void Show_SR(TString oredList, TCanvas *can, float xlow, float xhigh, float ylow, float yhigh, bool useShape, TLegend *leg)
{
Int_t c_myRed = TColor::GetColor("#aa000");
can->cd();
TLatex lat;
//lat.SetTextAlign( 11 );
lat.SetTextSize( 0.0265 );
lat.SetTextColor( 12 );
lat.SetTextFont( 42 );
cout << "Draw signal region labels." << endl;
gROOT->ProcessLine(".L summary_harvest_tree_description.h+");
gSystem->Load("libSusyFitter.so");
TString txtfile=oredList;
txtfile.ReplaceAll(".root","");
TTree* tree = harvesttree( txtfile!=0 ? txtfile : 0 );
if (tree==0) {
cout << "Cannot open list file. Exit." << endl;
return;
}
Float_t fID;
Float_t m0;
Float_t m12;
TBranch *b_m0;
TBranch *b_m12;
TBranch *b_fID;
tree->SetBranchAddress("m0", &m0, &b_m0);
tree->SetBranchAddress("m12", &m12, &b_m12);
tree->SetBranchAddress("fID", &fID, &b_fID);
bool drawMarker;
for( Int_t i = 0; i < tree->GetEntries(); i++ ){
drawMarker = false;
tree->GetEntry( i );
cout << m0 << " " << m12 << " " << fID << endl;
TMarker marker;
//marker.SetMarkerColor(4);
marker.SetMarkerSize(2.5);
marker.SetMarkerStyle(29);
int _m0 = (int) m0;
int _m12 = (int) m12;
if(oredList.Contains("GG")){
if( (_m0 == 700 && _m12 == 550) || (_m0 == 1162 && _m12 == 337) || (_m0 == 1250 && _m12 == 50) )
drawMarker = true;
} else if(oredList.Contains("SS")){
if( (_m0 == 850 && _m12 == 100) || (_m0 == 450 && _m12 == 400))
drawMarker = true;
} else if(oredList.Contains("SG")){
if( (_m0 == 1425 && _m12 == 525) || (_m0 == 1612 && _m12 == 37))
drawMarker = true;
}
if (drawMarker)
marker.DrawMarker(m0, m12);
TString mySR = GetSRName(fID, useShape);
lat.DrawLatex(m0,m12,mySR.Data());
}
leg->Draw("same");
// add up/down lines
TLine *line1;
TLine *line2;
if (oredList.Contains("GG")) {
line1 = new TLine( 972, 1412, 1062, 1412);
line2 = new TLine( 972, 1355, 1062, 1355);
cout << "GG line1" << endl;
} else if (oredList.Contains("SS")) {
line1 = new TLine( 793, 1128, 860, 1128);
line2 = new TLine( 793, 1081, 860, 1081);
cout << "SS line1" << endl;
} else if (oredList.Contains("SG")) {
line1 = new TLine( 1150, 1645, 1260, 1645);
line2 = new TLine( 1150, 1565, 1260, 1565);
cout << "SG line1" << endl;
}
/*
line1->SetLineWidth(2);
line1->SetLineColor(c_myRed);
line1->SetLineStyle(3);
line1->Draw("SAME") ;
line2->SetLineWidth(2);
line2->SetLineColor(c_myRed);
line2->SetLineStyle(3);
line2->Draw("SAME") ;
*/
}
void plotAnitaEventMap(Adu5Pat *patPtr,double phi,double theta){
double sourceLon,sourceLat,headLon,headLat,phi10Lon,phi10Lat,phi6Lon,phi6Lat,phi14Lon,phi14Lat,actualLat,actualLon,actual2Lat,actual2Lon;
float xEvent,yEvent,xAnita,yAnita,anitaLat,anitaLon,anitaAlt,xHead,yHead,x10,y10,x6,y6,x14,y14,yActual,xActual,yActual2,xActual2;
anitaLat = patPtr->latitude;
anitaLon = patPtr->longitude;
anitaAlt = patPtr->altitude;
UsefulAdu5Pat usefulPat(patPtr);
std::cout << "source " << std::endl;
//int sourceLoc = usefulPat.getSourceLonAndLatAltZero((180-phi)/180.*PI,(theta)/180.*PI,sourceLon,sourceLat);
int sourceLoc = usefulPat.getSourceLonAndLatAltZero((phi)/180.*PI,(theta)/180.*PI,sourceLon,sourceLat);
std::cout << std::endl << "heading " << std::endl;
int headLoc = usefulPat.getSourceLonAndLatAltZero(0./180.*PI,10./180.*PI,headLon,headLat);
std::cout << std::endl << "phi 10 " << std::endl;
int headLoc10 = usefulPat.getSourceLonAndLatAltZero(180./180.*PI,10./180.*PI,phi10Lon,phi10Lat);
std::cout << std::endl << "phi 14 " << std::endl;
int headLoc14 = usefulPat.getSourceLonAndLatAltZero(270./180.*PI,10./180.*PI,phi14Lon,phi14Lat);
std::cout << std::endl << "phi 6 " << std::endl;
int headLoc6 = usefulPat.getSourceLonAndLatAltZero(90./180.*PI,10./180.*PI,phi6Lon,phi6Lat);
std::cout << std::endl << "actual 14.5 " << std::endl;
int actualLoc = usefulPat.getSourceLonAndLatAltZero(phi/180.*PI,12.5/180.*PI,actualLon,actualLat);
std::cout << std::endl << "actual 4.5 " << std::endl;
int actualLoc2 = usefulPat.getSourceLonAndLatAltZero(phi/180.*PI,7.5/180.*PI,actual2Lon,actual2Lat);
//int sourceLoc = usefulPat.getSourceLonAndLatAltZero((phi)/180.*PI,(TMath::PiOver2()-theta)/180.*PI,sourceLon,sourceLat);
TImage *map = TImage::Open("/home/mottram/work/eventCorrelator/macros/antarcticaIceMap.png");
std::cout << "sourceLoc " << sourceLoc << " phi " << phi << " theta " << theta << " lon " << sourceLon << " lat " << sourceLat << std::endl;
gStyle->SetMarkerColor(kBlack);
//gStyle->SetMarkerSize(2);
gStyle->SetTextSize(0.02);
TMarker *anitaPos = new TMarker(xAnita,yAnita,23);
getRelXYFromLatLong(anitaLat,anitaLon,xAnita,yAnita);
getRelXYFromLatLong(static_cast<float>(sourceLat),static_cast<float>(sourceLon),xEvent,yEvent);
getRelXYFromLatLong(static_cast<float>(headLat),static_cast<float>(headLon),xHead,yHead);
getRelXYFromLatLong(static_cast<float>(phi10Lat),static_cast<float>(phi10Lon),x10,y10);
getRelXYFromLatLong(static_cast<float>(phi14Lat),static_cast<float>(phi14Lon),x14,y14);
getRelXYFromLatLong(static_cast<float>(phi6Lat),static_cast<float>(phi6Lon),x6,y6);
getRelXYFromLatLong(static_cast<float>(actualLat),static_cast<float>(actualLon),xActual,yActual);
getRelXYFromLatLong(static_cast<float>(actual2Lat),static_cast<float>(actual2Lon),xActual2,yActual2);
TCanvas *canMap=(TCanvas*)gROOT->FindObject("canMap");
if(!canMap)
canMap = new TCanvas("canMap","canMap",(int)xSize,(int)ySize);
canMap->Clear();
canMap->SetLogz();
canMap->SetTopMargin(0);
canMap->SetBottomMargin(0);
canMap->SetLeftMargin(0);
canMap->SetRightMargin(0);
map->Draw("");
TMarker *headingPos = new TMarker(xHead,yHead,29);
TMarker *heading14Pos = new TMarker(x14,y14,29);
TMarker *heading10Pos = new TMarker(x10,y10,29);
TMarker *heading6Pos = new TMarker(x6,y6,29);
TMarker *actualPos = new TMarker(xActual,yActual,29);
TMarker *actual2Pos = new TMarker(xActual2,yActual2,29);
headingPos->SetMarkerColor(kRed);
heading14Pos->SetMarkerColor(kGray);
heading10Pos->SetMarkerColor(kGray+2);
heading6Pos->SetMarkerColor(kViolet);
actualPos->SetMarkerColor(kRed+2);//12.5 theta
actual2Pos->SetMarkerColor(kBlue+2);//7.5 theta
headingPos->Draw("");
heading14Pos->Draw("");
heading10Pos->Draw("");
heading6Pos->Draw("");
actualPos->Draw("");
actual2Pos->Draw("");
anitaPos->DrawMarker(xAnita,yAnita);
TLatex *positionLabel=0;
char label[FILENAME_MAX];
if(sourceLoc==0){
if(anitaAlt<0){
sprintf(label,"Could not get event position, ANITA below 0 altitude!");
}
else if(theta>0){
sprintf(label,"Pointing upwards! Cannot locate source at ground position");
}
else{
sprintf(label,"Unkown error, cannot position source at 0 altitude");
}
positionLabel = new TLatex();
positionLabel->DrawLatex(0.05,0.95,label);
return;
}
TMarker *eventPos = new TMarker(xEvent,yEvent,29);
eventPos->SetMarkerColor(kBlack);
eventPos->Draw("");
sprintf(label,"ANITA location: lat %f; long %f; alt %f, x %f, y %f",anitaLat,anitaLon,anitaAlt,xAnita,yAnita);
positionLabel = new TLatex();
positionLabel->DrawLatex(0.05,0.97,label);
sprintf(label,"Event location: lat %f; long %f, x %f, y %f",sourceLat,sourceLon,xEvent,yEvent);
positionLabel->DrawLatex(0.05,0.94,label);
}
void Drawing()
{
frodo *fr = frodo::instance();
fr->Y1.clear();
fr->X1.clear();
fr->Y2.clear();
fr->X2.clear();
fr->Y3.clear();
fr->X3.clear();
fr->Y4.clear();
fr->X4.clear();
fr->AllX.clear();
fr->AllY.clear();
//----------------------------------------------------------------------------------------------------
TCanvas *HBD = new TCanvas("HBD","HBD Event Display",0,0,700,700);
HBD->Range(-50000,-50000,50000,50000);
double Qx1,Qx2,Qx3,Qx4,Qy1,Qy2,Qy3,Qy4;
Qx1=Qx2=Qx3=Qx4=Qy1=Qy2=Qy3=Qy4=0;
for(unsigned int i=0; i<60; i++)
{
Qx1 += fr->J1_XStrips[i].Q();
Qx2 += fr->J2_XStrips[i].Q();
Qx3 += fr->J3_XStrips[i].Q();
Qx4 += fr->J4_XStrips[i].Q();
}
for(unsigned int i=0; i<60; i++)
{
Qy1 += fr->J1_YStrips[i].Q();
Qy2 += fr->J2_YStrips[i].Q();
Qy3 += fr->J3_YStrips[i].Q();
Qy4 += fr->J4_YStrips[i].Q();
}
double Qtot1 = Qx1+Qy1;
double Qtot2 = Qx2+Qy2;
double Qtot3 = Qx3+Qy3;
double Qtot4 = Qx4+Qy4;
//J1 section:-------------------------------------------------------------------
double X1 = -49100; //left
double Y1 = -1375; //bottom
double X2 = -1000; //right
double Y2 = -1075; //top
for(unsigned int i=0; i<60; i++)
{
double T = fr->J1_YStrips[i].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot1*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J1_YStrips[i].Draw(X1,Y1,X2,Y2,1);
HBD->Update();
fr->Y1.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int (Qfrac);
fr->J1_YStrips[i].Draw(X1,Y1,X2,Y2,index);
HBD->Update();
fr->Y1.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int (Qfrac) - 49;
fr->J1_YStrips[i].Draw(X1,Y1,X2,Y2,2);
HBD->Update();
fr->Y1.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J1_YStrips[i].YCenter()));
}
Y2 = Y1 - 500;
Y1 = Y2 - 300;
}
double x1 = -1900;
double y1 = -48975;
double x2 = -1200;
double y2 = -48675;
for(unsigned int j=0; j<60; j++)
{
double T = fr->J1_XStrips[j].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot1*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J1_XStrips[j].Draw(x1,y1,x2,y2,1);
HBD->Update();
fr->X1.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J1_XStrips[j].Draw(x1,y1,x2,y2,index);
HBD->Update();
fr->X1.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac) - 49;
fr->J1_XStrips[j].Draw(x1,y1,x2,y2,2);
HBD->Update();
fr->X1.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J1_XStrips[j].XCenter()));
}
x2 = x1 - 100;
x1 = x2 - 700;
}
//J2 section:----------------------------------------------------------------
//cout<<"J2: "<<endl;
X1 = 900;
Y1 = -1375;
X2 = 49000;
Y2 = -1075;
for(unsigned int i=0; i<60; i++)
{
double T = fr->J2_YStrips[i].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot2*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J2_YStrips[i].Draw(X1,Y1,X2,Y2,1);
HBD->Update();
fr->Y2.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J2_YStrips[i].Draw(X1,Y1,X2,Y2,index);
HBD->Update();
fr->Y2.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J2_YStrips[i].Draw(X1,Y1,X2,Y2,2);
HBD->Update();
fr->Y2.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J2_YStrips[i].YCenter()));
}
Y2 = Y1 - 500;
Y1 = Y2 - 300;
}
x1 = 48100;
y1 = -48975;
x2 = 48800;
y2 = -48675;
for(unsigned int j=0; j<60; j++)
{
double T = fr->J2_XStrips[j].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot2*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J2_XStrips[j].Draw(x1,y1,x2,y2,1);
HBD->Update();
fr->X2.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J2_XStrips[j].Draw(x1,y1,x2,y2,index);
HBD->Update();
fr->X2.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J2_XStrips[j].Draw(x1,y1,x2,y2,2);
HBD->Update();
fr->X2.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J2_XStrips[j].XCenter()));
}
x2 = x1 - 100;
x1 = x2 - 700;
}
//J3 section:----------------------------------------------------------------
X1 = -49100;
Y1 = 1125;
X2 = -1000;
Y2 = 1425;
for(unsigned int i=0; i<60; i++)
{
double T = fr->J3_YStrips[i].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot3*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J3_YStrips[i].Draw(X1,Y1,X2,Y2,1);
HBD->Update();
fr->Y3.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J3_YStrips[i].Draw(X1,Y1,X2,Y2,index);
HBD->Update();
fr->Y3.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J3_YStrips[i].Draw(X1,Y1,X2,Y2,2);
HBD->Update();
fr->Y3.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J3_YStrips[i].YCenter()));
}
Y1 = Y2 + 500;
Y2 = Y1 + 300;
}
x1 = -49100;
y1 = 1525;
x2 = -48400;
y2 = 1825;
for(unsigned int j=0; j<60; j++)
{
double T = fr->J3_XStrips[j].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot3*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J3_XStrips[j].Draw(x1,y1,x2,y2,1);
HBD->Update();
fr->X3.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J3_XStrips[j].Draw(x1,y1,x2,y2,index);
HBD->Update();
fr->X3.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J3_XStrips[j].Draw(x1,y1,x2,y2,2);
HBD->Update();
fr->X3.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J3_XStrips[j].XCenter()));
}
x1 = x2 + 100;
x2 = x1 + 700;
}
//J4 section:-----------------------------------------------------------------
X1 = 950;
Y1 = 1125;
X2 = 49050;
Y2 = 1425;
for(unsigned int i=0; i<60; i++)
{
double T = fr->J4_YStrips[i].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot4*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J4_YStrips[i].Draw(X1,Y1,X2,Y2,1);
HBD->Update();
fr->Y4.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J4_YStrips[i].Draw(X1,Y1,X2,Y2,index);
HBD->Update();
fr->Y4.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J4_YStrips[i].Draw(X1,Y1,X2,Y2,2);
HBD->Update();
fr->Y4.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
fr->AllY.push_back(Coordinates(fr->J4_YStrips[i].YCenter()));
}
Y1 = Y2 + 500;
Y2 = Y1 + 300;
}
x1 = 950;
y1 = 1525;
x2 = 1650;
y2 = 1825;
for(unsigned int j=0; j<60; j++)
{
double T = fr->J4_XStrips[j].Q();
//double Qfrac = exp(-T/20)*100;
double Qfrac = T/Qtot4*100;
if(Qfrac>0.04 && Qfrac<1)
{
fr->J4_XStrips[j].Draw(x1,y1,x2,y2,1);
HBD->Update();
fr->X4.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
}
else if(Qfrac>=1 && Qfrac<50)
{
int index = int(Qfrac);
fr->J4_XStrips[j].Draw(x1,y1,x2,y2,index);
HBD->Update();
fr->X4.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
}
else if(Qfrac>=50 && Qfrac<99.98)
{
//int index = int(Qfrac)-49;
fr->J4_XStrips[j].Draw(x1,y1,x2,y2,2);
HBD->Update();
fr->X4.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
fr->AllX.push_back(Coordinates(fr->J4_XStrips[j].XCenter()));
}
x1 = x2 + 100;
x2 = x1 + 700;
}
//Drawing the Central Cross:
X1 = -49100;
Y1 = -675;
X2 = 49050;
Y2 = 675;
TBox Hori (X1,Y1, X2,Y2);
Hori.SetFillColor(15);
Hori.DrawBox(X1,Y1, X2,Y2);
HBD->Update();
X1 = -500;
Y1 = -48975;
X2 = 500;
Y2 = 49025;
TBox Vert (X1,Y1, X2,Y2);
Vert.SetFillColor(15);
Vert.DrawBox(X1,Y1, X2,Y2);
HBD->Update();
//Drawing the real positions of the photons:
for(unsigned int a=0; a<fr->HBDParticles.size(); a++)
{
fr->HBDParticles[a].Draw();
HBD->Update();
}
//Finding the ring:----------------------------------------------------------------------------------
Hough = new TH3D ("Hough","Hough",500,-50000,50000,500,-50000,50000,500,0,50000);
Houghxy = new TH2D ("Houghxy","Houghxy",100,-50000,50000,100,-50000,50000);
Houghxr = new TH2D ("Houghxr","Houghxr",100,-50000,50000,100,0,50000);
Houghyr = new TH2D ("Houghyr","Houghyr",100,-50000,50000,100,0,50000);
//Forming J1234 PseudoPoints:
for(unsigned int s=0; s<fr->Y1.size(); s++)
{
for(unsigned int ps=0; ps<fr->X1.size(); ps++)
{
fr->J1_PseudoPoints.push_back(TVector3(fr->X1[ps].Cor(),fr->Y1[s].Cor(),0));
}
}
//cout<<"J1 size:"<<fr->J1_PseudoPoints.size()<<endl;
for(unsigned int s=0; s<fr->Y2.size(); s++)
{
for(unsigned int ps=0; ps<fr->X2.size(); ps++)
{
fr->J2_PseudoPoints.push_back(TVector3(fr->X2[ps].Cor(),fr->Y2[s].Cor(),0));
}
}
//cout<<"J2 size:"<<fr->J2_PseudoPoints.size()<<endl;
for(unsigned int s=0; s<fr->Y3.size(); s++)
{
for(unsigned int ps=0; ps<fr->X3.size(); ps++)
{
fr->J3_PseudoPoints.push_back(TVector3(fr->X3[ps].Cor(),fr->Y3[s].Cor(),0));
}
}
//cout<<"J3 size:"<<fr->J3_PseudoPoints.size()<<endl;
for(unsigned int s=0; s<fr->Y4.size(); s++)
{
for(unsigned int ps=0; ps<fr->X4.size(); ps++)
{
fr->J4_PseudoPoints.push_back(TVector3(fr->X4[ps].Cor(),fr->Y4[s].Cor(),0));
}
}
//Selecting 3 PseudoPoints in three different quadrants:
//J1,J2,J3:
if(fr->J1_PseudoPoints.size() >= 1 && fr->J2_PseudoPoints.size() >= 1 && fr->J3_PseudoPoints.size() >= 1)
{
for(unsigned int i=0; i<fr->J1_PseudoPoints.size(); i++)
{
for(unsigned int j=0; j<fr->J2_PseudoPoints.size(); j++)
{
for(unsigned int k=0; k<fr->J3_PseudoPoints.size(); k++)
{
double Rad = FindR(fr->J1_PseudoPoints[i],fr->J2_PseudoPoints[j],fr->J3_PseudoPoints[k]);
double Xcen = FindX(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J2_PseudoPoints[j].X(),fr->J2_PseudoPoints[j].Y(),fr->J3_PseudoPoints[k].X(),fr->J3_PseudoPoints[k].Y());
double Ycen = FindY(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J2_PseudoPoints[j].X(),fr->J2_PseudoPoints[j].Y(),fr->J3_PseudoPoints[k].X(),fr->J3_PseudoPoints[k].Y());
Hough->Fill(Xcen,Ycen,Rad);
Houghxy->Fill(Xcen,Ycen);
Houghyr->Fill(Ycen,Rad);
Houghxr->Fill(Xcen,Rad);
}
}
}
}
//J1,J2,J4:
if(fr->J1_PseudoPoints.size() >= 1 && fr->J2_PseudoPoints.size() >= 1 && fr->J4_PseudoPoints.size() >= 1)
{
for(unsigned int i=0; i<fr->J1_PseudoPoints.size(); i++)
{
for(unsigned int j=0; j<fr->J2_PseudoPoints.size(); j++)
{
for(unsigned int k=0; k<fr->J4_PseudoPoints.size(); k++)
{
double Rad = FindR(fr->J1_PseudoPoints[i],fr->J2_PseudoPoints[j],fr->J4_PseudoPoints[k]);
double Xcen = FindX(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J2_PseudoPoints[j].X(),fr->J2_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
double Ycen = FindY(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J2_PseudoPoints[j].X(),fr->J2_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
Hough->Fill(Xcen,Ycen,Rad);
Houghxy->Fill(Xcen,Ycen);
Houghyr->Fill(Ycen,Rad);
Houghxr->Fill(Xcen,Rad);
}
}
}
}
//J1,J3,J4:
if(fr->J1_PseudoPoints.size() >= 1 && fr->J3_PseudoPoints.size() >= 1 && fr->J4_PseudoPoints.size() >= 1)
{
for(unsigned int i=0; i<fr->J1_PseudoPoints.size(); i++)
{
for(unsigned int j=0; j<fr->J3_PseudoPoints.size(); j++)
{
for(unsigned int k=0; k<fr->J4_PseudoPoints.size(); k++)
{
double Rad = FindR(fr->J1_PseudoPoints[i],fr->J3_PseudoPoints[j],fr->J4_PseudoPoints[k]);
double Xcen = FindX(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J3_PseudoPoints[j].X(),fr->J3_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
double Ycen = FindY(fr->J1_PseudoPoints[i].X(),fr->J1_PseudoPoints[i].Y(),fr->J3_PseudoPoints[j].X(),fr->J3_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
Hough->Fill(Xcen,Ycen,Rad);
Houghxy->Fill(Xcen,Ycen);
Houghyr->Fill(Ycen,Rad);
Houghxr->Fill(Xcen,Rad);
}
}
}
}
//J2,J3,J4;
if(fr->J2_PseudoPoints.size() >= 1 && fr->J3_PseudoPoints.size() >= 1 && fr->J4_PseudoPoints.size() >= 1)
{
for(unsigned int i=0; i<fr->J2_PseudoPoints.size(); i++)
{
for(unsigned int j=0; j<fr->J3_PseudoPoints.size(); j++)
{
for(unsigned int k=0; k<fr->J4_PseudoPoints.size(); k++)
{
double Rad = FindR(fr->J2_PseudoPoints[i],fr->J3_PseudoPoints[j],fr->J4_PseudoPoints[k]);
double Xcen = FindX(fr->J2_PseudoPoints[i].X(),fr->J2_PseudoPoints[i].Y(),fr->J3_PseudoPoints[j].X(),fr->J3_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
double Ycen = FindY(fr->J2_PseudoPoints[i].X(),fr->J2_PseudoPoints[i].Y(),fr->J3_PseudoPoints[j].X(),fr->J3_PseudoPoints[j].Y(),fr->J4_PseudoPoints[k].X(),fr->J4_PseudoPoints[k].Y());
Hough->Fill(Xcen,Ycen,Rad);
Houghxy->Fill(Xcen,Ycen);
Houghyr->Fill(Ycen,Rad);
Houghxr->Fill(Xcen,Rad);
}
}
}
}
/*
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!DO NOT ERASE!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//Forming PseudoPoints:
for(unsigned int ps=0; ps<fr->AllX.size(); ps++)
{
for(unsigned int s=0; s<fr->AllY.size(); s++)
{
fr->PseudoPoints.push_back(TVector3(fr->AllX[ps].Cor(),fr->AllY[s].Cor(),0));
}
}
//Full Combinatorial:
for(unsigned int i=0; i<fr->PseudoPoints.size()-2; i++)
{
for(unsigned int j=i+1; j<fr->PseudoPoints.size()-1; j++)
{
for(unsigned int k=j+1; k<fr->PseudoPoints.size(); k++)
{
double Rad = FindR(fr->PseudoPoints[i],fr->PseudoPoints[j],fr->PseudoPoints[k]);
double Xcen = FindX(fr->PseudoPoints[i].X(),fr->PseudoPoints[i].Y(),fr->PseudoPoints[j].X(),fr->PseudoPoints[j].Y(),fr->PseudoPoints[k].X(),fr->PseudoPoints[k].Y());
double Ycen = FindY(fr->PseudoPoints[i].X(),fr->PseudoPoints[i].Y(),fr->PseudoPoints[j].X(),fr->PseudoPoints[j].Y(),fr->PseudoPoints[k].X(),fr->PseudoPoints[k].Y());
Hough->Fill(Xcen,Ycen,Rad);
Houghxy->Fill(Xcen,Ycen);
Houghyr->Fill(Ycen,Rad);
Houghxr->Fill(Xcen,Rad);
}
}
}
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
*/
int xbin, ybin, zbin;
xbin=0; ybin=0; zbin=0;
Hough->GetMaximumBin(xbin, ybin, zbin);
//cout << "xbin= " << xbin << " ybin= " << ybin << " zbin= " << zbin << endl;
TAxis *xaxis = Hough->GetXaxis();
double Xrec=xaxis->GetBinCenter(xbin);
cout<<"Xrec= "<< Xrec <<endl;
TAxis *yaxis = Hough->GetYaxis();
double Yrec=yaxis->GetBinCenter(ybin);
cout<<"Yrec= "<< Yrec <<endl;
TAxis *zaxis = Hough->GetZaxis();
double Rrec=zaxis->GetBinCenter(zbin);
cout<<"Rrec= "<< Rrec <<endl;
//Drawing the founded ring and its center:
TEllipse ring (Xrec,Yrec,Rrec,Rrec,1,360,0);
ring.SetLineColor(2);
ring.SetFillStyle(0);
ring.DrawEllipse(Xrec,Yrec,Rrec,Rrec,0,360,0);
HBD->Update();
TMarker circumcenter (Xrec,Yrec,8);
circumcenter.SetMarkerColor(2);
circumcenter.SetMarkerSize(1);
circumcenter.DrawMarker(Xrec,Yrec);
HBD->Update();
}