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stochastic-mtf-with-alert.mq4

Time: 2014-05-06 | Download file:stochastic-mtf-with-alert.mq4

//+------------------------------------------------------------------+
//|                                               MTF_Stochastic.mq4 |
//|                                      Copyright © 2006, Keris2112 |
//|                                                                  |
//+------------------------------------------------------------------+
#property copyright "Copyright © 2006, Keris2112"
#property link      "http://www.forex-tsd.com"

#property indicator_separate_window
#property indicator_buffers 4
#property indicator_color1 LightSeaGreen
#property indicator_color2 Red
#property indicator_color3 Blue
#property indicator_color4 Red
#property indicator_level1 80
#property indicator_level2 20
#property indicator_maximum 100
#property indicator_minimum 0

//---- input parameters
/*************************************************************************
PERIOD_M1   1
PERIOD_M5   5
PERIOD_M15  15
PERIOD_M30  30 
PERIOD_H1   60
PERIOD_H4   240
PERIOD_D1   1440
PERIOD_W1   10080
PERIOD_MN1  43200
You must use the numeric value of the timeframe that you want to use
when you set the TimeFrame' value with the indicator inputs.
---------------------------------------
MODE_SMA    0 Simple moving average, 
MODE_EMA    1 Exponential moving average, 
MODE_SMMA   2 Smoothed moving average, 
MODE_LWMA   3 Linear weighted moving average. 
You must use the numeric value of the MA Method that you want to use
when you set the 'ma_method' value with the indicator inputs.

**************************************************************************/
extern int TimeFrame=240;
extern int KPeriod=5;
extern int DPeriod=3;
extern int Slowing=3;
extern int MAMethod=0;
extern int PriceField=0;// PriceField:  0=Hi/Low   1=Close/Close

extern string note_TimeFrames = "M1;5,15,30,60H1;240H4;1440D1;10080W1;43200MN";
extern string __MA_Method = "SMA0 EMA1 SMMA2 LWMA3";
extern string __PriceField = "0=Hi/Low   1=Close/Close";
//extern string __Price = "0O,1C 2H3L,4Md 5Tp 6WghC: Md(HL/2)4,Tp(HLC/3)5,Wgh(HLCC/4)6";


double ExtMapBuffer1[];
double ExtMapBuffer2[];
double ExtMapBuffer3[];
double ExtMapBuffer4[];

datetime last_t=0;
//+------------------------------------------------------------------+
//| Custom indicator initialization function                         |
//+------------------------------------------------------------------+
int init()
  {
//---- indicator line
   SetIndexBuffer(0,ExtMapBuffer1);
   SetIndexStyle(0,DRAW_LINE);
   SetIndexBuffer(1,ExtMapBuffer2);
   SetIndexStyle(1,DRAW_LINE,STYLE_DOT);
   SetIndexLabel(0,  "MTF_Stochastic("+KPeriod+","+DPeriod+","+Slowing+")TF"+TimeFrame+"");
   SetIndexLabel(1,"MTF_Stochastic("+KPeriod+","+DPeriod+","+Slowing+")TF"+TimeFrame+"");
   SetIndexBuffer(2,ExtMapBuffer3);
   SetIndexStyle(2,DRAW_ARROW);
   SetIndexArrow(2,233);
   SetIndexBuffer(3,ExtMapBuffer4);
   SetIndexStyle(3,DRAW_ARROW);
   SetIndexArrow(3,234);

//---- name for DataWindow and indicator subwindow label   
   switch(TimeFrame)
   {
      case 1 : string TimeFrameStr="Period_M1"; break;
      case 5 : TimeFrameStr="Period_M5"; break;
      case 15 : TimeFrameStr="Period_M15"; break;
      case 30 : TimeFrameStr="Period_M30"; break;
      case 60 : TimeFrameStr="Period_H1"; break;
      case 240 : TimeFrameStr="Period_H4"; break;
      case 1440 : TimeFrameStr="Period_D1"; break;
      case 10080 : TimeFrameStr="Period_W1"; break;
      case 43200 : TimeFrameStr="Period_MN1"; break;
      default : TimeFrameStr="Current Timeframe";
   } 
   IndicatorShortName("MTF_Stochastic("+KPeriod+","+DPeriod+","+Slowing+") "+TimeFrameStr);  
   start();
   return(0);
  }
//----
   
 
//+------------------------------------------------------------------+
//| MTF Stochastic                                                   |
//+------------------------------------------------------------------+
 int deinit()
  {
   for (int i=Bars;i>=0;i--){
      ObjectDelete("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0));
   }
   return(0);
  }

bool up_a=false;
bool dn_a=false;
int start()
  {
   datetime TimeArray[];
   ArrayResize(TimeArray,Bars);
   int    i,limit,y=0,counted_bars=IndicatorCounted();
    
// Plot defined timeframe on to current timeframe   
   ArrayCopySeries(TimeArray,MODE_TIME,Symbol(),TimeFrame); 
   
 //  limit=Bars-counted_bars+TimeFrame/Period(); //igorad
limit=Bars-1;
limit=MathMax(limit,TimeFrame/Period());
//limit=MathMin(limit,BarsToCount);
   for(i=0,y=0;iNormalizeDouble(ExtMapBuffer2[i],Digits) && NormalizeDouble(ExtMapBuffer1[i+1],Digits)<=NormalizeDouble(ExtMapBuffer2[i+1],Digits)  && NormalizeDouble(ExtMapBuffer1[i+1],Digits)!=NormalizeDouble(ExtMapBuffer1[i],Digits) ){
      ExtMapBuffer3[i]=ExtMapBuffer1[i];
      ObjectDelete("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0));
      ObjectCreate("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),22,0,Time[i],Low[i]-5*Point);
      ObjectSet("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),6,Blue);
      ObjectSet("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),14,233);      
   }
   if (NormalizeDouble(ExtMapBuffer1[i],Digits)=NormalizeDouble(ExtMapBuffer2[i+1],Digits)  && NormalizeDouble(ExtMapBuffer1[i+1],Digits)!=NormalizeDouble(ExtMapBuffer1[i],Digits)){
      ExtMapBuffer4[i]=ExtMapBuffer1[i];
      ObjectDelete("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0));
      ObjectCreate("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),22,0,Time[i],High[i]+5*Point);
      ObjectSet("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),6,Red);
      ObjectSet("st"+Symbol()+Period()+DoubleToStr(KPeriod+DPeriod+Slowing,0)+DoubleToStr(i,0),14,234);      
   }
   }  
     
//
   //----  Refresh buffers ++++++++++++++ 
   if (TimeFrame < Period()) TimeFrame = Period();
   if (TimeFrame>Period()) {
     int PerINT=TimeFrame/Period()+1;
     datetime TimeArr[]; ArrayResize(TimeArr,PerINT);
     ArrayCopySeries(TimeArr,MODE_TIME,Symbol(),Period()); 
     for(i=0;i=TimeArray[0]) {
 /********************************************************     
    Refresh buffers:         buffer[i] = buffer[0];
 ************************************************************/  

   ExtMapBuffer1[i]=ExtMapBuffer1[0];
   ExtMapBuffer2[i]=ExtMapBuffer2[0];

   } } }
//+++++++++++++++++++++++++++++++++++++++++++++++++++++   Raff 

   if (ExtMapBuffer3[0]!=EMPTY_VALUE && !up_a){
      up_a=true;
      dn_a=false;    
      Alert("MTF Stochastic Long cross Signal on "+Symbol());
   }
   if (ExtMapBuffer4[0]!=EMPTY_VALUE && !dn_a){
      dn_a=true;
      up_a=false;    
      Alert("MTF Stochastic Short cross Signal on "+Symbol());
   }

   return(0);
  }
//+------------------------------------------------------------------+

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