void PlotAlignmentValidation::modifySSHistAndLegend(THStack* hs, TLegend* legend)
{
// Add mean-y-values to the legend and scale the histograms.
Double_t legendY = 0.80;
if (hs->GetHists()->GetSize() > 3)
legendY -= 0.01 * (hs->GetHists()->GetSize() - 3);
if (legendY < 0.6) {
std::cerr << "Warning: Huge legend!" << std::endl;
legendY = 0.6;
}
legend->SetY1(legendY);
// Loop over all profiles
TProfile* prof = 0;
TIter next(hs->GetHists());
Int_t index = 0;
while ((prof = (TProfile*)next())) {
//Scaling: from cm to um
Double_t scale = 10000;
prof->Scale(scale);
Double_t stats[6] = {0};
prof->GetStats(stats);
std::ostringstream legendtext;
legendtext.precision(3);
legendtext << fixed; // to always show 3 decimals
legendtext << ": y mean = " << stats[4]/stats[0]*scale << " #mum";
TLegendEntry* entry = (TLegendEntry*)legend->GetListOfPrimitives()->At(index);
if (entry == 0)
cout << "PlotAlignmentValidation::PlotAlignmentValidation::modifySSLegend: Bad legend!" << endl;
else
entry->SetLabel((entry->GetLabel() + legendtext.str()).c_str());
index++;
}
}
int recoil_analysis(TString inputz, TString rootoutput, char* psoutput, int binz) {
ifstream inputResp(inputz);
ifstream inputSET(inputz);
TFile* ROOTout = new TFile(rootoutput, "update");
int theBin = -1;
theBin = binz;
int ptnbins = 46;
double ptbins[] = {0.0, 0.5, 0.75, 1.0, 1.25, 1.5, 1.75, 2.0, 2.25, 2.5, 2.75, 3.0, 3.25, 3.5, 3.75, 4.0, 4.5, 5.0, 5.5, 6.0, 7.0, 8.0, 9.0,
10.0, 11.0, 12.0, 13.0, 14.0, 15.0, 16.0, 18.0, 20.0, 22.0, 24.0, 26.0, 28.0,
30.0, 33.0, 36.0, 39.0, 42.0, 45.0, 49.0, 55.0, 70.0, 100.0, 500.0};
// Defines the variables
RooRealVar resp("resp", "u_{T}/q_{T}", 0., 30.);
RooRealVar ZBset("ZBset", "ZB SET", 0., 40.);//was 20
RooRealVar dphi_norm("dphi_norm", "#Delta#phi / #pi", -1., 1.);
RooRealVar lumi("lumi", "lumi", 0., 20.);
RooRealVar zphi("zphi", "Z #phi", 0., 2*TMath::Pi());
RooRealVar set_ut("set_ut", "SET - u_{T}", 0., 100.);
RooRealVar ut("ut", "u_{T}", 0., 200.); //was 200
double resp_bdr[] = {20., 15., 15., 10.,10.,10., 5., 5.,5., 5.,5.,5.,3., 3., 3., 3., 3., 3., 3., 3., 3., 3., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5};
double dphi_bdr[] = { 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., .5, .5, .5, .5, .5, .5, .5, .5, .3, .3, .3, .3,.3,.3,.3,.3, .2, .2, .2, .2, .2, .2, .1, .1};
int ptnbinszphi = 16;
double ptbinszphi[] = {0.0, 1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0, 11.0, 12.0, 15.0, 20.0, 30., 500.0};
int ptnbinsset = 15;
double ptbinsset[] = {0.0, 1.0, 2.0, 4.0, 6.0, 8.0, 10.0, 12.0, 15.0, 20.0, 25.0, 30., 40.0, 50.0, 70.0, 500.0};
double set_ut_bdr[]= {20., 30., 40., 40., 50., 50., 60., 60., 60., 60., 70.,70.,70., 70., 90.};
double ut_bdr[]= {10., 10., 15., 15.,15., 20., 20., 25., 30., 40.,40., 60.,60.,90., 200.}; //250
// Import the recoil (response x delta phi) from dump file
RooDataSet** RecoilRespData;
RooDataSet** SETData;
cout<<"importing data response"<<endl;
if (theBin == -1 || theBin == -3) RecoilRespData = importRecoilRespData(inputResp, resp, ZBset, dphi_norm, lumi, zphi, ptnbins, ptbins);
if (theBin == -2) SETData = importSETData(inputSET, set_ut, ut, ptnbinsset, ptbinsset);
if (theBin == -4) RecoilRespData = importRecoilRespData(inputResp, resp, ZBset, dphi_norm, lumi, zphi, ptnbinszphi, ptbinszphi);
inputResp.close();
inputSET.close();
gROOT->SetStyle("Plain");
gStyle->SetOptStat(0000);
gStyle->SetPalette(1,0);
TCanvas* c1 = new TCanvas("c1","c1");
c1->Print(TString::Format("%s[", psoutput));
for (int i=0; i<ptnbins; i++) {
//this is dphi and response in bins of true phi
if (i!=theBin && theBin != -1) continue;
if (RecoilRespData[i]->numEntries() < 5) continue;
cout<<"RESP bin "<<i<<endl;
RecoilRespData[i]->printMultiline(cout, 1);
TH2D* genHist0(0);
TH2D* genHist1(0);
TH2D* genHist2(0);
TH2D* genHist3(0);
TH2D* genHist4(0);
TH2D* genHist5(0);
//slightly different binning than 0-1, etc on 0 to 2pi scale to be more even on the sides (2 larger bins, rather than one)
RooDataSet* RecoilRespData_phi0 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=0.&&zphi<1.");
RooDataSet* RecoilRespData_phi1 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=1.&&zphi<2.");
RooDataSet* RecoilRespData_phi2 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=2.&&zphi<3.");
RooDataSet* RecoilRespData_phi3 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=3.&&zphi<4.");
RooDataSet* RecoilRespData_phi4 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=4.&&zphi<5.");
RooDataSet* RecoilRespData_phi5 = (RooDataSet*) RecoilRespData[i]->reduce("zphi>=5.");
RecoilRespData_phi0->printMultiline(cout, 1);
RecoilRespData_phi1->printMultiline(cout, 1);
RecoilRespData_phi2->printMultiline(cout, 1);
RecoilRespData_phi3->printMultiline(cout, 1);
RecoilRespData_phi4->printMultiline(cout, 1);
RecoilRespData_phi5->printMultiline(cout, 1);
cout<<"RESP bin start HIST "<<i<<endl;
genHist0 = (TH2D*) RecoilRespData_phi0->createHistogram(TString::Format("recoil_resp_hist_truephi0_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
genHist1 = (TH2D*) RecoilRespData_phi1->createHistogram(TString::Format("recoil_resp_hist_truephi1_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
genHist2 = (TH2D*) RecoilRespData_phi2->createHistogram(TString::Format("recoil_resp_hist_truephi2_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
genHist3 = (TH2D*) RecoilRespData_phi3->createHistogram(TString::Format("recoil_resp_hist_truephi3_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
genHist4 = (TH2D*) RecoilRespData_phi4->createHistogram(TString::Format("recoil_resp_hist_truephi4_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
genHist5 = (TH2D*) RecoilRespData_phi5->createHistogram(TString::Format("recoil_resp_hist_truephi5_bin_%d", i).Data(),
resp, Binning(250, 0., resp_bdr[i]),
YVar(dphi_norm, Binning(128, -1*dphi_bdr[i], dphi_bdr[i])));
cout<<"RESP bin start Write "<<i<<endl;
genHist0->Smooth(1);
genHist0->SetName(TString::Format("recoil_resp_hist_truephi0_bin_%d", i));
genHist0->SetTitle(TString::Format("recoil_resp_hist_truephi0_bin_%d", i));
double integral0 = genHist0->Integral();
genHist0->Scale(1/integral0);
genHist1->Smooth(1);
genHist1->SetName(TString::Format("recoil_resp_hist_truephi1_bin_%d", i));
genHist1->SetTitle(TString::Format("recoil_resp_hist_truephi1_bin_%d", i));
double integral1 = genHist1->Integral();
genHist1->Scale(1/integral1);
genHist2->Smooth(1);
genHist2->SetName(TString::Format("recoil_resp_hist_truephi2_bin_%d", i));
genHist2->SetTitle(TString::Format("recoil_resp_hist_truephi2_bin_%d", i));
double integral2 = genHist2->Integral();
genHist2->Scale(1/integral2);
genHist3->Smooth(1);
genHist3->SetName(TString::Format("recoil_resp_hist_truephi3_bin_%d", i));
genHist3->SetTitle(TString::Format("recoil_resp_hist_truephi3_bin_%d", i));
double integral3 = genHist3->Integral();
genHist3->Scale(1/integral3);
genHist4->Smooth(1);
genHist4->SetName(TString::Format("recoil_resp_hist_truephi4_bin_%d", i));
genHist4->SetTitle(TString::Format("recoil_resp_hist_truephi4_bin_%d", i));
double integral4 = genHist4->Integral();
genHist4->Scale(1/integral4);
genHist5->Smooth(1);
genHist5->SetName(TString::Format("recoil_resp_hist_truephi5_bin_%d", i));
genHist5->SetTitle(TString::Format("recoil_resp_hist_truephi5_bin_%d", i));
double integral5 = genHist5->Integral();
genHist5->Scale(1/integral5);
ROOTout->cd();
genHist0->Write(TString::Format("recoil_resp_hist_truephi0_bin_%d", i),TObject::kOverwrite);
genHist0->Draw("colz");
c1->Print(psoutput);
genHist1->Write(TString::Format("recoil_resp_hist_truephi1_bin_%d", i),TObject::kOverwrite);
genHist1->Draw("colz");
c1->Print(psoutput);
genHist2->Write(TString::Format("recoil_resp_hist_truephi2_bin_%d", i),TObject::kOverwrite);
genHist2->Draw("colz");
c1->Print(psoutput);
genHist3->Write(TString::Format("recoil_resp_hist_truephi3_bin_%d", i),TObject::kOverwrite);
genHist3->Draw("colz");
c1->Print(psoutput);
genHist4->Write(TString::Format("recoil_resp_hist_truephi4_bin_%d", i),TObject::kOverwrite);
genHist4->Draw("colz");
c1->Print(psoutput);
genHist5->Write(TString::Format("recoil_resp_hist_truephi5_bin_%d", i),TObject::kOverwrite);
genHist5->Draw("colz");
c1->Print(psoutput);
}
for (int i=0; i<ptnbins; i++) {
//this is zbset and response, in bins of luminosity
if (i!=theBin && theBin != -3) continue;
if (RecoilRespData[i]->numEntries() < 5) continue;
cout<<"RESP bin "<<i<<endl;
RecoilRespData[i]->printMultiline(cout, 1);
TH2D* genHist0(0);
TH2D* genHist1(0);
TH2D* genHist2(0);
TH2D* genHist3(0);
TH2D* genHist4(0);
TH2D* genHist5(0);
RooDataSet* RecoilRespData_lumi0 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=0.&&lumi<2.");
RooDataSet* RecoilRespData_lumi1 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=2.&&lumi<3.");
RooDataSet* RecoilRespData_lumi2 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=3.&&lumi<4.");
RooDataSet* RecoilRespData_lumi3 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=4.&&lumi<5.");
RooDataSet* RecoilRespData_lumi4 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=5.&&lumi<6.");
RooDataSet* RecoilRespData_lumi5 = (RooDataSet*) RecoilRespData[i]->reduce("lumi>=6.");
RecoilRespData_lumi0->printMultiline(cout, 1);
RecoilRespData_lumi1->printMultiline(cout, 1);
RecoilRespData_lumi2->printMultiline(cout, 1);
RecoilRespData_lumi3->printMultiline(cout, 1);
RecoilRespData_lumi4->printMultiline(cout, 1);
RecoilRespData_lumi5->printMultiline(cout, 1);
cout<<"RESP bin start HIST "<<i<<endl;
genHist0 = (TH2D*) RecoilRespData_lumi0->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin0_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
genHist1 = (TH2D*) RecoilRespData_lumi1->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin1_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
genHist2 = (TH2D*) RecoilRespData_lumi2->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin2_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
genHist3 = (TH2D*) RecoilRespData_lumi3->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin3_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
genHist4 = (TH2D*) RecoilRespData_lumi4->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin4_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
genHist5 = (TH2D*) RecoilRespData_lumi5->createHistogram(TString::Format("recoil_resp_zbset_hist_lumibin5_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(ZBset, Binning(25, 0.,25.)));//was 40 0 20
cout<<"RESP bin start Write "<<i<<endl;
genHist0->Smooth(1);
genHist0->SetName(TString::Format("recoil_resp_zbset_hist_lumibin0_bin_%d", i));
genHist0->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin0_bin_%d", i));
double integral0 = genHist0->Integral();
genHist0->Scale(1/integral0);
genHist1->Smooth(1);
genHist1->SetName(TString::Format("recoil_resp_zbset_hist_lumibin1_bin_%d", i));
genHist1->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin1_bin_%d", i));
double integral1 = genHist1->Integral();
genHist1->Scale(1/integral1);
genHist2->Smooth(1);
genHist2->SetName(TString::Format("recoil_resp_zbset_hist_lumibin2_bin_%d", i));
genHist2->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin2_bin_%d", i));
double integral2 = genHist2->Integral();
genHist2->Scale(1/integral2);
genHist3->Smooth(1);
genHist3->SetName(TString::Format("recoil_resp_zbset_hist_lumibin3_bin_%d", i));
genHist3->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin3_bin_%d", i));
double integral3 = genHist3->Integral();
genHist3->Scale(1/integral3);
genHist4->Smooth(1);
genHist4->SetName(TString::Format("recoil_resp_zbset_hist_lumibin4_bin_%d", i));
genHist4->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin4_bin_%d", i));
double integral4 = genHist4->Integral();
genHist4->Scale(1/integral4);
genHist5->Smooth(1);
genHist5->SetName(TString::Format("recoil_resp_zbset_hist_lumibin5_bin_%d", i));
genHist5->SetTitle(TString::Format("recoil_resp_zbset_hist_lumibin5_bin_%d", i));
double integral5 = genHist5->Integral();
genHist5->Scale(1/integral5);
ROOTout->cd();
genHist0->Write(TString::Format("recoil_resp_zbset_hist_lumibin0_bin_%d", i),TObject::kOverwrite);
genHist0->Draw("colz");
c1->Print(psoutput);
genHist1->Write(TString::Format("recoil_resp_zbset_hist_lumibin1_bin_%d", i),TObject::kOverwrite);
genHist1->Draw("colz");
c1->Print(psoutput);
genHist2->Write(TString::Format("recoil_resp_zbset_hist_lumibin2_bin_%d", i),TObject::kOverwrite);
genHist2->Draw("colz");
c1->Print(psoutput);
genHist3->Write(TString::Format("recoil_resp_zbset_hist_lumibin3_bin_%d", i),TObject::kOverwrite);
genHist3->Draw("colz");
c1->Print(psoutput);
genHist4->Write(TString::Format("recoil_resp_zbset_hist_lumibin4_bin_%d", i),TObject::kOverwrite);
genHist4->Draw("colz");
c1->Print(psoutput);
genHist5->Write(TString::Format("recoil_resp_zbset_hist_lumibin5_bin_%d", i),TObject::kOverwrite);
genHist5->Draw("colz");
c1->Print(psoutput);
}
std::vector <double> parmMean;
std::vector <double> parmA;
std::vector <double> parmB;
std::vector <double> parmC;
std::vector <double> parmD;
parmMean.clear();
parmA.clear();
parmB.clear();
parmC.clear();
parmD.clear();
for (int i=0; i<ptnbinszphi; i++) {
//this is zbset and response, in bins of luminosity
if (i!=theBin && theBin != -4) continue;
if (RecoilRespData[i]->numEntries() < 5) continue;
cout<<"RESP bin "<<i<<endl;
RecoilRespData[i]->printMultiline(cout, 1);
TH2D* genHist(0);
double twopi = 2*TMath::Pi();
cout<<"RESP bin start HIST "<<i<<endl;
genHist = (TH2D*) RecoilRespData[i]->createHistogram(TString::Format("recoil_resp_zphi_hist_bin_%d", i).Data(),
resp, Binning(500, 0., resp_bdr[i]),
YVar(zphi, Binning(64, 0., twopi)));//was 40 0 20
cout<<"RESP bin start Write "<<i<<endl;
genHist->SetName(TString::Format("recoil_resp_zphi_hist_bin_%d", i));
genHist->SetTitle(TString::Format("recoil_resp_zphi_hist_bin_%d", i));
TProfile *myhisty = genHist->ProfileY();
ROOTout->cd();
myhisty->Write(TString::Format("recoil_resp_zphi_hist_bin_%d", i),TObject::kOverwrite);
TF1 *pol3 = new TF1("pol3", "pol3");
myhisty->Fit("pol3");
double stats[7];
myhisty->GetStats(stats);
parmMean.push_back(myhisty->GetMean(2));
parmA.push_back(pol3->GetParameter(0));
parmB.push_back(pol3->GetParameter(1));
parmC.push_back(pol3->GetParameter(2));
parmD.push_back(pol3->GetParameter(3));
myhisty->Draw();
c1->Print(psoutput);
}
if (theBin == -4){
cout<<"HardRecoil_zphiresp_Mean: ";
for (int i=0; i<ptnbinszphi-1; i++) {
cout<<parmMean[i]<<" ";
}
cout<<parmMean[ptnbinszphi-1]<<endl;;
cout<<"HardRecoil_zphiresp_ParameterA: ";
for (int i=0; i<ptnbinszphi-1; i++) {
cout<<parmA[i]<<" ";
}
cout<<parmA[ptnbinszphi-1]<<endl;;
cout<<"HardRecoil_zphiresp_ParameterB: ";
for (int i=0; i<ptnbinszphi-1; i++) {
cout<<parmB[i]<<" ";
}
cout<<parmB[ptnbinszphi-1]<<endl;;
cout<<"HardRecoil_zphiresp_ParameterC: ";
for (int i=0; i<ptnbinszphi-1; i++) {
cout<<parmC[i]<<" ";
}
cout<<parmC[ptnbinszphi-1]<<endl;;
cout<<"HardRecoil_zphiresp_ParameterD: ";
for (int i=0; i<ptnbinszphi-1; i++) {
cout<<parmD[i]<<" ";
}
cout<<parmD[ptnbinszphi-1]<<endl;;
}
for (int i=0; i<ptnbinsset; i++) {
if (theBin != -2) continue;
if (SETData[i]->numEntries() < 5) continue;
cout<<"SET bin "<<i<<endl;
SETData[i]->printMultiline(cout, 1);
TH2D* genHist(0);
cout<<"SET bin start HIST "<<i<<endl;
genHist = (TH2D*) SETData[i]->createHistogram(TString::Format("set_ut_kde_bin_%d", i).Data(),
set_ut, Binning(500, 0., set_ut_bdr[i]),
YVar(ut, Binning(500, 0., ut_bdr[i])));
genHist->Smooth(1);
genHist->SetName(TString::Format("set_ut_hist_bin_%d", i));
genHist->SetTitle(TString::Format("set_ut_hist_bin_%d", i));
double integral = genHist->Integral();
genHist->Scale(1/integral);
ROOTout->cd();
genHist->Write(TString::Format("set_ut_hist_bin_%d", i),TObject::kOverwrite);
genHist->Draw("colz");
c1->Print(psoutput);
}
c1->Print(TString::Format("%s]", psoutput));
ROOTout->Close();
return(0);
}
