MA Cross 3MACross Alert WarnSig Indicator For MT5
Table Of Contents:
- MA Cross 3MACross Alert WarnSig Indicator For MT5
- การติดตั้ง MA Cross 3MACross Alert WarnSig Indicator For MT5
- พารามิเตอร์ของ MA Cross 3MACross Alert WarnSig Indicator For MT5
- บัฟเฟอร์ของ MA Cross 3MACross Alert WarnSig Indicator For MT5
- ส่วนหลักของรหัส
MA Cross 3MACross Alert WarnSig Indicator For MT5 คำนวณค่าเฉลี่ยเคลื่อนที่ 3 ช่วงเวลาที่แตกต่างกัน หากมีครอสโอเวอร์เกิดขึ้นคุณจะได้รับการแจ้งเตือน จากนั้นตัวชี้ก็ดึงลูกศรขึ้นและลงบนแผนภูมิที่แท่งเทียนที่มีไขว้เกิดขึ้น คุณสามารถกำหนดค่าเฉลี่ยเคลื่อนที่และการแจ้งเตือนตามความต้องการของคุณ
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การติดตั้ง MA Cross 3MACross Alert WarnSig Indicator For MT5
หลังจากคุณดาวน์โหลดตัวบ่งชี้ผ่านแบบฟอร์มด้านบนคุณจะต้องทำการแตกไฟล์ zip จากนั้นคุณต้องคัดลอกไฟล์ MA Cross 3MACross Alert WarnSig.mq5 ลงในโฟลเดอร์ MQL5Indicators ของการติดตั้ง MT5 ของคุณ หลังจากนั้นโปรดรีสตาร์ท MT5 จากนั้นคุณจะเห็นตัวบ่งชี้ในรายการตัวบ่งชี้
พารามิเตอร์ของ MA Cross 3MACross Alert WarnSig Indicator For MT5
กระบวนการ MA Cross 3MACross Alert WarnSig Indicator For MT5 มีพารามิเตอร์ 14 เพื่อกำหนดค่า
input int InpMAPeriodFirst = 5; // Period of the first Moving Average input int InpMAShiftFirst = 0; // Shift of the first Moving Average input ENUM_MA_METHOD InpMAMethodFirst = MODE_SMMA; // Method of the first Moving Average input int InpMAPeriodSecond = 13; // Period of the second Moving Average input int InpMAShiftSecond = 0; // Shift of the second Moving Average input ENUM_MA_METHOD InpMAMethodSecond = MODE_SMMA; // Method of the second Moving Average input int InpMAPeriodThird = 34; // Period of the third Moving Average input int InpMAShiftThird = 0; // Shift of the third Moving Average input ENUM_MA_METHOD InpMAMethodThird = MODE_SMMA; // Method of the third Moving Average input bool crossesOnCurrent=true; input bool alertsOn =true; input bool alertsMessage =true; input bool alertsSound =false; input bool alertsEmail =false; บัฟเฟอร์ของ MA Cross 3MACross Alert WarnSig Indicator For MT5
MA Cross 3MACross Alert WarnSig Indicator For MT5 ให้บัฟเฟอร์ 4
SetIndexBuffer(0,CrossUp,INDICATOR_DATA); SetIndexBuffer(1,CrossDown,INDICATOR_DATA); SetIndexBuffer(2,CrossGhostUp,INDICATOR_DATA); SetIndexBuffer(3,CrossGhostDown,INDICATOR_DATA); ส่วนหลักของรหัส
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[]) { //--- if(rates_total lt 10 || rates_total lt InpMAPeriodThird) // very few bars return(0); int limit=rates_total-prev_calculated+1; if(prev_calculated==0) limit=rates_total-1; ArraySetAsSeries(high,true); ArraySetAsSeries(low,true); ArraySetAsSeries(close,true); ArraySetAsSeries(time,true); for(int i=limit;i gt =0;i--) { //--- we look for crossing of two indicators double First[]; double Second[]; double Third[]; ArraySetAsSeries(First,true); ArraySetAsSeries(Second,true); ArraySetAsSeries(Third,true); int buffer_num=0; // indicator buffer number int start_pos=i; // start position int count=2; // amount to copy bool get_first = true; bool get_second= true; bool get_third = true; get_first = iMAGet(handle_iMA_First,buffer_num,start_pos,count,First); get_second = iMAGet(handle_iMA_Second,buffer_num,start_pos,count,Second); get_third = iMAGet(handle_iMA_Third,buffer_num,start_pos,count,Third); if(!get_first || !get_second || !get_third) continue; //--- for debug in tester: //Comment("First[0] ",DoubleToString(First[0],Digits()+1),", First[1] ",DoubleToString(First[1],Digits()+1)," ", // "Second[0] ",DoubleToString(Second[0],Digits()+1),", Second[1] ",DoubleToString(Second[1],Digits()+1)," ", // "Third[0] ",DoubleToString(Third[0],Digits()+1),", Third[1] ",DoubleToString(Third[1],Digits()+1)," "); double Range=0.0; int counter=i-9; counter=(counter lt 0)?0:counter; for(int j=counter;j lt =i;j++) Range+=MathAbs(high[j]-low[j]); Range/=10.0; // "10.0"this amount of the taken values //--- avoid current bar if not allowed to check crosses on current (i==0) if(crossesOnCurrent==false && i==0) continue; //--- int crossID = 0; double curr = 0.0; double prev = 0.0; double point = 0.0; while(true) { curr= First[0]- Second[0]; prev= First[1]- Second[1]; point=(First[0]+First[1])/2; if(curr*prev lt =0) { crossID=1; break; } curr=First[0]- Third[0]; prev=First[1]- Third[1]; if(curr*prev lt =0) { crossID=2; break; } curr=Second[0]- Third[0]; prev=Second[1]- Third[1]; point=(Second[0]+Second[1])/2; if(curr*prev lt =0) { crossID=3; break; } break; } // the interesting thing is the direction of the crossing // which MA is the primary and which one the secondary // if you do not know that you can not determine the "direction" // of the cross CrossUp[i] =EMPTY_VALUE; CrossDown[i] =EMPTY_VALUE; CrossGhostUp[i] =EMPTY_VALUE; CrossGhostDown[i] =EMPTY_VALUE; if(crossID gt 0) { if(alertsOn) { double curr_norm=NormalizeDouble(curr,Digits()); if((i==0 && crossesOnCurrent==true) || (i==1 && crossesOnCurrent==false)) { switch(crossID) { case 1: if(curr_norm gt 0.0) doAlert(" 3MACross: "First MA" crossed "Second MA" UP",time[i],close[i]); else if(curr_norm lt 0.0) doAlert(" 3MACross: "First MA" crossed "Second MA" DOWN",time[i],close[i]); break; case 2: if(curr_norm gt 0.0) doAlert(" 3MACross: "First MA" crossed "Third MA" UP",time[i],close[i]); else if(curr_norm lt 0.0) doAlert(" 3MACross: "First MA" crossed "Third MA" DOWN",time[i],close[i]); break; case 3: if(curr_norm gt 0.0) doAlert(" 3MACross: "Second MA" crossed "Third MA" UP",time[i],close[i]); else if(curr_norm lt 0.0) doAlert(" 3MACross: "Second MA" crossed "Third MA" DOWN",time[i],close[i]); break; } } //--- if(i==0) { if(curr_norm gt 0.0) CrossGhostUp[i]=point-Range*0.5; else if(curr_norm lt 0.0) CrossGhostDown[i]=point+Range*0.5; } else { if(curr_norm gt 0.0) CrossUp[i]=point-Range*0.5; else if(curr_norm lt 0.0) CrossDown[i]=point+Range*0.5; } } } } //--- return value of prev_calculated for next call return(rates_total); } //+------------------------------------------------------------------+ //| Get value of buffers for the iMA | //+------------------------------------------------------------------+ bool iMAGet(int handle_iMA, // indicator handle int buffer_num, // indicator buffer number int start_pos, // start position int count, // amount to copy double &buffer[] // target array to copy ) { //--- 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,buffer_num,start_pos,count,buffer)!=count) { //--- 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(false); } return(true); } //+------------------------------------------------------------------+ //| | //+------------------------------------------------------------------+ void doAlert(string doWhat,datetime time_last_bar,double close) { static string previousAlert="nothing"; static datetime previousTime=0; string message; //---- if(previousAlert!=doWhat || previousTime!=time_last_bar) { previousAlert =doWhat; previousTime =time_last_bar; // if time needed : // message = StringConcatenate(Symbol()," at ",TimeToStr(TimeLocal(),TIME_SECONDS)," @",Bid," ", doWhat); message=Symbol()+" at "+DoubleToString(close,Digits())+" "+doWhat; if(alertsMessage) Alert(message); if(alertsEmail) SendMail(Symbol()+" 3MACross:"+" M"+EnumToString(Period()),message); if(alertsSound) PlaySound("alert2.wav"); } } //+------------------------------------------------------------------+
