///
/// Update OADB Container for EMCal energy recalibration factors
/// from external file.
///
/// \param fileNameOADB: OADB file name and path
/// \param fileNameRecalibFactors: name and path of input file with new factors
///
void UpdateEMCAL_OADB_Recalib
(
const char *fileNameOADB="EMCALRecalib_input4test.root",
const char *fileNameRecalibFactors="/cebaf/cebaf/EMCAL/calibPi0_run2/createOCDB_4_with2015data_Nov2016finalCalib/multiplyPi0CalibrationFactors_TextToHisto_Final.root"
)
{
gSystem->Load("libOADB");
AliOADBContainer *con = new AliOADBContainer("");
con->InitFromFile(fileNameOADB, "AliEMCALRecalib"); //Updating the original OADB file, output will be written into BetaRecalib.root
// **** Loading the root files with Recalibration Factors:
TFile* fRecalibFactors=new TFile(fileNameRecalibFactors);
TObjArray *arrayRecalibFactors = new TObjArray(kNbSMtot);
arrayRecalibFactors->SetName("Recalib");
char name[30];
// Filling The objects above with the EMCALRecalFactors_SM Histos:
for (Int_t iSM=0;iSM<kNbSMtot;iSM++){
cout<<"SM "<< iSM<<endl;
sprintf(name,"EMCALRecalFactors_SM%d",iSM);
cout<<"Recalib : "<<name<<endl;
arrayRecalibFactors->Add(fRecalibFactors->Get(name));
} //iSM
//********************************************************************
// Setting Periods
//**** Adding pass object to period Object ****/
//When updating object that has already been created. For instance, adding pass2,3 etc.
//Just get the object and add new array. Append of runnumber is already done in this case.
/*TObjArray *array13b = (TObjArray*)con->GetObject(195345,"LHC13b");
TObjArray *array13c = (TObjArray*)con->GetObject(195529,"LHC13c");
TObjArray *array13d = (TObjArray*)con->GetObject(195681,"LHC13d");
TObjArray *array13e = (TObjArray*)con->GetObject(195935,"LHC13e");
TObjArray *array13f = (TObjArray*)con->GetObject(196433,"LHC13f");
TObjArray *array13b_pass3 = new TObjArray(kNbSMtot); array13b_pass3->SetName("pass3"); array13b_pass3->Add(*&arrayRecalibFactors);
TObjArray *array13c_pass2 = new TObjArray(kNbSMtot); array13c_pass2->SetName("pass2"); array13c_pass2->Add(*&arrayRecalibFactors);
TObjArray *array13d_pass2 = new TObjArray(kNbSMtot); array13d_pass2->SetName("pass2"); array13d_pass2->Add(*&arrayRecalibFactors);
TObjArray *array13e_pass2 = new TObjArray(kNbSMtot); array13e_pass2->SetName("pass2"); array13e_pass2->Add(*&arrayRecalibFactors);
TObjArray *array13f_pass2 = new TObjArray(kNbSMtot); array13f_pass2->SetName("pass2"); array13f_pass2->Add(*&arrayRecalibFactors);
array13b->Add(*&array13b_pass3);
array13c->Add(*&array13c_pass2);
array13d->Add(*&array13d_pass2);
array13e->Add(*&array13e_pass2);
array13f->Add(*&array13f_pass2);*/
TObjArray *array15_pass1 = new TObjArray(kNbSMtot);
TObjArray *array15_pass2 = new TObjArray(kNbSMtot);
TObjArray *array15_pass3 = new TObjArray(kNbSMtot);
array15_pass1->SetName("pass1");
array15_pass2->SetName("pass2");
array15_pass3->SetName("pass3");
array15_pass1->Add(*&arrayRecalibFactors);
array15_pass2->Add(*&arrayRecalibFactors);
array15_pass3->Add(*&arrayRecalibFactors);
con->WriteToFile("BetaRecalib.root");
//test(195935); // If someone wants to test container
}
void energyHistoCompare(string dataset){
/*setting up some global style variables */
gStyle->SetLabelSize(0.05, "xyz");
gStyle->SetLabelOffset(0.015, "xyz");
gStyle->SetTitleSize(0.05, "xyz");
gStyle->SetTitleSize(0.055, "h");
gStyle->SetTitleOffset(1.1, "x");
gStyle->SetTitleOffset(1.2, "y");
gStyle->SetPadTopMargin(0.08);
gStyle->SetPadBottomMargin(0.12);
gStyle->SetPadLeftMargin(0.14);
gStyle->SetPadRightMargin(0.1);
gStyle->SetOptStat(0);
gROOT->ForceStyle();
//Initialize OADB container
AliOADBContainer *container = new AliOADBContainer("");
container->InitFromFile("$ALICE_PHYSICS/OADB/EMCAL/EMCALTimeCalib.root", "AliEMCALTimeCalib");
if(!container){
fprintf(stderr, "No OADB container!");
return;
}
//Find container in OADB
TObject *calibration = (TObject*) container->GetObject(0, "TimeCalib13");
if(!calibration){
fprintf(stderr, "No calibration container found in OADB!");
return;
}
//Get Array for pass1 (13g) and pass4 (13b and 13c) and set up histograms
TObject *calibPass1 = (TObject*) calibration->FindObject("pass1");
if(!calibPass1){
fprintf(stderr, "No pass1!");
return;
}
TH1F *pass1[4];
TObject* calibPass4 = (TObject*) calibration->FindObject("pass4");
if(!calibPass4){
fprintf(stderr, "No pass4!");
return;
}
TH1F *pass4[4];
//Set up the file to check against OADB
TFile *checkFile[6];
checkFile[0] = new TFile(Form("Calibration_%s_1000_400.root", dataset.c_str()));
checkFile[1] = new TFile(Form("Calibration_%s_1000_200.root", dataset.c_str()));
checkFile[2] = new TFile(Form("Calibration_%s_800_400.root", dataset.c_str()));
checkFile[3] = new TFile(Form("Calibration_%s_800_200.root", dataset.c_str()));
checkFile[4] = new TFile(Form("Calibration_%s_400_400.root", dataset.c_str()));
checkFile[5] = new TFile(Form("Calibration_%s_400_200.root", dataset.c_str()));
for(int i=0; i<6; i++){
if(!checkFile[i]){
fprintf(stderr, "Check file %i wasn't loaded!", i);
return;
}
}
// printf("dataset: %s, strcomp(\"13g\", %s) = %i\n", dataset.c_str(), dataset.c_str(), strcmp("13g", dataset.c_str()));
TH1F **check[6];
TH1F **errors[6];
TH1F **errorsRebin[6];
TH1F **compare[6];
TH1F **compareRebin[6];
TH1F **compare1000[6];
TH1F **compare1000Rebin[6];
for(int nfile = 0; nfile<6; nfile++){
check[nfile] = new TH1F*[4];
compare[nfile] = new TH1F*[4];
compareRebin[nfile] = new TH1F*[4];
errors[nfile] = new TH1F*[4];
errorsRebin[nfile] = new TH1F*[4];
compare1000[nfile] = new TH1F*[4];
compare1000Rebin[nfile] = new TH1F*[4];
}
TH1F *compareSingle[4];
TH1F *errors1000400upper[4];
TH1F *errors1000400lower[4];
//Get histograms from files (not LG for dataset 13g)
for(int ibc =0; ibc<4; ibc++){
for(int nfile = 0; nfile<6; nfile++){
if(strcmp("13g", dataset.c_str())==0){
check[nfile][ibc] = (TH1F*)checkFile[nfile]->Get(Form("hAllTimeAvBC%d", ibc));
errors[nfile][ibc] = (TH1F*)checkFile[nfile]->Get(Form("hAllTimeRMSBC%d", ibc));
}else{
check[nfile][ibc] = (TH1F*)checkFile[nfile]->Get(Form("hAllTimeAvLGBC%d", ibc));
errors[nfile][ibc] = (TH1F*)checkFile[nfile]->Get(Form("hAllTimeRMSLGBC%d", ibc));
}
switch(nfile){
case 0 : check[nfile][ibc]->SetName(Form("1000mev400mevBC%d", ibc));
break;
case 1 : check[nfile][ibc]->SetName(Form("1000mev200mevBC%d", ibc));
break;
case 2 : check[nfile][ibc]->SetName(Form("800mev400mevBC%d", ibc));
break;
case 3 : check[nfile][ibc]->SetName(Form("800mev200mevBC%d", ibc));
break;
case 4 : check[nfile][ibc]->SetName(Form("400mev400mevBC%d", ibc));
break;
case 5 : check[nfile][ibc]->SetName(Form("400mev200mevBC%d", ibc));
break;
default: break;
}
compare[nfile][ibc] = check[nfile][ibc]->Clone(Form("compare%s", check[nfile][ibc]->GetName()));
compare1000[nfile][ibc] = check[0][ibc]->Clone(Form("compare1000_%s", check[nfile][ibc]->GetName()));
}
pass1[ibc] = (TH1F*)calibPass1->FindObject(Form("hAllTimeAvBC%d", ibc));
pass4[ibc] = (TH1F*)calibPass4->FindObject(Form("hAllTimeAvBC%d", ibc));
}
//Generate the comparison histograms
for(int nfile=0; nfile<6; nfile++){
for(int jbc=0; jbc<4; jbc++){
for(int bin=0; bin < compare[nfile][jbc]->GetNbinsX(); bin++){
if(strcmp("13g", dataset.c_str())==0){
compare[nfile][jbc]->SetBinContent(bin, compare[nfile][jbc]->GetBinContent(bin) - pass1[jbc]->GetBinContent(bin));
if(compare[nfile][jbc]->GetBinContent(bin)<-200){
compare[nfile][jbc]->SetBinContent(bin, 0.);
}
}else{
compare[nfile][jbc]->SetBinContent(bin, compare[nfile][jbc]->GetBinContent(bin) - pass4[jbc]->GetBinContent(bin));
if(compare[nfile][jbc]->GetBinContent(bin)<-200){
compare[nfile][jbc]->SetBinContent(bin, 0.);
}
}
compare1000[nfile][jbc]->SetBinContent(bin, check[nfile][jbc]->GetBinContent(bin) - compare1000[nfile][jbc]->GetBinContent(bin));
}
if(nfile==0){
compareSingle[jbc] = (TH1F*)compare[nfile][jbc]->Clone("singlecomp");
}
compareRebin[nfile][jbc] = compare[nfile][jbc]->Rebin(100, Form("compareR%s", check[nfile][jbc]->GetName()));
compareRebin[nfile][jbc]->Scale(0.01);
compare1000Rebin[nfile][jbc]= compare1000[nfile][jbc]->Rebin(100, Form("compare1000R%s", check[nfile][jbc]->GetName()));
compare1000Rebin[nfile][jbc]->Scale(0.01);
}
}
Double_t variance = 0.0;
//Generate the Errors histograms using standard deviation squared
for(int nfile = 0; nfile<6; nfile++){
for(int jbc=0; jbc<4; jbc++){
for(int bin=0; bin < check[nfile][jbc]->GetNbinsX(); bin++){
variance = TMath::Power(errors[nfile][jbc]->GetBinContent(bin), 2) - TMath::Power(check[nfile][jbc]->GetBinContent(bin), 2);
if(variance >= 0){
errors[nfile][jbc]->SetBinContent(bin, (TMath::Sqrt(variance)));
}else{
errors[nfile][jbc]->SetBinContent(bin, 0.0);
}
}
//rebin
errorsRebin[nfile][jbc] = errors[nfile][jbc]->Rebin(100, Form("%sR", errors[nfile][jbc]->GetName()));
errorsRebin[nfile][jbc]->Scale(0.01);
if(nfile==0){
errors1000400upper[jbc] = (TH1F*)errors[nfile][jbc]->Clone("errorUpper");
errors1000400lower[jbc] = (TH1F*)errors[nfile][jbc]->Clone("errorLower");
errors1000400lower[jbc]->Scale(-1.0);
}
}
}
errors[0][0]->Print("base");
/*
//Setup Output file
TFile *output = new TFile("comparison.root", "RECREATE");
output->cd();
check_1000_200[0]->Write();
output->Close();
*/
//draw all calibration on same plot
TCanvas* c0 = new TCanvas("Calibration Offsets BC0", "calibrationoffsetsbc0", 1000,600);
c0->cd();
TLegend *legend = new TLegend(0.1,0.7,0.3,0.9);
legend->SetHeader("Calibration for Cluster/Cell energy cuts");
// bc number to plot
int bcNum = 0;
if(strcmp("13g",dataset.c_str())==0){
pass1[bcNum]->SetMarkerStyle(20);
pass1[bcNum]->SetMarkerColor(1);
pass1[bcNum]->SetMarkerSize(1);
pass1[bcNum]->SetTitle(Form("Calibration for Different Cluster/Cell Energy Cuts for LHC%s BC%d", dataset.c_str(), bcNum));
pass1[bcNum]->GetXaxis()->SetTitle("Cell AbsID");
pass1[bcNum]->GetXaxis()->SetRangeUser(0,11650);
pass1[bcNum]->GetYaxis()->SetTitle("Calibrated Offset (ns)");
pass1[bcNum]->GetYaxis()->SetRangeUser(550,650);
pass1[bcNum]->SetStats(kFALSE);
pass1[bcNum]->Draw("P SAME");
legend->AddEntry(pass1[bcNum], "Current OADB Calibration", "p");
}else{
pass4[bcNum]->SetMarkerStyle(20);
pass4[bcNum]->SetMarkerColor(1);
pass4[bcNum]->SetMarkerSize(1);
pass4[bcNum]->SetTitle(Form("Calibration for Different Cluster/Cell Energy Cuts for LHC%s BC%d", dataset.c_str(), bcNum));
pass4[bcNum]->GetXaxis()->SetTitle("Cell AbsID");
pass4[bcNum]->GetXaxis()->SetRangeUser(0,11650);
pass4[bcNum]->GetYaxis()->SetTitle("Calibrated Offset (ns)");
pass4[bcNum]->GetYaxis()->SetRangeUser(550,650);
pass4[bcNum]->SetStats(kFALSE);
pass4[bcNum]->Draw("P SAME");
legend->AddEntry(pass4[bcNum], "Current OADB Calibration", "p");
}
for(int nfile=0; nfile<6; nfile++){
check[nfile][bcNum]->SetMarkerStyle(3);
check[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
check[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
switch(nfile){
case 0 : legend->AddEntry((TH1F*)check[nfile][bcNum], "1000MeV / 400MeV", "p");
break;
case 1 : legend->AddEntry((TH1F*)check[nfile][bcNum], "1000MeV / 200MeV", "p");
break;
case 2 : legend->AddEntry((TH1F*)check[nfile][bcNum], "800MeV / 400MeV", "p");
break;
case 3 : legend->AddEntry((TH1F*)check[nfile][bcNum], "800MeV / 200MeV", "p");
break;
case 4 : legend->AddEntry((TH1F*)check[nfile][bcNum], "400MeV / 400MeV", "p");
break;
case 5 : legend->AddEntry((TH1F*)check[nfile][bcNum], "400MeV / 200MeV", "p");
break;
default: break;
}
check[nfile][bcNum]->SetTitle(Form("Calibration for Different Cluster/Cell Energy Cuts for LHC%s BC%d", dataset.c_str(), bcNum));
check[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID");
check[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
check[nfile][bcNum]->GetYaxis()->SetTitle("Calibrated Offset (ns)");
check[nfile][bcNum]->GetYaxis()->SetRangeUser(550,650);
check[nfile][bcNum]->SetStats(kFALSE);
check[nfile][bcNum]->Draw("P SAME");
}
legend->SetTextSizePixels(10);
legend->Draw();
//draw just OADB 1000/400 MeV cut on same plot
TCanvas* c400 = new TCanvas("Calibration Offsets 1000MeV/400MeV BC0", "calibrationoffsets400bc0", 1000,600);
c400->cd();
TLegend *legend400 = new TLegend(0.1,0.7,0.3,0.9);
legend400->SetHeader("Calibration for Cluster/Cell energy cuts");
nfile=0;
int color = nfile+2;
if(strcmp("13g", dataset.c_str())==0){
pass1[bcNum]->SetTitle(Form("Time Calibration for LHC%s BC%d", dataset.c_str(), bcNum));
pass1[bcNum]->Draw("P SAME");
legend400->AddEntry((TH1F*)pass1[bcNum], "OADB Calibration", "p");
}else{
pass4[bcNum]->SetTitle(Form("Time Calibration for LHC%s BC%d", dataset.c_str(), bcNum));
pass4[bcNum]->Draw("P SAME");
legend400->AddEntry((TH1F*)pass4[bcNum], "OADB Calibration", "p");
}
legend400->AddEntry((TH1F*)check[nfile][bcNum], "1000MeV / 400MeV", "p");
check[nfile][bcNum]->SetTitle(Form("Time Calibration for LHC%s BC%d", dataset.c_str(), bcNum));
check[nfile][bcNum]->GetYaxis()->SetRangeUser(550,650);
check[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
check[nfile][bcNum]->Draw("P SAME");
legend400->SetTextSizePixels(12);
legend400->Draw();
//draw all standard deviation on same plot
TCanvas* cError = new TCanvas("Calibration Errors BC0", "calibrationerrorsbc0", 1000,600);
cError->cd();
TLegend *legendError = new TLegend(0.1,0.7,0.4,0.9);
legendError->SetHeader("Calibration for Cluster/Cell Energy cuts");
for(int nfile=0; nfile<6; nfile++){
errors[nfile][bcNum]->SetMarkerStyle(3);
errors[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
errors[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
errors[nfile][bcNum]->SetLineWidth(2);
errors[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "1000MeV / 400MeV", "l");
break;
case 1 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "1000MeV / 200MeV", "l");
break;
case 2 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "800MeV / 400MeV", "l");
break;
case 3 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "800MeV / 200MeV", "l");
break;
case 4 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "400MeV / 400MeV", "l");
break;
case 5 : legendError->AddEntry((TH1F*)errors[nfile][bcNum], "400MeV / 200MeV", "l");
break;
default: break;
}
errors[nfile][bcNum]->SetTitle(Form("Standard Deviation of Calibration for LHC%s BC%d", dataset.c_str(), bcNum));
errors[nfile][bcNum]->GetXaxis()->SetRangeUser(0, 11650);
errors[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID");
errors[nfile][bcNum]->GetYaxis()->SetRangeUser(-2,8);
errors[nfile][bcNum]->GetYaxis()->SetTitle("Standard Deviation of Calibration (ns)");
errors[nfile][bcNum]->SetStats(kFALSE);
errors[nfile][bcNum]->Draw("L SAME");
}
legendError->SetTextSizePixels(10);
// legendError->Draw();
//Draw comparison with OADB plot (all cuts)
TCanvas* c1 = new TCanvas("(OADB - Calibration)", "comparisonbc0", 1000,600);
c1->cd();
TLegend *compLegend = new TLegend(0.1,0.7,0.4,0.9);
compLegend->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile++){
compare[nfile][bcNum]->SetMarkerStyle(3);
compare[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
compare[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compare[nfile][bcNum]->SetLineWidth(2);
compare[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compare[nfile][bcNum]->SetTitle(Form("(OADB - Calibration) for LHC%s BC%d", dataset.c_str(), bcNum));
compare[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
compare[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID");
compare[nfile][bcNum]->GetYaxis()->SetRangeUser(-3,10);
compare[nfile][bcNum]->GetYaxis()->SetTitle("Difference in Calibration (ns)");
compare[nfile][bcNum]->SetStats(kFALSE);
compare[nfile][bcNum]->Draw("L SAME");
}
compLegend->SetTextSizePixels(10);
// compLegend->Draw();
//Draw comparison with OADB (400 cell cut, all cluster cuts)
TCanvas* c2 = new TCanvas("(OADB - Calibration_400)", "comparison_400_bc0", 1000,600);
c2->cd();
TLegend *compLegend2 = new TLegend(0.1,0.7,0.4,0.9);
compLegend2->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile+=2){
compare[nfile][bcNum]->SetMarkerStyle(3);
compare[nfile][bcNum]->SetMarkerSize(0.8);
int color = nfile+2;
compare[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compare[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend2->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compare[nfile][bcNum]->Draw("L SAME");
}
compLegend2->SetTextSizePixels(10);
// compLegend2->Draw();
//Draw comparison with OADB (200 cell cut, cluster cuts)
TCanvas* c3 = new TCanvas("(OADB - Calibration_200)", "comparison_200_bc0", 1000,600);
c3->cd();
TLegend *compLegend3 = new TLegend(0.1,0.7,0.4,0.9);
compLegend3->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=1; nfile<6; nfile+=2){
compare[nfile][bcNum]->SetMarkerStyle(3);
compare[nfile][bcNum]->SetMarkerSize(0.8);
int color = nfile+2;
compare[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compare[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend3->AddEntry((TH1F*)compare[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compare[nfile][bcNum]->Draw("L SAME");
}
compLegend3->SetTextSizePixels(10);
// compLegend3->Draw();
//Draw comparison with OADB and 1000/400 cut
TCanvas* c400comp = new TCanvas("(OADB - Calibration_1000/400)", "comparison_1000400_bc0", 1000,600);
c400comp->cd();
nfile=0;
compareSingle[bcNum]->SetMarkerStyle(3);
compareSingle[bcNum]->SetMarkerSize(0.8);
int color = nfile+2;
compareSingle[bcNum]->SetMarkerColorAlpha(color, 0.3);
compareSingle[bcNum]->SetLineColor(color);
compareSingle[bcNum]->SetTitle(Form("(OADB - Calibration) for LHC%s BC%d", dataset.c_str(), bcNum));
compareSingle[bcNum]->GetXaxis()->SetRangeUser(0,11650);
compareSingle[bcNum]->GetXaxis()->SetTitle("Cell AbsID");
compareSingle[bcNum]->GetYaxis()->SetRangeUser(-3,10);
compareSingle[bcNum]->GetYaxis()->SetTitle("Difference in Calibration (ns)");
compareSingle[bcNum]->SetStats(kFALSE);
compareSingle[bcNum]->Draw("L SAME");
//Draw comparison with 1000_400 plot (all cuts)
TCanvas* c1000 = new TCanvas("(Calibration - 1000MeV/400MeV)", "comparison1000bc0", 1000,600);
c1000->cd();
TLegend *comp1000Legend = new TLegend(0.1,0.7,0.4,0.9);
comp1000Legend->SetHeader("Difference between 1000MeV/400MeV cut and other Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile++){
compare1000[nfile][bcNum]->SetMarkerStyle(3);
compare1000[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
compare1000[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compare1000[nfile][bcNum]->SetLineWidth(2);
compare1000[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(1000MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 1 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(1000MeV/200MeV - 1000MeV/400MeV)", "l");
break;
case 2 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(800MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 3 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(800MeV/200MeV - 1000MeV/400MeV)", "l");
break;
case 4 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(400MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 5 : comp1000Legend->AddEntry((TH1F*)compare1000[nfile][bcNum], "(400MeV/200MeV - 1000MeV/400MeV)", "l");
break;
default: break;
}
compare1000[nfile][bcNum]->SetStats(kFALSE);
compare1000[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
compare1000[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID");
compare1000[nfile][bcNum]->GetYaxis()->SetRangeUser(-5, 15);
compare1000[nfile][bcNum]->GetYaxis()->SetTitle("Difference in Calibration (ns)");
compare1000[nfile][bcNum]->SetTitle(Form("(Calibration - 1000MeV/400MeV) for LHC%s BC%d", dataset.c_str(), bcNum));
compare1000[nfile][bcNum]->SetStats(kFALSE);
compare1000[nfile][bcNum]->Draw("L SAME");
}
comp1000Legend->SetTextSizePixels(10);
// comp1000Legend->Draw();
//**REBIN draw all standard deviation on same plot
TCanvas* cErrorR = new TCanvas("Calibration Errors BC0 Rebin", "calibrationerrorsbc0R", 1000,600);
cErrorR->cd();
TLegend *legendErrorR = new TLegend(0.1,0.7,0.4,0.9);
legendError->SetHeader("Calibration for Cluster/Cell Energy cuts");
for(int nfile=0; nfile<6; nfile++){
errorsRebin[nfile][bcNum]->SetMarkerStyle(3);
errorsRebin[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
errorsRebin[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
errorsRebin[nfile][bcNum]->SetLineWidth(2);
errorsRebin[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "1000MeV / 400MeV", "l");
break;
case 1 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "1000MeV / 200MeV", "l");
break;
case 2 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "800MeV / 400MeV", "l");
break;
case 3 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "800MeV / 200MeV", "l");
break;
case 4 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "400MeV / 400MeV", "l");
break;
case 5 : legendError->AddEntry((TH1F*)errorsRebin[nfile][bcNum], "400MeV / 200MeV", "l");
break;
default: break;
}
errorsRebin[nfile][bcNum]->SetTitle(Form("Standard Deviation of Calibration for LHC%s BC%d", dataset.c_str(), bcNum));
errorsRebin[nfile][bcNum]->GetXaxis()->SetRangeUser(0, 11650);
errorsRebin[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID (Rebinned by 100)");
errorsRebin[nfile][bcNum]->GetYaxis()->SetRangeUser(-2,8);
errorsRebin[nfile][bcNum]->GetYaxis()->SetTitle("Standard Deviation of Calibration (ns)");
errorsRebin[nfile][bcNum]->SetStats(kFALSE);
errorsRebin[nfile][bcNum]->Draw("L SAME");
}
legendError->SetTextSizePixels(10);
// legendError->Draw();
//**REBIN Draw comparison with OADB plot (all cuts)
TCanvas* c1R = new TCanvas("(OADB - Calibration) Rebin", "comparisonbc0R", 1000,600);
c1R->cd();
TLegend *compLegendR = new TLegend(0.1,0.7,0.4,0.9);
compLegend->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile++){
compareRebin[nfile][bcNum]->SetMarkerStyle(3);
compareRebin[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
compareRebin[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compareRebin[nfile][bcNum]->SetLineWidth(2);
compareRebin[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compareRebin[nfile][bcNum]->SetTitle(Form("(OADB - Calibration) for LHC%s BC%d", dataset.c_str(), bcNum));
compareRebin[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
compareRebin[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID (Rebinned by 100)");
compareRebin[nfile][bcNum]->GetYaxis()->SetRangeUser(-3,10);
compareRebin[nfile][bcNum]->GetYaxis()->SetTitle("Difference in Calibration (ns)");
compareRebin[nfile][bcNum]->SetStats(kFALSE);
compareRebin[nfile][bcNum]->Draw("L SAME");
}
compLegend->SetTextSizePixels(10);
// compLegend->Draw();
//**REBIN Draw comparison with OADB (400 cell cut, all cluster cuts)
TCanvas* c2R = new TCanvas("(OADB - Calibration_400) Rebin", "comparison_400_bc0R", 1000,600);
c2R->cd();
TLegend *compLegend2R = new TLegend(0.1,0.7,0.4,0.9);
compLegend2->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile+=2){
compareRebin[nfile][bcNum]->SetMarkerStyle(3);
compareRebin[nfile][bcNum]->SetMarkerSize(0.8);
int color = nfile+2;
compareRebin[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compareRebin[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend2->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compareRebin[nfile][bcNum]->Draw("L SAME");
}
compLegend2->SetTextSizePixels(10);
// compLegend2->Draw();
//**REBIN Draw comparison with OADB (200 cell cut, cluster cuts)
TCanvas* c3R = new TCanvas("(OADB - Calibration_200) Rebin", "comparison_200_bc0R", 1000,600);
c3R->cd();
TLegend *compLegend3R = new TLegend(0.1,0.7,0.4,0.9);
compLegend3->SetHeader("Difference between OADB and Calibration for Cluster/Cell energy cuts");
for(int nfile=1; nfile<6; nfile+=2){
compareRebin[nfile][bcNum]->SetMarkerStyle(3);
compareRebin[nfile][bcNum]->SetMarkerSize(0.8);
int color = nfile+2;
compareRebin[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compareRebin[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/400MeV)", "l");
break;
case 1 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 1000MeV/200MeV)", "l");
break;
case 2 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/400MeV)", "l");
break;
case 3 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 800MeV/200MeV)", "l");
break;
case 4 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/400MeV)", "l");
break;
case 5 : compLegend3->AddEntry((TH1F*)compareRebin[nfile][bcNum], "(OADB - 400MeV/200MeV)", "l");
break;
default: break;
}
compareRebin[nfile][bcNum]->Draw("L SAME");
}
compLegend3->SetTextSizePixels(10);
// compLegend3->Draw();
//**REBIN Draw comparison with 1000_400 plot (all cuts)
TCanvas* c1000R = new TCanvas("(Calibration - 1000MeV/400MeV) Rebin", "comparison1000bc0R", 1000,600);
c1000R->cd();
TLegend *comp1000LegendR = new TLegend(0.1,0.7,0.4,0.9);
comp1000LegendR->SetHeader("Difference between 1000MeV/400MeV cut and other Cluster/Cell energy cuts");
for(int nfile=0; nfile<6; nfile++){
compare1000Rebin[nfile][bcNum]->SetMarkerStyle(3);
compare1000Rebin[nfile][bcNum]->SetMarkerSize(0.6);
int color = nfile+2;
compare1000Rebin[nfile][bcNum]->SetMarkerColorAlpha(color, 0.3);
compare1000Rebin[nfile][bcNum]->SetLineWidth(2);
compare1000Rebin[nfile][bcNum]->SetLineColor(color);
switch(nfile){
case 0 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(1000MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 1 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(1000MeV/200MeV - 1000MeV/400MeV)", "l");
break;
case 2 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(800MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 3 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(800MeV/200MeV - 1000MeV/400MeV)", "l");
break;
case 4 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(400MeV/400MeV - 1000MeV/400MeV)", "l");
break;
case 5 : comp1000Legend->AddEntry((TH1F*)compare1000Rebin[nfile][bcNum], "(400MeV/200MeV - 1000MeV/400MeV)", "l");
break;
default: break;
}
compare1000Rebin[nfile][bcNum]->SetStats(kFALSE);
compare1000Rebin[nfile][bcNum]->GetXaxis()->SetRangeUser(0,11650);
compare1000Rebin[nfile][bcNum]->GetXaxis()->SetTitle("Cell AbsID (Rebinned by 100)");
compare1000Rebin[nfile][bcNum]->GetYaxis()->SetRangeUser(-5, 15);
compare1000Rebin[nfile][bcNum]->GetYaxis()->SetTitle("Difference in Calibration (ns)");
compare1000Rebin[nfile][bcNum]->SetTitle(Form("(Calibration - 1000MeV/400MeV) for LHC%s BC%d", dataset.c_str(), bcNum));
compare1000Rebin[nfile][bcNum]->SetStats(kFALSE);
compare1000Rebin[nfile][bcNum]->Draw("L SAME");
}
comp1000Legend->SetTextSizePixels(10);
// comp1000Legend->Draw();
}