//+------------------------------------------------------------------+ //| NRTR WATR.mq4 | //| Ramdass - Conversion only | //+------------------------------------------------------------------+ #property indicator_chart_window #property indicator_buffers 2 #property indicator_color1 Blue #property indicator_color2 Red //---- input parameters extern int AveragePeriod = 10; extern int Variant = 2; extern int CountBars = 300; //---- buffers double value1[]; double value2[]; //+------------------------------------------------------------------+ //| Custom indicator initialization function | //+------------------------------------------------------------------+ int init() { //---- indicator line IndicatorBuffers(2); SetIndexStyle(0, DRAW_ARROW); SetIndexArrow(0, 167); SetIndexStyle(1, DRAW_ARROW); SetIndexArrow(1, 167); SetIndexBuffer(0, value1); SetIndexBuffer(1, value2); //---- if(CountBars >= Bars) CountBars = Bars - AveragePeriod - 2; SetIndexDrawBegin(0, Bars - CountBars + 1); SetIndexDrawBegin(1, Bars - CountBars + 1); //---- return(0); } //+------------------------------------------------------------------+ //| NRTR WATR | //+------------------------------------------------------------------+ int start() { int i, i2, bar, counted_bars = IndicatorCounted(); double value, WATR; double trend = 1, dK, AvgRange, price, AveragePeriod_D; AveragePeriod_D = AveragePeriod; //---- if(Bars <= AveragePeriod) return(0); //---- initial zero if(counted_bars < 1) { for(i = 1; i <= AveragePeriod; i++) value1[Bars-i] = 0.0; for(i = 1; i <= AveragePeriod; i++) value2[Bars-i] = 0.0; } AvgRange = 0; //---- if((Variant == 2) || (Variant == 3)) { for(i=AveragePeriod; i>=1; i--) { dK = 1 + (AveragePeriod_D - i) / AveragePeriod_D; AvgRange = AvgRange + dK*MathAbs(High[i] - Low[i]); } //---- if(Symbol() == "USDJPY" || Symbol() == "GBPJPY" || Symbol() == "EURJPY") { WATR = AvgRange / AveragePeriod_D / 100; } else { WATR = AvgRange / AveragePeriod_D; } } //---- if(Variant == 1) { for(i = 1; i <= AveragePeriod; i++) { dK = 1 + (AveragePeriod_D - i) / AveragePeriod_D; AvgRange = AvgRange + dK*MathAbs(High[CountBars + i] - Low[CountBars + i]); } WATR = AvgRange/AveragePeriod_D; } //---- if(Close[CountBars-1] > Open[CountBars-1]) { value1[CountBars - 1] = Close[CountBars - 1] * (1 - WATR); trend = 1; value2[CountBars - 1] = 0.0; } //---- if(Close[CountBars-1] < Open[CountBars-1]) { value2[CountBars - 1] = Close[CountBars - 1] * (1 + WATR); trend = -1; value1[CountBars - 1] = 0.0; } bar = CountBars; //---- while(bar >= 0) { value1[bar] = 0.0; value2[bar] = 0.0; //---- if(Variant == 3) { AvgRange = 0; //---- for(i = 1; i <= AveragePeriod; i++) { dK = 1 + (AveragePeriod_D-i) / AveragePeriod_D; AvgRange = AvgRange + dK*MathAbs(High[bar + i] - Low[bar + i]); } WATR = AvgRange / AveragePeriod_D; } //---- if(trend == 1) { if(Close[bar] > price) price = Close[bar]; value = price * (1 - WATR); //---- if(Close[bar] < value) { price = Close[bar]; value = price * (1 + WATR); trend = -1; } } //---- if(trend == -1) { if(Close[bar] < price) price = Close[bar]; value = price * (1 + WATR); //---- if(Close[bar] > value) { price = Close[bar]; value = price * (1 - WATR); trend = 1; } } //---- if(trend == 1) { value1[bar] = value; value2[bar] = 0.0; } //---- if(trend == -1) { value2[bar] = value; value1[bar] = 0.0; } bar--; } return(0); } //+------------------------------------------------------------------+