In display mode = alternative, I’m trying to move the trough lines to the peaks and vice versa. Not expecting anyone to answer this thread, let alone help. Just a long shot, you know?
// AFL code by Edward Pottasch, Jan 2013
// Oz weekly pivots: http://i1145.photobucket.com/albums/o515/Austtrade/SupRes_zpsbebc3ab9.png
// Added toggle to log scale for Y-axis
RequestTimedRefresh(0.1,True);
xx=BarIndex();x=xx;Lx=LastValue(x);
nbar=Param("N Pivot Bars",5,2,50,1);
tf=Param("Time Frame (min)",inWeekly/60,1,inWeekly/60,1);tfrm=in1Minute*tf;
CleanPivots=ParamToggle("Use Clean Pivots","Off|On",1);
PivotSymmetry=ParamToggle("Use Symmetric Pivots","Off|On",0);
displayMode=ParamToggle("Display Mode","Classic|Alternative",1);
logscale=ParamToggle("Axis type","Linear|Logarithmic",0);
SetChartOptions(0,chartShowDates);
if(logscale) SetChartOptions(2,chartLogarithmic,chartGridMiddle|chartGridMargins);
else SetChartOptions(3,chartLogarithmic,!(chartGridMiddle|chartGridMargins));
procedure alternate1_proc(pk,tr,px0,px1,px2,ph0,ph1,ph2,tx0,tx1,tx2,tl0,tl1,tl2)
{
global pkh;
global trh;
pk=IIf((px0==px1 AND px2>tx1 AND ph1<ph2)
OR (tx0==tx1 AND px1<px0 AND px1>tx0 AND ph1<=ph0)
OR (px0>px1 AND px1<tx0 AND px2>tx1 AND ph1<ph2)
OR (px0>px1 AND px0<tx0 AND px1>tx1 AND ph1<ph0)
OR (ph1==ph2 AND px2>tx1)
OR (px1==tx1 AND px2>tx2),False,pk);
tr=IIf((tx0==tx1 AND tx2>px1 AND tl1>tl2)
OR (px0==px1 AND tx1<tx0 AND tx1>px0 AND tl1>=tl0)
OR (tx0>tx1 AND tx1<px0 AND tx2>px1 AND tl1>tl2)
OR (tx0>tx1 AND tx0<px0 AND tx1>px1 AND tl1>tl0)
OR (tl1==tl2 AND tx2>px1)
OR (px1==tx1 AND tx2>px2),False,tr);
pkh=pk;trh=tr;
}
TimeFrameSet(tfrm);
if(PivotSymmetry)
{
fc=1;
pk=H>Ref(HHV(H,nbar*fc),-1) AND Ref(HHV(H,nbar),nbar)<=H;
tr=L<Ref(LLV(L,nbar*fc),-1) AND Ref(LLV(L,nbar),nbar)>=L;
}
else
{
fc=2;
pk=H>Ref(HHV(H,nbar*fc),-1) AND Ref(HHV(H,nbar),nbar)<=H;
tr=L<Ref(LLV(L,nbar*fc),-1) AND Ref(LLV(L,nbar),nbar)>=L;
}
px0=ValueWhen(pk,x,0); tx0=ValueWhen(tr,x,0);
px1=ValueWhen(pk,x,1); tx1=ValueWhen(tr,x,1);
px2=ValueWhen(pk,x,2); tx2=ValueWhen(tr,x,2);
px3=ValueWhen(pk,x,3); tx3=ValueWhen(tr,x,3);
ph0=ValueWhen(pk,H,0); tl0=ValueWhen(tr,L,0);
ph1=ValueWhen(pk,H,1); tl1=ValueWhen(tr,L,1);
ph2=ValueWhen(pk,H,2); tl2=ValueWhen(tr,L,2);
ph3=ValueWhen(pk,H,3); tl3=ValueWhen(tr,L,3);
if(CleanPivots)
{
alternate1_proc(pk,tr,px0,px1,px2,ph0,ph1,ph2,tx0,tx1,tx2,tl0,tl1,tl2);
pk=pkh;tr=trh;
px0=ValueWhen(pk,x,0); tx0=ValueWhen(tr,x,0);
px1=ValueWhen(pk,x,1); tx1=ValueWhen(tr,x,1);
px2=ValueWhen(pk,x,2); tx2=ValueWhen(tr,x,2);
px3=ValueWhen(pk,x,3); tx3=ValueWhen(tr,x,3);
ph0=ValueWhen(pk,H,0); tl0=ValueWhen(tr,L,0);
ph1=ValueWhen(pk,H,1); tl1=ValueWhen(tr,L,1);
ph2=ValueWhen(pk,H,2); tl2=ValueWhen(tr,L,2);
ph3=ValueWhen(pk,H,3); tl3=ValueWhen(tr,L,3);
alternate1_proc(pk,tr,px0,px1,px2,ph0,ph1,ph2,tx0,tx1,tx2,tl0,tl1,tl2);
pk=pkh;tr=trh;
px0=ValueWhen(pk,x,0); tx0=ValueWhen(tr,x,0);
px1=ValueWhen(pk,x,1); tx1=ValueWhen(tr,x,1);
px2=ValueWhen(pk,x,2); tx2=ValueWhen(tr,x,2);
px3=ValueWhen(pk,x,3); tx3=ValueWhen(tr,x,3);
ph0=ValueWhen(pk,H,0); tl0=ValueWhen(tr,L,0);
ph1=ValueWhen(pk,H,1); tl1=ValueWhen(tr,L,1);
ph2=ValueWhen(pk,H,2); tl2=ValueWhen(tr,L,2);
ph3=ValueWhen(pk,H,3); tl3=ValueWhen(tr,L,3);
}
pkh=IIf(pk,H,Null);
trl=IIf(tr,L,Null);
TimeFrameRestore();
fact=Nz(Max(tfrm/60,Interval()/60)/(Interval()/60));
if(fact==0)fact=1;
Lkbk=Nz(tfrm/Interval());
if(Lkbk>1)
{
pk=TimeFrameExpand(pk,tfrm,expandFirst);
pkh=TimeFrameExpand(pkh,tfrm,expandFirst);
pkhs=IIf(!IsEmpty(pkh),1,0);pkhs=pkhs-Ref(pkhs,-1);
pk=pk AND H==pkh;
cond1=Sum(pk,BarsSince(pkhs==1)+1)==1 AND pk;
pk=pk AND cond1;
tr=TimeFrameExpand(tr,tfrm,expandFirst);
trl=TimeFrameExpand(trl,tfrm,expandFirst);
trls=IIf(!IsEmpty(trl),1,0);trls=trls-Ref(trls,-1);
tr=tr AND L==trl;
cond1=Sum(tr,BarsSince(trls==1)+1)==1 AND tr;
tr=tr AND cond1;
px0=ValueWhen(pk,x,0); tx0=ValueWhen(tr,x,0);
px1=ValueWhen(pk,x,1); tx1=ValueWhen(tr,x,1);
px2=ValueWhen(pk,x,2); tx2=ValueWhen(tr,x,2);
px3=ValueWhen(pk,x,3); tx3=ValueWhen(tr,x,3);
ph0=ValueWhen(pk,H,0); tl0=ValueWhen(tr,L,0);
ph1=ValueWhen(pk,H,1); tl1=ValueWhen(tr,L,1);
ph2=ValueWhen(pk,H,2); tl2=ValueWhen(tr,L,2);
ph3=ValueWhen(pk,H,3); tl3=ValueWhen(tr,L,3);
}
GraphXSpace=5;SetChartBkColor(ColorRGB(0,0,0));
SetBarFillColor(IIf(C>O,colorGreen,IIf(C<=O,colorRed,colorLightGrey)));
Plot(C,"Price",IIf(C>O,colorDarkGreen,IIf(C<=O,colorDarkRed,colorLightGrey)),64,0,0,0,0);
Plot(pkh,"",colorRed,styleThick,0,0,0,-1);
Plot(trl,"",colorBrightGreen,styleThick,0,0,0,-1);
PlotShapes(shapeSmallCircle*tr,IIf(Lx-ValueWhen(tr,x)>nbar*fact,ColorRGB(0,100,0),colorWhite),0,L,-10);
PlotShapes(shapeSmallCircle*pk,IIf(Lx-ValueWhen(pk,x)>nbar*fact,ColorRGB(255,0,0),colorWhite),0,H,10);
qq=Interval()/60;
if(qq < 60){tf=" min";tt=qq;}
else if(qq >= 60 AND qq < 1440){tf=" hrs";tt=qq/60;}
else if(qq >= 1440){tf=" days";tt=(qq/60)/24;}
qq=Max(tfrm/60,Interval()/60);
if(qq < 60){tfa=" min";tta=qq;}
else if(qq >= 60 AND qq < 1440){tfa=" hrs";tta=qq/60;}
else if(qq >= 1440){tfa=" days";tta=(qq/60)/24;}
Title = Name() +
"\nNbar: " + nbar +
"\nChart TF: " + tt + tf +
"\nTrend TF: " + tta + tfa;
function GetVisibleBarCount()
{
lvb=Status("lastvisiblebar");
fvb=Status("firstvisiblebar");
return Min(lvb-fvb,BarCount-fvb);
}
function GfxConvertBarToPixelX(bar)
{
lvb=Status("lastvisiblebar");
fvb=Status("firstvisiblebar");
pxchartleft=Status("pxchartleft");
pxchartwidth=Status("pxchartwidth");
return Nz(pxchartleft+bar*pxchartwidth/(lvb-fvb+1));
}
function GfxConvertValueToPixelY(value,logscale)
{
local Miny,Maxy,pxchartbottom,pxchartheight;
Miny=Status("axisminy");
Maxy=Status("axismaxy");
pxchartbottom=Status("pxchartbottom");
pxchartheight=Status("pxchartheight");
if(logscale) rv=Nz(pxchartbottom-floor(0.5+(log(value)-log(Miny))*pxchartheight/(log(maxy)-log(miny))));
else rv=Nz(pxchartbottom-floor(0.5+(Value-Miny)*pxchartheight/(Maxy-Miny)));
return rv;
}
AllVisibleBars=GetVisibleBarCount();
fvb=Status("firstvisiblebar");
for(i=0;i<AllVisibleBars;i++)
{
DisplayRes=1;
DisplaySup=1;
lvix=i+fvb;
if(pk[lvix])
{
if(displayMode)
{
hval=H[lvix];
for(j=i;j<AllVisibleBars;j++)
{
lvjx=j+fvb;
if(H[lvjx]>hval)
{
DisplayRes=0;
break;
}
}
}
if(Displayres)
{
GfxSelectPen(ColorRGB(100,0,0),3,0);
GfxMoveTo(GfxConvertBarToPixelX(i),GfxConvertValueToPixelY(H[lvix],logscale));
GfxLineTo(GfxConvertBarToPixelX(AllVisibleBars-1),GfxConvertValueToPixelY(H[lvix],logscale));
GfxSelectFont("Tahoma",8,650);GfxSetBkColor(ColorRGB(200,0,0));GfxSetTextColor(colorWhite);
GfxTextOut(""+H[lvix],GfxConvertBarToPixelX(AllVisibleBars+1),GfxConvertValueToPixelY(H[lvix],logscale));
}
}
if(tr[lvix])
{
if(displayMode)
{
lval=L[lvix];
for(j=i;j<AllVisibleBars;j++)
{
lvjx=j+fvb;
if(L[lvjx]<lval)
{
DisplaySup=0;
break;
}
}
}
if(Displaysup)
{
GfxSelectPen(ColorRGB(0,0,100),3,0);
GfxMoveTo(GfxConvertBarToPixelX(i),GfxConvertValueToPixelY(l[lvix],logscale));
GfxLineTo(GfxConvertBarToPixelX(AllVisibleBars-1),GfxConvertValueToPixelY(l[lvix],logscale));
GfxSelectFont("Tahoma",8,650);GfxSetBkColor(ColorRGB(0,0,200));GfxSetTextColor(colorWhite);
GfxTextOut(""+l[lvix],GfxConvertBarToPixelX(AllVisibleBars+1),GfxConvertValueToPixelY(L[lvix],logscale));
}
}
}