1 |
// $Id $
|
2 |
|
3 |
#include "MitPhysics/SelMods/interface/HwwExampleAnalysisMod.h"
|
4 |
#include <TH1D.h>
|
5 |
#include <TH2D.h>
|
6 |
#include <TParameter.h>
|
7 |
#include "MitAna/DataUtil/interface/Debug.h"
|
8 |
#include "MitAna/DataTree/interface/Names.h"
|
9 |
#include "MitPhysics/Init/interface/ModNames.h"
|
10 |
#include "MitAna/DataCont/interface/ObjArray.h"
|
11 |
#include "MitCommon/MathTools/interface/MathUtils.h"
|
12 |
#include "MitAna/DataTree/interface/ParticleCol.h"
|
13 |
#include "TFile.h"
|
14 |
#include "TTree.h"
|
15 |
|
16 |
using namespace mithep;
|
17 |
ClassImp(mithep::HwwExampleAnalysisMod)
|
18 |
|
19 |
//--------------------------------------------------------------------------------------------------
|
20 |
HwwExampleAnalysisMod::HwwExampleAnalysisMod(const char *name, const char *title) :
|
21 |
BaseMod(name,title),
|
22 |
fMuonBranchName(Names::gkMuonBrn),
|
23 |
fMetName("NoDefaultNameSet"),
|
24 |
fCleanJetsName("NoDefaultNameSet"),
|
25 |
fCleanJetsNoPtCutName("NoDefaultNameSet"),
|
26 |
fCaloJetName0("AKt5Jets"),
|
27 |
fVertexName(ModNames::gkGoodVertexesName),
|
28 |
fMuons(0),
|
29 |
fMet(0),
|
30 |
fVertices(0),
|
31 |
fCaloJet0(0)
|
32 |
{
|
33 |
// Constructor.
|
34 |
}
|
35 |
|
36 |
//--------------------------------------------------------------------------------------------------
|
37 |
void HwwExampleAnalysisMod::Begin()
|
38 |
{
|
39 |
// Run startup code on the client machine. For this module, we dont do
|
40 |
// anything here.
|
41 |
}
|
42 |
|
43 |
//--------------------------------------------------------------------------------------------------
|
44 |
void HwwExampleAnalysisMod::SlaveBegin()
|
45 |
{
|
46 |
// Run startup code on the computer (slave) doing the actual analysis. Here,
|
47 |
// we typically initialize histograms and other analysis objects and request
|
48 |
// branches. For this module, we request a branch of the MitTree.
|
49 |
|
50 |
// Load Branches
|
51 |
ReqBranch(fMuonBranchName, fMuons);
|
52 |
ReqBranch(fCaloJetName0, fCaloJet0);
|
53 |
|
54 |
//Create your histograms here
|
55 |
|
56 |
//*************************************************************************************************
|
57 |
// Selection Histograms
|
58 |
//*************************************************************************************************
|
59 |
AddTH1(fHWWSelection,"hHWWSelection", ";Cut Number;Number of Events", 11, -1.5, 9.5);
|
60 |
AddTH1(fHWWToEESelection,"hHWWToEESelection", ";Cut Number;Number of Events", 11, -1.5, 9.5);
|
61 |
AddTH1(fHWWToMuMuSelection,"hHWWToMuMuSelection", ";Cut Number;Number of Events", 11, -1.5, 9.5);
|
62 |
AddTH1(fHWWToEMuSelection,"hHWWToEMuSelection", ";Cut Number;Number of Events", 11, -1.5, 9.5);
|
63 |
|
64 |
//***********************************************************************************************
|
65 |
// Histograms after preselection
|
66 |
//***********************************************************************************************
|
67 |
AddTH1(fLeptonEta ,"hLeptonEta",";LeptonEta;Number of Events",100,-5.,5.0);
|
68 |
AddTH1(fLeptonPtMax ,"hLeptonPtMax",";Lepton P_t Max;Number of Events",150,0.,150.);
|
69 |
AddTH1(fLeptonPtMin ,"hLeptonPtMin",";Lepton P_t Min;Number of Events",150,0.,150.);
|
70 |
AddTH1(fMetPtHist ,"hMetPtHist",";Met;Number of Events",150,0.,300.);
|
71 |
AddTH1(fMetPhiHist ,"hMetPhiHist",";#phi;Number of Events",28,-3.5,3.5);
|
72 |
AddTH1(fUncorrMetPtHist ,"hUncorrMetPtHist",";Met;Number of Events",150,0.,300.);
|
73 |
AddTH1(fUncorrMetPhiHist ,"hUncorrMetPhiHist",";#phi;Number of Events",28,-3.5,3.5);
|
74 |
AddTH1(fDeltaPhiLeptons ,"hDeltaPhiLeptons",";#Delta#phi_{ll};Number of Events",90,0,180);
|
75 |
AddTH1(fDeltaEtaLeptons ,"hDeltaEtaLeptons",";#Delta#eta_{ll};Number of Events",100,-5.,5.0);
|
76 |
AddTH1(fDileptonMass ,"hDileptonMass",";Mass_{ll};Number of Events",150,0.,300.);
|
77 |
|
78 |
//***********************************************************************************************
|
79 |
// N-1 Histograms
|
80 |
//***********************************************************************************************
|
81 |
//All events
|
82 |
AddTH1(fLeptonPtMax_NMinusOne ,"hLeptonPtMax_NMinusOne",
|
83 |
";Lepton P_t Max;Number of Events",150,0.,150.);
|
84 |
AddTH1(fLeptonPtMin_NMinusOne ,"hLeptonPtMin_NMinusOne",
|
85 |
";Lepton P_t Min;Number of Events",150,0.,150.);
|
86 |
AddTH1(fMetPtHist_NMinusOne ,"hMetPtHist_NMinusOne",
|
87 |
";Met;Number of Events",150,0.,300.);
|
88 |
AddTH1(fMetPhiHist_NMinusOne ,"hMetPhiHist_NMinusOne",
|
89 |
";#phi;Number of Events",28,-3.5,3.5);
|
90 |
AddTH1(fMETdeltaPhilEtHist_NMinusOne ,"hMETdeltaPhilEtHist_NMinusOne",
|
91 |
";METdeltaPhilEtHist;Number of Events",150,0.,300.);
|
92 |
AddTH1(fNCentralJets_NMinusOne ,"hNCentralJets_NMinusOne",
|
93 |
";Number of Central Jets;Number of Events",6,-0.5,5.5);
|
94 |
AddTH1(fNSoftMuonsHist_NMinusOne ,"hNSoftMuonsHist_NMinusOne",
|
95 |
";Number of Dirty Muons; Number of Events",6,-0.5,5.5);
|
96 |
AddTH1(fDeltaPhiLeptons_NMinusOne ,"hDeltaPhiLeptons_NMinusOne",
|
97 |
";#Delta#phi_{ll};Number of Events",90,0,180);
|
98 |
AddTH1(fDeltaEtaLeptons_NMinusOne ,"hDeltaEtaLeptons_NMinusOne",
|
99 |
";#Delta#eta_{ll};Number of Events",100,-5.0,5.0);
|
100 |
AddTH1(fDileptonMass_NMinusOne ,"hDileptonMass_NMinusOne",
|
101 |
";Mass_{ll};Number of Events",150,0.,300.);
|
102 |
AddTH1(fMinDeltaPhiLeptonMet_NMinusOne ,"hMinDeltaPhiLeptonMet_NMinusOne",
|
103 |
";Min #Delta#phi_{l,Met};Number of Events",90,0.,180);
|
104 |
|
105 |
//***********************************************************************************************
|
106 |
// After all cuts Histograms
|
107 |
//***********************************************************************************************
|
108 |
AddTH1(fMinDeltaPhiLeptonMet_afterCuts ,"hMinDeltaPhiLeptonMet_afterCuts",
|
109 |
";Min #Delta#phi_{l,Met};Number of Events",90,0.,180);
|
110 |
AddTH1(fMtLepton1_afterCuts ,"hMtLepton1_afterCuts",
|
111 |
";M_t (Lepton1,Met);Number of Events",100,0.,200.);
|
112 |
AddTH1(fMtLepton2_afterCuts ,"hMtLepton2_afterCuts",
|
113 |
";M_t (Lepton2,Met);Number of Events",100,0.,200.);
|
114 |
AddTH1(fMtHiggs_afterCuts ,"hMtHiggs_afterCuts",
|
115 |
";M_t (l1+l2+Met);Number of Events",150,0.,300.);
|
116 |
AddTH1(fLeptonPtPlusMet_afterCuts ,"hLeptonPtPlusMet_afterCuts",
|
117 |
";LeptonPtPlusMet;Number of Events",150,0., 300.);
|
118 |
|
119 |
}
|
120 |
|
121 |
//--------------------------------------------------------------------------------------------------
|
122 |
void HwwExampleAnalysisMod::Process()
|
123 |
{
|
124 |
// Process entries of the tree. For this module, we just load the branches and
|
125 |
LoadBranch(fMuonBranchName);
|
126 |
LoadBranch(fCaloJetName0);
|
127 |
|
128 |
//Obtain all the good objects from the event cleaning module
|
129 |
fVertices = GetObjThisEvt<VertexOArr>(fVertexName);
|
130 |
ObjArray<Muon> *CleanMuons = dynamic_cast<ObjArray<Muon>* >(FindObjThisEvt(ModNames::gkCleanMuonsName));
|
131 |
ObjArray<Electron> *CleanElectrons = dynamic_cast<ObjArray<Electron>* >(FindObjThisEvt(ModNames::gkCleanElectronsName));
|
132 |
ParticleOArr *CleanLeptons = dynamic_cast<mithep::ParticleOArr*>
|
133 |
(FindObjThisEvt(ModNames::gkMergedLeptonsName));
|
134 |
ObjArray<Jet> *CleanJets = dynamic_cast<ObjArray<Jet>* >
|
135 |
(FindObjThisEvt(fCleanJetsName.Data()));
|
136 |
ObjArray<Jet> *CleanJetsNoPtCut = dynamic_cast<ObjArray<Jet>* >
|
137 |
(FindObjThisEvt(fCleanJetsNoPtCutName.Data()));
|
138 |
TParameter<Double_t> *NNLOWeight = GetObjThisEvt<TParameter<Double_t> >("NNLOWeight");
|
139 |
|
140 |
MetCol *met = dynamic_cast<ObjArray<Met>* >(FindObjThisEvt(fMetName));
|
141 |
const Met *caloMet = 0;
|
142 |
if (met) {
|
143 |
caloMet = met->At(0);
|
144 |
} else {
|
145 |
cout << "Error: Met Collection " << fMetName << " could not be loaded.\n";
|
146 |
return;
|
147 |
}
|
148 |
|
149 |
//***********************************************************************************************
|
150 |
//Kinematic PreSelection
|
151 |
//***********************************************************************************************
|
152 |
// At least two leptons in the event
|
153 |
if (CleanLeptons->GetEntries() < 2) return;
|
154 |
// Pt1 > 20 && Pt2 > 10
|
155 |
if(CleanLeptons->At(0)->Pt() <= 20 || CleanLeptons->At(1)->Pt() <= 10) return;
|
156 |
// opposite charge leptons
|
157 |
if(CleanLeptons->At(0)->Charge() * CleanLeptons->At(1)->Charge() > 0) return;
|
158 |
|
159 |
CompositeParticle *dilepton = new CompositeParticle();
|
160 |
dilepton->AddDaughter(CleanLeptons->At(0));
|
161 |
dilepton->AddDaughter(CleanLeptons->At(1));
|
162 |
|
163 |
//***********************************************************************************************
|
164 |
//Get Dirty Muons: Non-isolated Muons (exclude the clean muons)
|
165 |
//***********************************************************************************************
|
166 |
ObjArray<Muon> *SoftMuons = new ObjArray<Muon>;
|
167 |
for (UInt_t i=0; i<fMuons->GetEntries(); ++i) {
|
168 |
const Muon *mu = fMuons->At(i);
|
169 |
if(!MuonTools::PassSoftMuonCut(mu, fVertices)) continue;
|
170 |
|
171 |
bool isCleanMuon = kFALSE;
|
172 |
for (UInt_t j=0; j<CleanMuons->GetEntries(); j++) {
|
173 |
if(fMuons->At(i) == CleanMuons->At(j) &&
|
174 |
CleanMuons->At(j)->Pt() > 10) isCleanMuon = kTRUE;
|
175 |
}
|
176 |
if(isCleanMuon == kFALSE) SoftMuons->Add(mu);
|
177 |
}
|
178 |
|
179 |
//***********************************************************************************************
|
180 |
//|Z_vert-Z_l| maximum
|
181 |
//***********************************************************************************************
|
182 |
double zDiffMax = 0.0;
|
183 |
if(fVertices->GetEntries() > 0) {
|
184 |
for (UInt_t j=0; j<CleanMuons->GetEntries(); j++) {
|
185 |
double pDz = 0.0;
|
186 |
for(uint i0 = 0; i0 < fVertices->GetEntries(); i0++) {
|
187 |
if(fVertices->At(i0)->NTracks() > 0){
|
188 |
pDz = TMath::Abs(CleanMuons->At(j)->BestTrk()->DzCorrected(*fVertices->At(i0)));
|
189 |
break;
|
190 |
}
|
191 |
}
|
192 |
if(pDz > zDiffMax) zDiffMax = pDz;
|
193 |
}
|
194 |
for (UInt_t j=0; j<CleanElectrons->GetEntries(); j++) {
|
195 |
double pDz = 0.0;
|
196 |
for(uint i0 = 0; i0 < fVertices->GetEntries(); i0++) {
|
197 |
if(fVertices->At(i0)->NTracks() > 0){
|
198 |
pDz = TMath::Abs(CleanElectrons->At(j)->GsfTrk()->DzCorrected(*fVertices->At(i0)));
|
199 |
break;
|
200 |
}
|
201 |
}
|
202 |
if(pDz > zDiffMax) zDiffMax = pDz;
|
203 |
}
|
204 |
}
|
205 |
|
206 |
//***********************************************************************************************
|
207 |
//Define Event Variables
|
208 |
//***********************************************************************************************
|
209 |
//delta phi between the 2 leptons in degrees
|
210 |
double deltaPhiLeptons = MathUtils::DeltaPhi(CleanLeptons->At(0)->Phi(),
|
211 |
CleanLeptons->At(1)->Phi())* 180.0 / TMath::Pi();
|
212 |
|
213 |
double deltaEtaLeptons = CleanLeptons->At(0)->Eta() - CleanLeptons->At(1)->Eta();
|
214 |
|
215 |
double deltaPhiDileptonMet = MathUtils::DeltaPhi(caloMet->Phi(),
|
216 |
dilepton->Phi())*180.0 / TMath::Pi();
|
217 |
|
218 |
double mtHiggs = TMath::Sqrt(2.0*dilepton->Pt() * caloMet->Pt()*
|
219 |
(1.0 - cos(deltaPhiDileptonMet * TMath::Pi() / 180.0)));
|
220 |
|
221 |
//angle between MET and closest lepton
|
222 |
double deltaPhiMetLepton[2] = {MathUtils::DeltaPhi(caloMet->Phi(), CleanLeptons->At(0)->Phi()),
|
223 |
MathUtils::DeltaPhi(caloMet->Phi(), CleanLeptons->At(1)->Phi())};
|
224 |
|
225 |
double mTW[2] = {TMath::Sqrt(2.0*CleanLeptons->At(0)->Pt()*caloMet->Pt()*
|
226 |
(1.0 - cos(deltaPhiMetLepton[0]))),
|
227 |
TMath::Sqrt(2.0*CleanLeptons->At(1)->Pt()*caloMet->Pt()*
|
228 |
(1.0 - cos(deltaPhiMetLepton[1])))};
|
229 |
|
230 |
double minDeltaPhiMetLepton = (deltaPhiMetLepton[0] < deltaPhiMetLepton[1])?
|
231 |
deltaPhiMetLepton[0]:deltaPhiMetLepton[1];
|
232 |
|
233 |
double METdeltaPhilEt = caloMet->Pt();
|
234 |
if(minDeltaPhiMetLepton < TMath::Pi()/2.)
|
235 |
METdeltaPhilEt = METdeltaPhilEt * sin(minDeltaPhiMetLepton);
|
236 |
|
237 |
//count the number of central Jets for vetoing and b-tagging
|
238 |
vector<Jet*> sortedJetsAll;
|
239 |
vector<Jet*> sortedJets;
|
240 |
vector<Jet*> sortedJetsLowPt;
|
241 |
for(UInt_t i=0; i<CleanJetsNoPtCut->GetEntries(); i++){
|
242 |
Jet* jet_a = new Jet(CleanJetsNoPtCut->At(i)->Px(),
|
243 |
CleanJetsNoPtCut->At(i)->Py(),
|
244 |
CleanJetsNoPtCut->At(i)->Pz(),
|
245 |
CleanJetsNoPtCut->At(i)->E() );
|
246 |
|
247 |
int nCloseStdJet = -1;
|
248 |
double deltaRMin = 999.;
|
249 |
for(UInt_t nj=0; nj<fCaloJet0->GetEntries(); nj++){
|
250 |
const CaloJet *jet = fCaloJet0->At(nj);
|
251 |
Double_t deltaR = MathUtils::DeltaR(jet_a->Mom(),jet->Mom());
|
252 |
if(deltaR < deltaRMin) {
|
253 |
nCloseStdJet = nj;
|
254 |
deltaRMin = deltaR;
|
255 |
}
|
256 |
}
|
257 |
if(nCloseStdJet >= 0 && deltaRMin < 0.5){
|
258 |
jet_a->SetMatchedMCFlavor(fCaloJet0->At(nCloseStdJet)->MatchedMCFlavor());
|
259 |
jet_a->SetCombinedSecondaryVertexBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->CombinedSecondaryVertexBJetTagsDisc());
|
260 |
jet_a->SetCombinedSecondaryVertexMVABJetTagsDisc(fCaloJet0->At(nCloseStdJet)->CombinedSecondaryVertexMVABJetTagsDisc());
|
261 |
jet_a->SetJetProbabilityBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->JetProbabilityBJetTagsDisc());
|
262 |
jet_a->SetJetBProbabilityBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->JetBProbabilityBJetTagsDisc());
|
263 |
jet_a->SetTrackCountingHighEffBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->TrackCountingHighEffBJetTagsDisc());
|
264 |
jet_a->SetTrackCountingHighPurBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->TrackCountingHighPurBJetTagsDisc());
|
265 |
jet_a->SetSimpleSecondaryVertexBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->SimpleSecondaryVertexBJetTagsDisc());
|
266 |
jet_a->SetSimpleSecondaryVertexHighEffBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->SimpleSecondaryVertexHighEffBJetTagsDisc());
|
267 |
jet_a->SetSimpleSecondaryVertexHighPurBJetTagsDisc(fCaloJet0->At(nCloseStdJet)->SimpleSecondaryVertexHighPurBJetTagsDisc());
|
268 |
}
|
269 |
else {
|
270 |
jet_a->SetMatchedMCFlavor(CleanJetsNoPtCut->At(i)->MatchedMCFlavor());
|
271 |
jet_a->SetCombinedSecondaryVertexBJetTagsDisc(CleanJetsNoPtCut->At(i)->CombinedSecondaryVertexBJetTagsDisc());
|
272 |
jet_a->SetCombinedSecondaryVertexMVABJetTagsDisc(CleanJetsNoPtCut->At(i)->CombinedSecondaryVertexMVABJetTagsDisc());
|
273 |
jet_a->SetJetProbabilityBJetTagsDisc(CleanJetsNoPtCut->At(i)->JetProbabilityBJetTagsDisc());
|
274 |
jet_a->SetJetBProbabilityBJetTagsDisc(CleanJetsNoPtCut->At(i)->JetBProbabilityBJetTagsDisc());
|
275 |
jet_a->SetTrackCountingHighEffBJetTagsDisc(CleanJetsNoPtCut->At(i)->TrackCountingHighEffBJetTagsDisc());
|
276 |
jet_a->SetTrackCountingHighPurBJetTagsDisc(CleanJetsNoPtCut->At(i)->TrackCountingHighPurBJetTagsDisc());
|
277 |
jet_a->SetSimpleSecondaryVertexBJetTagsDisc(CleanJetsNoPtCut->At(i)->SimpleSecondaryVertexBJetTagsDisc());
|
278 |
jet_a->SetSimpleSecondaryVertexHighEffBJetTagsDisc(CleanJetsNoPtCut->At(i)->SimpleSecondaryVertexHighEffBJetTagsDisc());
|
279 |
jet_a->SetSimpleSecondaryVertexHighPurBJetTagsDisc(CleanJetsNoPtCut->At(i)->SimpleSecondaryVertexHighPurBJetTagsDisc());
|
280 |
}
|
281 |
sortedJetsAll.push_back(jet_a);
|
282 |
}
|
283 |
|
284 |
for(UInt_t i=0; i<CleanJets->GetEntries(); i++){
|
285 |
if(TMath::Abs(CleanJets->At(i)->Eta()) < 5.0 &&
|
286 |
CleanJets->At(i)->Pt() > 25.0){
|
287 |
Jet* jet_b = new Jet(CleanJets->At(i)->Px(),
|
288 |
CleanJets->At(i)->Py(),
|
289 |
CleanJets->At(i)->Pz(),
|
290 |
CleanJets->At(i)->E() );
|
291 |
sortedJets.push_back(jet_b);
|
292 |
}
|
293 |
}
|
294 |
|
295 |
for(UInt_t i=0; i<sortedJetsAll.size(); i++){
|
296 |
bool overlap = kFALSE;
|
297 |
for(UInt_t j=0; j<sortedJets.size(); j++){
|
298 |
if(sortedJetsAll[i]->Pt() == sortedJets[j]->Pt() ||
|
299 |
(sortedJetsAll[i]->CombinedSecondaryVertexBJetTagsDisc() == sortedJets[j]->CombinedSecondaryVertexBJetTagsDisc() &&
|
300 |
sortedJetsAll[i]->JetBProbabilityBJetTagsDisc() == sortedJets[j]->JetBProbabilityBJetTagsDisc() &&
|
301 |
sortedJetsAll[i]->TrackCountingHighPurBJetTagsDisc() == sortedJets[j]->TrackCountingHighPurBJetTagsDisc())
|
302 |
) {
|
303 |
sortedJets[j]->SetMatchedMCFlavor(sortedJetsAll[i]->MatchedMCFlavor());
|
304 |
sortedJets[j]->SetCombinedSecondaryVertexBJetTagsDisc(sortedJetsAll[i]->CombinedSecondaryVertexBJetTagsDisc());
|
305 |
sortedJets[j]->SetCombinedSecondaryVertexMVABJetTagsDisc(sortedJetsAll[i]->CombinedSecondaryVertexMVABJetTagsDisc());
|
306 |
sortedJets[j]->SetJetProbabilityBJetTagsDisc(sortedJetsAll[i]->JetProbabilityBJetTagsDisc());
|
307 |
sortedJets[j]->SetJetBProbabilityBJetTagsDisc(sortedJetsAll[i]->JetBProbabilityBJetTagsDisc());
|
308 |
sortedJets[j]->SetTrackCountingHighEffBJetTagsDisc(sortedJetsAll[i]->TrackCountingHighEffBJetTagsDisc());
|
309 |
sortedJets[j]->SetTrackCountingHighPurBJetTagsDisc(sortedJetsAll[i]->TrackCountingHighPurBJetTagsDisc());
|
310 |
sortedJets[j]->SetSimpleSecondaryVertexBJetTagsDisc(sortedJetsAll[i]->SimpleSecondaryVertexBJetTagsDisc());
|
311 |
sortedJets[j]->SetSimpleSecondaryVertexHighEffBJetTagsDisc(sortedJetsAll[i]->SimpleSecondaryVertexHighEffBJetTagsDisc());
|
312 |
sortedJets[j]->SetSimpleSecondaryVertexHighPurBJetTagsDisc(sortedJetsAll[i]->SimpleSecondaryVertexHighPurBJetTagsDisc());
|
313 |
overlap = kTRUE;
|
314 |
break;
|
315 |
}
|
316 |
}
|
317 |
if(overlap == kFALSE){
|
318 |
sortedJetsLowPt.push_back(sortedJetsAll[i]);
|
319 |
}
|
320 |
}
|
321 |
double maxBtag = -99999.;
|
322 |
double imaxBtag = -1;
|
323 |
for(UInt_t i=0; i<sortedJetsLowPt.size(); i++){
|
324 |
if(sortedJetsLowPt[i]->TrackCountingHighEffBJetTagsDisc() > maxBtag){
|
325 |
maxBtag = sortedJetsLowPt[i]->TrackCountingHighEffBJetTagsDisc();
|
326 |
imaxBtag = i;
|
327 |
}
|
328 |
}
|
329 |
|
330 |
//Lepton Type
|
331 |
int finalstateType = -1;
|
332 |
if (CleanLeptons->At(0)->ObjType() == kMuon && CleanLeptons->At(1)->ObjType() == kMuon ){ // mumu
|
333 |
finalstateType = 10;
|
334 |
} else if(CleanLeptons->At(0)->ObjType() == kElectron && CleanLeptons->At(1)->ObjType() == kElectron ){ // ee
|
335 |
finalstateType = 11;
|
336 |
} else if((CleanLeptons->At(0)->ObjType() == kElectron && CleanLeptons->At(1)->ObjType() == kMuon) ||
|
337 |
(CleanLeptons->At(1)->ObjType() == kElectron && CleanLeptons->At(0)->ObjType() == kMuon)) {
|
338 |
finalstateType = 12;
|
339 |
} else {
|
340 |
cerr << "Error: finalstate lepton type not supported\n";
|
341 |
}
|
342 |
|
343 |
//*********************************************************************************************
|
344 |
//Define Cuts
|
345 |
//*********************************************************************************************
|
346 |
const int nCuts = 10;
|
347 |
bool passCut[nCuts] = {false, false, false, false, false,
|
348 |
false, false, false, false, false};
|
349 |
|
350 |
if(CleanLeptons->At(0)->Pt() > 20.0 &&
|
351 |
CleanLeptons->At(1)->Pt() >= 20.0) passCut[0] = true;
|
352 |
|
353 |
if(zDiffMax < 1.0) passCut[1] = true;
|
354 |
|
355 |
if(caloMet->Pt() > 20.0) passCut[2] = true;
|
356 |
|
357 |
if(dilepton->Mass() > 12.0) passCut[3] = true;
|
358 |
|
359 |
if(sortedJets.size() < 1) passCut[6] = true;
|
360 |
|
361 |
if(SoftMuons->GetEntries() == 0) passCut[7] = true;
|
362 |
|
363 |
if(CleanLeptons->GetEntries() == 2) passCut[8] = true;
|
364 |
|
365 |
if(maxBtag < 2.1) passCut[9] = true;
|
366 |
|
367 |
if (finalstateType == 10 || finalstateType == 11){ // mumu/ee
|
368 |
if(fabs(dilepton->Mass()-91.1876) > 15.0) passCut[4] = true;
|
369 |
if(METdeltaPhilEt > 35) passCut[5] = true;
|
370 |
}
|
371 |
else if(finalstateType == 12) { // emu
|
372 |
passCut[4] = true;
|
373 |
if(METdeltaPhilEt > 20) passCut[5] = true;
|
374 |
}
|
375 |
|
376 |
//*********************************************************************************************
|
377 |
//Make Selection Histograms. Number of events passing each level of cut
|
378 |
//*********************************************************************************************
|
379 |
bool passAllCuts = true;
|
380 |
for(int c=0; c<nCuts; c++) passAllCuts = passAllCuts & passCut[c];
|
381 |
|
382 |
//Cut Selection Histograms
|
383 |
fHWWSelection->Fill(-1,NNLOWeight->GetVal());
|
384 |
if (finalstateType == 10 )
|
385 |
fHWWToMuMuSelection->Fill(-1,NNLOWeight->GetVal());
|
386 |
else if(finalstateType == 11 )
|
387 |
fHWWToEESelection->Fill(-1,NNLOWeight->GetVal());
|
388 |
else if(finalstateType == 12 )
|
389 |
fHWWToEMuSelection->Fill(-1,NNLOWeight->GetVal());
|
390 |
|
391 |
for (int k=0;k<nCuts;k++) {
|
392 |
bool pass = true;
|
393 |
bool passPreviousCut = true;
|
394 |
for (int p=0;p<=k;p++) {
|
395 |
pass = (pass && passCut[p]);
|
396 |
if (p<k)
|
397 |
passPreviousCut = (passPreviousCut&& passCut[p]);
|
398 |
}
|
399 |
|
400 |
if (pass) {
|
401 |
fHWWSelection->Fill(k,NNLOWeight->GetVal());
|
402 |
if (finalstateType == 10 )
|
403 |
fHWWToMuMuSelection->Fill(k,NNLOWeight->GetVal());
|
404 |
else if(finalstateType == 11)
|
405 |
fHWWToEESelection->Fill(k,NNLOWeight->GetVal());
|
406 |
else if(finalstateType == 12)
|
407 |
fHWWToEMuSelection->Fill(k,NNLOWeight->GetVal());
|
408 |
}
|
409 |
}
|
410 |
|
411 |
//*****************************************************************************************
|
412 |
//Make Preselection Histograms
|
413 |
//*****************************************************************************************
|
414 |
fLeptonEta->Fill(CleanLeptons->At(0)->Eta(),NNLOWeight->GetVal());
|
415 |
fLeptonEta->Fill(CleanLeptons->At(1)->Eta(),NNLOWeight->GetVal());
|
416 |
fLeptonPtMax->Fill(CleanLeptons->At(0)->Pt(),NNLOWeight->GetVal());
|
417 |
fLeptonPtMin->Fill(CleanLeptons->At(1)->Pt(),NNLOWeight->GetVal());
|
418 |
fMetPtHist->Fill(caloMet->Pt(),NNLOWeight->GetVal());
|
419 |
fMetPhiHist->Fill(caloMet->Phi(),NNLOWeight->GetVal());
|
420 |
fDeltaPhiLeptons->Fill(deltaPhiLeptons,NNLOWeight->GetVal());
|
421 |
fDeltaEtaLeptons->Fill(deltaEtaLeptons,NNLOWeight->GetVal());
|
422 |
fDileptonMass->Fill(dilepton->Mass(),NNLOWeight->GetVal());
|
423 |
|
424 |
//*********************************************************************************************
|
425 |
// N-1 Histograms
|
426 |
//*********************************************************************************************
|
427 |
bool pass;;
|
428 |
|
429 |
//N Jet Veto
|
430 |
pass = true;
|
431 |
for (int k=0;k<nCuts;k++) {
|
432 |
if (k != 6) {
|
433 |
pass = (pass && passCut[k]);
|
434 |
}
|
435 |
}
|
436 |
if (pass) {
|
437 |
fNCentralJets_NMinusOne->Fill(sortedJets.size(),NNLOWeight->GetVal());
|
438 |
}
|
439 |
|
440 |
// Final Met Cut
|
441 |
pass = true;
|
442 |
for (int k=0;k<nCuts;k++) {
|
443 |
if (k != 5) {
|
444 |
pass = (pass && passCut[k]);
|
445 |
}
|
446 |
}
|
447 |
if (pass) {
|
448 |
fMetPtHist_NMinusOne->Fill(caloMet->Pt(),NNLOWeight->GetVal());
|
449 |
}
|
450 |
|
451 |
// dilepton mass
|
452 |
pass = true;
|
453 |
for (int k=0;k<nCuts;k++) {
|
454 |
if (k != 3 && k != 4)
|
455 |
pass = (pass && passCut[k]);
|
456 |
}
|
457 |
if (pass) {
|
458 |
fDileptonMass_NMinusOne->Fill(dilepton->Mass(),NNLOWeight->GetVal());
|
459 |
}
|
460 |
|
461 |
// Lepton Pt Max, Lepton Pt Min, DeltaPhiLeptons
|
462 |
pass = true;
|
463 |
for (int k=0;k<nCuts;k++) {
|
464 |
pass = (pass && passCut[k]);
|
465 |
}
|
466 |
if (pass) {
|
467 |
fLeptonPtMax_NMinusOne->Fill(CleanLeptons->At(0)->Pt(),NNLOWeight->GetVal());
|
468 |
fLeptonPtMin_NMinusOne->Fill(CleanLeptons->At(1)->Pt(),NNLOWeight->GetVal());
|
469 |
fDeltaPhiLeptons_NMinusOne->Fill(deltaPhiLeptons,NNLOWeight->GetVal());
|
470 |
}
|
471 |
|
472 |
// NSoftMuons
|
473 |
pass = true;
|
474 |
for (int k=0;k<nCuts;k++) {
|
475 |
if (k != 7)
|
476 |
pass = (pass && passCut[k]);
|
477 |
}
|
478 |
if (pass) {
|
479 |
fNSoftMuonsHist_NMinusOne->Fill(SoftMuons->GetEntries(),NNLOWeight->GetVal());
|
480 |
}
|
481 |
|
482 |
//*********************************************************************************************
|
483 |
//Plots after all Cuts
|
484 |
//*********************************************************************************************
|
485 |
if (passAllCuts) {
|
486 |
fMinDeltaPhiLeptonMet_afterCuts->Fill(minDeltaPhiMetLepton,NNLOWeight->GetVal());
|
487 |
fMtLepton1_afterCuts->Fill(mTW[0],NNLOWeight->GetVal());
|
488 |
fMtLepton2_afterCuts->Fill(mTW[1],NNLOWeight->GetVal());
|
489 |
fMtHiggs_afterCuts->Fill(mtHiggs,NNLOWeight->GetVal());
|
490 |
fLeptonPtPlusMet_afterCuts->Fill(CleanLeptons->At(0)->Pt()+CleanLeptons->At(1)->Pt()+caloMet->Pt(),NNLOWeight->GetVal());
|
491 |
}
|
492 |
|
493 |
delete dilepton;
|
494 |
delete SoftMuons;
|
495 |
for(UInt_t i=0; i<sortedJets.size(); i++) delete sortedJets[i];
|
496 |
for(UInt_t i=0; i<sortedJetsAll.size(); i++) delete sortedJetsAll[i];
|
497 |
return;
|
498 |
}
|
499 |
|
500 |
//--------------------------------------------------------------------------------------------------
|
501 |
void HwwExampleAnalysisMod::SlaveTerminate()
|
502 |
{
|
503 |
|
504 |
// Run finishing code on the computer (slave) that did the analysis. For this
|
505 |
// module, we dont do anything here.
|
506 |
|
507 |
}
|
508 |
//--------------------------------------------------------------------------------------------------
|
509 |
void HwwExampleAnalysisMod::Terminate()
|
510 |
{
|
511 |
// Run finishing code on the client computer. For this module, we dont do
|
512 |
// anything here.
|
513 |
|
514 |
}
|