指定
Eu preciso de um filtro adicional para o indicador que colocarei em seguida abaixo, após a explicação:
O primeiro indicador (PADRÃO), sinalizará o momento da entrada. Mas antes, deve consultar o filtro abaixo:
Stochastic: 21.1.1
Call: Quando stochastic estiver subindo entre os níveis de 35 até o 50 (Precisa ser dentro deste limite)
Put: Quando stochastic estiver descendo entre os níveis de 65 até o 50 (Precisa ser dentro deste limite)
Preciso que envie em mq4.
Segue abaixo o indicador padrão:
//+------------------------------------------------------------------+
//| EMA-Crossover_Signal.mq4 |
//| Copyright © 2005, Jason Robinson (jnrtrading) |
//| http://www.jnrtading.co.uk |
//+------------------------------------------------------------------+
/*
+------------------------------------------------------------------+
| Allows you to enter two ema periods and it will then show you at |
| Which point they crossed over. It is more usful on the shorter |
| periods that get obscured by the bars / candlesticks and when |
| the zoom level is out. Also allows you then to remove the emas |
| from the chart. (emas are initially set at 5 and 6) |
+------------------------------------------------------------------+
*/
#property copyright "Copyright © 2005, Jason Robinson (jnrtrading)"
#property link "http://www.jnrtrading.co.uk"
#property indicator_chart_window
#property indicator_buffers 2
#property indicator_color1 Yellow
#property indicator_color2 Aqua
#property indicator_width1 1
#property indicator_width2 1
double CrossUp[];
double CrossDown[];
extern int FasterEMA = 1;
extern int SlowerEMA = 13;
extern int RSIPeriod = 21;
extern bool Alerts = false;
bool EMACrossedUp = false;
bool RSICrossedUp = false;
bool EMACrossedDown = false;
bool RSICrossedDown = false;
int SignalLabeled = 0; // 0: initial state; 1: up; 2: down.
int upalert=false,downalert=false;
//+------------------------------------------------------------------+
//| Custom indicator initialization function |
//+------------------------------------------------------------------+
int init()
{
//---- indicators
SetIndexStyle(0, DRAW_ARROW, EMPTY);
SetIndexArrow(0, 241);
SetIndexBuffer(0, CrossUp);
SetIndexStyle(1, DRAW_ARROW, EMPTY);
SetIndexArrow(1, 242);
SetIndexBuffer(1, CrossDown);
//----
return(0);
}
//+------------------------------------------------------------------+
//| Custom indicator deinitialization function |
//+------------------------------------------------------------------+
int deinit()
{
//----
//----
return(0);
}
//+------------------------------------------------------------------+
//| Custom indicator iteration function |
//+------------------------------------------------------------------+
int start() {
int limit, i, counter;
double fasterEMAnow, slowerEMAnow, fasterEMAprevious, slowerEMAprevious, fasterEMAafter, slowerEMAafter;
double RSInow, RSIprevious, RSIafter;
double Range, AvgRange;
int counted_bars=IndicatorCounted();
//---- check for possible errors
if(counted_bars<0) return(-1);
//---- last counted bar will be recounted
if(counted_bars>0) counted_bars--;
limit=Bars-counted_bars;
for(i = 0; i <= limit; i++) {
counter=i;
Range=0;
AvgRange=0;
for (counter=i ;counter<=i+9;counter++)
{
AvgRange=AvgRange+MathAbs(High[counter]-Low[counter]);
}
Range=AvgRange/10;
fasterEMAnow = iMA(NULL, 0, FasterEMA, 0, MODE_EMA, PRICE_CLOSE, i);
fasterEMAprevious = iMA(NULL, 0, FasterEMA, 0, MODE_EMA, PRICE_CLOSE, i+1);
fasterEMAafter = iMA(NULL, 0, FasterEMA, 0, MODE_EMA, PRICE_CLOSE, i-1);
slowerEMAnow = iMA(NULL, 0, SlowerEMA, 0, MODE_EMA, PRICE_CLOSE, i);
slowerEMAprevious = iMA(NULL, 0, SlowerEMA, 0, MODE_EMA, PRICE_CLOSE, i+1);
slowerEMAafter = iMA(NULL, 0, SlowerEMA, 0, MODE_EMA, PRICE_CLOSE, i-1);
RSInow=iRSI(NULL,0,RSIPeriod,PRICE_CLOSE,i);
RSIprevious=iRSI(NULL,0,RSIPeriod,PRICE_CLOSE,i+1);
RSIafter=iRSI(NULL,0,RSIPeriod,PRICE_CLOSE,i-1);
if ((RSInow > 50) && (RSIprevious < 50) && (RSIafter > 50)) {
RSICrossedUp = true;
RSICrossedDown = false;
}
if ((RSInow < 50) && (RSIprevious > 50) && (RSIafter < 50)) {
RSICrossedUp = false;
RSICrossedDown = true;
}
if ((fasterEMAnow > slowerEMAnow) && (fasterEMAprevious < slowerEMAprevious) && (fasterEMAafter > slowerEMAafter)) {
EMACrossedUp = true;
EMACrossedDown = false;
}
if ((fasterEMAnow < slowerEMAnow) && (fasterEMAprevious > slowerEMAprevious) && (fasterEMAafter < slowerEMAafter)) {
EMACrossedUp = false;
EMACrossedDown = true;
}
if ((EMACrossedUp == true) && (RSICrossedUp == true) && (SignalLabeled != 1)) {
CrossUp[i] = Low[i] - Range*1.3;
if(i<=2 && Alerts && !upalert)
{
Alert (Symbol()," ",Period(),"M EMACross UP ");
//SendMail("EMA Cross Up on "+Symbol(),"");
upalert=true;
downalert=false;
}
SignalLabeled = 1;
}
else if ((EMACrossedDown == true) && (RSICrossedDown == true) && (SignalLabeled != 2)) {
CrossDown[i] = High[i] + Range*1.3;
if(i<=2 && Alerts && !downalert)
{
Alert (Symbol()," ",Period(),"M EMACross DOWN ");
//SendMail("EMA Cross Down on "+Symbol(),"");
downalert=true;
upalert=false;
}
SignalLabeled = 2;
}
}
return(0);
}