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root/cvsroot/UserCode/OSUT3Analysis/Configuration/python/histogramDefinitions.py

Comparing UserCode/OSUT3Analysis/Configuration/python/histogramDefinitions.py (file contents):
Revision 1.15 by ahart, Mon Mar 18 10:29:18 2013 UTC vs.
Revision 1.36 by wulsin, Sun Aug 4 21:27:05 2013 UTC

#	Line 1 | Line 1
1		import FWCore.ParameterSet.Config as cms
2
3
4	+
5		###############################################
6		##### Set up the histograms to be plotted #####
7		###############################################
8
9
10	+	##############################################################################################
11	+
12		MuonHistograms = cms.PSet(
13		inputCollection = cms.string("muons"),
14		histograms = cms.VPSet (
15		cms.PSet (
16		name = cms.string("muonPt"),
17		title = cms.string("Muon Transverse Momentum; p_{T} [GeV]"),
18	<	bins = cms.vdouble(100, 0, 500),
18	>	bins = cms.untracked.vdouble(100, 0, 500),
19		inputVariables = cms.vstring("pt"),
20		),
21		cms.PSet (
22		name = cms.string("muonEta"),
23		title = cms.string("Muon Eta; #eta"),
24	<	bins = cms.vdouble(100, -5, 5),
24	>	bins = cms.untracked.vdouble(100, -3, 3),
25		inputVariables = cms.vstring("eta"),
26		),
27		cms.PSet (
28		name = cms.string("muonGenEta"),
29		title = cms.string("Muon Gen. Eta; #eta"),
30	<	bins = cms.vdouble(100, -5, 5),
30	>	bins = cms.untracked.vdouble(100, -3, 3),
31		inputVariables = cms.vstring("genEta"),
32		),
33		cms.PSet (
34		name = cms.string("muonPhi"),
35		title = cms.string("Muon Phi; #phi"),
36	<	bins = cms.vdouble(100, -3.15, 3.15),
36	>	bins = cms.untracked.vdouble(100, -3.15, 3.15),
37		inputVariables = cms.vstring("phi"),
38		),
39		cms.PSet (
40	+	name = cms.string("muonCharge"),
41	+	title = cms.string("Muon Charge; charge"),
42	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
43	+	inputVariables = cms.vstring("charge"),
44	+	),
45	+	cms.PSet (
46		name = cms.string("muonEtaPhi"),
47		title = cms.string("Muon Eta vs. Phi; #phi; #eta"),
48	<	bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
48	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
49		inputVariables = cms.vstring("phi","eta"),
50		),
51	+	cms.PSet (
52	+	name = cms.string("muonsIsoD0"),
53	+	title = cms.string("Muon Iso vs. d_{0}; D0; Iso"),
54	+	bins = cms.untracked.vdouble(50, 0, 0.05, 150, 0, 3),
55	+	inputVariables = cms.vstring("abs(correctedD0)","relPFdBetaIso"),
56	+	),
57		cms.PSet (
58		name = cms.string("muonD0Vertex"),
59		title = cms.string("Muon d_{0} wrt PV; d_{0} [cm]"),
60	<	bins = cms.vdouble(5000, -1, 1),
60	>	bins = cms.untracked.vdouble(100, -0.05, 0.05),
61		inputVariables = cms.vstring("correctedD0Vertex"),
62		),
63		cms.PSet (
64		name = cms.string("muonD0Beamspot"),
65		title = cms.string("Muon d_{0} wrt Beamspot; d_{0} [cm]"),
66	<	bins = cms.vdouble(5000, -1, 1),
66	>	bins = cms.untracked.vdouble(100, -0.05, 0.05),
67		inputVariables = cms.vstring("correctedD0"),
68		),
69		cms.PSet (
55	–	name = cms.string("muonD0Origin"),
56	–	title = cms.string("Muon d_{0} wrt CMS Origin; d_{0} [cm]"),
57	–	bins = cms.vdouble(5000, -1, 1),
58	–	inputVariables = cms.vstring("tkD0"),
59	–	),
60	–	cms.PSet (
70		name = cms.string("muonD0VertexPhi"),
71	<	title = cms.string("Muon d_{0} wrt Vertex vs Phi; #phi; d_{0} [cm]"),
72	<	bins = cms.vdouble(100, -3.15, 3.15, 5000, -1, 1),
71	>	title = cms.string("Muon d_{0} wrt Vertex vs. Phi; #phi; d_{0} [cm]"),
72	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -0.05, 0.05),
73		inputVariables = cms.vstring("phi","correctedD0Vertex"),
74		),
75		cms.PSet (
76		name = cms.string("muonAbsD0Vertex"),
77		title = cms.string("Muon |d_{0}| wrt Vertex; |d_{0}| [cm]"),
78	<	bins = cms.vdouble(5000, 0, 1),
78	>	bins = cms.untracked.vdouble(100, 0, 0.05),
79		inputVariables = cms.vstring("abs(correctedD0Vertex)")
80		),
81		cms.PSet (
82		name = cms.string("muonAbsD0Beamspot"),
83		title = cms.string("Muon |d_{0}| wrt Beamspot; |d_{0}| [cm]"),
84	<	bins = cms.vdouble(5000, 0, 1),
84	>	bins = cms.untracked.vdouble(100, 0, 0.05),
85		inputVariables = cms.vstring("abs(correctedD0)")
86		),
87		cms.PSet (
79	–	name = cms.string("muonAbsD0Origin"),
80	–	title = cms.string("Muon |d_{0}| wrt CMS Origin; |d_{0}| [cm]"),
81	–	bins = cms.vdouble(5000, 0, 1),
82	–	inputVariables = cms.vstring("abs(tkD0)")
83	–	),
84	–	cms.PSet (
88		name = cms.string("muonD0VertexSig"),
89		title = cms.string("Muon d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
90	<	bins = cms.vdouble(1000, -10.0, 10.0),
90	>	bins = cms.untracked.vdouble(100, -10.0, 10.0),
91		inputVariables = cms.vstring("correctedD0VertexSig"),
92		),
93		cms.PSet (
94		name = cms.string("muonAbsD0VertexSig"),
95		title = cms.string("Muon d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
96	<	bins = cms.vdouble(1000, 0, 10.0),
96	>	bins = cms.untracked.vdouble(100, 0, 10.0),
97		inputVariables = cms.vstring("abs(correctedD0VertexSig)"),
98		),
99		cms.PSet (
100		name = cms.string("muonDz"),
101		title = cms.string("Muon d_{z}; d_{z} [cm]"),
102	<	bins = cms.vdouble(10000, -20, 20),
102	>	bins = cms.untracked.vdouble(100, -0.5, 0.5),
103		inputVariables = cms.vstring("correctedDZ"),
104		),
105		cms.PSet (
106		name = cms.string("muonAbsDz"),
107		title = cms.string("Muon |d_{z}|; |d_{z}| [cm]"),
108	<	bins = cms.vdouble(5000, 0, 20),
108	>	bins = cms.untracked.vdouble(100, 0, 0.5),
109		inputVariables = cms.vstring("abs(correctedDZ)"),
110		),
111		cms.PSet (
112	+	name = cms.string("muonAbsD0BeamspotVsAbsDz"),
113	+	title = cms.string("Muon |d_{0}| wrt Beamspot vs. Muon |d_{z}|; |d_{z}| [cm]; d_{0} [cm]"),
114	+	bins = cms.untracked.vdouble(100, 0, 0.5, 100, 0, 0.05),
115	+	inputVariables = cms.vstring("abs(correctedDZ)","abs(correctedD0)"),
116	+	),
117	+	cms.PSet (
118		name = cms.string("muonDetIso"),
119		title = cms.string("Muon Detector-based Isolation; rel. iso."),
120	<	bins = cms.vdouble(1000, 0, 1),
120	>	bins = cms.untracked.vdouble(100, 0, 3),
121		inputVariables = cms.vstring("detIso"),
122		),
123		cms.PSet (
124		name = cms.string("muonPFdBetaIso"),
125		title = cms.string("Muon PF-based #Delta#beta-corrected Isolation; rel. iso."),
126	<	bins = cms.vdouble(1000, 0, 1),
126	>	bins = cms.untracked.vdouble(150, 0, 3),
127		inputVariables = cms.vstring("relPFdBetaIso"),
128		),
129
130	+	cms.PSet (
131	+	name = cms.string("muonMetMt"),
132	+	title = cms.string("Transverse Mass of Muon-MET System; M_{T} [GeV]"),
133	+	bins = cms.untracked.vdouble(100, 0, 200),
134	+	inputVariables = cms.vstring("metMT"),
135	+	),
136		)
137		)
138	+	##########################################################################
139	+	PhotonHistograms = cms.PSet(
140	+	inputCollection = cms.string("photons"),
141	+	histograms = cms.VPSet (
142	+	cms.PSet (
143	+	name = cms.string("photonPt"),
144	+	title = cms.string("Photon Transverse Momentum; p_{T} [GeV]"),
145	+	bins = cms.untracked.vdouble(100, 0, 500),
146	+	inputVariables = cms.vstring("pt"),
147	+	),
148	+	cms.PSet (
149	+	name = cms.string("photonEta"),
150	+	title = cms.string("Photon Eta; #eta"),
151	+	bins = cms.untracked.vdouble(100, -3, 3),
152	+	inputVariables = cms.vstring("eta"),
153	+	),
154	+	cms.PSet (
155	+	name = cms.string("photonGenEta"),
156	+	title = cms.string("Photon Gen. Eta; #eta"),
157	+	bins = cms.untracked.vdouble(100, -3, 3),
158	+	inputVariables = cms.vstring("genEta"),
159	+	),
160	+	cms.PSet (
161	+	name = cms.string("photonPhi"),
162	+	title = cms.string("Photon Phi; #phi"),
163	+	bins = cms.untracked.vdouble(100, -3.15, 3.15),
164	+	inputVariables = cms.vstring("phi"),
165	+	),
166	+	cms.PSet (
167	+	name = cms.string("photonEtaPhi"),
168	+	title = cms.string("Photon Eta vs. Phi; #phi; #eta"),
169	+	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
170	+	inputVariables = cms.vstring("phi","eta"),
171	+	),
172	+	)
173	+	)
174	+	##############################################################################################
175	+
176	+	SecondaryMuonHistograms = cms.PSet(
177	+	inputCollection = cms.string("secondary muons"),
178	+	histograms = cms.VPSet (
179	+	cms.PSet (
180	+	name = cms.string("secondaryMuonPt"),
181	+	title = cms.string("Secondary Muon Transverse Momentum; p_{T} [GeV]"),
182	+	bins = cms.untracked.vdouble(100, 0, 500),
183	+	inputVariables = cms.vstring("pt"),
184	+	),
185	+	cms.PSet (
186	+	name = cms.string("secondaryMuonEta"),
187	+	title = cms.string("Secondary Muon Eta; #eta"),
188	+	bins = cms.untracked.vdouble(100, -3, 3),
189	+	inputVariables = cms.vstring("eta"),
190	+	),
191	+	cms.PSet (
192	+	name = cms.string("secondaryMuonGenEta"),
193	+	title = cms.string("Secondary Muon Gen. Eta; #eta"),
194	+	bins = cms.untracked.vdouble(100, -3, 3),
195	+	inputVariables = cms.vstring("genEta"),
196	+	),
197	+	cms.PSet (
198	+	name = cms.string("secondaryMuonPhi"),
199	+	title = cms.string("Secondary Muon Phi; #phi"),
200	+	bins = cms.untracked.vdouble(100, -3.15, 3.15),
201	+	inputVariables = cms.vstring("phi"),
202	+	),
203	+	cms.PSet (
204	+	name = cms.string("secondaryMuonCharge"),
205	+	title = cms.string("Secondary Muon Charge; charge"),
206	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
207	+	inputVariables = cms.vstring("charge"),
208	+	),
209	+	cms.PSet (
210	+	name = cms.string("secondaryMuonEtaPhi"),
211	+	title = cms.string("Secondary Muon Eta vs. Phi; #phi; #eta"),
212	+	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
213	+	inputVariables = cms.vstring("phi","eta"),
214	+	),
215	+	cms.PSet (
216	+	name = cms.string("secondaryMuonD0Vertex"),
217	+	title = cms.string("Secondary Muon d_{0} wrt PV; d_{0} [cm]"),
218	+	bins = cms.untracked.vdouble(100, -0.05, 0.05),
219	+	inputVariables = cms.vstring("correctedD0Vertex"),
220	+	),
221	+	cms.PSet (
222	+	name = cms.string("secondaryMuonD0Beamspot"),
223	+	title = cms.string("Secondary Muon d_{0} wrt Beamspot; d_{0} [cm]"),
224	+	bins = cms.untracked.vdouble(100, -0.05, 0.05),
225	+	inputVariables = cms.vstring("correctedD0"),
226	+	),
227	+	cms.PSet (
228	+	name = cms.string("secondaryMuonD0VertexPhi"),
229	+	title = cms.string("Secondary Muon d_{0} wrt Vertex vs. Phi; #phi; d_{0} [cm]"),
230	+	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -0.05, 0.05),
231	+	inputVariables = cms.vstring("phi","correctedD0Vertex"),
232	+	),
233	+	cms.PSet (
234	+	name = cms.string("secondaryMuonAbsD0Vertex"),
235	+	title = cms.string("Secondary Muon |d_{0}| wrt Vertex; |d_{0}| [cm]"),
236	+	bins = cms.untracked.vdouble(100, 0, 0.05),
237	+	inputVariables = cms.vstring("abs(correctedD0Vertex)")
238	+	),
239	+	cms.PSet (
240	+	name = cms.string("secondaryMuonAbsD0Beamspot"),
241	+	title = cms.string("Secondary Muon |d_{0}| wrt Beamspot; |d_{0}| [cm]"),
242	+	bins = cms.untracked.vdouble(100, 0, 0.05),
243	+	inputVariables = cms.vstring("abs(correctedD0)")
244	+	),
245	+	cms.PSet (
246	+	name = cms.string("secondaryMuonD0VertexSig"),
247	+	title = cms.string("Secondary Muon d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
248	+	bins = cms.untracked.vdouble(100, -2, 2),
249	+	inputVariables = cms.vstring("correctedD0VertexSig"),
250	+	),
251	+	cms.PSet (
252	+	name = cms.string("secondaryMuonAbsD0VertexSig"),
253	+	title = cms.string("Secondary Muon d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
254	+	bins = cms.untracked.vdouble(100, 0, 10),
255	+	inputVariables = cms.vstring("abs(correctedD0VertexSig)"),
256	+	),
257	+	cms.PSet (
258	+	name = cms.string("secondaryMuonDz"),
259	+	title = cms.string("Secondary Muon d_{z}; d_{z} [cm]"),
260	+	bins = cms.untracked.vdouble(100, -0.5, 0.5),
261	+	inputVariables = cms.vstring("correctedDZ"),
262	+	),
263	+	cms.PSet (
264	+	name = cms.string("secondaryMuonAbsDz"),
265	+	title = cms.string("Secondary Muon |d_{z}|; |d_{z}| [cm]"),
266	+	bins = cms.untracked.vdouble(100, 0, 0.5),
267	+	inputVariables = cms.vstring("abs(correctedDZ)"),
268	+	),
269	+	cms.PSet (
270	+	name = cms.string("secondaryMuonAbsD0BeamspotVsAbsDz"),
271	+	title = cms.string("Secondary Muon |d_{0}| wrt Beamspot vs. Secondary Muon |d_{z}|; |d_{z}| [cm]; d_{0} [cm]"),
272	+	bins = cms.untracked.vdouble(100, 0, 0.5, 100, 0, 0.05),
273	+	inputVariables = cms.vstring("abs(correctedDZ)","abs(correctedD0)"),
274	+	),
275	+	cms.PSet (
276	+	name = cms.string("secondaryMuonDetIso"),
277	+	title = cms.string("Secondary Muon Detector-based Isolation; rel. iso."),
278	+	bins = cms.untracked.vdouble(100, 0, 3),
279	+	inputVariables = cms.vstring("detIso"),
280	+	),
281	+	cms.PSet (
282	+	name = cms.string("secondaryMuonPFdBetaIso"),
283	+	title = cms.string("Secondary Muon PF-based #Delta#beta-corrected Isolation; rel. iso."),
284	+	bins = cms.untracked.vdouble(100, 0, 3),
285	+	inputVariables = cms.vstring("relPFdBetaIso"),
286	+	),
287	+	cms.PSet (
288	+	name = cms.string("secondaryMuonMetMt"),
289	+	title = cms.string("Transverse Mass of Muon-MET System; M_{T} [GeV]"),
290	+	bins = cms.untracked.vdouble(100, 0, 200),
291	+	inputVariables = cms.vstring("metMT"),
292	+	),
293	+	)
294	+	)
295	+
296	+	##############################################################################################
297
298		DiMuonHistograms = cms.PSet(
299		inputCollection = cms.string("muon-muon pairs"),
#	Line 127 | Line 301 | DiMuonHistograms = cms.PSet(
301		cms.PSet (
302		name = cms.string("diMuonInvMass"),
303		title = cms.string("Di-muon Invariant Mass; M_{#mu#mu} [GeV]"),
304	<	bins = cms.vdouble(100, 0, 500),
304	>	bins = cms.untracked.vdouble(100, 0, 500),
305		inputVariables = cms.vstring("invMass"),
306		),
307		cms.PSet (
308	+	name = cms.string("diMuonChargeProduct"),
309	+	title = cms.string("Di-muon Charge Product; charge_{#mu}_{1}*charge_{#mu}_{2}"),
310	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
311	+	inputVariables = cms.vstring("chargeProduct"),
312	+	),
313	+	cms.PSet (
314		name = cms.string("diMuonDeltaPhi"),
315		title = cms.string("Di-muon Phi Difference; |#Delta(#phi)|"),
316	<	bins = cms.vdouble(1000, 0, 3.14),
316	>	bins = cms.untracked.vdouble(100, 0, 3.15),
317		inputVariables = cms.vstring("deltaPhi"),
318		),
319		cms.PSet (
320	+	name = cms.string("diMuonDeltaEta"),
321	+	title = cms.string("Di-muon Eta Difference; |#Delta(#eta)|"),
322	+	bins = cms.untracked.vdouble(100, 0, 6),
323	+	inputVariables = cms.vstring("deltaEta"),
324	+	),
325	+	cms.PSet (
326		name = cms.string("diMuonDeltaR"),
327		title = cms.string("Di-muon #DeltaR; #DeltaR"),
328	<	bins = cms.vdouble(1000, 0, 10),
328	>	bins = cms.untracked.vdouble(100, 0, 6),
329		inputVariables = cms.vstring("deltaR"),
330		),
331		cms.PSet (
332		name = cms.string("diMuonThreeDAngle"),
333		title = cms.string("Di-muon 3D angle; 3D angle"),
334	<	bins = cms.vdouble(1000, 0, 3.14),
334	>	bins = cms.untracked.vdouble(100, 0, 3.15),
335		inputVariables = cms.vstring("threeDAngle"),
336		),
337		cms.PSet (
338	<	name = cms.string("diMuonDeltaD0"),
339	<	title = cms.string("Di-muon Impact Parameter Difference; |#Delta(d_{0})| [cm]"),
340	<	bins = cms.vdouble(1000, 0, 0.5),
341	<	inputVariables = cms.vstring("abs(deltaCorrectedD0Vertex)"),
338	>	name = cms.string("muon1D0vsMuon2D0"),
339	>	title = cms.string("Muon #1 d_{0} vs. Muon #2 d_{0}; d_{0} [cm]; d_{0} [cm]"),
340	>	bins = cms.untracked.vdouble(100, -0.05, 0.05, 100, -0.05, 0.05),
341	>	inputVariables = cms.vstring("muon2CorrectedD0Vertex","muon1CorrectedD0Vertex"),
342		),
343		cms.PSet (
344	<	name = cms.string("diMuonDeltaAbsD0"),
345	<	title = cms.string("Di-muon Impact Parameter Difference; |#Delta(|d_{0}|)| [cm]"),
346	<	bins = cms.vdouble(1000, 0, 0.5),
347	<	inputVariables = cms.vstring("abs(deltaAbsCorrectedD0Vertex)"),
344	>	name = cms.string("muon1AbsD0vsMuon2AbsD0"),
345	>	title = cms.string("Muon #1 |d_{0}| vs. Muon #2 |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
346	>	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
347	>	inputVariables = cms.vstring("abs(muon2CorrectedD0Vertex)","abs(muon1CorrectedD0Vertex)"),
348	>	),
349	>	)
350	>	)
351	>
352	>	##############################################################################################
353	>
354	>	MuonSecondaryMuonHistograms = cms.PSet(
355	>	inputCollection = cms.string("muon-secondary muon pairs"),
356	>	histograms = cms.VPSet (
357	>	cms.PSet (
358	>	name = cms.string("muonSecondaryMuonInvMass"),
359	>	title = cms.string("Muon-secondary Muon Invariant Mass; M_{#mu#mu} [GeV]"),
360	>	bins = cms.untracked.vdouble(100, 0, 500),
361	>	inputVariables = cms.vstring("invMass"),
362		),
363		cms.PSet (
364	<	name = cms.string("diMuonD0Sign"),
365	<	title = cms.string("Sign of Impact Parameter Product; sign(d_{0}_{1}*d_{0}_{2})"),
366	<	bins = cms.vdouble(2, -1, 1),
367	<	inputVariables = cms.vstring("d0Sign"),
364	>	name = cms.string("muonSecondaryMuonChargeProduct"),
365	>	title = cms.string("Muon-secondary Muon Charge Product; charge_{#mu}_{1}*charge_{#mu}_{2}"),
366	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
367	>	inputVariables = cms.vstring("chargeProduct"),
368		),
369		cms.PSet (
370	<	name = cms.string("muon1D0vsMuon2D0"),
371	<	title = cms.string("Muon #1 d_{0} vs Muon #2 d_{0}; d_{0} [cm]; d_{0} [cm]"),
372	<	bins = cms.vdouble(1000, -1, 1, 1000, -1, 1),
373	<	inputVariables = cms.vstring("muon1CorrectedD0Vertex","muon2CorrectedD0Vertex"),
370	>	name = cms.string("muonSecondaryMuonDeltaPhi"),
371	>	title = cms.string("Muon-secondary Muon Phi Difference; |#Delta(#phi)|"),
372	>	bins = cms.untracked.vdouble(100, 0, 3.15),
373	>	inputVariables = cms.vstring("deltaPhi"),
374		),
375		cms.PSet (
376	<	name = cms.string("muon1AbsD0vsMuon2AbsD0"),
377	<	title = cms.string("Muon #1 |d_{0}| vs Muon #2 |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
378	<	bins = cms.vdouble(1000, 0, 1, 1000, 0, 1),
379	<	inputVariables = cms.vstring("abs(muon1CorrectedD0Vertex)","abs(muon2CorrectedD0Vertex)"),
376	>	name = cms.string("muonSecondaryMuonDeltaEta"),
377	>	title = cms.string("Muon-secondary Muon Eta Difference; |#Delta(#eta)|"),
378	>	bins = cms.untracked.vdouble(100, 0, 6),
379	>	inputVariables = cms.vstring("deltaEta"),
380	>	),
381	>	cms.PSet (
382	>	name = cms.string("muonSecondaryMuonDeltaR"),
383	>	title = cms.string("Muon-secondary Muon #DeltaR; #DeltaR"),
384	>	bins = cms.untracked.vdouble(100, 0, 6),
385	>	inputVariables = cms.vstring("deltaR"),
386	>	),
387	>	cms.PSet (
388	>	name = cms.string("muonSecondaryMuonThreeDAngle"),
389	>	title = cms.string("Muon-secondary Muon 3D angle; 3D angle"),
390	>	bins = cms.untracked.vdouble(100, 0, 3.15),
391	>	inputVariables = cms.vstring("threeDAngle"),
392	>	),
393	>	cms.PSet (
394	>	name = cms.string("muonD0vsSecondaryMuonD0"),
395	>	title = cms.string("Muon d_{0} vs. Secondary Muon d_{0}; d_{0} [cm]; d_{0} [cm]"),
396	>	bins = cms.untracked.vdouble(100, -0.05, 0.05, 100, -0.05, 0.05),
397	>	inputVariables = cms.vstring("muon2CorrectedD0Vertex","muon1CorrectedD0Vertex"),
398	>	),
399	>	cms.PSet (
400	>	name = cms.string("muonAbsD0vsSecondaryMuonAbsD0"),
401	>	title = cms.string("Muon |d_{0}| vs. Secondary Muon |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
402	>	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
403	>	inputVariables = cms.vstring("abs(muon2CorrectedD0Vertex)","abs(muon1CorrectedD0Vertex)"),
404		),
181	–
405		)
406		)
407
408	+	##############################################################################################
409	+
410	+	MuonTauHistograms = cms.PSet(
411	+	inputCollection = cms.string("muon-tau pairs"),
412	+	histograms = cms.VPSet (
413	+	cms.PSet (
414	+	name = cms.string("MuonTauInvMass"),
415	+	title = cms.string("Muon-Tau Invariant Mass; M_{#mu#tau} [GeV]"),
416	+	bins = cms.untracked.vdouble(100, 0, 180),
417	+	inputVariables = cms.vstring("invMass"),
418	+	),
419	+	cms.PSet (
420	+	name = cms.string("MuonTauDeltaEta"),
421	+	title = cms.string("Muon-Tau Eta Difference; |#Delta(#eta)|"),
422	+	bins = cms.untracked.vdouble(100, 0, 6),
423	+	inputVariables = cms.vstring("deltaEta"),
424	+	),
425	+	cms.PSet (
426	+	name = cms.string("MuonTauDeltaPhi"),
427	+	title = cms.string("Muon-Tau Phi Difference; |#Delta(#phi)|"),
428	+	bins = cms.untracked.vdouble(100, 0, 3.15),
429	+	inputVariables = cms.vstring("deltaPhi"),
430	+	),
431	+	cms.PSet (
432	+	name = cms.string("MuonTauDeltaR"),
433	+	title = cms.string("Muon-Tau #DeltaR; #DeltaR"),
434	+	bins = cms.untracked.vdouble(100, 0, 6),
435	+	inputVariables = cms.vstring("deltaR"),
436	+	),
437	+	)
438	+	)
439	+
440	+	##############################################################################################
441	+
442		ElectronHistograms = cms.PSet(
443		inputCollection = cms.string("electrons"),
444		histograms = cms.VPSet (
445		cms.PSet (
446		name = cms.string("electronPt"),
447		title = cms.string("Electron Transverse Momentum; p_{T} [GeV]"),
448	<	bins = cms.vdouble(100, 0, 500),
448	>	bins = cms.untracked.vdouble(100, 0, 500),
449		inputVariables = cms.vstring("pt"),
450		),
451		cms.PSet (
452		name = cms.string("electronEta"),
453		title = cms.string("Electron Eta; #eta"),
454	<	bins = cms.vdouble(100, -5, 5),
454	>	bins = cms.untracked.vdouble(100, -3, 3),
455		inputVariables = cms.vstring("eta"),
456		),
457		cms.PSet (
458		name = cms.string("electronPhi"),
459		title = cms.string("Electron Phi; #phi"),
460	<	bins = cms.vdouble(100, -3.15, 3.15),
460	>	bins = cms.untracked.vdouble(100, -3.15, 3.15),
461		inputVariables = cms.vstring("phi"),
462		),
463		cms.PSet (
464	+	name = cms.string("electronCharge"),
465	+	title = cms.string("Electron Charge; charge"),
466	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
467	+	inputVariables = cms.vstring("charge"),
468	+	),
469	+	cms.PSet (
470		name = cms.string("electronEtaPhi"),
471		title = cms.string("Electron Eta vs. Phi; #phi; #eta"),
472	<	bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
472	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
473		inputVariables = cms.vstring("phi","eta"),
474		),
475		cms.PSet (
476		name = cms.string("electronD0Vertex"),
477		title = cms.string("Electron d_{0} wrt PV; d_{0} [cm]"),
478	<	bins = cms.vdouble(5000, -1, 1),
478	>	bins = cms.untracked.vdouble(100, -0.05, 0.05),
479		inputVariables = cms.vstring("correctedD0Vertex"),
480		),
481		cms.PSet (
482		name = cms.string("electronD0Beamspot"),
483		title = cms.string("Electron d_{0} wrt Beamspot; d_{0} [cm]"),
484	<	bins = cms.vdouble(5000, -1, 1),
484	>	bins = cms.untracked.vdouble(100, -0.05, 0.05),
485		inputVariables = cms.vstring("correctedD0"),
486		),
487		cms.PSet (
225	–	name = cms.string("electronD0Origin"),
226	–	title = cms.string("Electron d_{0} wrt CMS Origin; d_{0} [cm]"),
227	–	bins = cms.vdouble(5000, -1, 1),
228	–	inputVariables = cms.vstring("tkD0"),
229	–	),
230	–	cms.PSet (
488		name = cms.string("electronD0VertexPhi"),
489	<	title = cms.string("Electron d_{0} wrt Vertex vs Phi; #phi; d_{0} [cm]"),
490	<	bins = cms.vdouble(100, -3.15, 3.15, 5000, -1, 1),
489	>	title = cms.string("Electron d_{0} wrt Vertex vs. Phi; #phi; d_{0} [cm]"),
490	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -0.05, 0.05),
491		inputVariables = cms.vstring("phi","correctedD0Vertex"),
492		),
493		cms.PSet (
494		name = cms.string("electronAbsD0Vertex"),
495		title = cms.string("Electron |d_{0}| wrt Vertex; |d_{0}| [cm]"),
496	<	bins = cms.vdouble(5000, 0, 1),
496	>	bins = cms.untracked.vdouble(100, 0, 0.05),
497		inputVariables = cms.vstring("abs(correctedD0Vertex)"),
498		),
499		cms.PSet (
500		name = cms.string("electronAbsD0Beamspot"),
501		title = cms.string("Electron |d_{0}| wrt Beamspot; |d_{0}| [cm]"),
502	<	bins = cms.vdouble(5000, 0, 1),
503	<	inputVariables = cms.vstring("abs(correctedD0Vertex)"),
247	<	),
248	<	cms.PSet (
249	<	name = cms.string("electronAbsD0Origin"),
250	<	title = cms.string("Electron |d_{0}| wrt CMS Origin; |d_{0}| [cm]"),
251	<	bins = cms.vdouble(5000, 0, 1),
252	<	inputVariables = cms.vstring("abs(tkD0)"),
502	>	bins = cms.untracked.vdouble(100, 0, 0.05),
503	>	inputVariables = cms.vstring("abs(correctedD0)"),
504		),
505		cms.PSet (
506		name = cms.string("electronD0VertexSig"),
507		title = cms.string("Electron d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
508	<	bins = cms.vdouble(1000, -10.0, 10.0),
508	>	bins = cms.untracked.vdouble(100, -2, 2),
509		inputVariables = cms.vstring("correctedD0VertexSig"),
510		),
511		cms.PSet (
512		name = cms.string("electronAbsD0VertexSig"),
513		title = cms.string("Electron d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
514	<	bins = cms.vdouble(1000, 0, 10.0),
514	>	bins = cms.untracked.vdouble(100, 0, 10),
515		inputVariables = cms.vstring("abs(correctedD0VertexSig)"),
516		),
517		cms.PSet (
518		name = cms.string("electronDz"),
519		title = cms.string("Electron d_{z}; d_{z} [cm]"),
520	<	bins = cms.vdouble(10000, -20, 20),
520	>	bins = cms.untracked.vdouble(100, -0.5, 0.5),
521		inputVariables = cms.vstring("correctedDZ"),
522		),
523		cms.PSet (
524		name = cms.string("electronAbsDz"),
525		title = cms.string("Electron |d_{z}|; |d_{z}| [cm]"),
526	<	bins = cms.vdouble(5000, 0, 20),
526	>	bins = cms.untracked.vdouble(100, 0, 0.5),
527		inputVariables = cms.vstring("abs(correctedDZ)"),
528		),
529		cms.PSet (
530	+	name = cms.string("electronAbsD0BeamspotVsAbsDz"),
531	+	title = cms.string("Electron |d_{0}| wrt Beamspot vs. Electron |d_{z}|; |d_{z}| [cm]; d_{0} [cm]"),
532	+	bins = cms.untracked.vdouble(100, 0, 0.5, 100, 0, 0.05),
533	+	inputVariables = cms.vstring("abs(correctedDZ)","abs(correctedD0)"),
534	+	),
535	+	cms.PSet (
536		name = cms.string("electronDetIso"),
537		title = cms.string("Electron Detector-based Isolation; rel. iso."),
538	<	bins = cms.vdouble(1000, 0, 1),
538	>	bins = cms.untracked.vdouble(100, 0, 3),
539		inputVariables = cms.vstring("detIso"),
540		),
541		cms.PSet (
542		name = cms.string("electronPFrhoIso"),
543		title = cms.string("Electron PF-based #rho-corrected Isolation; rel. iso."),
544	<	bins = cms.vdouble(1000, 0, 1),
544	>	bins = cms.untracked.vdouble(150, 0, 3),
545		inputVariables = cms.vstring("relPFrhoIso"),
546		),
547		cms.PSet (
548		name = cms.string("electronFbrem"),
549		title = cms.string("Electron Brem. Energy Fraction; fbrem"),
550	<	bins = cms.vdouble(1000, 0, 2),
550	>	bins = cms.untracked.vdouble(100, 0, 2),
551		inputVariables = cms.vstring("fbrem"),
552		),
553		cms.PSet (
554		name = cms.string("electronMvaTrigV0"),
555		title = cms.string("Electron ID Triggering MVA Output"),
556	<	bins = cms.vdouble(1000, -1.1, 1.1),
556	>	bins = cms.untracked.vdouble(100, -1.1, 1.1),
557		inputVariables = cms.vstring("mvaTrigV0"),
558		),
559		cms.PSet (
560		name = cms.string("electronMvaNonTrigV0"),
561		title = cms.string("Electron ID Non-triggering MVA Output"),
562	<	bins = cms.vdouble(1000, -1.1, 1.1),
562	>	bins = cms.untracked.vdouble(100, -1.1, 1.1),
563		inputVariables = cms.vstring("mvaNonTrigV0"),
564		),
565	+	cms.PSet (
566	+	name = cms.string("electronMetMt"),
567	+	title = cms.string("Transverse Mass of Electron-MET System; M_{T} [GeV]"),
568	+	bins = cms.untracked.vdouble(100, 0, 200),
569	+	inputVariables = cms.vstring("metMT"),
570	+	),
571		)
572		)
573
574	+	##############################################################################################
575	+
576	+	SecondaryElectronHistograms = cms.PSet(
577	+	inputCollection = cms.string("secondary electrons"),
578	+	histograms = cms.VPSet (
579	+	cms.PSet (
580	+	name = cms.string("secondaryElectronPt"),
581	+	title = cms.string("Secondary Electron Transverse Momentum; p_{T} [GeV]"),
582	+	bins = cms.untracked.vdouble(100, 0, 500),
583	+	inputVariables = cms.vstring("pt"),
584	+	),
585	+	cms.PSet (
586	+	name = cms.string("secondaryElectronEta"),
587	+	title = cms.string("Secondary Electron Eta; #eta"),
588	+	bins = cms.untracked.vdouble(100, -3, 3),
589	+	inputVariables = cms.vstring("eta"),
590	+	),
591	+	cms.PSet (
592	+	name = cms.string("secondaryElectronGenEta"),
593	+	title = cms.string("Secondary Electron Gen. Eta; #eta"),
594	+	bins = cms.untracked.vdouble(100, -3, 3),
595	+	inputVariables = cms.vstring("genEta"),
596	+	),
597	+	cms.PSet (
598	+	name = cms.string("secondaryElectronPhi"),
599	+	title = cms.string("Secondary Electron Phi; #phi"),
600	+	bins = cms.untracked.vdouble(100, -3.15, 3.15),
601	+	inputVariables = cms.vstring("phi"),
602	+	),
603	+	cms.PSet (
604	+	name = cms.string("secondaryElectronCharge"),
605	+	title = cms.string("Secondary Electron Charge; charge"),
606	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
607	+	inputVariables = cms.vstring("charge"),
608	+	),
609	+	cms.PSet (
610	+	name = cms.string("secondaryElectronEtaPhi"),
611	+	title = cms.string("Secondary Electron Eta vs. Phi; #phi; #eta"),
612	+	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
613	+	inputVariables = cms.vstring("phi","eta"),
614	+	),
615	+	cms.PSet (
616	+	name = cms.string("secondaryElectronD0Vertex"),
617	+	title = cms.string("Secondary Electron d_{0} wrt PV; d_{0} [cm]"),
618	+	bins = cms.untracked.vdouble(100, -0.05, 0.05),
619	+	inputVariables = cms.vstring("correctedD0Vertex"),
620	+	),
621	+	cms.PSet (
622	+	name = cms.string("secondaryElectronD0Beamspot"),
623	+	title = cms.string("Secondary Electron d_{0} wrt Beamspot; d_{0} [cm]"),
624	+	bins = cms.untracked.vdouble(100, -0.05, 0.05),
625	+	inputVariables = cms.vstring("correctedD0"),
626	+	),
627	+	cms.PSet (
628	+	name = cms.string("secondaryElectronD0VertexPhi"),
629	+	title = cms.string("Secondary Electron d_{0} wrt Vertex vs. Phi; #phi; d_{0} [cm]"),
630	+	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -0.05, 0.05),
631	+	inputVariables = cms.vstring("phi","correctedD0Vertex"),
632	+	),
633	+	cms.PSet (
634	+	name = cms.string("secondaryElectronAbsD0Vertex"),
635	+	title = cms.string("Secondary Electron |d_{0}| wrt Vertex; |d_{0}| [cm]"),
636	+	bins = cms.untracked.vdouble(100, 0, 0.05),
637	+	inputVariables = cms.vstring("abs(correctedD0Vertex)")
638	+	),
639	+	cms.PSet (
640	+	name = cms.string("secondaryElectronAbsD0Beamspot"),
641	+	title = cms.string("Secondary Electron |d_{0}| wrt Beamspot; |d_{0}| [cm]"),
642	+	bins = cms.untracked.vdouble(100, 0, 0.05),
643	+	inputVariables = cms.vstring("abs(correctedD0)")
644	+	),
645	+	cms.PSet (
646	+	name = cms.string("secondaryElectronD0VertexSig"),
647	+	title = cms.string("Secondary Electron d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
648	+	bins = cms.untracked.vdouble(100, -2, 2),
649	+	inputVariables = cms.vstring("correctedD0VertexSig"),
650	+	),
651	+	cms.PSet (
652	+	name = cms.string("secondaryElectronAbsD0VertexSig"),
653	+	title = cms.string("Secondary Electron d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
654	+	bins = cms.untracked.vdouble(100, 0, 10),
655	+	inputVariables = cms.vstring("abs(correctedD0VertexSig)"),
656	+	),
657	+	cms.PSet (
658	+	name = cms.string("secondaryElectronDz"),
659	+	title = cms.string("Secondary Electron d_{z}; d_{z} [cm]"),
660	+	bins = cms.untracked.vdouble(100, -0.5, 0.5),
661	+	inputVariables = cms.vstring("correctedDZ"),
662	+	),
663	+	cms.PSet (
664	+	name = cms.string("secondaryElectronAbsDz"),
665	+	title = cms.string("Secondary Electron |d_{z}|; |d_{z}| [cm]"),
666	+	bins = cms.untracked.vdouble(100, 0, 0.5),
667	+	inputVariables = cms.vstring("abs(correctedDZ)"),
668	+	),
669	+	cms.PSet (
670	+	name = cms.string("secondaryElectronAbsD0BeamspotVsAbsDz"),
671	+	title = cms.string("Secondary Electron |d_{0}| wrt Beamspot vs. Secondary Electron |d_{z}|; |d_{z}| [cm]; d_{0} [cm]"),
672	+	bins = cms.untracked.vdouble(100, 0, 0.5, 100, 0, 0.05),
673	+	inputVariables = cms.vstring("abs(correctedDZ)","abs(correctedD0)"),
674	+	),
675	+	cms.PSet (
676	+	name = cms.string("secondaryElectronDetIso"),
677	+	title = cms.string("Secondary Electron Detector-based Isolation; rel. iso."),
678	+	bins = cms.untracked.vdouble(100, 0, 3),
679	+	inputVariables = cms.vstring("detIso"),
680	+	),
681	+	cms.PSet (
682	+	name = cms.string("secondaryElectronPFrhoIso"),
683	+	title = cms.string("Secondary Electron PF-based #rho-corrected Isolation; rel. iso."),
684	+	bins = cms.untracked.vdouble(100, 0, 3),
685	+	inputVariables = cms.vstring("relPFrhoIso"),
686	+	),
687	+	cms.PSet (
688	+	name = cms.string("secondaryElectronFbrem"),
689	+	title = cms.string("Secondary Electron Brem. Energy Fraction; fbrem"),
690	+	bins = cms.untracked.vdouble(100, 0, 2),
691	+	inputVariables = cms.vstring("fbrem"),
692	+	),
693	+	cms.PSet (
694	+	name = cms.string("secondaryElectronMvaTrigV0"),
695	+	title = cms.string("Secondary Electron ID Triggering MVA Output"),
696	+	bins = cms.untracked.vdouble(100, -1.1, 1.1),
697	+	inputVariables = cms.vstring("mvaTrigV0"),
698	+	),
699	+	cms.PSet (
700	+	name = cms.string("secondaryElectronMvaNonTrigV0"),
701	+	title = cms.string("Secondary Electron ID Non-triggering MVA Output"),
702	+	bins = cms.untracked.vdouble(100, -1.1, 1.1),
703	+	inputVariables = cms.vstring("mvaNonTrigV0"),
704	+	),
705	+	cms.PSet (
706	+	name = cms.string("secondaryElectronMetMt"),
707	+	title = cms.string("Transverse Mass of Electron-MET System; M_{T} [GeV]"),
708	+	bins = cms.untracked.vdouble(100, 0, 200),
709	+	inputVariables = cms.vstring("metMT"),
710	+	),
711	+	)
712	+	)
713	+
714	+	##############################################################################################
715	+
716		DiElectronHistograms = cms.PSet(
717		inputCollection = cms.string("electron-electron pairs"),
718		histograms = cms.VPSet (
719		cms.PSet (
720		name = cms.string("diElectronInvMass"),
721		title = cms.string("Di-electron Invariant Mass; M_{ee} [GeV]"),
722	<	bins = cms.vdouble(100, 0, 500),
722	>	bins = cms.untracked.vdouble(100, 0, 500),
723		inputVariables = cms.vstring("invMass"),
724		),
725		cms.PSet (
726	+	name = cms.string("diElectronChargeProduct"),
727	+	title = cms.string("Di-electron Charge Product; charge_{e}_{1}*charge_{e}_{2}"),
728	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
729	+	inputVariables = cms.vstring("chargeProduct"),
730	+	),
731	+	cms.PSet (
732		name = cms.string("diElectronDeltaPhi"),
733		title = cms.string("Di-electron Phi Difference; |#Delta(#phi)|"),
734	<	bins = cms.vdouble(1000, 0, 3.14),
734	>	bins = cms.untracked.vdouble(100, 0, 3.15),
735		inputVariables = cms.vstring("deltaPhi"),
736		),
737		cms.PSet (
738	+	name = cms.string("diElectronDeltaEta"),
739	+	title = cms.string("Di-electron Eta Difference; |#Delta(#eta)|"),
740	+	bins = cms.untracked.vdouble(100, 0, 6),
741	+	inputVariables = cms.vstring("deltaEta"),
742	+	),
743	+	cms.PSet (
744		name = cms.string("diElectronDeltaR"),
745		title = cms.string("Di-electron #DeltaR; #DeltaR"),
746	<	bins = cms.vdouble(1000, 0, 10),
746	>	bins = cms.untracked.vdouble(100, 0, 6),
747		inputVariables = cms.vstring("deltaR"),
748		),
749		cms.PSet (
750		name = cms.string("diElectronThreeDAngle"),
751	<	title = cms.string("Di-muon 3D angle; 3D angle"),
752	<	bins = cms.vdouble(1000, 0, 3.14),
751	>	title = cms.string("Di-electron 3D angle; 3D angle"),
752	>	bins = cms.untracked.vdouble(100, 0, 3.15),
753		inputVariables = cms.vstring("threeDAngle"),
754		),
755		cms.PSet (
339	–	name = cms.string("diElectronDeltaD0"),
340	–	title = cms.string("Di-electron Impact Parameter Difference; |#Delta(d_{0})| [cm]"),
341	–	bins = cms.vdouble(1000, 0, 0.5),
342	–	inputVariables = cms.vstring("abs(deltaCorrectedD0Vertex)"),
343	–	),
344	–	cms.PSet (
345	–	name = cms.string("diElectronDeltaAbsD0"),
346	–	title = cms.string("Di-electron Impact Parameter Difference; |#Delta(|d_{0}|)| [cm]"),
347	–	bins = cms.vdouble(1000, 0, 0.5),
348	–	inputVariables = cms.vstring("abs(deltaAbsCorrectedD0Vertex)"),
349	–	),
350	–	cms.PSet (
351	–	name = cms.string("diElectronD0Sign"),
352	–	title = cms.string("Sign of Impact Parameter Product; sign(d_{0}_{1}*d_{0}_{2})"),
353	–	bins = cms.vdouble(2, -1, 1),
354	–	inputVariables = cms.vstring("d0Sign"),
355	–	),
356	–	cms.PSet (
756		name = cms.string("electron1D0vsElectron2D0"),
757	<	title = cms.string("Electron #1 d_{0} vs Electron #2 d_{0}; d_{0} [cm]; d_{0} [cm]"),
758	<	bins = cms.vdouble(1000, -1, 1, 1000, -1, 1),
759	<	inputVariables = cms.vstring("electron1CorrectedD0Vertex","electron2CorrectedD0Vertex"),
757	>	title = cms.string("Electron #1 d_{0} vs. Electron #2 d_{0}; d_{0} [cm]; d_{0} [cm]"),
758	>	bins = cms.untracked.vdouble(100, -0.05, 0.05, 100, -0.05, 0.05),
759	>	inputVariables = cms.vstring("electron2CorrectedD0Vertex","electron1CorrectedD0Vertex"),
760		),
761		cms.PSet (
762		name = cms.string("electron1AbsD0vsElectron2AbsD0"),
763	<	title = cms.string("Electron #1 |d_{0}| vs Electron #2 |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
764	<	bins = cms.vdouble(1000, 0, 1, 1000, 0, 1),
765	<	inputVariables = cms.vstring("abs(electron1CorrectedD0Vertex)","abs(electron2CorrectedD0Vertex)"),
763	>	title = cms.string("Electron #1 |d_{0}| vs. Electron #2 |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
764	>	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
765	>	inputVariables = cms.vstring("abs(electron2CorrectedD0Vertex)","abs(electron1CorrectedD0Vertex)"),
766	>	),
767	>	)
768	>	)
769	>
770	>	##############################################################################################
771	>
772	>	ElectronSecondaryElectronHistograms = cms.PSet(
773	>	inputCollection = cms.string("electron-secondary electron pairs"),
774	>	histograms = cms.VPSet (
775	>	cms.PSet (
776	>	name = cms.string("electronSecondaryElectronInvMass"),
777	>	title = cms.string("Electron-secondary Electron Invariant Mass; M_{ee} [GeV]"),
778	>	bins = cms.untracked.vdouble(100, 0, 500),
779	>	inputVariables = cms.vstring("invMass"),
780	>	),
781	>	cms.PSet (
782	>	name = cms.string("electronSecondaryElectronChargeProduct"),
783	>	title = cms.string("Electron-secondary Electron Charge Product; charge_{e}_{1}*charge_{e}_{2}"),
784	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
785	>	inputVariables = cms.vstring("chargeProduct"),
786	>	),
787	>	cms.PSet (
788	>	name = cms.string("electronSecondaryElectronDeltaPhi"),
789	>	title = cms.string("Electron-secondary Electron Phi Difference; |#Delta(#phi)|"),
790	>	bins = cms.untracked.vdouble(100, 0, 3.15),
791	>	inputVariables = cms.vstring("deltaPhi"),
792	>	),
793	>	cms.PSet (
794	>	name = cms.string("electronSecondaryElectronDeltaEta"),
795	>	title = cms.string("Electron-secondary Electron Eta Difference; |#Delta(#eta)|"),
796	>	bins = cms.untracked.vdouble(100, 0, 6),
797	>	inputVariables = cms.vstring("deltaEta"),
798	>	),
799	>	cms.PSet (
800	>	name = cms.string("electronSecondaryElectronDeltaR"),
801	>	title = cms.string("Electron-secondary Electron #DeltaR; #DeltaR"),
802	>	bins = cms.untracked.vdouble(100, 0, 6),
803	>	inputVariables = cms.vstring("deltaR"),
804	>	),
805	>	cms.PSet (
806	>	name = cms.string("electronSecondaryElectronThreeDAngle"),
807	>	title = cms.string("Electron-secondary Electron 3D angle; 3D angle"),
808	>	bins = cms.untracked.vdouble(100, 0, 3.15),
809	>	inputVariables = cms.vstring("threeDAngle"),
810		),
811	+	cms.PSet (
812	+	name = cms.string("electronD0vsSecondaryElectronD0"),
813	+	title = cms.string("Electron d_{0} vs. Secondary Electron d_{0}; d_{0} [cm]; d_{0} [cm]"),
814	+	bins = cms.untracked.vdouble(100, -0.05, 0.05, 100, -0.05, 0.05),
815	+	inputVariables = cms.vstring("electron2CorrectedD0Vertex","electron1CorrectedD0Vertex"),
816	+	),
817	+	cms.PSet (
818	+	name = cms.string("electronAbsD0vsSecondaryElectronAbsD0"),
819	+	title = cms.string("Electron |d_{0}| vs. Secondary Electron |d_{0}|; |d_{0}| [cm]; |d_{0}| [cm]"),
820	+	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
821	+	inputVariables = cms.vstring("abs(electron2CorrectedD0Vertex)","abs(electron1CorrectedD0Vertex)"),
822	+	),
823	+
824		)
825		)
826
827	+	##############################################################################################
828	+
829		ElectronMuonHistograms = cms.PSet(
830		inputCollection = cms.string("electron-muon pairs"),
831		histograms = cms.VPSet (
832		cms.PSet (
833	+	name = cms.string("electronMuonPt"),
834	+	title = cms.string("Electron-muon Pair Transverse Momentum; p_{T} [GeV]"),
835	+	bins = cms.untracked.vdouble(100, 0, 500),
836	+	inputVariables = cms.vstring("pt"),
837	+	),
838	+	cms.PSet (
839		name = cms.string("electronMuonInvMass"),
840		title = cms.string("Electron-muon Invariant Mass; M_{e#mu} [GeV]"),
841	<	bins = cms.vdouble(100, 0, 500),
841	>	bins = cms.untracked.vdouble(100, 0, 500),
842		inputVariables = cms.vstring("invMass"),
843		),
844		cms.PSet (
845	+	name = cms.string("electronMuonChargeProduct"),
846	+	title = cms.string("Electron-muon Charge Product; charge_{e}*charge_{#mu}"),
847	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
848	+	inputVariables = cms.vstring("chargeProduct"),
849	+	),
850	+	cms.PSet (
851		name = cms.string("electronMuonDeltaPhi"),
852		title = cms.string("Electron-muon Phi Difference; |#Delta(#phi)|"),
853	<	bins = cms.vdouble(1000, 0, 3.14),
853	>	bins = cms.untracked.vdouble(100, 0, 3.15),
854		inputVariables = cms.vstring("deltaPhi"),
855		),
856		cms.PSet (
857	+	name = cms.string("electronMuonDeltaEta"),
858	+	title = cms.string("Electron-muon Eta Difference; |#Delta(#eta)|"),
859	+	bins = cms.untracked.vdouble(100, 0, 6),
860	+	inputVariables = cms.vstring("deltaEta"),
861	+	),
862	+	cms.PSet (
863		name = cms.string("electronMuonDeltaR"),
864		title = cms.string("Electron-muon #DeltaR; #DeltaR"),
865	<	bins = cms.vdouble(1000, 0, 10),
865	>	bins = cms.untracked.vdouble(100, 0, 6),
866		inputVariables = cms.vstring("deltaR"),
867		),
868		cms.PSet (
869		name = cms.string("electronMuonThreeDAngle"),
870	<	title = cms.string("Di-muon 3D angle; 3D angle"),
871	<	bins = cms.vdouble(1000, 0, 3.14),
870	>	title = cms.string("Electron-muon 3D angle; 3D angle"),
871	>	bins = cms.untracked.vdouble(100, 0, 3.15),
872		inputVariables = cms.vstring("threeDAngle"),
873		),
874		cms.PSet (
875	<	name = cms.string("electronMuonDeltaD0"),
876	<	title = cms.string("Electron-muon Impact Parameter Difference; |#Delta(d_{0})| [cm]"),
877	<	bins = cms.vdouble(1000, 0, 0.5),
878	<	inputVariables = cms.vstring("abs(deltaCorrectedD0Vertex)"),
875	>	name = cms.string("electronD0vsMuonD0"),
876	>	title = cms.string("Electron d_{0} vs. Muon d_{0}; muon d_{0} [cm]; electron d_{0} [cm]"),
877	>	bins = cms.untracked.vdouble(100, -0.05, 0.05, 100, -0.05, 0.05),
878	>	inputVariables = cms.vstring("muonCorrectedD0Vertex","electronCorrectedD0Vertex"),
879		),
880		cms.PSet (
881	<	name = cms.string("electronMuonDeltaAbsD0"),
882	<	title = cms.string("Electron-muon Impact Parameter Difference; |#Delta(|d_{0}|)| [cm]"),
883	<	bins = cms.vdouble(1000, 0, 0.5),
884	<	inputVariables = cms.vstring("abs(deltaAbsCorrectedD0Vertex)"),
881	>	name = cms.string("electronAbsD0VertexVsMuonAbsD0Vertex"),
882	>	title = cms.string("Electron |d_{0}| wrt Vertex vs. Muon |d_{0}| wrt Vertex; muon |d_{0}| [cm]; electron |d_{0}| [cm]"),
883	>	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
884	>	inputVariables = cms.vstring("abs(muonCorrectedD0Vertex)","abs(electronCorrectedD0Vertex)"),
885		),
886		cms.PSet (
887	<	name = cms.string("electronMuonD0Sign"),
888	<	title = cms.string("Sign of Impact Parameter Product; sign(d_{0}_{1}*d_{0}_{2})"),
889	<	bins = cms.vdouble(2, -1, 1),
890	<	inputVariables = cms.vstring("d0Sign"),
887	>	name = cms.string("electronAbsD0BeamspotVsMuonAbsD0Beamspot"),
888	>	title = cms.string("Electron |d_{0}| wrt Beamspot vs. Muon |d_{0}| wrt Beamspot; muon |d_{0}| [cm]; electron |d_{0}| [cm]"),
889	>	bins = cms.untracked.vdouble(100, 0, 0.05, 100, 0, 0.05),
890	>	inputVariables = cms.vstring("abs(muonCorrectedD0)","abs(electronCorrectedD0)"),
891		),
892		cms.PSet (
893	<	name = cms.string("electronD0vsMuonD0"),
894	<	title = cms.string("Electron d_{0} vs Muon d_{0}; muon d_{0} [cm]; electron d_{0} [cm]"),
895	<	bins = cms.vdouble(1000, -1, 1, 1000, -1, 1),
896	<	inputVariables = cms.vstring("muonCorrectedD0Vertex","electronCorrectedD0Vertex"),
893	>	name = cms.string("electronDetIsoVsMuonDetIso"),
894	>	title = cms.string("Electron Detector-based Isolation vs. Muon Detector-based Isolation; muon rel. iso.; electron rel. iso."),
895	>	bins = cms.untracked.vdouble(100, 0, 3, 100, 0, 3),
896	>	inputVariables = cms.vstring("muonDetIso","electronDetIso"),
897		),
898		cms.PSet (
899	<	name = cms.string("electronAbsD0VertexVsMuonAbsD0Vertex"),
900	<	title = cms.string("Electron |d_{0}| wrt Vertex vs Muon |d_{0}| wrt Vertex; electron |d_{0}| [cm]; muon |d_{0}| [cm]"),
901	<	bins = cms.vdouble(1000, 0, 1, 1000, 0, 1),
902	<	inputVariables = cms.vstring("abs(electronCorrectedD0Vertex)","abs(muonCorrectedD0Vertex)"),
899	>	name = cms.string("electronPFrhoIsoVsMuonPFdBetaIso"),
900	>	title = cms.string("Electron PF-based #rho-corrected Isolation vs. Muon PF-based #Delta#beta-corrected Isolation; muon rel. iso.; electron rel. iso."),
901	>	bins = cms.untracked.vdouble(100, 0, 3, 100, 0, 3),
902	>	inputVariables = cms.vstring("muonRelPFdBetaIso","electronRelPFrhoIso"),
903		),
904	+	)
905	+	)
906	+
907	+	##############################################################################################
908	+
909	+	MuonPhotonHistograms = cms.PSet(
910	+	inputCollection = cms.string("muon-photon pairs"),
911	+	histograms = cms.VPSet (
912		cms.PSet (
913	<	name = cms.string("electronAbsD0BeamspotVsMuonAbsD0Beamspot"),
914	<	title = cms.string("Electron |d_{0}| wrt Beamspot vs Muon |d_{0}| wrt Beamspot; electron |d_{0}| [cm]; muon |d_{0}| [cm]"),
915	<	bins = cms.vdouble(1000, 0, 1, 1000, 0, 1),
916	<	inputVariables = cms.vstring("abs(electronCorrectedD0)","abs(muonCorrectedD0)"),
913	>	name = cms.string("muonPhotonPt"),
914	>	title = cms.string("Muon-photon Pair Transverse Momentum; p_{T} [GeV]"),
915	>	bins = cms.untracked.vdouble(100, 0, 500),
916	>	inputVariables = cms.vstring("pt"),
917		),
918		cms.PSet (
919	<	name = cms.string("electronDetIsoVsMuonDetIso"),
920	<	title = cms.string(";electron detIso;muon detIso"),
921	<	bins = cms.vdouble(1000, 0, 1, 1000, 0, 1),
922	<	inputVariables = cms.vstring("electronDetIso","muonDetIso"),
919	>	name = cms.string("muonPhotonInvMass"),
920	>	title = cms.string("Muon-photon Pair Invariant Mass; M_{e#mu} [GeV]"),
921	>	bins = cms.untracked.vdouble(100, 0, 500),
922	>	inputVariables = cms.vstring("invMass"),
923	>	),
924	>	cms.PSet (
925	>	name = cms.string("muonPhotonDeltaPhi"),
926	>	title = cms.string("Muon-photon Phi Difference; |#Delta(#phi)|"),
927	>	bins = cms.untracked.vdouble(100, 0, 3.15),
928	>	inputVariables = cms.vstring("deltaPhi"),
929	>	),
930	>	cms.PSet (
931	>	name = cms.string("muonPhotonDeltaEta"),
932	>	title = cms.string("Muon-photon Eta Difference; |#Delta(#eta)|"),
933	>	bins = cms.untracked.vdouble(100, 0, 6),
934	>	inputVariables = cms.vstring("deltaEta"),
935	>	),
936	>	cms.PSet (
937	>	name = cms.string("muonPhotonDeltaR"),
938	>	title = cms.string("Muon-photon #DeltaR; #DeltaR"),
939	>	bins = cms.untracked.vdouble(100, 0, 6),
940	>	inputVariables = cms.vstring("deltaR"),
941	>	),
942	>	cms.PSet (
943	>	name = cms.string("muonPhotonThreeDAngle"),
944	>	title = cms.string("Muon-photon 3D angle; 3D angle"),
945	>	bins = cms.untracked.vdouble(100, 0, 3.15),
946	>	inputVariables = cms.vstring("threeDAngle"),
947	>	),
948	>	cms.PSet (
949	>	name = cms.string("muonPFdBetaIsoVsMuon-photonDeltaR"),
950	>	title = cms.string("Muon PF-based #Delta#beta-corrected Isolation vs Muon-photon DeltaR;|muon-photon #Delta(R)|; muon rel. iso."),
951	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0, 3),
952	>	inputVariables = cms.vstring("deltaR","muonRelPFdBetaIso"),
953	>	),
954	>	cms.PSet (
955	>	name = cms.string("muonPFdBetaIsoVsMuon-photonDeltaEta"),
956	>	title = cms.string("Muon PF-based #Delta#beta-corrected Isolation vs Muon-photon DeltaEta; |muon-photon #Delta(#eta)|; muon rel. iso."),
957	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0, 3),
958	>	inputVariables = cms.vstring("deltaEta","muonRelPFdBetaIso"),
959	>	),
960	>	cms.PSet (
961	>	name = cms.string("muonPFdBetaIsoVsMuon-photonDeltaPhi"),
962	>	title = cms.string("Muon PF-based #Delta#beta-corrected Isolation vs Muon-photon DeltaPhi; |muon-photon #Delta(#phi)|; muon rel. iso."),
963	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0, 3),
964	>	inputVariables = cms.vstring("deltaPhi","muonRelPFdBetaIso"),
965	>	),
966	>	)
967	>	)
968	>
969	>	##############################################################################################
970	>
971	>	ElectronPhotonHistograms = cms.PSet(
972	>	inputCollection = cms.string("electron-photon pairs"),
973	>	histograms = cms.VPSet (
974	>	cms.PSet (
975	>	name = cms.string("electronPhotonPt"),
976	>	title = cms.string("Electron-photon Pair Transverse Momentum; p_{T} [GeV]"),
977	>	bins = cms.untracked.vdouble(100, 0, 500),
978	>	inputVariables = cms.vstring("pt"),
979	>	),
980	>	cms.PSet (
981	>	name = cms.string("electronPhotonInvMass"),
982	>	title = cms.string("Electron-photon Pair Invariant Mass; M_{e#mu} [GeV]"),
983	>	bins = cms.untracked.vdouble(100, 0, 500),
984	>	inputVariables = cms.vstring("invMass"),
985	>	),
986	>	cms.PSet (
987	>	name = cms.string("electronPhotonDeltaPhi"),
988	>	title = cms.string("Electron-photon Phi Difference; |#Delta(#phi)|"),
989	>	bins = cms.untracked.vdouble(100, 0, 3.15),
990	>	inputVariables = cms.vstring("deltaPhi"),
991	>	),
992	>	cms.PSet (
993	>	name = cms.string("electronPhotonDeltaEta"),
994	>	title = cms.string("Electron-photon Eta Difference; |#Delta(#eta)|"),
995	>	bins = cms.untracked.vdouble(100, 0, 6),
996	>	inputVariables = cms.vstring("deltaEta"),
997	>	),
998	>	cms.PSet (
999	>	name = cms.string("electronPhotonDeltaR"),
1000	>	title = cms.string("Electron-photon #DeltaR; #DeltaR"),
1001	>	bins = cms.untracked.vdouble(100, 0, 6),
1002	>	inputVariables = cms.vstring("deltaR"),
1003	>	),
1004	>	cms.PSet (
1005	>	name = cms.string("electronPhotonThreeDAngle"),
1006	>	title = cms.string("Electron-photon 3D angle; 3D angle"),
1007	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1008	>	inputVariables = cms.vstring("threeDAngle"),
1009	>	),
1010	>	cms.PSet (
1011	>	name = cms.string("electronPFrhoIsoVsElectron-photonDeltaR"),
1012	>	title = cms.string("Electron PF-based #Delta#beta-corrected Isolation vs Electron-photon DeltaR;|electron-photon #Delta(R)|; electron rel. iso."),
1013	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0, 3),
1014	>	inputVariables = cms.vstring("deltaR","electronRelPFrhoIso"),
1015	>	),
1016	>	cms.PSet (
1017	>	name = cms.string("electronPFrhoIsoVsElectron-photonDeltaEta"),
1018	>	title = cms.string("Electron PF-based #Delta#beta-corrected Isolation vs Electron-photon DeltaEta; |electron-photon #Delta(#eta)|; electron rel. iso."),
1019	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0, 3),
1020	>	inputVariables = cms.vstring("deltaEta","electronRelPFrhoIso"),
1021	>	),
1022	>	cms.PSet (
1023	>	name = cms.string("electronPFrhoIsoVsElectron-photonDeltaPhi"),
1024	>	title = cms.string("Electron PF-based #Delta#beta-corrected Isolation vs Electron-photon DeltaPhi; |electron-photon #Delta(#phi)|; electron rel. iso."),
1025	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0, 3),
1026	>	inputVariables = cms.vstring("deltaPhi","electronRelPFrhoIso"),
1027		),
1028		)
1029		)
1030	+	############################################################################################
1031	+	TauHistograms = cms.PSet(
1032	+	inputCollection = cms.string("taus"),
1033	+	histograms = cms.VPSet (
1034	+	cms.PSet (
1035	+	name = cms.string("tauPt"),
1036	+	title = cms.string("Tau Transverse Momentum; p_{T} [GeV]"),
1037	+	bins = cms.untracked.vdouble(100, 0, 500),
1038	+	inputVariables = cms.vstring("pt"),
1039	+	),
1040	+	cms.PSet (
1041	+	name = cms.string("tauEta"),
1042	+	title = cms.string("Tau Eta; #eta"),
1043	+	bins = cms.untracked.vdouble(100, -3, 3),
1044	+	inputVariables = cms.vstring("eta"),
1045	+	),
1046	+	cms.PSet (
1047	+	name = cms.string("tauPhi"),
1048	+	title = cms.string("Tau Phi; #phi"),
1049	+	bins = cms.untracked.vdouble(100, -3.15, 3.15),
1050	+	inputVariables = cms.vstring("phi"),
1051	+	),
1052	+	cms.PSet (
1053	+	name = cms.string("tauleadingTrackPt"),
1054	+	title = cms.string("Tau Leading Track Transverse Momentum; Leading Track p_{T} [GeV]"),
1055	+	bins = cms.untracked.vdouble(100, 0, 300),
1056	+	inputVariables = cms.vstring("leadingTrackPt"),
1057	+	),
1058	+	cms.PSet (
1059	+	name = cms.string("tauEnergy"),
1060	+	title = cms.string("Tau Energy; Energy [GeV]"),
1061	+	bins  = cms.untracked.vdouble(100, 0, 300),
1062	+	inputVariables = cms.vstring("energy"),
1063	+	),
1064	+	cms.PSet (
1065	+	name = cms.string("tauEMFraction"),
1066	+	title = cms.string("Tau EM Fraction; EM Fraction"),
1067	+	bins = cms.untracked.vdouble(100, 0, 1.5),
1068	+	inputVariables = cms.vstring("emFraction"),
1069	+	),
1070	+	cms.PSet (
1071	+	name = cms.string("tauNumProngs"),
1072	+	title = cms.string("Tau Number of Prongs; # Prongs"),
1073	+	bins = cms.untracked.vdouble(100, -0.5, 4.5),
1074	+	inputVariables = cms.vstring("numProngs"),
1075	+	),
1076	+	cms.PSet (
1077	+	name = cms.string("tauNumSignalGammas"),
1078	+	title = cms.string("Tau Number of Signal Gammas; # Signal Gammas"),
1079	+	bins = cms.untracked.vdouble(100, -0.5, 12.5),
1080	+	inputVariables = cms.vstring("numSignalGammas"),
1081	+	),
1082	+	cms.PSet (
1083	+	name = cms.string("tauNumSignalNeutrals"),
1084	+	title = cms.string("Tau Number of Signal Neutrals; # Signal Neutrals"),
1085	+	bins = cms.untracked.vdouble(100, -0.5, 8.5),
1086	+	inputVariables = cms.vstring("numSignalNeutrals"),
1087	+	),
1088	+	cms.PSet (
1089	+	name = cms.string("tauNumSignalPiZeros"),
1090	+	title = cms.string("Tau Number of Signal #pi^{0}'s; # Signal #pi^{0}'s"),
1091	+	bins = cms.untracked.vdouble(100, -0.5, 8.5),
1092	+	inputVariables = cms.vstring("numSignalPiZeros"),
1093	+	),
1094	+	cms.PSet (
1095	+	name = cms.string("tauDecayMode"),
1096	+	title = cms.string("Tau Decay Mode;Decay Mode "),
1097	+	bins = cms.untracked.vdouble(100, -0.5, 12.5),
1098	+	inputVariables = cms.vstring("decayMode"),
1099	+	),
1100	+
1101	+	)
1102	+	)
1103	+
1104	+	##############################################################################################
1105	+
1106	+	DiTauHistograms = cms.PSet(
1107	+	inputCollection = cms.string("tau-tau pairs"),
1108	+	histograms = cms.VPSet (
1109	+	cms.PSet (
1110	+	name = cms.string("diTauInvMass"),
1111	+	title = cms.string("Di-Tau Invariant Mass; M_{#tau#tau} [GeV]"),
1112	+	bins = cms.untracked.vdouble(100, 0, 180),
1113	+	inputVariables = cms.vstring("invMass"),
1114	+	),
1115	+	cms.PSet (
1116	+	name = cms.string("diTauDeltaEta"),
1117	+	title = cms.string("Di-tau Eta Difference; |#Delta(#eta)|"),
1118	+	bins = cms.untracked.vdouble(100, 0, 10),
1119	+	inputVariables = cms.vstring("deltaEta"),
1120	+	),
1121	+	cms.PSet (
1122	+	name = cms.string("diTauDeltaPhi"),
1123	+	title = cms.string("Di-tau Phi Difference; |#Delta(#phi)|"),
1124	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1125	+	inputVariables = cms.vstring("deltaPhi"),
1126	+	),
1127	+	cms.PSet (
1128	+	name = cms.string("diTauDeltaR"),
1129	+	title = cms.string("Di-tau #DeltaR; #DeltaR"),
1130	+	bins = cms.untracked.vdouble(100, 0, 10),
1131	+	inputVariables = cms.vstring("deltaR"),
1132	+	),
1133
1134	+	)
1135	+	)
1136
1137	+	##############################################################################################
1138
1139	<	MCParticleHistograms = cms.PSet(
1140	<	inputCollection = cms.string("mcparticles"),
1139	>	JetHistograms = cms.PSet(
1140	>	inputCollection = cms.string("jets"),
1141		histograms = cms.VPSet (
1142		cms.PSet (
1143	<	name = cms.string("mcparticleD0"),
1144	<	title = cms.string("MCparticle d_{0}; d_{0} [cm]"),
1145	<	bins = cms.vdouble(5000, -1, 1),
1146	<	inputVariables = cms.vstring("d0"),
1143	>	name = cms.string("jetPt"),
1144	>	title = cms.string("Jet Transverse Momentum; p_{T} [GeV]"),
1145	>	bins = cms.untracked.vdouble(100, 0, 500),
1146	>	inputVariables = cms.vstring("pt"),
1147		),
1148		cms.PSet (
1149	<	name = cms.string("mcparticleAbsD0"),
1150	<	title = cms.string("MCparticle d_{0}; |d_{0}| [cm]"),
1151	<	bins = cms.vdouble(5000, 0, 1),
1152	<	inputVariables = cms.vstring("abs(d0)"),
1149	>	name = cms.string("jetEta"),
1150	>	title = cms.string("Jet Eta; #eta"),
1151	>	bins = cms.untracked.vdouble(100, -3, 3),
1152	>	inputVariables = cms.vstring("eta"),
1153		),
1154		cms.PSet (
1155	<	name = cms.string("mcparticleDz"),
1156	<	title = cms.string("MCparticle d_{z}; d_{z} [cm]"),
1157	<	bins = cms.vdouble(10000, -20, 20),
1158	<	inputVariables = cms.vstring("dz"),
1155	>	name = cms.string("jetPhi"),
1156	>	title = cms.string("Jet Phi; #phi"),
1157	>	bins = cms.untracked.vdouble(100, -3.15, 3.15),
1158	>	inputVariables = cms.vstring("phi"),
1159		),
1160		cms.PSet (
1161	<	name = cms.string("mcparticleAbsDZ"),
1162	<	title = cms.string("MCparticle d_{z}; |d_{z}| [cm]"),
1163	<	bins = cms.vdouble(5000, 0, 20),
1164	<	inputVariables = cms.vstring("abs(dz)"),
1161	>	name = cms.string("jetCharge"),
1162	>	title = cms.string("Jet Charge; charge"),
1163	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1164	>	inputVariables = cms.vstring("charge"),
1165	>	),
1166	>	cms.PSet (
1167	>	name = cms.string("jetEtaPhi"),
1168	>	title = cms.string("Jet Eta vs. Phi; #phi; #eta"),
1169	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
1170	>	inputVariables = cms.vstring("phi","eta"),
1171	>	),
1172	>	cms.PSet (
1173	>	name = cms.string("jetFlavor"),
1174	>	title = cms.string("Jet Flavor"),
1175	>	bins = cms.untracked.vdouble(42, -21, 21),
1176	>	inputVariables = cms.vstring("flavour"),
1177	>	),
1178	>	cms.PSet (
1179	>	name = cms.string("jetCSV"),
1180	>	title = cms.string("Jet Combined Secondary Vertex B-tagging Discriminant"),
1181	>	bins = cms.untracked.vdouble(100, -1, 1),
1182	>	inputVariables = cms.vstring("btagCombinedSecVertex"),
1183		),
1184	+	)
1185	+	)
1186	+
1187	+	SecondaryJetHistograms = cms.PSet(
1188	+	inputCollection = cms.string("secondary jets"),
1189	+	histograms = cms.VPSet (
1190		cms.PSet (
1191	<	name = cms.string("mcparticleV0"),
1192	<	title = cms.string("MCparticle transverse V_{0}; v0 [cm]"),
1193	<	bins = cms.vdouble(5000, -1, 1),
1194	<	inputVariables = cms.vstring("v0"),
1191	>	name = cms.string("secondaryJetPt"),
1192	>	title = cms.string("Jet Transverse Momentum; p_{T} [GeV]"),
1193	>	bins = cms.untracked.vdouble(100, 0, 500),
1194	>	inputVariables = cms.vstring("pt"),
1195		),
1196		cms.PSet (
1197	<	name = cms.string("mcparticleVz"),
1198	<	title = cms.string("MCparticle V_{z}; Vz [cm]"),
1199	<	bins = cms.vdouble(5000, -20, 20),
1200	<	inputVariables = cms.vstring("vz"),
1197	>	name = cms.string("secondaryJetEta"),
1198	>	title = cms.string("Jet Eta; #eta"),
1199	>	bins = cms.untracked.vdouble(100, -3, 3),
1200	>	inputVariables = cms.vstring("eta"),
1201		),
1202		cms.PSet (
1203	<	name = cms.string("mcparticleDeltaV0"),
1204	<	title = cms.string("MCparticle delta transverse V_{0}; delta v0 [cm]"),
1205	<	bins = cms.vdouble(5000, -1, 1),
1206	<	inputVariables = cms.vstring("deltaV0"),
1203	>	name = cms.string("secondaryJetPhi"),
1204	>	title = cms.string("Jet Phi; #phi"),
1205	>	bins = cms.untracked.vdouble(100, -3.15, 3.15),
1206	>	inputVariables = cms.vstring("phi"),
1207		),
1208		cms.PSet (
1209	<	name = cms.string("mcparticleDeltaVx"),
1210	<	title = cms.string("MCparticle delta V_{x}; delta vx [cm]"),
1211	<	bins = cms.vdouble(5000, -1, 1),
1212	<	inputVariables = cms.vstring("deltaVx"),
1209	>	name = cms.string("secondaryJetCharge"),
1210	>	title = cms.string("Jet Charge; charge"),
1211	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1212	>	inputVariables = cms.vstring("charge"),
1213	>	),
1214	>	cms.PSet (
1215	>	name = cms.string("secondaryJetEtaPhi"),
1216	>	title = cms.string("Jet Eta vs. Phi; #phi; #eta"),
1217	>	bins = cms.untracked.vdouble(100, -3.15, 3.15, 100, -3, 3),
1218	>	inputVariables = cms.vstring("phi","eta"),
1219		),
1220		cms.PSet (
1221	<	name = cms.string("mcparticleDeltaVy"),
1222	<	title = cms.string("MCparticle delta V_{y}; delta vy [cm]"),
1223	<	bins = cms.vdouble(5000, -1, 1),
1224	<	inputVariables = cms.vstring("deltaVy"),
1221	>	name = cms.string("secondaryJetFlavor"),
1222	>	title = cms.string("Jet Flavor"),
1223	>	bins = cms.untracked.vdouble(42, -21, 21),
1224	>	inputVariables = cms.vstring("flavour"),
1225		),
1226		cms.PSet (
1227	<	name = cms.string("mcparticleDeltaVz"),
1228	<	title = cms.string("MCparticle delta V_{z}; delta Vz [cm]"),
1229	<	bins = cms.vdouble(10000, -20, 20),
1230	<	inputVariables = cms.vstring("deltaVz"),
1227	>	name = cms.string("secondaryJetCSV"),
1228	>	title = cms.string("Jet Combined Secondary Vertex B-tagging Discriminant"),
1229	>	bins = cms.untracked.vdouble(100, -1, 1),
1230	>	inputVariables = cms.vstring("btagCombinedSecVertex"),
1231		),
1232	+	)
1233	+	)
1234	+	##############################################################################################
1235
1236	+	DiJetHistograms = cms.PSet(
1237	+	inputCollection = cms.string("jet-jet pairs"),
1238	+	histograms = cms.VPSet (
1239	+	cms.PSet (
1240	+	name = cms.string("diJetInvMass"),
1241	+	title = cms.string("Di-jet Invariant Mass; M_{jet-pair} [GeV]"),
1242	+	bins = cms.untracked.vdouble(100, 0, 500),
1243	+	inputVariables = cms.vstring("invMass"),
1244	+	),
1245	+	cms.PSet (
1246	+	name = cms.string("diJetChargeProduct"),
1247	+	title = cms.string("Di-jet Charge Product; charge_{jet}_{1}*charge_{jet}_{2}"),
1248	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1249	+	inputVariables = cms.vstring("chargeProduct"),
1250	+	),
1251	+	cms.PSet (
1252	+	name = cms.string("diJetDeltaPhi"),
1253	+	title = cms.string("Di-jet Phi Difference; |#Delta(#phi)|"),
1254	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1255	+	inputVariables = cms.vstring("deltaPhi"),
1256	+	),
1257	+	cms.PSet (
1258	+	name = cms.string("diJetDeltaEta"),
1259	+	title = cms.string("Di-jet Eta Difference; |#Delta(#eta)|"),
1260	+	bins = cms.untracked.vdouble(100, 0, 10),
1261	+	inputVariables = cms.vstring("deltaEta"),
1262	+	),
1263	+	cms.PSet (
1264	+	name = cms.string("diJetDeltaR"),
1265	+	title = cms.string("Di-jet #DeltaR; #DeltaR"),
1266	+	bins = cms.untracked.vdouble(100, 0, 10),
1267	+	inputVariables = cms.vstring("deltaR"),
1268	+	),
1269	+	cms.PSet (
1270	+	name = cms.string("diJetPt"),
1271	+	title = cms.string("Di-jet Transverse Momentum ; p_{T}_{jet-pair} [GeV] "),
1272	+	bins = cms.untracked.vdouble(100, 0,500),
1273	+	inputVariables = cms.vstring("pt"),
1274	+	),
1275	+	## cms.PSet (
1276	+	##     name = cms.string("diJetDeltaPt"),
1277	+	##     title = cms.string("Di-jet Transverse Momentum Difference; |p_{T}_{jet1}-p_{T}_{jet2}| [GeV] "),
1278	+	##     bins = cms.untracked.vdouble(100, 0,500),
1279	+	##     inputVariables = cms.vstring("absDeltaPt"),  # Variable not available in OSUAnalysis.cc
1280	+	## ),
1281	+	cms.PSet (
1282	+	name = cms.string("diJetThreeDAngle"),
1283	+	title = cms.string("Di-jet 3D angle; 3D angle"),
1284	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1285	+	inputVariables = cms.vstring("threeDAngle"),
1286	+	),
1287		)
1288	<	)
1288	>	)
1289
1290	+	##############################################################################################
1291	+	JetSecondaryJetHistograms = cms.PSet(
1292	+	inputCollection = cms.string("jet-secondary jet pairs"),
1293	+	histograms = cms.VPSet (
1294	+	cms.PSet (
1295	+	name = cms.string("JetSecondaryJetInvMass"),
1296	+	title = cms.string("Di-jet Invariant Mass; M_{jet-pair} [GeV]"),
1297	+	bins = cms.untracked.vdouble(100, 0, 500),
1298	+	inputVariables = cms.vstring("invMass"),
1299	+	),
1300	+	cms.PSet (
1301	+	name = cms.string("JetSecondaryJetChargeProduct"),
1302	+	title = cms.string("Di-jet Charge Product; charge_{jet}_{1}*charge_{jet}_{2}"),
1303	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1304	+	inputVariables = cms.vstring("chargeProduct"),
1305	+	),
1306	+	cms.PSet (
1307	+	name = cms.string("JetSecondaryJetDeltaPhi"),
1308	+	title = cms.string("Di-jet Phi Difference; |#Delta(#phi)|"),
1309	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1310	+	inputVariables = cms.vstring("deltaPhi"),
1311	+	),
1312	+	cms.PSet (
1313	+	name = cms.string("JetSecondaryJetDeltaEta"),
1314	+	title = cms.string("Di-jet Eta Difference; |#Delta(#eta)|"),
1315	+	bins = cms.untracked.vdouble(100, 0, 10),
1316	+	inputVariables = cms.vstring("deltaEta"),
1317	+	),
1318	+	cms.PSet (
1319	+	name = cms.string("JetSecondaryJetDeltaR"),
1320	+	title = cms.string("Di-jet #DeltaR; #DeltaR"),
1321	+	bins = cms.untracked.vdouble(100, 0, 10),
1322	+	inputVariables = cms.vstring("deltaR"),
1323	+	),
1324	+	cms.PSet (
1325	+	name = cms.string("JetSecondaryJetPt"),
1326	+	title = cms.string("Di-jet Transverse Momentum ; p_{T}_{jet-pair} [GeV] "),
1327	+	bins = cms.untracked.vdouble(100, 0,500),
1328	+	inputVariables = cms.vstring("pt"),
1329	+	),
1330	+	cms.PSet (
1331	+	name = cms.string("JetSecondaryJetDeltaPt"),
1332	+	title = cms.string("Di-jet Transverse Momentum Difference; |p_{T}_{jet1}-p_{T}_{jet2}| [GeV] "),
1333	+	bins = cms.untracked.vdouble(100, 0,500),
1334	+	inputVariables = cms.vstring("absDeltaPt"),
1335	+	),
1336	+	cms.PSet (
1337	+	name = cms.string("JetSecondaryJetThreeDAngle"),
1338	+	title = cms.string("Di-jet 3D angle; 3D angle"),
1339	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1340	+	inputVariables = cms.vstring("threeDAngle"),
1341	+	),
1342	+	)
1343	+	)
1344
1345	<	MetHistograms = cms.PSet(
1346	<	inputCollection = cms.string("mets"),
1345	>	ElectronJetHistograms = cms.PSet(
1346	>	inputCollection = cms.string("electron-jet pairs"),
1347		histograms = cms.VPSet (
1348		cms.PSet (
1349	<	name = cms.string("met"),
1350	<	title = cms.string("Missing E_[T]; Missing E_{T} [GeV]"),
1349	>	name = cms.string("electronJetPt"),
1350	>	title = cms.string("Electron-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1351	>	bins = cms.untracked.vdouble(100, 0, 500),
1352	>	inputVariables = cms.vstring("pt"),
1353	>	),
1354	>	cms.PSet (
1355	>	name = cms.string("electronJetInvMass"),
1356	>	title = cms.string("Electron-jet Invariant Mass; M_{e-jet} [GeV]"),
1357	>	bins = cms.untracked.vdouble(100, 0, 500),
1358	>	inputVariables = cms.vstring("invMass"),
1359	>	),
1360	>	cms.PSet (
1361	>	name = cms.string("electronJetChargeProduct"),
1362	>	title = cms.string("Electron-jet Charge Product; charge_{e}*charge_{jet}"),
1363	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1364	>	inputVariables = cms.vstring("chargeProduct"),
1365	>	),
1366	>	cms.PSet (
1367	>	name = cms.string("electronJetDeltaPhi"),
1368	>	title = cms.string("Electron-jet Phi Difference; |#Delta(#phi)|"),
1369	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1370	>	inputVariables = cms.vstring("deltaPhi"),
1371	>	),
1372	>	cms.PSet (
1373	>	name = cms.string("electronJetDeltaEta"),
1374	>	title = cms.string("Electron-jet Eta Difference; |#Delta(#eta)|"),
1375	>	bins = cms.untracked.vdouble(100, 0, 6),
1376	>	inputVariables = cms.vstring("deltaEta"),
1377	>	),
1378	>	cms.PSet (
1379	>	name = cms.string("electronJetDeltaRvselectronJetDeltaEta "),
1380	>	title = cms.string("Electron-jet #DeltaR.vs #Delta(#eta); |#Delta(#eta)|; #DeltaR"),
1381	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1382	>	inputVariables = cms.vstring("deltaEta","deltaR"),
1383	>	),
1384	>	cms.PSet (
1385	>	name = cms.string("electronJetDeltaRvselectronJetDeltaPhi "),
1386	>	title = cms.string("Electron-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; |#DeltaR"),
1387	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0, 6),
1388	>	inputVariables = cms.vstring("deltaPhi","deltaR"),
1389	>	),
1390	>	cms.PSet (
1391	>	name = cms.string("electronEtavsJetEta "),
1392	>	title = cms.string("Electron Eta.vs Jet Eta; Jet #eta; Electron #eta"),
1393	>	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1394	>	inputVariables = cms.vstring("jetEta","electronEta"),
1395	>	),
1396	>	cms.PSet (
1397	>	name = cms.string("electronPhivsJetPhi "),
1398	>	title = cms.string("Electron Phi.vs Jet Phi; Jet #phi; Electron #phi"),
1399	>	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1400	>	inputVariables = cms.vstring("jetPhi","electronPhi"),
1401	>	),
1402	>	cms.PSet (
1403	>	name = cms.string("electronJetDeltaR"),
1404	>	title = cms.string("Electron-jet #DeltaR; #DeltaR"),
1405	>	bins = cms.untracked.vdouble(100, 0, 6),
1406	>	inputVariables = cms.vstring("deltaR"),
1407	>	),
1408	>	cms.PSet (
1409	>	name = cms.string("electronJetThreeDAngle"),
1410	>	title = cms.string("Electron-jet 3D angle; 3D angle"),
1411	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1412	>	inputVariables = cms.vstring("threeDAngle"),
1413	>	),
1414	>	)
1415	>	)
1416	>
1417	>	##############################################################################################
1418
1419	<	bins = cms.vdouble(500, 0, 500),
1419	>	MuonJetHistograms = cms.PSet(
1420	>	inputCollection = cms.string("muon-jet pairs"),
1421	>	histograms = cms.VPSet (
1422	>	cms.PSet (
1423	>	name = cms.string("muonJetPt"),
1424	>	title = cms.string("Muon-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1425	>	bins = cms.untracked.vdouble(100, 0, 500),
1426		inputVariables = cms.vstring("pt"),
1427		),
1428	+	cms.PSet (
1429	+	name = cms.string("muonJetInvMass"),
1430	+	title = cms.string("Muon-jet Invariant Mass; M_{#mu-jet} [GeV]"),
1431	+	bins = cms.untracked.vdouble(100, 0, 500),
1432	+	inputVariables = cms.vstring("invMass"),
1433	+	),
1434	+	cms.PSet (
1435	+	name = cms.string("muonJetChargeProduct"),
1436	+	title = cms.string("Muon-jet Charge Product; charge_{#mu}*charge_{jet}"),
1437	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1438	+	inputVariables = cms.vstring("chargeProduct"),
1439	+	),
1440	+	cms.PSet (
1441	+	name = cms.string("muonJetDeltaPhi"),
1442	+	title = cms.string("Muon-jet Phi Difference; |#Delta(#phi)|"),
1443	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1444	+	inputVariables = cms.vstring("deltaPhi"),
1445	+	),
1446	+	cms.PSet (
1447	+	name = cms.string("muonJetDeltaEta"),
1448	+	title = cms.string("Muon-jet Eta Difference; |#Delta(#eta)|"),
1449	+	bins = cms.untracked.vdouble(100, 0, 6),
1450	+	inputVariables = cms.vstring("deltaEta"),
1451	+	),
1452	+	cms.PSet (
1453	+	name = cms.string("muonJetDeltaRvsmuonJetDeltaEta "),
1454	+	title = cms.string("Muon-jet #DeltaR.vs #Delta(eta); |#Delta(#eta)|; #DeltaR"),
1455	+	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1456	+	inputVariables = cms.vstring("deltaEta","deltaR"),
1457	+	),
1458	+	cms.PSet (
1459	+	name = cms.string("muonJetDeltaRvsmuonJetDeltaPhi "),
1460	+	title = cms.string("Muon-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; #DeltaR"),
1461	+	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0 ,6),
1462	+	inputVariables = cms.vstring("deltaPhi","deltaR"),
1463	+	),
1464	+	cms.PSet (
1465	+	name = cms.string("muonEtavsJetEta "),
1466	+	title = cms.string("Muon Eta.vs Jet Eta; Jet #eta; Muon #eta"),
1467	+	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1468	+	inputVariables = cms.vstring("jetEta","muonEta"),
1469	+	),
1470	+	cms.PSet (
1471	+	name = cms.string("muonPhivsJetPhi "),
1472	+	title = cms.string("Muon Phi.vs Jet Phi; Jet #phi; Muon #phi"),
1473	+	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1474	+	inputVariables = cms.vstring("jetPhi","muonPhi"),
1475	+	),
1476	+	cms.PSet (
1477	+	name = cms.string("muonJetDeltaR"),
1478	+	title = cms.string("Muon-jet #DeltaR; #DeltaR"),
1479	+	bins = cms.untracked.vdouble(100, 0, 6),
1480	+	inputVariables = cms.vstring("deltaR"),
1481	+	),
1482	+	cms.PSet (
1483	+	name = cms.string("muonJetThreeDAngle"),
1484	+	title = cms.string("Muon-jet 3D angle; 3D angle"),
1485	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1486	+	inputVariables = cms.vstring("threeDAngle"),
1487	+	),
1488		)
1489		)
1490
1491	<	JetHistograms = cms.PSet(
1492	<	inputCollection = cms.string("jets"),
1491	>	##############################################################################################
1492	>	MuonSecondaryJetHistograms = cms.PSet(
1493	>	inputCollection = cms.string("muon-secondary jet pairs"),
1494		histograms = cms.VPSet (
1495		cms.PSet (
1496	<	name = cms.string("jetPt"),
1497	<	title = cms.string("Jet pT; Jet pT [GeV]"),
1498	<	bins = cms.vdouble(500, 0, 500),
1496	>	name = cms.string("muonSecondaryJetPt"),
1497	>	title = cms.string("Muon-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1498	>	bins = cms.untracked.vdouble(100, 0, 500),
1499	>	inputVariables = cms.vstring("pt"),
1500	>	),
1501	>	cms.PSet (
1502	>	name = cms.string("muonSecondaryJetInvMass"),
1503	>	title = cms.string("Muon-jet Invariant Mass; M_{#mu-jet} [GeV]"),
1504	>	bins = cms.untracked.vdouble(100, 0, 500),
1505	>	inputVariables = cms.vstring("invMass"),
1506	>	),
1507	>	cms.PSet (
1508	>	name = cms.string("muonSecondaryJetChargeProduct"),
1509	>	title = cms.string("Muon-jet Charge Product; charge_{#mu}*charge_{jet}"),
1510	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1511	>	inputVariables = cms.vstring("chargeProduct"),
1512	>	),
1513	>	cms.PSet (
1514	>	name = cms.string("muonSecondaryJetDeltaPhi"),
1515	>	title = cms.string("Muon-jet Phi Difference; |#Delta(#phi)|"),
1516	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1517	>	inputVariables = cms.vstring("deltaPhi"),
1518	>	),
1519	>	cms.PSet (
1520	>	name = cms.string("muonSecondaryJetDeltaEta"),
1521	>	title = cms.string("Muon-jet Eta Difference; |#Delta(#eta)|"),
1522	>	bins = cms.untracked.vdouble(100, 0, 6),
1523	>	inputVariables = cms.vstring("deltaEta"),
1524	>	),
1525	>	cms.PSet (
1526	>	name = cms.string("muonSecondaryJetDeltaRvsmuonSecondaryJetDeltaEta "),
1527	>	title = cms.string("Muon-jet #DeltaR.vs #Delta(eta); |#Delta(#eta)|; #DeltaR"),
1528	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1529	>	inputVariables = cms.vstring("deltaEta","deltaR"),
1530	>	),
1531	>	cms.PSet (
1532	>	name = cms.string("muonSecondaryJetDeltaRvsmuonSecondaryJetDeltaPhi "),
1533	>	title = cms.string("Muon-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; #DeltaR"),
1534	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0 ,6),
1535	>	inputVariables = cms.vstring("deltaPhi","deltaR"),
1536	>	),
1537	>	cms.PSet (
1538	>	name = cms.string("muonEtavsJetEta "),
1539	>	title = cms.string("Muon Eta.vs Jet Eta; Jet #eta; Muon #eta"),
1540	>	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1541	>	inputVariables = cms.vstring("jetEta","muonEta"),
1542	>	),
1543	>	cms.PSet (
1544	>	name = cms.string("muonPhivsJetPhi "),
1545	>	title = cms.string("Muon Phi.vs Jet Phi; Jet #phi; Muon #phi"),
1546	>	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1547	>	inputVariables = cms.vstring("jetPhi","muonPhi"),
1548	>	),
1549	>	cms.PSet (
1550	>	name = cms.string("muonSecondaryJetDeltaR"),
1551	>	title = cms.string("Muon-jet #DeltaR; #DeltaR"),
1552	>	bins = cms.untracked.vdouble(100, 0, 6),
1553	>	inputVariables = cms.vstring("deltaR"),
1554	>	),
1555	>	cms.PSet (
1556	>	name = cms.string("muonSecondaryJetThreeDAngle"),
1557	>	title = cms.string("Muon-jet 3D angle; 3D angle"),
1558	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1559	>	inputVariables = cms.vstring("threeDAngle"),
1560	>	),
1561	>	)
1562	>	)
1563	>	##############################################################################################
1564	>	ElectronSecondaryJetHistograms = cms.PSet(
1565	>	inputCollection = cms.string("electron-secondary jet pairs"),
1566	>	histograms = cms.VPSet (
1567	>	cms.PSet (
1568	>	name = cms.string("electronSecondaryJetPt"),
1569	>	title = cms.string("Electron-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1570	>	bins = cms.untracked.vdouble(100, 0, 500),
1571	>	inputVariables = cms.vstring("pt"),
1572	>	),
1573	>	cms.PSet (
1574	>	name = cms.string("electronSecondaryJetInvMass"),
1575	>	title = cms.string("Electron-jet Invariant Mass; M_{#mu-jet} [GeV]"),
1576	>	bins = cms.untracked.vdouble(100, 0, 500),
1577	>	inputVariables = cms.vstring("invMass"),
1578	>	),
1579	>	cms.PSet (
1580	>	name = cms.string("electronSecondaryJetChargeProduct"),
1581	>	title = cms.string("Electron-jet Charge Product; charge_{#mu}*charge_{jet}"),
1582	>	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1583	>	inputVariables = cms.vstring("chargeProduct"),
1584	>	),
1585	>	cms.PSet (
1586	>	name = cms.string("electronSecondaryJetDeltaPhi"),
1587	>	title = cms.string("Electron-jet Phi Difference; |#Delta(#phi)|"),
1588	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1589	>	inputVariables = cms.vstring("deltaPhi"),
1590	>	),
1591	>	cms.PSet (
1592	>	name = cms.string("electronSecondaryJetDeltaEta"),
1593	>	title = cms.string("Electron-jet Eta Difference; |#Delta(#eta)|"),
1594	>	bins = cms.untracked.vdouble(100, 0, 6),
1595	>	inputVariables = cms.vstring("deltaEta"),
1596	>	),
1597	>	cms.PSet (
1598	>	name = cms.string("electronSecondaryJetDeltaRvselectronSecondaryJetDeltaEta "),
1599	>	title = cms.string("Electron-jet #DeltaR.vs #Delta(eta); |#Delta(#eta)|; #DeltaR"),
1600	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1601	>	inputVariables = cms.vstring("deltaEta","deltaR"),
1602	>	),
1603	>	cms.PSet (
1604	>	name = cms.string("electronSecondaryJetDeltaRvselectronSecondaryJetDeltaPhi "),
1605	>	title = cms.string("Electron-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; #DeltaR"),
1606	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0 ,6),
1607	>	inputVariables = cms.vstring("deltaPhi","deltaR"),
1608	>	),
1609	>	cms.PSet (
1610	>	name = cms.string("electronEtavsJetEta "),
1611	>	title = cms.string("Electron Eta.vs Jet Eta; Jet #eta; Electron #eta"),
1612	>	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1613	>	inputVariables = cms.vstring("jetEta","electronEta"),
1614	>	),
1615	>	cms.PSet (
1616	>	name = cms.string("electronPhivsJetPhi "),
1617	>	title = cms.string("Electron Phi.vs Jet Phi; Jet #phi; Electron #phi"),
1618	>	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1619	>	inputVariables = cms.vstring("jetPhi","electronPhi"),
1620	>	),
1621	>	cms.PSet (
1622	>	name = cms.string("electronSecondaryJetDeltaR"),
1623	>	title = cms.string("Electron-jet #DeltaR; #DeltaR"),
1624	>	bins = cms.untracked.vdouble(100, 0, 6),
1625	>	inputVariables = cms.vstring("deltaR"),
1626	>	),
1627	>	cms.PSet (
1628	>	name = cms.string("electronSecondaryJetThreeDAngle"),
1629	>	title = cms.string("Electron-jet 3D angle; 3D angle"),
1630	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1631	>	inputVariables = cms.vstring("threeDAngle"),
1632	>	),
1633	>	)
1634	>	)
1635	>	#################################################################################
1636	>	PhotonSecondaryJetHistograms = cms.PSet(
1637	>	inputCollection = cms.string("photon-secondary jet pairs"),
1638	>	histograms = cms.VPSet (
1639	>	cms.PSet (
1640	>	name = cms.string("photonSecondaryJetPt"),
1641	>	title = cms.string("Photon-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1642	>	bins = cms.untracked.vdouble(100, 0, 500),
1643	>	inputVariables = cms.vstring("pt"),
1644	>	),
1645	>	cms.PSet (
1646	>	name = cms.string("photonSecondaryJetInvMass"),
1647	>	title = cms.string("Photon-jet Invariant Mass; M_{#mu-jet} [GeV]"),
1648	>	bins = cms.untracked.vdouble(100, 0, 500),
1649	>	inputVariables = cms.vstring("invMass"),
1650	>	),
1651	>	cms.PSet (
1652	>	name = cms.string("photonSecondaryJetDeltaPhi"),
1653	>	title = cms.string("Photon-jet Phi Difference; |#Delta(#phi)|"),
1654	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1655	>	inputVariables = cms.vstring("deltaPhi"),
1656	>	),
1657	>	cms.PSet (
1658	>	name = cms.string("photonSecondaryJetDeltaEta"),
1659	>	title = cms.string("Photon-jet Eta Difference; |#Delta(#eta)|"),
1660	>	bins = cms.untracked.vdouble(100, 0, 6),
1661	>	inputVariables = cms.vstring("deltaEta"),
1662	>	),
1663	>	cms.PSet (
1664	>	name = cms.string("photonSecondaryJetDeltaRvsphotonSecondaryJetDeltaEta "),
1665	>	title = cms.string("Photon-jet #DeltaR.vs #Delta(eta); |#Delta(#eta)|; #DeltaR"),
1666	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1667	>	inputVariables = cms.vstring("deltaEta","deltaR"),
1668	>	),
1669	>	cms.PSet (
1670	>	name = cms.string("photonSecondaryJetDeltaRvsphotonSecondaryJetDeltaPhi "),
1671	>	title = cms.string("Photon-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; #DeltaR"),
1672	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0 ,6),
1673	>	inputVariables = cms.vstring("deltaPhi","deltaR"),
1674	>	),
1675	>	cms.PSet (
1676	>	name = cms.string("photonEtavsJetEta "),
1677	>	title = cms.string("Photon Eta.vs Jet Eta; Jet #eta; Photon #eta"),
1678	>	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1679	>	inputVariables = cms.vstring("jetEta","photonEta"),
1680	>	),
1681	>	cms.PSet (
1682	>	name = cms.string("photonPhivsJetPhi "),
1683	>	title = cms.string("Photon Phi.vs Jet Phi; Jet #phi; Photon #phi"),
1684	>	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1685	>	inputVariables = cms.vstring("jetPhi","photonPhi"),
1686	>	),
1687	>	cms.PSet (
1688	>	name = cms.string("photonSecondaryJetDeltaR"),
1689	>	title = cms.string("Photon-jet #DeltaR; #DeltaR"),
1690	>	bins = cms.untracked.vdouble(100, 0, 6),
1691	>	inputVariables = cms.vstring("deltaR"),
1692	>	),
1693	>	cms.PSet (
1694	>	name = cms.string("photonSecondaryJetThreeDAngle"),
1695	>	title = cms.string("Photon-jet 3D angle; 3D angle"),
1696	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1697	>	inputVariables = cms.vstring("threeDAngle"),
1698	>	),
1699	>	)
1700	>	)
1701	>	############################################################################
1702	>	PhotonJetHistograms = cms.PSet(
1703	>	inputCollection = cms.string("photon-jet pairs"),
1704	>	histograms = cms.VPSet (
1705	>	cms.PSet (
1706	>	name = cms.string("photonJetPt"),
1707	>	title = cms.string("Photon-Jet Pair Transverse Momentum; p_{T} [GeV]"),
1708	>	bins = cms.untracked.vdouble(100, 0, 500),
1709	>	inputVariables = cms.vstring("pt"),
1710	>	),
1711	>	cms.PSet (
1712	>	name = cms.string("photonJetInvMass"),
1713	>	title = cms.string("Photon-jet Invariant Mass; M_{#mu-jet} [GeV]"),
1714	>	bins = cms.untracked.vdouble(100, 0, 500),
1715	>	inputVariables = cms.vstring("invMass"),
1716	>	),
1717	>	cms.PSet (
1718	>	name = cms.string("photonJetDeltaPhi"),
1719	>	title = cms.string("Photon-jet Phi Difference; |#Delta(#phi)|"),
1720	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1721	>	inputVariables = cms.vstring("deltaPhi"),
1722	>	),
1723	>	cms.PSet (
1724	>	name = cms.string("photonJetDeltaEta"),
1725	>	title = cms.string("Photon-jet Eta Difference; |#Delta(#eta)|"),
1726	>	bins = cms.untracked.vdouble(100, 0, 6),
1727	>	inputVariables = cms.vstring("deltaEta"),
1728	>	),
1729	>	cms.PSet (
1730	>	name = cms.string("photonJetDeltaRvsphotonJetDeltaEta "),
1731	>	title = cms.string("Photon-jet #DeltaR.vs #Delta(eta); |#Delta(#eta)|; #DeltaR"),
1732	>	bins = cms.untracked.vdouble(100, 0, 6, 100, 0 ,6),
1733	>	inputVariables = cms.vstring("deltaEta","deltaR"),
1734	>	),
1735	>	cms.PSet (
1736	>	name = cms.string("photonJetDeltaRvsphotonJetDeltaPhi "),
1737	>	title = cms.string("Photon-jet #DeltaR.vs #Delta(#phi); |#Delta(#phi)|; #DeltaR"),
1738	>	bins = cms.untracked.vdouble(100, 0, 3.15, 100, 0 ,6),
1739	>	inputVariables = cms.vstring("deltaPhi","deltaR"),
1740	>	),
1741	>	cms.PSet (
1742	>	name = cms.string("photonEtavsJetEta "),
1743	>	title = cms.string("Photon Eta.vs Jet Eta; Jet #eta; Photon #eta"),
1744	>	bins = cms.untracked.vdouble(200, -6, 6, 200, -6 ,6),
1745	>	inputVariables = cms.vstring("jetEta","photonEta"),
1746	>	),
1747	>	cms.PSet (
1748	>	name = cms.string("photonPhivsJetPhi "),
1749	>	title = cms.string("Photon Phi.vs Jet Phi; Jet #phi; Photon #phi"),
1750	>	bins = cms.untracked.vdouble(200, -3.15, 3.15, 200, -3.15 ,3.15),
1751	>	inputVariables = cms.vstring("jetPhi","photonPhi"),
1752	>	),
1753	>	cms.PSet (
1754	>	name = cms.string("photonJetDeltaR"),
1755	>	title = cms.string("Photon-jet #DeltaR; #DeltaR"),
1756	>	bins = cms.untracked.vdouble(100, 0, 6),
1757	>	inputVariables = cms.vstring("deltaR"),
1758	>	),
1759	>	cms.PSet (
1760	>	name = cms.string("photonJetThreeDAngle"),
1761	>	title = cms.string("Photon-jet 3D angle; 3D angle"),
1762	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1763	>	inputVariables = cms.vstring("threeDAngle"),
1764	>	),
1765	>	)
1766	>	)
1767	>	#######################################################################################
1768	>	MCParticleHistograms = cms.PSet(
1769	>	inputCollection = cms.string("mcparticles"),
1770	>	histograms = cms.VPSet (
1771	>	cms.PSet (
1772	>	name = cms.string("mcparticlePt"),
1773	>	title = cms.string("MCparticle Transverse Momentum; p_{T} [GeV]"),
1774	>	bins = cms.untracked.vdouble(100, 0, 500),
1775	>	inputVariables = cms.vstring("pt"),
1776	>	),
1777	>	cms.PSet (
1778	>	name = cms.string("mcparticleEta"),
1779	>	title = cms.string("MCparticle Eta; #eta"),
1780	>	bins = cms.untracked.vdouble(100, -3, 3),
1781	>	inputVariables = cms.vstring("eta"),
1782	>	),
1783	>	cms.PSet (
1784	>	name = cms.string("mcparticleID"),
1785	>	title = cms.string("MCparticle ID; pdg ID"),
1786	>	bins = cms.untracked.vdouble(2000, 0, 2000),
1787	>	inputVariables = cms.vstring("abs(id)"),
1788	>	),
1789	>	cms.PSet (
1790	>	name = cms.string("mcparticleMotherId"),
1791	>	title = cms.string("MCparticle Mother ID; pdg ID of mother"),
1792	>	bins = cms.untracked.vdouble(2000, 0, 2000),
1793	>	inputVariables = cms.vstring("abs(motherId)"),
1794	>	),
1795	>	cms.PSet (
1796	>	name = cms.string("mcparticleGrandMotherId"),
1797	>	title = cms.string("MCparticle Grandmother ID; pdg ID of grandmother"),
1798	>	bins = cms.untracked.vdouble(2000, 0, 2000),
1799	>	inputVariables = cms.vstring("abs(grandMotherId)"),
1800	>	),
1801	>	cms.PSet (
1802	>	name = cms.string("mcparticleStatus"),
1803	>	title = cms.string("MCparticle Status; status"),
1804	>	bins = cms.untracked.vdouble(3, 1, 4),
1805	>	inputVariables = cms.vstring("status"),
1806	>	),
1807	>	cms.PSet (
1808	>	name = cms.string("mcparticleD0"),
1809	>	title = cms.string("MCParticle d_{0} wrt PV; d_{0} [cm]"),
1810	>	bins = cms.untracked.vdouble(40000, -20, 20),
1811	>	inputVariables = cms.vstring("d0")
1812	>	),
1813	>	cms.PSet (
1814	>	name = cms.string("mcparticleAbsD0"),
1815	>	title = cms.string("MCParticle |d_{0}| wrt PV; |d_{0}| [cm]"),
1816	>	bins = cms.untracked.vdouble(40000, 0, 20),
1817	>	inputVariables = cms.vstring("abs(d0)")
1818	>	),
1819	>	cms.PSet (
1820	>	name = cms.string("mcparticleD0S"),
1821	>	title = cms.string("MCParticle |d_{0}| wrt PV; |d_{0}| [cm]"),
1822	>	bins = cms.untracked.vdouble(100, 0, 0.05),
1823	>	inputVariables = cms.vstring("abs(d0)")
1824	>	),
1825	>	cms.PSet (
1826	>	name = cms.string("mcparticleD0M"),
1827	>	title = cms.string("MCParticle |d_{0}| wrt PV; |d_{0}| [cm]"),
1828	>	bins = cms.untracked.vdouble(100, 0, 0.5),
1829	>	inputVariables = cms.vstring("abs(d0)")
1830	>	),
1831	>	cms.PSet (
1832	>	name = cms.string("mcparticleD0L"),
1833	>	title = cms.string("MCParticle |d_{0}| wrt PV; |d_{0}| [cm]"),
1834	>	bins = cms.untracked.vdouble(100, 0, 5),
1835	>	inputVariables = cms.vstring("abs(d0)")
1836	>	),
1837	>	cms.PSet (
1838	>	name = cms.string("mcparticleD0XL"),
1839	>	title = cms.string("MCParticle |d_{0}| wrt PV; |d_{0}| [cm]"),
1840	>	bins = cms.untracked.vdouble(100, 0, 50),
1841	>	inputVariables = cms.vstring("abs(d0)")
1842	>	),
1843	>	cms.PSet (
1844	>	name = cms.string("mcparticleDz"),
1845	>	title = cms.string("MCparticle d_{z}; d_{z} [cm]"),
1846	>	bins = cms.untracked.vdouble(100, -0.5, 0.5),
1847	>	inputVariables = cms.vstring("dz"),
1848	>	),
1849	>	cms.PSet (
1850	>	name = cms.string("mcparticleAbsDZ"),
1851	>	title = cms.string("MCparticle d_{z}; |d_{z}| [cm]"),
1852	>	bins = cms.untracked.vdouble(100, 0, 0.5),
1853	>	inputVariables = cms.vstring("abs(dz)"),
1854	>	),
1855	>	)
1856	>	)
1857	>
1858	>	##############################################################################################
1859	>
1860	>	MetHistograms = cms.PSet(
1861	>	inputCollection = cms.string("mets"),
1862	>	histograms = cms.VPSet (
1863	>	cms.PSet (
1864	>	name = cms.string("met"),
1865	>	title = cms.string("Missing E_{T}; Missing E_{T} [GeV]"),
1866	>	bins = cms.untracked.vdouble(100, 0, 500),
1867		inputVariables = cms.vstring("pt"),
1868		),
1869		)
1870		)
1871
1872	+	##############################################################################################
1873	+
1874		TrackHistograms = cms.PSet(
1875		inputCollection = cms.string("tracks"),
1876		histograms = cms.VPSet (
1877		cms.PSet (
1878		name = cms.string("trackPt"),
1879		title = cms.string("Track Transverse Momentum; p_{T} [GeV]"),
1880	<	bins = cms.vdouble(100, 0, 500),
1880	>	bins = cms.untracked.vdouble(100, 0, 500),
1881		inputVariables = cms.vstring("pt"),
1882	<	),
1883	<	cms.PSet (
1882	>	),
1883	>	cms.PSet (
1884		name = cms.string("trackEta"),
1885		title = cms.string("Track Eta; #eta"),
1886	<	bins = cms.vdouble(100, -5, 5),
1886	>	bins = cms.untracked.vdouble(100, -3, 3),
1887		inputVariables = cms.vstring("eta"),
1888	<	),
553	<
1888	>	),
1889		cms.PSet (
1890		name = cms.string("trackPhi"),
1891		title = cms.string("Track Phi; #phi"),
1892	<	bins = cms.vdouble(100, -5, 5),
1892	>	bins = cms.untracked.vdouble(100, -3, 3),
1893		inputVariables = cms.vstring("phi"),
1894	<	),
1894	>	),
1895		cms.PSet (
1896		name = cms.string("trackd0"),
1897		title = cms.string("Track d_{0}; d_{0} [cm]"),
1898	<	bins = cms.vdouble(100, -0.5, 0.5),
1898	>	bins = cms.untracked.vdouble(100, -0.5, 0.5),
1899		inputVariables = cms.vstring("d0"),
1900	<	),
566	<
1900	>	),
1901		cms.PSet (
1902		name = cms.string("trackdz"),
1903		title = cms.string("Track d_{z}; d_{z} [cm]"),
1904	<	bins = cms.vdouble(100, -30, 30),
1904	>	bins = cms.untracked.vdouble(100, -30, 30),
1905		inputVariables = cms.vstring("dZ"),
1906		),
1907	<	cms.PSet (
1907	>	cms.PSet (
1908		name = cms.string("trackNumValidHits"),
1909		title = cms.string("Track Number of Valid Hits; Number of Valid Hits"),
1910	<	bins = cms.vdouble(100, 0, 30),
1910	>	bins = cms.untracked.vdouble(100, 0, 30),
1911		inputVariables = cms.vstring("numValidHits"),
1912	<	),
1913	<
580	<	cms.PSet (
1912	>	),
1913	>	cms.PSet (
1914		name = cms.string("trackChi2"),
1915		title = cms.string("Track Reduced Chi2; #chi^{2} / DOF"),
1916	<	bins = cms.vdouble(100, 0, 30),
1916	>	bins = cms.untracked.vdouble(100, 0, 30),
1917		inputVariables = cms.vstring("normChi2"),
1918	+	),
1919	+	cms.PSet (
1920	+	name = cms.string("trackCharge"),
1921	+	title = cms.string("Track Charge; charge"),
1922	+	bins = cms.untracked.vdouble(3, -1.5, 1.5),
1923	+	inputVariables = cms.vstring("charge"),
1924	+	),
1925	+	)
1926	+	)
1927	+
1928	+	##############################################################################################
1929	+
1930	+	ElectronTrackHistograms = cms.PSet(
1931	+	inputCollection = cms.string("electron-track pairs"),
1932	+	histograms = cms.VPSet (
1933	+	cms.PSet (
1934	+	name = cms.string("ElectronTrackInvMass"),
1935	+	title = cms.string("Electron-Track Invariant Mass; M_{e+track} [GeV]"),
1936	+	bins = cms.untracked.vdouble(100, 0, 180),
1937	+	inputVariables = cms.vstring("invMass"),
1938	+	),
1939	+	cms.PSet (
1940	+	name = cms.string("ElectronTrackDeltaEta"),
1941	+	title = cms.string("Electron-Track Eta Difference; |#Delta(#eta)|"),
1942	+	bins = cms.untracked.vdouble(100, 0, 10),
1943	+	inputVariables = cms.vstring("deltaEta"),
1944	+	),
1945	+	cms.PSet (
1946	+	name = cms.string("ElectronTrackDeltaPhi"),
1947	+	title = cms.string("Electron-Track Phi Difference; |#Delta(#phi)|"),
1948	+	bins = cms.untracked.vdouble(100, 0, 3.15),
1949	+	inputVariables = cms.vstring("deltaPhi"),
1950		),
1951	<
1952	<
1951	>	cms.PSet (
1952	>	name = cms.string("ElectronTrackDeltaR"),
1953	>	title = cms.string("Electron-Track #DeltaR; #DeltaR"),
1954	>	bins = cms.untracked.vdouble(100, 0, 10),
1955	>	inputVariables = cms.vstring("deltaR"),
1956	>	),
1957	>	cms.PSet (
1958	>	name = cms.string("ElectronTrackDeltaRZoom"),
1959	>	title = cms.string("Electron-Track #DeltaR; #DeltaR"),
1960	>	bins = cms.untracked.vdouble(100, 0, 1),
1961	>	inputVariables = cms.vstring("deltaR"),
1962	>	),
1963	>	)
1964	>	)
1965	>
1966	>	##############################################################################################
1967	>
1968	>	MuonTrackHistograms = cms.PSet(
1969	>	inputCollection = cms.string("muon-track pairs"),
1970	>	histograms = cms.VPSet (
1971	>	cms.PSet (
1972	>	name = cms.string("MuonTrackInvMass"),
1973	>	title = cms.string("Muon-Track Invariant Mass; M_{#mu+track} [GeV]"),
1974	>	bins = cms.untracked.vdouble(100, 0, 180),
1975	>	inputVariables = cms.vstring("invMass"),
1976	>	),
1977	>	cms.PSet (
1978	>	name = cms.string("MuonTrackDeltaEta"),
1979	>	title = cms.string("Muon-Track Eta Difference; |#Delta(#eta)|"),
1980	>	bins = cms.untracked.vdouble(100, 0, 10),
1981	>	inputVariables = cms.vstring("deltaEta"),
1982	>	),
1983	>	cms.PSet (
1984	>	name = cms.string("MuonTrackDeltaPhi"),
1985	>	title = cms.string("Muon-Track Phi Difference; |#Delta(#phi)|"),
1986	>	bins = cms.untracked.vdouble(100, 0, 3.15),
1987	>	inputVariables = cms.vstring("deltaPhi"),
1988	>	),
1989	>	cms.PSet (
1990	>	name = cms.string("MuonTrackDeltaR"),
1991	>	title = cms.string("Muon-Track #DeltaR; #DeltaR"),
1992	>	bins = cms.untracked.vdouble(100, 0, 10),
1993	>	inputVariables = cms.vstring("deltaR"),
1994	>	),
1995	>	cms.PSet (
1996	>	name = cms.string("MuonTrackDeltaRZoom"),
1997	>	title = cms.string("Muon-Track #DeltaR; #DeltaR"),
1998	>	bins = cms.untracked.vdouble(100, 0, 1),
1999	>	inputVariables = cms.vstring("deltaR"),
2000	>	),
2001		)
2002	<	)
2002	>	)
2003	>
2004	>	##############################################################################################
2005	>
2006	>	TauTrackHistograms = cms.PSet(
2007	>	inputCollection = cms.string("tau-track pairs"),
2008	>	histograms = cms.VPSet (
2009	>	cms.PSet (
2010	>	name = cms.string("TauTrackInvMass"),
2011	>	title = cms.string("Tau-Track Invariant Mass; M_{#mu+track} [GeV]"),
2012	>	bins = cms.untracked.vdouble(100, 0, 180),
2013	>	inputVariables = cms.vstring("invMass"),
2014	>	),
2015	>	cms.PSet (
2016	>	name = cms.string("TauTrackDeltaEta"),
2017	>	title = cms.string("Tau-Track Eta Difference; |#Delta(#eta)|"),
2018	>	bins = cms.untracked.vdouble(100, 0, 10),
2019	>	inputVariables = cms.vstring("deltaEta"),
2020	>	),
2021	>	cms.PSet (
2022	>	name = cms.string("TauTrackDeltaPhi"),
2023	>	title = cms.string("Tau-Track Phi Difference; |#Delta(#phi)|"),
2024	>	bins = cms.untracked.vdouble(100, 0, 3.15),
2025	>	inputVariables = cms.vstring("deltaPhi"),
2026	>	),
2027	>	cms.PSet (
2028	>	name = cms.string("TauTrackDeltaR"),
2029	>	title = cms.string("Tau-Track #DeltaR; #DeltaR"),
2030	>	bins = cms.untracked.vdouble(100, 0, 10),
2031	>	inputVariables = cms.vstring("deltaR"),
2032	>	),
2033	>	cms.PSet (
2034	>	name = cms.string("TauTrackDeltaRZoom"),
2035	>	title = cms.string("Tau-Track #DeltaR; #DeltaR"),
2036	>	bins = cms.untracked.vdouble(100, 0, 1),
2037	>	inputVariables = cms.vstring("deltaR"),
2038	>	),
2039	>	)
2040	>	)
2041	>
2042	>	##############################################################################################
2043
2044		EventHistograms = cms.PSet(
2045		inputCollection = cms.string("events"),
2046		histograms = cms.VPSet (
2047		cms.PSet (
2048	+	name = cms.string("ht"),
2049	+	title = cms.string("H_{T}; #Sigma p_{T} selected jets [GeV]"),
2050	+	bins = cms.untracked.vdouble(100, 0, 500),
2051	+	inputVariables = cms.vstring("ht"),
2052	+	),
2053	+	cms.PSet (
2054	+	name = cms.string("unfilteredHt"),
2055	+	title = cms.string("Unfiltered H_{T}; #Sigma p_{T} all jets [GeV]"),
2056	+	bins = cms.untracked.vdouble(100, 0, 500),
2057	+	inputVariables = cms.vstring("unfilteredHt"),
2058	+	),
2059	+	cms.PSet (
2060		name = cms.string("puScaleFactor"),
2061		title = cms.string("Pileup Scale Factor;pileup weight"),
2062	<	bins = cms.vdouble(1000, 0, 10),
2062	>	bins = cms.untracked.vdouble(100, 0, 5),
2063		inputVariables = cms.vstring("puScaleFactor"),
2064		),
2065		cms.PSet (
2066		name = cms.string("muonScaleFactor"),
2067		title = cms.string("Muon Scale Factor;muon weight"),
2068	<	bins = cms.vdouble(1000, 0.5, 1.5),
2068	>	bins = cms.untracked.vdouble(100, 0.5, 1.5),
2069		inputVariables = cms.vstring("muonScaleFactor"),
2070		),
2071		cms.PSet (
2072	+	name = cms.string("bTagScaleFactor"),
2073	+	title = cms.string("Btag Scale Factor;btag weight"),
2074	+	bins = cms.untracked.vdouble(100, 0.5, 1.5),
2075	+	inputVariables = cms.vstring("bTagScaleFactor"),
2076	+	),
2077	+	cms.PSet (
2078		name = cms.string("electronScaleFactor"),
2079		title = cms.string("Electron Scale Factor;electron weight"),
2080	<	bins = cms.vdouble(1000, 0.5, 1.5),
2080	>	bins = cms.untracked.vdouble(100, 0.5, 1.5),
2081		inputVariables = cms.vstring("electronScaleFactor"),
2082		),
2083	+	cms.PSet (
2084	+	name = cms.string("stopCTauScaleFactor"),
2085	+	title = cms.string("#LTc#tau#GT Scale Factor;#LTc#tau#GT weight"),
2086	+	bins = cms.untracked.vdouble(100, 0, 10),
2087	+	inputVariables = cms.vstring("stopCTauScaleFactor"),
2088	+	),
2089		)
2090	<	)
2090	>	)
2091	>
2092	>	##############################################################################################

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