//+--------------------------------------------------------------------+ //| Copyright: (C) 2014, Miroslav Popov - All rights reserved! | //| Website: http://forexsb.com/ | //| Support: http://forexsb.com/forum/ | //| License: Proprietary under the following circumstances: | //| | //| This code is a part of Forex Strategy Builder. It is free for | //| use as an integral part of Forex Strategy Builder. | //| One can modify it in order to improve the code or to fit it for | //| personal use. This code or any part of it cannot be used in | //| another applications without a permission. Contact information | //| cannot be changed. | //| | //| NO LIABILITY FOR CONSEQUENTIAL DAMAGES | //| | //| In no event shall the author be liable for any damages whatsoever | //| (including, without limitation, incidental, direct, indirect and | //| consequential damages, damages for loss of business profits, | //| business interruption, loss of business information, or other | //| pecuniary loss) arising out of the use or inability to use this | //| product, even if advised of the possibility of such damages. | //+--------------------------------------------------------------------+ #property copyright "Copyright 2014, Miroslav Popov" #property link "http://forexsb.com" #property version "1.00" #property strict #include #include //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ class ParabolicSARComboCrossover : public Indicator { public: ParabolicSARComboCrossover(SlotTypes slotType) { SlotType=slotType; IndicatorName="Parabolic SAR Combo Crossover"; WarningMessage = ""; IsAllowLTF = true; ExecTime = ExecutionTime_DuringTheBar; IsSeparateChart = false; IsDiscreteValues = false; IsDeafultGroupAll = false; } virtual void Calculate(DataSet &dataSet); }; //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ void ParabolicSARComboCrossover::Calculate(DataSet &dataSet) { Data=GetPointer(dataSet); // Reading the parameters double dAfMin1 = NumParam[0].Value; double dAfMin2 = NumParam[1].Value; double dAfInc1 = NumParam[2].Value; double dAfInc2 = NumParam[3].Value; double dAfMax1 = NumParam[4].Value; double dAfMax2 = NumParam[5].Value; int previous=CheckParam[0].Checked ? 1 : 0; // Reading the parameters double dPExtr1; double dPExtr2; double dadPsarNew1 = 0; double dadPsarNew2 = 0; int aiDir1[]; ArrayResize(aiDir1,Data.Bars); ArrayInitialize(aiDir1, 0); int aiDir2[]; ArrayResize(aiDir2,Data.Bars); ArrayInitialize(aiDir2, 0); double adPsar1[]; ArrayResize(adPsar1,Data.Bars);ArrayInitialize(adPsar1, 0); double adPsar2[]; ArrayResize(adPsar2,Data.Bars);ArrayInitialize(adPsar2, 0); //---- Calculating the initial values adPsar1[0] = 0; adPsar2[0] = 0; double dAf1 = dAfMin1; double dAf2 = dAfMin2; int intDirNew1 = 0; int intDirNew2 = 0; if(Data.Close[1]>Data.Open[0]) { aiDir1[0] = 1; aiDir2[0] = 1; aiDir1[1] = 1; aiDir2[1] = 1; dPExtr1 = MathMax(Data.High[0], Data.High[1]); dPExtr2 = MathMax(Data.High[0], Data.High[1]); adPsar1[1] = MathMin(Data.Low[0], Data.Low[1]); adPsar2[1] = MathMin(Data.Low[0], Data.Low[1]); } else { aiDir1[0] = -1; aiDir2[0] = -1; aiDir1[1] = -1; aiDir2[1] = -1; dPExtr1 = MathMin(Data.Low[0], Data.Low[1]); dPExtr2 = MathMin(Data.Low[0], Data.Low[1]); adPsar1[1] = MathMax(Data.High[0], Data.High[1]); adPsar2[1] = MathMax(Data.High[0], Data.High[1]); } for(int iBar=2; iBar0 && adPsar1[iBar]>MathMin(Data.Low[iBar-1],Data.Low[iBar-2])) adPsar1[iBar]=MathMin(Data.Low[iBar-1],Data.Low[iBar-2]); else if(aiDir1[iBar]<0 && adPsar1[iBar]0 && adPsar2[iBar]>MathMin(Data.Low[iBar-1],Data.Low[iBar-2])) adPsar2[iBar]=MathMin(Data.Low[iBar-1],Data.Low[iBar-2]); else if(aiDir2[iBar]<0 && adPsar2[iBar]0 && Data.High[iBar]>dPExtr1) { dPExtr1=Data.High[iBar]; dAf1=MathMin(dAf1+dAfInc1,dAfMax1); } if(aiDir1[iBar]<0 && Data.Low[iBar]0 && Data.High[iBar]>dPExtr2) { dPExtr2=Data.High[iBar]; dAf2=MathMin(dAf2+dAfInc2,dAfMax2); } if(aiDir2[iBar]<0 && Data.Low[iBar]0 ? Data.High[iBar]: Data.Low[iBar]; } //--------------------------------------------------------------- if(Data.Low[iBar]<=adPsar2[iBar] && adPsar2[iBar]<=Data.High[iBar]) { intDirNew2=-aiDir2[iBar]; dadPsarNew2=dPExtr2; dAf2=dAfMin2; dPExtr2=intDirNew2>0 ? Data.High[iBar]: Data.Low[iBar]; } } double adMAOscillator[]; ArrayResize(adMAOscillator,Data.Bars);ArrayInitialize(adMAOscillator, 0); for(int iBar=8; iBar