//______________________________________________________________________________
TObject* GetHistogram(TFile* file,
const Char_t* cutClass,
const Char_t* histList,
const Char_t* histName) {
//
// get a histogram from the J/psi output
//
TKey* qaKey = (TKey*)file->GetListOfKeys()->At(0);
TList* qaList = (TList*)qaKey->ReadObj();
THashList* qaCutClass = (THashList*)qaList->FindObject(cutClass);
THashList* qaHistList = (THashList*)qaCutClass->FindObject(histList);
return qaHistList->FindObject(histName);
}
const char *Next(int &kind,int &idx,double &exe,double &heap,double &free,double &inc) {
if(!inp) return 0;
kind=0;idx=0;exe=0;heap=0;free=0,inc=0;
TString ts;
char *endMaker,*clear,*ctr,*doPs,*fr,*to,*and;
while(fgets(line,500,inp)) {
doPs = strstr(line,"doPs for");
if (!doPs) continue;
endMaker = strstr(line,"EndMaker");
clear = strstr(line,"Clear");
ctr = strstr(line,"constructor");
kind = 0;
if (ctr ) kind = 1;
if (clear ) kind = 2;
if (endMaker) kind = 3;
if (!kind) continue;
fr = doPs+8 +strspn(doPs+8," \t");
to = strstr(fr,":");
ts = ""; ts.Append(fr,to-fr);
if (!ts.Length()) continue;
fr = strstr(fr,"total"); if (!fr) continue;
fr = strstr(fr,"=" ); if (!fr) continue;
exe = atof(fr+1);
fr = strstr(fr,"heap" ); if (!fr) continue;
fr = strstr(fr,"=" ); if (!fr) continue;
heap = atof(fr+1);
and = strstr(fr,"and");
if (and) free = atof(and+3);
fr = strstr(fr,"(" ); if (!fr) continue;
inc = atof(fr+1);
if (kind==1) continue;
TNamed *tn = (TNamed*)hash.FindObject(ts.Data());
if (!tn) {
tn = new TNamed(ts.Data(),"");
hash.Add(tn);
fNMakers++;
tn->SetUniqueID((UInt_t)fNMakers);
mArray.AddAtAndExpand(tn,fNMakers);
}
idx = tn->GetUniqueID();
return tn->GetName();
}
fclose(inp); inp = 0;
return 0;
}};
const AliEventInfo* GetEventInfo()
{
// Fill the event info object
AliCentralTrigger *aCTP = NULL;
if (AliEveEventManager::AssertRawReader())
{
fEventInfo.SetEventType(AliEveEventManager::AssertRawReader()->GetType());
ULong64_t mask = AliEveEventManager::AssertRawReader()->GetClassMask();
fEventInfo.SetTriggerMask(mask);
UInt_t clmask = AliEveEventManager::AssertRawReader()->GetDetectorPattern()[0];
fEventInfo.SetTriggerCluster(AliDAQ::ListOfTriggeredDetectors(clmask));
aCTP = new AliCentralTrigger();
TString configstr("");
if (!aCTP->LoadConfiguration(configstr)) { // Load CTP config from OCDB
printf("No trigger configuration found in OCDB! The trigger configuration information will not be used!");
// delete aCTP;
return 0;
}
aCTP->SetClassMask(mask);
aCTP->SetClusterMask(clmask);
if (AliEveEventManager::AssertRunLoader())
{
AliCentralTrigger* rlCTP = AliEveEventManager::AssertRunLoader()->GetTrigger();
if (rlCTP)
{
rlCTP->SetClassMask(mask);
rlCTP->SetClusterMask(clmask);
}
}
}
else
{
fEventInfo.SetEventType(AliRawEventHeaderBase::kPhysicsEvent);
if (AliEveEventManager::AssertRunLoader() &&
(!AliEveEventManager::AssertRunLoader()->LoadTrigger()))
{
aCTP = AliEveEventManager::AssertRunLoader()->GetTrigger();
fEventInfo.SetTriggerMask(aCTP->GetClassMask());
// get inputs from actp - just get
AliESDEvent *esdEvent = AliEveEventManager::Instance()->GetESD();
if(esdEvent)
{
AliESDHeader* esdheader = esdEvent->GetHeader();
esdheader->SetL0TriggerInputs(aCTP->GetL0TriggerInputs());
esdheader->SetL1TriggerInputs(aCTP->GetL1TriggerInputs());
esdheader->SetL2TriggerInputs(aCTP->GetL2TriggerInputs());
fEventInfo.SetTriggerCluster(AliDAQ::ListOfTriggeredDetectors(aCTP->GetClusterMask()));
}
else
{
cout<<"tpc_raw -- no ESD event"<<endl;
}
}
else
{
printf("No trigger can be loaded! The trigger information will not be used!");
return 0;
}
}
AliTriggerConfiguration *config = aCTP->GetConfiguration();
if (!config)
{
printf("No trigger configuration has been found! The trigger configuration information will not be used!");
// if (AliEveEventManager::AssertRawReader()) delete aCTP;
return 0;
}
TString declTriggerClasses;
// Load trigger aliases and declare the trigger classes included in aliases
AliCDBEntry * entry = AliCDBManager::Instance()->Get("GRP/CTP/Aliases");
if (entry) {
THashList * lst = dynamic_cast<THashList*>(entry->GetObject());
if (lst) {
lst->Sort(kFALSE); // to avoid problems with substrings
if (AliEveEventManager::AssertRawReader()) AliEveEventManager::AssertRawReader()->LoadTriggerAlias(lst);
// Now declare all the triggers present in the aliases
TIter iter(lst);
TNamed *nmd = 0;
while((nmd = dynamic_cast<TNamed*>(iter.Next()))){
declTriggerClasses += " ";
declTriggerClasses += nmd->GetName();
}
}
else {
printf("Cannot cast the object with trigger aliases to THashList!");
}
}
else {
printf("No OCDB entry for the trigger aliases!");
}
// Load trigger classes for this run
UChar_t clustmask = 0;
TString trclasses;
ULong64_t trmask = fEventInfo.GetTriggerMask();
const TObjArray& classesArray = config->GetClasses();
Int_t nclasses = classesArray.GetEntriesFast();
for( Int_t iclass=0; iclass < nclasses; iclass++ ) {
AliTriggerClass* trclass = (AliTriggerClass*)classesArray.At(iclass);
if (trclass && trclass->GetMask()>0) {
Int_t trindex = TMath::Nint(TMath::Log2(trclass->GetMask()));
if (AliEveEventManager::AssertESD()) AliEveEventManager::AssertESD()->SetTriggerClass(trclass->GetName(),trindex);
if (AliEveEventManager::AssertRawReader()) AliEveEventManager::AssertRawReader()->LoadTriggerClass(trclass->GetName(),trindex);
if (trmask & (1ull << trindex)) {
trclasses += " ";
trclasses += trclass->GetName();
trclasses += " ";
clustmask |= trclass->GetCluster()->GetClusterMask();
}
}
}
fEventInfo.SetTriggerClasses(trclasses);
if (!aCTP->CheckTriggeredDetectors()) {
// if (AliEveEventManager::AssertRawReader()) delete aCTP;
cout<<"Check trigger detectors failed"<<endl;
return 0;
}
// if (AliEveEventManager::AssertRawReader()) delete aCTP;
// everything went ok, return pointer
return (&fEventInfo);
}
// flags: [apply fake rate | pass Trigger | lumi | MC weight | trigger Eff | trigger MC to data SF | lumi SF | ele SF | mu SF | PU reweight]
TH1F *
MakeHistoFromBranch(TFile *input, const char *treeName, const char *brName, int signs, int ®ion, const char *cutVariable, float cutLow, float cutHigh, vector<float> &binning, unsigned int flags, bool normToBinWidth, float userScale)
{
input->cd();
// prepare the histogram
TH1F *histo = new TH1F("dummy", "dummy", 150, 0., 1500.);
histo->Sumw2();
histo->SetName(brName);
histo->SetTitle(brName);
float *bins = &binning[0];
histo->GetXaxis()->Set(binning.size() - 1, bins);
if (flags & 1<<7) userScale *= ((TParameter<float> *)input->Get("lumi"))->GetVal();
if (flags & 1<<6) {
THashList *mcWeights = (THashList *)input->Get("mcWeights");
unsigned int charOffset = 8;
if (flags & 1<<9) charOffset += 2;
userScale *= ((TParameter<float> *)mcWeights->FindObject(treeName + charOffset))->GetVal();
}
if (flags & 1<<5) userScale *= ((TParameter<float> *)input->Get("trgEff"))->GetVal();
if (flags & 1<<4) userScale *= ((TParameter<float> *)input->Get("trgDataMcScaleFactor"))->GetVal();
if (flags & 1<<1) userScale *= ((TParameter<float> *)input->Get("muScaleFactor"))->GetVal();
float eleScaleFactorEB = ((TParameter<float> *)input->Get("eleScaleFactorEB"))->GetVal();
float eleScaleFactorEE = ((TParameter<float> *)input->Get("eleScaleFactorEE"))->GetVal();
float lumiScaleFactorEB = ((TParameter<float> *)input->Get("lumiScaleFactorEB"))->GetVal();
float lumiScaleFactorEE = ((TParameter<float> *)input->Get("lumiScaleFactorEE"))->GetVal();
//cout << "Scalefactor = " << userScale << endl;
// get the tree
TTree *tree;
tree = (TTree *)input->Get(treeName);
// get branches
float var;
bool passTrg;
bool passHeep;
float puWeight = 1.;
int eCharge;
int muCharge;
int evtRegion;
float cutVar = 0.;
float fakeRate = 0.;
tree->SetBranchStatus("*",0); //disable all branches
tree->SetBranchStatus(brName,1);
tree->SetBranchAddress(brName, &var);
if (flags & 1<<8) {
tree->SetBranchStatus("passTrg",1);
tree->SetBranchAddress("passTrg", &passTrg);
}
if (signs != 0) {
tree->SetBranchStatus("eCharge",1);
tree->SetBranchStatus("muCharge",1);
tree->SetBranchAddress("eCharge", &eCharge);
tree->SetBranchAddress("muCharge", &muCharge);
}
if (region < 2) {
tree->SetBranchStatus("evtRegion",1);
tree->SetBranchAddress("evtRegion", &evtRegion);
}
if (flags & 1) {
tree->SetBranchStatus("puWeight",1);
tree->SetBranchAddress("puWeight", &puWeight);
}
if (cutVariable[0] != '\0') {
tree->SetBranchStatus(cutVariable,1);
tree->SetBranchAddress(cutVariable, &cutVar);
}
if (flags & 1<<9) {
tree->SetBranchStatus("passHeep",1);
tree->SetBranchStatus("fakeRate",1);
tree->SetBranchAddress("passHeep", &passHeep);
tree->SetBranchAddress("fakeRate", &fakeRate);
}
Long64_t nEntries = (*tree).GetEntries();
for (unsigned int i = 0; i < nEntries; ++i) {
tree->GetEntry(i);
// trigger fired?
if ((flags & 1<<8) && passTrg == false) continue;
// select electron region
if (evtRegion == 0 && region == 1) continue;
if (evtRegion == 1 && region == 0) continue;
float scaleFactor = userScale;
// set lumi and electron scalefactor according to detector region
if (evtRegion == 0 && flags & 1<<2) scaleFactor *= eleScaleFactorEB;
if (evtRegion == 1 && flags & 1<<2) scaleFactor *= eleScaleFactorEE;
if (evtRegion == 0 && flags & 1<<3) scaleFactor *= lumiScaleFactorEB;
if (evtRegion == 1 && flags & 1<<3) scaleFactor *= lumiScaleFactorEE;
// PU reweight
if (flags & 1) scaleFactor *= puWeight;
// get only the desired charge combination. Scheme emu -3 to +3: -+, +-, OS, ALL, SS, ++, --
if (signs < 0 && (eCharge * muCharge) > 0) continue; // OS
if (signs > 0 && (eCharge * muCharge) < 0) continue; // SS
if (abs(signs) == 3 && eCharge > 0) continue; // e-mu+ or e-mu-
if (abs(signs) == 2 && eCharge < 0) continue; // e+mu- or e+mu+
// user defined cut
if (cutVariable[0] != '\0')
if (cutVar < cutLow || cutVar >= cutHigh) continue;
if (flags & 1<<9) {
if (!passHeep) scaleFactor *= fakeRate / (1 - fakeRate);
else continue;
}
if (normToBinWidth) scaleFactor /= histo->GetBinWidth(histo->FindBin(var));
histo->Fill(var, scaleFactor);
}
//cout << "integral: " << histo->Integral() << " overflow: " << histo->GetBinContent(histo->GetNbinsX() + 1) << endl;
return histo;
}
void macro_MakeQcdClosureTest()
{
// parameters //////////////////////////////////////////////////////////////
//TFile input("./emuSpec_19619pb-1.root", "open");
TFile input("test_19619pb-1.root", "open");
input.cd();
TParameter<float> *lumi = (TParameter<float> *)input.Get("lumi");
const int nBins = 75;
const bool usePu = 1;
const bool useWeight = 1;
const int qcdEst = 1; // estimation method of QCD contribution. none(0), from SS spectrum(1), from fake rate(2)
int eRegion = 2; // electron region EB(0), EE(1), EB+EE(2)
bool plotSign[3];
plotSign[0] = 1; // all
plotSign[1] = 1; // SS same sign
plotSign[2] = 1; // OS opposite sign
bool plotType[2];
plotType[0] = 1; // emu spectrum
plotType[1] = 1; // cumulative emu spectrum
const bool plotPull = 0; // plot (data-bkg)/bkg
const bool plotPullBelowSpec = 0; // plot (data-bkg)/bkg below spectrum
const bool logPlotX = 0;
const bool logPlotY = 1;
const bool prelim = 1;
const bool groupedPlot = 0;
const bool overflowBin = 1;
float xRangeMin = 60.;
float xRangeMax = 1200.;
//float xRangeMin = 0.;
//float xRangeMax = 1500.;
float yRangeMin[6] = {0.002, 0.002, 0.002, 0.4, 0.4, 0.4};
float yRangeMax[6] = {30, 10, 30, 3000, 1000, 3000};
float yRangeMinRatio[3] = {-0.7, -0.7, -0.7};
float yRangeMaxRatio[3] = {0.7, 0.7, 0.7};
float fitMin = xRangeMin;
float fitMax = 1100.; // set to highest bin with a data point
float xRangeMinRatio = fitMin;
float xRangeMaxRatio = fitMax;
// output file formats
const bool savePull = 0;
const bool saveSpec = 0;
const bool saveCumSpec = 0;
const bool saveAsPdf = 0;
const bool saveAsPng = 1;
const bool saveAsRoot = 0;
const char *fileNameExtra = "";
//const char *fileNameExtra = "madgraphTTbar_";
const char *plotDir = "./plottemp/";
// plot style
int wjetColour= TColor::GetColor("#ffd324");
int jetBkgColour = TColor::GetColor("#ffff66");
int font = 42; //62
////////////////////////////////////////////////////////////////////////////
// systematic errors
float systErrLumi = ((TParameter<float> *)input.Get("systErrLumi"))->GetVal();
systErrLumi = 0.; // since we normalize to the Z peak
float systErrEff = ((TParameter<float> *)input.Get("systErrEff"))->GetVal(); // muon err & ele err
THashList *systErrMCs = (THashList *)input.Get("systErrMCs");
vector<float> systErrMC;
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcTtbar"))->GetVal()); // NNLO ttbar
//systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcTtbar700to1000"))->GetVal()); // NLO ttbar700to1000
//systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcTtbar1000up"))->GetVal()); // NLO ttbar1000up
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcDyTauTau"))->GetVal()); //z->tt
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcWW"))->GetVal()); //WW
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcWZ"))->GetVal()); //WZ
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcZZ"))->GetVal()); //ZZ
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcTW"))->GetVal()); //tW
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcDyMuMu"))->GetVal()); //Z->mm
systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcDyEE"))->GetVal()); //Z->ee
if (qcdEst == 2) systErrMC.push_back(0.4); // qcd error
else systErrMC.push_back(((TParameter<float> *)systErrMCs->FindObject("systErrMcWJets"))->GetVal()); //WJets
// to keep the histogram when the file is closed
TH1::AddDirectory(kFALSE);
TH1::SetDefaultSumw2(kTRUE);
TString histoSign[3] = {"", "SS_", "OS_"};
TString xAxisTitle[3] = {"m(e#mu)", "m(e^{#pm}#mu^{#pm})", "m(e^{#pm}#mu^{#mp})"};
TString nameSuffix[2] = {"", "cumul"};
TString titleSuffix[2] = {"", " - Cumulative"};
vector<TH1F *> emuMass_wjets;
vector<TH1F *> emuMass_qcd;
vector<TH1F *> emuMass_qcdFromFake;
// define the binning
vector<float> binning;
if (logPlotX) {
//for (float bin = 0.; bin < 100.; bin += 5.)
// binning.push_back(bin);
for (float bin = 0.; bin < 200.; bin += 10.)
binning.push_back(bin);
for (float bin = 200.; bin < 400.; bin += 20.)
binning.push_back(bin);
for (float bin = 400.; bin < 500.; bin += 25.)
binning.push_back(bin);
for (float bin = 500.; bin <= 620.; bin += 40.)
binning.push_back(bin);
binning.push_back(670.);
binning.push_back(720.);
binning.push_back(780.);
binning.push_back(840.);
binning.push_back(920.);
binning.push_back(1000.);
binning.push_back(1100.);
binning.push_back(1220.);
binning.push_back(1380.);
binning.push_back(1500.);
} else {
//for (float bin = 0.; bin <= 1500.; bin += 20.)
// binning.push_back(bin);
for (float bin = 0.; bin < 200.; bin += 20.)
binning.push_back(bin);
for (float bin = 200.; bin < 400.; bin += 40.)
binning.push_back(bin);
for (float bin = 400.; bin < 700.; bin += 50.)
binning.push_back(bin);
for (float bin = 700.; bin < 1000.; bin += 75.)
binning.push_back(bin);
for (float bin = 1000.; bin < 1200.; bin += 100.)
binning.push_back(bin);
for (float bin = 1200.; bin <= 1500.; bin += 150.)
binning.push_back(bin);
}
THashList *mcWeights = (THashList *)input.Get("mcWeights");
TParameter<float> *mcWeight = (TParameter<float> *)mcWeights->FindObject("ttbar");
TParameter<float> *mcWeight700to1000 = (TParameter<float> *)mcWeights->FindObject("ttbar700to1000");
TParameter<float> *mcWeight1000up = (TParameter<float> *)mcWeights->FindObject("ttbar1000up");
float totMcWeight = 1.;
// determine qcd contribution
TH1F *qcdContrib;
TH1F *ssData = MakeHistoFromBranch(&input, "emuTree_data", "mass", SS, eRegion, "", 0., 0., binning, 0x100);
TH1F *ssBg = MakeHistoFromBranch(&input, "emuTree_ttbar", "mass", SS, eRegion, "genMTtbar", 0., 700., binning, 0x1DF);
totMcWeight = 1. / (1 / mcWeight->GetVal() + 1 / mcWeight700to1000->GetVal());
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ttbar", "mass", SS, eRegion, "genMTtbar", 700., 1000., binning, 0x19F), totMcWeight);
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ttbar700to1000", "mass", SS, eRegion, "genMTtbar", 700., 1000., binning, 0x19F), totMcWeight);
totMcWeight = 1. / (1 / mcWeight->GetVal() + 1 / mcWeight1000up->GetVal());
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ttbar", "mass", SS, eRegion, "genMTtbar", 1000., 1000000000., binning, 0x19F), totMcWeight);
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ttbar1000up", "mass", SS, eRegion, "genMTtbar", 1000., 1000000000., binning, 0x19F), totMcWeight);
//TH1F *ssBg = MakeHistoFromBranch(&input, "emuTree_ttbar", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF);
//TH1F *ssBg = MakeHistoFromBranch(&input, "emuTree_ttbarto2l", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF);
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ztautau", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_ww", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_wz", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_zz", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_tw", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_zmumu", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_zee", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
ssBg->Add(MakeHistoFromBranch(&input, "emuTree_wjets", "mass", SS, eRegion, "", 0., 0., binning, 0x1DF));
qcdContrib = (TH1F *)ssData->Clone("qcdContrib_SS");
qcdContrib->Add(ssBg, -1);
for (int i = 0; i < qcdContrib->GetNbinsX() + 2; ++i) {
if (qcdContrib->GetBinContent(i) < 0) qcdContrib->SetBinContent(i, 0.);
}
cout << "expected SS QCD events: " << ssData->Integral() - ssBg->Integral() << endl;
cout << "derived SS QCD events: " << qcdContrib->Integral() << endl;
cout << "scale factor: " << (ssData->Integral() - ssBg->Integral()) / qcdContrib->Integral()<< endl;
qcdContrib->Scale((ssData->Integral() - ssBg->Integral()) / qcdContrib->Integral());
// loop over full spectrum, SS and OS
for (int k = 0; k < 3; ++k) {
// loop to get normal and cumulated spectrum
for (unsigned int j = 0; j < 2; ++j) {
input.cd();
bool normToBin = true;
if (j > 0) normToBin = false;
if (k == 2) k = -1;
// make the histograms
emuMass_wjets.push_back(MakeHistoFromBranch(&input, "emuTree_wjets", "mass", k, eRegion, "", 0., 0., binning, 0x1DF, normToBin));
if (k == -1) k = 2;
emuMass_wjets.back()->SetName("emuMass_" + histoSign[k] + "wjets" + nameSuffix[j]);
// qcd contribution
if (k == 2) k = -1;
emuMass_qcdFromFake.push_back((TH1F *)MakeHistoFromBranch(&input, "frEmuTree_data", "mass", k, eRegion, "", 0., 0., binning, 0x300));
emuMass_qcd.push_back((TH1F *)qcdContrib->Clone("emuMass_" + histoSign[k] + "qcd"));
if (k == ALL) emuMass_qcd.back()->Scale(2.);
// normalize to bin width
if (j < 1) {
for (int i = 1; i < emuMass_qcd.back()->GetNbinsX() + 1; ++i) {
emuMass_qcd.back()->SetBinContent(i, emuMass_qcd.back()->GetBinContent(i) / emuMass_qcd.back()->GetBinWidth(i));
emuMass_qcd.back()->SetBinError(i, emuMass_qcd.back()->GetBinError(i) / emuMass_qcd.back()->GetBinWidth(i));
emuMass_qcdFromFake.back()->SetBinContent(i, emuMass_qcdFromFake.back()->GetBinContent(i) / emuMass_qcdFromFake.back()->GetBinWidth(i));
emuMass_qcdFromFake.back()->SetBinError(i, emuMass_qcdFromFake.back()->GetBinError(i) / emuMass_qcdFromFake.back()->GetBinWidth(i));
}
}
if (k == -1) k = 2;
// add overflow in last bin
if (j == 0 && overflowBin) {
emuMass_wjets.back()->SetBinContent(emuMass_wjets.back()->GetNbinsX(), emuMass_wjets.back()->GetBinContent(emuMass_wjets.back()->GetNbinsX()) + emuMass_wjets.back()->GetBinContent(emuMass_wjets.back()->GetNbinsX() + 1));
emuMass_qcd.back()->SetBinContent(emuMass_qcd.back()->GetNbinsX(), emuMass_qcd.back()->GetBinContent(emuMass_qcd.back()->GetNbinsX()) + emuMass_qcd.back()->GetBinContent(emuMass_qcd.back()->GetNbinsX() + 1));
emuMass_qcdFromFake.back()->SetBinContent(emuMass_qcdFromFake.back()->GetNbinsX(), emuMass_qcdFromFake.back()->GetBinContent(emuMass_qcdFromFake.back()->GetNbinsX()) + emuMass_qcdFromFake.back()->GetBinContent(emuMass_qcdFromFake.back()->GetNbinsX() + 1));
}
// integrate from the right side
if (j == 1) {
// loop over bins
double error;
for (int i = 1; i < nBins + 1; ++i) {
emuMass_wjets.back()->SetBinContent(i, emuMass_wjets.back()->IntegralAndError(i, nBins, error));
emuMass_wjets.back()->SetBinError(i, error);
emuMass_qcd.back()->SetBinContent(i, emuMass_qcd.back()->IntegralAndError(i, nBins, error));
emuMass_qcd.back()->SetBinError(i, error);
emuMass_qcdFromFake.back()->SetBinContent(i, emuMass_qcdFromFake.back()->IntegralAndError(i, nBins, error));
emuMass_qcdFromFake.back()->SetBinError(i, error);
}
}
if (!plotSign[k]) continue;
if (!plotType[j]) continue;
TCanvas *emuPlot;
TPad *specPad;
if (plotPullBelowSpec && j == 0) {
emuPlot = new TCanvas("emuPlot" + histoSign[k] + nameSuffix[j], "emu Spectrum" + titleSuffix[j], 100, 100, 900, 900);
specPad = new TPad("specPad" + histoSign[k] + nameSuffix[j], "emu Spectrum" + titleSuffix[j], 0., 0.33, 1., 1.);
specPad->SetBottomMargin(0.06);
} else {
emuPlot = new TCanvas("emuPlot" + histoSign[k] + nameSuffix[j], "emu Spectrum" + titleSuffix[j], 100, 100, 900, 600);
specPad = new TPad("specPad" + histoSign[k] + nameSuffix[j], "emu Spectrum" + titleSuffix[j], 0., 0., 1., 1.);
specPad->SetBottomMargin(0.12);
}
specPad->SetBorderMode(0);
specPad->SetBorderSize(2);
specPad->SetFrameBorderMode(0);
specPad->SetFillColor(0);
specPad->SetFrameFillColor(0);
if (logPlotX) specPad->SetLogx();
if (logPlotY) specPad->SetLogy();
specPad->SetLeftMargin(0.11);
specPad->SetRightMargin(0.09);
specPad->SetTopMargin(0.08);
specPad->SetTickx(1);
specPad->SetTicky(1);
specPad->Draw();
specPad->cd();
gStyle->SetTitleFont(font);
gStyle->SetLabelFont(font);
gStyle->SetLegendFont(font);
gStyle->SetOptStat(0);
gStyle->SetOptTitle(0);
gStyle->SetTitleXOffset(1.);
gStyle->SetTitleYOffset(1.3);
gPad->SetTicks(1, 1);
// make a histogram stack with the bg
THStack *bgStack = new THStack("bgStack" + histoSign[k] + nameSuffix[j], "Invariant Mass" + titleSuffix[j]);
bgStack->Add(emuMass_qcd.back());
bgStack->Add(emuMass_wjets.back());
// plot spectrum
emuMass_wjets.back()->SetFillColor(wjetColour);
emuMass_wjets.back()->SetMarkerColor(wjetColour);
emuMass_wjets.back()->SetLineColor(kBlack);
emuMass_wjets.back()->SetLineWidth(2);
//emuMass_wjets.back()->Draw("HISTsames");
emuMass_qcd.back()->SetFillColor(jetBkgColour);
emuMass_qcd.back()->SetMarkerColor(jetBkgColour);
emuMass_qcd.back()->SetLineColor(kBlack);
emuMass_qcd.back()->SetLineWidth(2);
//emuMass_qcd.back()->Draw("HISTsames");
bgStack->Draw("hist");
emuMass_qcdFromFake.back()->SetLineColor(kRed);
emuMass_qcdFromFake.back()->SetLineWidth(2);
emuMass_qcdFromFake.back()->Draw("esame");
if (plotPullBelowSpec && j == 0) {
bgStack->GetXaxis()->SetTitle("");
} else {
bgStack->GetXaxis()->SetTitle(xAxisTitle[k] + " [GeV]");
}
bgStack->GetXaxis()->SetTitleFont(font);
bgStack->GetXaxis()->SetTitleSize(0.047);
bgStack->GetXaxis()->SetTitleOffset(0.9);
bgStack->GetXaxis()->SetLabelFont(font);
bgStack->GetXaxis()->SetLabelSize(0.05);
bgStack->GetXaxis()->SetMoreLogLabels();
bgStack->GetXaxis()->SetNoExponent();
//bgStack->GetXaxis()->SetRangeUser(xRangeMin, xRangeMax);
bgStack->GetXaxis()->SetLimits(xRangeMin, xRangeMax);
if (j == 1) bgStack->GetYaxis()->SetTitle("Events #geq " + xAxisTitle[k]);
else bgStack->GetYaxis()->SetTitle("Events / GeV");
bgStack->GetYaxis()->SetTitleFont(font);
bgStack->GetYaxis()->SetTitleSize(0.047);
bgStack->GetYaxis()->SetTitleOffset(1.1);
bgStack->GetYaxis()->SetLabelFont(font);
bgStack->GetYaxis()->SetLabelSize(0.05);
bgStack->SetMinimum(yRangeMin[k + j * 3]);
bgStack->SetMaximum(yRangeMax[k + j * 3]);
// redraw axis
emuMass_qcd.back()->Draw("sameaxis");
// legend and labels
TLegend legend(0.710, 0.646, 0.901, 0.885);
legend.SetTextFont(font);
legend.SetTextSize(0.03);
legend.SetBorderSize(0);
legend.SetLineColor(1);
legend.SetLineStyle(1);
legend.SetLineWidth(1);
legend.SetFillColor(19);
legend.SetFillStyle(0);
legend.AddEntry(emuMass_wjets.back(), "W+jets (MC)" ,"F");
legend.AddEntry(emuMass_qcd.back(), "jets (SS data)" ,"F");
legend.AddEntry(emuMass_qcdFromFake.back(), "jets (Fake Rate)" ,"le");
legend.DrawClone("sames");
TLatex *tex = new TLatex();
tex->SetNDC();
tex->SetTextFont(font);
tex->SetLineWidth(2);
tex->SetTextSize(0.042);
if (prelim) tex->DrawLatex(0.325, 0.853, "CMS Preliminary, 8 TeV, 19.6 fb^{-1}");
else tex->DrawLatex(0.405, 0.853, "CMS, 8 TeV, 19.6 fb^{-1}");
if (eRegion == 0) tex->DrawLatex(0.325, 0.775, "e in barrel");
if (eRegion == 1) tex->DrawLatex(0.325, 0.775, "e in endcap");
// safe in various file formats
stringstream sStream;
if (!plotPullBelowSpec || j > 0) {
sStream << plotDir << "qcdClosureTestSpec";
if (k == 0) sStream << "_";
sStream << histoSign[k];
if (eRegion == 0) sStream << "EB_";
if (eRegion == 1) sStream << "EE_";
sStream << fileNameExtra << nameSuffix[j];
if (j > 0) sStream << "_";
if (groupedPlot) sStream << "grouped_";
if (!logPlotY) sStream << "lin_";
sStream << lumi->GetVal() << "pb-1";
TString saveFileName = sStream.str();
if ((j == 0 && saveSpec) || (j > 0 && saveCumSpec)) {
if (saveAsPdf) emuPlot->Print(saveFileName + ".pdf", "pdf");
if (saveAsPng) emuPlot->Print(saveFileName + ".png", "png");
if (saveAsRoot) emuPlot->Print(saveFileName + ".root", "root");
}
}
} // end loop over normal or cumulated
} // end loop over full, SS and OS
// generate one object containing everything
vector<vector<TH1F *> > emuMasses;
emuMasses.push_back(emuMass_wjets);
emuMasses.push_back(emuMass_qcd);
// // define groups of MC samples
// vector<bool> ttLikeSamples(6, true);
// vector<bool> contamSamples(6, false);
// contamSamples.push_back(true); // Zmm
// contamSamples.push_back(true); // Zee
// contamSamples.push_back(true); // WJets or QCD
// vector<bool> contamSamplesNoQcd(contamSamples);
// vector<bool> allSamples(9, true);
// vector<bool> onlyQCD(emuMasses.size() - 1, false);
// if (qcdEst > 0) {
// onlyQCD.back() = true;
// if (qcdEst != 2) {
// allSamples.push_back(true);
// contamSamples.push_back(true);
// contamSamplesNoQcd.push_back(false);
// systErrMC.push_back(0.); // QCD error will be calculated later
// } else {
// contamSamplesNoQcd.back() = false;
// }
// }
// vector<bool> allSamplesNoQcd(allSamples);
// if (qcdEst > 0) allSamplesNoQcd.back() = false;
// unsigned int qcdInd = onlyQCD.size();
// unsigned int qcdErrInd = qcdInd - 1;
//
// // calculate rate of syst errors
// float systErrLuEff = sqrt(systErrLumi*systErrLumi + systErrEff*systErrEff);
// vector<float> systErrMCLuEff;
// for (unsigned int it = 0; it < systErrMC.size(); ++it)
// systErrMCLuEff.push_back(sqrt(systErrMC[it]*systErrMC[it] + systErrLuEff*systErrLuEff));
//
// bool calcQcdErr = false;
// if (qcdEst == 1) calcQcdErr = true;
//
// //cout << "qcdInd " << qcdInd << ", emuMasses.size() " << emuMasses.size() << ", systErrMC.size() " << systErrMC.size()
// // << ", systErrMCLuEff.size() " << systErrMCLuEff.size() << ", allSamples.size() " << allSamples.size()
// // << ", allSamplesNoQcd.size() " << allSamplesNoQcd.size() << ", contamSamplesNoQcd.size() " << contamSamplesNoQcd.size()
// // << ", contamSamples.size() " << contamSamples.size() << ", onlyQCD.size() " << onlyQCD.size() << endl;
// //for (unsigned int sIt = 0; sIt < emuMasses.size() - 1; ++sIt) {
// // cout << "allSamples " << allSamples[sIt] << ", allSamplesNoQcd " << allSamplesNoQcd[sIt]
// // << ", contamSamples " << contamSamples[sIt] << ", contamSamplesNoQcd " << contamSamplesNoQcd[sIt]
// // << ", onlyQCD " << onlyQCD[sIt] << ", systErrMC " << systErrMC[sIt] << ", systErrMCLuEff " << systErrMCLuEff[sIt] << endl;
// //}
//
// // define special bins corresponding to specific masses
// int bin60 = emuMass_data.at(ALL)->FindBin(60.);
// int bin120 = emuMass_data.at(ALL)->FindBin(120.);
// int bin200 = emuMass_data.at(ALL)->FindBin(200.);
// int bin400 = emuMass_data.at(ALL)->FindBin(400.);
// int bin500 = emuMass_data.at(ALL)->FindBin(500.);
//
// vector<const char *> sampleNames;
// sampleNames.push_back("data ");
// sampleNames.push_back("ttbar ");
// sampleNames.push_back("Ztautau");
// sampleNames.push_back("WW ");
// sampleNames.push_back("WZ ");
// sampleNames.push_back("ZZ ");
// sampleNames.push_back("tW ");
// sampleNames.push_back("Zmumu ");
// sampleNames.push_back("Zee ");
// if (qcdEst != 2) sampleNames.push_back("WJets ");
// if (qcdEst > 0) sampleNames.push_back("QCD ");
//
// // write numbers
// cout << endl;
// cout << "-----------------------------------------------------------------------------------------------------------" << endl;
// cout << "HEEP - TIGHT MU Lumi = " << lumi->GetVal() << "pb-1" << endl;
// //cout << " e pT EB > " << bar_et << "GeV/c" << endl;
// //cout << " e pT EE > " << end_et << "GeV/c" << endl;
// //cout << " mu pT > " << muon_et << "GeV/c" << endl;
// //cout << " mu |eta| < " << muon_etaMax << endl;
// cout << endl;
// cout << "Systematic errors" << endl;
// cout << " Luminosity: " << systErrLumi * 100 << "%" << endl;
// cout << " Efficiency: " << systErrEff * 100 << "%" << endl;
// cout << " ttbar: " << systErrMC[TTBAR-1] * 100 << "%" << endl;
// cout << " Z->tautau: " << systErrMC[ZTT-1] * 100 << "%" << endl;
// cout << " WW: " << systErrMC[WW-1] * 100 << "%" << endl;
// cout << " WZ: " << systErrMC[WZ-1] * 100 << "%" << endl;
// cout << " ZZ: " << systErrMC[ZZ-1] * 100 << "%" << endl;
// cout << " tW, tbarW: " << systErrMC[TW-1] * 100 << "%" << endl;
// cout << " Z->mumu: " << systErrMC[ZMM-1] * 100 << "%" << endl;
// cout << " Z->ee: " << systErrMC[ZEE-1] * 100 << "%" << endl;
// if (qcdEst != 2) cout << " W+Jets: " << systErrMC[WJET-1] * 100 << "%" << endl;
// else cout << " QCD: " << systErrMC.back() * 100 << "%" << endl;
// cout << "-----------------------------------------------------------------------------------------------------------" << endl;
// for (unsigned int signIt = 1; signIt < 6; signIt += 2) {
// if (signIt == 3) cout << "-SS--------------------------------------------------------------------------------------------------------" << endl;
// if (signIt == 5) cout << "-OS--------------------------------------------------------------------------------------------------------" << endl;
// cout << "-----------------------------------------------------------------------------------------------------------------------------------------" << endl;
// cout << "M_emu | > 60GeV/c^2 | > 120GeV/c^2 | > 200GeV/c^2 | > 400GeV/c^2 |" << endl;
// cout << "-----------------------------------------------------------------------------------------------------------------------------------------" << endl;
//
// printf("nb data | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) |\n",
// emuMass_data.at(signIt)->GetBinContent(bin60), sqrt(emuMass_data.at(signIt)->GetBinContent(bin60)),
// emuMass_data.at(signIt)->GetBinContent(bin120), sqrt(emuMass_data.at(signIt)->GetBinContent(bin120)),
// emuMass_data.at(signIt)->GetBinContent(bin200), sqrt(emuMass_data.at(signIt)->GetBinContent(bin200)),
// emuMass_data.at(signIt)->GetBinContent(bin400), sqrt(emuMass_data.at(signIt)->GetBinContent(bin400)));
// cout << "----------------------------------------------------------------------------------------------------------------------------------------" << endl;
// for (unsigned int sampleIt = 1; sampleIt < sampleNames.size(); ++sampleIt) {
// if (sampleIt == 7) cout << "- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -" << endl;
// if (qcdEst == 1 && sampleIt == sampleNames.size() - 1) {
// printf("nb %7s | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n", sampleNames[sampleIt],
// emuMass_qcd.at(signIt)->GetBinContent(bin60), emuMass_qcd.at(signIt)->GetBinContent(bin60) * CalcSSQcdErr(emuMasses, systErrMCLuEff, bin60),
// emuMass_qcd.at(signIt)->GetBinContent(bin120), emuMass_qcd.at(signIt)->GetBinContent(bin120) * CalcSSQcdErr(emuMasses, systErrMCLuEff, bin120),
// emuMass_qcd.at(signIt)->GetBinContent(bin200), emuMass_qcd.at(signIt)->GetBinContent(bin200) * CalcSSQcdErr(emuMasses, systErrMCLuEff, bin200),
// emuMass_qcd.at(signIt)->GetBinContent(bin400), emuMass_qcd.at(signIt)->GetBinContent(bin400) * CalcSSQcdErr(emuMasses, systErrMCLuEff, bin400));
// } else {
// printf("nb %7s | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n", sampleNames[sampleIt],
// emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin60), emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin60) * systErrMCLuEff[sampleIt-1],
// emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin120), emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin120) * systErrMCLuEff[sampleIt-1],
// emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin200), emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin200) * systErrMCLuEff[sampleIt-1],
// emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin400), emuMasses.at(sampleIt).at(signIt)->GetBinContent(bin400) * systErrMCLuEff[sampleIt-1]);
// }
// }
// cout << endl;
// cout << "----------------------------------------------------------------------------------------------------------------------------------------" << endl;
// printf("TOT ttlike | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, ttLikeSamples, signIt, bin60), CalcSystErr(emuMasses, systErrMCLuEff, ttLikeSamples, signIt, bin60),
// CalcBgSum(emuMasses, ttLikeSamples, signIt, bin120), CalcSystErr(emuMasses, systErrMCLuEff, ttLikeSamples, signIt, bin120),
// CalcBgSum(emuMasses, ttLikeSamples, signIt, bin200), CalcSystErr(emuMasses, systErrMCLuEff, ttLikeSamples, signIt, bin200),
// CalcBgSum(emuMasses, ttLikeSamples, signIt, bin400), CalcSystErr(emuMasses, systErrMCLuEff, ttLikeSamples, signIt, bin400));
// printf("TOT contam | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, contamSamples, signIt, bin60), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, contamSamples, signIt, bin60, -1, calcQcdErr),
// CalcBgSum(emuMasses, contamSamples, signIt, bin120), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, contamSamples, signIt, bin120, -1, calcQcdErr),
// CalcBgSum(emuMasses, contamSamples, signIt, bin200), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, contamSamples, signIt, bin200, -1, calcQcdErr),
// CalcBgSum(emuMasses, contamSamples, signIt, bin400), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, contamSamples, signIt, bin400, -1, calcQcdErr));
// cout << "----------------------------------------------------------------------------------------------------------------------------------------" << endl;
//
// printf("TOT Bkg | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, allSamples, signIt, bin60), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin60, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin120), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin120, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin200), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin200, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin400), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin400, -1, calcQcdErr));
// cout << "----------------------------------------------------------------------------------------------------------------------------------------" << endl;
// cout << endl << endl;
// }
// cout << endl;
//
// cout << "--Without adding QCD contribution:--------------------------------------------------------------------------------------------------------" << endl;
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// cout << "M_emu | > 60GeV/c^2 | > 120GeV/c^2 | > 200GeV/c^2 | > 400GeV/c^2 |" << endl;
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// for (unsigned int signIt = 1; signIt < 6; signIt += 2) {
// if (signIt == 3) cout << "-SS-------------------------------------------------------------------------------------------------------------------------------------" << endl;
// if (signIt == 5) cout << "-OS-------------------------------------------------------------------------------------------------------------------------------------" << endl;
// printf("nb data | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) |\n",
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin60), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin60)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin120), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin120)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin200), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin200)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin400), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin400)));
// printf("nb MC | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, allSamplesNoQcd, signIt, bin60), CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, signIt, bin60),
// CalcBgSum(emuMasses, allSamplesNoQcd, signIt, bin120), CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, signIt, bin120),
// CalcBgSum(emuMasses, allSamplesNoQcd, signIt, bin200), CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, signIt, bin200),
// CalcBgSum(emuMasses, allSamplesNoQcd, signIt, bin400), CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, signIt, bin400));
// }
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
//
// if (qcdEst == 1) {
// //systErrMC.back() = 2 * sqrt(emuMasses.at(DATA).at(SS)->Integral() + pow(CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, SS, 1), 2)) / emuMasses.at(qcdInd).at(ALL)->Integral();
// //systErrMC.back() = CalcSystErr(emuMasses, systErrMCLuEff, allSamplesNoQcd, SSCUM, 1) / emuMass_qcd.at(SSCUM)->GetBinContent(1);
// //systErrMCLuEff.back() = systErrMC[qcdErrInd];
//
// cout << endl;
// cout << "---QCD events from SS spectrum:----------------------------------------------------------------------------------------------------------------------------------" << endl;
// cout << "-----------------------------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// printf("nb QCD SS+OS | %9.3f +- %8.3f (%.1f%%) (syst) | %9.3f +- %8.3f (%.1f%%) (syst) | %9.3f +- %8.3f (%.1f%%) (syst) | %9.3f +- %8.3f (%.1f%%) (syst) |\n",
// emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin60), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin60, -1, calcQcdErr),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin60, -1, calcQcdErr) / emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin60),
// emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin120), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin120, -1, calcQcdErr),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin120, -1, calcQcdErr) / emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin120),
// emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin200), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin200, -1, calcQcdErr),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin200, -1, calcQcdErr) / emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin200),
// emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin400), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin400, -1, calcQcdErr),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin400, -1, calcQcdErr) / emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin400));
// printf("%% of total MC | %7.3f%% +- %7.3f%% (syst) | %7.3f%% +- %7.3f%% (syst) | %7.3f%% +- %7.3f%% (syst) | %7.3f%% +- %7.3f%% (syst) |\n",
// 100 * emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin60) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin60),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin60, -1, calcQcdErr) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin60),
// 100 * emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin120) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin120),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin120, -1, calcQcdErr) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin120),
// 100 * emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin200) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin200),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin200, -1, calcQcdErr) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin200),
// 100 * emuMasses.at(qcdInd).at(ALLCUM)->GetBinContent(bin400) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin400),
// 100 * CalcSystErrWithQCD(emuMasses, systErrMCLuEff, onlyQCD, ALLCUM, bin400, -1, calcQcdErr) / CalcBgSum(emuMasses, allSamplesNoQcd, ALLCUM, bin400));
// cout << "-----------------------------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// }
//
// // top up bg contribution with qcd
// if (qcdEst > 0) {
// cout << endl;
// cout << "--After adding QCD contribution:----------------------------------------------------------------------------------------------------------" << endl;
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// cout << "M_emu | > 60GeV/c^2 | > 120GeV/c^2 | > 200GeV/c^2 | > 400GeV/c^2 |" << endl;
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// for (unsigned int signIt = 1; signIt < 6; signIt += 2) {
// if (signIt == 3) cout << "-SS-------------------------------------------------------------------------------------------------------------------------------------" << endl;
// if (signIt == 5) cout << "-OS-------------------------------------------------------------------------------------------------------------------------------------" << endl;
// printf("nb data | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) |\n",
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin60), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin60)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin120), sqrt((emuMasses.at(DATA).at(signIt))->GetBinContent(bin120)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin200), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin200)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin400), sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin400)));
// printf("nb MC | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, allSamples, signIt, bin60), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin60, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin120), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin120, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin200), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin200, -1, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin400), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin400, -1, calcQcdErr));
// }
// cout << "------------------------------------------------------------------------------------------------------------------------------------------" << endl;
// }
//
// cout << endl;
// cout << "-----------------------------------------------------------------------------------------------------------" << endl;
// cout << "M_emu | 60 - 120GeV/c^2 | 120 - 200GeV/c^2 | 200 - 400GeV/c^2 |" << endl;
// cout << "-----------------------------------------------------------------------------------------------------------" << endl;
// for (unsigned int signIt = 1; signIt < 6; signIt += 2) {
// printf("nb data | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) | %5.0f +- %-.3f (stat) |\n",
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin60) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin120),
// sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin60) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin120)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin120) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin200),
// sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin120) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin200)),
// emuMasses.at(DATA).at(signIt)->GetBinContent(bin200) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin400),
// sqrt(emuMasses.at(DATA).at(signIt)->GetBinContent(bin200) - emuMasses.at(DATA).at(signIt)->GetBinContent(bin400)));
// printf("nb MC | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) | %9.3f +- %8.3f (syst) |\n",
// CalcBgSum(emuMasses, allSamples, signIt, bin60, bin120), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin60, bin120, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin120, bin200), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin120, bin200, calcQcdErr),
// CalcBgSum(emuMasses, allSamples, signIt, bin200, bin400), CalcSystErrWithQCD(emuMasses, systErrMCLuEff, allSamples, signIt, bin200, bin400, calcQcdErr));
// cout << "-----------------------------------------------------------------------------------------------------------" << endl;
// }
}
void TriggerInputsForMuonEventCuts ( TString runListFilename, TString selectedInputs="", TString defaultStorage = "raw://" )
{
AliCDBManager::Instance()->SetDefaultStorage(defaultStorage.Data());
TObjArray inputsList;
inputsList.SetOwner();
TObjArray* selectedInputsList = selectedInputs.Tokenize(",");
// Read input run list
ifstream inFile(runListFilename.Data());
TString srun = "";
if ( inFile.is_open() ) {
while ( ! inFile.eof() ) {
srun.ReadLine(inFile,kFALSE);
if ( ! srun.IsDigit() ) continue;
// For each run, read trigger inputs from OCDB
Int_t runNumber = srun.Atoi();
AliCDBManager::Instance()->SetRun(runNumber);
// Get trigger class configuration
AliCDBEntry* entry = AliCDBManager::Instance()->Get("GRP/CTP/Config");
if ( ! entry ) continue;
THashList* runInputs = new THashList();
runInputs->SetOwner();
runInputs->SetUniqueID((UInt_t)runNumber);
AliTriggerConfiguration* trigConf = (AliTriggerConfiguration*)entry->GetObject();
const TObjArray& trigInputsArray = trigConf->GetInputs();
AliTriggerInput* trigInput = 0x0;
TIter next(&trigInputsArray);
while ( ( trigInput = static_cast<AliTriggerInput*>(next()) ) ) {
if ( selectedInputsList->GetEntriesFast() > 0 && ! selectedInputsList->FindObject(trigInput->GetName()) ) continue;
Int_t inputId = (Int_t)TMath::Log2(trigInput->GetMask());
TObjString* currInput = new TObjString(trigInput->GetName());
currInput->SetUniqueID(inputId);
runInputs->Add(currInput);
}
inputsList.Add(runInputs);
}
inFile.close();
}
delete selectedInputsList;
// Loop on the trigger inputs
// and group runs with an equal list of inputs
Int_t nentries = inputsList.GetEntries();
TArrayI checkMask(nentries);
checkMask.Reset(1);
for ( Int_t irun=0; irun<nentries; irun++ ) {
if ( checkMask[irun] == 0 ) continue;
THashList* currList = static_cast<THashList*>(inputsList.At(irun));
TString runRange = Form("Run range: %u", currList->GetUniqueID());
for ( Int_t jrun=irun+1; jrun<nentries; jrun++ ) {
if ( checkMask[jrun] == 0 ) continue;
THashList* checkList = static_cast<THashList*>(inputsList.At(jrun));
Bool_t isDifferent = kFALSE;
for ( Int_t itrig=0; itrig<currList->GetEntries(); itrig++ ) {
TObjString* currInput = static_cast<TObjString*>(currList->At(itrig));
TObject* checkInput = checkList->FindObject(currInput->GetName());
if ( ! checkInput || checkInput->GetUniqueID() != currInput->GetUniqueID() ) {
isDifferent = kTRUE;
break;
}
} // loop on trigger inputs
if ( isDifferent ) continue;
checkMask[jrun] = 0;
runRange += Form(",%u", checkList->GetUniqueID());
} // loop on runs
TString outString = "\nSetTrigInputsMap(\"";
for ( Int_t itrig=0; itrig<currList->GetEntries(); itrig++ ) {
TObjString* currInput = static_cast<TObjString*>(currList->At(itrig));
outString += Form("%s:%u,",currInput->GetString().Data(), currInput->GetUniqueID());
}
outString.Append("\");\n");
outString.ReplaceAll(",\"","\"");
outString += runRange;
printf("%s\n", outString.Data());
} // loop on runs
}
