//+------------------------------------------------------------------+ //| CCI Ma cross.mq4 | //+------------------------------------------------------------------+ #property copyright "www,forex-station.com" #property link "www,forex-station.com" #property indicator_separate_window #property indicator_buffers 1 #property indicator_color1 clrWhite #property indicator_color2 clrYellow #property indicator_width1 1 #property indicator_width2 1 // // // // // enum enPrices { pr_close, // Close pr_open, // Open pr_high, // High pr_low, // Low pr_median, // Median pr_typical, // Typical pr_weighted, // Weighted pr_average, // Average (high+low+open+close)/4 pr_medianb, // Average median body (open+close)/2 pr_tbiased, // Trend biased price pr_tbiased2, // Trend biased (extreme) price pr_haclose, // Heiken ashi close pr_haopen , // Heiken ashi open pr_hahigh, // Heiken ashi high pr_halow, // Heiken ashi low pr_hamedian, // Heiken ashi median pr_hatypical, // Heiken ashi typical pr_haweighted, // Heiken ashi weighted pr_haaverage, // Heiken ashi average pr_hamedianb, // Heiken ashi median body pr_hatbiased, // Heiken ashi trend biased price pr_hatbiased2, // Heiken ashi trend biased (extreme) price pr_habclose, // Heiken ashi (better formula) close pr_habopen , // Heiken ashi (better formula) open pr_habhigh, // Heiken ashi (better formula) high pr_hablow, // Heiken ashi (better formula) low pr_habmedian, // Heiken ashi (better formula) median pr_habtypical, // Heiken ashi (better formula) typical pr_habweighted,// Heiken ashi (better formula) weighted pr_habaverage, // Heiken ashi (better formula) average pr_habmedianb, // Heiken ashi (better formula) median body pr_habtbiased, // Heiken ashi (better formula) trend biased price pr_habtbiased2 // Heiken ashi (better formula) trend biased (extreme) price }; enum enMaTypes { ma_sma, // Simple moving average ma_ema, // Exponential moving average ma_smma, // Smoothed MA ma_lwma, // Linear weighted MA ma_slwma, // Smoothed LWMA ma_dsema, // Double Smoothed Exponential average ma_tema, // Triple exponential moving average - TEMA ma_lsma, // Linear regression value (lsma) ma_t3 // T3 }; extern int CciPeriod = 20; extern enPrices CciPrice = pr_typical; // Fast moving average price to use extern enMaTypes MaMethod = ma_sma; extern double MaPeriod = 9; extern double T3Hot = 0.618; extern bool T3Original = false; extern bool alertsOn = true; extern bool alertsOnCurrent = true; extern bool alertsMessage = false; extern bool alertsSound = true; extern bool alertsEmail = false; extern bool alertsNotify = false; extern string soundfile = "Cable 5 ready.wav";// "alert2.wav" extern bool verticalLinesVisible = false;// ******************** extern string verticalLinesID = "CCiLines"; extern color verticalLinesUpColor = clrDeepSkyBlue; extern color verticalLinesDnColor = clrPaleVioletRed; extern ENUM_LINE_STYLE verticalLinesStyle = STYLE_DASHDOT; extern int verticalLinesWidth = 0; extern bool ShowArrows = false; extern string arrowsIdentifier = "CCi_T3_Ma cross Arrows"; extern double arrowsUpperGap = 0.5; extern double arrowsLowerGap = 0.5; extern color arrowsUpColor = clrYellow;//********************* extern color arrowsDnColor = clrYellow; extern color arrowsUpCode = 233;//241 extern color arrowsDnCode = 234;//242 extern color LevZeroCol = clrWhite ; extern color LevMidCol = clrYellow; extern color LevOutCol = clrLime ; // // // // // double cci[]; double ccima[]; double prices[]; double trend[]; double cross[]; string shortName_ADPSN; //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ // // // // // int init() { for (int i=0; i0) counted_bars--; limit = MathMin(Bars-counted_bars,Bars-1); // // // // // double indlev1 ,indlev2 ,indlev3 ,indlev4 ,indlev5 ,indlev6 ,indlev7; switch(Period()) { case 1: case 5: case 15: case 30: case 60: case 240: case 1440: case 10080: case 43200: indlev1 = 200 ; indlev2 = 100 ; indlev3 = 0 ; indlev4 = -100 ; indlev5 = -200 ; indlev6 = -300 ; indlev7 = 300 ; break; } drawLine_ADPSN(indlev1, "Ln1_ADPSN" ,STYLE_DOT , LevOutCol , 0 ); drawLine_ADPSN(indlev2, "Ln2_ADPSN" ,STYLE_DOT , LevMidCol , 0 ); drawLine_ADPSN(indlev3, "Ln3_ADPSN" ,STYLE_DOT , LevZeroCol , 0 ); //+MagicNumber drawLine_ADPSN(indlev4, "Ln4_ADPSN" ,STYLE_DOT , LevMidCol , 0 ); drawLine_ADPSN(indlev5, "Ln5_ADPSN" ,STYLE_DOT , LevOutCol , 0 ); drawLine_ADPSN(indlev6, "Ln6_ADPSN" ,STYLE_DOT , LevMidCol , 0 ); drawLine_ADPSN(indlev7, "Ln7_ADPSN" ,STYLE_DOT , LevOutCol , 0 ); for(i=limit; i>=0; i--) { prices[i] = getPrice(CciPrice,Open,Close,High,Low,i,Bars); double avg = 0; for(k=0; kccima[i]) trend[i] = 1; if (cci[i]0) cross[i] = 1; if (cci[i]<0) cross[i] =-1; // // // // // if (verticalLinesVisible) { deleteLine(Time[i]); if (trend[i]!=trend[i+1]) { if (trend[i] == 1) drawLine(i,verticalLinesUpColor); if (trend[i] ==-1) drawLine(i,verticalLinesDnColor); } } manageArrow(i); } if (alertsOn) { if (alertsOnCurrent) int whichBar = 0; else whichBar = 1; if (trend[whichBar] != trend[whichBar+1]) if (trend[whichBar] == 1) doAlert("crossing up"); else doAlert("crossing down"); } return(0); } //------------------------------------------------------------------ // //------------------------------------------------------------------ // // // // // void doAlert(string doWhat) { static string previousAlert="nothing"; static datetime previousTime; string message; if (previousAlert != doWhat || previousTime != Time[0]) { previousAlert = doWhat; previousTime = Time[0]; // // // // // message = StringConcatenate(Symbol()," at ",TimeToStr(TimeLocal(),TIME_SECONDS)," Cci T3Ma ",doWhat); if (alertsMessage) Alert(message); if (alertsEmail) SendMail(StringConcatenate(Symbol()," Cci T3Ma Cross "),message); if (alertsNotify) SendNotification(StringConcatenate(Symbol(), Period() ," Cci T3Ma " +" "+message)); if (alertsSound) PlaySound(soundfile); } } //+---------------------------------------------------------------------------------------------------------------+ //| | //+---------------------------------------------------------------------------------------------------------------+ // // // // // void manageArrow(int i) { if (ShowArrows) { deleteArrow(Time[i]); if (cross[i]!= cross[i+1]) { if (cross[i] == 1) drawArrow(i,arrowsUpColor,arrowsUpCode,false); if (cross[i] ==-1) drawArrow(i,arrowsDnColor,arrowsDnCode, true); } } } // // // // // // // // // // void drawArrow(int i,color theColor,int theCode,bool up) { string name = arrowsIdentifier+":"+Time[i]; double gap = iATR(NULL,0,20,i); // // // // // ObjectCreate(name,OBJ_ARROW,0,Time[i],0); ObjectSet(name,OBJPROP_ARROWCODE,theCode); ObjectSet(name,OBJPROP_COLOR,theColor); if (up) ObjectSet(name,OBJPROP_PRICE1,High[i] + arrowsUpperGap * gap); else ObjectSet(name,OBJPROP_PRICE1,Low[i] - arrowsLowerGap * gap); } // // // // // void deleteArrows() { string lookFor = arrowsIdentifier+":"; int lookForLength = StringLen(lookFor); for (int i=ObjectsTotal()-1; i>=0; i--) { string objectName = ObjectName(i); if (StringSubstr(objectName,0,lookForLength) == lookFor) ObjectDelete(objectName); } } // // // // // void deleteArrow(datetime time) { string lookFor = arrowsIdentifier+":"+time; ObjectDelete(lookFor); } //------------------------------------------------------------------ // //------------------------------------------------------------------ // // // // // double workT3[][6]; double workT3Coeffs[][6]; #define _period 0 #define _c1 1 #define _c2 2 #define _c3 3 #define _c4 4 #define _alpha 5 // // // // // double iT3(double price, double period, double hot, bool original, int i, int bars, int instanceNo=0) { if (ArrayRange(workT3,0) != bars) ArrayResize(workT3,bars); if (ArrayRange(workT3Coeffs,0) < (instanceNo+1)) ArrayResize(workT3Coeffs,instanceNo+1); if (workT3Coeffs[instanceNo][_period] != period) { workT3Coeffs[instanceNo][_period] = period; double a = hot; workT3Coeffs[instanceNo][_c1] = -a*a*a; workT3Coeffs[instanceNo][_c2] = 3*a*a+3*a*a*a; workT3Coeffs[instanceNo][_c3] = -6*a*a-3*a-3*a*a*a; workT3Coeffs[instanceNo][_c4] = 1+3*a+a*a*a+3*a*a; if (original) workT3Coeffs[instanceNo][_alpha] = 2.0/(1.0 + period); else workT3Coeffs[instanceNo][_alpha] = 2.0/(2.0 + (period-1.0)/2.0); } // // // // // int buffer = instanceNo*6; int r = bars-i-1; if (r == 0) { workT3[r][0+buffer] = price; workT3[r][1+buffer] = price; workT3[r][2+buffer] = price; workT3[r][3+buffer] = price; workT3[r][4+buffer] = price; workT3[r][5+buffer] = price; } else { workT3[r][0+buffer] = workT3[r-1][0+buffer]+workT3Coeffs[instanceNo][_alpha]*(price -workT3[r-1][0+buffer]); workT3[r][1+buffer] = workT3[r-1][1+buffer]+workT3Coeffs[instanceNo][_alpha]*(workT3[r][0+buffer]-workT3[r-1][1+buffer]); workT3[r][2+buffer] = workT3[r-1][2+buffer]+workT3Coeffs[instanceNo][_alpha]*(workT3[r][1+buffer]-workT3[r-1][2+buffer]); workT3[r][3+buffer] = workT3[r-1][3+buffer]+workT3Coeffs[instanceNo][_alpha]*(workT3[r][2+buffer]-workT3[r-1][3+buffer]); workT3[r][4+buffer] = workT3[r-1][4+buffer]+workT3Coeffs[instanceNo][_alpha]*(workT3[r][3+buffer]-workT3[r-1][4+buffer]); workT3[r][5+buffer] = workT3[r-1][5+buffer]+workT3Coeffs[instanceNo][_alpha]*(workT3[r][4+buffer]-workT3[r-1][5+buffer]); } // // // // // return(workT3Coeffs[instanceNo][_c1]*workT3[r][5+buffer] + workT3Coeffs[instanceNo][_c2]*workT3[r][4+buffer] + workT3Coeffs[instanceNo][_c3]*workT3[r][3+buffer] + workT3Coeffs[instanceNo][_c4]*workT3[r][2+buffer]); } //------------------------------------------------------------------ // //------------------------------------------------------------------ // // // // // #define _maInstances 1 #define _maWorkBufferx1 1*_maInstances #define _maWorkBufferx2 2*_maInstances #define _maWorkBufferx3 3*_maInstances double iCustomMa(int mode, double price, double length, int r, int bars, int instanceNo=0) { r = bars-r-1; switch (mode) { case ma_sma : return(iSma(price,(int)length,r,bars,instanceNo)); case ma_ema : return(iEma(price,length,r,bars,instanceNo)); case ma_smma : return(iSmma(price,(int)length,r,bars,instanceNo)); case ma_lwma : return(iLwma(price,(int)length,r,bars,instanceNo)); case ma_slwma : return(iSlwma(price,(int)length,r,bars,instanceNo)); case ma_dsema : return(iDsema(price,length,r,bars,instanceNo)); case ma_tema : return(iTema(price,(int)length,r,bars,instanceNo)); case ma_lsma : return(iLinr(price,(int)length,r,bars,instanceNo)); default : return(price); } } // // // // // double workSma[][_maWorkBufferx1]; double iSma(double price, int period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workSma,0)!= _bars) ArrayResize(workSma,_bars); workSma[r][instanceNo+0] = price; double avg = price; int k=1; for(; k=0; k++) avg += workSma[r-k][instanceNo+0]; return(avg/(double)k); } // // // // // double workEma[][_maWorkBufferx1]; double iEma(double price, double period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workEma,0)!= _bars) ArrayResize(workEma,_bars); workEma[r][instanceNo] = price; if (r>0 && period>1) workEma[r][instanceNo] = workEma[r-1][instanceNo]+(2.0/(1.0+period))*(price-workEma[r-1][instanceNo]); return(workEma[r][instanceNo]); } // // // // // double workSmma[][_maWorkBufferx1]; double iSmma(double price, double period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workSmma,0)!= _bars) ArrayResize(workSmma,_bars); workSmma[r][instanceNo] = price; if (r>1 && period>1) workSmma[r][instanceNo] = workSmma[r-1][instanceNo]+(price-workSmma[r-1][instanceNo])/period; return(workSmma[r][instanceNo]); } // // // // // double workLwma[][_maWorkBufferx1]; double iLwma(double price, double period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workLwma,0)!= _bars) ArrayResize(workLwma,_bars); workLwma[r][instanceNo] = price; if (period<=1) return(price); double sumw = period; double sum = period*price; for(int k=1; k=0; k++) { double weight = period-k; sumw += weight; sum += weight*workLwma[r-k][instanceNo]; } return(sum/sumw); } // // // // // double workSlwma[][_maWorkBufferx2]; double iSlwma(double price, double period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workSlwma,0)!= _bars) ArrayResize(workSlwma,_bars); // // // // // int SqrtPeriod = (int)MathFloor(MathSqrt(period)); instanceNo *= 2; workSlwma[r][instanceNo] = price; // // // // // double sumw = period; double sum = period*price; for(int k=1; k=0; k++) { double weight = period-k; sumw += weight; sum += weight*workSlwma[r-k][instanceNo]; } workSlwma[r][instanceNo+1] = (sum/sumw); // // // // // sumw = SqrtPeriod; sum = SqrtPeriod*workSlwma[r][instanceNo+1]; for(k=1; k=0; k++) { weight = SqrtPeriod-k; sumw += weight; sum += weight*workSlwma[r-k][instanceNo+1]; } return(sum/sumw); } // // // // // double workDsema[][_maWorkBufferx2]; #define _ema1 0 #define _ema2 1 double iDsema(double price, double period, int r, int _bars, int instanceNo=0) { if (ArrayRange(workDsema,0)!= _bars) ArrayResize(workDsema,_bars); instanceNo*=2; // // // // // workDsema[r][_ema1+instanceNo] = price; workDsema[r][_ema2+instanceNo] = price; if (r>0 && period>1) { double alpha = 2.0 /(1.0+MathSqrt(period)); workDsema[r][_ema1+instanceNo] = workDsema[r-1][_ema1+instanceNo]+alpha*(price -workDsema[r-1][_ema1+instanceNo]); workDsema[r][_ema2+instanceNo] = workDsema[r-1][_ema2+instanceNo]+alpha*(workDsema[r][_ema1+instanceNo]-workDsema[r-1][_ema2+instanceNo]); } return(workDsema[r][_ema2+instanceNo]); } // // // // // double workTema[][_maWorkBufferx3]; #define _tema1 0 #define _tema2 1 #define _tema3 2 double iTema(double price, double period, int r, int bars, int instanceNo=0) { if (ArrayRange(workTema,0)!= bars) ArrayResize(workTema,bars); instanceNo*=3; // // // // // workTema[r][_tema1+instanceNo] = price; workTema[r][_tema2+instanceNo] = price; workTema[r][_tema3+instanceNo] = price; if (r>0 && period>1) { double alpha = 2.0 / (1.0+period); workTema[r][_tema1+instanceNo] = workTema[r-1][_tema1+instanceNo]+alpha*(price -workTema[r-1][_tema1+instanceNo]); workTema[r][_tema2+instanceNo] = workTema[r-1][_tema2+instanceNo]+alpha*(workTema[r][_tema1+instanceNo]-workTema[r-1][_tema2+instanceNo]); workTema[r][_tema3+instanceNo] = workTema[r-1][_tema3+instanceNo]+alpha*(workTema[r][_tema2+instanceNo]-workTema[r-1][_tema3+instanceNo]); } return(workTema[r][_tema3+instanceNo]+3.0*(workTema[r][_tema1+instanceNo]-workTema[r][_tema2+instanceNo])); } // // // // // double workLinr[][_maWorkBufferx1]; double iLinr(double price, int period, int r, int bars, int instanceNo=0) { if (ArrayRange(workLinr,0)!= bars) ArrayResize(workLinr,bars); // // // // // period = MathMax(period,1); workLinr[r][instanceNo] = price; if (r=0; k++) { double weight = period-k; lwmw += weight; lwma += weight*workLinr[r-k][instanceNo]; sma += workLinr[r-k][instanceNo]; } return(3.0*lwma/lwmw-2.0*sma/period); } //------------------------------------------------------------------ // //------------------------------------------------------------------ // // // // // #define _prHABF(_prtype) (_prtype>=pr_habclose && _prtype<=pr_habtbiased2) #define _priceInstances 1 #define _priceInstancesSize 4 double workHa[][_priceInstances*_priceInstancesSize]; double getPrice(int tprice, const double& open[], const double& close[], const double& high[], const double& low[], int i, int bars, int instanceNo=0) { if (tprice>=pr_haclose) { if (ArrayRange(workHa,0)!= Bars) ArrayResize(workHa,Bars); instanceNo*=_priceInstancesSize; int r = bars-i-1; // // // // // double haOpen = (r>0) ? (workHa[r-1][instanceNo+2] + workHa[r-1][instanceNo+3])/2.0 : (open[i]+close[i])/2;; double haClose = (open[i]+high[i]+low[i]+close[i]) / 4.0; if (_prHABF(tprice)) if (high[i]!=low[i]) haClose = (open[i]+close[i])/2.0+(((close[i]-open[i])/(high[i]-low[i]))*MathAbs((close[i]-open[i])/2.0)); else haClose = (open[i]+close[i])/2.0; double haHigh = fmax(high[i], fmax(haOpen,haClose)); double haLow = fmin(low[i] , fmin(haOpen,haClose)); // // // // // if(haOpenhaOpen) return((haHigh+haClose)/2.0); else return((haLow+haClose)/2.0); case pr_hatbiased2: case pr_habtbiased2: if (haClose>haOpen) return(haHigh); if (haCloseopen[i]) return((high[i]+close[i])/2.0); else return((low[i]+close[i])/2.0); case pr_tbiased2: if (close[i]>open[i]) return(high[i]); if (close[i]=0; i--) { string objectName = ObjectName(i); if (StringSubstr(objectName,0,lookForLength) == lookFor) ObjectDelete(objectName); } } // // // // // void deleteLine(datetime time) { string lookFor = verticalLinesID+":"+time; ObjectDelete(lookFor); } //================HORIZONTAL COLOR LINES========================================================================== void drawLine_ADPSN(double lvl_ADPSN,string name_ADPSN, double Style_ADPSN, color Col_ADPSN, double Size_ADPSN ) { int indicatorWindow_ADPSN = WindowFind(shortName_ADPSN); if(indicatorWindow_ADPSN < 0) return; ObjectDelete(name_ADPSN); ObjectCreate(name_ADPSN, OBJ_HLINE,indicatorWindow_ADPSN, Time[0], lvl_ADPSN,Time[0],lvl_ADPSN); ObjectSet (name_ADPSN , OBJPROP_STYLE, Style_ADPSN); ObjectSet (name_ADPSN , OBJPROP_COLOR, Col_ADPSN); ObjectSet (name_ADPSN , OBJPROP_WIDTH, Size_ADPSN); ObjectSet (name_ADPSN , OBJPROP_BACK, true); } //=====================================================================================================+