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myFastSimVal.cc
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1 // myFastSimVal.cc
2 // Description: Comparison between Jet Algorithms
3 // Author: Frank Chlebana
4 // Date: 08 - August - 2007
5 //
13 // #include "DataFormats/HepMCCandidate/interface/GenParticleCandidate.h"
15 // #include "FWCore/Framework/interface/Handle.h"
18 #include <TROOT.h>
19 #include <TSystem.h>
20 #include <TFile.h>
21 #include <TCanvas.h>
22 #include <cmath>
23 using namespace edm;
24 using namespace reco;
25 using namespace std;
26 
27 #define DEBUG 1
28 // #define MAXJETS 50
29 #define MAXJETS 100
30 
31 // Get the algorithm of the jet collections we will read from the .cfg file
32 // which defines the value of the strings CaloJetAlgorithm and GenJetAlgorithm.
34  : CaloJetAlgorithm1(cfg.getParameter<string>("CaloJetAlgorithm1")),
35  CaloJetAlgorithm2(cfg.getParameter<string>("CaloJetAlgorithm2")),
36  CaloJetAlgorithm3(cfg.getParameter<string>("CaloJetAlgorithm3")),
37  CaloJetAlgorithm4(cfg.getParameter<string>("CaloJetAlgorithm4")),
38  GenJetAlgorithm1(cfg.getParameter<string>("GenJetAlgorithm1")),
39  GenJetAlgorithm2(cfg.getParameter<string>("GenJetAlgorithm2")),
40  GenJetAlgorithm3(cfg.getParameter<string>("GenJetAlgorithm3")),
41  GenJetAlgorithm4(cfg.getParameter<string>("GenJetAlgorithm4")),
42  JetCorrectionService(cfg.getParameter<string>("JetCorrectionService")) {}
43 
44 int nEvent = 0;
45 
47  // Open the histogram file and book some associated histograms
48  m_file = new TFile("histo.root", "RECREATE");
49 
50  tMassGen = TH1F("tMassGen", "T Mass Gen", 100, 0, 200);
51  tbarMassGen = TH1F("tbarMassGen", "Tbar Mass Gen", 100, 0, 200);
52 
53  tMass = TH1F("tMass", "T Mass", 100, 0, 200);
54  tbarMass = TH1F("tbarMass", "Tbar Mass", 100, 0, 200);
55 
56  topMassParton = TH1F("topMassParton", "Top Mass Parton", 100, 0, 200);
57  topMass1 = TH1F("topMass1", "Top Mass 1", 100, 0, 200);
58  topMass2 = TH1F("topMass2", "Top Mass 2", 100, 0, 200);
59  topMass3 = TH1F("topMass3", "Top Mass 3", 100, 0, 200);
60 
61  ZpMass = TH1F("ZpMass", "Generated Zp Mass", 160, 0, 8000);
62  ZpMassGen = TH1F("ZpMassGen", "Gen Zp Mass", 160, 0, 8000);
63  ZpMassMatched1 = TH1F("ZpMassMatched1", "Calor Zp Mass 1", 160, 0, 8000);
64  ZpMassMatched2 = TH1F("ZpMassMatched2", "Calor Zp Mass 2", 160, 0, 8000);
65  ZpMassMatched3 = TH1F("ZpMassMatched3", "Calor Zp Mass 3", 160, 0, 8000);
66 
67  ZpMassGen10 = TH1F("ZpMassGen10", "Gen Zp Mass", 160, 0, 8000);
68  ZpMassGen13 = TH1F("ZpMassGen13", "Gen Zp Mass", 160, 0, 8000);
69  ZpMassGen40 = TH1F("ZpMassGen40", "Gen Zp Mass", 160, 0, 8000);
70 
71  ZpMass_700_10 = TH1F("ZpMass_700_10", "Parton Zp Mass", 100, 0, 1000);
72  ZpMass_700_13 = TH1F("ZpMass_700_13", "Parton Zp Mass", 100, 0, 1000);
73  ZpMass_700_40 = TH1F("ZpMass_700_40", "Parton Zp Mass", 100, 0, 1000);
74 
75  ZpMassGen_700_10 = TH1F("ZpMassGen_700_10", "Gen Zp Mass", 100, 0, 1000);
76  ZpMassGen_700_13 = TH1F("ZpMassGen_700_13", "Gen Zp Mass", 100, 0, 1000);
77  ZpMassGen_700_40 = TH1F("ZpMassGen_700_40", "Gen Zp Mass", 100, 0, 1000);
78 
79  ZpMassGen_2000_10 = TH1F("ZpMassGen_2000_10", "Gen Zp Mass", 100, 1500, 2500);
80  ZpMassGen_2000_13 = TH1F("ZpMassGen_2000_13", "Gen Zp Mass", 100, 1500, 2500);
81  ZpMassGen_2000_40 = TH1F("ZpMassGen_2000_40", "Gen Zp Mass", 100, 1500, 2500);
82 
83  ZpMass_2000_10 = TH1F("ZpMass_2000_10", "Parton Zp Mass", 100, 1500, 2500);
84  ZpMass_2000_13 = TH1F("ZpMass_2000_13", "Parton Zp Mass", 100, 1500, 2500);
85  ZpMass_2000_40 = TH1F("ZpMass_2000_40", "Parton Zp Mass", 100, 1500, 2500);
86 
87  ZpMassGen_5000_10 = TH1F("ZpMassGen_5000_10", "Gen Zp Mass", 150, 4000, 5500);
88  ZpMassGen_5000_13 = TH1F("ZpMassGen_5000_13", "Gen Zp Mass", 150, 4000, 5500);
89  ZpMassGen_5000_40 = TH1F("ZpMassGen_5000_40", "Gen Zp Mass", 150, 4000, 5500);
90 
91  ZpMass_5000_10 = TH1F("ZpMass_5000_10", "Parton Zp Mass", 150, 4000, 5500);
92  ZpMass_5000_13 = TH1F("ZpMass_5000_13", "Parton Zp Mass", 150, 4000, 5500);
93  ZpMass_5000_40 = TH1F("ZpMass_5000_40", "Parton Zp Mass", 150, 4000, 5500);
94 
95  ZpMassRes101 = TH1F("ZpMassRes101", "Zp Mass Resolution 1", 100, -2, 2);
96  ZpMassRes102 = TH1F("ZpMassRes102", "Zp Mass Resolution 2", 100, -2, 2);
97  ZpMassRes103 = TH1F("ZpMassRes103", "Zp Mass Resolution 3", 100, -2, 2);
98 
99  ZpMassRes131 = TH1F("ZpMassRes131", "Zp Mass Resolution 1", 100, -2, 2);
100  ZpMassRes132 = TH1F("ZpMassRes132", "Zp Mass Resolution 2", 100, -2, 2);
101  ZpMassRes133 = TH1F("ZpMassRes133", "Zp Mass Resolution 3", 100, -2, 2);
102 
103  ZpMassRes401 = TH1F("ZpMassRes401", "Zp Mass Resolution 1", 100, -2, 2);
104  ZpMassRes402 = TH1F("ZpMassRes402", "Zp Mass Resolution 2", 100, -2, 2);
105  ZpMassRes403 = TH1F("ZpMassRes403", "Zp Mass Resolution 3", 100, -2, 2);
106 
107  ZpMassResL101 = TH1F("ZpMassResL101", "Zp Mass Resolution Leading Jets 1", 100, 0, 2);
108  ZpMassResL102 = TH1F("ZpMassResL102", "Zp Mass Resolution Leading Jets 2", 100, 0, 2);
109  ZpMassResL103 = TH1F("ZpMassResL103", "Zp Mass Resolution Leading Jets 3", 100, 0, 2);
110 
111  ZpMassResRL101 = TH1F("ZpMassResRL101", "Zp Mass Res. Ratio Leading Jets 1", 100, 0, 2);
112  ZpMassResRL102 = TH1F("ZpMassResRL102", "Zp Mass Res. Ratio Leading Jets 2", 100, 0, 2);
113  ZpMassResRL103 = TH1F("ZpMassResRL103", "Zp Mass Res. Ratio Leading Jets 3", 100, 0, 2);
114 
115  ZpMassResRLoP101 = TH1F("ZpMassResRLoP101", "Zp Mass RLoP Ratio Leading Jets 1", 100, 0, 2);
116  ZpMassResRLoP102 = TH1F("ZpMassResRLoP102", "Zp Mass RLoP Ratio Leading Jets 2", 100, 0, 2);
117  ZpMassResRLoP103 = TH1F("ZpMassResRLoP103", "Zp Mass RLoP Ratio Leading Jets 3", 100, 0, 2);
118 
119  ZpMassResPRL101 = TH1F("ZpMassResPRL101", "Zp Mass Res. P Ratio Leading Jets 1", 100, 0, 2);
120  ZpMassResPRL102 = TH1F("ZpMassResPRL102", "Zp Mass Res. P Ratio Leading Jets 2", 100, 0, 2);
121  ZpMassResPRL103 = TH1F("ZpMassResPRL103", "Zp Mass Res. P Ratio Leading Jets 3", 100, 0, 2);
122 
123  ZpMassResL131 = TH1F("ZpMassResL131", "Zp Mass Resolution Leading Jets 1", 100, 0, 2);
124  ZpMassResL132 = TH1F("ZpMassResL132", "Zp Mass Resolution Leading Jets 2", 100, 0, 2);
125  ZpMassResL133 = TH1F("ZpMassResL133", "Zp Mass Resolution Leading Jets 3", 100, 0, 2);
126 
127  ZpMassResRL131 = TH1F("ZpMassResRL131", "Zp Mass Res. Ratio Leading Jets 1", 100, 0, 2);
128  ZpMassResRL132 = TH1F("ZpMassResRL132", "Zp Mass Res. Ratio Leading Jets 2", 100, 0, 2);
129  ZpMassResRL133 = TH1F("ZpMassResRL133", "Zp Mass Res. Ratio Leading Jets 3", 100, 0, 2);
130 
131  ZpMassResRLoP131 = TH1F("ZpMassResRLoP131", "Zp Mass RLoP Ratio Leading Jets 1", 100, 0, 2);
132  ZpMassResRLoP132 = TH1F("ZpMassResRLoP132", "Zp Mass RLoP Ratio Leading Jets 2", 100, 0, 2);
133  ZpMassResRLoP133 = TH1F("ZpMassResRLoP133", "Zp Mass RLoP Ratio Leading Jets 3", 100, 0, 2);
134 
135  ZpMassResPRL131 = TH1F("ZpMassResPRL131", "Zp Mass Res. P Ratio Leading Jets 1", 100, 0, 2);
136  ZpMassResPRL132 = TH1F("ZpMassResPRL132", "Zp Mass Res. P Ratio Leading Jets 2", 100, 0, 2);
137  ZpMassResPRL133 = TH1F("ZpMassResPRL133", "Zp Mass Res. P Ratio Leading Jets 3", 100, 0, 2);
138 
139  ZpMassResL401 = TH1F("ZpMassResL401", "Zp Mass Resolution Leading Jets 1", 100, 0, 2);
140  ZpMassResL402 = TH1F("ZpMassResL402", "Zp Mass Resolution Leading Jets 2", 100, 0, 2);
141  ZpMassResL403 = TH1F("ZpMassResL403", "Zp Mass Resolution Leading Jets 3", 100, 0, 2);
142 
143  ZpMassResRL401 = TH1F("ZpMassResRL401", "Zp Mass Res. Ratio Leading Jets 1", 100, 0, 2);
144  ZpMassResRL402 = TH1F("ZpMassResRL402", "Zp Mass Res. Ratio Leading Jets 2", 100, 0, 2);
145  ZpMassResRL403 = TH1F("ZpMassResRL403", "Zp Mass Res. Ratio Leading Jets 3", 100, 0, 2);
146 
147  ZpMassResRLoP401 = TH1F("ZpMassResRLoP401", "Zp Mass RLoP Ratio Leading Jets 1", 100, 0, 2);
148  ZpMassResRLoP402 = TH1F("ZpMassResRLoP402", "Zp Mass RLoP Ratio Leading Jets 2", 100, 0, 2);
149  ZpMassResRLoP403 = TH1F("ZpMassResRLoP403", "Zp Mass RLoP Ratio Leading Jets 3", 100, 0, 2);
150 
151  ZpMassResPRL401 = TH1F("ZpMassResPRL401", "Zp Mass Res. P Ratio Leading Jets 1", 100, 0, 2);
152  ZpMassResPRL402 = TH1F("ZpMassResPRL402", "Zp Mass Res. P Ratio Leading Jets 2", 100, 0, 2);
153  ZpMassResPRL403 = TH1F("ZpMassResPRL403", "Zp Mass Res. P Ratio Leading Jets 3", 100, 0, 2);
154 
155  dijetMass1 = TH1F("dijetMass1", "DiJet Mass 1", 100, 0, 4000);
156  dijetMass12 = TH1F("dijetMass12", "DiJet Mass 1 2", 100, 0, 6000);
157  dijetMass13 = TH1F("dijetMass13", "DiJet Mass 1 3", 100, 0, 12000);
158  dijetMass2 = TH1F("dijetMass2", "DiJet Mass 2", 100, 0, 4000);
159  dijetMass22 = TH1F("dijetMass22", "DiJet Mass 2 2", 100, 0, 6000);
160  dijetMass23 = TH1F("dijetMass23", "DiJet Mass 2 3", 100, 0, 12000);
161  dijetMass3 = TH1F("dijetMass3", "DiJet Mass 3", 100, 0, 4000);
162  dijetMass32 = TH1F("dijetMass32", "DiJet Mass 3 2", 100, 0, 6000);
163  dijetMass33 = TH1F("dijetMass33", "DiJet Mass 3 3", 100, 0, 12000);
164  dijetMass4 = TH1F("dijetMass4", "DiJet Mass 4", 100, 0, 4000);
165  dijetMass42 = TH1F("dijetMass42", "DiJet Mass 4 2", 100, 0, 6000);
166  dijetMass43 = TH1F("dijetMass43", "DiJet Mass 4 3", 100, 0, 12000);
167 
168  dijetMass101 = TH1F("dijetMass101", "DiJet Mass 1", 100, 0, 6000);
169  dijetMass131 = TH1F("dijetMass131", "DiJet Mass 1", 100, 0, 6000);
170  dijetMass401 = TH1F("dijetMass401", "DiJet Mass 1", 100, 0, 6000);
171 
172  dijetMass102 = TH1F("dijetMass102", "DiJet Mass 2", 100, 0, 6000);
173  dijetMass132 = TH1F("dijetMass132", "DiJet Mass 2", 100, 0, 6000);
174  dijetMass402 = TH1F("dijetMass402", "DiJet Mass 2", 100, 0, 6000);
175 
176  dijetMass103 = TH1F("dijetMass103", "DiJet Mass 3", 100, 0, 10000);
177  dijetMass133 = TH1F("dijetMass133", "DiJet Mass 3", 100, 0, 10000);
178  dijetMass403 = TH1F("dijetMass403", "DiJet Mass 3", 100, 0, 10000);
179 
180  dijetMass_700_101 = TH1F("dijetMass_700_101", "DiJet Mass 1", 100, 0, 1000);
181  dijetMass_700_131 = TH1F("dijetMass_700_131", "DiJet Mass 1", 100, 0, 1000);
182  dijetMass_700_401 = TH1F("dijetMass_700_401", "DiJet Mass 1", 100, 0, 1000);
183 
184  dijetMass_2000_101 = TH1F("dijetMass_2000_101", "DiJet Mass 1", 100, 1500, 2500);
185  dijetMass_2000_131 = TH1F("dijetMass_2000_131", "DiJet Mass 1", 100, 1500, 2500);
186  dijetMass_2000_401 = TH1F("dijetMass_2000_401", "DiJet Mass 1", 100, 1500, 2500);
187 
188  dijetMass_5000_101 = TH1F("dijetMass_5000_101", "DiJet Mass 1", 150, 4000, 5500);
189  dijetMass_5000_131 = TH1F("dijetMass_5000_131", "DiJet Mass 1", 150, 4000, 5500);
190  dijetMass_5000_401 = TH1F("dijetMass_5000_401", "DiJet Mass 1", 150, 4000, 5500);
191 
192  dijetMassCor1 = TH1F("dijetMassCor1", "DiJet Mass 1", 160, 0, 8000);
193  dijetMassCor101 = TH1F("dijetMassCor101", "DiJet Mass Cor 101", 160, 0, 8000);
194  dijetMassCor131 = TH1F("dijetMassCor131", "DiJet Mass Cor 131", 160, 0, 8000);
195  dijetMassCor401 = TH1F("dijetMassCor401", "DiJet Mass Cor 401", 160, 0, 8000);
196 
197  dijetMassCor_700_1 = TH1F("dijetMassCor_700_1", "DiJet Mass 1", 100, 0, 1000);
198  dijetMassCor_700_101 = TH1F("dijetMassCor_700_101", "DiJet Mass Cor 101", 100, 0, 1000);
199  dijetMassCor_700_131 = TH1F("dijetMassCor_700_131", "DiJet Mass Cor 131", 100, 0, 1000);
200  dijetMassCor_700_401 = TH1F("dijetMassCor_700_401", "DiJet Mass Cor 401", 100, 0, 1000);
201 
202  dijetMassCor_2000_1 = TH1F("dijetMassCor_2000_1", "DiJet Mass 1", 100, 1500, 2500);
203  dijetMassCor_2000_101 = TH1F("dijetMassCor_2000_101", "DiJet Mass Cor 101", 100, 1500, 2500);
204  dijetMassCor_2000_131 = TH1F("dijetMassCor_2000_131", "DiJet Mass Cor 131", 100, 1500, 2500);
205  dijetMassCor_2000_401 = TH1F("dijetMassCor_2000_401", "DiJet Mass Cor 401", 100, 1500, 2500);
206 
207  dijetMassCor_5000_1 = TH1F("dijetMassCor_5000_1", "DiJet Mass 1", 150, 4000, 5500);
208  dijetMassCor_5000_101 = TH1F("dijetMassCor_5000_101", "DiJet Mass Cor 101", 150, 4000, 5500);
209  dijetMassCor_5000_131 = TH1F("dijetMassCor_5000_131", "DiJet Mass Cor 131", 150, 4000, 5500);
210  dijetMassCor_5000_401 = TH1F("dijetMassCor_5000_401", "DiJet Mass Cor 401", 150, 4000, 5500);
211 
212  dijetMassP1 = TH1F("dijetMassP1", "DiJet Mass P 1", 160, 0, 8000);
213  dijetMassP2 = TH1F("dijetMassP2", "DiJet Mass P 2", 160, 0, 8000);
214  dijetMassP3 = TH1F("dijetMassP3", "DiJet Mass P 3", 160, 0, 8000);
215 
216  dijetMassP101 = TH1F("dijetMassP101", "DiJet Mass P 1", 160, 0, 8000);
217  dijetMassP131 = TH1F("dijetMassP131", "DiJet Mass P 1", 160, 0, 8000);
218  dijetMassP401 = TH1F("dijetMassP401", "DiJet Mass P 1", 160, 0, 8000);
219 
220  dijetMassP_700_101 = TH1F("dijetMassP_700_101", "DiJet Mass P 1", 100, 0, 1000);
221  dijetMassP_700_131 = TH1F("dijetMassP_700_131", "DiJet Mass P 1", 100, 0, 1000);
222  dijetMassP_700_401 = TH1F("dijetMassP_700_401", "DiJet Mass P 1", 100, 0, 1000);
223 
224  dijetMassP_2000_101 = TH1F("dijetMassP_2000_101", "DiJet Mass P 1", 100, 1500, 2500);
225  dijetMassP_2000_131 = TH1F("dijetMassP_2000_131", "DiJet Mass P 1", 100, 1500, 2500);
226  dijetMassP_2000_401 = TH1F("dijetMassP_2000_401", "DiJet Mass P 1", 100, 1500, 2500);
227 
228  dijetMassP_5000_101 = TH1F("dijetMassP_5000_101", "DiJet Mass P 1", 150, 4000, 5500);
229  dijetMassP_5000_131 = TH1F("dijetMassP_5000_131", "DiJet Mass P 1", 150, 4000, 5500);
230  dijetMassP_5000_401 = TH1F("dijetMassP_5000_401", "DiJet Mass P 1", 150, 4000, 5500);
231 
232  totEneLeadJetEta1_1 = TH1F("totEneLeadJetEta1_1", "Total Energy Lead Jet Eta1 1", 100, 0, 1500);
233  totEneLeadJetEta2_1 = TH1F("totEneLeadJetEta2_1", "Total Energy Lead Jet Eta2 1", 100, 0, 1500);
234  totEneLeadJetEta3_1 = TH1F("totEneLeadJetEta3_1", "Total Energy Lead Jet Eta3 1", 100, 0, 1500);
235  hadEneLeadJetEta1_1 = TH1F("hadEneLeadJetEta1_1", "Hadronic Energy Lead Jet Eta1 1", 100, 0, 1500);
236  hadEneLeadJetEta2_1 = TH1F("hadEneLeadJetEta2_1", "Hadronic Energy Lead Jet Eta2 1", 100, 0, 1500);
237  hadEneLeadJetEta3_1 = TH1F("hadEneLeadJetEta3_1", "Hadronic Energy Lead Jet Eta3 1", 100, 0, 1500);
238  emEneLeadJetEta1_1 = TH1F("emEneLeadJetEta1_1", "EM Energy Lead Jet Eta1 1", 100, 0, 1500);
239  emEneLeadJetEta2_1 = TH1F("emEneLeadJetEta2_1", "EM Energy Lead Jet Eta2 1", 100, 0, 1500);
240  emEneLeadJetEta3_1 = TH1F("emEneLeadJetEta3_1", "EM Energy Lead Jet Eta3 1", 100, 0, 1500);
241 
242  totEneLeadJetEta1_2 = TH1F("totEneLeadJetEta1_2", "Total Energy Lead Jet Eta1 2", 100, 0, 6000);
243  totEneLeadJetEta2_2 = TH1F("totEneLeadJetEta2_2", "Total Energy Lead Jet Eta2 2", 100, 0, 6000);
244  totEneLeadJetEta3_2 = TH1F("totEneLeadJetEta3_2", "Total Energy Lead Jet Eta3 2", 100, 0, 6000);
245  hadEneLeadJetEta1_2 = TH1F("hadEneLeadJetEta1_2", "Hadronic Energy Lead Jet Eta1 2", 100, 0, 6000);
246  hadEneLeadJetEta2_2 = TH1F("hadEneLeadJetEta2_2", "Hadronic Energy Lead Jet Eta2 2", 100, 0, 6000);
247  hadEneLeadJetEta3_2 = TH1F("hadEneLeadJetEta3_2", "Hadronic Energy Lead Jet Eta3 2", 100, 0, 6000);
248  emEneLeadJetEta1_2 = TH1F("emEneLeadJetEta1_2", "EM Energy Lead Jet Eta1 2", 100, 0, 5000);
249  emEneLeadJetEta2_2 = TH1F("emEneLeadJetEta2_2", "EM Energy Lead Jet Eta2 2", 100, 0, 5000);
250  emEneLeadJetEta3_2 = TH1F("emEneLeadJetEta3_2", "EM Energy Lead Jet Eta3 2", 100, 0, 5000);
251 
252  hadEneLeadJet1 = TH1F("hadEneLeadJet1", "Hadronic Energy Lead Jet 1", 100, 0, 3000);
253  hadEneLeadJet12 = TH1F("hadEneLeadJet12", "Hadronic Energy Lead Jet 1 2", 100, 0, 4000);
254  hadEneLeadJet13 = TH1F("hadEneLeadJet13", "Hadronic Energy Lead Jet 1 3", 100, 0, 6000);
255  hadEneLeadJet2 = TH1F("hadEneLeadJet2", "Hadronic Energy Lead Jet 2", 100, 0, 3000);
256  hadEneLeadJet22 = TH1F("hadEneLeadJet22", "Hadronic Energy Lead Jet 2 2", 100, 0, 4000);
257  hadEneLeadJet23 = TH1F("hadEneLeadJet23", "Hadronic Energy Lead Jet 2 3", 100, 0, 6000);
258  hadEneLeadJet3 = TH1F("hadEneLeadJet3", "Hadronic Energy Lead Jet 3", 100, 0, 3000);
259  hadEneLeadJet32 = TH1F("hadEneLeadJet32", "Hadronic Energy Lead Jet 3 2", 100, 0, 4000);
260  hadEneLeadJet33 = TH1F("hadEneLeadJet33", "Hadronic Energy Lead Jet 3 3", 100, 0, 6000);
261 
262  emEneLeadJet1 = TH1F("emEneLeadJet1", "EM Energy Lead Jet 1", 100, 0, 1500);
263  emEneLeadJet12 = TH1F("emEneLeadJet12", "EM Energy Lead Jet 1 2", 100, 0, 3000);
264  emEneLeadJet13 = TH1F("emEneLeadJet13", "EM Energy Lead Jet 1 3", 100, 0, 5000);
265  emEneLeadJet2 = TH1F("emEneLeadJet2", "EM Energy Lead Jet 2", 100, 0, 1500);
266  emEneLeadJet22 = TH1F("emEneLeadJet22", "EM Energy Lead Jet 2 2", 100, 0, 3000);
267  emEneLeadJet23 = TH1F("emEneLeadJet23", "EM Energy Lead Jet 2 3", 100, 0, 5000);
268  emEneLeadJet3 = TH1F("emEneLeadJet3", "EM Energy Lead Jet 3", 100, 0, 1500);
269  emEneLeadJet32 = TH1F("emEneLeadJet32", "EM Energy Lead Jet 3 2", 100, 0, 3000);
270  emEneLeadJet33 = TH1F("emEneLeadJet33", "EM Energy Lead Jet 3 3", 100, 0, 5000);
271 
272  hadFracEta11 = TH1F("hadFracEta11", "Hadronic Fraction Eta1 Jet 1", 100, 0, 1);
273  hadFracEta21 = TH1F("hadFracEta21", "Hadronic Fraction Eta2 Jet 1", 100, 0, 1);
274  hadFracEta31 = TH1F("hadFracEta31", "Hadronic Fraction Eta3 Jet 1", 100, 0, 1);
275 
276  hadFracEta12 = TH1F("hadFracEta12", "Hadronic Fraction Eta1 Jet 2", 100, 0, 1);
277  hadFracEta22 = TH1F("hadFracEta22", "Hadronic Fraction Eta2 Jet 2", 100, 0, 1);
278  hadFracEta32 = TH1F("hadFracEta32", "Hadronic Fraction Eta3 Jet 2", 100, 0, 1);
279 
280  hadFracEta13 = TH1F("hadFracEta13", "Hadronic Fraction Eta1 Jet 3", 100, 0, 1);
281  hadFracEta23 = TH1F("hadFracEta23", "Hadronic Fraction Eta2 Jet 3", 100, 0, 1);
282  hadFracEta33 = TH1F("hadFracEta33", "Hadronic Fraction Eta3 Jet 3", 100, 0, 1);
283 
284  hadFracLeadJet1 = TH1F("hadFracLeadJet1", "Hadronic Fraction Lead Jet 1", 100, 0, 1);
285  hadFracLeadJet2 = TH1F("hadFracLeadJet2", "Hadronic Fraction Lead Jet 2", 100, 0, 1);
286  hadFracLeadJet3 = TH1F("hadFracLeadJet3", "Hadronic Fraction Lead Jet 3", 100, 0, 1);
287 
288  SumEt1 = TH1F("SumEt1", "SumEt 1", 100, 0, 1000);
289  SumEt12 = TH1F("SumEt12", "SumEt 1 2", 100, 0, 4000);
290  SumEt13 = TH1F("SumEt13", "SumEt 1 3", 100, 0, 15000);
291 
292  MET1 = TH1F("MET1", "MET 1", 100, 0, 200);
293  MET12 = TH1F("MET12", "MET 1 2", 100, 0, 1000);
294  MET13 = TH1F("MET13", "MET 1 3", 100, 0, 3000);
295 
296  nTowersLeadJet1 = TH1F("nTowersLeadJet1", "Number of Towers Lead Jet 1", 100, 0, 100);
297  nTowersLeadJet2 = TH1F("nTowersLeadJet2", "Number of Towers Lead Jet 2", 100, 0, 100);
298  nTowersLeadJet3 = TH1F("nTowersLeadJet3", "Number of Towers Lead Jet 3", 100, 0, 100);
299 
300  nTowersSecondJet1 = TH1F("nTowersSecondJet1", "Number of Towers Second Jet 1", 100, 0, 100);
301  nTowersSecondJet2 = TH1F("nTowersSecondJet2", "Number of Towers Second Jet 2", 100, 0, 100);
302  nTowersSecondJet3 = TH1F("nTowersSecondJet3", "Number of Towers Second Jet 3", 100, 0, 100);
303 
304  hf_PtResponse1 = TProfile("PtResponse1", "Pt Response 1", 100, -5, 5, 0, 10);
305  hf_PtResponse2 = TProfile("PtResponse2", "Pt Response 2", 100, -5, 5, 0, 10);
306  hf_PtResponse3 = TProfile("PtResponse3", "Pt Response 3", 100, -5, 5, 0, 10);
307  hf_PtResponse4 = TProfile("PtResponse4", "Pt Response 4", 100, -5, 5, 0, 10);
308 
309  hf_TowerDelR1 = TProfile("hf_TowerDelR1", "Tower Del R 1", 100, 0, 2, 0, 10);
310  hf_TowerDelR12 = TProfile("hf_TowerDelR12", "Tower Del R 1", 80, 0, 0.8, 0, 10);
311  hf_TowerDelR2 = TProfile("hf_TowerDelR2", "Tower Del R 2", 100, 0, 2, 0, 10);
312  hf_TowerDelR22 = TProfile("hf_TowerDelR22", "Tower Del R 2", 80, 0, 0.8, 0, 10);
313  hf_TowerDelR3 = TProfile("hf_TowerDelR3", "Tower Del R 3", 100, 0, 2, 0, 10);
314  hf_TowerDelR32 = TProfile("hf_TowerDelR32", "Tower Del R 3", 80, 0, 0.8, 0, 10);
315 
316  hf_sumTowerAllEx = TH1F("sumTowerAllEx", "Tower Ex", 100, -1000, 1000);
317  hf_sumTowerAllEy = TH1F("sumTowerAllEy", "Tower Ey", 100, -1000, 1000);
318 
319  hf_TowerJetEt1 = TH1F("TowerJetEt1", "Tower/Jet Et 1", 50, 0, 1);
320 
321  nTowers1 = TH1F("nTowers1", "Number of Towers pt 0.5", 100, 0, 500);
322  nTowers2 = TH1F("nTowers2", "Number of Towers pt 1.0", 100, 0, 500);
323  nTowers3 = TH1F("nTowers3", "Number of Towers pt 1.5", 100, 0, 500);
324  nTowers4 = TH1F("nTowers4", "Number of Towers pt 2.0", 100, 0, 500);
325 
326  nTowersLeadJetPt1 = TH1F("nTowersLeadJetPt1", "Number of Towers in Lead Jet pt 0.5", 100, 0, 200);
327  nTowersLeadJetPt2 = TH1F("nTowersLeadJetPt2", "Number of Towers in Lead Jet pt 1.0", 100, 0, 200);
328  nTowersLeadJetPt3 = TH1F("nTowersLeadJetPt3", "Number of Towers in Lead Jet pt 1.5", 100, 0, 200);
329  nTowersLeadJetPt4 = TH1F("nTowersLeadJetPt4", "Number of Towers in Lead Jet pt 2.0", 100, 0, 200);
330 
331  TowerEtLeadJet1 = TH1F("TowerEtLeadJet1", "Towers Et Lead Jet 1", 100, 0, 2000);
332  TowerEtLeadJet12 = TH1F("TowerEtLeadJet12", "Towers Et Lead Jet 1 2", 100, 0, 6000);
333  TowerEtLeadJet13 = TH1F("TowerEtLeadJet13", "Towers Et Lead Jet 1 3", 100, 0, 300);
334  TowerEtLeadJet2 = TH1F("TowerEtLeadJet2", "Towers Et Lead Jet 2", 100, 0, 2000);
335  TowerEtLeadJet22 = TH1F("TowerEtLeadJet22", "Towers Et Lead Jet 2 2", 100, 0, 6000);
336  TowerEtLeadJet23 = TH1F("TowerEtLeadJet23", "Towers Et Lead Jet 2 3", 100, 0, 300);
337  TowerEtLeadJet3 = TH1F("TowerEtLeadJet3", "Towers Et Lead Jet 3", 100, 0, 2000);
338  TowerEtLeadJet32 = TH1F("TowerEtLeadJet32", "Towers Et Lead Jet 3 2", 100, 0, 6000);
339  TowerEtLeadJet33 = TH1F("TowerEtLeadJet33", "Towers Et Lead Jet 3 3", 100, 0, 300);
340 
341  hf_nJet1 = TProfile("hf_nJet1", "Num Jets 1", 100, 0, 5000, 0, 50);
342  hf_nJet2 = TProfile("hf_nJet2", "Num Jets 2", 100, 0, 5000, 0, 50);
343  hf_nJet3 = TProfile("hf_nJet3", "Num Jets 3", 100, 0, 5000, 0, 50);
344  hf_nJet4 = TProfile("hf_nJet4", "Num Jets 4", 100, 0, 5000, 0, 50);
345 
346  hf_nJet1s = TProfile("hf_nJet1s", "Num Jets 1", 100, 0, 200, 0, 50);
347  hf_nJet2s = TProfile("hf_nJet2s", "Num Jets 2", 100, 0, 200, 0, 50);
348  hf_nJet3s = TProfile("hf_nJet3s", "Num Jets 3", 100, 0, 200, 0, 50);
349  hf_nJet4s = TProfile("hf_nJet4s", "Num Jets 4", 100, 0, 200, 0, 50);
350 
351  hf_nJet11 = TProfile("hf_nJet11", "Num Jets 1 1", 100, 0, 3000, 0, 50);
352  hf_nJet21 = TProfile("hf_nJet21", "Num Jets 2 1", 100, 0, 3000, 0, 50);
353  hf_nJet31 = TProfile("hf_nJet31", "Num Jets 3 1", 100, 0, 3000, 0, 50);
354  hf_nJet41 = TProfile("hf_nJet41", "Num Jets 4 1", 100, 0, 3000, 0, 50);
355 
356  dRPar1 = TH1F("dRPar1", "Parton dR with matched CaloJet1", 100, 0, 0.5);
357  dPhiPar1 = TH1F("dPhiPar1", "Parton dPhi with matched CaloJet1", 200, -0.5, 0.5);
358  dEtaPar1 = TH1F("dEtaPar1", "Parton dEta with matched CaloJet1", 200, -0.5, 0.5);
359  dPtPar1 = TH1F("dPtPar1", "Parton dPt with matched CaloJet1", 200, -50, 50);
360 
361  dRPar2 = TH1F("dRPar2", "Parton dR with matched CaloJet2", 100, 0, 0.5);
362  dPhiPar2 = TH1F("dPhiPar2", "Parton dPhi with matched CaloJet2", 200, -0.5, 0.5);
363  dEtaPar2 = TH1F("dEtaPar2", "Parton dEta with matched CaloJet2", 200, -0.5, 0.5);
364  dPtPar2 = TH1F("dPtPar2", "Parton dPt with matched CaloJet2", 200, -50, 50);
365 
366  dRPar3 = TH1F("dRPar3", "Parton dR with matched CaloJet3", 100, 0, 0.5);
367  dPhiPar3 = TH1F("dPhiPar3", "Parton dPhi with matched CaloJet3", 200, -0.5, 0.5);
368  dEtaPar3 = TH1F("dEtaPar3", "Parton dEta with matched CaloJet3", 200, -0.5, 0.5);
369  dPtPar3 = TH1F("dPtPar3", "Parton dPt with matched CaloJet3", 200, -50, 50);
370 
371  dRPar4 = TH1F("dRPar4", "Parton dR with matched CaloJet4", 100, 0, 0.5);
372  dPhiPar4 = TH1F("dPhiPar4", "Parton dPhi with matched CaloJet4", 200, -0.5, 0.5);
373  dEtaPar4 = TH1F("dEtaPar4", "Parton dEta with matched CaloJet4", 200, -0.5, 0.5);
374  dPtPar4 = TH1F("dPtPar4", "Parton dPt with matched CaloJet4", 200, -50, 50);
375 
376  dRParton = TH1F("dRParton", "dR Parton", 100, 0, 10.0);
377  dRPartonMin = TH1F("dRPartonMin", "Min dR Parton", 100, 0, 2.0);
378 
379  dR1 = TH1F("dR1", "GenJets dR with matched CaloJet", 100, 0, 0.5);
380  dPhi1 = TH1F("dPhi1", "GenJets dPhi with matched CaloJet", 200, -0.5, 0.5);
381  dEta1 = TH1F("dEta1", "GenJets dEta with matched CaloJet", 200, -0.5, 0.5);
382  dPt1 = TH1F("dPt1", "GenJets dPt with matched CaloJet", 200, -100, 100);
383  dPtFrac1 = TH1F("dPtFrac1", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
384  dPt20Frac1 = TH1F("dPt20Frac1", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
385  dPt40Frac1 = TH1F("dPt40Frac1", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
386  dPt80Frac1 = TH1F("dPt80Frac1", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
387  dPt100Frac1 = TH1F("dPt100Frac1", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
388 
389  dR2 = TH1F("dR2", "GenJets dR with matched CaloJet", 100, 0, 0.5);
390  dPhi2 = TH1F("dPhi2", "GenJets dPhi with matched CaloJet", 200, -0.5, 0.5);
391  dEta2 = TH1F("dEta2", "GenJets dEta with matched CaloJet", 200, -0.5, 0.5);
392  dPt2 = TH1F("dPt2", "GenJets dPt with matched CaloJet", 200, -100, 100);
393  dPtFrac2 = TH1F("dPtFrac2", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
394  dPt20Frac2 = TH1F("dPt20Frac2", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
395  dPt40Frac2 = TH1F("dPt40Frac2", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
396  dPt80Frac2 = TH1F("dPt80Frac2", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
397  dPt100Frac2 = TH1F("dPt100Frac2", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
398 
399  dR3 = TH1F("dR3", "GenJets dR with matched CaloJet", 100, 0, 0.5);
400  dPhi3 = TH1F("dPhi3", "GenJets dPhi with matched CaloJet", 200, -0.5, 0.5);
401  dEta3 = TH1F("dEta3", "GenJets dEta with matched CaloJet", 200, -0.5, 0.5);
402  dPt3 = TH1F("dPt3", "GenJets dPt with matched CaloJet", 200, -100, 100);
403  dPtFrac3 = TH1F("dPtFrac3", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
404  dPt20Frac3 = TH1F("dPt20Frac3", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
405  dPt40Frac3 = TH1F("dPt40Frac3", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
406  dPt80Frac3 = TH1F("dPt80Frac3", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
407  dPt100Frac3 = TH1F("dPt100Frac3", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
408 
409  dR4 = TH1F("dR4", "GenJets dR with matched CaloJet", 100, 0, 0.5);
410  dPhi4 = TH1F("dPhi4", "GenJets dPhi with matched CaloJet", 200, -0.5, 0.5);
411  dEta4 = TH1F("dEta4", "GenJets dEta with matched CaloJet", 200, -0.5, 0.5);
412  dPt4 = TH1F("dPt4", "GenJets dPt with matched CaloJet", 200, -100, 100);
413  dPtFrac4 = TH1F("dPtFrac4", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
414  dPt20Frac4 = TH1F("dPt20Frac4", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
415  dPt40Frac4 = TH1F("dPt40Frac4", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
416  dPt80Frac4 = TH1F("dPt80Frac4", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
417  dPt100Frac4 = TH1F("dPt100Frac4", "GenJets dPt frac with matched CaloJet", 100, -1, 1);
418 
419  dR12 = TH1F("dR12", "dR MidPoint - SISCone", 100, 0, 0.5);
420  dPhi12 = TH1F("dPhi12", "dPhi MidPoint - SISCone", 200, -0.5, 0.5);
421  dEta12 = TH1F("dEta12", "dEta MidPoint - SISCone", 200, -0.5, 0.5);
422  dPt12 = TH1F("dPt12", "dPt MidPoint - SISCone", 200, -100, 100);
423 
424  h_nCalJets1 = TH1F("nCalJets1", "Number of CalJets1", 20, 0, 20);
425  h_nCalJets2 = TH1F("nCalJets2", "Number of CalJets2", 20, 0, 20);
426  h_nCalJets3 = TH1F("nCalJets3", "Number of CalJets3", 20, 0, 20);
427  h_nCalJets4 = TH1F("nCalJets4", "Number of CalJets4", 20, 0, 20);
428 
429  h_lowPtCal11 = TH1F("lowPtCal11", "Low p_{T} of CalJet1 Eta1", 100, 0, 100);
430  h_lowPtCal21 = TH1F("lowPtCal21", "Low p_{T} of CalJet2 Eta1", 100, 0, 100);
431  h_lowPtCal31 = TH1F("lowPtCal31", "Low p_{T} of CalJet3 Eta1", 100, 0, 100);
432  h_lowPtCal41 = TH1F("lowPtCal41", "Low p_{T} of CalJet4 Eta1", 100, 0, 100);
433 
434  h_lowPtCal12 = TH1F("lowPtCal12", "Low p_{T} of CalJet1 Eta2", 100, 0, 100);
435  h_lowPtCal22 = TH1F("lowPtCal22", "Low p_{T} of CalJet2 Eta2", 100, 0, 100);
436  h_lowPtCal32 = TH1F("lowPtCal32", "Low p_{T} of CalJet3 Eta2", 100, 0, 100);
437  h_lowPtCal42 = TH1F("lowPtCal42", "Low p_{T} of CalJet4 Eta2", 100, 0, 100);
438 
439  h_lowPtCal13 = TH1F("lowPtCal13", "Low p_{T} of CalJet1 Eta3", 100, 0, 100);
440  h_lowPtCal23 = TH1F("lowPtCal23", "Low p_{T} of CalJet2 Eta3", 100, 0, 100);
441  h_lowPtCal33 = TH1F("lowPtCal33", "Low p_{T} of CalJet3 Eta3", 100, 0, 100);
442  h_lowPtCal43 = TH1F("lowPtCal43", "Low p_{T} of CalJet4 Eta3", 100, 0, 100);
443 
444  h_lowPtCal1c11 = TH1F("lowPtCal1c11", "Low p_{T} of CalJet1 c1 Eta1", 100, 0, 100);
445  h_lowPtCal2c11 = TH1F("lowPtCal2c11", "Low p_{T} of CalJet2 c1 Eta1", 100, 0, 100);
446  h_lowPtCal3c11 = TH1F("lowPtCal3c11", "Low p_{T} of CalJet3 c1 Eta1", 100, 0, 100);
447  h_lowPtCal4c11 = TH1F("lowPtCal4c11", "Low p_{T} of CalJet4 c1 Eta1", 100, 0, 100);
448 
449  h_lowPtCal1c12 = TH1F("lowPtCal1c12", "Low p_{T} of CalJet1 c1 Eta2", 100, 0, 100);
450  h_lowPtCal2c12 = TH1F("lowPtCal2c12", "Low p_{T} of CalJet2 c1 Eta2", 100, 0, 100);
451  h_lowPtCal3c12 = TH1F("lowPtCal3c12", "Low p_{T} of CalJet3 c1 Eta2", 100, 0, 100);
452  h_lowPtCal4c12 = TH1F("lowPtCal4c12", "Low p_{T} of CalJet4 c1 Eta2", 100, 0, 100);
453 
454  h_lowPtCal1c13 = TH1F("lowPtCal1c13", "Low p_{T} of CalJet1 c1 Eta3", 100, 0, 100);
455  h_lowPtCal2c13 = TH1F("lowPtCal2c13", "Low p_{T} of CalJet2 c1 Eta3", 100, 0, 100);
456  h_lowPtCal3c13 = TH1F("lowPtCal3c13", "Low p_{T} of CalJet3 c1 Eta3", 100, 0, 100);
457  h_lowPtCal4c13 = TH1F("lowPtCal4c13", "Low p_{T} of CalJet4 c1 Eta3", 100, 0, 100);
458 
459  matchedAllPt11 = TH1F("matchedAllPt11", "p_{T} of CalJet1 Eta1", 50, 0, 250);
460  matchedAllPt12 = TH1F("matchedAllPt12", "p_{T} of CalJet1 Eta2", 50, 0, 250);
461  matchedAllPt13 = TH1F("matchedAllPt13", "p_{T} of CalJet1 Eta3", 50, 0, 250);
462  matchedPt11 = TH1F("matchedPt11", "p_{T} of CalJet1 Eta1", 50, 0, 250);
463  matchedPt12 = TH1F("matchedPt12", "p_{T} of CalJet1 Eta2", 50, 0, 250);
464  matchedPt13 = TH1F("matchedPt13", "p_{T} of CalJet1 Eta3", 50, 0, 250);
465 
466  matchedAllPt21 = TH1F("matchedAllPt21", "p_{T} of CalJet2 Eta1", 50, 0, 250);
467  matchedAllPt22 = TH1F("matchedAllPt22", "p_{T} of CalJet2 Eta2", 50, 0, 250);
468  matchedAllPt23 = TH1F("matchedAllPt23", "p_{T} of CalJet2 Eta3", 50, 0, 250);
469  matchedPt21 = TH1F("matchedPt21", "p_{T} of CalJet2 Eta1", 50, 0, 250);
470  matchedPt22 = TH1F("matchedPt22", "p_{T} of CalJet2 Eta2", 50, 0, 250);
471  matchedPt23 = TH1F("matchedPt23", "p_{T} of CalJet2 Eta3", 50, 0, 250);
472 
473  matchedAllPt31 = TH1F("matchedAllPt31", "p_{T} of CalJet3 Eta1", 50, 0, 250);
474  matchedAllPt32 = TH1F("matchedAllPt32", "p_{T} of CalJet3 Eta2", 50, 0, 250);
475  matchedAllPt33 = TH1F("matchedAllPt33", "p_{T} of CalJet3 Eta3", 50, 0, 250);
476  matchedPt31 = TH1F("matchedPt31", "p_{T} of CalJet3 Eta1", 50, 0, 250);
477  matchedPt32 = TH1F("matchedPt32", "p_{T} of CalJet3 Eta2", 50, 0, 250);
478  matchedPt33 = TH1F("matchedPt33", "p_{T} of CalJet3 Eta3", 50, 0, 250);
479 
480  matchedAllPt41 = TH1F("matchedAllPt41", "p_{T} of CalJet4 Eta1", 50, 0, 250);
481  matchedAllPt42 = TH1F("matchedAllPt42", "p_{T} of CalJet4 Eta2", 50, 0, 250);
482  matchedAllPt43 = TH1F("matchedAllPt43", "p_{T} of CalJet4 Eta3", 50, 0, 250);
483  matchedPt41 = TH1F("matchedPt41", "p_{T} of CalJet4 Eta1", 50, 0, 250);
484  matchedPt42 = TH1F("matchedPt42", "p_{T} of CalJet4 Eta2", 50, 0, 250);
485  matchedPt43 = TH1F("matchedPt43", "p_{T} of CalJet4 Eta3", 50, 0, 250);
486 
487  h_ptCal1 = TH1F("ptCal1", "p_{T} of CalJet1", 50, 0, 1000);
488  h_ptCal12 = TH1F("ptCal12", "p_{T} of CalJet1 2", 50, 0, 6000);
489  h_ptCal13 = TH1F("ptCal13", "p_{T} of CalJet1 2", 50, 0, 300);
490 
491  h_ptCal2 = TH1F("ptCal2", "p_{T} of CalJet2", 50, 0, 1000);
492  h_ptCal22 = TH1F("ptCal22", "p_{T} of CalJet2 2", 50, 0, 6000);
493  h_ptCal23 = TH1F("ptCal23", "p_{T} of CalJet2 2", 50, 0, 300);
494 
495  h_ptCal3 = TH1F("ptCal3", "p_{T} of CalJet3", 50, 0, 1000);
496  h_ptCal32 = TH1F("ptCal32", "p_{T} of CalJet3 2", 50, 0, 6000);
497  h_ptCal33 = TH1F("ptCal33", "p_{T} of CalJet3 2", 50, 0, 300);
498 
499  h_ptCal4 = TH1F("ptCal4", "p_{T} of CalJet4", 50, 0, 1000);
500  h_ptCal42 = TH1F("ptCal42", "p_{T} of CalJet4 2", 50, 0, 6000);
501  h_ptCal43 = TH1F("ptCal43", "p_{T} of CalJet4 2", 50, 0, 300);
502 
503  h_etaCal1 = TH1F("etaCal1", "#eta of CalJet1", 100, -4, 4);
504  h_etaCal2 = TH1F("etaCal2", "#eta of CalJet2", 100, -4, 4);
505  h_etaCal3 = TH1F("etaCal3", "#eta of CalJet3", 100, -4, 4);
506  h_etaCal4 = TH1F("etaCal4", "#eta of CalJet4", 100, -4, 4);
507 
508  h_phiCal1 = TH1F("phiCal1", "#phi of CalJet1", 50, -M_PI, M_PI);
509  h_phiCal2 = TH1F("phiCal2", "#phi of CalJet2", 50, -M_PI, M_PI);
510  h_phiCal3 = TH1F("phiCal3", "#phi of CalJet3", 50, -M_PI, M_PI);
511  h_phiCal4 = TH1F("phiCal4", "#phi of CalJet4", 50, -M_PI, M_PI);
512 
513  h_ptCalL1 = TH1F("ptCalL1", "p_{T} of CalJetL1", 50, 0, 300);
514  h_ptCalL12 = TH1F("ptCalL12", "p_{T} of CalJetL1 2", 50, 0, 1200);
515  h_ptCalL13 = TH1F("ptCalL13", "p_{T} of CalJetL1 3", 50, 0, 6000);
516  h_ptCalL2 = TH1F("ptCalL2", "p_{T} of CalJetL2", 50, 0, 300);
517  h_ptCalL22 = TH1F("ptCalL22", "p_{T} of CalJetL2 2", 50, 0, 1200);
518  h_ptCalL23 = TH1F("ptCalL23", "p_{T} of CalJetL2 3", 50, 0, 6000);
519  h_ptCalL3 = TH1F("ptCalL3", "p_{T} of CalJetL3", 50, 0, 300);
520  h_ptCalL32 = TH1F("ptCalL32", "p_{T} of CalJetL3 2", 50, 0, 1200);
521  h_ptCalL33 = TH1F("ptCalL33", "p_{T} of CalJetL3 3", 50, 0, 6000);
522  h_ptCalL4 = TH1F("ptCalL4", "p_{T} of CalJetL4", 50, 0, 300);
523  h_ptCalL42 = TH1F("ptCalL42", "p_{T} of CalJetL4 2", 50, 0, 1200);
524  h_ptCalL43 = TH1F("ptCalL43", "p_{T} of CalJetL4 3", 50, 0, 6000);
525 
526  h_etaCalL1 = TH1F("etaCalL1", "#eta of CalJetL1", 100, -4, 4);
527  h_etaCalL2 = TH1F("etaCalL2", "#eta of CalJetL2", 100, -4, 4);
528  h_etaCalL3 = TH1F("etaCalL3", "#eta of CalJetL3", 100, -4, 4);
529  h_etaCalL4 = TH1F("etaCalL4", "#eta of CalJetL4", 100, -4, 4);
530  h_phiCalL1 = TH1F("phiCalL1", "#phi of CalJetL1", 50, -M_PI, M_PI);
531  h_phiCalL2 = TH1F("phiCalL2", "#phi of CalJetL2", 50, -M_PI, M_PI);
532  h_phiCalL3 = TH1F("phiCalL3", "#phi of CalJetL3", 50, -M_PI, M_PI);
533  h_phiCalL4 = TH1F("phiCalL4", "#phi of CalJetL4", 50, -M_PI, M_PI);
534 
535  h_nGenJets1 = TH1F("nGenJets1", "Number of GenJets1", 20, 0, 20);
536  h_nGenJets2 = TH1F("nGenJets2", "Number of GenJets2", 20, 0, 20);
537  h_nGenJets3 = TH1F("nGenJets3", "Number of GenJets3", 20, 0, 20);
538  h_nGenJets4 = TH1F("nGenJets4", "Number of GenJets4", 20, 0, 20);
539 
540  h_ptGen1 = TH1F("ptGen1", "p_{T} of GenJet1", 50, 0, 1000);
541  h_ptGen12 = TH1F("ptGen12", "p_{T} of GenJet1 2", 50, 0, 6000);
542  h_ptGen13 = TH1F("ptGen13", "p_{T} of GenJet1 3", 50, 0, 300);
543 
544  h_ptGen2 = TH1F("ptGen2", "p_{T} of GenJet2", 50, 0, 1000);
545  h_ptGen22 = TH1F("ptGen22", "p_{T} of GenJet2 2", 50, 0, 6000);
546  h_ptGen23 = TH1F("ptGen23", "p_{T} of GenJet2 3", 50, 0, 300);
547 
548  h_ptGen3 = TH1F("ptGen3", "p_{T} of GenJet3", 50, 0, 1000);
549  h_ptGen32 = TH1F("ptGen32", "p_{T} of GenJet3 2", 50, 0, 6000);
550  h_ptGen33 = TH1F("ptGen33", "p_{T} of GenJet3 3", 50, 0, 300);
551 
552  h_ptGen4 = TH1F("ptGen4", "p_{T} of GenJet4", 50, 0, 1000);
553  h_ptGen42 = TH1F("ptGen42", "p_{T} of GenJet4 2", 50, 0, 6000);
554  h_ptGen43 = TH1F("ptGen43", "p_{T} of GenJet4 3", 50, 0, 300);
555 
556  h_etaGen1 = TH1F("etaGen1", "#eta of GenJet1", 100, -4, 4);
557  h_etaGen2 = TH1F("etaGen2", "#eta of GenJet2", 100, -4, 4);
558  h_etaGen3 = TH1F("etaGen3", "#eta of GenJet3", 100, -4, 4);
559  h_phiGen1 = TH1F("phiGen1", "#phi of GenJet1", 50, -M_PI, M_PI);
560  h_phiGen2 = TH1F("phiGen2", "#phi of GenJet2", 50, -M_PI, M_PI);
561  h_phiGen3 = TH1F("phiGen3", "#phi of GenJet3", 50, -M_PI, M_PI);
562 
563  h_ptGenL1 = TH1F("ptGenL1", "p_{T} of GenJetL1", 50, 0, 300);
564  h_ptGenL12 = TH1F("ptGenL12", "p_{T} of GenJetL1 2", 50, 0, 1200);
565  h_ptGenL13 = TH1F("ptGenL13", "p_{T} of GenJetL1 3", 50, 0, 6000);
566  h_ptGenL2 = TH1F("ptGenL2", "p_{T} of GenJetL2", 50, 0, 300);
567  h_ptGenL22 = TH1F("ptGenL22", "p_{T} of GenJetL2 2", 50, 0, 1200);
568  h_ptGenL23 = TH1F("ptGenL23", "p_{T} of GenJetL2 3", 50, 0, 6000);
569  h_ptGenL3 = TH1F("ptGenL3", "p_{T} of GenJetL3", 50, 0, 300);
570  h_ptGenL32 = TH1F("ptGenL32", "p_{T} of GenJetL32", 50, 0, 1200);
571  h_ptGenL33 = TH1F("ptGenL33", "p_{T} of GenJetL33", 50, 0, 6000);
572 
573  h_etaGenL1 = TH1F("etaGenL1", "#eta of GenJetL1", 100, -4, 4);
574  h_etaGenL2 = TH1F("etaGenL2", "#eta of GenJetL2", 100, -4, 4);
575  h_etaGenL3 = TH1F("etaGenL3", "#eta of GenJetL3", 100, -4, 4);
576  h_phiGenL1 = TH1F("phiGenL1", "#phi of GenJetL1", 50, -M_PI, M_PI);
577  h_phiGenL2 = TH1F("phiGenL2", "#phi of GenJetL2", 50, -M_PI, M_PI);
578  h_phiGenL3 = TH1F("phiGenL3", "#phi of GenJetL3", 50, -M_PI, M_PI);
579 
580  h_jetEt1 = TH1F("jetEt1", "Total Jet Et", 100, 0, 3000);
581  h_jetEt2 = TH1F("jetEt2", "Total Jet Et", 100, 0, 3000);
582  h_jetEt3 = TH1F("jetEt3", "Total Jet Et", 100, 0, 3000);
583 
584  h_jet1Pt1 = TH1F("jet1Pt1", "Jet Pt", 100, 0, 3000);
585  h_jet2Pt1 = TH1F("jet2Pt1", "Jet Pt", 100, 0, 3000);
586  h_jet3Pt1 = TH1F("jet3Pt1", "Jet Pt", 100, 0, 3000);
587  h_jet4Pt1 = TH1F("jet4Pt1", "Jet Pt", 100, 0, 3000);
588  h_jet5Pt1 = TH1F("jet5Pt1", "Jet Pt", 100, 0, 3000);
589  h_jet6Pt1 = TH1F("jet6Pt1", "Jet Pt", 100, 0, 3000);
590  h_jet7Pt1 = TH1F("jet7Pt1", "Jet Pt", 100, 0, 3000);
591 
592  h_jet1Pt2 = TH1F("jet1Pt2", "Jet Pt", 100, 0, 3000);
593  h_jet2Pt2 = TH1F("jet2Pt2", "Jet Pt", 100, 0, 3000);
594  h_jet3Pt2 = TH1F("jet3Pt2", "Jet Pt", 100, 0, 3000);
595  h_jet4Pt2 = TH1F("jet4Pt2", "Jet Pt", 100, 0, 3000);
596  h_jet5Pt2 = TH1F("jet5Pt2", "Jet Pt", 100, 0, 3000);
597  h_jet6Pt2 = TH1F("jet6Pt2", "Jet Pt", 100, 0, 3000);
598  h_jet7Pt2 = TH1F("jet7Pt2", "Jet Pt", 100, 0, 3000);
599 
600  h_jet1Pt3 = TH1F("jet1Pt3", "Jet Pt", 100, 0, 3000);
601  h_jet2Pt3 = TH1F("jet2Pt3", "Jet Pt", 100, 0, 3000);
602  h_jet3Pt3 = TH1F("jet3Pt3", "Jet Pt", 100, 0, 3000);
603  h_jet4Pt3 = TH1F("jet4Pt3", "Jet Pt", 100, 0, 3000);
604  h_jet5Pt3 = TH1F("jet5Pt3", "Jet Pt", 100, 0, 3000);
605  h_jet6Pt3 = TH1F("jet6Pt3", "Jet Pt", 100, 0, 3000);
606  h_jet7Pt3 = TH1F("jet7Pt3", "Jet Pt", 100, 0, 3000);
607 
608  h_jet1Pt4 = TH1F("jet1Pt4", "Jet Pt", 100, 0, 3000);
609  h_jet2Pt4 = TH1F("jet2Pt4", "Jet Pt", 100, 0, 3000);
610  h_jet3Pt4 = TH1F("jet3Pt4", "Jet Pt", 100, 0, 3000);
611  h_jet4Pt4 = TH1F("jet4Pt4", "Jet Pt", 100, 0, 3000);
612  h_jet5Pt4 = TH1F("jet5Pt4", "Jet Pt", 100, 0, 3000);
613  h_jet6Pt4 = TH1F("jet6Pt4", "Jet Pt", 100, 0, 3000);
614  h_jet7Pt4 = TH1F("jet7Pt4", "Jet Pt", 100, 0, 3000);
615 
616  h_totMissEt1 = TH1F("totMissEt1", "Total Unclustered Et", 100, 0, 500);
617  h_totMissEt2 = TH1F("totMissEt2", "Total Unclustered Et", 100, 0, 500);
618  h_totMissEt3 = TH1F("totMissEt3", "Total Unclustered Et", 100, 0, 500);
619 
620  h_missEt1 = TH1F("missEt1", "Unclustered Et", 100, 0, 50);
621  h_missEt2 = TH1F("missEt2", "Unclustered Et", 100, 0, 50);
622  h_missEt3 = TH1F("missEt3", "Unclustered Et", 100, 0, 50);
623 
624  h_missEt1s = TH1F("missEt1s", "Unclustered Et", 100, 0, 2);
625  h_missEt2s = TH1F("missEt2s", "Unclustered Et", 100, 0, 2);
626  h_missEt3s = TH1F("missEt3s", "Unclustered Et", 100, 0, 2);
627 
628  ParMatch1 = TH1F("ParMatch1", "Number of Matched Jets 1", 10, 0, 10);
629  ParMatch2 = TH1F("ParMatch2", "Number of Matched Jets 2", 10, 0, 10);
630  ParMatch3 = TH1F("ParMatch3", "Number of Matched Jets 3", 10, 0, 10);
631 }
632 
633 void myFastSimVal::analyze(const Event& evt, const EventSetup& es) {
634  int EtaOk10, EtaOk13, EtaOk40;
635 
636  double ZpM, ZpMG, ZpMM;
637  double LeadMass1, LeadMass2, LeadMass3, LeadMass4;
638  double LeadMassP1, LeadMassP2, LeadMassP3;
639 
640  float minJetPt = 30.;
641  float minJetPt10 = 10.;
642  int jetInd, allJetInd;
643  int usedInd = -1;
644  // double matchedDelR = 0.1;
645  double matchedDelR = 0.3;
646 
647  ZpMG = 0;
648  LeadMass1 = -1;
649  LeadMass2 = -1;
650  LeadMass3 = -1;
651 
652  math::XYZTLorentzVector p4tmp[2], p4cortmp[2];
653  nEvent++;
654 
655  // ********************************
656  // **** Get the CaloJet1 collection
657  // ********************************
658 
659  Handle<CaloJetCollection> caloJets1;
660  evt.getByLabel(CaloJetAlgorithm1, caloJets1);
661 
662  // Count Jets above Pt cut
663  for (int istep = 0; istep < 100; ++istep) {
664  int njet = 0;
665  float ptStep = (istep * (5000. / 100.));
666  for (CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++cal) {
667  if (cal->pt() > ptStep)
668  njet++;
669  }
670 
671  hf_nJet1.Fill(ptStep, njet);
672  }
673 
674  // Count Jets above Pt cut
675  for (int istep = 0; istep < 100; ++istep) {
676  int njet = 0;
677  float ptStep = (istep * (200. / 100.));
678  for (CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++cal) {
679  if (cal->pt() > ptStep)
680  njet++;
681  }
682 
683  hf_nJet1s.Fill(ptStep, njet);
684  }
685 
686  // Count Jets above Pt cut
687  for (int istep = 0; istep < 100; ++istep) {
688  int njet = 0;
689  float ptStep = (istep * (3000. / 100.));
690  for (CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++cal) {
691  if (cal->pt() > ptStep)
692  njet++;
693  }
694 
695  hf_nJet11.Fill(ptStep, njet);
696  }
697 
698  //Loop over the two leading CaloJets and fill some histograms
699  jetInd = 0;
700  allJetInd = 0;
701  EtaOk10 = 0;
702  EtaOk13 = 0;
703  EtaOk40 = 0;
704 
705  double highestPt;
706  double nextPt;
707 
708  highestPt = 0.0;
709  nextPt = 0.0;
710 
711  for (CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++cal) {
712  // double scale = corrector->correction (*cal);
713  double scale = 1.0;
714  double corPt = scale * cal->pt();
715  // double corPt = cal->pt();
716 
717  if (corPt > highestPt) {
718  nextPt = highestPt;
719  p4cortmp[1] = p4cortmp[0];
720  highestPt = corPt;
721  p4cortmp[0] = scale * cal->p4();
722  } else if (corPt > nextPt) {
723  nextPt = corPt;
724  p4cortmp[1] = scale * cal->p4();
725  }
726 
727  /***
728  std::cout << ">>> Corr Jet: corPt = "
729  << corPt << ", scale = " << scale
730  << " pt = " << cal->pt()
731  << " highestPt = " << highestPt
732  << " nextPt = " << nextPt
733  << std::endl;
734  ****/
735 
736  allJetInd++;
737  if (allJetInd == 1) {
738  h_jet1Pt1.Fill(cal->pt());
739  p4tmp[0] = cal->p4();
740  if (fabs(cal->eta()) < 1.0)
741  EtaOk10++;
742  if (fabs(cal->eta()) < 1.3)
743  EtaOk13++;
744  if (fabs(cal->eta()) < 4.0)
745  EtaOk40++;
746  }
747  if (allJetInd == 2) {
748  h_jet2Pt1.Fill(cal->pt());
749  p4tmp[1] = cal->p4();
750  if (fabs(cal->eta()) < 1.0)
751  EtaOk10++;
752  if (fabs(cal->eta()) < 1.3)
753  EtaOk13++;
754  if (fabs(cal->eta()) < 4.0)
755  EtaOk40++;
756  }
757  if ((allJetInd == 1) || (allJetInd == 2)) {
758  h_ptCalL1.Fill(cal->pt());
759  h_ptCalL12.Fill(cal->pt());
760  h_ptCalL13.Fill(cal->pt());
761 
762  h_etaCalL1.Fill(cal->eta());
763  h_phiCalL1.Fill(cal->phi());
764  }
765 
766  if (allJetInd == 3)
767  h_jet3Pt1.Fill(cal->pt());
768  if (allJetInd == 4)
769  h_jet4Pt1.Fill(cal->pt());
770  if (allJetInd == 5)
771  h_jet5Pt1.Fill(cal->pt());
772  if (allJetInd == 6)
773  h_jet6Pt1.Fill(cal->pt());
774  if (allJetInd == 7)
775  h_jet7Pt1.Fill(cal->pt());
776 
777  if (fabs(cal->eta()) < 1.3) {
778  h_lowPtCal11.Fill(cal->pt());
779  if (cal->pt() > 10.) {
780  h_lowPtCal1c11.Fill(cal->pt());
781  }
782  }
783  if ((fabs(cal->eta()) > 1.3) && (fabs(cal->eta()) < 3.)) {
784  h_lowPtCal12.Fill(cal->pt());
785  if (cal->pt() > 10.) {
786  h_lowPtCal1c12.Fill(cal->pt());
787  }
788  }
789  if (fabs(cal->eta()) > 3.0) {
790  h_lowPtCal13.Fill(cal->pt());
791  if (cal->pt() > 10.) {
792  h_lowPtCal1c13.Fill(cal->pt());
793  }
794  }
795 
796  if (cal->pt() > minJetPt) {
797  // std::cout << "CALO JET1 #" << jetInd << std::endl << cal->print() << std::endl;
798  h_ptCal1.Fill(cal->pt());
799  h_ptCal12.Fill(cal->pt());
800  h_ptCal13.Fill(cal->pt());
801 
802  h_etaCal1.Fill(cal->eta());
803  h_phiCal1.Fill(cal->phi());
804  jetInd++;
805  }
806  }
807 
808  // h_nCalJets1.Fill( caloJets1->size() );
809  h_nCalJets1.Fill(jetInd);
810  if (jetInd > 1) {
811  LeadMass1 = (p4tmp[0] + p4tmp[1]).mass();
812  dijetMass1.Fill(LeadMass1);
813  dijetMass12.Fill(LeadMass1);
814  dijetMass13.Fill(LeadMass1);
815  if (EtaOk10 == 2) {
816  dijetMass101.Fill(LeadMass1);
817  dijetMass102.Fill(LeadMass1);
818  dijetMass103.Fill(LeadMass1);
819  dijetMass_700_101.Fill(LeadMass1);
820  dijetMass_2000_101.Fill(LeadMass1);
821  dijetMass_5000_101.Fill(LeadMass1);
822  }
823  if (EtaOk13 == 2) {
824  dijetMass131.Fill(LeadMass1);
825  dijetMass132.Fill(LeadMass1);
826  dijetMass133.Fill(LeadMass1);
827  dijetMass_700_131.Fill(LeadMass1);
828  dijetMass_2000_131.Fill(LeadMass1);
829  dijetMass_5000_131.Fill(LeadMass1);
830  }
831  if (EtaOk40 == 2) {
832  dijetMass401.Fill(LeadMass1);
833  dijetMass402.Fill(LeadMass1);
834  dijetMass403.Fill(LeadMass1);
835  dijetMass_700_401.Fill(LeadMass1);
836  dijetMass_2000_401.Fill(LeadMass1);
837  dijetMass_5000_401.Fill(LeadMass1);
838  }
839 
840  LeadMass1 = (p4cortmp[0] + p4cortmp[1]).mass();
841 
842  /****
843  if (LeadMass1 < 30.) {
844  std::cout << " XXX Low Mass "
845  << (p4tmp[0]+p4tmp[1]).mass()
846  << " / "
847  << (p4cortmp[0]+p4cortmp[1]).mass()
848  << std::endl;
849 
850  std::cout << " p4 1 = " << p4tmp[0]
851  << " p4 2 = " << p4tmp[1]
852  << " p4 cor 1 = " << p4cortmp[0]
853  << " p4 cor 2 = " << p4cortmp[0]
854  << endl;
855 
856  }
857  ****/
858 
859  /****
860  dijetMassCor1.Fill( LeadMass1 );
861  dijetMassCor_700_1.Fill( LeadMass1 );
862  dijetMassCor_2000_1.Fill( LeadMass1 );
863  dijetMassCor_5000_1.Fill( LeadMass1 );
864 
865  if (EtaOk10 == 2) {
866  dijetMassCor101.Fill( LeadMass1 );
867  dijetMassCor_700_101.Fill( LeadMass1 );
868  dijetMassCor_2000_101.Fill( LeadMass1 );
869  dijetMassCor_5000_101.Fill( LeadMass1 );
870  }
871  if (EtaOk13 == 2) {
872  dijetMassCor131.Fill( LeadMass1 );
873  dijetMassCor_700_131.Fill( LeadMass1 );
874  dijetMassCor_2000_131.Fill( LeadMass1 );
875  dijetMassCor_5000_131.Fill( LeadMass1 );
876  }
877  if (EtaOk40 == 2) {
878  dijetMassCor401.Fill( LeadMass1 );
879  dijetMassCor_700_401.Fill( LeadMass1 );
880  dijetMassCor_2000_401.Fill( LeadMass1 );
881  dijetMassCor_5000_401.Fill( LeadMass1 );
882  }
883  ****/
884  }
885 
886  // ********************************
887  // **** Get the CaloJet2 collection
888  // ********************************
889  Handle<CaloJetCollection> caloJets2;
890  evt.getByLabel(CaloJetAlgorithm2, caloJets2);
891 
892  // Count Jets above Pt cut
893  for (int istep = 0; istep < 100; ++istep) {
894  int njet = 0;
895  float ptStep = (istep * (5000. / 100.));
896 
897  for (CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++cal)
898  if (cal->pt() > ptStep)
899  njet++;
900 
901  hf_nJet2.Fill(ptStep, njet);
902  }
903 
904  for (int istep = 0; istep < 100; ++istep) {
905  int njet = 0;
906  float ptStep = (istep * (200. / 100.));
907 
908  for (CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++cal)
909  if (cal->pt() > ptStep)
910  njet++;
911 
912  hf_nJet2s.Fill(ptStep, njet);
913  }
914 
915  for (int istep = 0; istep < 100; ++istep) {
916  int njet = 0;
917  float ptStep = (istep * (3000. / 100.));
918 
919  for (CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++cal)
920  if (cal->pt() > ptStep)
921  njet++;
922 
923  hf_nJet21.Fill(ptStep, njet);
924  }
925 
926  //Loop over the two leading CaloJets and fill some histograms
927  jetInd = 0;
928  allJetInd = 0;
929  for (CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++cal) {
930  allJetInd++;
931  if (allJetInd == 1) {
932  h_jet1Pt2.Fill(cal->pt());
933  p4tmp[0] = cal->p4();
934  }
935  if (allJetInd == 2) {
936  h_jet2Pt2.Fill(cal->pt());
937  p4tmp[1] = cal->p4();
938  }
939  if ((allJetInd == 1) || (allJetInd == 2)) {
940  h_ptCalL2.Fill(cal->pt());
941  h_ptCalL22.Fill(cal->pt());
942  h_ptCalL23.Fill(cal->pt());
943 
944  h_etaCalL2.Fill(cal->eta());
945  h_phiCalL2.Fill(cal->phi());
946  }
947  if (allJetInd == 3)
948  h_jet3Pt2.Fill(cal->pt());
949  if (allJetInd == 4)
950  h_jet4Pt2.Fill(cal->pt());
951  if (allJetInd == 5)
952  h_jet5Pt2.Fill(cal->pt());
953  if (allJetInd == 6)
954  h_jet6Pt2.Fill(cal->pt());
955  if (allJetInd == 7)
956  h_jet7Pt2.Fill(cal->pt());
957 
958  if (fabs(cal->eta()) < 1.3) {
959  h_lowPtCal21.Fill(cal->pt());
960  if (cal->pt() > 10.) {
961  h_lowPtCal2c11.Fill(cal->pt());
962  }
963  }
964  if ((fabs(cal->eta()) > 1.3) && (fabs(cal->eta()) < 3.)) {
965  h_lowPtCal22.Fill(cal->pt());
966  if (cal->pt() > 10.) {
967  h_lowPtCal2c12.Fill(cal->pt());
968  }
969  }
970  if (fabs(cal->eta()) > 3.0) {
971  h_lowPtCal23.Fill(cal->pt());
972  if (cal->pt() > 10.) {
973  h_lowPtCal2c13.Fill(cal->pt());
974  }
975  }
976 
977  if (cal->pt() > minJetPt) {
978  h_ptCal2.Fill(cal->pt());
979  h_ptCal22.Fill(cal->pt());
980  h_ptCal23.Fill(cal->pt());
981 
982  h_etaCal2.Fill(cal->eta());
983  h_phiCal2.Fill(cal->phi());
984  jetInd++;
985  }
986  }
987  // h_nCalJets2.Fill( caloJets2->size() );
988  h_nCalJets2.Fill(jetInd);
989  if (jetInd > 1) {
990  LeadMass2 = (p4tmp[0] + p4tmp[1]).mass();
991  dijetMass2.Fill(LeadMass2);
992  dijetMass22.Fill(LeadMass2);
993  dijetMass23.Fill(LeadMass2);
994 
995  dijetMassCor1.Fill(LeadMass2);
996  dijetMassCor_700_1.Fill(LeadMass2);
997  dijetMassCor_2000_1.Fill(LeadMass2);
998  dijetMassCor_5000_1.Fill(LeadMass2);
999 
1000  if (EtaOk10 == 2) {
1001  dijetMassCor101.Fill(LeadMass2);
1002  dijetMassCor_700_101.Fill(LeadMass2);
1003  dijetMassCor_2000_101.Fill(LeadMass2);
1004  dijetMassCor_5000_101.Fill(LeadMass2);
1005  }
1006  if (EtaOk13 == 2) {
1007  dijetMassCor131.Fill(LeadMass2);
1008  dijetMassCor_700_131.Fill(LeadMass2);
1009  dijetMassCor_2000_131.Fill(LeadMass2);
1010  dijetMassCor_5000_131.Fill(LeadMass2);
1011  }
1012  if (EtaOk40 == 2) {
1013  dijetMassCor401.Fill(LeadMass2);
1014  dijetMassCor_700_401.Fill(LeadMass2);
1015  dijetMassCor_2000_401.Fill(LeadMass2);
1016  dijetMassCor_5000_401.Fill(LeadMass2);
1017  }
1018  }
1019 
1020  // ********************************
1021  // **** Get the CaloJet3 collection
1022  // ********************************
1023  Handle<CaloJetCollection> caloJets3;
1024  evt.getByLabel(CaloJetAlgorithm3, caloJets3);
1025 
1026  //Loop over the two leading CaloJets and fill some histograms
1027  jetInd = 0;
1028  allJetInd = 0;
1029 
1030  // Count Jets above Pt cut
1031  for (int istep = 0; istep < 100; ++istep) {
1032  int njet = 0;
1033  float ptStep = (istep * (5000. / 100.));
1034 
1035  for (CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++cal)
1036  if (cal->pt() > ptStep)
1037  njet++;
1038 
1039  hf_nJet3.Fill(ptStep, njet);
1040  }
1041 
1042  for (int istep = 0; istep < 100; ++istep) {
1043  int njet = 0;
1044  float ptStep = (istep * (200. / 100.));
1045 
1046  for (CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++cal)
1047  if (cal->pt() > ptStep)
1048  njet++;
1049 
1050  hf_nJet3s.Fill(ptStep, njet);
1051  }
1052 
1053  for (int istep = 0; istep < 100; ++istep) {
1054  int njet = 0;
1055  float ptStep = (istep * (3000. / 100.));
1056 
1057  for (CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++cal)
1058  if (cal->pt() > ptStep)
1059  njet++;
1060 
1061  hf_nJet31.Fill(ptStep, njet);
1062  }
1063 
1064  for (CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++cal) {
1065  allJetInd++;
1066  if (allJetInd == 1) {
1067  h_jet1Pt3.Fill(cal->pt());
1068  p4tmp[0] = cal->p4();
1069  }
1070  if (allJetInd == 2) {
1071  h_jet2Pt3.Fill(cal->pt());
1072  p4tmp[1] = cal->p4();
1073  }
1074  if ((allJetInd == 1) || (allJetInd == 2)) {
1075  h_ptCalL3.Fill(cal->pt());
1076  h_ptCalL32.Fill(cal->pt());
1077  h_ptCalL33.Fill(cal->pt());
1078 
1079  h_etaCalL3.Fill(cal->eta());
1080  h_phiCalL3.Fill(cal->phi());
1081  }
1082  if (allJetInd == 3)
1083  h_jet3Pt3.Fill(cal->pt());
1084  if (allJetInd == 4)
1085  h_jet4Pt3.Fill(cal->pt());
1086  if (allJetInd == 5)
1087  h_jet5Pt3.Fill(cal->pt());
1088  if (allJetInd == 6)
1089  h_jet6Pt3.Fill(cal->pt());
1090  if (allJetInd == 7)
1091  h_jet7Pt3.Fill(cal->pt());
1092 
1093  if (fabs(cal->eta()) < 1.3) {
1094  h_lowPtCal31.Fill(cal->pt());
1095  if (cal->pt() > 10.) {
1096  h_lowPtCal3c11.Fill(cal->pt());
1097  }
1098  }
1099  if ((fabs(cal->eta()) > 1.3) && (fabs(cal->eta()) < 3.)) {
1100  h_lowPtCal32.Fill(cal->pt());
1101  if (cal->pt() > 10.) {
1102  h_lowPtCal3c12.Fill(cal->pt());
1103  }
1104  }
1105  if (fabs(cal->eta()) > 3.0) {
1106  h_lowPtCal33.Fill(cal->pt());
1107  if (cal->pt() > 10.) {
1108  h_lowPtCal3c13.Fill(cal->pt());
1109  }
1110  }
1111 
1112  if (cal->pt() > minJetPt) {
1113  // std::cout << "CALO JET3 #" << jetInd << std::endl << cal->print() << std::endl;
1114  h_ptCal3.Fill(cal->pt());
1115  h_ptCal32.Fill(cal->pt());
1116  h_ptCal33.Fill(cal->pt());
1117 
1118  h_etaCal3.Fill(cal->eta());
1119  h_phiCal3.Fill(cal->phi());
1120  jetInd++;
1121  }
1122  }
1123  // h_nCalJets3.Fill( caloJets3->size() );
1124  h_nCalJets3.Fill(jetInd);
1125  if (jetInd > 1) {
1126  LeadMass3 = (p4tmp[0] + p4tmp[1]).mass();
1127  dijetMass3.Fill(LeadMass3);
1128  dijetMass32.Fill(LeadMass3);
1129  dijetMass33.Fill(LeadMass3);
1130  }
1131 
1132  // ********************************
1133  // **** Get the CaloJet4 collection
1134  // ********************************
1135 
1136  Handle<CaloJetCollection> caloJets4;
1137  evt.getByLabel(CaloJetAlgorithm4, caloJets4);
1138 
1139  //Loop over the two leading CaloJets and fill some histograms
1140  jetInd = 0;
1141  allJetInd = 0;
1142 
1143  // Count Jets above Pt cut
1144  for (int istep = 0; istep < 100; ++istep) {
1145  int njet = 0;
1146  float ptStep = (istep * (5000. / 100.));
1147 
1148  for (CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++cal)
1149  if (cal->pt() > ptStep)
1150  njet++;
1151 
1152  hf_nJet4.Fill(ptStep, njet);
1153  }
1154 
1155  for (int istep = 0; istep < 100; ++istep) {
1156  int njet = 0;
1157  float ptStep = (istep * (200. / 100.));
1158 
1159  for (CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++cal)
1160  if (cal->pt() > ptStep)
1161  njet++;
1162 
1163  hf_nJet4s.Fill(ptStep, njet);
1164  }
1165 
1166  for (int istep = 0; istep < 100; ++istep) {
1167  int njet = 0;
1168  float ptStep = (istep * (3000. / 100.));
1169 
1170  for (CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++cal)
1171  if (cal->pt() > ptStep)
1172  njet++;
1173 
1174  hf_nJet41.Fill(ptStep, njet);
1175  }
1176 
1177  for (CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++cal) {
1178  allJetInd++;
1179  if (allJetInd == 1) {
1180  h_jet1Pt4.Fill(cal->pt());
1181  p4tmp[0] = cal->p4();
1182  }
1183  if (allJetInd == 2) {
1184  h_jet2Pt4.Fill(cal->pt());
1185  p4tmp[1] = cal->p4();
1186  }
1187  if ((allJetInd == 1) || (allJetInd == 2)) {
1188  h_ptCalL4.Fill(cal->pt());
1189  h_ptCalL42.Fill(cal->pt());
1190  h_ptCalL43.Fill(cal->pt());
1191 
1192  h_etaCalL4.Fill(cal->eta());
1193  h_phiCalL4.Fill(cal->phi());
1194  }
1195  if (allJetInd == 3)
1196  h_jet3Pt4.Fill(cal->pt());
1197  if (allJetInd == 4)
1198  h_jet4Pt4.Fill(cal->pt());
1199  if (allJetInd == 5)
1200  h_jet5Pt4.Fill(cal->pt());
1201  if (allJetInd == 6)
1202  h_jet6Pt4.Fill(cal->pt());
1203  if (allJetInd == 7)
1204  h_jet7Pt4.Fill(cal->pt());
1205 
1206  if (fabs(cal->eta()) < 1.3) {
1207  h_lowPtCal41.Fill(cal->pt());
1208  if (cal->pt() > 10.) {
1209  h_lowPtCal4c11.Fill(cal->pt());
1210  }
1211  }
1212  if ((fabs(cal->eta()) > 1.3) && (fabs(cal->eta()) < 3.)) {
1213  h_lowPtCal42.Fill(cal->pt());
1214  if (cal->pt() > 10.) {
1215  h_lowPtCal4c12.Fill(cal->pt());
1216  }
1217  }
1218  if (fabs(cal->eta()) > 3.0) {
1219  h_lowPtCal43.Fill(cal->pt());
1220  if (cal->pt() > 10.) {
1221  h_lowPtCal4c13.Fill(cal->pt());
1222  }
1223  }
1224 
1225  if (cal->pt() > minJetPt) {
1226  // std::cout << "CALO JET4 #" << jetInd << std::endl << cal->print() << std::endl;
1227  h_ptCal4.Fill(cal->pt());
1228  h_ptCal42.Fill(cal->pt());
1229  h_ptCal43.Fill(cal->pt());
1230 
1231  h_etaCal4.Fill(cal->eta());
1232  h_phiCal4.Fill(cal->phi());
1233  jetInd++;
1234  }
1235  }
1236  // h_nCalJets4.Fill( caloJets4->size() );
1237  h_nCalJets4.Fill(jetInd);
1238  if (jetInd > 1) {
1239  LeadMass4 = (p4tmp[0] + p4tmp[1]).mass();
1240  dijetMass4.Fill(LeadMass4);
1241  dijetMass42.Fill(LeadMass4);
1242  dijetMass43.Fill(LeadMass4);
1243  }
1244 
1245  // *********************************************
1246  // *********************************************
1247 
1248  //**** Get the GenJet1 collection
1249  Handle<GenJetCollection> genJets1;
1250  evt.getByLabel(GenJetAlgorithm1, genJets1);
1251 
1252  //Loop over the two leading GenJets and fill some histograms
1253  jetInd = 0;
1254  allJetInd = 0;
1255  for (GenJetCollection::const_iterator gen = genJets1->begin(); gen != genJets1->end(); ++gen) {
1256  allJetInd++;
1257  if (allJetInd == 1) {
1258  p4tmp[0] = gen->p4();
1259  }
1260  if (allJetInd == 2) {
1261  p4tmp[1] = gen->p4();
1262  }
1263 
1264  if ((allJetInd == 1) || (allJetInd == 2)) {
1265  h_ptGenL1.Fill(gen->pt());
1266  h_ptGenL12.Fill(gen->pt());
1267  h_ptGenL13.Fill(gen->pt());
1268 
1269  h_etaGenL1.Fill(gen->eta());
1270  h_phiGenL1.Fill(gen->phi());
1271  }
1272 
1273  if (gen->pt() > minJetPt) {
1274  // std::cout << "GEN JET1 #" << jetInd << std::endl << gen->print() << std::endl;
1275  h_ptGen1.Fill(gen->pt());
1276  h_ptGen12.Fill(gen->pt());
1277  h_ptGen13.Fill(gen->pt());
1278 
1279  h_etaGen1.Fill(gen->eta());
1280  h_phiGen1.Fill(gen->phi());
1281  jetInd++;
1282  }
1283  }
1284 
1285  LeadMassP1 = (p4tmp[0] + p4tmp[1]).mass();
1286  dijetMassP1.Fill(LeadMassP1);
1287  if (EtaOk10 == 2) {
1288  dijetMassP101.Fill(LeadMassP1);
1289  dijetMassP_700_101.Fill(LeadMassP1);
1290  dijetMassP_2000_101.Fill(LeadMassP1);
1291  dijetMassP_5000_101.Fill(LeadMassP1);
1292  }
1293  if (EtaOk13 == 2) {
1294  dijetMassP131.Fill(LeadMassP1);
1295  dijetMassP_700_131.Fill(LeadMassP1);
1296  dijetMassP_2000_131.Fill(LeadMassP1);
1297  dijetMassP_5000_131.Fill(LeadMassP1);
1298  }
1299  if (EtaOk40 == 2) {
1300  dijetMassP401.Fill(LeadMassP1);
1301  dijetMassP_5000_401.Fill(LeadMassP1);
1302  dijetMassP_5000_401.Fill(LeadMassP1);
1303  dijetMassP_5000_401.Fill(LeadMassP1);
1304  }
1305 
1306  // h_nGenJets1.Fill( genJets1->size() );
1307  h_nGenJets1.Fill(jetInd);
1308 
1309  //**** Get the GenJet2 collection
1310  Handle<GenJetCollection> genJets2;
1311  evt.getByLabel(GenJetAlgorithm2, genJets2);
1312 
1313  //Loop over the two leading GenJets and fill some histograms
1314  jetInd = 0;
1315  allJetInd = 0;
1316  for (GenJetCollection::const_iterator gen = genJets2->begin(); gen != genJets2->end(); ++gen) {
1317  allJetInd++;
1318  if (allJetInd == 1) {
1319  p4tmp[0] = gen->p4();
1320  }
1321  if (allJetInd == 2) {
1322  p4tmp[1] = gen->p4();
1323  }
1324  if ((allJetInd == 1) || (allJetInd == 2)) {
1325  h_ptGenL2.Fill(gen->pt());
1326  h_ptGenL22.Fill(gen->pt());
1327  h_ptGenL23.Fill(gen->pt());
1328 
1329  h_etaGenL2.Fill(gen->eta());
1330  h_phiGenL2.Fill(gen->phi());
1331  }
1332 
1333  if (gen->pt() > minJetPt) {
1334  // std::cout << "GEN JET2 #" << jetInd << std::endl << gen->print() << std::endl;
1335  h_ptGen2.Fill(gen->pt());
1336  h_ptGen22.Fill(gen->pt());
1337  h_ptGen23.Fill(gen->pt());
1338 
1339  h_etaGen2.Fill(gen->eta());
1340  h_phiGen2.Fill(gen->phi());
1341  jetInd++;
1342  }
1343  }
1344 
1345  LeadMassP2 = (p4tmp[0] + p4tmp[1]).mass();
1346  dijetMassP2.Fill(LeadMassP2);
1347 
1348  // h_nGenJets2.Fill( genJets2->size() );
1349  h_nGenJets2.Fill(jetInd);
1350 
1351  //**** Get the GenJet3 collection
1352  Handle<GenJetCollection> genJets3;
1353  evt.getByLabel(GenJetAlgorithm3, genJets3);
1354 
1355  //Loop over the two leading GenJets and fill some histograms
1356  jetInd = 0;
1357  allJetInd = 0;
1358  for (GenJetCollection::const_iterator gen = genJets3->begin(); gen != genJets3->end(); ++gen) {
1359  allJetInd++;
1360  if (allJetInd == 1) {
1361  p4tmp[0] = gen->p4();
1362  }
1363  if (allJetInd == 2) {
1364  p4tmp[1] = gen->p4();
1365  }
1366  if ((allJetInd == 1) || (allJetInd == 2)) {
1367  h_ptGenL3.Fill(gen->pt());
1368  h_ptGenL32.Fill(gen->pt());
1369  h_ptGenL33.Fill(gen->pt());
1370 
1371  h_etaGenL3.Fill(gen->eta());
1372  h_phiGenL3.Fill(gen->phi());
1373  }
1374 
1375  if (gen->pt() > minJetPt) {
1376  // std::cout << "GEN JET3 #" << jetInd << std::endl << gen->print() << std::endl;
1377  h_ptGen3.Fill(gen->pt());
1378  h_ptGen32.Fill(gen->pt());
1379  h_ptGen33.Fill(gen->pt());
1380 
1381  h_etaGen3.Fill(gen->eta());
1382  h_phiGen3.Fill(gen->phi());
1383  jetInd++;
1384  }
1385  }
1386 
1387  LeadMassP3 = (p4tmp[0] + p4tmp[1]).mass();
1388  dijetMassP3.Fill(LeadMassP3);
1389 
1390  // h_nGenJets3.Fill( genJets3->size() );
1391  h_nGenJets3.Fill(jetInd);
1392 
1393  // *********************
1394  // MidPoint Jet Matching
1395 
1398 
1399  // evt.getByLabel( "midPointCone5GenJets", genJets );
1400  // evt.getByLabel( "midPointCone5CaloJets", caloJets );
1403 
1404  int maxJets = MAXJETS;
1405 
1406  jetInd = 0;
1407  double dRmin[MAXJETS];
1408  math::XYZTLorentzVector p4gen[MAXJETS], p4cal[MAXJETS], p4par[MAXJETS], p4Zp[MAXJETS], p4part[MAXJETS];
1409 
1410  int used[MAXJETS];
1411  int nj;
1412 
1413  for (int i = 0; i < maxJets; ++i)
1414  used[i] = 0;
1415 
1416  // cout << ">>>>>>>>> " << endl;
1417 
1418  for (GenJetCollection::const_iterator gen = genJets->begin(); gen != genJets->end() && jetInd < maxJets; ++gen) {
1419  p4gen[jetInd] = gen->p4(); //Gen 4-vector
1420  dRmin[jetInd] = 1000.0;
1421 
1422  nj = 0;
1423  usedInd = -1;
1424 
1425  for (CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++cal) {
1426  double delR = deltaR(cal->eta(), cal->phi(), gen->eta(), gen->phi());
1427 
1428  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
1429  dRmin[jetInd] = delR; // delta R of match
1430  p4cal[jetInd] = cal->p4(); // Matched Cal 4-vector
1431  usedInd = nj;
1432  }
1433 
1434  nj++;
1435  }
1436 
1437  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1438  matchedAllPt11.Fill(p4gen[jetInd].pt());
1439  }
1440  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1441  matchedAllPt12.Fill(p4gen[jetInd].pt());
1442  }
1443  if (fabs(p4gen[jetInd].eta()) > 3.) {
1444  matchedAllPt13.Fill(p4gen[jetInd].pt());
1445  }
1446 
1447  if (usedInd != -1) {
1448  used[usedInd] = 1;
1449 
1450  if (p4cal[jetInd].pt() > minJetPt10)
1451  hf_PtResponse1.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt() / p4gen[jetInd].pt());
1452 
1453  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1454  matchedPt11.Fill(p4gen[jetInd].pt());
1455  }
1456  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1457  matchedPt12.Fill(p4gen[jetInd].pt());
1458  }
1459  if (fabs(p4gen[jetInd].eta()) > 3.) {
1460  matchedPt13.Fill(p4gen[jetInd].pt());
1461  }
1462  /***
1463  cout << " >>>SISCone "
1464  << jetInd << " "
1465  << p4gen[jetInd].pt() << " "
1466  << p4gen[jetInd].eta() << " "
1467  << p4gen[jetInd].phi() << " "
1468  << p4cal[jetInd].pt() << " "
1469  << p4cal[jetInd].eta() << " "
1470  << p4cal[jetInd].phi()
1471  << endl;
1472  ***/
1473 
1474  double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
1475  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1476  if ((p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40)) {
1477  dPt20Frac1.Fill(dpt / p4gen[jetInd].pt());
1478  }
1479  if ((p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60)) {
1480  dPt40Frac1.Fill(dpt / p4gen[jetInd].pt());
1481  }
1482  if ((p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100)) {
1483  dPt80Frac1.Fill(dpt / p4gen[jetInd].pt());
1484  }
1485  if ((p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120)) {
1486  dPt100Frac1.Fill(dpt / p4gen[jetInd].pt());
1487  }
1488  }
1489  if ((p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3)) {
1490  dR1.Fill(dRmin[jetInd]);
1491  double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
1492  dPhi1.Fill(dphi);
1493  double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
1494  dEta1.Fill(deta);
1495  dPt1.Fill(dpt);
1496  dPtFrac1.Fill(dpt / p4gen[jetInd].pt());
1497 
1498  if (((dpt / p4gen[jetInd].pt()) < -0.5) && (fabs(dpt) > 90.)) {
1499  cout << " deltaR min = " << dRmin[jetInd] << " Ind = " << jetInd << " / " << usedInd << " / " << used[nj]
1500  << " Del pt / frac = " << dpt << " / " << dpt / p4gen[jetInd].pt()
1501  << " cal/gen pt = " << p4cal[jetInd].pt() << " / " << p4gen[jetInd].pt()
1502  << " cal/gen eta = " << p4cal[jetInd].eta() << " / " << p4gen[jetInd].eta()
1503  << " cal/gen phi = " << p4cal[jetInd].phi() << " / " << p4gen[jetInd].phi() << endl;
1504  }
1505  }
1506 
1507  jetInd++;
1508  }
1509  }
1510 
1511  // *********************
1512  // Seedless Jet Matching
1513 
1514  // Handle<GenJetCollection> genJets;
1515  // Handle<CaloJetCollection> caloJets;
1516 
1517  // evt.getByLabel( "sisCone5GenJets", genJets );
1518  // evt.getByLabel( "sisCone5CaloJets", caloJets );
1521 
1522  // int maxJets = 20;
1523  jetInd = 0;
1524  // double dRmin[20];
1525  // math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];
1526 
1527  for (int i = 0; i < maxJets; ++i)
1528  used[i] = 0;
1529  for (GenJetCollection::const_iterator gen = genJets->begin(); gen != genJets->end() && jetInd < maxJets; ++gen) {
1530  p4gen[jetInd] = gen->p4(); //Gen 4-vector
1531  dRmin[jetInd] = 1000.0;
1532 
1533  nj = 0;
1534  usedInd = -1;
1535 
1536  for (CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++cal) {
1537  double delR = deltaR(cal->eta(), cal->phi(), gen->eta(), gen->phi());
1538 
1539  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
1540  dRmin[jetInd] = delR; // delta R of match
1541  p4cal[jetInd] = cal->p4(); // Matched Cal 4-vector
1542  usedInd = nj;
1543  }
1544  nj++;
1545  }
1546 
1547  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1548  matchedAllPt21.Fill(p4gen[jetInd].pt());
1549  }
1550  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1551  matchedAllPt22.Fill(p4gen[jetInd].pt());
1552  }
1553  if (fabs(p4gen[jetInd].eta()) > 3.) {
1554  matchedAllPt23.Fill(p4gen[jetInd].pt());
1555  }
1556 
1557  if (usedInd != -1) {
1558  used[usedInd] = 1;
1559 
1560  if (p4cal[jetInd].pt() > minJetPt10)
1561  hf_PtResponse2.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt() / p4gen[jetInd].pt());
1562 
1563  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1564  matchedPt21.Fill(p4gen[jetInd].pt());
1565  }
1566  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1567  matchedPt22.Fill(p4gen[jetInd].pt());
1568  }
1569  if (fabs(p4gen[jetInd].eta()) > 3.) {
1570  matchedPt23.Fill(p4gen[jetInd].pt());
1571  }
1572  /***
1573  cout << " >>>IterCone "
1574  << jetInd << " "
1575  << p4gen[jetInd].pt() << " "
1576  << p4gen[jetInd].eta() << " "
1577  << p4gen[jetInd].phi() << " "
1578  << p4cal[jetInd].pt() << " "
1579  << p4cal[jetInd].eta() << " "
1580  << p4cal[jetInd].phi()
1581  << endl;
1582  ***/
1583 
1584  double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
1585  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1586  if ((p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40)) {
1587  dPt20Frac2.Fill(dpt / p4gen[jetInd].pt());
1588  }
1589  if ((p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60)) {
1590  dPt40Frac2.Fill(dpt / p4gen[jetInd].pt());
1591  }
1592  if ((p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100)) {
1593  dPt80Frac2.Fill(dpt / p4gen[jetInd].pt());
1594  }
1595  if ((p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120)) {
1596  dPt100Frac2.Fill(dpt / p4gen[jetInd].pt());
1597  }
1598  }
1599  if ((p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3)) {
1600  dR2.Fill(dRmin[jetInd]);
1601  double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
1602  dPhi2.Fill(dphi);
1603  double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
1604  dEta2.Fill(deta);
1605  dPt2.Fill(dpt);
1606  dPtFrac2.Fill(dpt / p4gen[jetInd].pt());
1607  }
1608 
1609  jetInd++;
1610  }
1611  }
1612 
1613  // *********************
1614  // Kt Jet Matching
1615 
1616  // Handle<GenJetCollection> genJets;
1617  // Handle<CaloJetCollection> caloJets;
1618 
1619  // evt.getByLabel( "sisCone5GenJets", genJets );
1620  // evt.getByLabel( "sisCone5CaloJets", caloJets );
1623 
1624  // int maxJets = 20;
1625  jetInd = 0;
1626  // double dRmin[20];
1627  // math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];
1628 
1629  for (int i = 0; i < maxJets; ++i)
1630  used[i] = 0;
1631  for (GenJetCollection::const_iterator gen = genJets->begin(); gen != genJets->end() && jetInd < maxJets; ++gen) {
1632  p4gen[jetInd] = gen->p4(); //Gen 4-vector
1633  dRmin[jetInd] = 1000.0;
1634 
1635  nj = 0;
1636  usedInd = -1;
1637 
1638  for (CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++cal) {
1639  double delR = deltaR(cal->eta(), cal->phi(), gen->eta(), gen->phi());
1640 
1641  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
1642  dRmin[jetInd] = delR; // delta R of match
1643  p4cal[jetInd] = cal->p4(); // Matched Cal 4-vector
1644  usedInd = nj;
1645  }
1646  nj++;
1647  }
1648 
1649  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1650  matchedAllPt31.Fill(p4gen[jetInd].pt());
1651  }
1652  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1653  matchedAllPt32.Fill(p4gen[jetInd].pt());
1654  }
1655  if (fabs(p4gen[jetInd].eta()) > 3.) {
1656  matchedAllPt33.Fill(p4gen[jetInd].pt());
1657  }
1658 
1659  if (usedInd != -1) {
1660  used[usedInd] = 1;
1661 
1662  if (p4cal[jetInd].pt() > minJetPt10)
1663  hf_PtResponse3.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt() / p4gen[jetInd].pt());
1664 
1665  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1666  matchedPt31.Fill(p4gen[jetInd].pt());
1667  }
1668  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1669  matchedPt32.Fill(p4gen[jetInd].pt());
1670  }
1671  if (fabs(p4gen[jetInd].eta()) > 3.) {
1672  matchedPt33.Fill(p4gen[jetInd].pt());
1673  }
1674  /***
1675  cout << " >>>MidPoint "
1676  << jetInd << " "
1677  << p4gen[jetInd].pt() << " "
1678  << p4gen[jetInd].eta() << " "
1679  << p4gen[jetInd].phi() << " "
1680  << p4cal[jetInd].pt() << " "
1681  << p4cal[jetInd].eta() << " "
1682  << p4cal[jetInd].phi()
1683  << endl;
1684  ***/
1685 
1686  double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
1687  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1688  if ((p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40)) {
1689  dPt20Frac3.Fill(dpt / p4gen[jetInd].pt());
1690  }
1691  if ((p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60)) {
1692  dPt40Frac3.Fill(dpt / p4gen[jetInd].pt());
1693  }
1694  if ((p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100)) {
1695  dPt80Frac3.Fill(dpt / p4gen[jetInd].pt());
1696  }
1697  if ((p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120)) {
1698  dPt100Frac3.Fill(dpt / p4gen[jetInd].pt());
1699  }
1700  }
1701 
1702  if ((p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3)) {
1703  dR3.Fill(dRmin[jetInd]);
1704  double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
1705  dPhi3.Fill(dphi);
1706  double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
1707  dEta3.Fill(deta);
1708  dPt3.Fill(dpt);
1709  dPtFrac3.Fill(dpt / p4gen[jetInd].pt());
1710  }
1711 
1712  jetInd++;
1713  }
1714  }
1715 
1716  // *********************
1717  // Jet Algorithm 4
1718 
1721 
1722  // int maxJets = 20;
1723  jetInd = 0;
1724  // double dRmin[20];
1725  // math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];
1726 
1727  for (int i = 0; i < maxJets; ++i)
1728  used[i] = 0;
1729  for (GenJetCollection::const_iterator gen = genJets->begin(); gen != genJets->end() && jetInd < maxJets; ++gen) {
1730  p4gen[jetInd] = gen->p4(); //Gen 4-vector
1731  dRmin[jetInd] = 1000.0;
1732 
1733  nj = 0;
1734  usedInd = -1;
1735 
1736  for (CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++cal) {
1737  double delR = deltaR(cal->eta(), cal->phi(), gen->eta(), gen->phi());
1738 
1739  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
1740  dRmin[jetInd] = delR; // delta R of match
1741  p4cal[jetInd] = cal->p4(); // Matched Cal 4-vector
1742  usedInd = nj;
1743  }
1744  nj++;
1745  }
1746 
1747  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1748  matchedAllPt41.Fill(p4gen[jetInd].pt());
1749  }
1750  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1751  matchedAllPt42.Fill(p4gen[jetInd].pt());
1752  }
1753  if (fabs(p4gen[jetInd].eta()) > 3.) {
1754  matchedAllPt43.Fill(p4gen[jetInd].pt());
1755  }
1756 
1757  if (usedInd != -1) {
1758  used[usedInd] = 1;
1759 
1760  if (p4cal[jetInd].pt() > minJetPt10)
1761  hf_PtResponse4.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt() / p4gen[jetInd].pt());
1762 
1763  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1764  matchedPt41.Fill(p4gen[jetInd].pt());
1765  }
1766  if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.)) {
1767  matchedPt42.Fill(p4gen[jetInd].pt());
1768  }
1769  if (fabs(p4gen[jetInd].eta()) > 3.) {
1770  matchedPt43.Fill(p4gen[jetInd].pt());
1771  }
1772 
1773  /***
1774  cout << " >>>KtClus "
1775  << jetInd << " "
1776  << p4gen[jetInd].pt() << " "
1777  << p4gen[jetInd].eta() << " "
1778  << p4gen[jetInd].phi() << " "
1779  << p4cal[jetInd].pt() << " "
1780  << p4cal[jetInd].eta() << " "
1781  << p4cal[jetInd].phi()
1782  << endl;
1783  ***/
1784 
1785  double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
1786  if (fabs(p4gen[jetInd].eta()) < 1.3) {
1787  if ((p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40)) {
1788  dPt20Frac4.Fill(dpt / p4gen[jetInd].pt());
1789  }
1790  if ((p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60)) {
1791  dPt40Frac4.Fill(dpt / p4gen[jetInd].pt());
1792  }
1793  if ((p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100)) {
1794  dPt80Frac4.Fill(dpt / p4gen[jetInd].pt());
1795  }
1796  if ((p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120)) {
1797  dPt100Frac4.Fill(dpt / p4gen[jetInd].pt());
1798  }
1799  }
1800 
1801  if ((p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3)) {
1802  dR4.Fill(dRmin[jetInd]);
1803  double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
1804  dPhi4.Fill(dphi);
1805  double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
1806  dEta4.Fill(deta);
1807  dPt4.Fill(dpt);
1808  dPtFrac4.Fill(dpt / p4gen[jetInd].pt());
1809  }
1810 
1811  jetInd++;
1812  }
1813  }
1814 
1815  // *********************
1816  // MidPoint - Seedless Jet Matching
1817 
1818  Handle<CaloJetCollection> calo1Jets;
1819  Handle<CaloJetCollection> calo2Jets;
1820  Handle<CaloJetCollection> calo3Jets;
1821 
1822  evt.getByLabel(CaloJetAlgorithm1, calo1Jets);
1823  evt.getByLabel(CaloJetAlgorithm2, calo2Jets);
1824  evt.getByLabel(CaloJetAlgorithm3, calo3Jets);
1825 
1826  jetInd = 0;
1827 
1828  for (int i = 0; i < maxJets; ++i)
1829  used[i] = 0;
1830  for (CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); cal1 != calo1Jets->end() && jetInd < maxJets;
1831  ++cal1) {
1832  p4gen[jetInd] = cal1->p4(); //Gen 4-vector
1833  dRmin[jetInd] = 1000.0;
1834 
1835  nj = 0;
1836  for (CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); cal2 != calo2Jets->end(); ++cal2) {
1837  double delR = deltaR(cal1->eta(), cal1->phi(), cal2->eta(), cal2->phi());
1838  if ((delR < dRmin[jetInd]) && (used[nj] == 0)) {
1839  dRmin[jetInd] = delR; // delta R of match
1840  p4cal[jetInd] = cal2->p4(); // Matched Cal 4-vector
1841  usedInd = nj;
1842  }
1843  nj++;
1844  }
1845  used[usedInd] = 1;
1846 
1847  if (p4gen[jetInd].pt() > minJetPt) {
1848  dR12.Fill(dRmin[jetInd]);
1849  double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
1850  dPhi12.Fill(dphi);
1851  double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
1852  dEta12.Fill(deta);
1853  double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
1854  dPt12.Fill(dpt);
1855  }
1856 
1857  jetInd++;
1858  }
1859 
1860  // ******************************************
1861  // ******************************************
1862 
1864  evt.getByLabel("genParticleCandidates", genParticles);
1865 
1866  // *********************
1867  // Partons (Z')
1868 
1869  int nPart = 0;
1870  for (size_t i = 0; i < genParticles->size(); i++) {
1871  const Candidate& p = (*genParticles)[i];
1872  // int Status = p.status();
1873  // bool ParticleIsStable = Status==1;
1874  int id = p.pdgId();
1875 
1876  if (id == 32) {
1877  if (p.numberOfDaughters() != 0) {
1878  /***
1879  cout << "Z': part = " << i << " id = " << id
1880  << " daughters = " << p.numberOfDaughters()
1881  << " mass = " << p.mass()
1882  << endl;
1883  ***/
1884  ZpMG = p.mass();
1885  ZpMassGen.Fill(ZpMG);
1886  if (EtaOk10 == 2) {
1887  ZpMassGen10.Fill(ZpMG);
1888  ZpMassGen_700_10.Fill(ZpMG);
1889  ZpMassGen_2000_10.Fill(ZpMG);
1890  ZpMassGen_5000_10.Fill(ZpMG);
1891  }
1892  if (EtaOk13 == 2) {
1893  ZpMassGen13.Fill(ZpMG);
1894  ZpMassGen_700_13.Fill(ZpMG);
1895  ZpMassGen_2000_13.Fill(ZpMG);
1896  ZpMassGen_5000_13.Fill(ZpMG);
1897  }
1898  if (EtaOk40 == 2) {
1899  ZpMassGen40.Fill(ZpMG);
1900  ZpMassGen_700_40.Fill(ZpMG);
1901  ZpMassGen_2000_40.Fill(ZpMG);
1902  ZpMassGen_5000_40.Fill(ZpMG);
1903  }
1904  }
1905 
1906  for (int id1 = 0, nd1 = p.numberOfDaughters(); id1 < nd1; ++id1) {
1907  const Candidate* d1 = p.daughter(id1);
1908 
1909  if (abs(d1->pdgId()) != 32) {
1910  math::XYZTLorentzVector momentum = d1->p4();
1911  p4Zp[nPart] = momentum = d1->p4();
1912  nPart++;
1913  }
1914  }
1915  }
1916  }
1917 
1918  // *********************
1919  // Match jets to Zp
1920  int genInd = 0;
1921 
1922  if (nPart == 2) {
1923  ZpM = (p4Zp[0] + p4Zp[1]).mass();
1924  ZpMass.Fill(ZpM);
1925 
1926  if (EtaOk10 == 2) {
1927  ZpMass_700_10.Fill(ZpM);
1928  ZpMass_2000_10.Fill(ZpM);
1929  ZpMass_5000_10.Fill(ZpM);
1930  }
1931  if (EtaOk13 == 2) {
1932  ZpMass_700_13.Fill(ZpM);
1933  ZpMass_2000_13.Fill(ZpM);
1934  ZpMass_5000_13.Fill(ZpM);
1935  }
1936  if (EtaOk40 == 2) {
1937  ZpMass_700_40.Fill(ZpM);
1938  ZpMass_2000_40.Fill(ZpM);
1939  ZpMass_5000_40.Fill(ZpM);
1940  }
1941 
1942  int usedInd;
1943 
1944  // ***********
1945  // **** Calor1
1946  usedInd = -1;
1947  jetInd = 0;
1948 
1949  for (int i = 0; i < maxJets; ++i)
1950  used[i] = 0;
1951  for (int i = 0; i < 2; ++i) {
1952  dRmin[jetInd] = 1000.0;
1953 
1954  int nj = 0;
1955  for (CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); cal1 != calo1Jets->end() && jetInd < maxJets;
1956  ++cal1) {
1957  double delR = deltaR(cal1->eta(), cal1->phi(), p4Zp[i].eta(), p4Zp[i].phi());
1958 
1959  // if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
1960  if ((delR < dRmin[jetInd]) && (used[nj] == 0)) {
1961  dRmin[jetInd] = delR; // delta R of match
1962  p4cal[jetInd] = cal1->p4(); // Matched Cal 4-vector
1963  usedInd = nj;
1964  genInd = i;
1965  }
1966 
1967  /****
1968  cout << "Delta R = " << delR
1969  << " deltaR min = " << dRmin[jetInd]
1970  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
1971  << " cal1 eta = " << cal1->eta()
1972  << " p4par eta = " << p4Zp[i].eta()
1973  << " cal1 phi = " << cal1->phi()
1974  << " p4par phi = " << p4Zp[i].phi()
1975  << endl;
1976  cout << " "
1977  << " p4par = " << p4Zp[i]
1978  << " p4cal = " << cal1->p4()
1979  << endl;
1980  ***/
1981 
1982  nj++;
1983  }
1984 
1985  // Found matched jet
1986  if (usedInd != -1) {
1987  used[usedInd] = 1;
1988  jetInd++;
1989  }
1990  }
1991 
1992  ZpMM = (p4cal[0] + p4cal[1]).mass();
1993  ZpMassMatched1.Fill(ZpMM);
1994 
1995  if ((ZpMG != 0) && (EtaOk40 == 2)) {
1996  ZpMassRes401.Fill((ZpMM - ZpMG) / ZpMG);
1997 
1998  ZpMassResL401.Fill((LeadMass1 - ZpMG) / ZpMG);
1999  ZpMassResL402.Fill((LeadMass2 - ZpMG) / ZpMG);
2000  ZpMassResL403.Fill((LeadMass3 - ZpMG) / ZpMG);
2001 
2002  ZpMassResRL401.Fill(LeadMass1 / ZpMG);
2003  ZpMassResRL402.Fill(LeadMass2 / ZpMG);
2004  ZpMassResRL403.Fill(LeadMass3 / ZpMG);
2005 
2006  ZpMassResRLoP401.Fill(LeadMass1 / LeadMassP1);
2007  ZpMassResRLoP402.Fill(LeadMass2 / LeadMassP2);
2008  ZpMassResRLoP403.Fill(LeadMass3 / LeadMassP2);
2009 
2010  ZpMassResPRL401.Fill(LeadMassP1 / ZpMG);
2011  ZpMassResPRL402.Fill(LeadMassP2 / ZpMG);
2012  ZpMassResPRL403.Fill(LeadMassP3 / ZpMG);
2013  }
2014 
2015  if ((ZpMG != 0) && (EtaOk10 == 2)) {
2016  ZpMassRes101.Fill((ZpMM - ZpMG) / ZpMG);
2017 
2018  ZpMassResL101.Fill((LeadMass1 - ZpMG) / ZpMG);
2019  ZpMassResL102.Fill((LeadMass2 - ZpMG) / ZpMG);
2020  ZpMassResL103.Fill((LeadMass3 - ZpMG) / ZpMG);
2021 
2022  ZpMassResRL101.Fill(LeadMass1 / ZpMG);
2023  ZpMassResRL102.Fill(LeadMass2 / ZpMG);
2024  ZpMassResRL103.Fill(LeadMass3 / ZpMG);
2025 
2026  ZpMassResRLoP101.Fill(LeadMass1 / LeadMassP1);
2027  ZpMassResRLoP102.Fill(LeadMass2 / LeadMassP2);
2028  ZpMassResRLoP103.Fill(LeadMass3 / LeadMassP2);
2029 
2030  ZpMassResPRL101.Fill(LeadMassP1 / ZpMG);
2031  ZpMassResPRL102.Fill(LeadMassP2 / ZpMG);
2032  ZpMassResPRL103.Fill(LeadMassP3 / ZpMG);
2033  }
2034 
2035  if ((ZpMG != 0) && (EtaOk13 == 2)) {
2036  ZpMassRes131.Fill((ZpMM - ZpMG) / ZpMG);
2037 
2038  ZpMassResL131.Fill((LeadMass1 - ZpMG) / ZpMG);
2039  ZpMassResL132.Fill((LeadMass2 - ZpMG) / ZpMG);
2040  ZpMassResL133.Fill((LeadMass3 - ZpMG) / ZpMG);
2041 
2042  ZpMassResRL131.Fill(LeadMass1 / ZpMG);
2043  ZpMassResRL132.Fill(LeadMass2 / ZpMG);
2044  ZpMassResRL133.Fill(LeadMass3 / ZpMG);
2045 
2046  ZpMassResRLoP131.Fill(LeadMass1 / LeadMassP1);
2047  ZpMassResRLoP132.Fill(LeadMass2 / LeadMassP2);
2048  ZpMassResRLoP133.Fill(LeadMass3 / LeadMassP2);
2049 
2050  ZpMassResPRL131.Fill(LeadMassP1 / ZpMG);
2051  ZpMassResPRL132.Fill(LeadMassP2 / ZpMG);
2052  ZpMassResPRL133.Fill(LeadMassP3 / ZpMG);
2053  }
2054 
2055  // ***********
2056  // **** Calor2
2057  usedInd = -1;
2058  jetInd = 0;
2059 
2060  for (int i = 0; i < maxJets; ++i)
2061  used[i] = 0;
2062  for (int i = 0; i < 2; ++i) {
2063  dRmin[jetInd] = 1000.0;
2064 
2065  int nj = 0;
2066  for (CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); cal2 != calo2Jets->end() && jetInd < maxJets;
2067  ++cal2) {
2068  double delR = deltaR(cal2->eta(), cal2->phi(), p4Zp[i].eta(), p4Zp[i].phi());
2069 
2070  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
2071  dRmin[jetInd] = delR; // delta R of match
2072  p4cal[jetInd] = cal2->p4(); // Matched Cal 4-vector
2073  usedInd = nj;
2074  }
2075 
2076  /****
2077  cout << "Delta R = " << delR
2078  << " deltaR min = " << dRmin[jetInd]
2079  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
2080  << " p4par = " << p4par[i]
2081  << " p4cal = " << cal1->p4()
2082  << " cal1 eta = " << cal1->eta()
2083  << " p4par eta = " << p4par[i].eta()
2084  << endl;
2085  ****/
2086 
2087  nj++;
2088  }
2089 
2090  // Found matched jet
2091  if (usedInd != -1) {
2092  used[usedInd] = 1;
2093  jetInd++;
2094  }
2095  }
2096 
2097  ZpMM = (p4cal[0] + p4cal[1]).mass();
2098  ZpMassMatched2.Fill(ZpMM);
2099  ZpMassRes402.Fill((ZpMM - ZpM) / ZpM);
2100 
2101  // ***********
2102  // **** Calor3
2103  usedInd = -1;
2104  jetInd = 0;
2105 
2106  for (int i = 0; i < maxJets; ++i)
2107  used[i] = 0;
2108  for (int i = 0; i < 2; ++i) {
2109  dRmin[jetInd] = 1000.0;
2110 
2111  int nj = 0;
2112  for (CaloJetCollection::const_iterator cal3 = calo3Jets->begin(); cal3 != calo3Jets->end() && jetInd < maxJets;
2113  ++cal3) {
2114  double delR = deltaR(cal3->eta(), cal3->phi(), p4Zp[i].eta(), p4Zp[i].phi());
2115 
2116  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
2117  dRmin[jetInd] = delR; // delta R of match
2118  p4cal[jetInd] = cal3->p4(); // Matched Cal 4-vector
2119  usedInd = nj;
2120  }
2121 
2122  /****
2123  cout << "Delta R = " << delR
2124  << " deltaR min = " << dRmin[jetInd]
2125  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
2126  << " p4par = " << p4par[i]
2127  << " p4cal = " << cal1->p4()
2128  << " cal1 eta = " << cal1->eta()
2129  << " p4par eta = " << p4par[i].eta()
2130  << endl;
2131  ****/
2132 
2133  nj++;
2134  }
2135 
2136  // Found matched jet
2137  if (usedInd != -1) {
2138  used[usedInd] = 1;
2139  jetInd++;
2140  }
2141  }
2142 
2143  ZpMM = (p4cal[0] + p4cal[1]).mass();
2144  ZpMassMatched3.Fill(ZpMM);
2145  ZpMassRes403.Fill((ZpMM - ZpM) / ZpM);
2146 
2147  } else {
2148  cout << "Z' (3): nPart = " << nPart << endl;
2149  }
2150 
2151  // *********************
2152  // Partons (ttbar) Jet Matching
2153 
2154  // cout << ">>> Begin MC list" << endl;
2155  int nJet = 0;
2156 
2157  int ii = 1;
2158  int jj = 4;
2159 
2160  for (size_t i = 0; i < genParticles->size(); i++) {
2161  const Candidate& p = (*genParticles)[i];
2162  // int Status = p.status();
2163  // bool ParticleIsStable = Status==1;
2164  int id = p.pdgId();
2165 
2166  // Top Quarks
2167  if (abs(id) == 6) {
2168  cout << "TOP: id = " << id << " mass = " << p.mass() << endl;
2169 
2170  topMassParton.Fill(p.mass());
2171 
2172  if (id == 6)
2173  tMassGen.Fill(p.mass());
2174  if (id == -6)
2175  tbarMassGen.Fill(p.mass());
2176 
2177  for (size_t id1 = 0, nd1 = p.numberOfDaughters(); id1 < nd1; ++id1) {
2178  const Candidate* d1 = p.daughter(id1);
2179 
2180  // b - quark
2181  if (abs(d1->pdgId()) == 5) {
2182  math::XYZTLorentzVector momentum = d1->p4();
2183  p4par[nJet++] = momentum = d1->p4();
2184 
2185  cout << "Daughter1: id = " << d1->pdgId() << " daughters = " << d1->numberOfDaughters()
2186  << " mother 1 = " << (d1->mother())->pdgId() << " Momentum " << momentum << " GeV/c" << endl;
2187 
2188  if ((d1->mother())->pdgId() == 6) {
2189  p4part[0] = momentum = d1->p4();
2190  cout << ">>> part0 = " << p4part[0] << endl;
2191  }
2192  if ((d1->mother())->pdgId() == -6) {
2193  p4part[3] = momentum = d1->p4();
2194  cout << ">>> part3 = " << p4part[3] << endl;
2195  }
2196  }
2197 
2198  // W
2199  // Check for fully hadronic decay
2200 
2201  if (abs(d1->pdgId()) == 24) {
2202  for (size_t id2 = 0, nd2 = d1->numberOfDaughters(); id2 < nd2; ++id2) {
2203  const Candidate* d2 = d1->daughter(id2);
2204 
2205  if (abs(d2->pdgId()) < 9) {
2206  math::XYZVector vertex(d2->vx(), d2->vy(), d2->vz());
2207  math::XYZTLorentzVector momentum = d2->p4();
2208  p4par[nJet++] = momentum = d2->p4();
2209 
2210  if ((d1->mother())->pdgId() == 6) {
2211  p4part[ii] = momentum = d2->p4();
2212  cout << ">>> part" << ii << " = " << p4part[ii] << endl;
2213  ii++;
2214  }
2215  if ((d1->mother())->pdgId() == -6) {
2216  p4part[jj] = momentum = d2->p4();
2217  cout << ">>> part" << jj << " = " << p4part[jj] << endl;
2218  jj++;
2219  }
2220 
2221  cout << "Daughter2: id = " << d2->pdgId() << " daughters = " << d2->numberOfDaughters()
2222  << " mother 2 = " << (d2->mother())->pdgId() << " Momentum " << momentum << " GeV/c" << endl;
2223  }
2224  }
2225  }
2226 
2227  // if ( pdgId == d->pdgId() && d->status() == 1 ) {
2228  // }
2229  }
2230  }
2231  }
2232  // cout << ">>> N Jets = " << nJet << endl;
2233 
2234  if (nJet == 6) {
2235  double tmass = (p4part[0] + p4part[1] + p4part[2]).mass();
2236  double tbarmass = (p4part[3] + p4part[4] + p4part[5]).mass();
2237 
2238  tMass.Fill(tmass);
2239  tbarMass.Fill(tbarmass);
2240 
2241  cout << ">>> T Mass = " << tmass << " / " << tbarmass << endl;
2242 
2243  double mindR = 1000.;
2244  for (size_t i = 0; i < 6; ++i) {
2245  for (size_t j = 0; j < 6; ++j) {
2246  if (j > i) {
2247  double delR = deltaR(p4par[i].eta(), p4par[i].phi(), p4par[j].eta(), p4par[j].phi());
2248  if (delR < mindR)
2249  mindR = delR;
2250  dRParton.Fill(delR);
2251  }
2252  }
2253  }
2254  dRPartonMin.Fill(mindR);
2255 
2256  int usedInd;
2257  usedInd = -1;
2258  jetInd = 0;
2259 
2260  for (int i = 0; i < maxJets; ++i)
2261  used[i] = 0;
2262  for (int i = 0; i < 6; ++i) {
2263  dRmin[jetInd] = 1000.0;
2264 
2265  int nj = 0;
2266  for (CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); cal1 != calo1Jets->end() && jetInd < maxJets;
2267  ++cal1) {
2268  double delR = deltaR(cal1->eta(), cal1->phi(), p4par[i].eta(), p4par[i].phi());
2269 
2270  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
2271  dRmin[jetInd] = delR; // delta R of match
2272  p4cal[jetInd] = cal1->p4(); // Matched Cal 4-vector
2273  usedInd = nj;
2274  genInd = i;
2275  }
2276 
2277  /****
2278  cout << "Delta R = " << delR
2279  << " deltaR min = " << dRmin[jetInd]
2280  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
2281  << " p4par = " << p4par[i]
2282  << " p4cal = " << cal1->p4()
2283  << " cal1 eta = " << cal1->eta()
2284  << " p4par eta = " << p4par[i].eta()
2285  << endl;
2286  ****/
2287 
2288  nj++;
2289  }
2290 
2291  // Found matched jet
2292  if (usedInd != -1) {
2293  used[usedInd] = 1;
2294 
2295  dRPar1.Fill(dRmin[jetInd]);
2296  double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
2297  dPhiPar1.Fill(dphi);
2298  double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
2299  dEtaPar1.Fill(deta);
2300  double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
2301  dPtPar1.Fill(dpt);
2302  jetInd++;
2303  }
2304  }
2305  ParMatch1.Fill(jetInd);
2306  if (jetInd == 6) {
2307  topMass1.Fill((p4cal[0] + p4cal[1] + p4cal[2]).mass());
2308  topMass1.Fill((p4cal[3] + p4cal[4] + p4cal[5]).mass());
2309  }
2310 
2311  /***
2312  cout << "Collection Size = " << calo1Jets->size()
2313  << " / " << jetInd
2314  << endl;
2315  ***/
2316 
2317  // ***********************
2318  jetInd = 0;
2319  usedInd = -1;
2320 
2321  for (int i = 0; i < maxJets; ++i)
2322  used[i] = 0;
2323  for (int i = 0; i < 6; ++i) {
2324  dRmin[jetInd] = 1000.0;
2325 
2326  int nj = 0;
2327  for (CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); cal2 != calo2Jets->end() && jetInd < maxJets;
2328  ++cal2) {
2329  double delR = deltaR(cal2->eta(), cal2->phi(), p4par[i].eta(), p4par[i].phi());
2330 
2331  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
2332  dRmin[jetInd] = delR; // delta R of match
2333  p4cal[jetInd] = cal2->p4(); // Matched Cal 4-vector
2334  usedInd = nj;
2335  genInd = i;
2336  }
2337 
2338  /****
2339  cout << "Delta R = " << delR
2340  << " deltaR min = " << dRmin[jetInd]
2341  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
2342  << " cal2 eta = " << cal2->eta()
2343  << " p4par eta = " << p4par[i].eta()
2344  << endl;
2345  ****/
2346 
2347  nj++;
2348  }
2349  if (usedInd != -1) {
2350  used[usedInd] = 1;
2351 
2352  dRPar2.Fill(dRmin[jetInd]);
2353  double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
2354  dPhiPar2.Fill(dphi);
2355  double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
2356  dEtaPar2.Fill(deta);
2357  double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
2358  dPtPar2.Fill(dpt);
2359 
2360  jetInd++;
2361  }
2362  }
2363  ParMatch2.Fill(jetInd);
2364  if (jetInd == 6) {
2365  topMass2.Fill((p4cal[0] + p4cal[1] + p4cal[2]).mass());
2366  topMass2.Fill((p4cal[3] + p4cal[4] + p4cal[5]).mass());
2367  }
2368 
2369  /***
2370  cout << "Collection Size = " << calo2Jets->size()
2371  << " / " << jetInd
2372  << endl;
2373  ***/
2374 
2375  // ***********************
2376  jetInd = 0;
2377  usedInd = -1;
2378 
2379  for (int i = 0; i < maxJets; ++i)
2380  used[i] = 0;
2381  for (int i = 0; i < 6; ++i) {
2382  dRmin[jetInd] = 1000.0;
2383 
2384  int nj = 0;
2385  for (CaloJetCollection::const_iterator cal3 = calo3Jets->begin(); cal3 != calo3Jets->end() && jetInd < maxJets;
2386  ++cal3) {
2387  double delR = deltaR(cal3->eta(), cal3->phi(), p4par[i].eta(), p4par[i].phi());
2388 
2389  if ((delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0)) {
2390  dRmin[jetInd] = delR; // delta R of match
2391  p4cal[jetInd] = cal3->p4(); // Matched Cal 4-vector
2392  usedInd = nj;
2393  genInd = i;
2394  }
2395  /****
2396  cout << "Delta R = " << delR
2397  << " deltaR min = " << dRmin[jetInd]
2398  << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
2399  << " cal3 eta = " << cal3->eta()
2400  << " p4par eta = " << p4par[i].eta()
2401  << endl;
2402  ****/
2403 
2404  nj++;
2405  }
2406  if (usedInd != -1) {
2407  used[usedInd] = 1;
2408 
2409  dRPar3.Fill(dRmin[jetInd]);
2410  double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
2411  dPhiPar3.Fill(dphi);
2412  double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
2413  dEtaPar3.Fill(deta);
2414  double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
2415  dPtPar3.Fill(dpt);
2416 
2417  jetInd++;
2418  }
2419  }
2420  ParMatch3.Fill(jetInd);
2421  if (jetInd == 6) {
2422  topMass3.Fill((p4cal[0] + p4cal[1] + p4cal[2]).mass());
2423  topMass3.Fill((p4cal[3] + p4cal[4] + p4cal[5]).mass());
2424  }
2425 
2426  /***
2427  cout << "Collection Size = " << calo3Jets->size()
2428  << " / " << jetInd
2429  << endl;
2430  ***/
2431  }
2432 
2433  int nTow1, nTow2, nTow3, nTow4;
2434 
2436 
2437  // *********************
2438  // Jet Properties
2439  // *********************
2440 
2441  // --- Loop over jets and make a list of all the used towers
2443  int jjet = 0;
2444  for (CaloJetCollection::const_iterator ijet = jets->begin(); ijet != jets->end(); ijet++) {
2445  jjet++;
2446 
2447  float hadEne = ijet->hadEnergyInHB() + ijet->hadEnergyInHO() + ijet->hadEnergyInHE() + ijet->hadEnergyInHF();
2448  float emEne = ijet->emEnergyInEB() + ijet->emEnergyInEE() + ijet->emEnergyInHF();
2449  float had = ijet->energyFractionHadronic();
2450 
2451  float j_et = ijet->et();
2452 
2453  if (fabs(ijet->eta()) < 1.3) {
2454  totEneLeadJetEta1_1.Fill(hadEne + emEne);
2455  hadEneLeadJetEta1_1.Fill(hadEne);
2456  emEneLeadJetEta1_1.Fill(emEne);
2457 
2458  totEneLeadJetEta1_2.Fill(hadEne + emEne);
2459  hadEneLeadJetEta1_2.Fill(hadEne);
2460  emEneLeadJetEta1_2.Fill(emEne);
2461 
2462  if (ijet->pt() > minJetPt10)
2463  hadFracEta11.Fill(had);
2464  }
2465  if ((fabs(ijet->eta()) > 1.3) && (fabs(ijet->eta()) < 3.)) {
2466  totEneLeadJetEta2_1.Fill(hadEne + emEne);
2467  hadEneLeadJetEta2_1.Fill(hadEne);
2468  emEneLeadJetEta2_1.Fill(emEne);
2469 
2470  totEneLeadJetEta2_2.Fill(hadEne + emEne);
2471  hadEneLeadJetEta2_2.Fill(hadEne);
2472  emEneLeadJetEta2_2.Fill(emEne);
2473 
2474  if (ijet->pt() > minJetPt10)
2475  hadFracEta21.Fill(had);
2476  }
2477  if (fabs(ijet->eta()) > 3.) {
2478  totEneLeadJetEta3_1.Fill(hadEne + emEne);
2479  hadEneLeadJetEta3_1.Fill(hadEne);
2480  emEneLeadJetEta3_1.Fill(emEne);
2481 
2482  totEneLeadJetEta3_2.Fill(hadEne + emEne);
2483  hadEneLeadJetEta3_2.Fill(hadEne);
2484  emEneLeadJetEta3_2.Fill(emEne);
2485 
2486  if (ijet->pt() > minJetPt10)
2487  hadFracEta31.Fill(had);
2488  }
2489 
2490  if (jjet == 1) {
2491  hadFracLeadJet1.Fill(had);
2492  hadEneLeadJet1.Fill(hadEne);
2493  hadEneLeadJet12.Fill(hadEne);
2494  hadEneLeadJet13.Fill(hadEne);
2495  emEneLeadJet1.Fill(emEne);
2496  emEneLeadJet12.Fill(emEne);
2497  emEneLeadJet13.Fill(emEne);
2498  }
2499 
2500  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
2501  int nConstituents = jetCaloRefs.size();
2502 
2503  if (jjet == 1) {
2504  nTow1 = nTow2 = nTow3 = nTow4 = 0;
2505  for (int i = 0; i < nConstituents; i++) {
2506  float et = jetCaloRefs[i]->et();
2507 
2508  if (et > 0.5)
2509  nTow1++;
2510  if (et > 1.0)
2511  nTow2++;
2512  if (et > 1.5)
2513  nTow3++;
2514  if (et > 2.0)
2515  nTow4++;
2516 
2517  hf_TowerJetEt1.Fill(et / j_et);
2518  }
2519 
2520  nTowersLeadJetPt1.Fill(nTow1);
2521  nTowersLeadJetPt2.Fill(nTow2);
2522  nTowersLeadJetPt3.Fill(nTow3);
2523  nTowersLeadJetPt4.Fill(nTow4);
2524  }
2525 
2526  if ((jjet == 1) && (fabs(ijet->eta()) < 1.3)) {
2528 
2529  for (int i = 0; i < nConstituents; i++) {
2530  float t_et = jetCaloRefs[i]->et();
2531  double delR = deltaR(ijet->eta(), ijet->phi(), jetCaloRefs[i]->eta(), jetCaloRefs[i]->phi());
2532  hf_TowerDelR1.Fill(delR, t_et / j_et);
2533  hf_TowerDelR12.Fill(delR, t_et / j_et);
2534  TowerEtLeadJet1.Fill(t_et);
2535  TowerEtLeadJet12.Fill(t_et);
2536  TowerEtLeadJet13.Fill(t_et);
2537  }
2538  }
2539 
2540  if ((jjet == 2) && (fabs(ijet->eta()) < 1.3)) {
2542  }
2543  }
2544 
2545  // *********************
2546  // Unclustered Energy
2547  // *********************
2548 
2549  double SumEtNotJets(0);
2550  double SumEtJets(0);
2551 
2552  double sumTowerAllEx(0);
2553  double sumTowerAllEy(0);
2554 
2555  std::vector<CaloTowerPtr> UsedTowerList;
2556  std::vector<CaloTower> TowerUsedInJets;
2557  std::vector<CaloTower> TowerNotUsedInJets;
2558 
2559  // *********************
2560  // Towers
2561 
2563  evt.getByLabel("towerMaker", caloTowers);
2564 
2565  nTow1 = nTow2 = nTow3 = nTow4 = 0;
2566 
2567  double sum_et = 0.0;
2568  double sum_ex = 0.0;
2569  double sum_ey = 0.0;
2570  // double sum_ez = 0.0;
2571 
2572  // --- Loop over towers and make a lists of used and unused towers
2574  Double_t et = tower->et();
2575 
2576  if (et > 0.5)
2577  nTow1++;
2578  if (et > 1.0)
2579  nTow2++;
2580  if (et > 1.5)
2581  nTow3++;
2582  if (et > 2.0)
2583  nTow4++;
2584 
2585  if (et > 0.5) {
2586  // ********
2587  double phix = tower->phi();
2588  // double theta = tower->theta();
2589  // double e = tower->energy();
2590  // double et = e*sin(theta);
2591  // double et = tower->emEt() + tower->hadEt();
2592  double et = tower->et();
2593 
2594  // sum_ez += e*cos(theta);
2595  sum_et += et;
2596  sum_ex += et * cos(phix);
2597  sum_ey += et * sin(phix);
2598  // ********
2599 
2600  Double_t phi = tower->phi();
2601 
2602  sumTowerAllEx += et * cos(phi);
2603  sumTowerAllEy += et * sin(phi);
2604  }
2605  }
2606 
2607  SumEt1.Fill(sum_et);
2608  SumEt12.Fill(sum_et);
2609  SumEt13.Fill(sum_et);
2610 
2611  MET1.Fill(sqrt(sum_ex * sum_ex + sum_ey * sum_ey));
2612  MET12.Fill(sqrt(sum_ex * sum_ex + sum_ey * sum_ey));
2613  MET13.Fill(sqrt(sum_ex * sum_ex + sum_ey * sum_ey));
2614 
2615  // met->mex = -sum_ex;
2616  // met->mey = -sum_ey;
2617  // met->mez = -sum_ez;
2618  // met->met = sqrt( sum_ex*sum_ex + sum_ey*sum_ey );
2619  // cout << "MET = " << met->met << endl;
2620  // met->sumet = sum_et;
2621  // met->phi = atan2( -sum_ey, -sum_ex );
2622 
2623  hf_sumTowerAllEx.Fill(sumTowerAllEx);
2624  hf_sumTowerAllEy.Fill(sumTowerAllEy);
2625 
2626  nTowers1.Fill(nTow1);
2627  nTowers2.Fill(nTow2);
2628  nTowers3.Fill(nTow3);
2629  nTowers4.Fill(nTow4);
2630 
2631  // *********************
2632  // MidPoint
2633  //
2634  UsedTowerList.clear();
2635  TowerUsedInJets.clear();
2636  TowerNotUsedInJets.clear();
2637 
2638  // --- Loop over jets and make a list of all the used towers
2640  for (CaloJetCollection::const_iterator ijet = jets->begin(); ijet != jets->end(); ijet++) {
2641  // if (jetPt>5.0) {
2642 
2643  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
2644  int nConstituents = jetCaloRefs.size();
2645  for (int i = 0; i < nConstituents; i++) {
2646  UsedTowerList.push_back(jetCaloRefs[i]);
2647  }
2648 
2649  // }
2650  }
2651 
2652  int NTowersUsed = UsedTowerList.size();
2653 
2654  // --- Loop over towers and make a lists of used and unused towers
2656  const CaloTower& t = *tower;
2657  Double_t et = tower->et();
2658 
2659  if (et > 0) {
2660  bool used = false;
2661 
2662  for (int i = 0; i < NTowersUsed; i++) {
2663  if (tower->id() == UsedTowerList[i]->id()) {
2664  used = true;
2665  break;
2666  }
2667  }
2668 
2669  if (used) {
2670  TowerUsedInJets.push_back(t);
2671  } else {
2672  TowerNotUsedInJets.push_back(t);
2673  }
2674  }
2675  }
2676 
2677  int nUsed = TowerUsedInJets.size();
2678  int nNotUsed = TowerNotUsedInJets.size();
2679 
2680  SumEtJets = 0;
2681  SumEtNotJets = 0;
2682 
2683  for (int i = 0; i < nUsed; i++) {
2684  SumEtJets += TowerUsedInJets[i].et();
2685  }
2686  h_jetEt1.Fill(SumEtJets);
2687 
2688  for (int i = 0; i < nNotUsed; i++) {
2689  if (TowerNotUsedInJets[i].et() > 0.5)
2690  SumEtNotJets += TowerNotUsedInJets[i].et();
2691  h_missEt1.Fill(TowerNotUsedInJets[i].et());
2692  h_missEt1s.Fill(TowerNotUsedInJets[i].et());
2693  }
2694  h_totMissEt1.Fill(SumEtNotJets);
2695 
2696  // *********************
2697  // SISCone
2698  //
2699  UsedTowerList.clear();
2700  TowerUsedInJets.clear();
2701  TowerNotUsedInJets.clear();
2702 
2703  // --- Loop over jets and make a list of all the used towers
2705  for (CaloJetCollection::const_iterator ijet = jets->begin(); ijet != jets->end(); ijet++) {
2706  // if (jetPt>5.0) {
2707 
2708  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
2709  int nConstituents = jetCaloRefs.size();
2710  for (int i = 0; i < nConstituents; i++) {
2711  UsedTowerList.push_back(jetCaloRefs[i]);
2712  }
2713 
2714  // }
2715  }
2716 
2717  // Handle<CaloTowerCollection> caloTowers;
2718  // evt.getByLabel( "towerMaker", caloTowers );
2719 
2720  NTowersUsed = UsedTowerList.size();
2721 
2722  // --- Loop over towers and make a lists of used and unused towers
2724  const CaloTower& t = *tower;
2725  Double_t et = tower->et();
2726 
2727  if (et > 0) {
2728  bool used = false;
2729 
2730  for (int i = 0; i < NTowersUsed; i++) {
2731  if (tower->id() == UsedTowerList[i]->id()) {
2732  used = true;
2733  break;
2734  }
2735  }
2736 
2737  if (used) {
2738  TowerUsedInJets.push_back(t);
2739  } else {
2740  TowerNotUsedInJets.push_back(t);
2741  }
2742  }
2743  }
2744 
2745  nUsed = TowerUsedInJets.size();
2746  nNotUsed = TowerNotUsedInJets.size();
2747 
2748  SumEtJets = 0;
2749  SumEtNotJets = 0;
2750 
2751  for (int i = 0; i < nUsed; i++) {
2752  SumEtJets += TowerUsedInJets[i].et();
2753  }
2754  h_jetEt2.Fill(SumEtJets);
2755 
2756  for (int i = 0; i < nNotUsed; i++) {
2757  if (TowerNotUsedInJets[i].et() > 0.5)
2758  SumEtNotJets += TowerNotUsedInJets[i].et();
2759  h_missEt2.Fill(TowerNotUsedInJets[i].et());
2760  h_missEt2s.Fill(TowerNotUsedInJets[i].et());
2761  }
2762  h_totMissEt2.Fill(SumEtNotJets);
2763 
2764  // *********************
2765  // KtClus
2766  //
2767  UsedTowerList.clear();
2768  TowerUsedInJets.clear();
2769  TowerNotUsedInJets.clear();
2770 
2771  // --- Loop over jets and make a list of all the used towers
2773  for (CaloJetCollection::const_iterator ijet = jets->begin(); ijet != jets->end(); ijet++) {
2774  // if (jetPt>5.0) {
2775 
2776  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
2777  int nConstituents = jetCaloRefs.size();
2778  for (int i = 0; i < nConstituents; i++) {
2779  UsedTowerList.push_back(jetCaloRefs[i]);
2780  }
2781 
2782  // }
2783  }
2784 
2785  // Handle<CaloTowerCollection> caloTowers;
2786  // evt.getByLabel( "towerMaker", caloTowers );
2787 
2788  NTowersUsed = UsedTowerList.size();
2789 
2790  // --- Loop over towers and make a lists of used and unused towers
2792  const CaloTower& t = *tower;
2793  Double_t et = tower->et();
2794 
2795  if (et > 0) {
2796  bool used = false;
2797 
2798  for (int i = 0; i < NTowersUsed; i++) {
2799  if (tower->id() == UsedTowerList[i]->id()) {
2800  used = true;
2801  break;
2802  }
2803  }
2804 
2805  if (used) {
2806  TowerUsedInJets.push_back(t);
2807  } else {
2808  TowerNotUsedInJets.push_back(t);
2809  }
2810  }
2811  }
2812 
2813  nUsed = TowerUsedInJets.size();
2814  nNotUsed = TowerNotUsedInJets.size();
2815 
2816  SumEtJets = 0;
2817  SumEtNotJets = 0;
2818 
2819  for (int i = 0; i < nUsed; i++) {
2820  SumEtJets += TowerUsedInJets[i].et();
2821  }
2822  h_jetEt3.Fill(SumEtJets);
2823 
2824  for (int i = 0; i < nNotUsed; i++) {
2825  if (TowerNotUsedInJets[i].et() > 0.5)
2826  SumEtNotJets += TowerNotUsedInJets[i].et();
2827  h_missEt3.Fill(TowerNotUsedInJets[i].et());
2828  h_missEt3s.Fill(TowerNotUsedInJets[i].et());
2829  }
2830  h_totMissEt3.Fill(SumEtNotJets);
2831 }
2832 
2834  //Write out the histogram file.
2835  m_file->Write();
2836 }
TH1F ZpMassResRL132
Definition: myFastSimVal.h:89
TH1F totEneLeadJetEta1_1
Definition: myFastSimVal.h:43
TH1F ZpMassResL403
Definition: myFastSimVal.h:87
TH1F ZpMassResRLoP102
Definition: myFastSimVal.h:91
TH1F ZpMassGen_2000_40
Definition: myFastSimVal.h:78
TH1F ZpMass_5000_40
Definition: myFastSimVal.h:79
TH1F ZpMassGen_5000_13
Definition: myFastSimVal.h:80
TProfile hf_nJet2
Definition: myFastSimVal.h:30
TH1F hadEneLeadJetEta1_2
Definition: myFastSimVal.h:47
TH1F hadEneLeadJet2
Definition: myFastSimVal.h:59
TH1F hadFracEta33
Definition: myFastSimVal.h:67
TH1F TowerEtLeadJet23
Definition: myFastSimVal.h:73
TH1F ZpMassResL133
Definition: myFastSimVal.h:86
TH1F hadEneLeadJetEta3_2
Definition: myFastSimVal.h:47
TH1F dijetMass_700_101
Definition: myFastSimVal.h:112
TH1F matchedAllPt31
Definition: myFastSimVal.h:52
TH1F hadFracEta31
Definition: myFastSimVal.h:65
std::string GenJetAlgorithm3
Definition: myFastSimVal.h:25
TH1F hadFracEta11
Definition: myFastSimVal.h:65
TH1F dijetMassCor_700_101
Definition: myFastSimVal.h:101
TH1F emEneLeadJet32
Definition: myFastSimVal.h:63
TH1F ZpMassResPRL402
Definition: myFastSimVal.h:96
TH1F ZpMassRes103
Definition: myFastSimVal.h:97
TH1F dijetMass_5000_131
Definition: myFastSimVal.h:114
TH1F emEneLeadJet3
Definition: myFastSimVal.h:62
TH1F ZpMassResPRL131
Definition: myFastSimVal.h:95
TH1F hadFracEta13
Definition: myFastSimVal.h:67
TH1F matchedAllPt12
Definition: myFastSimVal.h:50
TH1F h_lowPtCal1c12
Definition: myFastSimVal.h:176
TH1F ZpMassResRLoP131
Definition: myFastSimVal.h:92
TH1F ZpMassResPRL103
Definition: myFastSimVal.h:94
virtual const Candidate * mother(size_type i=0) const =0
return pointer to mother
TH1F hadEneLeadJet33
Definition: myFastSimVal.h:61
std::string CaloJetAlgorithm3
Definition: myFastSimVal.h:24
TH1F ZpMass_700_13
Definition: myFastSimVal.h:75
std::string GenJetAlgorithm1
Definition: myFastSimVal.h:25
TProfile hf_TowerDelR1
Definition: myFastSimVal.h:28
TH1F tbarMassGen
Definition: myFastSimVal.h:84
TH1F h_lowPtCal2c12
Definition: myFastSimVal.h:176
TH1F ZpMassResL101
Definition: myFastSimVal.h:85
TH1F ZpMassRes401
Definition: myFastSimVal.h:99
TH1F totEneLeadJetEta3_2
Definition: myFastSimVal.h:46
TH1F ZpMassResRLoP402
Definition: myFastSimVal.h:93
TH1F matchedAllPt43
Definition: myFastSimVal.h:53
void endJob() override
std::string CaloJetAlgorithm4
Definition: myFastSimVal.h:24
TH1F dijetMassP_5000_101
Definition: myFastSimVal.h:120
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
TH1F hadEneLeadJetEta3_1
Definition: myFastSimVal.h:44
TH1F hadEneLeadJet3
Definition: myFastSimVal.h:59
TH1F TowerEtLeadJet22
Definition: myFastSimVal.h:72
std::vector< CaloTower >::const_iterator const_iterator
virtual double vx() const =0
x coordinate of vertex position
TProfile hf_nJet31
Definition: myFastSimVal.h:32
TH1F hadEneLeadJet12
Definition: myFastSimVal.h:60
TH1F ZpMassGen10
Definition: myFastSimVal.h:74
TH1F dijetMassCor_5000_101
Definition: myFastSimVal.h:103
TH1F ZpMassRes133
Definition: myFastSimVal.h:98
TH1F hadFracEta23
Definition: myFastSimVal.h:67
TH1F h_lowPtCal1c11
Definition: myFastSimVal.h:175
TProfile hf_TowerDelR22
Definition: myFastSimVal.h:29
TH1F h_lowPtCal3c12
Definition: myFastSimVal.h:176
TH1F dijetMassP101
Definition: myFastSimVal.h:116
TH1F dijetMassCor_2000_131
Definition: myFastSimVal.h:102
TH1F ZpMassResL401
Definition: myFastSimVal.h:87
TProfile hf_TowerDelR2
Definition: myFastSimVal.h:28
TH1F dijetMass_700_131
Definition: myFastSimVal.h:112
TH1F dijetMassCor_5000_131
Definition: myFastSimVal.h:103
TH1F emEneLeadJetEta3_1
Definition: myFastSimVal.h:45
TH1F ZpMass_700_10
Definition: myFastSimVal.h:75
TProfile hf_TowerDelR3
Definition: myFastSimVal.h:28
TH1F h_lowPtCal4c13
Definition: myFastSimVal.h:177
TH1F nTowersSecondJet1
Definition: myFastSimVal.h:68
TH1F ZpMassResRL103
Definition: myFastSimVal.h:88
int njet
Definition: HydjetWrapper.h:89
TH1F ZpMassGen_2000_10
Definition: myFastSimVal.h:78
TH1F dijetMass_2000_131
Definition: myFastSimVal.h:113
TH1F hadEneLeadJet13
Definition: myFastSimVal.h:61
TH1F dijetMassP_2000_101
Definition: myFastSimVal.h:119
TH1F ZpMassMatched1
Definition: myFastSimVal.h:105
int nEvent
Definition: myFastSimVal.cc:44
virtual double vy() const =0
y coordinate of vertex position
TProfile hf_nJet3
Definition: myFastSimVal.h:30
#define MAXJETS
Definition: myFastSimVal.cc:29
TH1F dijetMass_700_401
Definition: myFastSimVal.h:112
TH1F nTowersLeadJet1
Definition: myFastSimVal.h:68
TH1F matchedAllPt32
Definition: myFastSimVal.h:52
TH1F TowerEtLeadJet32
Definition: myFastSimVal.h:72
TH1F ZpMassResRLoP403
Definition: myFastSimVal.h:93
myFastSimVal(const edm::ParameterSet &)
Definition: myFastSimVal.cc:33
TH1F ZpMassGen_5000_10
Definition: myFastSimVal.h:80
TH1F matchedAllPt23
Definition: myFastSimVal.h:51
TH1F ZpMassResPRL101
Definition: myFastSimVal.h:94
TH1F topMassParton
Definition: myFastSimVal.h:81
TH1F emEneLeadJetEta2_1
Definition: myFastSimVal.h:45
TH1F dijetMassCor_2000_101
Definition: myFastSimVal.h:102
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:29
TH1F ZpMassResPRL401
Definition: myFastSimVal.h:96
TH1F matchedPt23
Definition: myFastSimVal.h:55
TH1F matchedPt33
Definition: myFastSimVal.h:56
TH1F emEneLeadJet13
Definition: myFastSimVal.h:64
virtual size_type numberOfDaughters() const =0
number of daughters
TProfile hf_PtResponse1
Definition: myFastSimVal.h:33
TH1F matchedPt32
Definition: myFastSimVal.h:56
TH1F ZpMassResL103
Definition: myFastSimVal.h:85
TH1F matchedAllPt21
Definition: myFastSimVal.h:51
TH1F dijetMassCor_2000_401
Definition: myFastSimVal.h:102
TH1F dijetMassP_5000_401
Definition: myFastSimVal.h:120
TProfile hf_nJet4s
Definition: myFastSimVal.h:31
TH1F nTowersLeadJetPt1
Definition: myFastSimVal.h:42
TH1F ZpMassResRL401
Definition: myFastSimVal.h:90
TH1F ZpMass_5000_13
Definition: myFastSimVal.h:79
TH1F ZpMassResL402
Definition: myFastSimVal.h:87
TH1F nTowersLeadJetPt3
Definition: myFastSimVal.h:42
TProfile hf_nJet1
Definition: myFastSimVal.h:30
TH1F TowerEtLeadJet33
Definition: myFastSimVal.h:73
TH1F ZpMassMatched3
Definition: myFastSimVal.h:105
TH1F ZpMassRes131
Definition: myFastSimVal.h:98
TH1F ZpMassResRL131
Definition: myFastSimVal.h:89
TH1F dijetMassP_5000_131
Definition: myFastSimVal.h:120
TH1F matchedPt21
Definition: myFastSimVal.h:55
TH1F h_lowPtCal4c12
Definition: myFastSimVal.h:176
TProfile hf_nJet1s
Definition: myFastSimVal.h:31
TH1F hadFracEta21
Definition: myFastSimVal.h:65
TProfile hf_nJet3s
Definition: myFastSimVal.h:31
TH1F ZpMassResRLoP133
Definition: myFastSimVal.h:92
TH1F matchedPt41
Definition: myFastSimVal.h:57
void beginJob() override
Definition: myFastSimVal.cc:46
TH1F nTowersLeadJetPt4
Definition: myFastSimVal.h:42
TH1F ZpMassResRL102
Definition: myFastSimVal.h:88
T sqrt(T t)
Definition: SSEVec.h:19
TH1F hadFracEta22
Definition: myFastSimVal.h:66
TH1F dijetMassP_700_401
Definition: myFastSimVal.h:118
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
TH1F emEneLeadJet2
Definition: myFastSimVal.h:62
TH1F hadFracEta12
Definition: myFastSimVal.h:66
TH1F ZpMassRes132
Definition: myFastSimVal.h:98
TH1F ZpMassResPRL102
Definition: myFastSimVal.h:94
TH1F dijetMassP_700_101
Definition: myFastSimVal.h:118
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
TH1F ZpMassRes102
Definition: myFastSimVal.h:97
TProfile hf_PtResponse2
Definition: myFastSimVal.h:33
TH1F dijetMassCor_5000_1
Definition: myFastSimVal.h:103
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
TH1F hadFracEta32
Definition: myFastSimVal.h:66
TH1F dijetMass_5000_101
Definition: myFastSimVal.h:114
TH1F dijetMassCor_700_131
Definition: myFastSimVal.h:101
TProfile hf_PtResponse3
Definition: myFastSimVal.h:33
TH1F totEneLeadJetEta3_1
Definition: myFastSimVal.h:43
TProfile hf_TowerDelR12
Definition: myFastSimVal.h:29
TH1F matchedAllPt41
Definition: myFastSimVal.h:53
TH1F ZpMassResPRL133
Definition: myFastSimVal.h:95
TH1F hadEneLeadJet22
Definition: myFastSimVal.h:60
TH1F ZpMassGen_2000_13
Definition: myFastSimVal.h:78
TH1F ZpMass_2000_40
Definition: myFastSimVal.h:77
TH1F nTowersLeadJet3
Definition: myFastSimVal.h:70
TH1F ZpMassResL131
Definition: myFastSimVal.h:86
void analyze(const edm::Event &, const edm::EventSetup &) override
def gen(fragment, howMuch)
Production test section ####.
TH1F ZpMassResRLoP401
Definition: myFastSimVal.h:93
TH1F nTowersLeadJet2
Definition: myFastSimVal.h:69
TH1F ZpMassRes101
Definition: myFastSimVal.h:97
TH1F ZpMass_700_40
Definition: myFastSimVal.h:75
TH1F emEneLeadJet22
Definition: myFastSimVal.h:63
TH1F hadEneLeadJetEta2_2
Definition: myFastSimVal.h:47
TH1F ZpMassResL132
Definition: myFastSimVal.h:86
TH1F ZpMassGen_700_10
Definition: myFastSimVal.h:76
TH1F ZpMassResRLoP103
Definition: myFastSimVal.h:91
ii
Definition: cuy.py:589
#define M_PI
TH1F ZpMassResL102
Definition: myFastSimVal.h:85
TH1F ZpMassGen_5000_40
Definition: myFastSimVal.h:80
TH1F TowerEtLeadJet12
Definition: myFastSimVal.h:72
TH1F matchedAllPt13
Definition: myFastSimVal.h:50
TH1F h_lowPtCal3c11
Definition: myFastSimVal.h:175
TH1F TowerEtLeadJet2
Definition: myFastSimVal.h:71
TH1F hadEneLeadJetEta1_1
Definition: myFastSimVal.h:44
TH1F ZpMassGen_700_13
Definition: myFastSimVal.h:76
TH1F ZpMass_2000_13
Definition: myFastSimVal.h:77
TH1F matchedAllPt22
Definition: myFastSimVal.h:51
TH1F dijetMassCor_700_1
Definition: myFastSimVal.h:101
TH1F dijetMassCor_2000_1
Definition: myFastSimVal.h:102
virtual int pdgId() const =0
PDG identifier.
TProfile hf_nJet41
Definition: myFastSimVal.h:32
TH1F totEneLeadJetEta2_1
Definition: myFastSimVal.h:43
TH1F matchedPt13
Definition: myFastSimVal.h:54
TH1F dijetMassCor_5000_401
Definition: myFastSimVal.h:103
std::string GenJetAlgorithm4
Definition: myFastSimVal.h:25
TString nPart(Int_t part, TString string, TString delimit=";", Bool_t removerest=true)
TH1F dijetMassCor_700_401
Definition: myFastSimVal.h:101
TH1F ZpMassMatched2
Definition: myFastSimVal.h:105
TH1F matchedPt12
Definition: myFastSimVal.h:54
TH1F ZpMass_2000_10
Definition: myFastSimVal.h:77
TH1F matchedPt22
Definition: myFastSimVal.h:55
TH1F hadEneLeadJet23
Definition: myFastSimVal.h:61
TH1F dijetMassP401
Definition: myFastSimVal.h:116
TH1F hadFracLeadJet2
Definition: myFastSimVal.h:69
TH1F hadFracLeadJet1
Definition: myFastSimVal.h:68
XYZVectorD XYZVector
spatial vector with cartesian internal representation
Definition: Vector3D.h:31
TH1F ZpMassGen13
Definition: myFastSimVal.h:74
TH1F dijetMassCor101
Definition: myFastSimVal.h:122
TH1F nTowersSecondJet2
Definition: myFastSimVal.h:69
TH1F h_lowPtCal4c11
Definition: myFastSimVal.h:175
TH1F dijetMassCor131
Definition: myFastSimVal.h:122
TProfile hf_TowerDelR32
Definition: myFastSimVal.h:29
TH1F hf_sumTowerAllEy
Definition: myFastSimVal.h:35
TH1F dijetMassP_2000_401
Definition: myFastSimVal.h:119
TH1F emEneLeadJetEta2_2
Definition: myFastSimVal.h:48
TH1F emEneLeadJetEta1_1
Definition: myFastSimVal.h:45
TH1F dijetMassP_700_131
Definition: myFastSimVal.h:118
TH1F emEneLeadJet12
Definition: myFastSimVal.h:63
TH1F h_lowPtCal2c13
Definition: myFastSimVal.h:177
TProfile hf_nJet21
Definition: myFastSimVal.h:32
TH1F TowerEtLeadJet3
Definition: myFastSimVal.h:71
TH1F dijetMass_2000_401
Definition: myFastSimVal.h:113
TH1F emEneLeadJet23
Definition: myFastSimVal.h:64
TH1F emEneLeadJetEta3_2
Definition: myFastSimVal.h:48
TH1F emEneLeadJetEta1_2
Definition: myFastSimVal.h:48
TH1F dijetMass_2000_101
Definition: myFastSimVal.h:113
TH1F ZpMassResRL133
Definition: myFastSimVal.h:89
TH1F ZpMassResPRL132
Definition: myFastSimVal.h:95
virtual double vz() const =0
z coordinate of vertex position
std::string CaloJetAlgorithm1
Definition: myFastSimVal.h:24
TH1F totEneLeadJetEta2_2
Definition: myFastSimVal.h:46
TH1F ZpMassGen40
Definition: myFastSimVal.h:74
fixed size matrix
TH1F emEneLeadJet1
Definition: myFastSimVal.h:62
HLT enums.
TH1F hf_sumTowerAllEx
Definition: myFastSimVal.h:35
TH1F hf_TowerJetEt1
Definition: myFastSimVal.h:39
TProfile hf_nJet2s
Definition: myFastSimVal.h:31
TH1F hadEneLeadJetEta2_1
Definition: myFastSimVal.h:44
TH1F emEneLeadJet33
Definition: myFastSimVal.h:64
TH1F ZpMassResRL402
Definition: myFastSimVal.h:90
TH1F matchedAllPt11
Definition: myFastSimVal.h:50
TH1F ZpMass_5000_10
Definition: myFastSimVal.h:79
TH1F ZpMassRes402
Definition: myFastSimVal.h:99
TH1F ZpMassRes403
Definition: myFastSimVal.h:99
TH1F matchedAllPt33
Definition: myFastSimVal.h:52
TH1F matchedPt42
Definition: myFastSimVal.h:57
TH1F ZpMassGen_700_40
Definition: myFastSimVal.h:76
TProfile hf_nJet11
Definition: myFastSimVal.h:32
TH1F nTowersLeadJetPt2
Definition: myFastSimVal.h:42
TH1F TowerEtLeadJet1
Definition: myFastSimVal.h:71
TH1F h_lowPtCal1c13
Definition: myFastSimVal.h:177
TH1F ZpMassResRL101
Definition: myFastSimVal.h:88
TH1F ZpMassResRL403
Definition: myFastSimVal.h:90
TFile * m_file
Definition: myFastSimVal.h:186
TH1F hadFracLeadJet3
Definition: myFastSimVal.h:70
std::string GenJetAlgorithm2
Definition: myFastSimVal.h:25
TProfile hf_PtResponse4
Definition: myFastSimVal.h:33
static constexpr float d1
TH1F dijetMassCor1
Definition: myFastSimVal.h:122
TH1F dijetMassCor401
Definition: myFastSimVal.h:122
TProfile hf_nJet4
Definition: myFastSimVal.h:30
std::string CaloJetAlgorithm2
Definition: myFastSimVal.h:24
TH1F h_lowPtCal2c11
Definition: myFastSimVal.h:175
TH1F dijetMassP131
Definition: myFastSimVal.h:116
TH1F totEneLeadJetEta1_2
Definition: myFastSimVal.h:46
TH1F ZpMassResPRL403
Definition: myFastSimVal.h:96
TH1F TowerEtLeadJet13
Definition: myFastSimVal.h:73
TH1F matchedPt43
Definition: myFastSimVal.h:57
TH1F dijetMassP_2000_131
Definition: myFastSimVal.h:119
TH1F matchedPt31
Definition: myFastSimVal.h:56
TH1F matchedAllPt42
Definition: myFastSimVal.h:53
bool getByLabel(InputTag const &tag, Handle< PROD > &result) const
Definition: Event.h:501
TH1F hadEneLeadJet1
Definition: myFastSimVal.h:59
TH1F ZpMassResRLoP132
Definition: myFastSimVal.h:92
TH1F matchedPt11
Definition: myFastSimVal.h:54
TH1F nTowersSecondJet3
Definition: myFastSimVal.h:70
TH1F dijetMass_5000_401
Definition: myFastSimVal.h:114
TH1F hadEneLeadJet32
Definition: myFastSimVal.h:60
TH1F h_lowPtCal3c13
Definition: myFastSimVal.h:177
TH1F ZpMassResRLoP101
Definition: myFastSimVal.h:91
virtual const LorentzVector & p4() const =0
four-momentum Lorentz vector