Configuration/python/histogramDefinitions.py

import FWCore.ParameterSet.Config as cms


###############################################
##### Set up the histograms to be plotted #####
###############################################


MuonHistograms = cms.PSet(
    inputCollection = cms.string("muons"),
    histograms = cms.VPSet (
        cms.PSet (
            name = cms.string("muonPt"),
            title = cms.string("Muon Transverse Momentum; p_{T} [GeV]"),
            bins = cms.vdouble(100, 0, 500),
            inputVariables = cms.vstring("pt"),
        ),
        cms.PSet (
            name = cms.string("muonEta"),
            title = cms.string("Muon Eta; #eta"),
            bins = cms.vdouble(100, -5, 5),
            inputVariables = cms.vstring("eta"),
        ),
        cms.PSet (
            name = cms.string("muonPhi"),
            title = cms.string("Muon Phi; #phi"),
            bins = cms.vdouble(100, -3.15, 3.15),
            inputVariables = cms.vstring("phi"),
        ),
        cms.PSet (
            name = cms.string("muonEtaPhi"),
            title = cms.string("Muon Eta vs. Phi; #phi; #eta"),
            bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
            inputVariables = cms.vstring("phi","eta"),
        ),
        cms.PSet (
            name = cms.string("muonD0"),
            title = cms.string("Muon d_{0}; d_{0} [cm]"),
            bins = cms.vdouble(1000, -1, 1),
            inputVariables = cms.vstring("correctedD0Vertex"),
        ),
        cms.PSet (
            name = cms.string("muonAbsD0"),
            title = cms.string("Muon d_{0}; |d_{0}| [cm]"),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("correctedD0Vertex"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("muonD0Sig"),
            title = cms.string("Muon d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
            bins = cms.vdouble(1000, -10.0, 10.0),
            inputVariables = cms.vstring("d0Sig"),
        ),
        cms.PSet (
            name = cms.string("muonAbsD0Sig"),
            title = cms.string("Muon d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
            bins = cms.vdouble(1000, 0, 10.0),
            inputVariables = cms.vstring("d0Sig"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("muonDz"),
            title = cms.string("Muon d_{z}; d_{z} [cm]"),
            bins = cms.vdouble(1000, -20, 20),
            inputVariables = cms.vstring("correctedDZ"),
        ),
        cms.PSet (
            name = cms.string("muonAbsDz"),
            title = cms.string("Muon |d_{z}|; |d_{z}| [cm]"),
            bins = cms.vdouble(1000, 0, 20),
            inputVariables = cms.vstring("correctedDZ"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("muonDetIso"),
            title = cms.string("Muon Detector-based Isolation; rel. iso."),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("detIso"),
        ),
        cms.PSet (
            name = cms.string("muonPFdBetaIso"),
            title = cms.string("Muon PF-based #Delta#beta-corrected Isolation; rel. iso."),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("relPFdBetaIso"),
        ),

    )
)

ElectronHistograms = cms.PSet(
    inputCollection = cms.string("electrons"),
    histograms = cms.VPSet (
        cms.PSet (
            name = cms.string("electronPt"),
            title = cms.string("Electron Transverse Momentum; p_{T} [GeV]"),
            bins = cms.vdouble(100, 0, 500),
            inputVariables = cms.vstring("pt"),
        ),
        cms.PSet (
            name = cms.string("electronEta"),
            title = cms.string("Electron Eta; #eta"),
            bins = cms.vdouble(100, -5, 5),
            inputVariables = cms.vstring("eta"),
        ),
        cms.PSet (
            name = cms.string("electronPhi"),
            title = cms.string("Electron Phi; #phi"),
            bins = cms.vdouble(100, -3.15, 3.15),
            inputVariables = cms.vstring("phi"),
        ),
        cms.PSet (
            name = cms.string("electronEtaPhi"),
            title = cms.string("Electron Eta vs. Phi; #phi; #eta"),
            bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
            inputVariables = cms.vstring("phi","eta"),
        ),
        cms.PSet (
            name = cms.string("electronD0"),
            title = cms.string("Electron d_{0}; d_{0} [cm]"),
            bins = cms.vdouble(1000, -1, 1),
            inputVariables = cms.vstring("correctedD0Vertex"),
        ),
        cms.PSet (
            name = cms.string("electronAbsD0"),
            title = cms.string("Electron d_{0}; |d_{0}| [cm]"),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("correctedD0Vertex"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("electronD0Sig"),
            title = cms.string("Electron d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
            bins = cms.vdouble(1000, -10.0, 10.0),
            inputVariables = cms.vstring("d0Sig"),
        ),
        cms.PSet (
            name = cms.string("electronAbsD0Sig"),
            title = cms.string("Electron d_{0} Significance; |d_{0}| / #sigma_{d_{0}}"),
            bins = cms.vdouble(1000, 0, 10.0),
            inputVariables = cms.vstring("d0Sig"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("electronDz"),
            title = cms.string("Electron d_{z}; d_{z} [cm]"),
            bins = cms.vdouble(1000, -20, 20),
            inputVariables = cms.vstring("correctedDZ"),
        ),
        cms.PSet (
            name = cms.string("electronAbsDz"),
            title = cms.string("Electron |d_{z}|; |d_{z}| [cm]"),
            bins = cms.vdouble(1000, 0, 20),
            inputVariables = cms.vstring("correctedDZ"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("electronDetIso"),
            title = cms.string("Electron Detector-based Isolation; rel. iso."),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("detIso"),
        ),
        cms.PSet (
            name = cms.string("electronPFrhoIso"),
            title = cms.string("Electron PF-based #rho-corrected Isolation; rel. iso."),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("relPFrhoIso"),
        ),
        cms.PSet (
            name = cms.string("electronFbrem"),
            title = cms.string("Electron Brem. Energy Fraction; fbrem"),
            bins = cms.vdouble(1000, 0, 2),
            inputVariables = cms.vstring("fbrem"),
        ),
        cms.PSet (
            name = cms.string("electronMvaTrigV0"),
            title = cms.string("Electron ID Triggering MVA Output"),
            bins = cms.vdouble(1000, -1.1, 1.1),
            inputVariables = cms.vstring("mvaTrigV0"),
        ),
        cms.PSet (
            name = cms.string("electronMvaNonTrigV0"),
            title = cms.string("Electron ID Non-triggering MVA Output"),
            bins = cms.vdouble(1000, -1.1, 1.1),
            inputVariables = cms.vstring("mvaNonTrigV0"),
        ),
    )
)


MCParticleHistograms = cms.PSet(
    inputCollection = cms.string("mcparticles"),
    histograms = cms.VPSet (
        cms.PSet (
            name = cms.string("mcparticleD0"),
            title = cms.string("MCparticle d_{0}; d_{0} [cm]"),
            bins = cms.vdouble(1000, -1, 1),
            inputVariables = cms.vstring("d0"),
        ),
        cms.PSet (
            name = cms.string("mcparticleAbsD0"),
            title = cms.string("MCparticle d_{0}; |d_{0}| [cm]"),
            bins = cms.vdouble(1000, 0, 1),
            inputVariables = cms.vstring("d0"),
            function = cms.string("abs"),
        ),
        cms.PSet (
            name = cms.string("mcparticleDz"),
            title = cms.string("MCparticle d_{z}; d_{z} [cm]"),
            bins = cms.vdouble(1000, -20, 20),
            inputVariables = cms.vstring("dz"),
        ),
        cms.PSet (
            name = cms.string("mcparticleAbsDZ"),
            title = cms.string("MCparticle d_{z}; |d_{z}| [cm]"),
            bins = cms.vdouble(1000, 0, 20),
            inputVariables = cms.vstring("dz"),
            function = cms.string("abs"),
        ),
    )
)    
Revision:	1.3
Committed:	Thu Feb 7 14:53:30 2013 UTC (12 years, 2 months ago) by lantonel
Content type:	text/x-python
Branch:	MAIN
Changes since 1.2:	+52 -27 lines
Log Message:	added 2D histograms
#	Content
1	import FWCore.ParameterSet.Config as cms
2
3
4	###############################################
5	##### Set up the histograms to be plotted #####
6	###############################################
7
8
9	MuonHistograms = cms.PSet(
10	inputCollection = cms.string("muons"),
11	histograms = cms.VPSet (
12	cms.PSet (
13	name = cms.string("muonPt"),
14	title = cms.string("Muon Transverse Momentum; p_{T} [GeV]"),
15	bins = cms.vdouble(100, 0, 500),
16	inputVariables = cms.vstring("pt"),
17	),
18	cms.PSet (
19	name = cms.string("muonEta"),
20	title = cms.string("Muon Eta; #eta"),
21	bins = cms.vdouble(100, -5, 5),
22	inputVariables = cms.vstring("eta"),
23	),
24	cms.PSet (
25	name = cms.string("muonPhi"),
26	title = cms.string("Muon Phi; #phi"),
27	bins = cms.vdouble(100, -3.15, 3.15),
28	inputVariables = cms.vstring("phi"),
29	),
30	cms.PSet (
31	name = cms.string("muonEtaPhi"),
32	title = cms.string("Muon Eta vs. Phi; #phi; #eta"),
33	bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
34	inputVariables = cms.vstring("phi","eta"),
35	),
36	cms.PSet (
37	name = cms.string("muonD0"),
38	title = cms.string("Muon d_{0}; d_{0} [cm]"),
39	bins = cms.vdouble(1000, -1, 1),
40	inputVariables = cms.vstring("correctedD0Vertex"),
41	),
42	cms.PSet (
43	name = cms.string("muonAbsD0"),
44	title = cms.string("Muon d_{0}; \|d_{0}\| [cm]"),
45	bins = cms.vdouble(1000, 0, 1),
46	inputVariables = cms.vstring("correctedD0Vertex"),
47	function = cms.string("abs"),
48	),
49	cms.PSet (
50	name = cms.string("muonD0Sig"),
51	title = cms.string("Muon d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
52	bins = cms.vdouble(1000, -10.0, 10.0),
53	inputVariables = cms.vstring("d0Sig"),
54	),
55	cms.PSet (
56	name = cms.string("muonAbsD0Sig"),
57	title = cms.string("Muon d_{0} Significance; \|d_{0}\| / #sigma_{d_{0}}"),
58	bins = cms.vdouble(1000, 0, 10.0),
59	inputVariables = cms.vstring("d0Sig"),
60	function = cms.string("abs"),
61	),
62	cms.PSet (
63	name = cms.string("muonDz"),
64	title = cms.string("Muon d_{z}; d_{z} [cm]"),
65	bins = cms.vdouble(1000, -20, 20),
66	inputVariables = cms.vstring("correctedDZ"),
67	),
68	cms.PSet (
69	name = cms.string("muonAbsDz"),
70	title = cms.string("Muon \|d_{z}\|; \|d_{z}\| [cm]"),
71	bins = cms.vdouble(1000, 0, 20),
72	inputVariables = cms.vstring("correctedDZ"),
73	function = cms.string("abs"),
74	),
75	cms.PSet (
76	name = cms.string("muonDetIso"),
77	title = cms.string("Muon Detector-based Isolation; rel. iso."),
78	bins = cms.vdouble(1000, 0, 1),
79	inputVariables = cms.vstring("detIso"),
80	),
81	cms.PSet (
82	name = cms.string("muonPFdBetaIso"),
83	title = cms.string("Muon PF-based #Delta#beta-corrected Isolation; rel. iso."),
84	bins = cms.vdouble(1000, 0, 1),
85	inputVariables = cms.vstring("relPFdBetaIso"),
86	),
87
88	)
89	)
90
91	ElectronHistograms = cms.PSet(
92	inputCollection = cms.string("electrons"),
93	histograms = cms.VPSet (
94	cms.PSet (
95	name = cms.string("electronPt"),
96	title = cms.string("Electron Transverse Momentum; p_{T} [GeV]"),
97	bins = cms.vdouble(100, 0, 500),
98	inputVariables = cms.vstring("pt"),
99	),
100	cms.PSet (
101	name = cms.string("electronEta"),
102	title = cms.string("Electron Eta; #eta"),
103	bins = cms.vdouble(100, -5, 5),
104	inputVariables = cms.vstring("eta"),
105	),
106	cms.PSet (
107	name = cms.string("electronPhi"),
108	title = cms.string("Electron Phi; #phi"),
109	bins = cms.vdouble(100, -3.15, 3.15),
110	inputVariables = cms.vstring("phi"),
111	),
112	cms.PSet (
113	name = cms.string("electronEtaPhi"),
114	title = cms.string("Electron Eta vs. Phi; #phi; #eta"),
115	bins = cms.vdouble(100, -3.15, 3.15, 100, -5, 5),
116	inputVariables = cms.vstring("phi","eta"),
117	),
118	cms.PSet (
119	name = cms.string("electronD0"),
120	title = cms.string("Electron d_{0}; d_{0} [cm]"),
121	bins = cms.vdouble(1000, -1, 1),
122	inputVariables = cms.vstring("correctedD0Vertex"),
123	),
124	cms.PSet (
125	name = cms.string("electronAbsD0"),
126	title = cms.string("Electron d_{0}; \|d_{0}\| [cm]"),
127	bins = cms.vdouble(1000, 0, 1),
128	inputVariables = cms.vstring("correctedD0Vertex"),
129	function = cms.string("abs"),
130	),
131	cms.PSet (
132	name = cms.string("electronD0Sig"),
133	title = cms.string("Electron d_{0} Significance; d_{0} / #sigma_{d_{0}}"),
134	bins = cms.vdouble(1000, -10.0, 10.0),
135	inputVariables = cms.vstring("d0Sig"),
136	),
137	cms.PSet (
138	name = cms.string("electronAbsD0Sig"),
139	title = cms.string("Electron d_{0} Significance; \|d_{0}\| / #sigma_{d_{0}}"),
140	bins = cms.vdouble(1000, 0, 10.0),
141	inputVariables = cms.vstring("d0Sig"),
142	function = cms.string("abs"),
143	),
144	cms.PSet (
145	name = cms.string("electronDz"),
146	title = cms.string("Electron d_{z}; d_{z} [cm]"),
147	bins = cms.vdouble(1000, -20, 20),
148	inputVariables = cms.vstring("correctedDZ"),
149	),
150	cms.PSet (
151	name = cms.string("electronAbsDz"),
152	title = cms.string("Electron \|d_{z}\|; \|d_{z}\| [cm]"),
153	bins = cms.vdouble(1000, 0, 20),
154	inputVariables = cms.vstring("correctedDZ"),
155	function = cms.string("abs"),
156	),
157	cms.PSet (
158	name = cms.string("electronDetIso"),
159	title = cms.string("Electron Detector-based Isolation; rel. iso."),
160	bins = cms.vdouble(1000, 0, 1),
161	inputVariables = cms.vstring("detIso"),
162	),
163	cms.PSet (
164	name = cms.string("electronPFrhoIso"),
165	title = cms.string("Electron PF-based #rho-corrected Isolation; rel. iso."),
166	bins = cms.vdouble(1000, 0, 1),
167	inputVariables = cms.vstring("relPFrhoIso"),
168	),
169	cms.PSet (
170	name = cms.string("electronFbrem"),
171	title = cms.string("Electron Brem. Energy Fraction; fbrem"),
172	bins = cms.vdouble(1000, 0, 2),
173	inputVariables = cms.vstring("fbrem"),
174	),
175	cms.PSet (
176	name = cms.string("electronMvaTrigV0"),
177	title = cms.string("Electron ID Triggering MVA Output"),
178	bins = cms.vdouble(1000, -1.1, 1.1),
179	inputVariables = cms.vstring("mvaTrigV0"),
180	),
181	cms.PSet (
182	name = cms.string("electronMvaNonTrigV0"),
183	title = cms.string("Electron ID Non-triggering MVA Output"),
184	bins = cms.vdouble(1000, -1.1, 1.1),
185	inputVariables = cms.vstring("mvaNonTrigV0"),
186	),
187	)
188	)
189
190
191
192	MCParticleHistograms = cms.PSet(
193	inputCollection = cms.string("mcparticles"),
194	histograms = cms.VPSet (
195	cms.PSet (
196	name = cms.string("mcparticleD0"),
197	title = cms.string("MCparticle d_{0}; d_{0} [cm]"),
198	bins = cms.vdouble(1000, -1, 1),
199	inputVariables = cms.vstring("d0"),
200	),
201	cms.PSet (
202	name = cms.string("mcparticleAbsD0"),
203	title = cms.string("MCparticle d_{0}; \|d_{0}\| [cm]"),
204	bins = cms.vdouble(1000, 0, 1),
205	inputVariables = cms.vstring("d0"),
206	function = cms.string("abs"),
207	),
208	cms.PSet (
209	name = cms.string("mcparticleDz"),
210	title = cms.string("MCparticle d_{z}; d_{z} [cm]"),
211	bins = cms.vdouble(1000, -20, 20),
212	inputVariables = cms.vstring("dz"),
213	),
214	cms.PSet (
215	name = cms.string("mcparticleAbsDZ"),
216	title = cms.string("MCparticle d_{z}; \|d_{z}\| [cm]"),
217	bins = cms.vdouble(1000, 0, 20),
218	inputVariables = cms.vstring("dz"),
219	function = cms.string("abs"),
220	),
221	)
222	)