Sóng tâm lý elliott cho amibroker

Sóng Elliott là một lý thuyết phân tích được sử dụng rất nhiều trong thị trường chứng khoán, ngoại hối. Đây là mô hình phân tích kỹ thuật là những công cụ thích hợp để phân tích tâm lý của đám đông, xu thế giao dịch. trong bài nầy giới thiệu các bạn Sóng tâm lý elliott cho amibroker dưới đây

Một số mẹo nhỏ sử dụng sóng Elliott

1. Lý thuyết sóng Elliott cần được xem như một phần của hệ thống thay vì một hệ thống giao dịch độc lập.
   
2. Để đếm sóng chính xác, bạn nên cần sự hỗ trợ đa khung thời gian.
   
3. Luôn theo dõi tính chu kỳ của thị trường theo thời gian.
   
4. Cần nhớ rằng thị trường hoàn toàn có thể bị thao túng.
   
5. Đừng áp đặt cách dùng sóng Elliott, bạn cần sự linh hoạt.

// Parameters
PeriodEMA = 13;
MACDIndicatorRange = 50;
// Volume filter
VolumeFilter = Param( “Volume MA filter”, 100000, 50000, 500000, 100000 );
Timeframe = Interval(2);
// Adjust for weekly if necessary
if( Timeframe == “5-day” || Timeframe == “Weekly” ) {
VolumeFilter = VolumeFilter * 5;
}
else if( Timeframe == “Monthly”) {
VolumeFilter = VolumeFilter * 20;
}
else if( Timeframe != “Daily” ) {
VolumeFilter = 0;
}
// Minimum number of bars required to form a divergence pattern. For a
// positive divergence, this is the number of falling bars in the context
// of a rising MACD or MACD-H pattern. Vice versa for negative divergence
MACDDivMinWidth = Param(“Divergence min width”, 4, 1, 10, 1 );
// Minimum width of negative projecting wave between two positive MACD-H waves,
// otherwise two positive waves will be considered as one single wave. This
// minimises invalid divergences, to ensure that “back of bears is broken”.
// The same applies for a positive wave between two negative waves.
HistMinWidth = Param(“Histogram min width”, 4, 1, 10, 1 );
PeriodEMA = Optimize( “PeriodEMA “, 13, 5, 23, 1 );
// Other parameters
OpenPositions = 10;
ATRPeriod = 5;
InitialCapital = 100000;
PeriodFast = Param( “Fast EMA”, 12, 2, 200, 1 );
PeriodSlow = Param( “Slow EMA”, 26, 2, 200, 1 );
PeriodSignal = Param( “Signal EMA”, 9, 2, 200, 1 );
MACDInd = MACD(PeriodFast, PeriodSlow );
SigInd = Signal(PeriodFast, PeriodSlow , PeriodSignal );
HistInd = MACDInd – SigInd ;
_N( macdStr = WriteVal( PeriodFast, 1.0 )+”,”+WriteVal( PeriodSlow , 1.0 ) );
_N( sigStr = macdStr + “,”+WriteVal( PeriodSignal , 1.0 ) );
// Get displayed min and max value of MACD and MACD-H, to rescale it for better visibility
scMACDMax = LastValue(HHV(Max(MACDInd, sigInd),
BarsSince( Status("barvisible") AND NOT Ref(Status("barvisible"),-1) )));
scMACDMin = LastValue(LLV(Min(MACDInd, sigInd),
BarsSince( Status("barvisible") AND NOT Ref(Status("barvisible"),-1) )));
scaleMACD = Max( abs(scMACDMax), abs(scMACDMin) );
scHistMax = LastValue(HHV(HistInd,
BarsSince( Status("barvisible") AND NOT Ref(Status("barvisible"),-1) )));
scHistMin = LastValue(LLV(HistInd,
BarsSince( Status("barvisible") AND NOT Ref(Status("barvisible"),-1) )));
scaleHist = Max( abs(scHistMax), abs(scHistMin) );
_SECTION_BEGIN(“Patterns Wave”);
Change = Param(“Wave Period”,7,0,100,1);
SupResA = Param(“Sup-Res A Period”,20,0,100,1);
SupResB = Param(“Sup-Res B Period”,25,0,100,1);
Res1 = ParamColor(“Resistance High”, colorRed );
Res2 = ParamColor(“Resistance Low”, colorDarkRed );
Sup1 = ParamColor(“Support High”, colorDarkGreen );
Sup2 = ParamColor(“Support Low”, colorBrightGreen );
procedure PlotShapeAt( x, y, shape, shift )
{
PlotShapes( IIf( BarIndex() == x, shape, 0 ), colorWhite, 0, y, shift );
}
bi = BarIndex();
sbi = SelectedValue( bi );
GraphXSpace = 2;
Plot( Zig( C, Change ), “”, colorWhite, styleThick );
upshift = 15;
if( SelectedValue( PeakBars( C, Change ) < TroughBars( C, Change ) ) )
{
pt1 = PeakBars( C, Change, 1 ) == 0 ;
pt2 = TroughBars( C, Change, 1 ) == 0 ;
}
else
{
pt1 = TroughBars( C, Change, 1 ) == 0 ;
pt2 = PeakBars( C, Change, 1 ) == 0 ;
upshift = -upshift;
}
bpt1 = SelectedValue( ValueWhen( pt1, bi ) );
bpt2 = SelectedValue( ValueWhen( pt2, bi ) );
bpt3 = SelectedValue( ValueWhen( pt1, bi, 2 ) );
bpt4 = SelectedValue( ValueWhen( pt2, bi, 2 ) );
bpt5 = SelectedValue( ValueWhen( pt1, bi, 3 ) );
bpt6 = SelectedValue( ValueWhen( pt2, bi, 3 ) );
PlotShapeAt( bpt1, C, shapeDigit5, upshift );
PlotShapeAt( bpt2, C, shapeDigit4, -upshift );
PlotShapeAt( bpt3, C, shapeDigit3, upshift );
PlotShapeAt( bpt4, C, shapeDigit2, -upshift );
PlotShapeAt( bpt5, C, shapeDigit1, upshift );
_SECTION_END();
_SECTION_BEGIN(“Candle Detail”);
Candletype=ParamList(“Candle Type”,”Haikin|Candle”,0);
if(Candletype==”Candle”)
{
Candletype=barcolor =IIf(C>O, ParamColor(“Up candlestick”, colorBrightGreen ), ParamColor(“Down candlestick”, colorRed ));
Plot( C, “Close”, barColor, styleNoTitle | ParamStyle(“Style”, styleCandle|styleThick, mask = maskAll) );
}
else if(Candletype==”Haikin”)
{
HaClose = (O+H+L+C)/4;
HaOpen = AMA( Ref( HaClose, -1 ), 0.3 );
HaHigh = Max( H, Max( HaClose, HaOpen ) );
HaLow = Min( L, Min( HaClose, HaOpen ) );
HaClose = (O+H+L+C)/4;
HaOpen = AMA( Ref( HaClose, -1 ), 0.3 );
HaHigh = Max( H, Max( HaClose, HaOpen ) );
HaLow = Min( L, Min( HaClose, HaOpen ) );
xDiff = (HaHigh – Halow) * IIf(StrFind(Name(),”JPY”),100,10000);
barcolor = IIf(HaClose >= HaOpen,colorBrightGreen,colorRed);
SetBarFillColor( IIf(MACDInd >SigInd, colorDarkBlue,colorBlack) );
PlotOHLC( HaOpen, HaHigh, HaLow, HaClose, “”, barcolor, styleCandle );
}
_SECTION_END();
_SECTION_BEGIN(“Pivot”);
nBars = Param(“Number of bars”, 12, 5, 40);
bShowTCZ = Param(“Show TCZ”, 1, 0, 1);
nExploreBarIdx = 0;
nExploreDate = 0;
nCurDateNum = 0;
DN = DateNum();
DT = DateTime();
bTCZLong = False;
bTCZShort = False;
nAnchorPivIdx = 0;
ADX8 = ADX(8);
if(Status(“action”)==1) {
bDraw = True; bUseLastVis = 1;
} else {
bDraw = False; bUseLastVis = False; bTrace = 1; nExploreDate = Status("rangetodate"); for (i=LastValue(BarIndex());i>=0;i--) { nCurDateNum = DN[i]; if (nCurDateNum == nExploreDate) { nExploreBarIdx = i; } }
}
GraphXSpace=7;
if (bDraw) {
}
aHPivs = H – H;
aLPivs = L – L;
aHPivHighs = H – H;
aLPivLows = L – L;
aHPivIdxs = H – H;
aLPivIdxs = L – L;
aAddedHPivs = H – H;
aAddedLPivs = L – L;
aLegVol = H – H;
aRetrcVol = H – H;
nHPivs = 0;
nLPivs = 0;
lastHPIdx = 0;
lastLPIdx = 0;
lastHPH = 0;
lastLPL = 0;
curPivBarIdx = 0;
aHHVBars = HHVBars(H, nBars);
aLLVBars = LLVBars(L, nBars);
aHHV = HHV(H, nBars);
aLLV = LLV(L, nBars);
nLastVisBar = LastValue(
Highest(IIf(Status("barvisible"), BarIndex(), 0)));
curBar = IIf(nlastVisBar > 0 AND bUseLastVis, nlastVisBar,
IIf(Status("action")==4 AND nExploreBarIdx > 0, nExploreBarIdx, LastValue(BarIndex())));
curTrend = “”;
if (aLLVBars[curBar] < aHHVBars[curBar])
curTrend = "D";
else
curTrend = "U";
if (curBar >= 120) {
for (i=0; i<120; i++) { curBar = IIf(nlastVisBar > 0 AND bUseLastVis, nlastVisBar-i, IIf(Status("action")==4 AND nExploreBarIdx > 0, nExploreBarIdx-i, LastValue(BarIndex())-i)); if (aLLVBars[curBar] < aHHVBars[curBar]) { if (curTrend == "U") { curTrend = "D"; curPivBarIdx = curBar - aLLVBars[curBar]; aLPivs[curPivBarIdx] = 1; aLPivLows[nLPivs] = L[curPivBarIdx]; aLPivIdxs[nLPivs] = curPivBarIdx; nLPivs++; } } else { if (curTrend == "D") { curTrend = "U"; curPivBarIdx = curBar - aHHVBars[curBar]; aHPivs[curPivBarIdx] = 1; aHPivHighs[nHPivs] = H[curPivBarIdx]; aHPivIdxs[nHPivs] = curPivBarIdx; nHPivs++; } } }
}
curBar =
IIf(nlastVisBar > 0 AND bUseLastVis, nlastVisBar, IIf(Status("action")==4 AND nExploreBarIdx > 0, nExploreBarIdx, LastValue(BarIndex())) );
if (nHPivs >= 2 AND nLPivs >= 2) {
lastLPIdx = aLPivIdxs[0]; lastLPL = aLPivLows[0]; lastHPIdx = aHPivIdxs[0]; lastHPH = aHPivHighs[0]; nLastHOrLPivIdx = Max(lastLPIdx, lastHPIdx); nAddPivsRng = curBar - nLastHOrLPivIdx; aLLVAfterLastPiv = LLV(L, nAddPivsRng); nLLVAfterLastPiv = aLLVAfterLastPiv[curBar]; aLLVIdxAfterLastPiv = LLVBars(L, nAddPivsRng); nLLVIdxAfterLastPiv = curBar - aLLVIdxAfterLastPiv[curBar]; aHHVAfterLastPiv = HHV(H, nAddPivsRng); nHHVAfterLastPiv = aHHVAfterLastPiv[curBar]; aHHVIdxAfterLastPiv = HHVBars(H, nAddPivsRng); nHHVIdxAfterLastPiv = curBar - aHHVIdxAfterLastPiv[curBar]; if (lastHPIdx > lastLPIdx) { /* There are at least two possibilities here. One is that the previous high was higher, indicating that this is a possible short retracement or one in the making. The other is that the previous high was lower, indicating that this is a possible long retracement in the working. However, both depend on opposing pivots. E.g., if I find higher highs, what if I have lower lows? If the highs are descending, then I can consider: - a lower low, and leave it at that - a higher high and higher low - a lower low and another lower high */ if (aHPivHighs[0] < aHPivHighs[1]) { if (nLLVAfterLastPiv < aLPivLows[0] AND (nLLVIdxAfterLastPiv - lastHPIdx - 1) >= 1 AND nLLVIdxAfterLastPiv != curBar ) { // -- OK, we'll add this as a pivot. // Mark it for plotting... aLPivs[nLLVIdxAfterLastPiv] = 1; aAddedLPivs[nLLVIdxAfterLastPiv] = 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] = nLLVAfterLastPiv; aLPivIdxs[0] = nLLVIdxAfterLastPiv; nLPivs++; // -- Test whether to add piv given last piv is high // AND we have lower highs } // -- Here, the last piv is a high piv, and we have // higher-highs. The most likely addition is a // Low piv that is a retracement. } else { if (nLLVAfterLastPiv > aLPivLows[0] AND (nLLVIdxAfterLastPiv - lastHPIdx - 1) >= 1 AND nLLVIdxAfterLastPiv != curBar ) { // -- OK, we'll add this as a pivot. // Mark it for plotting... aLPivs[nLLVIdxAfterLastPiv] = 1; aAddedLPivs[nLLVIdxAfterLastPiv] = 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] = nLLVAfterLastPiv; aLPivIdxs[0] = nLLVIdxAfterLastPiv; nLPivs++; // -- Test whether to add piv given last piv is high // AND we have lower highs } // -- The last piv is a high and we have higher highs // OR lower highs } /* **************************************************************** Still finding missed pivot(s). Here, the last piv is a low piv. **************************************************************** */ } else { // -- First case, lower highs if (aHPivHighs[0] < aHPivHighs[1]) { if (nHHVAfterLastPiv < aHPivHighs[0] AND (nHHVIdxAfterLastPiv - lastLPIdx - 1) >= 1 AND nHHVIdxAfterLastPiv != curBar ) { // -- OK, we'll add this as a pivot. // Mark that for plotting aHPivs[nHHVIdxAfterLastPiv] = 1; aAddedHPivs[nHHVIdxAfterLastPiv] = 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] = nHHVAfterLastPiv; aHPivIdxs[0] = nHHVIdxAfterLastPiv; nHPivs++; // -- Test whether to add piv given last piv is high // AND we have lower highs } // -- Second case when last piv is a low piv, higher highs // Most likely addition is high piv that is a retracement. // Considering adding a high piv as long as it is higher } else { // -- Where I have higher highs, if (nHHVAfterLastPiv > aHPivHighs[0] AND (nHHVIdxAfterLastPiv - lastLPIdx - 1) >= 1 AND nHHVIdxAfterLastPiv != curBar ) { // -- OK, we'll add this as a pivot. // Mark it for plotting... aHPivs[nHHVIdxAfterLastPiv] = 1; aAddedHPivs[nHHVIdxAfterLastPiv] = 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] = nHHVAfterLastPiv; aHPivIdxs[0] = nHHVIdxAfterLastPiv; nHPivs++; // -- Test whether to add piv given last piv is high // AND we have lower highs } } }
// — If there are at least two of each
}
/*
// — Done with finding pivots
* */
if (bDraw) {
PivotEntry = ParamColor( “Entry Color”, colorBrightGreen );
PivotEntry2 = ParamColor( “Entry Color2”, colorYellow );
PivotExit = ParamColor( “Exit Color”, colorRed );
PivotExit2 = ParamColor( “Exit Color2”, colorYellow );
// -- OK, let's plot the pivots using arrows PlotShapes( IIf(aHPivs==1, shapeSquare, shapeNone), PivotExit, 0, High, Offset=30); PlotShapes( IIf(aAddedHPivs==1, shapeSquare, shapeNone), PivotExit2, 0, High, Offset=30); PlotShapes( IIf(aLPivs==1, shapeSquare , shapeNone), PivotEntry, 0, Low, Offset=-30); PlotShapes( IIf(aAddedLPivs==1, shapeSquare , shapeNone), PivotEntry2, 0, Low, Offset=-30); PlotShapes( IIf(aHPivs==1, shapeSquare, shapeNone), colorBlack, 0, High, Offset=35); PlotShapes( IIf(aAddedHPivs==1, shapeSquare, shapeNone), colorBlack, 0, High, Offset=35); PlotShapes( IIf(aLPivs==1, shapeSquare , shapeNone), colorBlack, 0, Low, Offset=-35); PlotShapes( IIf(aAddedLPivs==1, shapeSquare , shapeNone), colorBlack, 0, Low, Offset=-35);
}
/*
// — Done with discovering and plotting pivots
* */
// — I’m going to want to look for possible retracement
risk = 0;
profInc = 0;
nLeg0Pts = 0;
nLeg0Bars = 0;
nLeg0Vol = 0;
nLeg1Pts = 0;
nLeg1Bars = 0;
nLeg1Vol = 0;
nLegBarsDiff = 0;
nRtrc0Pts = 0;
nRtrc0Bars = 0;
nRtrc0Vol = 0;
nRtrc1Pts = 0;
nRtrc1Bars = 0;
nRtrc1Vol = 0;
minRtrc = 0;
maxRtrc = 0;
minLine = 0;
maxLine = 0;
triggerLine = 0;
firstProfitLine = 0;
triggerInc = 0;
triggerPrc = 0;
firstProfitPrc = 0;
retrcPrc = 0;
retrcBar = 0;
retrcBarIdx = 0;
retrcRng = 0;
aRetrcPrc = H-H;
aRetrcPrcBars = H-H;
aRetrcClose = C;
retrcClose = 0;
// — Do TCZ calcs. Arrangement of pivs very specific
// for this setup.
if (nHPivs >= 2 AND
nLPivs >=2 AND aHPivHighs[0] > aHPivHighs[1] AND aLPivLows[0] > aLPivLows[1]) { tcz500 = (aHPivHighs[0] - (.5 * (aHPivHighs[0] - aLPivLows[1]))); tcz618 = (aHPivHighs[0] - (.618 * (aHPivHighs[0] - aLPivLows[1]))); tcz786 = (aHPivHighs[0] - (.786 * (aHPivHighs[0] - aLPivLows[0]))); retrcRng = curBar - aHPivIdxs[0]; aRetrcPrc = LLV(L, retrcRng); aRetrcPrcBars = LLVBars(L, retrcRng); retrcPrc = aRetrcPrc[curBar]; retrcBarIdx = curBar - aRetrcPrcBars[curBar]; retrcClose = aRetrcClose[retrcBarIdx]; // -- bTCZLong setup? bTCZLong = ( // -- Are retracement levels arranged in // tcz order? // .500 is above .786 for long setups tcz500 >= (tcz786 * (1 - .005)) AND // .681 is below .786 for long setups tcz618 <= (tcz786 * (1 + .005)) AND // -- Is the low in the tcz range // -- Is the close >= low of tcz range // and low <= high of tcz range retrcClose >= ((1 - .01) * tcz618) AND retrcPrc <= ((1 + .01) * tcz500) ); // -- risk would be high of signal bar minus low of zone //risk = 0;
// — lower highs and lower lows
} else if (nHPivs >= 2 AND nLPivs >=2
AND aHPivHighs[0] < aHPivHighs[1] AND aLPivLows[0] < aLPivLows[1]) { tcz500 = (aHPivHighs[1] - (.5 * (aHPivHighs[1] - aLPivLows[0]))); tcz618 = (aHPivHighs[0] - (.618 * (aHPivHighs[1] - aLPivLows[0]))); tcz786 = (aHPivHighs[0] - (.786 * (aHPivHighs[0] - aLPivLows[0]))); retrcRng = curBar - aLPivIdxs[0]; aRetrcPrc = HHV(H, retrcRng); retrcPrc = aRetrcPrc[curBar]; aRetrcPrcBars = HHVBars(H, retrcRng); retrcBarIdx = curBar - aRetrcPrcBars[curBar]; retrcClose = aRetrcClose[retrcBarIdx]; bTCZShort = ( // -- Are retracement levels arranged in // tcz order? // .500 is below .786 for short setups tcz500 <= (tcz786 * (1 + .005)) AND // .681 is above .786 for short setups tcz618 >= (tcz786 * (1 - .005)) AND // -- Is the close <= high of tcz range // and high >= low of tcz range retrcClose <= ((1 + .01) * tcz618) AND retrcPrc >= ((1 - .01) * tcz500) ); // -- Risk would be top of zone - low of signal bar //risk = 0;
}
// — Show zone if present
if (bTCZShort OR bTCZLong) {
// -- Be prepared to see symmetry if (bTCZShort) { if (aLPivIdxs[0] > aHPivIdxs[0]) { // -- Valuable, useful symmetry information nRtrc0Pts = aHPivHighs[0] - aLPivLows[1]; nRtrc0Bars = aHPivIdxs[0] - aLPivIdxs[1] + 1; nRtrc1Pts = retrcPrc - aLPivLows[0]; nRtrc1Bars = retrcBarIdx - aLPivIdxs[0] + 1; } else { nRtrc0Pts = aHPivHighs[1] - aLPivLows[1]; nRtrc0Bars = aHPivIdxs[1] - aLPivIdxs[1] + 1; nRtrc1Pts = aHPivHighs[0] - aLPivLows[0]; nRtrc1Bars = aHPivIdxs[0] - aLPivIdxs[0] + 1; } } else { // bLongSetup if (aLPivIdxs[0] > aHPivIdxs[0]) { nRtrc0Pts = aHPivHighs[0] - aLPivLows[1]; nRtrc0Bars = aHPivIdxs[0] - aLPivIdxs[1] + 1; nRtrc1Pts = retrcPrc - aLPivLows[0]; nRtrc1Bars = retrcBarIdx - aLPivIdxs[0] + 1; } else { nRtrc0Pts = aHPivHighs[1] - aLPivLows[0]; nRtrc0Bars = aLPivIdxs[0] - aHPivIdxs[1] + 1; nRtrc1Pts = aHPivHighs[0] - aLPivLows[0]; nRtrc1Bars = aLPivIdxs[0] - aHPivIdxs[0] + 1; } } if (bShowTCZ) { Plot( LineArray( IIf(bTCZLong, aHPivIdxs[0], aLPivIdxs[0]), tcz500, curBar, tcz500 , 0), "tcz500", colorPaleBlue, styleLine|styleNoTitle|Stylehidden); Plot( LineArray( IIf(bTCZLong, aHPivIdxs[0], aLPivIdxs[0]), tcz618, curBar, tcz618, 0), "tcz618", colorPaleBlue, styleLine|styleNoTitle|styleHidden); Plot( LineArray( IIf(bTCZLong, aHPivIdxs[0], aLPivIdxs[0]), tcz786, curBar, tcz786, 0), "tcz786", colorTurquoise, styleLine|styleNoTitle|StyleHidden); }
// — if (bShowTCZ)
}
if (bDraw) {
Title = Name() + " (" + StrLeft(FullName(), 10) + ") ATR: " + NumToStr(ATR(1), 4.2) + " ( " + NumToStr((C - Ref(C, -1)), 4.2) + " / " + NumToStr((((C - Ref(C, -1)) / Ref(C, -1)) * 100), 2.1) + "% ) " + WriteVal( SelectedValue( DateTime() ), formatDateTime) +
// “Risk: ” + WriteVal(risk, 2.1) + “% \n” +
WriteVal(nRtrc1Pts, 2.1) + " \n" + WriteVal(nRtrc1Bars, 2.0);
}
//
// END INDICATOR CODE
//
_SECTION_END();
_SECTION_BEGIN(“Support-Resistance”);
//Plot( Close, “Close”, colorWhite, styleCandle );
MaxGraph = 12;
BuyOffSet = SupResA;//Optimize(“BuyOffSet”,18,15,20,1);
SellOffset = BuyOffSet;//Optimize(“SellOffset”,2,2,14,2);
RegLength = 5;//Optimize(“RegLength”,5, 2,11,2);
BuyATRPeriod = 2;//Optimize(“BuyATRPeriod”,2,2,5,1);
SellATRPeriod = BuyATRPeriod;//Optimize(“SellATRPeriod”,4,2,11,2);
ATRMultiplier = 0.5;//Optimize(“ATRMultiplier”,1,0.7,1.25,.05);
Graph8 = HHV(H-ATRMultiplierATR(BuyATRPeriod),BuyOffset); / RED */
Graph9 = LLV(L+ATRMultiplierATR(SellATRPeriod),SellOffset); / GREEN */
ave=(Graph8+Graph9)/2;
Graph8Style=Graph9Style = styleNoTitle|styleDashed;
Graph9Color= Sup1; /* 5 is green */
Graph8Color = Res2; /* 4 is red */
nn=SupResB;
mmm=100;
TYP=(High + Low + 2*Close)/4;
CI=(TYP-MA(TYP,14))/(0.015*StDev(TYP,14));
CCCI=EMA(CI,5)+mmm;
Hh=HHV(H,nn);
Ll=LLV(L,nn);
MM=(Hh+Ll)/2;
CCCC=EMA(CCCI(Hh-Ll)/(2mmm)+Ll,5);
Plot(Hh,”High Reistance”,Res1,styleLine|styleNoTitle);
Plot(Ll,”Low Suport”,Sup2,styleLine|styleNoTitle);
_SECTION_END();
Title = StrFormat(“\c02’TOXIC PATTERN’..\c02 {{NAME}}…..{{DATE}}…..Open @ %g…..High @ %g…..Low @ %g…..Close @ %g…..Change(%0.2f) {{VALUES}}”,
O, H, L, C, SelectedValue( ROC( C, 1 )) );