ma-shift Puria method

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

//|               ma-shift Puria method(barabashkakvn's edition).mq5 |

//|                                      Copyright © 2011, Serg Deev |

//|                                            http://www.work2it.ru |

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

#property copyright "Copyright © 2011, Serg Deev"

#property link      "http://www.work2it.ru"

#property version   "1.001"

//---

#include <Trade\PositionInfo.mqh>

#include <Trade\Trade.mqh>

#include <Trade\SymbolInfo.mqh>  

#include <Trade\AccountInfo.mqh>

#include <Expert\Money\MoneyFixedMargin.mqh>

CPositionInfo  m_position;                   // trade position object

CTrade         m_trade;                      // trading object

CSymbolInfo    m_symbol;                     // symbol info object

CAccountInfo   m_account;                    // account info wrapper

CMoneyFixedMargin m_money;

//--- input parameters

input bool     InpManualLot         = false; // Manual lot: "true" -> use manual lot, "false" -> use risk percent

input double   InpLots              = 0.1;   // Lots

input ushort   InpStopLoss          = 45;    // Stop loss (in pips)

input ushort   InpTakeProfit        = 75;    // Take profit (in pips)

input ushort   InpTrailingStop      = 15;    // Trailing stop, if use Fractal trailing - do not use Trailing (in pips)

input ushort   InpTrailingStep      = 5;     // Trailing step (in pips)

input double   Risk                 = 9;     // Risk in percent for a deal from a free margin

input int      InpMaxPositions      = 1;        // Maximum number of positions in one direction

input ulong    m_magic              = 150594856;// magic number

input bool     InpFractalTrailing   = false;    // Fractal trailing, if use Trailing stop - do not use Fractal trailing 

input int      ma_fast              = 14;    // MA Fast: averaging period 

input int      ma_slow              = 80;    // MA Slow: averaging period 

input ushort   InpShiftMin          = 20;    // Shift (vertically) between MA Fast and MA Slow (in pips)

input int      macd_fast            = 11;    // MACD: period for Fast average calculation 

input int      macd_slow            = 102;   // MACD: period for Slow average calculation 

//---

ulong          m_slippage=30;                // slippage



double         ExtStopLoss=0.0;

double         ExtTakeProfit=0.0;

double         ExtTrailingStop=0.0;

double         ExtTrailingStep=0.0;

double         ExtShiftMin=0.0;



int            handle_iFractals;             // variable for storing the handle of the iFractals indicator 

int            handle_iMA_fast;              // variable for storing the handle of the iMA indicator 

int            handle_iMA_slow;              // variable for storing the handle of the iMA indicator 

int            handle_iMACD;                 // variable for storing the handle of the iMACD indicator 

double         m_adjusted_point;             // point value adjusted for 3 or 5 points

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

//| Expert initialization function                                   |

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

int OnInit()

  {

   if(InpTrailingStop>0 && InpFractalTrailing)

     {

      Print("If we use \"Fractal trailing\" - we do not use \"Trailing stop\"!");

      Print("If we use \"Trailing stop\" - we do not use fractal \"Fractal trailing\"!");

      return(INIT_PARAMETERS_INCORRECT);

     }

//---

   if(!m_symbol.Name(Symbol())) // sets symbol name

      return(INIT_FAILED);

   RefreshRates();



   string err_text="";

   if(InpManualLot)

      if(!CheckVolumeValue(InpLots,err_text))

        {

         Print(err_text);

         return(INIT_PARAMETERS_INCORRECT);

        }

//---

   m_trade.SetExpertMagicNumber(m_magic);

//---

   if(IsFillingTypeAllowed(SYMBOL_FILLING_FOK))

      m_trade.SetTypeFilling(ORDER_FILLING_FOK);

   else if(IsFillingTypeAllowed(SYMBOL_FILLING_IOC))

      m_trade.SetTypeFilling(ORDER_FILLING_IOC);

   else

      m_trade.SetTypeFilling(ORDER_FILLING_RETURN);

//---

   m_trade.SetDeviationInPoints(m_slippage);

//--- tuning for 3 or 5 digits

   int digits_adjust=1;

   if(m_symbol.Digits()==3 || m_symbol.Digits()==5)

      digits_adjust=10;

   m_adjusted_point=m_symbol.Point()*digits_adjust;



   ExtStopLoss=InpStopLoss*m_adjusted_point;

   ExtTakeProfit=InpTakeProfit*m_adjusted_point;

   ExtTrailingStop=InpTrailingStop*m_adjusted_point;

   ExtTrailingStep=InpTrailingStep*m_adjusted_point;

   ExtShiftMin=InpShiftMin*m_adjusted_point;

//---

   if(!InpManualLot)

     {

      if(!m_money.Init(GetPointer(m_symbol),Period(),m_symbol.Point()*digits_adjust))

         return(INIT_FAILED);

      m_money.Percent(Risk);

     }

//--- create handle of the indicator iFractals

   handle_iFractals=iFractals(m_symbol.Name(),Period());

//--- if the handle is not created 

   if(handle_iFractals==INVALID_HANDLE)

     {

      //--- tell about the failure and output the error code 

      PrintFormat("Failed to create handle of the iFractals indicator for the symbol %s/%s, error code %d",

                  m_symbol.Name(),

                  EnumToString(Period()),

                  GetLastError());

      //--- the indicator is stopped early 

      return(INIT_FAILED);

     }

//--- create handle of the indicator iMA

   handle_iMA_fast=iMA(m_symbol.Name(),Period(),ma_fast,0,MODE_EMA,PRICE_CLOSE);

//--- if the handle is not created 

   if(handle_iMA_fast==INVALID_HANDLE)

     {

      //--- tell about the failure and output the error code 

      PrintFormat("Failed to create handle of the iMA indicator for the symbol %s/%s, error code %d",

                  m_symbol.Name(),

                  EnumToString(Period()),

                  GetLastError());

      //--- the indicator is stopped early 

      return(INIT_FAILED);

     }

//--- create handle of the indicator iMA

   handle_iMA_slow=iMA(m_symbol.Name(),Period(),ma_slow,0,MODE_EMA,PRICE_CLOSE);

//--- if the handle is not created 

   if(handle_iMA_slow==INVALID_HANDLE)

     {

      //--- tell about the failure and output the error code 

      PrintFormat("Failed to create handle of the iMA indicator for the symbol %s/%s, error code %d",

                  m_symbol.Name(),

                  EnumToString(Period()),

                  GetLastError());

      //--- the indicator is stopped early 

      return(INIT_FAILED);

     }

//--- create handle of the indicator iMACD

   handle_iMACD=iMACD(m_symbol.Name(),Period(),macd_fast,macd_slow,9,PRICE_CLOSE);

//--- if the handle is not created 

   if(handle_iMACD==INVALID_HANDLE)

     {

      //--- tell about the failure and output the error code 

      PrintFormat("Failed to create handle of the iMACD indicator for the symbol %s/%s, error code %d",

                  m_symbol.Name(),

                  EnumToString(Period()),

                  GetLastError());

      //--- the indicator is stopped early 

      return(INIT_FAILED);

     }

//---

   return(INIT_SUCCEEDED);

  }

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

//| Expert deinitialization function                                 |

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

void OnDeinit(const int reason)

  {

//--- 



  }

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

//| Expert tick function                                             |

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

void OnTick()

  {

//--- we work only at the time of the birth of new bar

   static datetime PrevBars=0;

   datetime time_0=iTime(0);

   if(time_0==PrevBars)

      return;

   PrevBars=time_0;

   if(!RefreshRates())

     {

      PrevBars=iTime(1);

      return;

     }

//---

   int count_buys=0;

   int count_sells=0;

   CalculatePositions(count_buys,count_sells);



   if(count_buys<InpMaxPositions)

      OpenPosition(POSITION_TYPE_BUY);

   if(count_sells<InpMaxPositions)

      OpenPosition(POSITION_TYPE_SELL);



   if(count_buys>0 || count_sells>0)

      ModifyPosition();

//---

  }

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

//| TradeTransaction function                                        |

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

void OnTradeTransaction(const MqlTradeTransaction &trans,

                        const MqlTradeRequest &request,

                        const MqlTradeResult &result)

  {

//---



  }

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

//| Refreshes the symbol quotes data                                 |

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

bool RefreshRates(void)

  {

//--- refresh rates

   if(!m_symbol.RefreshRates())

     {

      Print("RefreshRates error");

      return(false);

     }

//--- protection against the return value of "zero"

   if(m_symbol.Ask()==0 || m_symbol.Bid()==0)

      return(false);

//---

   return(true);

  }

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

//| Check the correctness of the order volume                        |

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

bool CheckVolumeValue(double volume,string &error_description)

  {

//--- minimal allowed volume for trade operations

// double min_volume=m_symbol.LotsMin();

   double min_volume=SymbolInfoDouble(Symbol(),SYMBOL_VOLUME_MIN);

   if(volume<min_volume)

     {

      error_description=StringFormat("Volume is less than the minimal allowed SYMBOL_VOLUME_MIN=%.2f",min_volume);

      return(false);

     }



//--- maximal allowed volume of trade operations

// double max_volume=m_symbol.LotsMax();

   double max_volume=SymbolInfoDouble(Symbol(),SYMBOL_VOLUME_MAX);

   if(volume>max_volume)

     {

      error_description=StringFormat("Volume is greater than the maximal allowed SYMBOL_VOLUME_MAX=%.2f",max_volume);

      return(false);

     }



//--- get minimal step of volume changing

// double volume_step=m_symbol.LotsStep();

   double volume_step=SymbolInfoDouble(Symbol(),SYMBOL_VOLUME_STEP);



   int ratio=(int)MathRound(volume/volume_step);

   if(MathAbs(ratio*volume_step-volume)>0.0000001)

     {

      error_description=StringFormat("Volume is not a multiple of the minimal step SYMBOL_VOLUME_STEP=%.2f, the closest correct volume is %.2f",

                                     volume_step,ratio*volume_step);

      return(false);

     }

   error_description="Correct volume value";

   return(true);

  }

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

//| Checks if the specified filling mode is allowed                  | 

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

bool IsFillingTypeAllowed(int fill_type)

  {

//--- Obtain the value of the property that describes allowed filling modes 

   int filling=m_symbol.TradeFillFlags();

//--- Return true, if mode fill_type is allowed 

   return((filling & fill_type)==fill_type);

  }

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

//| Get Time for specified bar index                                 | 

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

datetime iTime(const int index,string symbol=NULL,ENUM_TIMEFRAMES timeframe=PERIOD_CURRENT)

  {

   if(symbol==NULL)

      symbol=m_symbol.Name();

   if(timeframe==0)

      timeframe=Period();

   datetime Time[1];

   datetime time=0;

   int copied=CopyTime(symbol,timeframe,index,1,Time);

   if(copied>0)

      time=Time[0];

   return(time);

  }

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

//| Get value of buffers for the iFractals                           |

//|  the buffer numbers are the following:                           |

//|   0 - UPPER_LINE, 1 - LOWER_LINE                                 |

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

double iFractalsGet(const int buffer,const int index)

  {

   double Fractals[1];

//--- reset error code 

   ResetLastError();

//--- fill a part of the iFractalsBuffer array with values from the indicator buffer that has 0 index 

   if(CopyBuffer(handle_iFractals,buffer,index,1,Fractals)<0)

     {

      //--- if the copying fails, tell the error code 

      PrintFormat("Failed to copy data from the iFractals indicator, error code %d",GetLastError());

      //--- quit with zero result - it means that the indicator is considered as not calculated 

      return(0.0);

     }

   return(Fractals[0]);

  }

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

//| Get value of buffers for the iMA                                 |

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

double iMAGet(int handle_iMA,const int index)

  {

   double MA[1];

//--- reset error code 

   ResetLastError();

//--- fill a part of the iMABuffer array with values from the indicator buffer that has 0 index 

   if(CopyBuffer(handle_iMA,0,index,1,MA)<0)

     {

      //--- if the copying fails, tell the error code 

      PrintFormat("Failed to copy data from the iMA indicator, error code %d",GetLastError());

      //--- quit with zero result - it means that the indicator is considered as not calculated 

      return(0.0);

     }

   return(MA[0]);

  }

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

//| Get value of buffers for the iMACD                               |

//|  the buffer numbers are the following:                           |

//|   0 - MAIN_LINE, 1 - SIGNAL_LINE                                 |

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

double iMACDGet(const int buffer,const int index)

  {

   double MACD[1];

//--- reset error code 

   ResetLastError();

//--- fill a part of the iMACDBuffer array with values from the indicator buffer that has 0 index 

   if(CopyBuffer(handle_iMACD,buffer,index,1,MACD)<0)

     {

      //--- if the copying fails, tell the error code 

      PrintFormat("Failed to copy data from the iMACD indicator, error code %d",GetLastError());

      //--- quit with zero result - it means that the indicator is considered as not calculated 

      return(0.0);

     }

   return(MACD[0]);

  }

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

//| Calculate positions Buy and Sell                                 |

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

void CalculatePositions(int &count_buys,int &count_sells)

  {

   count_buys=0.0;

   count_sells=0.0;



   for(int i=PositionsTotal()-1;i>=0;i--)

      if(m_position.SelectByIndex(i)) // selects the position by index for further access to its properties

         if(m_position.Symbol()==m_symbol.Name() && m_position.Magic()==m_magic)

           {

            if(m_position.PositionType()==POSITION_TYPE_BUY)

               count_buys++;



            if(m_position.PositionType()==POSITION_TYPE_SELL)

               count_sells++;

           }

//---

   return;

  }

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

//| Signal buy                                                       |

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

bool SignalBuy()

  {

   double x1=0.0,x2=0.0;

   double fast_1=iMAGet(handle_iMA_fast,1);

   double fast_2=iMAGet(handle_iMA_fast,2);

   double fast_3=iMAGet(handle_iMA_fast,3);

   double slow_1=iMAGet(handle_iMA_slow,1);

   double slow_3=iMAGet(handle_iMA_slow,3);

   double macd_1=iMACDGet(MAIN_LINE,1);

   double macd_3=iMACDGet(MAIN_LINE,3);

   if(fast_1>slow_1)

      if(slow_1>slow_3)

         if(fast_1>fast_2)

            if(macd_1>0.0)

               if(macd_3<0.0)

                 {

                  x1 = (fast_1 - fast_2)/m_adjusted_point;

                  x2 = (fast_2 - fast_3)/m_adjusted_point;

                  if(x1>ExtShiftMin)

                    {

                     if(x1>=x2)

                        return(true);

                     if(x2<=0.0)

                        return(true);

                    }

                 }

//---

   return(false);

  }

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

//| Signal sell                                                      |

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

bool SignalSell()

  {

   double x1=0.0,x2=0.0;

   double fast_1=iMAGet(handle_iMA_fast,1);

   double fast_2=iMAGet(handle_iMA_fast,2);

   double fast_3=iMAGet(handle_iMA_fast,3);

   double slow_1=iMAGet(handle_iMA_slow,1);

   double slow_3=iMAGet(handle_iMA_slow,3);

   double macd_1=iMACDGet(MAIN_LINE,1);

   double macd_3=iMACDGet(MAIN_LINE,3);

   if(fast_1<slow_1)

      if(slow_1<slow_3)

         if(fast_1<fast_2)

            if(macd_1<0.0)

               if(macd_3>0.0)

                 {

                  x1 = (fast_2 - fast_1)/m_adjusted_point;

                  x2 = (fast_3 - fast_2)/m_adjusted_point;

                  if(x1>ExtShiftMin)

                    {

                     if(x1>=x2)

                        return(true);

                     if(x2<=0.0)

                        return(true);

                    }

                 }

//---

   return(false);

  }

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

//| Open position                                                    |

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

void OpenPosition(const ENUM_POSITION_TYPE pos_type)

  {

   if(pos_type==POSITION_TYPE_BUY && SignalBuy())

     {

      double sl=(InpStopLoss==0)?0.0:m_symbol.Ask()-ExtStopLoss;

      double tp=(InpTakeProfit==0)?0.0:m_symbol.Ask()+ExtTakeProfit;

      OpenBuy(sl,tp);

      return;

     }

   if(pos_type==POSITION_TYPE_SELL && SignalSell())

     {

      double sl=(InpStopLoss==0)?0.0:m_symbol.Bid()+ExtStopLoss;

      double tp=(InpTakeProfit==0)?0.0:m_symbol.Bid()-ExtTakeProfit;

      OpenSell(sl,tp);

      return;

     }

  }

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

//| Modify position                                                  |

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

void ModifyPosition()

  {

   for(int i=PositionsTotal()-1;i>=0;i--) // returns the number of open positions

      if(m_position.SelectByIndex(i))

         if(m_position.Symbol()==m_symbol.Name() && m_position.Magic()==m_magic)

           {

            if(m_position.PositionType()==POSITION_TYPE_BUY)

              {

               if(InpTrailingStop>0)

                 {

                  if(m_position.PriceCurrent()-m_position.PriceOpen()>ExtTrailingStop+ExtTrailingStep)

                     if(m_position.StopLoss()<m_position.PriceCurrent()-(ExtTrailingStop+ExtTrailingStep))

                        if(!m_trade.PositionModify(m_position.Ticket(),

                           m_symbol.NormalizePrice(m_position.PriceCurrent()-ExtTrailingStop),

                           m_position.TakeProfit()))

                           Print("Trailing Stop Modify ",m_position.Ticket(),

                                 " Position -> false. Result Retcode: ",m_trade.ResultRetcode(),

                                 ", description of result: ",m_trade.ResultRetcodeDescription());

                  continue;

                 }

               if(InpFractalTrailing)

                 {

                  double profit_pips=m_position.PriceCurrent()-m_position.PriceOpen();

                  profit_pips/=m_adjusted_point;

                  if(profit_pips<0.95*ExtTakeProfit)

                     continue;

                  double fx=iFractalsGet(LOWER_LINE,3);

                  if(fx!=EMPTY_VALUE && fx>m_position.StopLoss() && !CompareDoubles(fx,m_position.StopLoss(),m_symbol.Digits()))

                     if(!m_trade.PositionModify(m_position.Ticket(),

                        m_symbol.NormalizePrice(fx),

                        m_position.TakeProfit()))

                        Print("Fractal Trailing Stop Modify ",m_position.Ticket(),

                              " Position -> false. Result Retcode: ",m_trade.ResultRetcode(),

                              ", description of result: ",m_trade.ResultRetcodeDescription());

                  continue;

                 }

              }

            else

              {

               if(InpTrailingStop>0)

                 {

                  if(m_position.PriceOpen()-m_position.PriceCurrent()>ExtTrailingStop+ExtTrailingStep)

                     if((m_position.StopLoss()>(m_position.PriceCurrent()+(ExtTrailingStop+ExtTrailingStep))) || (m_position.StopLoss()==0))

                        if(!m_trade.PositionModify(m_position.Ticket(),

                           m_symbol.NormalizePrice(m_position.PriceCurrent()+ExtTrailingStop),

                           m_position.TakeProfit()))

                           Print("Trailing Stop Modify ",m_position.Ticket(),

                                 " Position -> false. Result Retcode: ",m_trade.ResultRetcode(),

                                 ", description of result: ",m_trade.ResultRetcodeDescription());

                  continue;

                 }

               if(InpFractalTrailing)

                 {

                  double profit_pips=m_position.PriceOpen()-m_position.PriceCurrent();

                  profit_pips/=m_adjusted_point;

                  if(profit_pips<0.95*ExtTakeProfit)

                     continue;

                  double fx=iFractalsGet(UPPER_LINE,3);

                  if(fx!=EMPTY_VALUE && fx<m_position.StopLoss() && !CompareDoubles(fx,m_position.StopLoss(),m_symbol.Digits()))

                     if(!m_trade.PositionModify(m_position.Ticket(),

                        m_symbol.NormalizePrice(fx),

                        m_position.TakeProfit()))

                        Print("Fractal Trailing Stop Modify ",m_position.Ticket(),

                              " Position -> false. Result Retcode: ",m_trade.ResultRetcode(),

                              ", description of result: ",m_trade.ResultRetcodeDescription());

                  continue;

                 }

              }



           }

//---

  }

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

//| Open Buy position                                                |

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

void OpenBuy(double sl,double tp)

  {

   sl=m_symbol.NormalizePrice(sl);

   tp=m_symbol.NormalizePrice(tp);



   double check_open_long_lot=0.0;

   if(!InpManualLot)

     {

      check_open_long_lot=m_money.CheckOpenLong(m_symbol.Ask(),sl);

      //Print("sl=",DoubleToString(sl,m_symbol.Digits()),

      //      ", CheckOpenLong: ",DoubleToString(check_open_long_lot,2),

      //      ", Balance: ",    DoubleToString(m_account.Balance(),2),

      //      ", Equity: ",     DoubleToString(m_account.Equity(),2),

      //      ", FreeMargin: ", DoubleToString(m_account.FreeMargin(),2));

      if(check_open_long_lot==0.0)

         return;

     }

   else

      check_open_long_lot=InpLots;

//--- check volume before OrderSend to avoid "not enough money" error (CTrade)

   double check_volume_lot=m_trade.CheckVolume(m_symbol.Name(),check_open_long_lot,m_symbol.Ask(),ORDER_TYPE_BUY);



   if(check_volume_lot!=0.0)

      if(check_volume_lot>=check_open_long_lot)

        {

         if(m_trade.Buy(check_open_long_lot,NULL,m_symbol.Ask(),sl,tp))

           {

            if(m_trade.ResultDeal()==0)

              {

               Print("#1 Buy -> false. Result Retcode: ",m_trade.ResultRetcode(),

                     ", description of result: ",m_trade.ResultRetcodeDescription());

               //PrintResult(m_trade,m_symbol);

              }

            else

              {

               Print("#2 Buy -> true. Result Retcode: ",m_trade.ResultRetcode(),

                     ", description of result: ",m_trade.ResultRetcodeDescription());

               //PrintResult(m_trade,m_symbol);

              }

           }

         else

           {

            Print("#3 Buy -> false. Result Retcode: ",m_trade.ResultRetcode(),

                  ", description of result: ",m_trade.ResultRetcodeDescription());

            //PrintResult(m_trade,m_symbol);

           }

        }

//---

  }

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

//| Open Sell position                                               |

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

void OpenSell(double sl,double tp)

  {

   sl=m_symbol.NormalizePrice(sl);

   tp=m_symbol.NormalizePrice(tp);



   double check_open_short_lot=0.0;

   if(!InpManualLot)

     {

      check_open_short_lot=m_money.CheckOpenShort(m_symbol.Bid(),sl);

      //Print("sl=",DoubleToString(sl,m_symbol.Digits()),

      //      ", CheckOpenLong: ",DoubleToString(check_open_short_lot,2),

      //      ", Balance: ",    DoubleToString(m_account.Balance(),2),

      //      ", Equity: ",     DoubleToString(m_account.Equity(),2),

      //      ", FreeMargin: ", DoubleToString(m_account.FreeMargin(),2));

      if(check_open_short_lot==0.0)

         return;

     }

   else

      check_open_short_lot=InpLots;



//--- check volume before OrderSend to avoid "not enough money" error (CTrade)

   double check_volume_lot=m_trade.CheckVolume(m_symbol.Name(),check_open_short_lot,m_symbol.Bid(),ORDER_TYPE_SELL);



   if(check_volume_lot!=0.0)

      if(check_volume_lot>=check_open_short_lot)

        {

         if(m_trade.Sell(check_open_short_lot,NULL,m_symbol.Bid(),sl,tp))

           {

            if(m_trade.ResultDeal()==0)

              {

               Print("#1 Sell -> false. Result Retcode: ",m_trade.ResultRetcode(),

                     ", description of result: ",m_trade.ResultRetcodeDescription());

               //PrintResult(m_trade,m_symbol);

              }

            else

              {

               Print("#2 Sell -> true. Result Retcode: ",m_trade.ResultRetcode(),

                     ", description of result: ",m_trade.ResultRetcodeDescription());

               //PrintResult(m_trade,m_symbol);

              }

           }

         else

           {

            Print("#3 Sell -> false. Result Retcode: ",m_trade.ResultRetcode(),

                  ", description of result: ",m_trade.ResultRetcodeDescription());

            //PrintResult(m_trade,m_symbol);

           }

        }

//---

  }

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

//| Compare doubles                                                  |

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

bool CompareDoubles(double number1,double number2,int digits)

  {

   if(NormalizeDouble(number1-number2,digits)==0)

      return(true);

   else

      return(false);

  }

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