Tutte le domande dei nuovi arrivati su MQL4 e MQL5, aiuto e discussione su algoritmi e codici - pagina 1292

[Ivan Rodionov]

Salve.

Sono un novellino, quindi non rimproveratemi troppo).

https://www.mql5.com/ru/articles/100

Questo articolo fornisce un esempio di un EA che dovrebbe piazzare un ordine di acquisto solo se c'è un segnale di acquisto e nessuna posizione long aperta. Allo stesso modo nel caso di condizioni di vendita - sell e nessuna posizione short aperta.

Durante il primo test, ci siamo presto resi conto che non solo una posizione era aperta, ma diverse posizioni. La domanda è perché?

Ho letto il codice dell'Expert Advisor e ho cercato di capire e trovare la ragione, ma tutto sembra ok.

[Tretyakov Rostyslav]

Ivan Rodionov:

Salve.

Sono un novellino, quindi non rimproveratemi troppo).

https://www.mql5.com/ru/articles/100

Questo articolo fornisce un esempio di un EA che dovrebbe piazzare un ordine di acquisto solo se c'è un segnale di acquisto e nessuna posizione long aperta. Allo stesso modo nel caso di condizioni di vendita - sell e nessuna posizione short aperta.

Durante il primo test, ci siamo presto resi conto che non solo una posizione era aperta, ma diverse posizioni. La domanda è perché?

Ho letto il codice dell'Expert Advisor e ho cercato di capirlo e trovarne la ragione.

Prova a cambiare

         if(Buy_opened)

a

         if(Buy_opened==true)

Lo stesso per la vendita

[Alexey Viktorov]

MakarFX:

Prova a sostituire

a

Allo stesso modo per la vendita

Non servirà. Leggere più spesso la documentazione.

[Александр]

Ciao a tutti, non riesco a capire come "disegnare" una linea di tendenza parallela ad un ginocchio a zig zag tramite CODE. In effetti, ho bisogno di uno spostamento a destra dello ZigZag. Per favore, consigliatemi! Grazie!

[Aleksei Stepanenko]

Александр:
"disegnare una linea di tendenza, nel futuro"

Da due punti su una linea, si può trovare il prezzo di un terzo punto arbitrario su quella linea, anche nel futuro (e viceversa).

//находит дату точки (координату X) на прямой, на заданную цену (координата Y)
datetime GetPointTimeOnStraight(datetime eTime1, double ePrice1, datetime eTime2, double ePrice2, double ePrice3, string eSymbol, int eTimeFrame)
   {
   if(ePrice2-ePrice1==0) return(0.0);
   //индекс бара соответствующий заданному времени, возможно задавать будующее время
   int eIndex1=(eTime1>iTime(eSymbol,eTimeFrame,0))?(int)((iTime(eSymbol,eTimeFrame,0)-eTime1)/PeriodSeconds(eTimeFrame)):iBarShift(eSymbol,eTimeFrame,eTime1);
   int eIndex2=(eTime2>iTime(eSymbol,eTimeFrame,0))?(int)((iTime(eSymbol,eTimeFrame,0)-eTime2)/PeriodSeconds(eTimeFrame)):iBarShift(eSymbol,eTimeFrame,eTime2);
   int eIndex3=eIndex1+(int)((eIndex2-eIndex1)*(ePrice3-ePrice1)/(ePrice2-ePrice1));
   return(iTime(eSymbol,eTimeFrame,eIndex3));
   }

//находит цену точки (координату Y) на прямой, на заданное время (координата X)
double GetPointPriceOnStraight(datetime eTime1, double ePrice1, datetime eTime2, double ePrice2, datetime eTime3, string eSymbol, int eTimeFrame)
   {
   //индекс бара соответствующий заданному времени, возможно задавать будующее время
   int eIndex1=(eTime1>iTime(eSymbol,eTimeFrame,0))?(int)((iTime(eSymbol,eTimeFrame,0)-eTime1)/PeriodSeconds(eTimeFrame)):iBarShift(eSymbol,eTimeFrame,eTime1);
   int eIndex2=(eTime2>iTime(eSymbol,eTimeFrame,0))?(int)((iTime(eSymbol,eTimeFrame,0)-eTime2)/PeriodSeconds(eTimeFrame)):iBarShift(eSymbol,eTimeFrame,eTime2);
   if(eIndex2-eIndex1==0) return(0.0);
   int eIndex3=(eTime3>iTime(eSymbol,eTimeFrame,0))?(int)((iTime(eSymbol,eTimeFrame,0)-eTime3)/PeriodSeconds(eTimeFrame)):iBarShift(eSymbol,eTimeFrame,eTime3);
   return(ePrice1+(ePrice2-ePrice1)*(eIndex3-eIndex1)/(eIndex2-eIndex1));
   }

[IndependentMK]

extern double Lot=0.1;            
extern int Slippage = 3;
extern int TakeProfit = 30;
extern int StopLoss   = 30;
extern int MA_Smoth_S = 60;
extern int MA_Smoth_B = 12;
extern int MA_Simpl_S = 3;
extern int MA_Simpl_B = 1;
int start()
         {
          //___________________

          double SL, TP;
          int MA_Simpl_S_Cl,      //
              MA_Simpl_S_Op,      //
              MA_Simpl_B_Cl,      //
              MA_Simpl_B_Op;      //
         
          //________________

          //------------

          SL=NormalizeDouble(Bid-StopLoss*Point,Digits);      // 
          TP=NormalizeDouble(Bid+TakeProfit*Point,Digits);    //
          SL = StopLoss;                        
          TP = TakeProfit;
          if(_Digits==5 || _Digits==3)
            {
             SL = SL*10;
             TP = TP*10;
             return(0);
            }
            
          //_______________

          MA_Smoth_S = iMA(NULL,0,60,0,MODE_SMMA,PRICE_CLOSE,1);
          MA_Smoth_B = iMA(NULL,0,12,0,MODE_SMMA,PRICE_CLOSE,1);
          MA_Simpl_S = iMA(NULL,0,3,0,MODE_SMA,PRICE_CLOSE,1);
          MA_Simpl_B = iMA(NULL,0,1,0,MODE_SMA,PRICE_CLOSE,1);
          MA_Simpl_S_Cl = iMA(NULL,0,3,0,MODE_SMA,PRICE_CLOSE,1);
          MA_Simpl_S_Op = iMA(NULL,0,3,0,MODE_SMA,PRICE_CLOSE,2);
          MA_Simpl_B_Cl = iMA(NULL,0,1,0,MODE_SMA,PRICE_CLOSE,1);
          MA_Simpl_B_Op = iMA(NULL,0,1,0,MODE_SMA,PRICE_CLOSE,2);
          
          //______________________

          while(MA_Smoth_B > MA_Smoth_S)
               {
                if(MA_Simpl_B_Op < MA_Simpl_S_Op && MA_Simpl_B_Cl > MA_Simpl_S_Cl)
                  {
                   bool check = OrderSend(Symbol(),OP_BUY,Lot,NormalizeDouble(Ask, Digits),Slippage,SL,TP,"Buy",0,0,clrGreen);
                   return(0);
                  }
               }
               
          //_____________________

          while(MA_Smoth_S > MA_Smoth_B)
               {
                if(MA_Simpl_B_Op > MA_Simpl_S_Op && MA_Simpl_B_Cl < MA_Simpl_S_Cl)
                  {
                   check = OrderSend(Symbol(),OP_SELL,Lot,NormalizeDouble(Ask, Digits),Slippage,SL,TP,"Sell",0,0,clrRed);
                   return(0);
                  }   
               }     
          return(0);
         } 

Salve.
Si prega di prestare attenzione a"Chechako ".
Ho bisogno di segnalare errori nel codice, perché nel tester, l'EA non apre gli ordini...
Il compilatore non mostra alcun errore o avvertimento, lo stesso diario non mostra errori...

[MrBrooklin]

Ivan Rodionov:

Salve.

Sono un novellino, quindi non rimproveratemi troppo).

https://www.mql5.com/ru/articles/100

Questo articolo fornisce un esempio di un EA che dovrebbe piazzare un ordine di acquisto solo se c'è un segnale di acquisto e nessuna posizione long aperta. Allo stesso modo nel caso di condizioni di vendita - sell e nessuna posizione short aperta.

Durante il primo test, ci siamo presto resi conto che non solo una posizione era aperta, ma diverse posizioni. La domanda è: perché?

Ho letto il codice dell'Expert Advisor e ho cercato di capirlo e trovarne la ragione.

Ho cercato di aiutare. Anch'io sono un novellino. Ora, per quanto riguarda la tua domanda. Diverse posizioni sono aperte perché il controllo per aprire una posizione è stato eseguito e il controllo è stato dimenticato per fermarsi. L'operatore return restituisce il controllo al programma chiamante (tratto da MQL5 Reference).

Dobbiamo aggiungere il ritorno al codice di Expert Advisor (evidenziato in giallo):

//--- есть ли открытые позиции?
   bool Buy_opened=false;  // переменные, в которых будет храниться информация 
   bool Sell_opened=false; // о наличии соответствующих открытых позиций

   if(PositionSelect(_Symbol)==true) // есть открытая позиция
     {
      if(PositionGetInteger(POSITION_TYPE)==POSITION_TYPE_BUY)
        {
         Buy_opened=true;  //это длинная позиция
         return;
        }
      else if(PositionGetInteger(POSITION_TYPE)==POSITION_TYPE_SELL)
        {
         Sell_opened=true; // это короткая позиция
         return;
        }
     }

Inoltre, per evitare che il compilatore generi avvertimenti, si dovrebbe aggiungere un'altra condizione nelle condizioni di apertura delle posizioni Buy e Sell per controllare OrderSend(mrequest,mresult). Questa condizione è definita dall'operatore if e dovrebbe apparire così

//--- отсылаем ордер
if(OrderSend(mrequest,mresult))

Un'altra cosa dovrebbe essere presa in considerazione. A volte, quando si passa da un giorno di trading ad un altro alle 23:59:59, una posizione aperta si chiude e poi, alle 00:00:00, si apre una nuova posizione. Questo è il cosiddetto rollover close e rollover open, che dipende dal particolare forex dealer e dalle sue condizioni di trading. Cerca nel forum, ho delle informazioni a riguardo da qualche parte.

Saluti, Vladimir.

[Игорь]

Ciao. Le persone hanno bisogno del tuo aiuto. Ho collegato due zigzag con parametri diversi in un indicatore (nessun errore o avviso) Il problema è che il secondo zigzag è disegnato in modo errato.

Ecco il codice stesso (MQL5)

 //+------------------------------------------------------------------+
//|                                                            6.mq5 |
//|                        Copyright 2020, MetaQuotes Software Corp. |
//|                                             https://www.mql5.com |
//+------------------------------------------------------------------+
#property copyright "2009-2017, MetaQuotes Software Corp."
#property link        "http://www.mql5.com"
#property version    "1.00"
#property indicator_chart_window
#property indicator_buffers 6
#property indicator_plots    2
//---- plot ZigZag 1
#property indicator_label1    "ZigZag1"
#property indicator_type1    DRAW_SECTION
#property indicator_color1    clrRed
#property indicator_style1    STYLE_SOLID
#property indicator_width1    1
//---- plot ZigZag 2
#property indicator_label3    "ZigZag2"
#property indicator_type3    DRAW_SECTION
#property indicator_color3    clrBlueViolet
#property indicator_style3    STYLE_SOLID
#property indicator_width3    1
//--- input parameters ZigZag 1
input int       InpDepth    = 26 ;
input int       InpDeviation= 12 ;
input int       InpBackstep = 9 ;
//--- input parameters ZigZag 2
input int       Inp_Depth    = 12 ;
input int       Inp_Deviation= 5 ;
input int       Inp_Backstep = 3 ;
//--- indicator buffers ZigZag 1
double          ZigZagBuffer[];       //
double          HighMapBuffer[];     //
double          LowMapBuffer[];       //
int             ExtRecalc= 3 ;         //
//--- indicator buffers ZigZag 2
double          ZigZag_Buffer[];       // main buffer
double          HighMap_Buffer[];     // ZigZag high extremes (peaks)
double          LowMap_Buffer[];       // ZigZag low extremes (bottoms)
int             Ext_Recalc= 3 ;         // number of last extremes for recalculation
//+------------------------------------------------------------------+
//| Custom indicator initialization function                         |
//+------------------------------------------------------------------+
int OnInit ()
  {
//--- indicator buffers mapping
   SetIndexBuffer ( 0 ,ZigZagBuffer, INDICATOR_DATA );
   SetIndexBuffer ( 1 ,HighMapBuffer, INDICATOR_CALCULATIONS );
   SetIndexBuffer ( 2 ,LowMapBuffer, INDICATOR_CALCULATIONS );
//
   SetIndexBuffer ( 3 ,ZigZag_Buffer, INDICATOR_DATA );
   SetIndexBuffer ( 4 ,HighMap_Buffer, INDICATOR_CALCULATIONS );
   SetIndexBuffer ( 5 ,LowMap_Buffer, INDICATOR_CALCULATIONS );

//--- set short name and digits
   PlotIndexSetString ( 0 , PLOT_LABEL , "ZigZag(" +( string )InpDepth+ "," +( string )InpDeviation+ "," +( string )InpBackstep+ ")" );
   PlotIndexSetString ( 3 , PLOT_LABEL , "ZigZag(" +( string )Inp_Depth+ "," +( string )Inp_Deviation+ "," +( string )Inp_Backstep+ ")" );

   IndicatorSetInteger ( INDICATOR_DIGITS , _Digits );

//--- set an empty value
   PlotIndexSetDouble ( 0 , PLOT_EMPTY_VALUE , 0.0 );
   PlotIndexSetDouble ( 3 , PLOT_EMPTY_VALUE , 0.0 );

//---
   return ( 0 );
  }
//+------------------------------------------------------------------+
//|  Search for the index of the highest bar                         |
//+------------------------------------------------------------------+
int Highest( const double &array[], int depth, int start)
  {
//--- validation of the start index
   if (start< 0 )
     {
       Print ( "Invalid parameter in the function Highest, start =" ,start);
       return 0 ;
     }
   int size= ArraySize (array);
//--- reduce depth to the available data if needed
   if (start-depth< 0 )
      depth=start;
   double max=array[start];
//--- start searching
   int index=start;
   for ( int i=start; i>start-depth; i--)
     {
       if (array[i]>max)
        {
         index=i;
         max=array[i];
        }
     }
//--- return index of the highest bar
   return (index);
  }
//+------------------------------------------------------------------+
//|  Search for the index of the lowest bar                          |
//+------------------------------------------------------------------+
int Lowest( const double &array[], int depth, int start)
  {
//--- validation of the start index
   if (start< 0 )
     {
       Print ( "Invalid parameter in the function iLowest, start =" ,start);
       return 0 ;
     }
   int size= ArraySize (array);
//--- reduce depth to the available data if needed
   if (start-depth< 0 )
      depth=start;
   double min=array[start];
//--- start searching
   int index=start;
   for ( int i=start; i>start-depth; i--)
     {
       if (array[i]<min)
        {
         index=i;
         min=array[i];
        }
     }
//--- return index of the lowest bar
   return (index);
  }
//--- auxiliary enumeration
enum EnSearchMode
  {
   Peak= 1 ,     // searching for the next ZigZag peak
   Bottom=- 1    // searching for the next ZigZag bottom
  };
//+------------------------------------------------------------------+
//| Custom indicator iteration function                              |
//+------------------------------------------------------------------+
int zig( 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[])
  {
   int i= 0 ;
   int limit= 0 ,extreme_counter= 0 ,extreme_search= 0 ;
   int shift= 0 ,back= 0 ,last_high_pos= 0 ,last_low_pos= 0 ;
   double val= 0 ,res= 0 ;
   double curlow= 0 ,curhigh= 0 ,last_high= 0 ,last_low= 0 ;
//--- initializing
   if (prev_calculated== 0 )
     {
       ArrayInitialize (ZigZag_Buffer, 0.0 );
       ArrayInitialize (HighMap_Buffer, 0.0 );
       ArrayInitialize (LowMap_Buffer, 0.0 );
     }
//---
   if (rates_total< 100 )
       //return(0);
       //--- set start position for calculations
       if (prev_calculated== 0 )
         limit=Inp_Depth;

//--- ZigZag was already calculated before
   if (prev_calculated> 0 )
     {
      i=rates_total- 1 ;
       //--- searching for the third extremum from the last uncompleted bar
       while (extreme_counter<ExtRecalc && i>rates_total- 100 )
        {
         res=ZigZag_Buffer[i];
         if (res!= 0 )
            extreme_counter++;
         i--;
        }
      i++;
      limit=i;

       //--- what type of exremum we search for
       if (LowMap_Buffer[i]!= 0 )
        {
         curlow=LowMap_Buffer[i];
         extreme_search=Peak;
        }
       else
        {
         curhigh=HighMap_Buffer[i];
         extreme_search=Bottom;
        }
       //--- clear indicator values
       for (i=limit+ 1 ; i<rates_total && ! IsStopped (); i++)
        {
         ZigZag_Buffer[i] = 0.0 ;
         LowMap_Buffer[i] = 0.0 ;
         HighMap_Buffer[i]= 0.0 ;
        }
     }

//--- searching for high and low extremes
   for (shift=limit; shift<rates_total && ! IsStopped (); shift++)
     {
       //--- low
      val=low[Lowest(low,Inp_Depth,shift)];
       if (val==last_low)
         val= 0.0 ;
       else
        {
         last_low=val;
         if ((low[shift]-val)>Inp_Deviation* _Point )
            val= 0.0 ;
         else
           {
             for (back= 1 ; back<=Inp_Backstep; back++)
              {
               res=LowMap_Buffer[shift-back];
               if ((res!= 0 ) && (res>val))
                  LowMap_Buffer[shift-back]= 0.0 ;
              }
           }
        }
       if (low[shift]==val)
         LowMap_Buffer[shift]=val;
       else
         LowMap_Buffer[shift]= 0.0 ;
       //--- high
      val=high[Highest(high,Inp_Depth,shift)];
       if (val==last_high)
         val= 0.0 ;
       else
        {
         last_high=val;
         if ((val-high[shift])>Inp_Deviation* _Point )
            val= 0.0 ;
         else
           {
             for (back= 1 ; back<=Inp_Backstep; back++)
              {
               res=HighMap_Buffer[shift-back];
               if ((res!= 0 ) && (res<val))
                  HighMap_Buffer[shift-back]= 0.0 ;
              }
           }
        }
       if (high[shift]==val)
         HighMap_Buffer[shift]=val;
       else
         HighMap_Buffer[shift]= 0.0 ;
     }

//--- set last values
   if (extreme_search== 0 ) // undefined values
     {
      last_low= 0 ;
      last_high= 0 ;
     }
   else
     {
      last_low=curlow;
      last_high=curhigh;
     }

//--- final selection of extreme points for ZigZag
   for (shift=limit; shift<rates_total && ! IsStopped (); shift++)
     {
      res= 0.0 ;
       switch (extreme_search)
        {
         case 0 : // search for an extremum
             if (last_low== 0 && last_high== 0 )
              {
               if (HighMap_Buffer[shift]!= 0 )
                 {
                  last_high=high[shift];
                  last_high_pos=shift;
                  extreme_search=Bottom;
                  ZigZag_Buffer[shift]=last_high;
                  res= 1 ;
                 }
               if (LowMap_Buffer[shift]!= 0 )
                 {
                  last_low=low[shift];
                  last_low_pos=shift;
                  extreme_search=Peak;
                  ZigZag_Buffer[shift]=last_low;
                  res= 1 ;
                 }
              }
             break ;
         case Peak: // search for peak
             if (LowMap_Buffer[shift]!= 0.0 && LowMap_Buffer[shift]<last_low && HighMap_Buffer[shift]== 0.0 )
              {
               ZigZag_Buffer[last_low_pos]= 0.0 ;
               last_low_pos=shift;
               last_low=LowMap_Buffer[shift];
               ZigZag_Buffer[shift]=last_low;
               res= 1 ;
              }
             if (HighMap_Buffer[shift]!= 0.0 && LowMap_Buffer[shift]== 0.0 )
              {
               last_high=HighMap_Buffer[shift];
               last_high_pos=shift;
               ZigZag_Buffer[shift]=last_high;
               extreme_search=Bottom;
               res= 1 ;
              }
             break ;
         case Bottom: // search for bottom
             if (HighMap_Buffer[shift]!= 0.0 && HighMap_Buffer[shift]>last_high && LowMap_Buffer[shift]== 0.0 )
              {
               ZigZag_Buffer[last_high_pos]= 0.0 ;
               last_high_pos=shift;
               last_high=HighMap_Buffer[shift];
               ZigZag_Buffer[shift]=last_high;
              }
             if (LowMap_Buffer[shift]!= 0.0 && HighMap_Buffer[shift]== 0.0 )
              {
               last_low=LowMap_Buffer[shift];
               last_low_pos=shift;
               ZigZag_Buffer[shift]=last_low;
               extreme_search=Peak;
              }
             break ;
         default :
             return (rates_total);
        }
     }

//--- return value of prev_calculated for next call
   return (rates_total);
  }
//+------------------------------------------------------------------+
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[])
  {
   int i= 0 ;
   int limit= 0 ,extreme_counter= 0 ,extreme_search= 0 ;
   int shift= 0 ,back= 0 ,last_high_pos= 0 ,last_low_pos= 0 ;
   double val= 0 ,res= 0 ;
   double curlow= 0 ,curhigh= 0 ,last_high= 0 ,last_low= 0 ;
//--- initializing
   if (prev_calculated== 0 )
     {
       ArrayInitialize (ZigZagBuffer, 0.0 );
       ArrayInitialize (HighMapBuffer, 0.0 );
       ArrayInitialize (LowMapBuffer, 0.0 );
     }
//---
   if (rates_total< 100 )
       return ( 0 );
//--- set start position for calculations
   if (prev_calculated== 0 )
      limit=InpDepth;

//--- ZigZag was already calculated before
   if (prev_calculated> 0 )
     {
      i=rates_total- 1 ;
       //--- searching for the third extremum from the last uncompleted bar
       while (extreme_counter<ExtRecalc && i>rates_total- 100 )
        {
         res=ZigZagBuffer[i];
         if (res!= 0 )
            extreme_counter++;
         i--;
        }
      i++;
      limit=i;

       //--- what type of exremum we search for
       if (LowMapBuffer[i]!= 0 )
        {
         curlow=LowMapBuffer[i];
         extreme_search=Peak;
        }
       else
        {
         curhigh=HighMapBuffer[i];
         extreme_search=Bottom;
        }
       //--- clear indicator values
       for (i=limit+ 1 ; i<rates_total && ! IsStopped (); i++)
        {
         ZigZagBuffer[i] = 0.0 ;
         LowMapBuffer[i] = 0.0 ;
         HighMapBuffer[i]= 0.0 ;
        }
     }

//--- searching for high and low extremes
   for (shift=limit; shift<rates_total && ! IsStopped (); shift++)
     {
       //--- low
      val=low[Lowest(low,InpDepth,shift)];
       if (val==last_low)
         val= 0.0 ;
       else
        {
         last_low=val;
         if ((low[shift]-val)>InpDeviation* _Point )
            val= 0.0 ;
         else
           {
             for (back= 1 ; back<=InpBackstep; back++)
              {
               res=LowMapBuffer[shift-back];
               if ((res!= 0 ) && (res>val))
                  LowMapBuffer[shift-back]= 0.0 ;
              }
           }
        }
       if (low[shift]==val)
         LowMapBuffer[shift]=val;
       else
         LowMapBuffer[shift]= 0.0 ;
       //--- high
      val=high[Highest(high,InpDepth,shift)];
       if (val==last_high)
         val= 0.0 ;
       else
        {
         last_high=val;
         if ((val-high[shift])>InpDeviation* _Point )
            val= 0.0 ;
         else
           {
             for (back= 1 ; back<=InpBackstep; back++)
              {
               res=HighMapBuffer[shift-back];
               if ((res!= 0 ) && (res<val))
                  HighMapBuffer[shift-back]= 0.0 ;
              }
           }
        }
       if (high[shift]==val)
         HighMapBuffer[shift]=val;
       else
         HighMapBuffer[shift]= 0.0 ;
     }

//--- set last values
   if (extreme_search== 0 ) // undefined values
     {
      last_low= 0 ;
      last_high= 0 ;
     }
   else
     {
      last_low=curlow;
      last_high=curhigh;
     }

//--- final selection of extreme points for ZigZag
   for (shift=limit; shift<rates_total && ! IsStopped (); shift++)
     {
      res= 0.0 ;
       switch (extreme_search)
        {
         case 0 : // search for an extremum
             if (last_low== 0 && last_high== 0 )
              {
               if (HighMapBuffer[shift]!= 0 )
                 {
                  last_high=high[shift];
                  last_high_pos=shift;
                  extreme_search=Bottom;
                  ZigZagBuffer[shift]=last_high;
                  res= 1 ;
                 }
               if (LowMapBuffer[shift]!= 0 )
                 {
                  last_low=low[shift];
                  last_low_pos=shift;
                  extreme_search=Peak;
                  ZigZagBuffer[shift]=last_low;
                  res= 1 ;
                 }
              }
             break ;
         case Peak: // search for peak
             if (LowMapBuffer[shift]!= 0.0 && LowMapBuffer[shift]<last_low && HighMapBuffer[shift]== 0.0 )
              {
               ZigZagBuffer[last_low_pos]= 0.0 ;
               last_low_pos=shift;
               last_low=LowMapBuffer[shift];
               ZigZagBuffer[shift]=last_low;
               res= 1 ;
              }
             if (HighMapBuffer[shift]!= 0.0 && LowMapBuffer[shift]== 0.0 )
              {
               last_high=HighMapBuffer[shift];
               last_high_pos=shift;
               ZigZagBuffer[shift]=last_high;
               extreme_search=Bottom;
               res= 1 ;
              }
             break ;
         case Bottom: // search for bottom
             if (HighMapBuffer[shift]!= 0.0 && HighMapBuffer[shift]>last_high && LowMapBuffer[shift]== 0.0 )
              {
               ZigZagBuffer[last_high_pos]= 0.0 ;
               last_high_pos=shift;
               last_high=HighMapBuffer[shift];
               ZigZagBuffer[shift]=last_high;
              }
             if (LowMapBuffer[shift]!= 0.0 && HighMapBuffer[shift]== 0.0 )
              {
               last_low=LowMapBuffer[shift];
               last_low_pos=shift;
               ZigZagBuffer[shift]=last_low;
               extreme_search=Peak;
              }
             break ;
         default :
             return (rates_total);
        }
     }

//--- return value of prev_calculated for next call
   return (rates_total);
  }
//+------------------------------------------------------------------+

[SanAlex]

Игорь:

Ciao a tutti. La gente ha bisogno del tuo aiuto. Ho combinato due zigzag con parametri diversi in un indicatore (nessun errore o avvertimento) Il problema è che 2 zigzag non sono disegnati correttamente.

Ecco il codice stesso (MQL5)

Funziona tutto - basta fissare alcune cifre in alto

[Игорь]

SanAlex:

Funziona tutto - aggiusta un po' i numeri in alto.

Grazie per l'aiuto. Un'altra cosa, perché uno zigzag si forma come al solito (massimo, minimo) e l'altro si forma solo al massimo.