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JetTesterPostProcessor.cc
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1 // -*- C++ -*-
2 //
3 // Package: Validation/RecoMET
4 // Class: METTesterPostProcessor
5 //
6 // Original Author: "Matthias Weber"
7 // Created: Sun Feb 22 14:35:25 CET 2015
8 //
9 
13 
14 // Some switches
15 //
16 // constructors and destructor
17 //
19 {
20  inputJetLabelRECO_=iConfig.getParameter<edm::InputTag>("JetTypeRECO");
21  inputJetLabelMiniAOD_=iConfig.getParameter<edm::InputTag>("JetTypeMiniAOD");
22 }
23 
24 
26 {
27 }
28 
29 
30 // ------------ method called right after a run ends ------------
31 void
33 {
34  std::vector<std::string> subDirVec;
35  std::string RunDir="JetMET/JetValidation/";
36  iget_.setCurrentFolder(RunDir);
37  jet_dirs=iget_.getSubdirs();
38  bool found_reco_dir=false;
39  bool found_miniaod_dir=false;
40  //loop over jet subdirectories
41  for (int i=0; i<int(jet_dirs.size()); i++) {
42  ibook_.setCurrentFolder(jet_dirs[i]);
43  if(jet_dirs[i]==(RunDir+inputJetLabelRECO_.label())){
44  found_reco_dir=true;
45  }
46  if(jet_dirs[i]==(RunDir+inputJetLabelMiniAOD_.label())){
47  found_miniaod_dir=true;
48  }
49  }
50  if(found_miniaod_dir && found_reco_dir){
51  std::string rundir_reco=RunDir+inputJetLabelRECO_.label();
52  std::string rundir_miniaod=RunDir+inputJetLabelMiniAOD_.label();
53 
54  MonitorElement* mGenPt_Reco=iget_.get(rundir_reco+"/"+"GenPt");
55  MonitorElement* mGenPhi_Reco=iget_.get(rundir_reco+"/"+"GenPhi");
56  MonitorElement* mGenEta_Reco=iget_.get(rundir_reco+"/"+"GenEta");
57  MonitorElement* mPt_Reco=iget_.get(rundir_reco+"/"+"Pt");
58  MonitorElement* mPhi_Reco=iget_.get(rundir_reco+"/"+"Phi");
59  MonitorElement* mEta_Reco=iget_.get(rundir_reco+"/"+"Eta");
60  MonitorElement* mCorrJetPt_Reco=iget_.get(rundir_reco+"/"+"CorrJetPt");
61  MonitorElement* mCorrJetPhi_Reco=iget_.get(rundir_reco+"/"+"CorrJetPhi");
62  MonitorElement* mCorrJetEta_Reco=iget_.get(rundir_reco+"/"+"CorrJetEta");
63  /*
64  map_string_vec.push_back("Pt");
65  map_string_vec.push_back("Phi");
66  map_string_vec.push_back("Eta");
67  map_string_vec.push_back("CorrJetPt");
68  map_string_vec.push_back("CorrJetPhi");
69  map_string_vec.push_back("CorrJetEta");
70  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"Pt" ,mPt_Reco));
71  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"Phi" ,mPhi_Reco));
72  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"Eta" ,mEta_Reco));
73  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"CorrJetPt" ,mCorrJetPt_Reco));
74  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"CorrJetPhi" ,mCorrJetPhi_Reco));
75  map_of_MEs.insert(std::pair<std::string,MonitorElement*>(rundir_reco+"/"+"CorrJetEta" ,mCorrJetEta_Reco));
76  */
77  MonitorElement* mPtCorrOverReco_Eta_20_40_Reco=iget_.get(rundir_reco+"/"+"PtCorrOverReco_Eta_20_40");
78  MonitorElement* mPtCorrOverReco_Eta_200_600_Reco=iget_.get(rundir_reco+"/"+"PtCorrOverReco_Eta_200_600");
79  MonitorElement* mPtCorrOverReco_Eta_1500_3500_Reco=iget_.get(rundir_reco+"/"+"PtCorrOverReco_Eta_1500_3500");
80  MonitorElement* mPtCorrOverGen_GenEta_40_200_Reco=iget_.get(rundir_reco+"/"+"PtCorrOverGen_GenEta_40_200");
81  MonitorElement* mPtCorrOverGen_GenEta_600_1500_Reco=iget_.get(rundir_reco+"/"+"PtCorrOverGen_GenEta_600_1500");
82  MonitorElement* mDeltaEta_Reco=iget_.get(rundir_reco+"/"+"DeltaEta");
83  MonitorElement* mDeltaPhi_Reco=iget_.get(rundir_reco+"/"+"DeltaPhi");
84  MonitorElement* mDeltaPt_Reco=iget_.get(rundir_reco+"/"+"DeltaPt");
85  MonitorElement* mMjj_Reco=iget_.get(rundir_reco+"/"+"Mjj");
86  MonitorElement* mNJets40_Reco=iget_.get(rundir_reco+"/"+"NJets");
87  MonitorElement* mchargedHadronMultiplicity_Reco=iget_.get(rundir_reco+"/"+"chargedHadronMultiplicity");
88  MonitorElement* mneutralHadronMultiplicity_Reco=iget_.get(rundir_reco+"/"+"neutralHadronMultiplicity");
89  MonitorElement* mphotonMultiplicity_Reco=iget_.get(rundir_reco+"/"+"photonMultiplicity");
90  MonitorElement* mphotonEnergyFraction_Reco=iget_.get(rundir_reco+"/"+"photonEnergyFraction");
91  MonitorElement* mneutralHadronEnergyFraction_Reco=iget_.get(rundir_reco+"/"+"neutralHadronEnergyFraction");
92  MonitorElement* mchargedHadronEnergyFraction_Reco=iget_.get(rundir_reco+"/"+"chargedHadronEnergyFraction");
93 
94  std::vector<MonitorElement*>ME_Reco;
95  ME_Reco.push_back(mGenPt_Reco);
96  ME_Reco.push_back(mGenPhi_Reco);
97  ME_Reco.push_back(mGenEta_Reco);
98  ME_Reco.push_back(mPt_Reco);
99  ME_Reco.push_back(mPhi_Reco);
100  ME_Reco.push_back(mEta_Reco);
101  ME_Reco.push_back(mCorrJetPt_Reco);
102  ME_Reco.push_back(mCorrJetPhi_Reco);
103  ME_Reco.push_back(mCorrJetEta_Reco);
104  ME_Reco.push_back(mPtCorrOverReco_Eta_20_40_Reco);
105  ME_Reco.push_back(mPtCorrOverReco_Eta_200_600_Reco);
106  ME_Reco.push_back(mPtCorrOverReco_Eta_1500_3500_Reco);
107  ME_Reco.push_back(mPtCorrOverGen_GenEta_40_200_Reco);
108  ME_Reco.push_back(mPtCorrOverGen_GenEta_600_1500_Reco);
109  ME_Reco.push_back(mDeltaEta_Reco);
110  ME_Reco.push_back(mDeltaPhi_Reco);
111  ME_Reco.push_back(mDeltaPt_Reco);
112  ME_Reco.push_back(mMjj_Reco);
113  ME_Reco.push_back(mNJets40_Reco);
114  ME_Reco.push_back(mchargedHadronMultiplicity_Reco);
115  ME_Reco.push_back(mneutralHadronMultiplicity_Reco);
116  ME_Reco.push_back(mphotonMultiplicity_Reco);
117  ME_Reco.push_back(mphotonEnergyFraction_Reco);
118  ME_Reco.push_back(mneutralHadronEnergyFraction_Reco);
119  ME_Reco.push_back(mchargedHadronEnergyFraction_Reco);
120 
121  MonitorElement* mGenPt_MiniAOD=iget_.get(rundir_miniaod+"/"+"GenPt");
122  MonitorElement* mGenPhi_MiniAOD=iget_.get(rundir_miniaod+"/"+"GenPhi");
123  MonitorElement* mGenEta_MiniAOD=iget_.get(rundir_miniaod+"/"+"GenEta");
124  MonitorElement* mPt_MiniAOD=iget_.get(rundir_miniaod+"/"+"Pt");
125  MonitorElement* mPhi_MiniAOD=iget_.get(rundir_miniaod+"/"+"Phi");
126  MonitorElement* mEta_MiniAOD=iget_.get(rundir_miniaod+"/"+"Eta");
127  MonitorElement* mCorrJetPt_MiniAOD=iget_.get(rundir_miniaod+"/"+"CorrJetPt");
128  MonitorElement* mCorrJetPhi_MiniAOD=iget_.get(rundir_miniaod+"/"+"CorrJetPhi");
129  MonitorElement* mCorrJetEta_MiniAOD=iget_.get(rundir_miniaod+"/"+"CorrJetEta");
130  MonitorElement* mPtCorrOverReco_Eta_20_40_MiniAOD=iget_.get(rundir_miniaod+"/"+"PtCorrOverReco_Eta_20_40");
131  MonitorElement* mPtCorrOverReco_Eta_200_600_MiniAOD=iget_.get(rundir_miniaod+"/"+"PtCorrOverReco_Eta_200_600");
132  MonitorElement* mPtCorrOverReco_Eta_1500_3500_MiniAOD=iget_.get(rundir_miniaod+"/"+"PtCorrOverReco_Eta_1500_3500");
133  MonitorElement* mPtCorrOverGen_GenEta_40_200_MiniAOD=iget_.get(rundir_miniaod+"/"+"PtCorrOverGen_GenEta_40_200");
134  MonitorElement* mPtCorrOverGen_GenEta_600_1500_MiniAOD=iget_.get(rundir_miniaod+"/"+"PtCorrOverGen_GenEta_600_1500");
135  MonitorElement* mDeltaEta_MiniAOD=iget_.get(rundir_miniaod+"/"+"DeltaEta");
136  MonitorElement* mDeltaPhi_MiniAOD=iget_.get(rundir_miniaod+"/"+"DeltaPhi");
137  MonitorElement* mDeltaPt_MiniAOD=iget_.get(rundir_miniaod+"/"+"DeltaPt");
138  MonitorElement* mMjj_MiniAOD=iget_.get(rundir_miniaod+"/"+"Mjj");
139  MonitorElement* mNJets40_MiniAOD=iget_.get(rundir_miniaod+"/"+"NJets");
140  MonitorElement* mchargedHadronMultiplicity_MiniAOD=iget_.get(rundir_miniaod+"/"+"chargedHadronMultiplicity");
141  MonitorElement* mneutralHadronMultiplicity_MiniAOD=iget_.get(rundir_miniaod+"/"+"neutralHadronMultiplicity");
142  MonitorElement* mphotonMultiplicity_MiniAOD=iget_.get(rundir_miniaod+"/"+"photonMultiplicity");
143  MonitorElement* mphotonEnergyFraction_MiniAOD=iget_.get(rundir_miniaod+"/"+"photonEnergyFraction");
144  MonitorElement* mneutralHadronEnergyFraction_MiniAOD=iget_.get(rundir_miniaod+"/"+"neutralHadronEnergyFraction");
145  MonitorElement* mchargedHadronEnergyFraction_MiniAOD=iget_.get(rundir_miniaod+"/"+"chargedHadronEnergyFraction");
146 
147  std::vector<MonitorElement*>ME_MiniAOD;
148  ME_MiniAOD.push_back(mGenPt_MiniAOD);
149  ME_MiniAOD.push_back(mGenPhi_MiniAOD);
150  ME_MiniAOD.push_back(mGenEta_MiniAOD);
151  ME_MiniAOD.push_back(mPt_MiniAOD);
152  ME_MiniAOD.push_back(mPhi_MiniAOD);
153  ME_MiniAOD.push_back(mEta_MiniAOD);
154  ME_MiniAOD.push_back(mCorrJetPt_MiniAOD);
155  ME_MiniAOD.push_back(mCorrJetPhi_MiniAOD);
156  ME_MiniAOD.push_back(mCorrJetEta_MiniAOD);
157  ME_MiniAOD.push_back(mPtCorrOverReco_Eta_20_40_MiniAOD);
158  ME_MiniAOD.push_back(mPtCorrOverReco_Eta_200_600_MiniAOD);
159  ME_MiniAOD.push_back(mPtCorrOverReco_Eta_1500_3500_MiniAOD);
160  ME_MiniAOD.push_back(mPtCorrOverGen_GenEta_40_200_MiniAOD);
161  ME_MiniAOD.push_back(mPtCorrOverGen_GenEta_600_1500_MiniAOD);
162  ME_MiniAOD.push_back(mDeltaEta_MiniAOD);
163  ME_MiniAOD.push_back(mDeltaPhi_MiniAOD);
164  ME_MiniAOD.push_back(mDeltaPt_MiniAOD);
165  ME_MiniAOD.push_back(mMjj_MiniAOD);
166  ME_MiniAOD.push_back(mNJets40_MiniAOD);
167  ME_MiniAOD.push_back(mchargedHadronMultiplicity_MiniAOD);
168  ME_MiniAOD.push_back(mneutralHadronMultiplicity_MiniAOD);
169  ME_MiniAOD.push_back(mphotonMultiplicity_MiniAOD);
170  ME_MiniAOD.push_back(mphotonEnergyFraction_MiniAOD);
171  ME_MiniAOD.push_back(mneutralHadronEnergyFraction_MiniAOD);
172  ME_MiniAOD.push_back(mchargedHadronEnergyFraction_MiniAOD);
173 
174  ibook_.setCurrentFolder(RunDir+"MiniAOD_over_RECO");
175  mGenPt_MiniAOD_over_Reco=ibook_.book1D("GenPt_MiniAOD_over_RECO",(TH1F*)mGenPt_Reco->getRootObject());
176  mGenPhi_MiniAOD_over_Reco=ibook_.book1D("GenPhi_MiniAOD_over_RECO",(TH1F*)mGenPhi_Reco->getRootObject());
177  mGenEta_MiniAOD_over_Reco=ibook_.book1D("GenEta_MiniAOD_over_RECO",(TH1F*)mGenEta_Reco->getRootObject());
178  mPt_MiniAOD_over_Reco=ibook_.book1D("Pt_MiniAOD_over_RECO",(TH1F*)mPt_Reco->getRootObject());
179  mPhi_MiniAOD_over_Reco=ibook_.book1D("Phi_MiniAOD_over_RECO",(TH1F*)mPhi_Reco->getRootObject());
180  mEta_MiniAOD_over_Reco=ibook_.book1D("Eta_MiniAOD_over_RECO",(TH1F*)mEta_Reco->getRootObject());
181  mCorrJetPt_MiniAOD_over_Reco=ibook_.book1D("CorrJetPt_MiniAOD_over_RECO",(TH1F*)mCorrJetPt_Reco->getRootObject());
182  mCorrJetPhi_MiniAOD_over_Reco=ibook_.book1D("CorrJetPhi_MiniAOD_over_RECO",(TH1F*)mCorrJetPhi_Reco->getRootObject());
183  mCorrJetEta_MiniAOD_over_Reco=ibook_.book1D("CorrJetEta_MiniAOD_over_RECO",(TH1F*)mCorrJetEta_Reco->getRootObject());
184 
185  //if eta range changed here need change in JetTester as well
186  float etarange[91] = {-6.0, -5.8, -5.6, -5.4, -5.2, -5.0, -4.8, -4.6, -4.4, -4.2,
187  -4.0, -3.8, -3.6, -3.4, -3.2, -3.0, -2.9, -2.8, -2.7, -2.6,
188  -2.5, -2.4, -2.3, -2.2, -2.1, -2.0, -1.9, -1.8, -1.7, -1.6,
189  -1.5, -1.4, -1.3, -1.2, -1.1, -1.0, -0.9, -0.8, -0.7, -0.6,
190  -0.5, -0.4, -0.3, -0.2, -0.1,
191  0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9,
192  1.0, 1.1, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9,
193  2.0, 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7, 2.8, 2.9,
194  3.0, 3.2, 3.4, 3.6, 3.8, 4.0, 4.2, 4.4, 4.6, 4.8,
195  5.0, 5.2, 5.4, 5.6, 5.8, 6.0};
196 
197  mPtCorrOverReco_Eta_20_40_MiniAOD_over_Reco=ibook_.book1D("PtCorrOverReco_Eta_20_40_MiniAOD_over_RECO","20<genpt<40",90,etarange);
198  mPtCorrOverReco_Eta_200_600_MiniAOD_over_Reco=ibook_.book1D("PtCorrOverReco_Eta_200_600_MiniAOD_over_RECO","200<genpt<600",90,etarange);
199  mPtCorrOverReco_Eta_1500_3500_MiniAOD_over_Reco=ibook_.book1D("PtCorrOverReco_Eta_1500_3500_MiniAOD_over_RECO","1500<genpt<3500",90,etarange);
200  mPtCorrOverGen_GenEta_40_200_MiniAOD_over_Reco=ibook_.book1D("PtCorrOverGen_GenEta_40_200_MiniAOD_over_RECO","40<genpt<200",90,etarange);
201  mPtCorrOverGen_GenEta_600_1500_MiniAOD_over_Reco=ibook_.book1D("PtCorrOverGen_GenEta_600_1500_MiniAOD_over_RECO","600<genpt<1500",90,etarange);
202  mDeltaPt_MiniAOD_over_Reco=ibook_.book1D("DeltaPt_MiniAOD_over_RECO",(TH1F*)mDeltaPt_Reco->getRootObject());
203  mDeltaPhi_MiniAOD_over_Reco=ibook_.book1D("DeltaPhi_MiniAOD_over_RECO",(TH1F*)mDeltaPhi_Reco->getRootObject());
204  mDeltaEta_MiniAOD_over_Reco=ibook_.book1D("DeltaEta_MiniAOD_over_RECO",(TH1F*)mDeltaEta_Reco->getRootObject());
205  mMjj_MiniAOD_over_Reco=ibook_.book1D("Mjj_MiniAOD_over_RECO",(TH1F*)mMjj_Reco->getRootObject());
206  mNJets40_MiniAOD_over_Reco=ibook_.book1D("NJets_MiniAOD_over_RECO",(TH1F*)mNJets40_Reco->getRootObject());
207  mchargedHadronMultiplicity_MiniAOD_over_Reco=ibook_.book1D("chargedHadronMultiplicity_MiniAOD_over_RECO",(TH1F*)mchargedHadronMultiplicity_Reco->getRootObject());
208  mneutralHadronMultiplicity_MiniAOD_over_Reco=ibook_.book1D("neutralHadronMultiplicity_MiniAOD_over_RECO",(TH1F*)mneutralHadronMultiplicity_Reco->getRootObject());
209  mphotonMultiplicity_MiniAOD_over_Reco=ibook_.book1D("photonMultiplicity_MiniAOD_over_RECO",(TH1F*)mphotonMultiplicity_Reco->getRootObject());
210  mchargedHadronEnergyFraction_MiniAOD_over_Reco=ibook_.book1D("chargedHadronEnergyFraction_MiniAOD_over_RECO",(TH1F*)mchargedHadronEnergyFraction_Reco->getRootObject());
211  mneutralHadronEnergyFraction_MiniAOD_over_Reco=ibook_.book1D("neutralHadronEnergyFraction_MiniAOD_over_RECO",(TH1F*)mneutralHadronEnergyFraction_Reco->getRootObject());
212  mphotonEnergyFraction_MiniAOD_over_Reco=ibook_.book1D("photonEnergyFraction_MiniAOD_over_RECO",(TH1F*)mphotonEnergyFraction_Reco->getRootObject());
213 
214  std::vector<MonitorElement*>ME_MiniAOD_over_Reco;
215  ME_MiniAOD_over_Reco.push_back(mGenPt_MiniAOD_over_Reco);
216  ME_MiniAOD_over_Reco.push_back(mGenPhi_MiniAOD_over_Reco);
217  ME_MiniAOD_over_Reco.push_back(mGenEta_MiniAOD_over_Reco);
218  ME_MiniAOD_over_Reco.push_back(mPt_MiniAOD_over_Reco);
219  ME_MiniAOD_over_Reco.push_back(mPhi_MiniAOD_over_Reco);
220  ME_MiniAOD_over_Reco.push_back(mEta_MiniAOD_over_Reco);
221  ME_MiniAOD_over_Reco.push_back(mCorrJetPt_MiniAOD_over_Reco);
222  ME_MiniAOD_over_Reco.push_back(mCorrJetPhi_MiniAOD_over_Reco);
223  ME_MiniAOD_over_Reco.push_back(mCorrJetEta_MiniAOD_over_Reco);
224  ME_MiniAOD_over_Reco.push_back(mPtCorrOverReco_Eta_20_40_MiniAOD_over_Reco);
225  ME_MiniAOD_over_Reco.push_back(mPtCorrOverReco_Eta_200_600_MiniAOD_over_Reco);
226  ME_MiniAOD_over_Reco.push_back(mPtCorrOverReco_Eta_1500_3500_MiniAOD_over_Reco);
227  ME_MiniAOD_over_Reco.push_back(mPtCorrOverGen_GenEta_40_200_MiniAOD_over_Reco);
228  ME_MiniAOD_over_Reco.push_back(mPtCorrOverGen_GenEta_600_1500_MiniAOD_over_Reco);
229  ME_MiniAOD_over_Reco.push_back(mDeltaEta_MiniAOD_over_Reco);
230  ME_MiniAOD_over_Reco.push_back(mDeltaPhi_MiniAOD_over_Reco);
231  ME_MiniAOD_over_Reco.push_back(mDeltaPt_MiniAOD_over_Reco);
232  ME_MiniAOD_over_Reco.push_back(mMjj_MiniAOD_over_Reco);
233  ME_MiniAOD_over_Reco.push_back(mNJets40_MiniAOD_over_Reco);
234  ME_MiniAOD_over_Reco.push_back(mchargedHadronMultiplicity_MiniAOD_over_Reco);
235  ME_MiniAOD_over_Reco.push_back(mneutralHadronMultiplicity_MiniAOD_over_Reco);
236  ME_MiniAOD_over_Reco.push_back(mphotonMultiplicity_MiniAOD_over_Reco);
237  ME_MiniAOD_over_Reco.push_back(mphotonEnergyFraction_MiniAOD_over_Reco);
238  ME_MiniAOD_over_Reco.push_back(mneutralHadronEnergyFraction_MiniAOD_over_Reco);
239  ME_MiniAOD_over_Reco.push_back(mchargedHadronEnergyFraction_MiniAOD_over_Reco);
240  for(unsigned int j=0;j<ME_MiniAOD_over_Reco.size();j++){
241  MonitorElement* monReco=ME_Reco[j];if(monReco && monReco->getRootObject()){
242  MonitorElement* monMiniAOD=ME_MiniAOD[j];if(monMiniAOD && monMiniAOD->getRootObject()){
243  MonitorElement* monMiniAOD_over_RECO=ME_MiniAOD_over_Reco[j];if(monMiniAOD_over_RECO && monMiniAOD_over_RECO->getRootObject()){
244  for(int i=0;i<=(monMiniAOD_over_RECO->getNbinsX()+1);i++){
245  if(monReco->getBinContent(i)!=0){
246  monMiniAOD_over_RECO->setBinContent(i,monMiniAOD->getBinContent(i)/monReco->getBinContent(i));
247  }else if (monMiniAOD->getBinContent(i)!=0){
248  monMiniAOD_over_RECO->setBinContent(i,-0.5);
249  }
250  }
251  }
252  }
253  }
254  }
255  }
256 }
MonitorElement * mDeltaPhi_MiniAOD_over_Reco
T getParameter(std::string const &) const
MonitorElement * mneutralHadronMultiplicity_MiniAOD_over_Reco
int i
Definition: DBlmapReader.cc:9
void setBinContent(int binx, double content)
set content of bin (1-D)
MonitorElement * mDeltaEta_MiniAOD_over_Reco
MonitorElement * get(const std::string &path)
Definition: DQMStore.cc:302
MonitorElement * mPtCorrOverGen_GenEta_40_200_MiniAOD_over_Reco
std::vector< std::string > jet_dirs
MonitorElement * mCorrJetPhi_MiniAOD_over_Reco
MonitorElement * mPtCorrOverGen_GenEta_600_1500_MiniAOD_over_Reco
MonitorElement * mEta_MiniAOD_over_Reco
MonitorElement * mchargedHadronMultiplicity_MiniAOD_over_Reco
MonitorElement * mGenEta_MiniAOD_over_Reco
MonitorElement * mDeltaPt_MiniAOD_over_Reco
MonitorElement * mneutralHadronEnergyFraction_MiniAOD_over_Reco
MonitorElement * mCorrJetPt_MiniAOD_over_Reco
MonitorElement * mchargedHadronEnergyFraction_MiniAOD_over_Reco
virtual void dqmEndJob(DQMStore::IBooker &, DQMStore::IGetter &)
MonitorElement * mphotonEnergyFraction_MiniAOD_over_Reco
MonitorElement * mPhi_MiniAOD_over_Reco
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:115
int j
Definition: DBlmapReader.cc:9
MonitorElement * mPtCorrOverReco_Eta_1500_3500_MiniAOD_over_Reco
MonitorElement * mMjj_MiniAOD_over_Reco
TObject * getRootObject(void) const
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:274
JetTesterPostProcessor(const edm::ParameterSet &)
MonitorElement * mGenPt_MiniAOD_over_Reco
MonitorElement * mphotonMultiplicity_MiniAOD_over_Reco
std::string const & label() const
Definition: InputTag.h:43
std::vector< std::string > getSubdirs(void)
Definition: DQMStore.cc:306
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:330
MonitorElement * mNJets40_MiniAOD_over_Reco
double getBinContent(int binx) const
get content of bin (1-D)
int getNbinsX(void) const
get # of bins in X-axis
MonitorElement * mCorrJetEta_MiniAOD_over_Reco
MonitorElement * mPt_MiniAOD_over_Reco
MonitorElement * mPtCorrOverReco_Eta_200_600_MiniAOD_over_Reco
MonitorElement * mPtCorrOverReco_Eta_20_40_MiniAOD_over_Reco
MonitorElement * mGenPhi_MiniAOD_over_Reco