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root/cvsroot/UserCode/Morgan/interface/TRootElectron.h

Comparing UserCode/Morgan/interface/TRootElectron.h (file contents):
Revision 1.3 by lethuill, Mon Dec 1 15:58:05 2008 UTC vs.
Revision 1.12 by lethuill, Tue Jun 30 15:37:17 2009 UTC

#	Line 1 | Line 1
1		#ifndef TRootElectron_h
2		#define TRootElectron_h
3
4	<	#include "../interface/TRootParticle.h"
5	<
6	<	#include "Rtypes.h"
7	<	#include "TObject.h"
4	>	#include <map>
5
6	+	#include "../interface/TRootParticle.h"
7
8		using namespace std;
9
10	+	class TRootSuperCluster;
11	+
12		class TRootElectron : public TRootParticle
13		{
14	<
15	<	public:
16	<
17	<	TRootElectron() :
18	<	TRootParticle()
19	<	,d0_(99999.)
20	<	,d0Error_(99999.)
21	<	,dz_(99999.)
22	<	,dzError_(99999.)
23	<	,etaError_(99999.)
24	<	,phiError_(99999.)
25	<	,pError_(99999.)
26	<	,normalizedChi2_(-9999.)
27	<	,tracksIsolation01_(-9999.)
28	<	,nbTracks01_(-9999)
29	<	,tracksIsolation02_(-9999.)
30	<	,nbTracks02_(-9999)
31	<	,tracksIsolation03_(-9999.)
32	<	,nbTracks03_(-9999)
33	<	,tracksIsolation04_(-9999.)
34	<	,nbTracks04_(-9999)
35	<	,tracksIsolation05_(-9999.)
36	<	,nbTracks05_(-9999)
37	<	,energyCaloIsolation05_(-9999.)
38	<	,classification_(-9999)
39	<	,caloEnergy_(-9999.)
40	<	,caloEnergyError_(-9999.)
41	<	,position_(-9999)
42	<	,dEtaScT_Calo_(-9999)
43	<	,dEtaScT_Vtx_(-9999)
44	<	,dPhiScT_Calo_(-9999)
45	<	,dPhiScT_Vtx_(-9999)
46	<	,energySeedOverPout_(-9999.)
47	<	,energySeedOverP_(-9999.)
48	<	,hadronicOverEM_(-9999.)
49	<	,nbClusters_(-9999)
50	<	,superClusterEnergy_(-9999.)
51	<	,energySeed_(-9999.)
52	<	,sigmaEtaEta_(-9999.)
53	<	,sigmaPhiPhi_(-9999.)
54	<	,dPhiOut_(-9999.)
55	<	,dPhiIn_(-9999.)
56	<	,dEtaIn_(-9999.)
57	<	,e2x2_(-9999.)
58	<	,e3x3_(-9999.)
59	<	,e5x5_(-9999.)
60	<	,energyMax_(-9999.)
61	<	,coneSizeCalo_(-9999.)
62	<	,genElectron_()
63	<	,electronIdPTDRLoose_(-9999.)
64	<	,electronIdPTDRMedium_(-9999.)
65	<	,electronIdPTDRTight_(-9999.)
66	<	,electronIdCutBasedRobust_(-9999.)
67	<	,electronIdCutBasedLoose_(-9999.)
68	<	,electronIdCutBasedTight_(-9999.)
69	<	,electronIdLikelihood_(-9999.)
70	<	,electronIdNeuralNet_(-9999.)
71	<	,dummy_(-9999.)
72	<	{;}
73	<
74	<	TRootElectron(const TRootElectron& electron) :
75	<	TRootParticle(electron)
76	<	,d0_(electron.d0_)
77	<	,d0Error_(electron.d0Error_)
78	<	,dz_(electron.dz_)
79	<	,dzError_(electron.dzError_)
80	<	,etaError_(electron.etaError_)
81	<	,phiError_(electron.phiError_)
82	<	,pError_(electron.pError_)
83	<	,normalizedChi2_(electron.normalizedChi2_)
84	<	,tracksIsolation01_(electron.tracksIsolation01_)
85	<	,nbTracks01_(electron.nbTracks01_)
86	<	,tracksIsolation02_(electron.tracksIsolation02_)
87	<	,nbTracks02_(electron.nbTracks02_)
88	<	,tracksIsolation03_(electron.tracksIsolation03_)
89	<	,nbTracks03_(electron.nbTracks03_)
90	<	,tracksIsolation04_(electron.tracksIsolation04_)
91	<	,nbTracks04_(electron.nbTracks04_)
92	<	,tracksIsolation05_(electron.tracksIsolation05_)
93	<	,nbTracks05_(electron.nbTracks05_)
94	<	,energyCaloIsolation05_(electron.energyCaloIsolation05_)
95	<	,classification_(electron.classification_)
96	<	,caloEnergy_(electron.caloEnergy_)
97	<	,caloEnergyError_(electron.caloEnergyError_)
98	<	,position_(electron.position_)
99	<	,dEtaScT_Calo_(electron.dEtaScT_Calo_)
100	<	,dEtaScT_Vtx_(electron.dEtaScT_Vtx_)
101	<	,dPhiScT_Calo_(electron.dPhiScT_Calo_)
102	<	,dPhiScT_Vtx_(electron.dPhiScT_Vtx_)
103	<	,energySeedOverPout_(electron.energySeedOverPout_)
104	<	,energySeedOverP_(electron.energySeedOverP_)
105	<	,hadronicOverEM_(electron.hadronicOverEM_)
106	<	,nbClusters_(electron.nbClusters_)
107	<	,superClusterEnergy_(electron.superClusterEnergy_)
108	<	,energySeed_(electron.energySeed_)
109	<	,sigmaEtaEta_(electron.sigmaEtaEta_)
110	<	,sigmaPhiPhi_(electron.sigmaPhiPhi_)
111	<	,dPhiOut_(electron.dPhiOut_)
112	<	,dPhiIn_(electron.dPhiIn_)
113	<	,dEtaIn_(electron.dEtaIn_)
114	<	,e2x2_(electron.e2x2_)
115	<	,e3x3_(electron.e3x3_)
116	<	,e5x5_(electron.e5x5_)
117	<	,energyMax_(electron.energyMax_)
118	<	,coneSizeCalo_(electron.coneSizeCalo_)
119	<	,genElectron_(electron.genElectron_)
120	<	,electronIdPTDRLoose_(electron.electronIdPTDRLoose_)
121	<	,electronIdPTDRMedium_(electron.electronIdPTDRMedium_)
122	<	,electronIdPTDRTight_(electron.electronIdPTDRTight_)
123	<	,electronIdCutBasedRobust_(electron.electronIdCutBasedRobust_)
124	<	,electronIdCutBasedLoose_(electron.electronIdCutBasedLoose_)
125	<	,electronIdCutBasedTight_(electron.electronIdCutBasedTight_)
126	<	,electronIdLikelihood_(electron.electronIdLikelihood_)
127	<	,electronIdNeuralNet_(electron.electronIdNeuralNet_)
128	<	,dummy_(electron.dummy_)
129	<	{;}
130	<
131	<	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e) :
132	<	TRootParticle(px,py,pz,e)
133	<	,d0_(99999.)
134	<	,d0Error_(99999.)
135	<	,dz_(99999.)
136	<	,dzError_(99999.)
137	<	,etaError_(99999.)
138	<	,phiError_(99999.)
139	<	,pError_(99999.)
140	<	,normalizedChi2_(-9999.)
141	<	,tracksIsolation01_(-9999.)
142	<	,nbTracks01_(-9999)
143	<	,tracksIsolation02_(-9999.)
144	<	,nbTracks02_(-9999)
145	<	,tracksIsolation03_(-9999.)
146	<	,nbTracks03_(-9999)
147	<	,tracksIsolation04_(-9999.)
148	<	,nbTracks04_(-9999)
149	<	,tracksIsolation05_(-9999.)
150	<	,nbTracks05_(-9999)
151	<	,energyCaloIsolation05_(-9999.)
152	<	,classification_(-9999)
153	<	,caloEnergy_(-9999.)
154	<	,caloEnergyError_(-9999.)
155	<	,position_(-9999)
156	<	,dEtaScT_Calo_(-9999)
157	<	,dEtaScT_Vtx_(-9999)
158	<	,dPhiScT_Calo_(-9999)
159	<	,dPhiScT_Vtx_(-9999)
160	<	,energySeedOverPout_(-9999.)
161	<	,energySeedOverP_(-9999.)
162	<	,hadronicOverEM_(-9999.)
163	<	,nbClusters_(-9999)
164	<	,superClusterEnergy_(-9999.)
165	<	,energySeed_(-9999.)
166	<	,sigmaEtaEta_(-9999.)
167	<	,sigmaPhiPhi_(-9999.)
168	<	,dPhiOut_(-9999.)
169	<	,dPhiIn_(-9999.)
170	<	,dEtaIn_(-9999.)
171	<	,e2x2_(-9999.)
172	<	,e3x3_(-9999.)
173	<	,e5x5_(-9999.)
174	<	,energyMax_(-9999.)
175	<	,coneSizeCalo_(-9999.)
176	<	,genElectron_()
177	<	,electronIdPTDRLoose_(-9999.)
178	<	,electronIdPTDRMedium_(-9999.)
179	<	,electronIdPTDRTight_(-9999.)
180	<	,electronIdCutBasedRobust_(-9999.)
181	<	,electronIdCutBasedLoose_(-9999.)
182	<	,electronIdCutBasedTight_(-9999.)
183	<	,electronIdLikelihood_(-9999.)
184	<	,electronIdNeuralNet_(-9999.)
185	<	,dummy_(-9999.)
186	<	{;}
187	<
188	<	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e, Double_t vtx_x, Double_t vtx_y, Double_t vtx_z) :
189	<	TRootParticle(px,py,pz,e,vtx_x,vtx_y,vtx_z)
190	<	,d0_(99999.)
191	<	,d0Error_(99999.)
192	<	,dz_(99999.)
193	<	,dzError_(99999.)
194	<	,etaError_(99999.)
195	<	,phiError_(99999.)
196	<	,pError_(99999.)
197	<	,normalizedChi2_(-9999.)
198	<	,tracksIsolation01_(-9999.)
199	<	,nbTracks01_(-9999)
200	<	,tracksIsolation02_(-9999.)
201	<	,nbTracks02_(-9999)
202	<	,tracksIsolation03_(-9999.)
203	<	,nbTracks03_(-9999)
204	<	,tracksIsolation04_(-9999.)
205	<	,nbTracks04_(-9999)
206	<	,tracksIsolation05_(-9999.)
207	<	,nbTracks05_(-9999)
208	<	,energyCaloIsolation05_(-9999.)
209	<	,classification_(-9999)
210	<	,caloEnergy_(-9999.)
211	<	,caloEnergyError_(-9999.)
212	<	,position_(-9999)
213	<	,dEtaScT_Calo_(-9999)
214	<	,dEtaScT_Vtx_(-9999)
215	<	,dPhiScT_Calo_(-9999)
216	<	,dPhiScT_Vtx_(-9999)
217	<	,energySeedOverPout_(-9999.)
218	<	,energySeedOverP_(-9999.)
219	<	,hadronicOverEM_(-9999.)
220	<	,nbClusters_(-9999)
221	<	,superClusterEnergy_(-9999.)
222	<	,energySeed_(-9999.)
223	<	,sigmaEtaEta_(-9999.)
224	<	,sigmaPhiPhi_(-9999.)
225	<	,dPhiOut_(-9999.)
226	<	,dPhiIn_(-9999.)
227	<	,dEtaIn_(-9999.)
228	<	,e2x2_(-9999.)
229	<	,e3x3_(-9999.)
230	<	,e5x5_(-9999.)
231	<	,energyMax_(-9999.)
232	<	,coneSizeCalo_(-9999.)
233	<	,genElectron_()
234	<	,electronIdPTDRLoose_(-9999.)
235	<	,electronIdPTDRMedium_(-9999.)
236	<	,electronIdPTDRTight_(-9999.)
237	<	,electronIdCutBasedRobust_(-9999.)
238	<	,electronIdCutBasedLoose_(-9999.)
239	<	,electronIdCutBasedTight_(-9999.)
240	<	,electronIdLikelihood_(-9999.)
241	<	,electronIdNeuralNet_(-9999.)
242	<	,dummy_(-9999.)
243	<	{;}
244	<
245	<	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e, Double_t vtx_x, Double_t vtx_y, Double_t vtx_z, Int_t type, Float_t charge) :
246	<	TRootParticle(px,py,pz,e,vtx_x,vtx_y,vtx_z,type,charge)
247	<	,d0_(99999.)
248	<	,d0Error_(99999.)
249	<	,dz_(99999.)
250	<	,dzError_(99999.)
251	<	,etaError_(99999.)
252	<	,phiError_(99999.)
253	<	,pError_(99999.)
254	<	,normalizedChi2_(-9999.)
255	<	,tracksIsolation01_(-9999.)
256	<	,nbTracks01_(-9999)
257	<	,tracksIsolation02_(-9999.)
258	<	,nbTracks02_(-9999)
259	<	,tracksIsolation03_(-9999.)
260	<	,nbTracks03_(-9999)
261	<	,tracksIsolation04_(-9999.)
262	<	,nbTracks04_(-9999)
263	<	,tracksIsolation05_(-9999.)
264	<	,nbTracks05_(-9999)
265	<	,energyCaloIsolation05_(-9999.)
266	<	,classification_(-9999)
267	<	,caloEnergy_(-9999.)
268	<	,caloEnergyError_(-9999.)
269	<	,position_(-9999)
270	<	,dEtaScT_Calo_(-9999)
271	<	,dEtaScT_Vtx_(-9999)
272	<	,dPhiScT_Calo_(-9999)
273	<	,dPhiScT_Vtx_(-9999)
274	<	,energySeedOverPout_(-9999.)
275	<	,energySeedOverP_(-9999.)
276	<	,hadronicOverEM_(-9999.)
277	<	,nbClusters_(-9999)
278	<	,superClusterEnergy_(-9999.)
279	<	,energySeed_(-9999.)
280	<	,sigmaEtaEta_(-9999.)
281	<	,sigmaPhiPhi_(-9999.)
282	<	,dPhiOut_(-9999.)
283	<	,dPhiIn_(-9999.)
284	<	,dEtaIn_(-9999.)
285	<	,e2x2_(-9999.)
286	<	,e3x3_(-9999.)
287	<	,e5x5_(-9999.)
288	<	,energyMax_(-9999.)
289	<	,coneSizeCalo_(-9999.)
290	<	,genElectron_()
291	<	,electronIdPTDRLoose_(-9999.)
292	<	,electronIdPTDRMedium_(-9999.)
293	<	,electronIdPTDRTight_(-9999.)
294	<	,electronIdCutBasedRobust_(-9999.)
295	<	,electronIdCutBasedLoose_(-9999.)
296	<	,electronIdCutBasedTight_(-9999.)
297	<	,electronIdLikelihood_(-9999.)
298	<	,electronIdNeuralNet_(-9999.)
299	<	,dummy_(-9999.)
300	<	{;}
301	<
302	<	TRootElectron(const TLorentzVector &momentum) :
303	<	TRootParticle(momentum)
304	<	,d0_(99999.)
305	<	,d0Error_(99999.)
306	<	,dz_(99999.)
307	<	,dzError_(99999.)
308	<	,etaError_(99999.)
309	<	,phiError_(99999.)
310	<	,pError_(99999.)
311	<	,normalizedChi2_(-9999.)
312	<	,tracksIsolation01_(-9999.)
313	<	,nbTracks01_(-9999)
314	<	,tracksIsolation02_(-9999.)
315	<	,nbTracks02_(-9999)
316	<	,tracksIsolation03_(-9999.)
317	<	,nbTracks03_(-9999)
318	<	,tracksIsolation04_(-9999.)
319	<	,nbTracks04_(-9999)
320	<	,tracksIsolation05_(-9999.)
321	<	,nbTracks05_(-9999)
322	<	,energyCaloIsolation05_(-9999.)
323	<	,classification_(-9999)
324	<	,caloEnergy_(-9999.)
325	<	,caloEnergyError_(-9999.)
326	<	,position_(-9999)
327	<	,dEtaScT_Calo_(-9999)
328	<	,dEtaScT_Vtx_(-9999)
329	<	,dPhiScT_Calo_(-9999)
330	<	,dPhiScT_Vtx_(-9999)
331	<	,energySeedOverPout_(-9999.)
332	<	,energySeedOverP_(-9999.)
333	<	,hadronicOverEM_(-9999.)
334	<	,nbClusters_(-9999)
335	<	,superClusterEnergy_(-9999.)
336	<	,energySeed_(-9999.)
337	<	,sigmaEtaEta_(-9999.)
338	<	,sigmaPhiPhi_(-9999.)
339	<	,dPhiOut_(-9999.)
340	<	,dPhiIn_(-9999.)
341	<	,dEtaIn_(-9999.)
342	<	,e2x2_(-9999.)
343	<	,e3x3_(-9999.)
344	<	,e5x5_(-9999.)
345	<	,energyMax_(-9999.)
346	<	,coneSizeCalo_(-9999.)
347	<	,genElectron_()
348	<	,electronIdPTDRLoose_(-9999.)
349	<	,electronIdPTDRMedium_(-9999.)
350	<	,electronIdPTDRTight_(-9999.)
351	<	,electronIdCutBasedRobust_(-9999.)
352	<	,electronIdCutBasedLoose_(-9999.)
353	<	,electronIdCutBasedTight_(-9999.)
354	<	,electronIdLikelihood_(-9999.)
355	<	,electronIdNeuralNet_(-9999.)
356	<	,dummy_(-9999.)
357	<	{;}
358	<
359	<	TRootElectron(const TLorentzVector &momentum, const TVector3 &vertex, Int_t type, Float_t charge) :
360	<	TRootParticle(momentum, vertex, type, charge)
361	<	,d0_(99999.)
362	<	,d0Error_(99999.)
363	<	,dz_(99999.)
364	<	,dzError_(99999.)
365	<	,etaError_(99999.)
366	<	,phiError_(99999.)
367	<	,pError_(99999.)
368	<	,normalizedChi2_(-9999.)
369	<	,tracksIsolation01_(-9999.)
370	<	,nbTracks01_(-9999)
371	<	,tracksIsolation02_(-9999.)
372	<	,nbTracks02_(-9999)
373	<	,tracksIsolation03_(-9999.)
374	<	,nbTracks03_(-9999)
375	<	,tracksIsolation04_(-9999.)
376	<	,nbTracks04_(-9999)
377	<	,tracksIsolation05_(-9999.)
378	<	,nbTracks05_(-9999)
379	<	,energyCaloIsolation05_(-9999.)
380	<	,classification_(-9999)
381	<	,caloEnergy_(-9999.)
382	<	,caloEnergyError_(-9999.)
383	<	,position_(-9999)
384	<	,dEtaScT_Calo_(-9999)
385	<	,dEtaScT_Vtx_(-9999)
386	<	,dPhiScT_Calo_(-9999)
387	<	,dPhiScT_Vtx_(-9999)
388	<	,energySeedOverPout_(-9999.)
389	<	,energySeedOverP_(-9999.)
390	<	,hadronicOverEM_(-9999.)
391	<	,nbClusters_(-9999)
392	<	,superClusterEnergy_(-9999.)
393	<	,energySeed_(-9999.)
394	<	,sigmaEtaEta_(-9999.)
395	<	,sigmaPhiPhi_(-9999.)
396	<	,dPhiOut_(-9999.)
397	<	,dPhiIn_(-9999.)
398	<	,dEtaIn_(-9999.)
399	<	,e2x2_(-9999.)
400	<	,e3x3_(-9999.)
401	<	,e5x5_(-9999.)
402	<	,energyMax_(-9999.)
403	<	,coneSizeCalo_(-9999.)
404	<	,genElectron_()
405	<	,electronIdPTDRLoose_(-9999.)
406	<	,electronIdPTDRMedium_(-9999.)
407	<	,electronIdPTDRTight_(-9999.)
408	<	,electronIdCutBasedRobust_(-9999.)
409	<	,electronIdCutBasedLoose_(-9999.)
410	<	,electronIdCutBasedTight_(-9999.)
411	<	,electronIdLikelihood_(-9999.)
412	<	,electronIdNeuralNet_(-9999.)
413	<	,dummy_(-9999.)
414	<	{;}
415	<
416	<	~TRootElectron() {;}
417	<
418	<	TLorentzVector momentumError() const { return momentumError_; }
419	<	Float_t d0() const { return d0_ ;}
420	<	void setD0(Float_t d0) { d0_ = d0; }
421	<	Float_t d0Error() const { return d0Error_; }
422	<	void setD0Error(Float_t d0Error) { d0Error_ = d0Error; }
423	<	Float_t dz() const { return dz_; }
424	<	void setDz(Float_t dz) { dz_ = dz; }
425	<	Float_t dzError() const { return dzError_; }
426	<	void setDzError(Float_t dzError) { dzError_  = dzError; }
427	<	Float_t etaError() const { return etaError_; }
428	<	void setEtaError(Float_t etaError) { etaError_ = etaError; }
429	<	Float_t phiError() const { return phiError_; }
430	<	void setPhiError(Float_t phiError) { phiError_ = phiError; }
431	<	Float_t pError() const { return pError_ ; } //utilisation inconnue : (*electrons)[j].gsfTrack ().get ()->covariance (0, 0)
432	<	void setPError(Float_t pError) { pError_ = pError; }
433	<	Float_t normalizedChi2() const { return normalizedChi2_; }
434	<	void setNormalizedChi2(Float_t normalizedChi2) { normalizedChi2_ = normalizedChi2; }
435	<	Float_t tracksIsolation01() const { return tracksIsolation01_; }
436	<	void setTracksIsolation01(Float_t tracksIsolation01) { tracksIsolation01_ = tracksIsolation01; }
437	<	Int_t nbTracks01() const { return nbTracks01_; }
438	<	void setNbTracks01(Int_t nbTracks01) { nbTracks01_ = nbTracks01; }
439	<	Float_t tracksIsolation02() const { return tracksIsolation02_; }
440	<	void setTracksIsolation02(Float_t tracksIsolation02) { tracksIsolation02_ = tracksIsolation02; }
441	<	Int_t nbTracks02() const { return nbTracks02_; }
442	<	void setNbTracks02(Int_t nbTracks02) { nbTracks02_ = nbTracks02; }
443	<	Float_t tracksIsolation03() const { return tracksIsolation03_; }
444	<	void setTracksIsolation03(Float_t tracksIsolation03) { tracksIsolation03_ = tracksIsolation03; }
445	<	Int_t nbTracks03() const { return nbTracks03_; }
446	<	void setNbTracks03(Int_t nbTracks03) { nbTracks03_ = nbTracks03; }
447	<	Float_t tracksIsolation04() const { return tracksIsolation04_; }
448	<	void setTracksIsolation04(Float_t tracksIsolation04) { tracksIsolation04_ = tracksIsolation04; }
449	<	Int_t nbTracks04() const { return nbTracks04_; }
450	<	void setNbTracks04(Int_t nbTracks04) { nbTracks04_ = nbTracks04; }
451	<	Float_t tracksIsolation05() const { return tracksIsolation05_; }
452	<	void setTracksIsolation05(Float_t tracksIsolation05) { tracksIsolation05_ = tracksIsolation05; }
453	<	Int_t nbTracks05() const { return nbTracks05_; }
454	<	void setNbTracks05(Int_t nbTracks05) { nbTracks05_ = nbTracks05; }
455	<	Float_t energyCaloIsolation05() const { return energyCaloIsolation05_; }
456	<	void setEnergyCaloIsolation05(Float_t energyCaloIsolation05) { energyCaloIsolation05_ = energyCaloIsolation05; }
457	<	Int_t classification() const { return classification_; }
458	<	void setClassification(Int_t classification) { classification_ =  classification; }
459	<	Float_t caloEnergy() const { return caloEnergy_; }
460	<	void setCaloEnergy(Float_t caloEnergy) { caloEnergy_ = caloEnergy; }
461	<	Float_t caloEnergyError() const { return caloEnergyError_; }
462	<	void setCaloEnergyError(Float_t caloEnergyError) { caloEnergyError_ = caloEnergyError; }
463	<	Int_t position() const { return position_; }  // -1 CaloEndCap 1 CaloBarrel 0 OverLap
464	<	void setPosition(Int_t position) { position_ = position; }
465	<	Float_t dEtaScT_Calo() const { return dEtaScT_Calo_; }
466	<	void setDEtaScT_Calo(Float_t dEtaScT_Calo) { dEtaScT_Calo_ = dEtaScT_Calo; }
467	<	Float_t dEtaScT_Vtx() const { return dEtaScT_Vtx_; }
468	<	void setDEtaScT_Vtx(Float_t dEtaScT_Vtx) { dEtaScT_Vtx_ = dEtaScT_Vtx; }
469	<	Float_t dPhiScT_Calo() const { return dPhiScT_Calo_; }
470	<	void setDPhiScT_Calo(Float_t dPhiScT_Calo) { dPhiScT_Calo_ = dPhiScT_Calo; }
471	<	Float_t dPhiScT_Vtx() const { return dPhiScT_Vtx_; }
472	<	void setDPhiScT_Vtx(Float_t dPhiScT_Vtx) { dPhiScT_Vtx_ = dPhiScT_Vtx; }
473	<	Float_t energySeedOverPout() const { return energySeedOverPout_; }
474	<	void setEnergySeedOverPout(Float_t energySeedOverPout) { energySeedOverPout_ = energySeedOverPout; }
475	<	Float_t energySeedOverP() const { return energySeedOverP_; }
476	<	void setEnergySeedOverP(Float_t energySeedOverP) { energySeedOverP_ = energySeedOverP; }
477	<	Float_t hadronicOverEM() const { return hadronicOverEM_; }
478	<	void setHadronicOverEM(Float_t hadronicOverEM) { hadronicOverEM_ = hadronicOverEM; }
479	<	Int_t nbClusters() const { return nbClusters_; }
480	<	void setNbClusters(Int_t nbClusters) { nbClusters_ =  nbClusters; }
481	<	Float_t superClusterEnergy() const { return superClusterEnergy_; }
482	<	void setSuperClusterEnergy(Float_t superClusterEnergy) { superClusterEnergy_ = superClusterEnergy; }
483	<	Float_t energySeed() const { return energySeed_; }
484	<	void setEnergySeed(Float_t energySeed) { energySeed_ = energySeed; }
485	<	Float_t sigmaEtaEta() const { return sigmaEtaEta_; }
486	<	void setSigmaEtaEta(Float_t sigmaEtaEta) { sigmaEtaEta_ = sigmaEtaEta; }
487	<	Float_t sigmaPhiPhi() const { return sigmaPhiPhi_; }
488	<	void setSigmaPhiPhi(Float_t sigmaPhiPhi) { sigmaPhiPhi_ = sigmaPhiPhi; }
489	<	Float_t dPhiOut() const { return dPhiOut_; }
490	<	void setDPhiOut(Float_t dPhiOut) { dPhiOut_ = dPhiOut; }
491	<	Float_t dPhiIn() const { return dPhiIn_; }
492	<	void setDPhiIn(Float_t dPhiIn) { dPhiIn_ = dPhiIn; }
493	<	Float_t dEtaIn() const { return dEtaIn_; }
494	<	void setDEtaIn(Float_t dEtaIn) { dEtaIn_ = dEtaIn; }
495	<	Float_t e2x2() const { return e2x2_; }
496	<	void setE2x2(Float_t e2x2) { e2x2_ = e2x2; }
497	<	Float_t e3x3() const { return e3x3_; }
498	<	void setE3x3(Float_t e3x3) { e3x3_ = e3x3; }
499	<	Float_t e5x5() const { return e5x5_; }
500	<	void setE5x5(Float_t e5x5) { e5x5_ = e5x5; }
501	<	Float_t energyMax() const { return energyMax_; }
502	<	void setEnergyMax(Float_t energyMax) { energyMax_ = energyMax; }
503	<	Float_t coneSizeCalo() const { return coneSizeCalo_; }
504	<	void setConeSizeCalo(Float_t coneSizeCalo) { coneSizeCalo_ = coneSizeCalo; }
505	<
506	<	TObject* genElectron() const { return genElectron_.GetObject(); }
507	<	void setGenElectron(TObject* genElectron) { genElectron_ = genElectron; }
508	<
509	<	Float_t electronIdPTDRLoose() const { return electronIdPTDRLoose_; }
510	<	void setElectronIdPTDRLoose(Float_t electronIdPTDRLoose) { electronIdPTDRLoose_ = electronIdPTDRLoose; }
511	<	Float_t electronIdPTDRMedium() const { return electronIdPTDRMedium_; }
512	<	void setElectronIdPTDRMedium(Float_t electronIdPTDRMedium) { electronIdPTDRMedium_ = electronIdPTDRMedium; }
513	<	Float_t electronIdPTDRTight() const { return electronIdPTDRTight_; }
514	<	void setElectronIdPTDRTight(Float_t electronIdPTDRTight) { electronIdPTDRTight_ = electronIdPTDRTight; }
515	<	Float_t electronIdCutBasedRobust() const { return electronIdCutBasedRobust_; }
516	<	void setElectronIdCutBasedRobust(Float_t electronIdCutBasedRobust) { electronIdCutBasedRobust_ = electronIdCutBasedRobust; }
517	<	Float_t electronIdCutBasedLoose() const { return electronIdCutBasedLoose_; }
518	<	void setElectronIdCutBasedLoose(Float_t electronIdCutBasedLoose) { electronIdCutBasedLoose_ = electronIdCutBasedLoose; }
519	<	Float_t electronIdCutBasedTight() const { return electronIdCutBasedTight_; }
520	<	void setElectronIdCutBasedTight(Float_t electronIdCutBasedTight) { electronIdCutBasedTight_ = electronIdCutBasedTight; }
521	<	Float_t electronIdLikelihood() const { return electronIdLikelihood_; }
522	<	void setElectronIdLikelihood(Float_t electronIdLikelihood) { electronIdLikelihood_ = electronIdLikelihood; }
523	<	Float_t electronIdNeuralNet() const { return electronIdNeuralNet_; }
524	<	void setElectronIdNeuralNet(Float_t electronIdNeuralNet) { electronIdNeuralNet_ = electronIdNeuralNet; }
525	<
526	<	Float_t dummy() const { return dummy_; }
527	<
528	<	void setDummy(Float_t dummy) { dummy_ = dummy; }
529	<
530	<	friend std::ostream& operator<< (std::ostream& stream, const TRootElectron& electron) {
531	<	stream << "TRootElectron - Charge=" << electron.charge() << " (Et,eta,phi)=("<< electron.Et() <<","<< electron.Eta() <<","<< electron.Phi() << ")"
532	<	<< " vertex(x,y,z)=("<< electron.vx() <<","<< electron.vy() <<","<< electron.vz() << ")";
533	<	return stream;
534	<	};
535	<
536	<
537	<	private:
538	<	TLorentzVector momentumError_;
539	<	Float_t d0_;
540	<	Float_t d0Error_;
541	<	Float_t dz_;
542	<	Float_t dzError_;
543	<	Float_t etaError_;
544	<	Float_t phiError_;
545	<	Float_t pError_ ;//utilisation inconnue : (*electrons)[j].gsfTrack ().get ()->covariance (0, 0)
546	<	Float_t normalizedChi2_;
547	<	Float_t tracksIsolation01_;
548	<	Int_t nbTracks01_;
549	<	Float_t tracksIsolation02_;
550	<	Int_t nbTracks02_;
551	<	Float_t tracksIsolation03_;
552	<	Int_t nbTracks03_;
553	<	Float_t tracksIsolation04_;
554	<	Int_t nbTracks04_;
555	<	Float_t tracksIsolation05_;
556	<	Int_t nbTracks05_;
557	<	Float_t energyCaloIsolation05_;
558	<	Int_t classification_;
559	<	Float_t caloEnergy_;
560	<	Float_t caloEnergyError_;
561	<	Int_t position_;  // -1 CaloEndCap 1 CaloBarrel 0 OverLap
562	<	Float_t dEtaScT_Calo_;
563	<	Float_t dEtaScT_Vtx_;
564	<	Float_t dPhiScT_Calo_;
565	<	Float_t dPhiScT_Vtx_;
566	<	Float_t energySeedOverPout_;
567	<	Float_t energySeedOverP_;
568	<	Float_t hadronicOverEM_;
569	<	Int_t nbClusters_;
570	<	Float_t superClusterEnergy_;
571	<	Float_t energySeed_;
572	<	Float_t sigmaEtaEta_;
573	<	Float_t sigmaPhiPhi_;
574	<	Float_t dPhiOut_;
575	<	Float_t dPhiIn_;
576	<	Float_t dEtaIn_;
577	<	Float_t e2x2_;
578	<	Float_t e3x3_;
579	<	Float_t e5x5_;
580	<	Float_t energyMax_;
581	<	Float_t coneSizeCalo_;
582	<	TRef genElectron_;
583	<	Float_t electronIdPTDRLoose_;
584	<	Float_t electronIdPTDRMedium_;
585	<	Float_t electronIdPTDRTight_;
586	<	Float_t electronIdCutBasedRobust_;
587	<	Float_t electronIdCutBasedLoose_;
588	<	Float_t electronIdCutBasedTight_;
589	<	Float_t electronIdLikelihood_;
590	<	Float_t electronIdNeuralNet_;
591	<
592	<	Float_t dummy_;
593	<
594	<	ClassDef (TRootElectron,1);
14	>
15	>	public:
16	>
17	>	TRootElectron() :
18	>	TRootParticle()
19	>	,classification_(-9999)
20	>	,caloEnergy_(-9999.)
21	>	,caloEnergyError_(-9999.)
22	>	,trackMomentum_(-9999.)
23	>	,trackMomentumError_(-9999.)
24	>	,hadOverEm_(-9999.)
25	>	,deltaEtaIn_(-9999.)
26	>	,deltaPhiIn_(-9999.)
27	>	,energySuperClusterOverPin_(-9999.)
28	>	,deltaEtaOut_(-9999.)
29	>	,deltaPhiOut_(-9999.)
30	>	,energySeedClusterOverPout_(-9999.)
31	>	,energyScaleCorrected_(false)
32	>	,momentumCorrected_(false)
33	>	,pixelLayersWithMeasurement_(-1)
34	>	,stripLayersWithMeasurement_(-1)
35	>	,d0_(-9999.)
36	>	,d0Error_(-9999.)
37	>	,dsz_(-9999.)
38	>	,dszError_(-9999.)
39	>	,normalizedChi2_(-9999.)
40	>	,ptError_(-9999.)
41	>	,etaError_(-9999.)
42	>	,phiError_(-9999.)
43	>	,ip3DSignificance_(-9999.)
44	>	,nbClusters_(-9999)
45	>	,superClusterRawEnergy_(-9999.)
46	>	,preshowerEnergy_(-9999.)
47	>	,caloPosition_(-9999.,-9999.,-9999.)
48	>	,scIndex_()
49	>	,scRef_()
50	>	,clusterAlgo_(-9999)
51	>	,caloConeSize_(-9999.)
52	>	,e2x2_(-9999.)
53	>	,e3x3_(-9999.)
54	>	,e5x5_(-9999.)
55	>	,eMax_(-9999.)
56	>	,isoR01_sumPt_(-9999.)
57	>	,isoR01_nTracks_(-9999)
58	>	,isoR02_sumPt_(-9999.)
59	>	,isoR02_nTracks_(-9999)
60	>	,isoR03_emEt_(-9999.)
61	>	,isoR03_hadEt_(-9999.)
62	>	,isoR03_sumPt_(-9999.)
63	>	,isoR03_nTracks_(-9999)
64	>	,isoR05_emEt_(-9999.)
65	>	,isoR05_hadEt_(-9999.)
66	>	,isoR05_sumPt_(-9999.)
67	>	,isoR05_nTracks_(-9999)
68	>	,idCutBasedFixedThresholdLoose_(-1)
69	>	,idCutBasedFixedThresholdTight_(-1)
70	>	,idCutBasedFixedThresholdHighEnergy_(-1)
71	>	,idCutBasedCategorizedLoose_(-1)
72	>	,idCutBasedCategorizedTight_(-1)
73	>	,idLikelihood_(-9999.)
74	>	,idNeuralNet_(-9999.)
75	>	{;}
76	>
77	>	TRootElectron(const TRootElectron& electron) :
78	>	TRootParticle(electron)
79	>	,classification_(electron.classification_)
80	>	,caloEnergy_(electron.caloEnergy_)
81	>	,caloEnergyError_(electron.caloEnergyError_)
82	>	,trackMomentum_(electron.trackMomentum_)
83	>	,trackMomentumError_(electron.trackMomentumError_)
84	>	,hadOverEm_(electron.hadOverEm_)
85	>	,deltaEtaIn_(electron.deltaEtaIn_)
86	>	,deltaPhiIn_(electron.deltaPhiIn_)
87	>	,energySuperClusterOverPin_(electron.energySuperClusterOverPin_)
88	>	,deltaEtaOut_(electron.deltaEtaOut_)
89	>	,deltaPhiOut_(electron.deltaPhiOut_)
90	>	,energySeedClusterOverPout_(electron.energySeedClusterOverPout_)
91	>	,energyScaleCorrected_(electron.energyScaleCorrected_)
92	>	,momentumCorrected_(electron.momentumCorrected_)
93	>	,pixelLayersWithMeasurement_(electron.pixelLayersWithMeasurement_)
94	>	,stripLayersWithMeasurement_(electron.stripLayersWithMeasurement_)
95	>	,d0_(electron.d0_)
96	>	,d0Error_(electron.d0Error_)
97	>	,dsz_(electron.dsz_)
98	>	,dszError_(electron.dszError_)
99	>	,normalizedChi2_(electron.normalizedChi2_)
100	>	,ptError_(electron.ptError_)
101	>	,etaError_(electron.etaError_)
102	>	,phiError_(electron.phiError_)
103	>	,ip3DSignificance_(electron.ip3DSignificance_)
104	>	,nbClusters_(electron.nbClusters_)
105	>	,superClusterRawEnergy_(electron.superClusterRawEnergy_)
106	>	,preshowerEnergy_(electron.preshowerEnergy_)
107	>	,caloPosition_(electron.caloPosition_)
108	>	,scIndex_(electron.scIndex_)
109	>	,scRef_(electron.scRef_)
110	>	,clusterAlgo_(electron.clusterAlgo_)
111	>	,caloConeSize_(electron.caloConeSize_)
112	>	,e2x2_(electron.e2x2_)
113	>	,e3x3_(electron.e3x3_)
114	>	,e5x5_(electron.e5x5_)
115	>	,eMax_(electron.eMax_)
116	>	,isoR01_sumPt_(electron.isoR01_sumPt_)
117	>	,isoR01_nTracks_(electron.isoR01_nTracks_)
118	>	,isoR02_sumPt_(electron.isoR02_sumPt_)
119	>	,isoR02_nTracks_(electron.isoR02_nTracks_)
120	>	,isoR03_emEt_(electron.isoR03_emEt_)
121	>	,isoR03_hadEt_(electron.isoR03_hadEt_)
122	>	,isoR03_sumPt_(electron.isoR03_sumPt_)
123	>	,isoR03_nTracks_(electron.isoR03_nTracks_)
124	>	,isoR05_emEt_(electron.isoR05_emEt_)
125	>	,isoR05_hadEt_(electron.isoR05_hadEt_)
126	>	,isoR05_sumPt_(electron.isoR05_sumPt_)
127	>	,isoR05_nTracks_(electron.isoR05_nTracks_)
128	>	,idCutBasedFixedThresholdLoose_(electron.idCutBasedFixedThresholdLoose_)
129	>	,idCutBasedFixedThresholdTight_(electron.idCutBasedFixedThresholdTight_)
130	>	,idCutBasedFixedThresholdHighEnergy_(electron.idCutBasedFixedThresholdHighEnergy_)
131	>	,idCutBasedCategorizedLoose_(electron.idCutBasedCategorizedLoose_)
132	>	,idCutBasedCategorizedTight_(electron.idCutBasedCategorizedTight_)
133	>	,idLikelihood_(electron.idLikelihood_)
134	>	,idNeuralNet_(electron.idNeuralNet_)
135	>	{;}
136	>
137	>	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e) :
138	>	TRootParticle(px,py,pz,e)
139	>	,classification_(-9999)
140	>	,caloEnergy_(-9999.)
141	>	,caloEnergyError_(-9999.)
142	>	,trackMomentum_(-9999.)
143	>	,trackMomentumError_(-9999.)
144	>	,hadOverEm_(-9999.)
145	>	,deltaEtaIn_(-9999.)
146	>	,deltaPhiIn_(-9999.)
147	>	,energySuperClusterOverPin_(-9999.)
148	>	,deltaEtaOut_(-9999.)
149	>	,deltaPhiOut_(-9999.)
150	>	,energySeedClusterOverPout_(-9999.)
151	>	,energyScaleCorrected_(false)
152	>	,momentumCorrected_(false)
153	>	,pixelLayersWithMeasurement_(-1)
154	>	,stripLayersWithMeasurement_(-1)
155	>	,d0_(-9999.)
156	>	,d0Error_(-9999.)
157	>	,dsz_(-9999.)
158	>	,dszError_(-9999.)
159	>	,normalizedChi2_(-9999.)
160	>	,ptError_(-9999.)
161	>	,etaError_(-9999.)
162	>	,phiError_(-9999.)
163	>	,ip3DSignificance_(-9999.)
164	>	,nbClusters_(-9999)
165	>	,superClusterRawEnergy_(-9999.)
166	>	,preshowerEnergy_(-9999.)
167	>	,caloPosition_(-9999.,-9999.,-9999.)
168	>	,scIndex_()
169	>	,scRef_()
170	>	,clusterAlgo_(-9999)
171	>	,caloConeSize_(-9999.)
172	>	,e2x2_(-9999.)
173	>	,e3x3_(-9999.)
174	>	,e5x5_(-9999.)
175	>	,eMax_(-9999.)
176	>	,isoR01_sumPt_(-9999.)
177	>	,isoR01_nTracks_(-9999)
178	>	,isoR02_sumPt_(-9999.)
179	>	,isoR02_nTracks_(-9999)
180	>	,isoR03_emEt_(-9999.)
181	>	,isoR03_hadEt_(-9999.)
182	>	,isoR03_sumPt_(-9999.)
183	>	,isoR03_nTracks_(-9999)
184	>	,isoR05_emEt_(-9999.)
185	>	,isoR05_hadEt_(-9999.)
186	>	,isoR05_sumPt_(-9999.)
187	>	,isoR05_nTracks_(-9999)
188	>	,idCutBasedFixedThresholdLoose_(-1)
189	>	,idCutBasedFixedThresholdTight_(-1)
190	>	,idCutBasedFixedThresholdHighEnergy_(-1)
191	>	,idCutBasedCategorizedLoose_(-1)
192	>	,idCutBasedCategorizedTight_(-1)
193	>	,idLikelihood_(-9999.)
194	>	,idNeuralNet_(-9999.)
195	>	{;}
196	>
197	>	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e, Double_t vtx_x, Double_t vtx_y, Double_t vtx_z) :
198	>	TRootParticle(px,py,pz,e,vtx_x,vtx_y,vtx_z)
199	>	,classification_(-9999)
200	>	,caloEnergy_(-9999.)
201	>	,caloEnergyError_(-9999.)
202	>	,trackMomentum_(-9999.)
203	>	,trackMomentumError_(-9999.)
204	>	,hadOverEm_(-9999.)
205	>	,deltaEtaIn_(-9999.)
206	>	,deltaPhiIn_(-9999.)
207	>	,energySuperClusterOverPin_(-9999.)
208	>	,deltaEtaOut_(-9999.)
209	>	,deltaPhiOut_(-9999.)
210	>	,energySeedClusterOverPout_(-9999.)
211	>	,energyScaleCorrected_(false)
212	>	,momentumCorrected_(false)
213	>	,pixelLayersWithMeasurement_(-1)
214	>	,stripLayersWithMeasurement_(-1)
215	>	,d0_(-9999.)
216	>	,d0Error_(-9999.)
217	>	,dsz_(-9999.)
218	>	,dszError_(-9999.)
219	>	,normalizedChi2_(-9999.)
220	>	,ptError_(-9999.)
221	>	,etaError_(-9999.)
222	>	,phiError_(-9999.)
223	>	,ip3DSignificance_(-9999.)
224	>	,nbClusters_(-9999)
225	>	,superClusterRawEnergy_(-9999.)
226	>	,preshowerEnergy_(-9999.)
227	>	,caloPosition_(-9999.,-9999.,-9999.)
228	>	,scIndex_()
229	>	,scRef_()
230	>	,clusterAlgo_(-9999)
231	>	,caloConeSize_(-9999.)
232	>	,e2x2_(-9999.)
233	>	,e3x3_(-9999.)
234	>	,e5x5_(-9999.)
235	>	,eMax_(-9999.)
236	>	,isoR01_sumPt_(-9999.)
237	>	,isoR01_nTracks_(-9999)
238	>	,isoR02_sumPt_(-9999.)
239	>	,isoR02_nTracks_(-9999)
240	>	,isoR03_emEt_(-9999.)
241	>	,isoR03_hadEt_(-9999.)
242	>	,isoR03_sumPt_(-9999.)
243	>	,isoR03_nTracks_(-9999)
244	>	,isoR05_emEt_(-9999.)
245	>	,isoR05_hadEt_(-9999.)
246	>	,isoR05_sumPt_(-9999.)
247	>	,isoR05_nTracks_(-9999)
248	>	,idCutBasedFixedThresholdLoose_(-1)
249	>	,idCutBasedFixedThresholdTight_(-1)
250	>	,idCutBasedFixedThresholdHighEnergy_(-1)
251	>	,idCutBasedCategorizedLoose_(-1)
252	>	,idCutBasedCategorizedTight_(-1)
253	>	,idLikelihood_(-9999.)
254	>	,idNeuralNet_(-9999.)
255	>	{;}
256	>
257	>	TRootElectron(Double_t px, Double_t py, Double_t pz, Double_t e, Double_t vtx_x, Double_t vtx_y, Double_t vtx_z, Int_t type, Float_t charge) :
258	>	TRootParticle(px,py,pz,e,vtx_x,vtx_y,vtx_z,type,charge)
259	>	,classification_(-9999)
260	>	,caloEnergy_(-9999.)
261	>	,caloEnergyError_(-9999.)
262	>	,trackMomentum_(-9999.)
263	>	,trackMomentumError_(-9999.)
264	>	,hadOverEm_(-9999.)
265	>	,deltaEtaIn_(-9999.)
266	>	,deltaPhiIn_(-9999.)
267	>	,energySuperClusterOverPin_(-9999.)
268	>	,deltaEtaOut_(-9999.)
269	>	,deltaPhiOut_(-9999.)
270	>	,energySeedClusterOverPout_(-9999.)
271	>	,energyScaleCorrected_(false)
272	>	,momentumCorrected_(false)
273	>	,pixelLayersWithMeasurement_(-1)
274	>	,stripLayersWithMeasurement_(-1)
275	>	,d0_(-9999.)
276	>	,d0Error_(-9999.)
277	>	,dsz_(-9999.)
278	>	,dszError_(-9999.)
279	>	,normalizedChi2_(-9999.)
280	>	,ptError_(-9999.)
281	>	,etaError_(-9999.)
282	>	,phiError_(-9999.)
283	>	,ip3DSignificance_(-9999.)
284	>	,nbClusters_(-9999)
285	>	,superClusterRawEnergy_(-9999.)
286	>	,preshowerEnergy_(-9999.)
287	>	,caloPosition_(-9999.,-9999.,-9999.)
288	>	,scIndex_()
289	>	,scRef_()
290	>	,clusterAlgo_(-9999)
291	>	,caloConeSize_(-9999.)
292	>	,e2x2_(-9999.)
293	>	,e3x3_(-9999.)
294	>	,e5x5_(-9999.)
295	>	,eMax_(-9999.)
296	>	,isoR01_sumPt_(-9999.)
297	>	,isoR01_nTracks_(-9999)
298	>	,isoR02_sumPt_(-9999.)
299	>	,isoR02_nTracks_(-9999)
300	>	,isoR03_emEt_(-9999.)
301	>	,isoR03_hadEt_(-9999.)
302	>	,isoR03_sumPt_(-9999.)
303	>	,isoR03_nTracks_(-9999)
304	>	,isoR05_emEt_(-9999.)
305	>	,isoR05_hadEt_(-9999.)
306	>	,isoR05_sumPt_(-9999.)
307	>	,isoR05_nTracks_(-9999)
308	>	,idCutBasedFixedThresholdLoose_(-1)
309	>	,idCutBasedFixedThresholdTight_(-1)
310	>	,idCutBasedFixedThresholdHighEnergy_(-1)
311	>	,idCutBasedCategorizedLoose_(-1)
312	>	,idCutBasedCategorizedTight_(-1)
313	>	,idLikelihood_(-9999.)
314	>	,idNeuralNet_(-9999.)
315	>	{;}
316	>
317	>	TRootElectron(const TLorentzVector &momentum) :
318	>	TRootParticle(momentum)
319	>	,classification_(-9999)
320	>	,caloEnergy_(-9999.)
321	>	,caloEnergyError_(-9999.)
322	>	,trackMomentum_(-9999.)
323	>	,trackMomentumError_(-9999.)
324	>	,hadOverEm_(-9999.)
325	>	,deltaEtaIn_(-9999.)
326	>	,deltaPhiIn_(-9999.)
327	>	,energySuperClusterOverPin_(-9999.)
328	>	,deltaEtaOut_(-9999.)
329	>	,deltaPhiOut_(-9999.)
330	>	,energySeedClusterOverPout_(-9999.)
331	>	,energyScaleCorrected_(false)
332	>	,momentumCorrected_(false)
333	>	,pixelLayersWithMeasurement_(-1)
334	>	,stripLayersWithMeasurement_(-1)
335	>	,d0_(-9999.)
336	>	,d0Error_(-9999.)
337	>	,dsz_(-9999.)
338	>	,dszError_(-9999.)
339	>	,normalizedChi2_(-9999.)
340	>	,ptError_(-9999.)
341	>	,etaError_(-9999.)
342	>	,phiError_(-9999.)
343	>	,ip3DSignificance_(-9999.)
344	>	,nbClusters_(-9999)
345	>	,superClusterRawEnergy_(-9999.)
346	>	,preshowerEnergy_(-9999.)
347	>	,caloPosition_(-9999.,-9999.,-9999.)
348	>	,scIndex_()
349	>	,scRef_()
350	>	,clusterAlgo_(-9999)
351	>	,caloConeSize_(-9999.)
352	>	,e2x2_(-9999.)
353	>	,e3x3_(-9999.)
354	>	,e5x5_(-9999.)
355	>	,eMax_(-9999.)
356	>	,isoR01_sumPt_(-9999.)
357	>	,isoR01_nTracks_(-9999)
358	>	,isoR02_sumPt_(-9999.)
359	>	,isoR02_nTracks_(-9999)
360	>	,isoR03_emEt_(-9999.)
361	>	,isoR03_hadEt_(-9999.)
362	>	,isoR03_sumPt_(-9999.)
363	>	,isoR03_nTracks_(-9999)
364	>	,isoR05_emEt_(-9999.)
365	>	,isoR05_hadEt_(-9999.)
366	>	,isoR05_sumPt_(-9999.)
367	>	,isoR05_nTracks_(-9999)
368	>	,idCutBasedFixedThresholdLoose_(-1)
369	>	,idCutBasedFixedThresholdTight_(-1)
370	>	,idCutBasedFixedThresholdHighEnergy_(-1)
371	>	,idCutBasedCategorizedLoose_(-1)
372	>	,idCutBasedCategorizedTight_(-1)
373	>	,idLikelihood_(-9999.)
374	>	,idNeuralNet_(-9999.)
375	>	{;}
376	>
377	>	TRootElectron(const TLorentzVector &momentum, const TVector3 &vertex, Int_t type, Float_t charge) :
378	>	TRootParticle(momentum, vertex, type, charge)
379	>	,classification_(-9999)
380	>	,caloEnergy_(-9999.)
381	>	,caloEnergyError_(-9999.)
382	>	,trackMomentum_(-9999.)
383	>	,trackMomentumError_(-9999.)
384	>	,hadOverEm_(-9999.)
385	>	,deltaEtaIn_(-9999.)
386	>	,deltaPhiIn_(-9999.)
387	>	,energySuperClusterOverPin_(-9999.)
388	>	,deltaEtaOut_(-9999.)
389	>	,deltaPhiOut_(-9999.)
390	>	,energySeedClusterOverPout_(-9999.)
391	>	,energyScaleCorrected_(false)
392	>	,momentumCorrected_(false)
393	>	,pixelLayersWithMeasurement_(-1)
394	>	,stripLayersWithMeasurement_(-1)
395	>	,d0_(-9999.)
396	>	,d0Error_(-9999.)
397	>	,dsz_(-9999.)
398	>	,dszError_(-9999.)
399	>	,normalizedChi2_(-9999.)
400	>	,ptError_(-9999.)
401	>	,etaError_(-9999.)
402	>	,phiError_(-9999.)
403	>	,ip3DSignificance_(-9999.)
404	>	,nbClusters_(-9999)
405	>	,superClusterRawEnergy_(-9999.)
406	>	,preshowerEnergy_(-9999.)
407	>	,caloPosition_(-9999.,-9999.,-9999.)
408	>	,scIndex_()
409	>	,scRef_()
410	>	,clusterAlgo_(-9999)
411	>	,caloConeSize_(-9999.)
412	>	,e2x2_(-9999.)
413	>	,e3x3_(-9999.)
414	>	,e5x5_(-9999.)
415	>	,eMax_(-9999.)
416	>	,isoR01_sumPt_(-9999.)
417	>	,isoR01_nTracks_(-9999)
418	>	,isoR02_sumPt_(-9999.)
419	>	,isoR02_nTracks_(-9999)
420	>	,isoR03_emEt_(-9999.)
421	>	,isoR03_hadEt_(-9999.)
422	>	,isoR03_sumPt_(-9999.)
423	>	,isoR03_nTracks_(-9999)
424	>	,isoR05_emEt_(-9999.)
425	>	,isoR05_hadEt_(-9999.)
426	>	,isoR05_sumPt_(-9999.)
427	>	,isoR05_nTracks_(-9999)
428	>	,idCutBasedFixedThresholdLoose_(-1)
429	>	,idCutBasedFixedThresholdTight_(-1)
430	>	,idCutBasedFixedThresholdHighEnergy_(-1)
431	>	,idCutBasedCategorizedLoose_(-1)
432	>	,idCutBasedCategorizedTight_(-1)
433	>	,idLikelihood_(-9999.)
434	>	,idNeuralNet_(-9999.)
435	>	{;}
436	>
437	>	~TRootElectron() {;}
438	>
439	>
440	>	Int_t classification() const { return classification_ ;}
441	>	Float_t caloEnergy() const { return caloEnergy_ ;}
442	>	Float_t caloEnergyError() const { return caloEnergyError_ ;}
443	>	Float_t trackMomentum() const { return trackMomentum_ ;}
444	>	Float_t trackMomentumError() const { return trackMomentumError_ ;}
445	>	Float_t hadOverEm() const { return hadOverEm_ ;}
446	>	Float_t deltaEtaIn() const { return deltaEtaIn_ ;}
447	>	Float_t deltaPhiIn() const { return deltaPhiIn_ ;}
448	>	Float_t energySuperClusterOverPin() const { return energySuperClusterOverPin_ ;}
449	>	Float_t deltaEtaOut() const { return deltaEtaOut_ ;}
450	>	Float_t deltaPhiOut() const { return deltaPhiOut_ ;}
451	>	Float_t energySeedClusterOverPout() const { return energySeedClusterOverPout_ ;}
452	>	Bool_t energyScaleCorrected() const { return energyScaleCorrected_ ;}
453	>	Bool_t momentumCorrected() const { return momentumCorrected_ ;}
454	>
455	>	Int_t pixelLayersWithMeasurement() const { return pixelLayersWithMeasurement_; }
456	>	Int_t stripLayersWithMeasurement() const { return stripLayersWithMeasurement_; }
457	>	Float_t d0() const { return d0_ ;}
458	>	Float_t d0Error() const { return d0Error_ ;}
459	>	Float_t dsz() const { return dsz_ ;}
460	>	Float_t dszError() const { return dszError_ ;}
461	>	Float_t normalizedChi2() const { return normalizedChi2_ ;}
462	>	Float_t ptError() const { return ptError_ ;}
463	>	Float_t etaError() const { return etaError_ ;}
464	>	Float_t phiError() const { return phiError_ ;}
465	>	Float_t ip3DSignificance() const { return ip3DSignificance_ ;}
466	>
467	>	Int_t nbClusters() const { return nbClusters_ ;}
468	>	Float_t superClusterRawEnergy() const { return superClusterRawEnergy_ ;}
469	>	Float_t preshowerEnergy() const { return preshowerEnergy_ ;}
470	>	TVector3 caloPosition() const { return caloPosition_ ;}
471	>	map<Int_t,Int_t> scIndexMap() const { return scIndex_; }
472	>	map<Int_t,TRef> scRef() const { return scRef_ ;}
473	>	Int_t nSuperClusters() const { return scRef_.size();}
474	>
475	>	// Get index in TCloneArray of the supercluster associated by default
476	>	// Default SC collection for electron producer defined in
477	>	// RecoEgamma/EgammaElectronProducers/python/pixelMatchGsfElectrons_cfi
478	>	Int_t scIndex()
479	>	{
480	>	// 0=island or multi5x5, 1=hybrid
481	>	//if ( clusterAlgo_== 0 ) return scIndexOfType(122);
482	>	if ( clusterAlgo_== 0 ) return scIndexOfType(322);
483	>	else if ( clusterAlgo_== 1 ) return scIndexOfType(211);
484	>	else return -1;
485	>	}
486	>
487	>	// Get ith element  in map scIndex_
488	>	Int_t scIndexAt(UInt_t index)
489	>	{
490	>	if ( index>=scIndex_.size())
491	>	{
492	>	return -1;
493	>	}
494	>	else
495	>	{
496	>	map<Int_t,Int_t>::iterator it=scIndex_.begin();
497	>	for (UInt_t i=0; i<index; ++i)  it++;
498	>	return ( (*it).second );
499	>	}
500	>	}
501	>
502	>	// Get index in TCloneArray of the seed supercluster of type "type"
503	>	Int_t scIndexOfType(Int_t type)
504	>	{
505	>	map<Int_t,Int_t>::iterator it=scIndex_.find(type);
506	>	return ( it ==scIndex_.end() ? -1 : (*it).second );
507	>	}
508	>
509	>	// Get supercluster associated by default
510	>	// Default SC collection for electron producer defined in
511	>	// RecoEgamma/EgammaElectronProducers/python/pixelMatchGsfElectrons_cfi
512	>	TRootSuperCluster* superCluster()
513	>	{
514	>	// 0=island or multi5x5, 1=hybrid
515	>	//if ( clusterAlgo_== 0 ) return superClusterOfType(122);
516	>	if ( clusterAlgo_== 0 ) return superClusterOfType(322);
517	>	else if ( clusterAlgo_== 1 ) return superClusterOfType(211);
518	>	else return 0;
519	>	}
520	>
521	>	// Get ith element  in map scRef_
522	>	TRootSuperCluster* superClusterAt(UInt_t index)
523	>	{
524	>	if ( index>=scRef_.size())
525	>	{
526	>	return 0;
527	>	}
528	>	else
529	>	{
530	>	map<Int_t,TRef>::iterator it=scRef_.begin();
531	>	for (UInt_t i=0; i<index; ++i)  it++;
532	>	return ( (TRootSuperCluster*)(*it).second.GetObject() );
533	>	}
534	>	}
535	>
536	>	// Get the seed supercluster of type "type"
537	>	TRootSuperCluster* superClusterOfType(Int_t type)
538	>	{
539	>	map<Int_t,TRef>::iterator it=scRef_.find(type);
540	>	return ( it ==scRef_.end() ? 0 : (TRootSuperCluster*) (*it).second.GetObject() );
541	>	}
542	>
543	>	Int_t clusterAlgo() const { return clusterAlgo_ ;}
544	>	Float_t caloConeSize() const { return caloConeSize_ ;}
545	>	Float_t e2x2() const { return e2x2_ ;}
546	>	Float_t e3x3() const { return e3x3_ ;}
547	>	Float_t e5x5() const { return e5x5_ ;}
548	>	Float_t eMax() const { return eMax_ ;}
549	>	Float_t r19() const { return ( e3x3_ == 0. ? -1. : eMax_/e3x3_ ); }  // ratio of Emax/E(3x3)
550	>	// FIXME - Check definition of r9... include preshowerEnergy as in SimplePhotonAnalyzer.cc ?
551	>	Float_t r9() const { return ( superClusterRawEnergy_ == 0. ? -1. : e3x3_/superClusterRawEnergy_ ); } // ratio of E(3x3)/ESC
552	>	Float_t isoR01_sumPt() const { return isoR01_sumPt_ ;}
553	>	Int_t isoR01_nTracks() const { return isoR01_nTracks_ ;}
554	>	Float_t isoR02_sumPt() const { return isoR02_sumPt_ ;}
555	>	Int_t isoR02_nTracks() const { return isoR02_nTracks_ ;}
556	>	Float_t isoR03_emEt() const { return isoR03_emEt_ ;}
557	>	Float_t isoR03_hadEt() const { return isoR03_hadEt_ ;}
558	>	Float_t isoR03_sumPt() const { return isoR03_sumPt_ ;}
559	>	Int_t isoR03_nTracks() const { return isoR03_nTracks_ ;}
560	>	Float_t isoR05_emEt() const { return isoR05_emEt_ ;}
561	>	Float_t isoR05_hadEt() const { return isoR05_hadEt_ ;}
562	>	Float_t isoR05_sumPt() const { return isoR05_sumPt_ ;}
563	>	Int_t isoR05_nTracks() const { return isoR05_nTracks_ ;}
564	>	Int_t idCutBasedFixedThresholdLoose() const { return idCutBasedFixedThresholdLoose_ ;}
565	>	Int_t idCutBasedFixedThresholdTight() const { return idCutBasedFixedThresholdTight_ ;}
566	>	Int_t idCutBasedFixedThresholdHighEnergy() const { return idCutBasedFixedThresholdHighEnergy_ ;}
567	>	Int_t idCutBasedCategorizedLoose() const { return idCutBasedCategorizedLoose_ ;}
568	>	Int_t idCutBasedCategorizedTight() const { return idCutBasedCategorizedTight_ ;}
569	>	Float_t idLikelihood() const { return idLikelihood_ ;}
570	>	Float_t idNeuralNet() const { return idNeuralNet_ ;}
571	>
572	>	/* TODO - isBarrel / isEndcap / isCrack
573	>	if (fabs (eta) <= 1.4442) {
574	>	localElectron.setPosition (1);
575	>	}
576	>	else if (fabs (eta) > 1.4442 & fabs (eta) < 1.5560) {
577	>	localElectron.setPosition (0);
578	>	}
579	>	else if (fabs (eta) >= 1.5560) {
580	>	localElectron.setPosition (-1);
581	>	}
582	>	*/
583	>
584	>	virtual TString typeName() const { return "TRootElectron"; }
585	>
586	>
587	>	void setClassification(Int_t classification) { classification_ = classification; }
588	>	void setCaloEnergy(Float_t caloEnergy) { caloEnergy_ = caloEnergy; }
589	>	void setCaloEnergyError(Float_t caloEnergyError) { caloEnergyError_ = caloEnergyError; }
590	>	void setTrackMomentum(Float_t trackMomentum) { trackMomentum_ = trackMomentum; }
591	>	void setTrackMomentumError(Float_t trackMomentumError) { trackMomentumError_ = trackMomentumError; }
592	>	void setHadOverEm(Float_t hadOverEm) { hadOverEm_ = hadOverEm; }
593	>	void setDeltaEtaIn(Float_t deltaEtaIn) { deltaEtaIn_ = deltaEtaIn; }
594	>	void setDeltaPhiIn(Float_t deltaPhiIn) { deltaPhiIn_ = deltaPhiIn; }
595	>	void setEnergySuperClusterOverPin(Float_t energySuperClusterOverPin) { energySuperClusterOverPin_ = energySuperClusterOverPin; }
596	>	void setDeltaEtaOut(Float_t deltaEtaOut) { deltaEtaOut_ = deltaEtaOut; }
597	>	void setDeltaPhiOut(Float_t deltaPhiOut) { deltaPhiOut_ = deltaPhiOut; }
598	>	void setEnergySeedClusterOverPout(Float_t energySeedClusterOverPout) { energySeedClusterOverPout_ = energySeedClusterOverPout; }
599	>	void setEnergyScaleCorrected(Bool_t energyScaleCorrected) { energyScaleCorrected_ = energyScaleCorrected; }
600	>	void setMomentumCorrected(Bool_t momentumCorrected) { momentumCorrected_ = momentumCorrected; }
601	>
602	>	void setPixelLayersWithMeasurement(Int_t pixelLayersWithMeasurement) { pixelLayersWithMeasurement_ = pixelLayersWithMeasurement; }
603	>	void setStripLayersWithMeasurement(Int_t stripLayersWithMeasurement) { stripLayersWithMeasurement_ = stripLayersWithMeasurement; }
604	>	void setD0(Float_t d0) { d0_ = d0; }
605	>	void setD0Error(Float_t d0Error) { d0Error_ = d0Error; }
606	>	void setDsz(Float_t dsz) { dsz_ = dsz; }
607	>	void setDszError(Float_t dszError) { dszError_ = dszError; }
608	>	void setNormalizedChi2(Float_t normalizedChi2) { normalizedChi2_ = normalizedChi2; }
609	>	void setPtError(Float_t ptError) { ptError_ = ptError; }
610	>	void setEtaError(Float_t etaError) { etaError_ = etaError; }
611	>	void setPhiError(Float_t phiError) { phiError_ = phiError; }
612	>	void setIP3DSignificance(Float_t ip3DSignificance) { ip3DSignificance_ = ip3DSignificance; }
613	>
614	>	void setNbClusters(Int_t nbClusters) { nbClusters_ = nbClusters; }
615	>	void setSuperClusterRawEnergy(Float_t superClusterRawEnergy) { superClusterRawEnergy_ = superClusterRawEnergy; }
616	>	void setPreshowerEnergy(Float_t preshowerEnergy) { preshowerEnergy_ = preshowerEnergy; }
617	>	void setCaloPosition(TVector3 caloPosition) { caloPosition_ = caloPosition; }
618	>	void setCaloPosition(Double_t x, Double_t y, Double_t z) { caloPosition_.SetXYZ(x, y ,z); }
619	>	void setSCIndex(Int_t type, Int_t index) { scIndex_[type]=index; }
620	>	void setSCRef(Int_t type, TObject* superCluster) { scRef_[type]=superCluster; }
621	>	void setClusterAlgo(Int_t clusterAlgo) { clusterAlgo_ = clusterAlgo; }
622	>	void setCaloConeSize(Float_t caloConeSize) { caloConeSize_ = caloConeSize; }
623	>	void setE2x2(Float_t e2x2) { e2x2_ = e2x2; }
624	>	void setE3x3(Float_t e3x3) { e3x3_ = e3x3; }
625	>	void setE5x5(Float_t e5x5) { e5x5_ = e5x5; }
626	>	void setEMax(Float_t eMax) { eMax_ = eMax; }
627	>	void setIsoR01_sumPt(Float_t isoR01_sumPt) { isoR01_sumPt_ = isoR01_sumPt; }
628	>	void setIsoR01_nTracks(Int_t isoR01_nTracks) { isoR01_nTracks_ = isoR01_nTracks; }
629	>	void setIsoR02_sumPt(Float_t isoR02_sumPt) { isoR02_sumPt_ = isoR02_sumPt; }
630	>	void setIsoR02_nTracks(Int_t isoR02_nTracks) { isoR02_nTracks_ = isoR02_nTracks; }
631	>	void setIsoR03_emEt(Float_t isoR03_emEt) { isoR03_emEt_ = isoR03_emEt; }
632	>	void setIsoR03_hadEt(Float_t isoR03_hadEt) { isoR03_hadEt_ = isoR03_hadEt; }
633	>	void setIsoR03_sumPt(Float_t isoR03_sumPt) { isoR03_sumPt_ = isoR03_sumPt; }
634	>	void setIsoR03_nTracks(Int_t isoR03_nTracks) { isoR03_nTracks_ = isoR03_nTracks; }
635	>	void setIsoR05_emEt(Float_t isoR05_emEt) { isoR05_emEt_ = isoR05_emEt; }
636	>	void setIsoR05_hadEt(Float_t isoR05_hadEt) { isoR05_hadEt_ = isoR05_hadEt; }
637	>	void setIsoR05_sumPt(Float_t isoR05_sumPt) { isoR05_sumPt_ = isoR05_sumPt; }
638	>	void setIsoR05_nTracks(Int_t isoR05_nTracks) { isoR05_nTracks_ = isoR05_nTracks; }
639	>	void setIDCutBasedFixedThresholdLoose(Int_t idCutBasedFixedThresholdLoose) { idCutBasedFixedThresholdLoose_ = idCutBasedFixedThresholdLoose; }
640	>	void setIDCutBasedFixedThresholdTight(Int_t idCutBasedFixedThresholdTight) { idCutBasedFixedThresholdTight_ = idCutBasedFixedThresholdTight; }
641	>	void setIDCutBasedFixedThresholdHighEnergy(Int_t idCutBasedFixedThresholdHighEnergy) { idCutBasedFixedThresholdHighEnergy_ = idCutBasedFixedThresholdHighEnergy; }
642	>	void setIDCutBasedCategorizedLoose(Int_t idCutBasedCategorizedLoose) { idCutBasedCategorizedLoose_ = idCutBasedCategorizedLoose; }
643	>	void setIDCutBasedCategorizedTight(Int_t idCutBasedCategorizedTight) { idCutBasedCategorizedTight_ = idCutBasedCategorizedTight; }
644	>	void setIDLikelihood(Float_t idLikelihood) { idLikelihood_ = idLikelihood; }
645	>	void setIDNeuralNet(Float_t idNeuralNet) { idNeuralNet_ = idNeuralNet; }
646	>
647	>	friend std::ostream& operator<< (std::ostream& stream, const TRootElectron& electron)
648	>	{
649	>	stream << "TRootElectron - Charge=" << electron.charge() << " (E,Et,eta,phi)=("<< electron.Energy() <<","<< electron.Et() <<","<< electron.Eta() <<","<< electron.Phi() << ")"
650	>	<< " vertex(x,y,z)=("<< electron.vx() <<","<< electron.vy() <<","<< electron.vz() << ")";
651	>	return stream;
652	>	};
653	>
654	>	void Print()
655	>	{
656	>	std::cout << "TRootElectron - Charge=" << this->charge() << " (E,Et,eta,phi)=("<< this->Energy() <<","<< this->Et() <<","<< this->Eta() <<","<< this->Phi() << ")"
657	>	<< "  vertex=("<< this->vx() <<","<< this->vy() <<","<< this->vz() << ")"
658	>	<< "  caloPosition=(" << this->caloPosition().X() << "," << this->caloPosition().Y() << "," << this->caloPosition().Z() << ")" << endl
659	>	<< "            trackMomentum=" << this->trackMomentum() << "+-" << this->trackMomentumError() << " nPixels=" << this->pixelLayersWithMeasurement()
660	>	<< " nStrips=" << this->stripLayersWithMeasurement() << " d0=" << this->d0() << "+-" << this->d0Error()<< " dsz=" << this->dsz() << "+-" << this->dszError() << endl
661	>	<< "            algo=" << this->clusterAlgo() << " nBC=" << this->nbClusters() << "  caloEnergy=" << this->caloEnergy() << "+-" << this->caloEnergyError()
662	>	<< " scRawEnergy=" << this->superClusterRawEnergy() << " preshEnergy=" << this->preshowerEnergy()
663	>	<< " E2x2=" << this->e2x2() <<" E3x3=" << this->e3x3() <<" E5x5=" << this->e5x5() <<" Emax=" << this->eMax()
664	>	<< " R19=" << this->r19() <<" R9=" << this->r9() << endl
665	>	<<"            H/E=" << this->hadOverEm() <<"  deltaEtaIn=" << this->deltaEtaIn() <<"  deltaPhiIn=" << this->deltaPhiIn() <<"  deltaEtaOut=" << this->deltaEtaOut() <<"  deltaPhiOut=" << this->deltaPhiOut() <<"  E/p in=" << this->energySuperClusterOverPin() <<"  E/p out=" << this->energySeedClusterOverPout() << endl
666	>	<< "            iso03  ecal="<< this->isoR03_emEt() << " hcal=" << this->isoR03_hadEt() << " tracker=" << this->isoR03_sumPt() << " ntracks=" << this->isoR03_nTracks()
667	>	<< "  iso05  ecal="<< this->isoR05_emEt() << " hcal=" << this->isoR05_hadEt() << " tracker=" << this->isoR05_sumPt() << " ntracks=" << this->isoR05_nTracks() << endl
668	>	<<"            ID:  Fixed-Threshold(Loose,Tight,HighEnergy)=(" << this->idCutBasedFixedThresholdLoose() << "," << this->idCutBasedFixedThresholdTight()  << "," << this->idCutBasedFixedThresholdHighEnergy() << ")"
669	>	<<"  Categorized(Loose,Tight)=(" << this->idCutBasedCategorizedLoose() << "," << this->idCutBasedCategorizedTight()  << ")"
670	>	<<"  LH=" << this->idLikelihood() << "  NN=" << this->idNeuralNet();
671	>	};
672	>
673	>
674	>	private:
675	>
676	>	// Variables from reco::GsfElectron
677	>
678	>	// Classification:
679	>	//        barrel  :   0: golden,  10: bigbrem,  20: narrow,  30-34: showering,  40: crack
680	>	//          (30: showering nbrem=0, 31: showering nbrem=1, 32: showering nbrem=2 ,33: showering nbrem=3, 34: showering nbrem>=4)
681	>	//        endcaps : 100: golden, 110: bigbrem, 120: narrow, 130-134: showering
682	>	//            (130: showering nbrem=0, 131: showering nbrem=1, 132: showering nbrem=2 ,133: showering nbrem=3, 134: showering nbrem>=4)
683	>
684	>	Int_t classification_;             // Electron classification
685	>
686	>	Float_t caloEnergy_;                // SuperCluster energy corrected by EnergyScaleFactor
687	>	Float_t caloEnergyError_;           // Error on caloEnergy_
688	>	Float_t trackMomentum_;             // Track momentum at vertex
689	>	Float_t trackMomentumError_;        // Error on trackMomentum_
690	>
691	>	Float_t hadOverEm_;                 // hadronic over electromagnetic fraction
692	>
693	>	Float_t deltaEtaIn_;                // Supercluster eta - Track eta from helix extrapolation from impact point
694	>	Float_t deltaPhiIn_;                // Supercluster phi - Track phi from helix extrapolation from impact point
695	>	Float_t energySuperClusterOverPin_; // supercluster energy / track momentum at impact point
696	>
697	>	Float_t deltaEtaOut_;               // SeedCluster eta - Track eta at calo from outermost state
698	>	Float_t deltaPhiOut_;               // SeedCluster phi - Track phi at calo from outermost state
699	>	Float_t energySeedClusterOverPout_; // SeedCluster energy / track momentum at calo from outermost state
700	>
701	>	Bool_t energyScaleCorrected_;       // Has Energy Scale been applied ?
702	>	Bool_t momentumCorrected_;          // Tell if class dependant E-p combination has been determined
703	>
704	>
705	>	// Variables from reco::GsfTrack
706	>
707	>	/* cf: http://cmslxr.fnal.gov/lxr/source/DataFormats/TrackReco/interface/TrackBase.h
708	>	For tracks reconstructed in the CMS Tracker, the reference position is the point of closest approach to the centre
709	>	of CMS. For muons, this is not necessarily true. Parameters associated to the 5D curvilinear covariance matrix:
710	>	qoverp = q / abs(p) = signed inverse of momentum [1/GeV]
711	>	lambda = pi/2 - polar angle at the given point
712	>	phi = azimuth angle at the given point
713	>	dxy = -vx*sin(phi) + vy*cos(phi) [cm]
714	>	dsz = vz*cos(lambda) - (vx*cos(phi)+vy*sin(phi))*sin(lambda) [cm]
715	>
716	>	Geometrically, dxy is the signed distance in the XY plane between the straight line passing through (vx,vy) with
717	>	azimuthal angle phi and the point (0,0). The dsz parameter is the signed distance in the SZ plane between the straight
718	>	line passing through (vx,vy,vz) with angles (phi, lambda) and the point (s=0,z=0). The S axis is defined by the projection
719	>	of the straight line onto the XY plane. The convention is to assign the S coordinate for (vx,vy) as the value
720	>	vx*cos(phi)+vy*sin(phi). This value is zero when (vx,vy) is the point of minimum transverse distance to (0,0).
721	>
722	>	Note that dxy and dsz provide sensible estimates of the distance from the true particle trajectory to (0,0,0) ONLY
723	>	in two cases:
724	>	- When (vx,vy,vz) already correspond to the point of minimum transverse distance to (0,0,0) or is close to it
725	>	(so that the differences between considering the exact trajectory or a straight line in this range  are negligible).
726	>	This is usually true for Tracker tracks.
727	>	- When the track has infinite or extremely high momentum */
728	>
729	>	Int_t pixelLayersWithMeasurement_; // Number of pixel layers with at least one valid hit
730	>	Int_t stripLayersWithMeasurement_; // Number of strip layers with at least one valid hit
731	>
732	>	Float_t d0_;             // d0=-dxy
733	>	Float_t d0Error_;        // error on d0_
734	>	Float_t dsz_;            // dsz parameter
735	>	Float_t dszError_;       // error on dsz_
736	>	Float_t normalizedChi2_; // chi-squared divided by n.d.o.f. of track fit
737	>
738	>	Float_t ptError_;        // needed ?  ptError()
739	>	Float_t etaError_;       // needed ?  etaError()
740	>	Float_t phiError_;       // needed ?  phiError()
741	>
742	>	Float_t ip3DSignificance_;  // Significance of the impact parameter wrt to the selected primary vertex
743	>
744	>
745	>	// Variables from reco::SuperCluster
746	>	Int_t nbClusters_; // Number of related brem clusters
747	>	Float_t superClusterRawEnergy_;
748	>	Float_t preshowerEnergy_;
749	>	TVector3 caloPosition_;            // SuperCluster centroid position
750	>	map<Int_t,Int_t> scIndex_;  // indexes of the seed SuperClusters (one per SC tytpe)
751	>	map<Int_t,TRef> scRef_;     // references to the seed SuperClusters (one per SC tytpe)
752	>
753	>
754	>	// Cluster Shape variables
755	>	// need reco::SuperCluster and reco::BasicCluster
756	>	Int_t clusterAlgo_;    // reco::BasicCluster::algo() island = 0, hybrid = 1, fixedMatrix = 2, dynamicHybrid = 3, multi5x5 = 4
757	>	Float_t caloConeSize_; // Delta_R of the cone centered on the reco::GsfElectron and containing all its basic clusters constituents
758	>	// need reco::SuperCluster and reco::BasicCluster and reduced Ecal RecHits Collections for EcalClusterLazyTools
759	>	Float_t e2x2_;
760	>	Float_t e3x3_;
761	>	Float_t e5x5_;
762	>	Float_t eMax_;
763	>
764	>
765	>	// pat::Electron Isolation
766	>	Float_t isoR01_sumPt_;
767	>	Int_t isoR01_nTracks_;
768	>
769	>	Float_t isoR02_sumPt_;
770	>	Int_t isoR02_nTracks_;
771	>
772	>	Float_t isoR03_emEt_;
773	>	Float_t isoR03_hadEt_;
774	>	Float_t isoR03_sumPt_;
775	>	Int_t isoR03_nTracks_;
776	>
777	>	Float_t isoR05_emEt_;
778	>	Float_t isoR05_hadEt_;
779	>	Float_t isoR05_sumPt_; // Pt sum of tracks in a DR=0.5 cone around the electron
780	>	Int_t isoR05_nTracks_; // Tracks multiplicity in a DR=0.5 cone around the electron
781	>
782	>
783	>	// Electron ID (cf https://twiki.cern.ch/twiki/bin/view/CMS/SWGuideElectronID)
784	>	// By default in 2.2.X, only cut based identification is available in pat (https://twiki.cern.ch/twiki/bin/view/CMS/SWGuideCutBasedElectronID
785	>	Int_t idCutBasedFixedThresholdLoose_;      // Simple cut based ID (aka 'robust') - Loose Thresholds on H/E, DeltaEta, DeltaPhi, SigmaEtaEta
786	>	Int_t idCutBasedFixedThresholdTight_;      // Simple cut based ID (default in EWK group) - Tight Thresholds on H/E, DeltaEta, DeltaPhi, SigmaEtaEta
787	>	Int_t idCutBasedFixedThresholdHighEnergy_; // Simple cut based ID - Thresholds optimized for high energy electron (~TeV) - not activated by default in 2.2.X
788	>	Int_t idCutBasedCategorizedLoose_;         // Category based ID - Different loose thresholds on H/E, DeltaEta, DeltaPhi, SigmaEtaEta, eSeedOverPin for differents regions in the E/p vs fBrem plane
789	>	Int_t idCutBasedCategorizedTight_;         // Category based ID - Different tight thresholds on H/E, DeltaEta, DeltaPhi, SigmaEtaEta, eSeedOverPin for differents regions in the E/p vs fBrem plane
790	>	Float_t idLikelihood_;                     // Lieklihood ID - not activated by default in 2.2.X
791	>	Float_t idNeuralNet_;                      // NN ID - not activated by default in 2.2.X
792	>
793	>
794	>	// needed ?
795	>	//Float_t sigmaEtaEta_;
796	>	//Float_t sigmaPhiPhi_;
797	>
798	>
799	>	ClassDef (TRootElectron,4);
800	>
801		};
802
803		#endif

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