# Help with codeing strtergy for Amibroker please

I am new to amibroker and wanted to backtest a strategy but due to my lack of computer knowledge I am finding it hard to do it . I would like some help with the below strategy :

Hieken ashi candle should be green and above 150 day SMA

Hiken ashi candle below 2.4SD bollinger band (20day Ema)

Stochastic shuld not be overbought i.e,75+

Sell :

Hieken ashi candle should be red and below 150day SMA

Hiken ashi candle should be above the -2.4SD bollinger band (20day EMA)

stochastic should not be oversold i.e 30-

Also sell buy shares when hikenashi turns red

and buy the shorted shares when hikenashi turns green

Sell :

when hikenashi is above 150day SMA , sell when Hikenashi candle is red + above or equal to 2.4SD bollinger band (20day EMA) and below 10day EMA

When hikenashi is below 150day SMA , buy when hikenashi candle is green + below or equal to -2.4SD bollingr band (20day EMA) and above 10 day EMA

stop loss for both buy and sell is the 14 days ATR

​sorry for a very long and detailed stratergy , would love to see the results on backtest on my amibroker . looking forward to a reply ,

lost

As per the above condition check the below heiken ashi afl with 150 SMA

```/*
Heikin-Ashi() with Moving Average Type
*/
SetChartOptions(2, chartWrapTitle);
// Calculate Moving Average
MAPeriod = Param("MA Period", 15, 1, 150);
MAOpen = EMA(Open, MAPeriod);
MAHigh = EMA(High, MAPeriod);
MALow = EMA(Low, MAPeriod);
MAClose = EMA(Close, MAPeriod);
HaClose = (MAOpen + MAHigh + MALow + MAClose) / 4;
HaOpen = AMA(Ref(HaClose,  - 1), 0.5);
// for graph collapse
for (i = 0; i <= MAPeriod; i++)
HaClose[i] = Null;
/*
// same
// HaOpen = (Ref(HaOpen, -1) + Ref(HaClose, -1)) / 2;
HaOpen[ 0 ] = HaClose[ 0 ];
for(i = 1; i < BarCount; i++) {
HaOpen[i] = (HaOpen[i - 1] + HaClose[i - 1]) / 2;
}
*/
HaHigh = Max(MAHigh, Max(HaClose, HaOpen));
HaLow = Min(MALow, Min(HaClose, HaOpen));
"BarIndex = " + BarIndex();
"Open = " + Open;
"High = " + High;
"Low = " + Low;
"Close = " + Close;
"HaOpen = " + HaOpen;
"HaHigh = " + HaHigh;
"HaLow = " + HaLow;
"HaClose = " + HaClose;
// Plot graphs
_N(Title = StrFormat("{{NAME}} - {{INTERVAL}} {{DATE}} HaOpen %g, HaHigh %g, HaLow %g, HaClose %g (%.1f%%) {{VALUES}}", HaOpen, HaHigh, HaLow, HaClose, SelectedValue(ROC(HaClose, 1))));
PlotOHLC(HaOpen, HaHigh, HaLow, HaClose, _DEFAULT_NAME(), ParamColor("Color", colorBlack), styleCandle);
/* **********************************
Code to automatically identify pivots
********************************** */
// -- what will be our lookback range for the hh and ll?
farback = Param("How Far back to go", 100, 50, 5000, 10);
nBars = Param("Number of bars", 12, 5, 40);
// -- Title.
Title = Name() + " (" + StrLeft(FullName(), 15) + ") O: " + Open + ", H: " + High + ", L: " + Low + ", C: " + Close;
// -- Plot basic candle chart
PlotOHLC(Open, High, Low, Close, "BIdx = " + BarIndex() + "\n" + "O = " + O + "\n" + "H = " + H + "\n" + "L = " + L + "\n" + "C ", colorYellow, styleLine | styleThick);
GraphXSpace = 7;
// -- Create 0-initialized arrays the size of barcount
aHPivs = H - H;
aLPivs = L - L;
// -- More for future use, not necessary for basic plotting
aHPivHighs = H - H;
aLPivLows = L - L;
aHPivIdxs = H - H;
aLPivIdxs = L - L;
nHPivs = 0;
nLPivs = 0;
lastHPIdx = 0;
lastLPIdx = 0;
lastHPH = 0;
lastLPL = 0;
curPivBarIdx = 0;
// -- looking back from the current bar, how many bars
// back were the hhv and llv values of the previous
// n bars, etc.?
aHHVBars = HHVBars(H, nBars);
aLLVBars = LLVBars(L, nBars);
aHHV = HHV(H, nBars);
aLLV = LLV(L, nBars);
// -- Would like to set this up so pivots are calculated back from
// last visible bar to make it easy to "go back" and see the pivots
// this code would find. However, the first instance of
// _Trace output will show a value of 0
aVisBars = Status("barvisible");
nLastVisBar = LastValue(Highest(IIf(aVisBars, BarIndex(), 0)));
_TRACE("Last visible bar: " + nLastVisBar);
// -- Initialize value of curTrend
curBar = (BarCount - 1);
curTrend = "";
if (aLLVBars[curBar] <
aHHVBars[curBar])
{
curTrend = "D";
}
else
{
curTrend = "U";
}
// -- Loop through bars. Search for
// entirely array-based approach
// in future version
for (i = 0; i < farback; i++)
{
curBar = (BarCount - 1) - i;
// -- Have we identified a pivot? If trend is down...
if (aLLVBars[curBar] < aHHVBars[curBar])
{
// ... and had been up, this is a trend change
if (curTrend == "U")
{
curTrend = "D";
// -- Capture pivot information
curPivBarIdx = curBar - aLLVBars[curBar];
aLPivs[curPivBarIdx] = 1;
aLPivLows[nLPivs] = L[curPivBarIdx];
aLPivIdxs[nLPivs] = curPivBarIdx;
nLPivs++;
}
// -- or current trend is up
}
else
{
if (curTrend == "D")
{
curTrend = "U";
curPivBarIdx = curBar - aHHVBars[curBar];
aHPivs[curPivBarIdx] = 1;
aHPivHighs[nHPivs] = H[curPivBarIdx];
aHPivIdxs[nHPivs] = curPivBarIdx;
nHPivs++;
}
// -- If curTrend is up...else...
}
// -- loop through bars
}
// -- Basic attempt to add a pivot this logic may have missed
// -- OK, now I want to look at last two pivots. If the most
// recent low pivot is after the last high, I could
// still have a high pivot that I didn't catch
// -- Start at last bar
curBar = (BarCount - 1);
candIdx = 0;
candPrc = 0;
lastLPIdx = aLPivIdxs[0];
lastLPL = aLPivLows[0];
lastHPIdx = aHPivIdxs[0];
lastHPH = aHPivHighs[0];
if (lastLPIdx > lastHPIdx)
{
// -- Bar and price info for candidate pivot
candIdx = curBar - aHHVBars[curBar];
candPrc = aHHV[curBar];
if (
lastHPH < candPrc AND
candIdx > lastLPIdx AND
candIdx < curBar)
{
// -- OK, we'll add this as a pivot...
aHPivs[candIdx] = 1;
// ...and then rearrange elements in the
// pivot information arrays
for (j = 0; j < nHPivs; j++)
{
aHPivHighs[nHPivs - j] = aHPivHighs[nHPivs -
(j + 1)];
aHPivIdxs[nHPivs - j] = aHPivIdxs[nHPivs - (j + 1)];
}
aHPivHighs[0] = candPrc;
aHPivIdxs[0] = candIdx;
nHPivs++;
}
}

else
{
// -- Bar and price info for candidate pivot
candIdx = curBar - aLLVBars[curBar];
candPrc = aLLV[curBar];
if (
lastLPL > candPrc AND
candIdx > lastHPIdx AND
candIdx < curBar)
{
// -- OK, we'll add this as a pivot...
aLPivs[candIdx] = 1;
// ...and then rearrange elements in the
// pivot information arrays
for (j = 0; j < nLPivs; j++)
{
aLPivLows[nLPivs - j] = aLPivLows[nLPivs - (j + 1)];
aLPivIdxs[nLPivs - j] = aLPivIdxs[nLPivs - (j + 1)];
}
aLPivLows[0] = candPrc;
aLPivIdxs[0] = candIdx;
nLPivs++;
}
}
// -- Dump inventory of high pivots for debugging
/*
for (k=0; k<nHPivs; k++) {
_TRACE("High pivot no. " + k
+ " at barindex: " + aHPivIdxs[k] + ", "
+ WriteVal(ValueWhen(BarIndex()==aHPivIdxs[k],
DateTime(), 1), formatDateTime)
+ ", " + aHPivHighs[k]);
}
*/
// -- OK, let's plot the pivots using arrows
PlotShapes(IIf(aHPivs == 1, shapeDownArrow, shapeNone), colorRed, 0, High, Offset =  - 15);
PlotShapes(IIf(aLPivs == 1, shapeUpArrow, shapeNone), colorBrightGreen, 0, Low, Offset =  - 15);```