0
Views
0
Downloads
0
Favorites
dma_jgeneralm
//------------------------------------------------------------------
#property copyright "mladen"
#property link "www.forex-station.com"
#property link "mladenfx@gmail.com"
#property version "1.00"
//------------------------------------------------------------------
#property indicator_chart_window
#property indicator_buffers 2
#property indicator_plots 1
#property indicator_label1 "MA"
#property indicator_type1 DRAW_COLOR_LINE
#property indicator_color1 clrGray,clrDeepSkyBlue,clrSandyBrown
#property indicator_width1 3
//
//
//
//
//
enum enPrices
{
pr_close, // Close
pr_open, // Open
pr_high, // High
pr_low, // Low
pr_median, // Median
pr_typical, // Typical
pr_weighted, // Weighted
pr_average, // Average (high+low+open+close)/4
pr_medianb, // Average median body (open+close)/2
pr_tbiased, // Trend biased price
pr_tbiased2, // Trend biased (extreme) price
pr_haclose, // Heiken ashi close
pr_haopen , // Heiken ashi open
pr_hahigh, // Heiken ashi high
pr_halow, // Heiken ashi low
pr_hamedian, // Heiken ashi median
pr_hatypical, // Heiken ashi typical
pr_haweighted, // Heiken ashi weighted
pr_haaverage, // Heiken ashi average
pr_hamedianb, // Heiken ashi median body
pr_hatbiased, // Heiken ashi trend biased price
pr_hatbiased2 // Heiken ashi trend biased (extreme) price
};
enum enMaTypes
{
ma_sma, // Simple moving average
ma_ema, // Exponential moving average
ma_smma, // Smoothed MA
ma_lwma // Linear weighted MA
};
input int AvgPeriod = 14; // Average period
input enMaTypes AvgType = ma_sma; // Average method
input bool AvgDma = true; // "DMA" average?
input enPrices Price = pr_close; // Price
double avg[],avgc[];
string _avgNames[] = {"SMA","EMA","SMMA","LWMA"};
//------------------------------------------------------------------
//
//------------------------------------------------------------------
//
//
//
//
//
int OnInit()
{
SetIndexBuffer(0,avg ,INDICATOR_DATA);
SetIndexBuffer(1,avgc ,INDICATOR_COLOR_INDEX);
IndicatorSetString(INDICATOR_SHORTNAME,"d-"+_avgNames[AvgType]+" ("+(string)AvgPeriod+")");
return(0);
}
//------------------------------------------------------------------
//
//------------------------------------------------------------------
//
//
//
//
//
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[])
{
for (int i=(int)MathMax(prev_calculated-1,0); i<rates_total && !IsStopped(); i++)
{
double ma = iCustomMa(AvgType,getPrice(Price,open,close,high,low,i,rates_total),AvgPeriod,i,rates_total,0);
avg[i] = (AvgDma) ? 2*ma-iCustomMa(AvgType,ma,AvgPeriod,i,rates_total,1) : ma;
avgc[i] = (i>0) ? (avg[i]>avg[i-1]) ? 1 : (avg[i]<avg[i-1]) ? 2 : 0 : 0;
}
return(rates_total);
}
//------------------------------------------------------------------
//
//------------------------------------------------------------------
//
//
//
//
//
#define _maInstances 2
#define _maWorkBufferx1 1*_maInstances
double iCustomMa(int mode, double price, double length, int r, int bars, int instanceNo=0)
{
switch (mode)
{
case ma_sma : return(iSma(price,(int)length,r,bars,instanceNo));
case ma_ema : return(iEma(price,length,r,bars,instanceNo));
case ma_smma : return(iSmma(price,(int)length,r,bars,instanceNo));
case ma_lwma : return(iLwma(price,(int)length,r,bars,instanceNo));
default : return(price);
}
}
//
//
//
//
//
double workSma[][_maWorkBufferx1];
double iSma(double price, int period, int r, int _bars, int instanceNo=0)
{
if (ArrayRange(workSma,0)!= _bars) ArrayResize(workSma,_bars); int k=1;
workSma[r][instanceNo+0] = price;
double wavg = price; for(; k<period && (r-k)>=0; k++) wavg += workSma[r-k][instanceNo+0]; wavg /= (double)k;
return(wavg);
}
//
//
//
//
//
double workEma[][_maWorkBufferx1];
double iEma(double price, double period, int r, int _bars, int instanceNo=0)
{
if (ArrayRange(workEma,0)!= _bars) ArrayResize(workEma,_bars);
workEma[r][instanceNo] = price;
if (r>0 && period>1)
workEma[r][instanceNo] = workEma[r-1][instanceNo]+(2.0/(1.0+period))*(price-workEma[r-1][instanceNo]);
return(workEma[r][instanceNo]);
}
//
//
//
//
//
double workSmma[][_maWorkBufferx1];
double iSmma(double price, double period, int r, int _bars, int instanceNo=0)
{
if (ArrayRange(workSmma,0)!= _bars) ArrayResize(workSmma,_bars);
workSmma[r][instanceNo] = price;
if (r>1 && period>1)
workSmma[r][instanceNo] = workSmma[r-1][instanceNo]+(price-workSmma[r-1][instanceNo])/period;
return(workSmma[r][instanceNo]);
}
//
//
//
//
//
double workLwma[][_maWorkBufferx1];
double iLwma(double price, double period, int r, int _bars, int instanceNo=0)
{
if (ArrayRange(workLwma,0)!= _bars) ArrayResize(workLwma,_bars);
workLwma[r][instanceNo] = price; if (period<1) return(price);
double sumw = period;
double sum = period*price;
for(int k=1; k<period && (r-k)>=0; k++)
{
double weight = period-k;
sumw += weight;
sum += weight*workLwma[r-k][instanceNo];
}
return(sum/sumw);
}
//------------------------------------------------------------------
//
//------------------------------------------------------------------
//
//
//
//
//
//
#define _pricesInstances 1
#define _pricesSize 4
double workHa[][_pricesInstances*_pricesSize];
double getPrice(int tprice, const double& open[], const double& close[], const double& high[], const double& low[], int i,int _bars, int instanceNo=0)
{
if (tprice>=pr_haclose)
{
if (ArrayRange(workHa,0)!= _bars) ArrayResize(workHa,_bars); instanceNo*=_pricesSize;
//
//
//
//
//
double haOpen;
if (i>0)
haOpen = (workHa[i-1][instanceNo+2] + workHa[i-1][instanceNo+3])/2.0;
else haOpen = (open[i]+close[i])/2;
double haClose = (open[i] + high[i] + low[i] + close[i]) / 4.0;
double haHigh = MathMax(high[i], MathMax(haOpen,haClose));
double haLow = MathMin(low[i] , MathMin(haOpen,haClose));
if(haOpen <haClose) { workHa[i][instanceNo+0] = haLow; workHa[i][instanceNo+1] = haHigh; }
else { workHa[i][instanceNo+0] = haHigh; workHa[i][instanceNo+1] = haLow; }
workHa[i][instanceNo+2] = haOpen;
workHa[i][instanceNo+3] = haClose;
//
//
//
//
//
switch (tprice)
{
case pr_haclose: return(haClose);
case pr_haopen: return(haOpen);
case pr_hahigh: return(haHigh);
case pr_halow: return(haLow);
case pr_hamedian: return((haHigh+haLow)/2.0);
case pr_hamedianb: return((haOpen+haClose)/2.0);
case pr_hatypical: return((haHigh+haLow+haClose)/3.0);
case pr_haweighted: return((haHigh+haLow+haClose+haClose)/4.0);
case pr_haaverage: return((haHigh+haLow+haClose+haOpen)/4.0);
case pr_hatbiased:
if (haClose>haOpen)
return((haHigh+haClose)/2.0);
else return((haLow+haClose)/2.0);
case pr_hatbiased2:
if (haClose>haOpen) return(haHigh);
if (haClose<haOpen) return(haLow);
return(haClose);
}
}
//
//
//
//
//
switch (tprice)
{
case pr_close: return(close[i]);
case pr_open: return(open[i]);
case pr_high: return(high[i]);
case pr_low: return(low[i]);
case pr_median: return((high[i]+low[i])/2.0);
case pr_medianb: return((open[i]+close[i])/2.0);
case pr_typical: return((high[i]+low[i]+close[i])/3.0);
case pr_weighted: return((high[i]+low[i]+close[i]+close[i])/4.0);
case pr_average: return((high[i]+low[i]+close[i]+open[i])/4.0);
case pr_tbiased:
if (close[i]>open[i])
return((high[i]+close[i])/2.0);
else return((low[i]+close[i])/2.0);
case pr_tbiased2:
if (close[i]>open[i]) return(high[i]);
if (close[i]<open[i]) return(low[i]);
return(close[i]);
}
return(0);
}
Comments
Markdown Formatting Guide
# H1## H2
### H3
**bold text***italicized text*[title](https://www.example.com)`code````code block
```
> blockquote- Item 1- Item 2
1. First item2. Second item
---