Trend trigger factor JMA - mtf

Author: © mladen, 2018
Price Data Components
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Trend trigger factor JMA - mtf 
ÿþ//------------------------------------------------------------------

#property copyright   "© mladen, 2018"

#property link        "mladenfx@gmail.com"

#property version     "1.00"

#property description "Trend trigger factor JMA"

//------------------------------------------------------------------

#property indicator_separate_window

#property indicator_buffers 6

#property indicator_plots   3

#property indicator_label1  "Filling"

#property indicator_type1   DRAW_FILLING

#property indicator_color1  clrDeepSkyBlue,clrSandyBrown

#property indicator_label2  "Trend trigger factor levels"

#property indicator_type2   DRAW_LINE

#property indicator_color2  clrDarkGray

#property indicator_width2  0

#property indicator_type3   DRAW_COLOR_LINE

#property indicator_color3  clrDarkGray,clrDodgerBlue,clrOrangeRed

#property indicator_width3  2

//

//---

//

enum enTimeFrames

  {

   tf_cu  = PERIOD_CURRENT, // Current time frame

   tf_m1  = PERIOD_M1,      // 1 minute

   tf_m2  = PERIOD_M2,      // 2 minutes

   tf_m3  = PERIOD_M3,      // 3 minutes

   tf_m4  = PERIOD_M4,      // 4 minutes

   tf_m5  = PERIOD_M5,      // 5 minutes

   tf_m6  = PERIOD_M6,      // 6 minutes

   tf_m10 = PERIOD_M10,     // 10 minutes

   tf_m12 = PERIOD_M12,     // 12 minutes

   tf_m15 = PERIOD_M15,     // 15 minutes

   tf_m20 = PERIOD_M20,     // 20 minutes

   tf_m30 = PERIOD_M30,     // 30 minutes

   tf_h1  = PERIOD_H1,      // 1 hour

   tf_h2  = PERIOD_H2,      // 2 hours

   tf_h3  = PERIOD_H3,      // 3 hours

   tf_h4  = PERIOD_H4,      // 4 hours

   tf_h6  = PERIOD_H6,      // 6 hours

   tf_h8  = PERIOD_H8,      // 8 hours

   tf_h12 = PERIOD_H12,     // 12 hours

   tf_d1  = PERIOD_D1,      // daily

   tf_w1  = PERIOD_W1,      // weekly

   tf_mn  = PERIOD_MN1,     // monthly

   tf_cp1 = -1,             // Next higher time frame

   tf_cp2 = -2,             // Second higher time frame

   tf_cp3 = -3              // Third higher time frame

  };

//

//---

//

input enTimeFrames inpTimeFrame     = tf_cu;         // Time frame

input int          inpPeriod        = 15;            // Period

input int          inpJmaPeriod     = 5;             // JMA smoothing period

input double       inpLevels        = 100;           // Levels at +- (nnn)

input bool         inpInterpolate   = true;          // Interpolate in multi time frame mode?



double val[],valc[],lev[],fup[],fdn[],count[];

int     _mtfHandle=INVALID_HANDLE; ENUM_TIMEFRAMES _indicatorTimeFrame; string _indicatorName;

#define _mtfCall iCustom(_Symbol,_indicatorTimeFrame,_indicatorName,0,inpPeriod,inpJmaPeriod,inpLevels)

//+------------------------------------------------------------------+ 

//| Custom indicator initialization function                         | 

//+------------------------------------------------------------------+ 

int OnInit()

  {

   SetIndexBuffer(0,fup,INDICATOR_DATA);     

   SetIndexBuffer(1,fdn,INDICATOR_DATA);

   SetIndexBuffer(2,lev,INDICATOR_DATA); 

   SetIndexBuffer(3,val,INDICATOR_DATA); 

   SetIndexBuffer(4,valc,INDICATOR_COLOR_INDEX);

   SetIndexBuffer(5,count,INDICATOR_CALCULATIONS);

//

//---

//

   _indicatorTimeFrame = MathMax(timeFrameGet((int)inpTimeFrame),_Period);

   _indicatorName      = getIndicatorName();

   if(_indicatorTimeFrame!=_Period)

     {

      _mtfHandle = _mtfCall; if(_mtfHandle==INVALID_HANDLE) return(INIT_FAILED);

     }

     IndicatorSetString(INDICATOR_SHORTNAME,timeFrameToString(_indicatorTimeFrame)+"Trend trigger factor (JMA)("+(string)inpPeriod+","+(string)inpJmaPeriod+")");

   return(INIT_SUCCEEDED);

  }

void OnDeinit(const int reason) { return; }

//+------------------------------------------------------------------+ 

//| Custom indicator iteration function                              | 

//+------------------------------------------------------------------+ 

int OnCalculate(const int rates_total,

                const int prev_calculated,

                const datetime &time[],

                const double &open[],

                const double &high[],

                const double &low[],

                const double &close[],

                const long &tick_volume[],

                const long &volume[],

                const int &spread[])

  {

   if(Bars(_Symbol,_Period)<rates_total) return(prev_calculated);

   if(_indicatorTimeFrame!=_Period)

     {

      double result[];

      if(BarsCalculated(_mtfHandle)<0)              return(prev_calculated);

      if(!timeFrameCheck(_indicatorTimeFrame,time)) return(prev_calculated);

      if(CopyBuffer(_mtfHandle,5,0,1,result)==-1)   return(prev_calculated);



      //

      //---

      //

      

      #define _mtfRatio (double)PeriodSeconds((ENUM_TIMEFRAMES)_indicatorTimeFrame)/PeriodSeconds(_Period)

      int k,n,i=MathMin(MathMax(prev_calculated-1,0),MathMax(rates_total-int(result[0]*_mtfRatio)-1,0)),_prevMark=0,_seconds=PeriodSeconds(_indicatorTimeFrame);

      for(; i<rates_total && !_StopFlag; i++)

        {

         int _currMark= int(time[i]/_seconds);

         if (_currMark!=_prevMark)

            {

               _prevMark=_currMark;

               #define _mtfCopy(_buff,_buffNo) if(CopyBuffer(_mtfHandle,_buffNo,time[i],1,result)<=0) break; _buff[i]=result[0]

                       _mtfCopy(fup ,0);

                       _mtfCopy(fdn ,1);

                       _mtfCopy(lev ,2);

                       _mtfCopy(val ,3);

                       _mtfCopy(valc,4);

            }

            else

            {

               val[i]  = val[i-1];

               valc[i] = valc[i-1];

               fup[i]  = fup[i-1];  

               fdn[i]  = fdn[i-1];

               lev[i]  = lev[i-1];

            }



            //

            //---

            //



            if(!inpInterpolate) continue;

            int _nextMark=(i<rates_total-1) ? int(time[i+1]/_seconds) : _prevMark+1; if(_nextMark==_prevMark) continue;

            for(n=1; (i-n)> 0 && time[i-n] >= (_prevMark)*_seconds; n++) continue;

            for(k=1; (i-k)>=0 && k<n; k++)

            {

               #define _mtfInterpolate(_buff) _buff[i-k]=_buff[i]+(_buff[i-n]-_buff[i])*k/n

                       _mtfInterpolate(val);

                        fup[i-k] =  val[i-k];

                        fdn[i-k] = (val[i]>0) ? MathMin(val[i-k],inpLevels) : MathMax(val[i-k],-inpLevels);

            }

         }

         return(i);

     }



   //

   //---

   //

   int i=(int)MathMax(prev_calculated-1,0); for(; i<rates_total && !_StopFlag; i++)

     {

         int _start  = MathMax(i-inpPeriod+1,0);

         int _starto = MathMax(i-inpPeriod-inpPeriod+1,0);

         double HighestHighRecent = high[ArrayMaximum(high,_start ,inpPeriod)];

         double HighestHighOlder  = high[ArrayMaximum(high,_starto,inpPeriod)];

         double LowestLowRecent   = low [ArrayMinimum(low ,_start ,inpPeriod)];

         double LowestLowOlder    = low [ArrayMinimum(low ,_starto,inpPeriod)];

         double BuyPower  = HighestHighRecent - LowestLowOlder;

         double SellPower = HighestHighOlder  - LowestLowRecent;

         double ttf = (BuyPower+SellPower!=0) ? 100*(BuyPower-SellPower)/(0.5*(BuyPower+SellPower)) : 0;

         val[i]  = iSmooth(ttf,inpJmaPeriod,0,i,rates_total);     

         valc[i] = (val[i]>inpLevels) ? 1 : (val[i]<-inpLevels) ? 2 : 0;

         lev[i]  = (val[i]>0) ? inpLevels : (val[i]<0) ? -inpLevels : 0;

         fup[i]  =  val[i];

         fdn[i]  = (val[i]>0) ? MathMin(val[i],inpLevels) : MathMax(val[i],-inpLevels);

     }

   count[rates_total-1]=MathMax(rates_total-prev_calculated+1,1);

   return(i);

  }



//+------------------------------------------------------------------+

//| Custom functions                                                 |

//+------------------------------------------------------------------+

#define _smoothInstances     1

#define _smoothInstancesSize 10

double m_wrk[][_smoothInstances*_smoothInstancesSize];

int    m_size=0;

//

//---

//

double iSmooth(double price,double length,double phase,int r,int bars,int instanceNo=0)

  {

   #define bsmax  5

   #define bsmin  6

   #define volty  7

   #define vsum   8

   #define avolty 9



   if(ArrayRange(m_wrk,0)!=bars) ArrayResize(m_wrk,bars); if(ArrayRange(m_wrk,0)!=bars) return(price); instanceNo*=_smoothInstancesSize;

   if(r==0 || length<=1) { int k=0; for(; k<7; k++) m_wrk[r][instanceNo+k]=price; for(; k<10; k++) m_wrk[r][instanceNo+k]=0; return(price); }



//

//---

//



   double len1   = MathMax(MathLog(MathSqrt(0.5*(length-1)))/MathLog(2.0)+2.0,0);

   double pow1   = MathMax(len1-2.0,0.5);

   double del1   = price - m_wrk[r-1][instanceNo+bsmax];

   double del2   = price - m_wrk[r-1][instanceNo+bsmin];

   int    forBar = MathMin(r,10);



   m_wrk[r][instanceNo+volty]=0;

   if(MathAbs(del1) > MathAbs(del2)) m_wrk[r][instanceNo+volty] = MathAbs(del1);

   if(MathAbs(del1) < MathAbs(del2)) m_wrk[r][instanceNo+volty] = MathAbs(del2);

   m_wrk[r][instanceNo+vsum]=m_wrk[r-1][instanceNo+vsum]+(m_wrk[r][instanceNo+volty]-m_wrk[r-forBar][instanceNo+volty])*0.1;



//

//---

//



   m_wrk[r][instanceNo+avolty]=m_wrk[r-1][instanceNo+avolty]+(2.0/(MathMax(4.0*length,30)+1.0))*(m_wrk[r][instanceNo+vsum]-m_wrk[r-1][instanceNo+avolty]);

   double dVolty=(m_wrk[r][instanceNo+avolty]>0) ? m_wrk[r][instanceNo+volty]/m_wrk[r][instanceNo+avolty]: 0;

   if(dVolty > MathPow(len1,1.0/pow1)) dVolty = MathPow(len1,1.0/pow1);

   if(dVolty < 1)                      dVolty = 1.0;



//

//---

//



   double pow2 = MathPow(dVolty, pow1);

   double len2 = MathSqrt(0.5*(length-1))*len1;

   double Kv   = MathPow(len2/(len2+1), MathSqrt(pow2));



   if(del1 > 0) m_wrk[r][instanceNo+bsmax] = price; else m_wrk[r][instanceNo+bsmax] = price - Kv*del1;

   if(del2 < 0) m_wrk[r][instanceNo+bsmin] = price; else m_wrk[r][instanceNo+bsmin] = price - Kv*del2;



//

//---

//



   double corr  = MathMax(MathMin(phase,100),-100)/100.0 + 1.5;

   double beta  = 0.45*(length-1)/(0.45*(length-1)+2);

   double alpha = MathPow(beta,pow2);



   m_wrk[r][instanceNo+0] = price + alpha*(m_wrk[r-1][instanceNo+0]-price);

   m_wrk[r][instanceNo+1] = (price - m_wrk[r][instanceNo+0])*(1-beta) + beta*m_wrk[r-1][instanceNo+1];

   m_wrk[r][instanceNo+2] = (m_wrk[r][instanceNo+0] + corr*m_wrk[r][instanceNo+1]);

   m_wrk[r][instanceNo+3] = (m_wrk[r][instanceNo+2] - m_wrk[r-1][instanceNo+4])*MathPow((1-alpha),2) + MathPow(alpha,2)*m_wrk[r-1][instanceNo+3];

   m_wrk[r][instanceNo+4] = (m_wrk[r-1][instanceNo+4] + m_wrk[r][instanceNo+3]);



//

//---

//



   return(m_wrk[r][instanceNo+4]);



   #undef bsmax

   #undef bsmin

   #undef volty

   #undef vsum

   #undef avolty

  }    

//

//---

//  

ENUM_TIMEFRAMES _tfsPer[]={PERIOD_M1,PERIOD_M2,PERIOD_M3,PERIOD_M4,PERIOD_M5,PERIOD_M6,PERIOD_M10,PERIOD_M12,PERIOD_M15,PERIOD_M20,PERIOD_M30,PERIOD_H1,PERIOD_H2,PERIOD_H3,PERIOD_H4,PERIOD_H6,PERIOD_H8,PERIOD_H12,PERIOD_D1,PERIOD_W1,PERIOD_MN1};

string          _tfsStr[]={"1 minute","2 minutes","3 minutes","4 minutes","5 minutes","6 minutes","10 minutes","12 minutes","15 minutes","20 minutes","30 minutes","1 hour","2 hours","3 hours","4 hours","6 hours","8 hours","12 hours","daily","weekly","monthly"};

//

//---

//

string timeFrameToString(int period)

  {

   if(period==PERIOD_CURRENT)

      period=_Period;

   int i; for(i=0;i<ArraySize(_tfsPer);i++) if(period==_tfsPer[i]) break;

   return(_tfsStr[i]);

  }

//

//---

//

ENUM_TIMEFRAMES timeFrameGet(int period)

  {

   int _shift=(period<0?MathAbs(period):0);

   if(_shift>0 || period==tf_cu) period=_Period;

   int i; for(i=0;i<ArraySize(_tfsPer);i++) if(period==_tfsPer[i]) break;



   return(_tfsPer[(int)MathMin(i+_shift,ArraySize(_tfsPer)-1)]);

  }

//

//---

//

string getIndicatorName()

  {

   string _path=MQL5InfoString(MQL5_PROGRAM_PATH); StringToLower(_path);

   string _partsA[];

   ushort _partsS=StringGetCharacter("\\",0);

   int    _partsN= StringSplit(_path,_partsS,_partsA);

   string name=_partsA[_partsN-1]; for(int n=_partsN-2; n>=0 && _partsA[n]!="indicators"; n--) name=_partsA[n]+"\\"+name;

   return(name);

  }

//

//---

//  

bool timeFrameCheck(ENUM_TIMEFRAMES _timeFrame,const datetime &time[])

  {

   static bool warned=false;

   if(time[0]<SeriesInfoInteger(_Symbol,_timeFrame,SERIES_FIRSTDATE))

     {

      datetime startTime,testTime[];

      if(SeriesInfoInteger(_Symbol,PERIOD_M1,SERIES_TERMINAL_FIRSTDATE,startTime))

      if(startTime>0)                       { CopyTime(_Symbol,_timeFrame,time[0],1,testTime); SeriesInfoInteger(_Symbol,_timeFrame,SERIES_FIRSTDATE,startTime); }

      if(startTime<=0 || startTime>time[0]) { Comment(MQL5InfoString(MQL5_PROGRAM_NAME)+"\nMissing data for "+timeFrameToString(_timeFrame)+" time frame\nRe-trying on next tick"); warned=true; return(false); }

     }

   if(warned) { Comment(""); warned=false; }

   return(true);

  } 

//+------------------------------------------------------------------+

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