Cumulative_Volume

ÿþ//+------------------------------------------------------------------+

//|                                            Cumulative_Volume.mq5 |

//|                        Copyright 2018, MetaQuotes Software Corp. |

//|                                                 https://mql5.com |

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

#property copyright "Copyright 2018, MetaQuotes Software Corp."

#property link      "https://mql5.com"

#property version   "1.00"

#property description "Cumulative Volume:"

#property description "Relative and Absolute presentation."

#property description "Cumulative or Separated (Up/Down)"

#property description " data presentation."



#property indicator_separate_window

#property indicator_buffers 6

#property indicator_plots   2

//--- plot POS

#property indicator_label1  "Positive"

#property indicator_type1   DRAW_COLOR_HISTOGRAM

#property indicator_color1  clrLimeGreen,clrRed

#property indicator_style1  STYLE_SOLID

#property indicator_width1  2

//--- plot NEG

#property indicator_label2  "Negative"

#property indicator_type2   DRAW_COLOR_HISTOGRAM

#property indicator_color2  clrLimeGreen,clrRed

#property indicator_style2  STYLE_SOLID

#property indicator_width2  2

//--- enums

enum ENUM_INPUT_YES_NO

  {

   INPUT_YES   =  1, // Yes

   INPUT_NO    =  0  // No

  };

//--- input parameters

input uint              InpPeriod   =  14;         // Period

input ENUM_INPUT_YES_NO InpCombined =  INPUT_YES;  // Combined

input ENUM_INPUT_YES_NO InpRelative =  INPUT_NO;   // Relative

//--- indicator buffers

double                  BufferPOS[];

double                  BufferColorsPOS[];

double                  BufferNEG[];

double                  BufferColorsNEG[];

double                  BufferPosTMP[];

double                  BufferNegTMP[];

//--- global variables

int                     period_ma;

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

//| Custom indicator initialization function                         |

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

int OnInit()

  {

//--- setting global variables

   period_ma=int(InpPeriod<1 ? 1 : InpPeriod);

//--- indicator buffers mapping

   SetIndexBuffer(0,BufferPOS,INDICATOR_DATA);

   SetIndexBuffer(1,BufferColorsPOS,INDICATOR_COLOR_INDEX);

   SetIndexBuffer(2,BufferNEG,INDICATOR_DATA);

   SetIndexBuffer(3,BufferColorsNEG,INDICATOR_COLOR_INDEX);

   SetIndexBuffer(4,BufferPosTMP,INDICATOR_CALCULATIONS);

   SetIndexBuffer(5,BufferNegTMP,INDICATOR_CALCULATIONS);

//--- settings indicators parameters

   IndicatorSetInteger(INDICATOR_DIGITS,Digits());

   IndicatorSetString(INDICATOR_SHORTNAME,"Cumulative Volume("+(string)period_ma+")");

//--- setting buffer arrays as timeseries

   ArraySetAsSeries(BufferPOS,true);

   ArraySetAsSeries(BufferColorsPOS,true);

   ArraySetAsSeries(BufferNEG,true);

   ArraySetAsSeries(BufferColorsNEG,true);

   ArraySetAsSeries(BufferPosTMP,true);

   ArraySetAsSeries(BufferNegTMP,true);

//---

   return(INIT_SUCCEEDED);

  }

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

//| 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[])

  {

//--- @>25@:0 =0 <8=8<0;L=>5 :>;8G5AB2> 10@>2 4;O @0AGQB0

   if(rates_total<period_ma) return 0;

//--- #AB0=>2:0 <0AA82>2 1CD5@>2 :0: B09<A5@89

   ArraySetAsSeries(close,true);

   ArraySetAsSeries(tick_volume,true);

//--- @>25@:0 8 @0AGQB :>;8G5AB20 ?@>AG8BK205<KE 10@>2

   int limit=rates_total-prev_calculated;

   if(limit>1)

     {

      limit=rates_total-period_ma-2;

      ArrayInitialize(BufferPOS,0);

      ArrayInitialize(BufferNEG,0);

      ArrayInitialize(BufferPosTMP,0);

      ArrayInitialize(BufferNegTMP,0);

     }

//--- >43>B>2:0 40==KE

   for(int i=limit; i>=0; i--)

     {

      if(close[i]>close[i+1])

        {

         BufferPosTMP[i]=(double)tick_volume[i]/100;

         BufferNegTMP[i]=0;

        }

      else

        {

         BufferPosTMP[i]=0;

         BufferNegTMP[i]=(double)tick_volume[i]/100;

        }

     }

//---  0AGQB 8=48:0B>@0

   for(int i=limit; i>=0; i--)

     {

      double pos=MAOnArray(BufferPosTMP,0,period_ma,0,MODE_SMA,i)*period_ma;

      double neg=MAOnArray(BufferNegTMP,0,period_ma,0,MODE_SMA,i)*period_ma;

      double vol=0;

      for(int j=0; j<period_ma; j++)

         vol+=(double)tick_volume[i+j];

      vol/=100;

      if(InpCombined)

        {

         if(InpRelative)

           {

            double res=(pos-neg)*1000/vol;

            BufferPOS[i]=(res>0 ? res : 0);

            BufferNEG[i]=(res<=0 ? res : 0);

            BufferColorsPOS[i]=(BufferPOS[i]>BufferPOS[i+1] ? 0 : 1);

            BufferColorsNEG[i]=(BufferNEG[i]>BufferNEG[i+1] ? 0 : 1);

           }

         else

           {

            double res=pos-neg;

            BufferPOS[i]=(res>0 ? res : 0);

            BufferNEG[i]=(res<=0 ? res : 0);

            BufferColorsPOS[i]=(BufferPOS[i]>BufferPOS[i+1] ? 0 : 1);

            BufferColorsNEG[i]=(BufferNEG[i]>BufferNEG[i+1] ? 0 : 1);

           }

        }

      else

        {

         if(InpRelative)

           {

            BufferPOS[i]=pos*1000/vol;

            BufferNEG[i]=-neg*1000/vol;

            BufferColorsPOS[i]=0;

            BufferColorsNEG[i]=1;

           }

         else

           {

            BufferPOS[i]=pos;

            BufferNEG[i]=-neg;

            BufferColorsPOS[i]=0;

            BufferColorsNEG[i]=1;

           }

        }

     }



//--- return value of prev_calculated for next call

   return(rates_total);

  }

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

//| iMAOnArray() https://www.mql5.com/ru/articles/81                 |

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

double MAOnArray(double &array[],int total,int period,int ma_shift,int ma_method,int shift)

  {

   double buf[],arr[];

   if(total==0) total=ArraySize(array);

   if(total>0 && total<=period) return(0);

   if(shift>total-period-ma_shift) return(0);

//---

   switch(ma_method)

     {

      case MODE_SMA :

        {

         total=ArrayCopy(arr,array,0,shift+ma_shift,period);

         if(ArrayResize(buf,total)<0) return(0);

         double sum=0;

         int    i,pos=total-1;

         for(i=1;i<period;i++,pos--)

            sum+=arr[pos];

         while(pos>=0)

           {

            sum+=arr[pos];

            buf[pos]=sum/period;

            sum-=arr[pos+period-1];

            pos--;

           }

         return(buf[0]);

        }

      case MODE_EMA :

        {

         if(ArrayResize(buf,total)<0) return(0);

         double pr=2.0/(period+1);

         int    pos=total-2;

         while(pos>=0)

           {

            if(pos==total-2) buf[pos+1]=array[pos+1];

            buf[pos]=array[pos]*pr+buf[pos+1]*(1-pr);

            pos--;

           }

         return(buf[shift+ma_shift]);

        }

      case MODE_SMMA :

        {

         if(ArrayResize(buf,total)<0) return(0);

         double sum=0;

         int    i,k,pos;

         pos=total-period;

         while(pos>=0)

           {

            if(pos==total-period)

              {

               for(i=0,k=pos;i<period;i++,k++)

                 {

                  sum+=array[k];

                  buf[k]=0;

                 }

              }

            else sum=buf[pos+1]*(period-1)+array[pos];

            buf[pos]=sum/period;

            pos--;

           }

         return(buf[shift+ma_shift]);

        }

      case MODE_LWMA :

        {

         if(ArrayResize(buf,total)<0) return(0);

         double sum=0.0,lsum=0.0;

         double price;

         int    i,weight=0,pos=total-1;

         for(i=1;i<=period;i++,pos--)

           {

            price=array[pos];

            sum+=price*i;

            lsum+=price;

            weight+=i;

           }

         pos++;

         i=pos+period;

         while(pos>=0)

           {

            buf[pos]=sum/weight;

            if(pos==0) break;

            pos--;

            i--;

            price=array[pos];

            sum=sum-lsum+price*period;

            lsum-=array[i];

            lsum+=price;

           }

         return(buf[shift+ma_shift]);

        }

      default: return(0);

     }

   return(0);

  }

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