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L1AnalysisRecoMuonDataFormat.h
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1 #ifndef __L1Analysis_L1AnalysisRecoMuonDataFormat_H__
2 #define __L1Analysis_L1AnalysisRecoMuonDataFormat_H__
3 
4 //-------------------------------------------------------------------------------
5 // Created 20/04/2010 - E. Conte, A.C. Le Bihan
6 //
7 //
8 // Original code : L1Trigger/L1TNtuples/L1RecoMuonDataFormatProducer - Luigi Guiducci
9 //-------------------------------------------------------------------------------
10 
11 #include <vector>
12 
13 namespace L1Analysis
14 {
16  {
19 
20  void Reset()
21  {
22  nMuons = 0;
23 
24  // what muon kind? 0=global 1=SA 2=trackeronly
25  type.clear();
26  howmanytypes.clear();
27  // global muons quantities
28  ch.clear();
29  pt.clear();
30  p.clear();
31  eta.clear();
32  phi.clear();
33  validhits.clear();
35  numberOfValidMuonHits.clear();
36  normchi2.clear();
37  imp_point_x.clear();
38  imp_point_y.clear();
39  imp_point_z.clear();
40  imp_point_p.clear();
41  imp_point_pt.clear();
42  phi_hb.clear();
43  z_hb.clear();
44  r_he_p.clear();
45  r_he_n.clear();
46  phi_he_p.clear();
47  phi_he_n.clear();
48 
49  // tracker muons quantities
50  tr_ch.clear();
51  tr_pt.clear();
52  tr_p.clear();
53  tr_eta.clear();
54  tr_phi.clear();
55  tr_validhits.clear();
56  tr_validpixhits.clear();
57  tr_normchi2.clear();
58  tr_d0.clear();
59  tr_imp_point_x.clear();
60  tr_imp_point_y.clear();
61  tr_imp_point_z.clear();
62  tr_imp_point_p.clear();
63  tr_imp_point_pt.clear();
64 
65  tr_z_mb2.clear();
66  tr_phi_mb2.clear();
67  tr_r_me2_p.clear();
68  tr_phi_me2_p.clear();
69  tr_r_me2_n.clear();
70  tr_phi_me2_n.clear();
71 
72  tr_z_mb1.clear();
73  tr_phi_mb1.clear();
74  tr_r_me1_p.clear();
75  tr_phi_me1_p.clear();
76  tr_r_me1_n.clear();
77  tr_phi_me1_n.clear();
78 
79  // standalone muons (either part of global or SA only)
80  sa_phi_mb2.clear();
81  sa_z_mb2.clear();
82  sa_pseta.clear();
83  sa_normchi2.clear();
84  sa_validhits.clear();
85  sa_ch.clear();
86  sa_pt.clear();
87  sa_p.clear();
88  sa_eta.clear();
89  sa_phi.clear();
90  sa_outer_pt.clear();
91  sa_inner_pt.clear();
92  sa_outer_eta.clear();
93  sa_inner_eta.clear();
94  sa_outer_phi.clear();
95  sa_inner_phi.clear();
96  sa_outer_x.clear();
97  sa_outer_y.clear();
98  sa_outer_z.clear();
99  sa_inner_x.clear();
100  sa_inner_y.clear();
101  sa_inner_z.clear();
102  sa_imp_point_x.clear();
103  sa_imp_point_y.clear();
104  sa_imp_point_z.clear();
105  sa_imp_point_p.clear();
106  sa_imp_point_pt.clear();
107  sa_phi_hb.clear();
108  sa_z_hb.clear();
109  sa_r_he_p.clear();
110  sa_r_he_n.clear();
111  sa_phi_he_p.clear();
112  sa_phi_he_n.clear();
113  sa_phi_me2_p.clear();
114  sa_phi_me2_n.clear();
115  sa_r_me2_p.clear();
116  sa_r_me2_n.clear();
117 
118  sa_z_mb1.clear();
119  sa_phi_mb1.clear();
120  sa_r_me1_p.clear();
121  sa_phi_me1_p.clear();
122  sa_r_me1_n.clear();
123  sa_phi_me1_n.clear();
124 
125  calo_energy.clear();
126  calo_energy3x3.clear();
127  ecal_time.clear();
128  ecal_terr.clear();
129  hcal_time.clear();
130  hcal_terr.clear();
131  time_dir.clear(); // -1 = outsideIn 0=undefined 1=insideOut
132  time_inout.clear();
133  time_inout_err.clear();
134  time_outin.clear();
135  time_outin_err.clear();
136 
137  sa_nChambers.clear();
138  sa_nMatches.clear();
139 
140  // RECHIT information from CSC: only for standalone/global muons!
141  rchCSCtype.clear();
142  rchPhi.clear();
143  rchEta.clear();
144 
145  // Trigger matching information:
146  hlt_isomu.clear();
147  hlt_mu.clear();
148  hlt_isoDeltaR.clear();
149  hlt_deltaR.clear();
150 
151 
152  }
153 
154  // how many muons of any kind
155  int nMuons;
156 
157  // what muon kind? 0=global 1=SA 2=trackeronly 3=trsa
158  std::vector<int> type;
159  std::vector<int> howmanytypes;
160  // global muons quantities
161  std::vector<double> ch;
162  std::vector<double> pt;
163  std::vector<double> p;
164  std::vector<double> eta;
165  std::vector<double> phi;
166  std::vector<double> validhits;
167  std::vector<double> numberOfMatchedStations;
168  std::vector<double> numberOfValidMuonHits;
169  std::vector<double> normchi2;
170  std::vector<double> imp_point_x;
171  std::vector<double> imp_point_y;
172  std::vector<double> imp_point_z;
173  std::vector<double> imp_point_p;
174  std::vector<double> imp_point_pt;
175  std::vector<double> phi_hb;
176  std::vector<double> z_hb;
177  std::vector<double> r_he_p;
178  std::vector<double> r_he_n;
179  std::vector<double> phi_he_p;
180  std::vector<double> phi_he_n;
181 
182  // tracker muons quantities
183  std::vector<double> tr_ch;
184  std::vector<double> tr_pt;
185  std::vector<double> tr_p;
186  std::vector<double> tr_eta;
187  std::vector<double> tr_phi;
188  std::vector<double> tr_validhits;
189  std::vector<double> tr_validpixhits;
190  std::vector<double> tr_normchi2;
191  std::vector<double> tr_d0;
192  std::vector<double> tr_imp_point_x;
193  std::vector<double> tr_imp_point_y;
194  std::vector<double> tr_imp_point_z;
195  std::vector<double> tr_imp_point_p;
196  std::vector<double> tr_imp_point_pt;
197 
198  std::vector<double> tr_z_mb2;
199  std::vector<double> tr_phi_mb2;
200  std::vector<double> tr_r_me2_p;
201  std::vector<double> tr_phi_me2_p;
202  std::vector<double> tr_r_me2_n;
203  std::vector<double> tr_phi_me2_n;
204 
205  std::vector<double> tr_z_mb1 ;
206  std::vector<double> tr_phi_mb1;
207  std::vector<double> tr_r_me1_p ;
208  std::vector<double> tr_phi_me1_p;
209  std::vector<double> tr_r_me1_n ;
210  std::vector<double> tr_phi_me1_n;
211 
212  // standalone muons (either part of global or SA only)
213  std::vector<double> sa_phi_mb2;
214  std::vector<double> sa_z_mb2;
215  std::vector<double> sa_pseta;
216  std::vector<double> sa_normchi2;
217  std::vector<double> sa_validhits;
218  std::vector<double> sa_ch;
219  std::vector<double> sa_pt;
220  std::vector<double> sa_p;
221  std::vector<double> sa_eta;
222  std::vector<double> sa_phi;
223  std::vector<double> sa_outer_pt;
224  std::vector<double> sa_inner_pt;
225  std::vector<double> sa_outer_eta;
226  std::vector<double> sa_inner_eta;
227  std::vector<double> sa_outer_phi;
228  std::vector<double> sa_inner_phi;
229  std::vector<double> sa_outer_x;
230  std::vector<double> sa_outer_y;
231  std::vector<double> sa_outer_z;
232  std::vector<double> sa_inner_x;
233  std::vector<double> sa_inner_y;
234  std::vector<double> sa_inner_z;
235  std::vector<double> sa_imp_point_x;
236  std::vector<double> sa_imp_point_y;
237  std::vector<double> sa_imp_point_z;
238  std::vector<double> sa_imp_point_p;
239  std::vector<double> sa_imp_point_pt;
240  std::vector<double> sa_phi_hb;
241  std::vector<double> sa_z_hb;
242  std::vector<double> sa_r_he_p;
243  std::vector<double> sa_r_he_n;
244  std::vector<double> sa_phi_he_p;
245  std::vector<double> sa_phi_he_n;
246  std::vector<double> sa_r_me2_p;
247  std::vector<double> sa_r_me2_n;
248  std::vector<double> sa_phi_me2_p;
249  std::vector<double> sa_phi_me2_n;
250 
251  std::vector<double> sa_z_mb1;
252  std::vector<double> sa_phi_mb1;
253  std::vector<double> sa_r_me1_p;
254  std::vector<double> sa_phi_me1_p;
255  std::vector<double> sa_r_me1_n;
256  std::vector<double> sa_phi_me1_n;
257 
258  std::vector<double> calo_energy;
259  std::vector<double> calo_energy3x3;
260  std::vector<double> ecal_time;
261  std::vector<double> ecal_terr;
262  std::vector<double> hcal_time;
263  std::vector<double> hcal_terr;
264 
265  std::vector<double> time_dir; // -1 = outsideIn ; 0=undefined; 1=insideOut
266  std::vector<double> time_inout;
267  std::vector<double> time_inout_err;
268  std::vector<double> time_outin;
269  std::vector<double> time_outin_err;
270 
271  std::vector<int> sa_nChambers;
272  std::vector<int> sa_nMatches;
273 
274 
275  // RECHIT information from CSC: only for standalone/global muons!
276  std::vector<int> rchCSCtype;
277  std::vector<double> rchPhi;
278  std::vector<double> rchEta;
279 
280  // Trigger matching information:
281  std::vector<int> hlt_isomu;
282  std::vector<int> hlt_mu;
283  std::vector<double> hlt_isoDeltaR;
284  std::vector<double> hlt_deltaR;
285 
286  };
287 }
288 #endif
289 
290 
type
Definition: HCALResponse.h:21