Fisher_mbk_v1

/*-----------------------------+
|			       |
| Shared by www.Aptrafx.com    |
|			       |
+------------------------------*/

#property  copyright "Copyright © 2005, Matt Kennel"
#property  link      "Yura.prokofiev@gmail.com"

// Inspired by an idea from Yura.prokofiev@gmail.com
//
// Idea:  Look back a certain amount of time and find its
// High and Low, normalize current value relative to that 
// to make [-1..1].  Filter with Hull-type MA.   Then perform
// Fisher Z-transform on result (making Gaussian).  Plot
// historgram. 
#property  indicator_separate_window
#property  indicator_buffers 3
#property  indicator_color1  Black
#property  indicator_color2  Lime
#property  indicator_color3  Red
 
 
extern int period=10;
extern double HMALenHiLo = 5.0;
extern double HMALenZ = 3.0; 

double         ExtBuffer0[];
double         ExtBuffer1[];
double         ExtBuffer2[];
 

int init()
  {
  
   SetIndexStyle(0,DRAW_NONE);
   SetIndexStyle(1,DRAW_HISTOGRAM);
   SetIndexStyle(2,DRAW_HISTOGRAM);
   IndicatorDigits(Digits+1);

   SetIndexBuffer(0,ExtBuffer0);
   SetIndexBuffer(1,ExtBuffer1);
   SetIndexBuffer(2,ExtBuffer2);

   IndicatorShortName("Fisher_mbk");
   SetIndexLabel(1,NULL);
   SetIndexLabel(2,NULL);

   return(0);
  }


int start()
  {
   int    limit;
   int    counted_bars=IndicatorCounted();
   double prev,current,old;
   double Value=0;
   double price;
   double MinL=0;
   double MaxH=0;  
   

   if(counted_bars>0) counted_bars--;
   limit=Bars-period-1; // counted_bars;

   // Idea, do a HMA on boht the
   int N = Bars-period;
   
   double HiLo[];
   double HMAofHiLo[];
   double Ztransformed[];
   ArrayResize(HiLo,N);
   ArrayResize(HMAofHiLo,N);
   ArrayResize(Ztransformed,N); 
   
 
   for(int i=N-1; i>=0; i--)
    {  
      MaxH = High[Highest(NULL,0,MODE_HIGH,period,i)];
      MinL = Low[Lowest(NULL,0,MODE_LOW,period,i)];
      price = Close[i]; // (High[i]+Low[i])/2;
      HiLo[i] = 2.0* (price-MinL) / (MaxH-MinL) - 1.0; 
    }
    
    HMAOnArray(N,HMALenHiLo,HiLo,HMAofHiLo); 
    for (i=N-1; i>=0; i--) {
      Value = MathMin(MathMax(HMAofHiLo[i],-0.999),0.999); 
      Ztransformed[i] =  MathLog((1+Value)/(1-Value));
    }
    HMAOnArray(N,HMALenZ,Ztransformed,ExtBuffer0); 


   bool up=true;
   for(i=limit-2; i>=0; i--)
     {
      current=ExtBuffer0[i];
      prev=ExtBuffer0[i+1];
           
      if (((current<0)&&(prev>0))||(current<0)) up= false;
      if (((current>0)&&(prev<0))||(current>0)) up= true;
      
      if(!up)
        {
         ExtBuffer2[i]=current;
         ExtBuffer1[i]=0.0;
        }
        
       else
         {
          ExtBuffer1[i]=current;
          ExtBuffer2[i]=0.0;
         }
     }

   return(0);
  }
  
  
 void HMAOnArray(int N, double HMALen, double input[], double& output[]) {
   // Given input[N-1 .. 0] return HMA filtered version in output.
   double ma1, ma2, hma, mix, mixprime;
   ma1 = input[N-1];
   ma2 = ma1;
   mix = 3.0 / (2.0 + HMALen);
   mixprime = 1.0-mix;
   
   for (int i=N-2; i>=0; i--) {
      ma1 = mixprime*ma1 + mix*input[i];
      ma2 = mixprime*ma2 + mix*ma1;
      output[i] = 1.5*ma1-ma2; 
   }
 }