i++) { if(PositionGetSymbol(i) != Symb.Name()) continue; if(PositionGetInteger(POSITION_TYPE) != type) continue; double pvalue = PositionGetDouble(POSITION_VOLUME); if(pvalue <= value) { if(Trade.PositionClose(PositionGetInteger(POSITION_TICKET))) { value -= pvalue; i--; } } else { if(Trade.PositionClosePartial(PositionGetInteger(POSITION_TICKET), value)) value = 0; } } //--- return (value <= 0); } #endif //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ vector ForecastAccount(float &prev_account[], vector &actions,double prof_1l,float time_label) { vector account; double min_lot = SymbolInfoDouble(_Symbol,SYMBOL_VOLUME_MIN); double step_lot = SymbolInfoDouble(_Symbol,SYMBOL_VOLUME_STEP); double stops = MathMax(SymbolInfoInteger(_Symbol,SYMBOL_TRADE_STOPS_LEVEL), 1) * Point(); double margin_buy,margin_sell; if(!OrderCalcMargin(ORDER_TYPE_BUY,_Symbol,1.0,SymbolInfoDouble(_Symbol,SYMBOL_ASK),margin_buy) || !OrderCalcMargin(ORDER_TYPE_SELL,_Symbol,1.0,SymbolInfoDouble(_Symbol,SYMBOL_BID),margin_sell)) return vector::Zeros(prev_account.Size()); //--- account.Assign(prev_account); //--- if(actions[0] >= actions[3]) { actions[0] -= actions[3]; actions[3] = 0; if(actions[0]*margin_buy >= MathMin(account[0],account[1])) actions[0] = 0; } else { actions[3] -= actions[0]; actions[0] = 0; if(actions[3]*margin_sell >= MathMin(account[0],account[1])) actions[3] = 0; } //--- buy control if(actions[0] < min_lot || (actions[1] * MaxTP * Point()) <= stops || (actions[2] * MaxSL * Point()) <= stops) { account[0] += account[4]; account[2] = 0; account[4] = 0; } else { double buy_lot = min_lot + MathRound((double)(actions[0] - min_lot) / step_lot) * step_lot; if(account[2] > buy_lot) { float koef = (float)buy_lot / account[2]; account[0] += account[4] * (1 - koef); account[4] *= koef; } account[2] = (float)buy_lot; account[4] += float(buy_lot * prof_1l); } //--- sell control if(actions[3] < min_lot || (actions[4] * MaxTP * Point()) <= stops || (actions[5] * MaxSL * Point()) <= stops) { account[0] += account[5]; account[3] = 0; account[5] = 0; } else { double sell_lot = min_lot + MathRound((double)(actions[3] - min_lot) / step_lot) * step_lot; if(account[3] > sell_lot) { float koef = float(sell_lot / account[3]); account[0] += account[5] * (1 - koef); account[5] *= koef; } account[3] = float(sell_lot); account[5] -= float(sell_lot * prof_1l); } account[6] = account[4] + account[5]; account[1] = account[0] + account[6]; //--- vector result = vector::Zeros(AccountDescr); result[0] = (account[0] - prev_account[0]) / prev_account[0]; result[1] = account[1] / prev_account[0]; result[2] = (account[1] - prev_account[1]) / prev_account[1]; result[3] = account[2]; result[4] = account[3]; result[5] = account[4] / prev_account[0]; result[6] = account[5] / prev_account[0]; result[7] = account[6] / prev_account[0]; double x = (double)time_label / (double)(D'2024.01.01' - D'2023.01.01'); result[8] = (float)MathSin(2.0 * M_PI * x); x = (double)time_label / (double)PeriodSeconds(PERIOD_MN1); result[9] = (float)MathCos(2.0 * M_PI * x); x = (double)time_label / (double)PeriodSeconds(PERIOD_W1); result[10] = (float)MathSin(2.0 * M_PI * x); x = (double)time_label / (double)PeriodSeconds(PERIOD_D1); result[11] = (float)MathSin(2.0 * M_PI * x); //--- return result return result; } //+------------------------------------------------------------------+