]>
Commit | Line | Data |
---|---|---|
f7d5860b | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | ||
ee6b678f | 17 | /* $Id$ */ |
f7d5860b | 18 | |
185da5d3 | 19 | |
f7d5860b | 20 | //_________________________________________________________________________ |
21 | // Class for Filling JetFinder Plots | |
44f59d68 | 22 | // -- |
f7d5860b | 23 | //*-- Author: Mark Horner (LBL/UCT) |
44f59d68 | 24 | // -- |
25 | // -- | |
f7d5860b | 26 | |
27 | ||
28 | #include "TMath.h" | |
29 | #include "AliEMCALJetFinderPlots.h" | |
30 | ||
31 | ClassImp(AliEMCALJetFinderPlots) | |
32 | ||
33 | AliEMCALJetFinderPlots::AliEMCALJetFinderPlots() | |
34 | { | |
44f59d68 | 35 | // Constructor to initialise variables |
f7d5860b | 36 | fInitialised = kFALSE; |
37 | fNominalEnergy = 0.0; | |
185da5d3 | 38 | fConeRadius = 0.3; |
39 | fDebug = 0; | |
40 | fOutput=0; | |
ab01dff2 | 41 | fhFragmFcn=0;// = new TH1F("hFragmFcn","Fragmentation Function",100,0,1); |
42 | fhPartonFragmFcn=0;// = new TH1F("hPartonFragmFcn","Fragmentation Function",100,0,1); | |
43 | fhPartonJT=0;// = new TH1F("hPartonJT","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
44 | fhPartonPL=0;// = new TH1F("hPartonPL","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
45 | fhJetJT=0;// = new TH1F("hJetJT","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
46 | fhJetPL=0;// = new TH1F("hJetPL","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
47 | fhJetEt=0;// = new TH1F("hJetEt","E_{T}^{reco}",250,0.,250.); | |
48 | fhJetEta=0;// = new TH1F("hJetEta","#eta_{jet}^{reco}",180,-0.9,0.9); | |
49 | fhJetPhi=0;// = new TH1F("hJetPhi","#phi_{jet}^{reco}",62,0.,3.1); | |
50 | fhPartonEta=0;// = new TH1F("hPartonEta","#eta_{Parton}",180,-0.9,0.9); | |
51 | fhPartonPhi=0;// = new TH1F("hPartonPhi","#phi_{Parton}",62,0.,3.1); | |
52 | fhEtaDiff=0;// = new TH1F("hEtaDiff","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
53 | fhPhiDiff=0;// = new TH1F("hPhiDiff","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
54 | fhNJets=0;// = new TH1F("hNJets","N Reconstructed jets",11,-0.5,10.5); | |
55 | fhEtaPhiSpread=0; | |
56 | ||
57 | fhFragmFcn2=0; // ("hFragmFcn2","Fragmentation Function",100,0,1); | |
58 | fhPartonFragmFcn2=0;// ("hFragmFcn2","Parton Fragmentation Function",100,0,1); | |
59 | fhPartonJT2=0; // ("hPartonJT2","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
60 | fhPartonPL2=0; // ("hPartonPL2","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
61 | fhJetJT2=0; // ("hJetJT2","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
62 | fhJetPL2=0; // ("hJetPL2","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
63 | fhJetEt2=0; // ("hJetEt2","E_{T}^{reco}",250,0.,250.); | |
64 | fhJetEta2=0; // ("hJetEta2","#eta_{jet}^{reco}",180,-0.9,0.9); | |
65 | fhJetPhi2=0; // ("hJetPhi2","#phi_{jet}^{reco}",62,0.,3.1); | |
66 | fhPartonEta2=0; // ("hPartonEta2","#eta_{Parton}",180,-0.9,0.9); | |
67 | fhPartonPhi2=0; // ("hPartonPhi2","#phi_{Parton}",62,0.,3.1); | |
68 | fhEtaDiff2=0; // ("hEtaDiff2","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
69 | fhPhiDiff2=0; // ("hPhiDiff2","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
70 | fhEtaPhiSpread2=0; // ("hEtaPhiSpread2","#eta - #phi Distribution | |
185da5d3 | 71 | //of Reconstructed Jets",192,-0.7,0.7,288,pi/3,pi); |
ab01dff2 | 72 | fhNJets2=0; // ("hNJets2","N Reconstructed jets",11,-0.5,10.5); |
73 | fhJetEtSecond2=0; //("hJetEtSecond2","E_{T}^{reco}",250,0.,250.); | |
74 | fhJetEtRatio2=0; //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1); | |
75 | fhEtaPhiDist2=0; //("hEtaPhiDist2","Angular Distance Between First and Second",100,0,3); | |
63131144 | 76 | fhInputOutput=0; |
77 | // TH2F *fhInputOutput; //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1); | |
78 | ||
79 | fhRecoBinPt=0; // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); | |
80 | fhRecoBinPartonPt=0; // ("fhRecoBinPartonPt","Input Pt Distribution",100,0,1); | |
81 | fhRecoBinJetEt=0; // ("fhRecoJetEt","E_{T}^{reco}",250,0.,250.); | |
82 | fhRecoBinInputJetEt=0; // ("fhRecoInputJetEt","E_{T}^{reco}",250,0.,250.); | |
492f773f | 83 | fhJetPT =0;// new TH1F("hJetPT","P_{T} Distribution",200,0,200); |
84 | fhPartonPT =0;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1); | |
85 | fhJetPT2 =0;// new TH1F("hJetPT","P_{T} Distribution",200,0,200); | |
86 | fhPartonPT2 =0;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1); | |
87 | fhRecoBinFragmFcn =0;//new TH1F("fhRecoBinFragmFcn","Reconstructed Frag. Fcn",100,0,1); | |
88 | fhRecoBinPartonFragmFcn =0;// new TH1F("fhRecoBinPartonFragmFcn","Input Bin Fragm Fcn Distribution",100,0,1); | |
da2f0870 | 89 | fhJetInvE=0;// = new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1); |
90 | fhJetInvE2=0;// = new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1); | |
1515a8af | 91 | |
92 | ||
93 | ||
f7d5860b | 94 | } |
95 | ||
96 | void AliEMCALJetFinderPlots::InitPlots() | |
97 | { | |
185da5d3 | 98 | //========================= CASE 1 ======================================= |
ab01dff2 | 99 | fhFragmFcn = new TH1F("hFragmFcn","Fragmentation Function",100,0,1); |
100 | fhFragmFcn->Sumw2(); | |
492f773f | 101 | fhJetPT = new TH1F("hJetPT","P_{T} Distribution",200,0,200); |
102 | fhJetPT->Sumw2(); | |
103 | fhPartonPT = new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1); | |
104 | fhPartonPT->Sumw2(); | |
ab01dff2 | 105 | fhPartonFragmFcn = new TH1F("hPartonFragmFcn","Parton Fragmentation Function",100,0,1); |
106 | fhPartonFragmFcn->Sumw2(); | |
107 | fhPartonJT = new TH1F("hPartonJT","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
108 | fhPartonJT->Sumw2(); | |
109 | fhPartonPL = new TH1F("hPartonPL","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
110 | fhPartonPL->Sumw2(); | |
111 | fhJetJT = new TH1F("hJetJT","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
112 | fhJetJT->Sumw2(); | |
113 | fhJetPL = new TH1F("hJetPL","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
114 | fhJetPL->Sumw2(); | |
115 | fhJetEt = new TH1F("hJetEt","E_{T}^{reco}",250,0.,250.); | |
116 | fhJetEt->Sumw2(); | |
117 | fhJetEta = new TH1F("hJetEta","#eta_{jet}^{reco}",180,-0.9,0.9); | |
118 | fhJetEta->Sumw2(); | |
119 | fhJetPhi = new TH1F("hJetPhi","#phi_{jet}^{reco}",62,0.,3.1); | |
120 | fhJetPhi->Sumw2(); | |
121 | fhPartonEta = new TH1F("hPartonEta","#eta_{Parton}",180,-0.9,0.9); | |
122 | fhPartonEta->Sumw2(); | |
123 | fhPartonPhi = new TH1F("hPartonPhi","#phi_{Parton}",62,0.,3.1); | |
124 | fhPartonPhi->Sumw2(); | |
125 | fhEtaDiff = new TH1F("hEtaDiff","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
126 | fhEtaDiff->Sumw2(); | |
127 | fhPhiDiff = new TH1F("hPhiDiff","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
128 | fhPhiDiff->Sumw2(); | |
129 | fhNJets = new TH1F("hNJets","N Reconstructed jets",11,-0.5,10.5); | |
130 | fhNJets->Sumw2(); | |
131 | fhEtaPhiSpread = new TH2F("hEtaPhiSpread","#eta - #phi Distribution of Reconstructed Jets",100,-0.5,0.5,100,-0.5,0.5); | |
132 | fhEtaPhiSpread->Sumw2(); | |
133 | fhNJets->SetXTitle("N_{jets}^{reco}/event"); | |
134 | fhNJets->SetYTitle("N_{events}"); | |
f7d5860b | 135 | |
136 | //Jet properties | |
ab01dff2 | 137 | fhJetEt->SetFillColor(16); |
138 | fhJetEt->SetXTitle("E_{T}^{reco}"); | |
f7d5860b | 139 | |
ab01dff2 | 140 | fhJetEta->SetFillColor(16); |
141 | fhJetEta->SetXTitle("#eta_{jet}^{reco}"); | |
f7d5860b | 142 | |
ab01dff2 | 143 | fhJetPhi->SetFillColor(16); |
144 | fhJetPhi->SetXTitle("#phi_{jet}^{reco}"); | |
f7d5860b | 145 | |
ab01dff2 | 146 | fhPartonEta->SetFillColor(16); |
147 | fhPartonEta->SetXTitle("#eta_{parton}"); | |
f7d5860b | 148 | |
ab01dff2 | 149 | fhPartonPhi->SetFillColor(16); |
150 | fhPartonPhi->SetXTitle("#phi_{parton}"); | |
f7d5860b | 151 | |
ab01dff2 | 152 | fhPartonPL->SetXTitle("p (GeV/c)"); |
153 | fhPartonJT->SetXTitle("p (GeV/c)"); | |
f7d5860b | 154 | |
ab01dff2 | 155 | fhPartonFragmFcn->SetXTitle("Z = p_{T}^{Chg}/E_{T}^{parton}"); |
f7d5860b | 156 | |
157 | //Jet component properties | |
158 | ||
ab01dff2 | 159 | fhJetPL->SetXTitle("p (GeV/c)"); |
160 | fhJetJT->SetXTitle("p (GeV/c)"); | |
161 | fhFragmFcn->SetXTitle("Z = p_{T}^{Chg}/E_{T}^{reco}"); | |
162 | fhPartonFragmFcn->SetXTitle("Z = p_{T}^{Chg}/E_{T}^{reco}"); | |
f7d5860b | 163 | |
ab01dff2 | 164 | fhEtaDiff->SetXTitle("#eta_{jet}^{reco}-#eta_{jet}^{input}"); |
165 | fhPhiDiff->SetXTitle("#phi_{jet}^{reco}-#phi_{jet}^{input}"); | |
166 | fhEtaPhiSpread->SetXTitle("#eta"); | |
167 | fhEtaPhiSpread->SetYTitle("#phi"); | |
185da5d3 | 168 | |
169 | //======================= CASE 2 ====================================== | |
170 | ||
171 | ||
ab01dff2 | 172 | fhFragmFcn2 = new TH1F("hFragmFcn2","Fragmentation Function",100,0,1); |
173 | fhFragmFcn2->Sumw2(); | |
492f773f | 174 | fhJetPT2 = new TH1F("hJetPT2","P_{T} Distribution",200,0,200); |
175 | fhJetPT2->Sumw2(); | |
176 | fhPartonPT2 = new TH1F("hPartonPT2","Parton P_{T} Distribution",200,0,1); | |
177 | fhPartonPT2->Sumw2(); | |
ab01dff2 | 178 | fhPartonFragmFcn2 = new TH1F("hPartonFragmFcn2","Parton Fragmentation Function",100,0,1); |
179 | fhPartonFragmFcn2->Sumw2(); | |
180 | fhPartonJT2 = new TH1F("hPartonJT2","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
181 | fhPartonJT2->Sumw2(); | |
182 | fhPartonPL2 = new TH1F("hPartonPL2","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
183 | fhPartonPL2->Sumw2(); | |
184 | fhJetJT2 = new TH1F("hJetJT2","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
185 | fhJetJT2->Sumw2(); | |
186 | fhJetPL2 = new TH1F("hJetPL2","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
187 | fhJetPL2->Sumw2(); | |
188 | fhJetEt2 = new TH1F("hJetEt2","E_{T}^{reco}",250,0.,250.); | |
189 | fhJetEt2->Sumw2(); | |
190 | fhJetEta2 = new TH1F("hJetEta2","#eta_{jet}^{reco}",180,-0.9,0.9); | |
191 | fhJetEta2->Sumw2(); | |
192 | fhJetPhi2 = new TH1F("hJetPhi2","#phi_{jet}^{reco}",62,0.,3.1); | |
193 | fhJetPhi2->Sumw2(); | |
194 | fhPartonEta2 = new TH1F("hPartonEta2","#eta_{Parton}",180,-0.9,0.9); | |
195 | fhPartonEta2->Sumw2(); | |
196 | fhPartonPhi2 = new TH1F("hPartonPhi2","#phi_{Parton}",62,0.,3.1); | |
197 | fhPartonPhi2->Sumw2(); | |
198 | fhEtaDiff2 = new TH1F("hEtaDiff2","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
199 | fhEtaDiff2->Sumw2(); | |
200 | fhPhiDiff2 = new TH1F("hPhiDiff2","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
201 | fhPhiDiff2->Sumw2(); | |
202 | fhEtaPhiSpread2 = new TH2F("hEtaPhiSpread2","#eta - #phi Distribution of Reconstructed Jets",100,-0.5,0.5,100,-0.5,0.5); | |
203 | fhEtaPhiSpread2->Sumw2(); | |
204 | fhNJets2 = new TH1F("hNJets2","N Reconstructed jets",11,-0.5,10.5); | |
205 | fhNJets2->Sumw2(); | |
206 | fhJetEtSecond2 = new TH1F("hJetEtSecond2","E_{T}^{reco}",250,0.,250.); | |
207 | fhJetEtSecond2->Sumw2(); | |
208 | fhJetEtRatio2 = new TH1F("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1); | |
209 | fhJetEtRatio2->Sumw2(); | |
210 | fhEtaPhiDist2 = new TH1F("hEtaPhiDist2","Angular Distance Between First and Second",100,0,3); | |
211 | fhEtaPhiDist2->Sumw2(); | |
63131144 | 212 | |
213 | fhInputOutput= new TH2F("hInputOutput","Input and Reconstruction Correlations;Input;Output",200,0,200,200,0,200); //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1); | |
214 | ||
215 | //============================== Reconstruction Bin Comparison ============================================ | |
216 | ||
492f773f | 217 | fhRecoBinPt =new TH1F("fhRecoBinPt","Reconstructed Pt Distribution",200,0,200); |
63131144 | 218 | fhRecoBinPt->Sumw2(); |
492f773f | 219 | fhRecoBinPartonPt = new TH1F("fhRecoBinPartonPt","Input Pt Distribution",200,0,200); |
63131144 | 220 | fhRecoBinPartonPt->Sumw2(); |
492f773f | 221 | fhRecoBinFragmFcn =new TH1F("fhRecoBinFragmFcn","Reconstructed Frag. Fcn",100,0,1); |
222 | fhRecoBinFragmFcn->Sumw2(); | |
223 | fhRecoBinPartonFragmFcn = new TH1F("fhRecoBinPartonFragmFcn","Input Bin Fragm Fcn Distribution",100,0,1); | |
224 | fhRecoBinPartonFragmFcn->Sumw2(); | |
63131144 | 225 | fhRecoBinJetEt = new TH1F("fhRecoJetEt","E_{T}^{reco}",250,0.,250.); |
226 | fhRecoBinJetEt->Sumw2(); | |
227 | fhRecoBinInputJetEt = new TH1F("fhRecoInputJetEt","E_{T}^{reco}",250,0.,250.); | |
228 | fhRecoBinInputJetEt->Sumw2(); | |
da2f0870 | 229 | |
230 | ||
231 | fhJetInvE = new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1); | |
232 | fhJetInvE->Sumw2(); | |
233 | fhJetInvE2 = new TH1F("fhJetInvE2","#frac{1}{E_{R}}",100,0,1); | |
234 | fhJetInvE2->Sumw2(); | |
da2f0870 | 235 | |
236 | ||
237 | ||
f7d5860b | 238 | fInitialised = kTRUE; |
239 | ||
240 | } | |
241 | ||
44f59d68 | 242 | AliEMCALJetFinderPlots::~AliEMCALJetFinderPlots() |
243 | { | |
244 | // To ensure that all requested memory is returned | |
ab01dff2 | 245 | delete fhFragmFcn;// = new TH1F("hFragmFcn","Fragmentation Function",100,0,1); |
246 | delete fhPartonFragmFcn;// = new TH1F("hFragmFcn","Fragmentation Function",100,0,1); | |
247 | delete fhPartonJT;// = new TH1F("hPartonJT","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
248 | delete fhPartonPL;// = new TH1F("hPartonPL","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
249 | delete fhJetJT;// = new TH1F("hJetJT","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
250 | delete fhJetPL;// = new TH1F("hJetPL","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
251 | delete fhJetEt;// = new TH1F("hJetEt","E_{T}^{reco}",250,0.,250.); | |
252 | delete fhJetEta;// = new TH1F("hJetEta","#eta_{jet}^{reco}",180,-0.9,0.9); | |
253 | delete fhJetPhi;// = new TH1F("hJetPhi","#phi_{jet}^{reco}",62,0.,3.1); | |
254 | delete fhPartonEta;// = new TH1F("hPartonEta","#eta_{Parton}",180,-0.9,0.9); | |
255 | delete fhPartonPhi;// = new TH1F("hPartonPhi","#phi_{Parton}",62,0.,3.1); | |
256 | delete fhEtaDiff;// = new TH1F("hEtaDiff","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
257 | delete fhPhiDiff;// = new TH1F("hPhiDiff","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
258 | delete fhNJets;// = new TH1F("hNJets","N Reconstructed jets",11,-0.5,10.5); | |
259 | delete fhEtaPhiSpread; | |
260 | ||
261 | delete fhFragmFcn2; // ("hFragmFcn2","Fragmentation Function",100,0,1); | |
262 | delete fhPartonFragmFcn2;// ("hFragmFcn2","Parton Fragmentation Function",100,0,1); | |
263 | delete fhPartonJT2; // ("hPartonJT2","Track Momentum Perpendicular to Parton Axis",100,0.,10.); | |
264 | delete fhPartonPL2; // ("hPartonPL2","Track Momentum Parallel to Parton Axis ",100,0.,100.); | |
265 | delete fhJetJT2; // ("hJetJT2","Track Momentum Perpendicular to Jet Axis",100,0.,10.); | |
266 | delete fhJetPL2; // ("hJetPL2","Track Momentum Parallel to Jet Axis ",100,0.,100.); | |
267 | delete fhJetEt2; // ("hJetEt2","E_{T}^{reco}",250,0.,250.); | |
268 | delete fhJetEta2; // ("hJetEta2","#eta_{jet}^{reco}",180,-0.9,0.9); | |
269 | delete fhJetPhi2; // ("hJetPhi2","#phi_{jet}^{reco}",62,0.,3.1); | |
270 | delete fhPartonEta2; // ("hPartonEta2","#eta_{Parton}",180,-0.9,0.9); | |
271 | delete fhPartonPhi2; // ("hPartonPhi2","#phi_{Parton}",62,0.,3.1); | |
272 | delete fhEtaDiff2; // ("hEtaDiff2","#eta_{jet}^{reco}-#eta_{jet}^{input}",100,-0.5,0.5); | |
273 | delete fhPhiDiff2; // ("hPhiDiff2","#phi_{jet}^{reco}-#phi_{jet}^{input}",100,-0.5,0.5); | |
274 | delete fhEtaPhiSpread2; // ("hEtaPhiSpread2","#eta - #phi Distribution | |
185da5d3 | 275 | //of Reconstructed Jets",192,-0.7,0.7,288,pi/3,pi); |
ab01dff2 | 276 | delete fhNJets2; // ("hNJets2","N Reconstructed jets",11,-0.5,10.5); |
277 | delete fhJetEtSecond2; //("hJetEtSecond2","E_{T}^{reco}",250,0.,250.); | |
278 | delete fhJetEtRatio2; //("hJetEtRatio2","Ratio of Second Highest to Highest",100,0,1); | |
279 | delete fhEtaPhiDist2; //("hEtaPhiDist2","Angular Distance Between First and Second",100,0,3); | |
185da5d3 | 280 | |
63131144 | 281 | delete fhRecoBinPt; // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); |
282 | delete fhRecoBinPartonPt; // ("fhRecoBinPartonPt","Input Pt Distribution",100,0,1); | |
283 | delete fhRecoBinJetEt; // ("fhRecoJetEt","E_{T}^{reco}",250,0.,250.); | |
284 | delete fhRecoBinInputJetEt; // ("fhRecoInputJetEt","E_{T}^{reco}",250,0.,250.); | |
285 | ||
492f773f | 286 | delete fhJetPT ;// new TH1F("hJetPT","P_{T} Distribution",200,0,200); |
287 | delete fhPartonPT ;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1); | |
288 | delete fhJetPT2 ;// new TH1F("hJetPT","P_{T} Distribution",200,0,200); | |
289 | delete fhPartonPT2 ;// new TH1F("hPartonPT","Parton P_{T} Distribution",200,0,1); | |
290 | delete fhRecoBinFragmFcn;//new TH1F("fhRecoBinFragmFcn","Reconstructed Frag. Fcn",100,0,1); | |
291 | delete fhRecoBinPartonFragmFcn;// new TH1F("fhRecoBinPartonFragmFcn","Input Bin Fragm Fcn Distribution",100,0,1); | |
1515a8af | 292 | delete fhJetInvE;// = new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1); |
293 | delete fhJetInvE2;// = new TH1F("fhJetInvE","#frac{1}{E_{R}}",100,0,1); | |
185da5d3 | 294 | |
f7d5860b | 295 | } |
296 | ||
297 | void AliEMCALJetFinderPlots::FillFromOutput(AliEMCALJetFinderOutput* output) | |
298 | { | |
44f59d68 | 299 | // Fill histograms from an output object |
f7d5860b | 300 | if (!fInitialised) InitPlots(); |
301 | fOutput = output; | |
185da5d3 | 302 | if (!fOutput) return; |
ab01dff2 | 303 | fhNJets->Fill(fOutput->GetNJets()); |
63131144 | 304 | Bool_t doesJetMeetBinCriteria = 0; |
305 | AliEMCALJet* jethighest=0; | |
306 | AliEMCALJet* jetsecond=0; | |
4c162f44 | 307 | // Find Highest and Second Highest Jet |
308 | // (NB!!!!!!!) Pointing into the EMCAL!!!!!! | |
63131144 | 309 | |
310 | // =========================== All cases =================================== | |
1050d19e | 311 | |
312 | ||
4c162f44 | 313 | // I will make a little array of jet indices for which jets are in |
314 | // the EMCAL then my counter can loop from 0 below - but it will | |
315 | // be the index of the array of applicable jets | |
1050d19e | 316 | |
317 | Int_t appjet[4]; | |
318 | Int_t numappjet=0; | |
319 | ||
320 | for (Int_t appc=0;appc<fOutput->GetNJets();appc++) | |
321 | { // Check all jets for applicability | |
322 | Float_t eta = fOutput->GetJet(appc)->Eta(); | |
323 | Float_t phi = fOutput->GetJet(appc)->Phi(); | |
324 | if (eta > -0.7 && eta < 0.7 && phi > 1./3.*TMath::Pi() && phi < TMath::Pi()) | |
325 | { // Then jet is applicable | |
326 | appjet[numappjet]=appc; | |
327 | numappjet++; | |
328 | } | |
329 | } | |
4c162f44 | 330 | |
1050d19e | 331 | |
332 | if (numappjet >=1) | |
333 | { | |
334 | Float_t theta = 2.0*atan(exp(-fOutput->GetParton(0)->Eta())); | |
335 | Float_t et = fOutput->GetParton(0)->Energy() * TMath::Sin(theta); | |
63131144 | 336 | if (fOutput->GetNJets()>1) |
337 | { | |
4c162f44 | 338 | for (Int_t counter = 0; counter<numappjet;counter++) |
63131144 | 339 | { |
340 | if (counter==0) | |
341 | { | |
4c162f44 | 342 | jethighest = fOutput->GetJet(appjet[0]); |
343 | jetsecond = fOutput->GetJet(appjet[1]); | |
63131144 | 344 | } |
345 | if (counter>0) | |
346 | { | |
347 | Float_t energyhighest = jethighest->Energy(); | |
348 | Float_t energysecond = jetsecond->Energy(); | |
349 | ||
4c162f44 | 350 | if ((fOutput->GetJet(appjet[counter]))->Energy()>energyhighest) |
63131144 | 351 | { |
352 | jetsecond=jethighest; | |
4c162f44 | 353 | jethighest=fOutput->GetJet(appjet[counter]); |
354 | }else if ((fOutput->GetJet(appjet[counter]))->Energy()>energysecond) | |
63131144 | 355 | { |
4c162f44 | 356 | jetsecond=fOutput->GetJet(appjet[counter]); |
63131144 | 357 | } |
358 | ||
359 | } | |
360 | } | |
361 | }else | |
362 | { | |
4c162f44 | 363 | Float_t eta = fOutput->GetJet(0)->Eta(); |
364 | Float_t phi = fOutput->GetJet(0)->Phi(); | |
365 | if (eta > -0.7 && eta < 0.7 && phi > 1./3.*TMath::Pi() && phi < TMath::Pi()) | |
366 | { // Then jet is applicable | |
367 | jethighest=fOutput->GetJet(0); | |
368 | jetsecond=0; | |
369 | }else | |
370 | { | |
371 | Error("FillFromOutput","There is only one jet and it isn't in the area of applicability"); | |
372 | } | |
373 | ||
63131144 | 374 | } |
375 | if ( 95.0 < jethighest->Energy() && jethighest->Energy() < 105.0 ) | |
376 | { | |
377 | doesJetMeetBinCriteria = 1; | |
378 | fhRecoBinJetEt->Fill(jethighest->Energy()); | |
379 | fhRecoBinInputJetEt->Fill(et); | |
380 | } | |
4c162f44 | 381 | fhInputOutput->Fill(et,jethighest->Energy()); |
63131144 | 382 | |
383 | } | |
384 | ||
1050d19e | 385 | if (numappjet > 1) |
185da5d3 | 386 | { |
387 | //========================= CASE 2 =========================== | |
388 | Int_t nPartons = fOutput->GetNPartons(); | |
ab01dff2 | 389 | fhNJets2->Fill(fOutput->GetNJets()); |
185da5d3 | 390 | AliEMCALParton* parton; |
185da5d3 | 391 | |
392 | // End finding highest and second highest and continue | |
ab01dff2 | 393 | fhJetEt2->Fill(jethighest->Energy()); |
da2f0870 | 394 | fhJetInvE2->Fill(1.0/jethighest->Energy()); |
ab01dff2 | 395 | fhJetEta2->Fill(jethighest->Eta() ); |
396 | fhJetPhi2->Fill(jethighest->Phi() ); | |
185da5d3 | 397 | if (nPartons ==0) return; |
398 | parton = fOutput->GetParton(0); | |
399 | ||
ab01dff2 | 400 | fhPartonEta2->Fill( parton->Eta() ); |
401 | fhPartonPhi2->Fill( parton->Phi() ); | |
185da5d3 | 402 | |
403 | //hJetEtDiff->Fill( jet->Energy() - parton->Energy() ); | |
ab01dff2 | 404 | fhEtaDiff2->Fill( jethighest->Eta() - parton->Eta() ); |
405 | fhPhiDiff2->Fill( jethighest->Phi() - parton->Phi() ); | |
406 | fhEtaPhiSpread2->Fill(jethighest->Eta()-parton->Eta(),jethighest->Phi() - parton->Phi()); | |
407 | fhJetEtSecond2->Fill(jetsecond->Energy()); | |
408 | fhJetEtRatio2->Fill(jetsecond->Energy()/jethighest->Energy()); | |
409 | fhEtaPhiDist2->Fill( TMath::Sqrt((jethighest->Eta() - jetsecond->Eta())*(jethighest->Eta() - jetsecond->Eta()) | |
185da5d3 | 410 | + (jethighest->Phi() - jetsecond->Phi())*(jethighest->Phi() - jetsecond->Phi()) )); |
411 | /* | |
412 | Float_t *pt,*phi,*eta; | |
413 | Int_t *pdg; | |
414 | pt = new Float_t[parton->GetNTracks()]; | |
415 | eta = new Float_t[parton->GetNTracks()]; | |
416 | phi = new Float_t[parton->GetNTracks()]; | |
417 | pdg = new Int_t[parton->GetNTracks()];*/ | |
418 | ||
419 | ||
420 | ||
421 | Float_t pt[2000]; | |
422 | Float_t eta[2000]; | |
423 | Float_t phi[2000]; | |
424 | Int_t pdg[2000]; | |
425 | ||
426 | parton->GetTrackList(pt,eta,phi,pdg); | |
427 | for(Int_t iT=0; iT< parton->GetNTracks() ; iT++ ) | |
428 | { | |
429 | if ( (eta[iT]-parton->Eta())*(eta[iT]-parton->Eta())+ | |
430 | (phi[iT]-parton->Phi())*(phi[iT]-parton->Phi()) >fConeRadius * fConeRadius ) continue; | |
431 | Double_t tt = 2.0*atan(exp(-eta[iT])); // These names are short to make the equation manageable | |
432 | Double_t rt = 2.0*atan(exp(-parton->Eta())); | |
433 | Double_t ctt = cos(tt); | |
434 | Double_t crt = cos(rt); | |
435 | Double_t stt = sin(tt); | |
436 | Double_t srt = sin(rt); | |
437 | Double_t ctp = cos(phi[iT]); | |
438 | Double_t crp = cos(parton->Phi()); | |
439 | Double_t stp = sin(phi[iT]); | |
440 | Double_t srp = sin(parton->Phi()); | |
63131144 | 441 | //Double_t alpha = acos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); |
442 | Double_t alpha; | |
443 | if (TMath::Abs(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt) > 0.9990) | |
444 | { | |
445 | alpha = 0.0; | |
446 | }else | |
447 | { | |
448 | alpha = TMath::ACos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); | |
449 | } | |
185da5d3 | 450 | Double_t correctp = pt[iT]/stt; |
ab01dff2 | 451 | fhPartonPL2->Fill( correctp*cos(alpha)); |
185da5d3 | 452 | if ( (parton->Eta()-eta[iT])*(parton->Eta()-eta[iT]) + |
453 | (parton->Phi()-phi[iT])*(parton->Phi()-phi[iT]) < 0.2*0.2 ) | |
ab01dff2 | 454 | fhPartonJT2->Fill( correctp*sin(alpha)); |
1515a8af | 455 | fhPartonPT2->Fill(correctp*sin(tt)); |
185da5d3 | 456 | if (fNominalEnergy == 0.0) { |
ab01dff2 | 457 | fhPartonFragmFcn2->Fill( correctp*sin(tt)/parton->Energy() ); |
185da5d3 | 458 | }else |
459 | { | |
ab01dff2 | 460 | fhPartonFragmFcn2->Fill(correctp*sin(tt)/fNominalEnergy); |
63131144 | 461 | } |
462 | if (doesJetMeetBinCriteria) | |
463 | { | |
464 | fhRecoBinPartonPt->Fill(correctp*sin(tt)); // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); | |
185da5d3 | 465 | } |
466 | }// loop over tracks | |
467 | ||
468 | /* | |
469 | pt = new Float_t[jet->NTracks()]; | |
470 | eta = new Float_t[jet->NTracks()]; | |
471 | phi = new Float_t[jet->NTracks()]; | |
472 | pdg = new Int_t[jet->NTracks()];*/ | |
473 | jethighest->TrackList(pt,eta,phi,pdg); | |
474 | for(Int_t iT=0; iT< jethighest->NTracks() ; iT++ ) | |
475 | { | |
476 | Double_t tt = 2.0*atan(exp(-eta[iT])); // These names are short to make the equation manageable | |
477 | Double_t rt = 2.0*atan(exp(-jethighest->Eta())); | |
478 | Double_t ctt = cos(tt); | |
479 | Double_t crt = cos(rt); | |
480 | Double_t stt = sin(tt); | |
481 | Double_t srt = sin(rt); | |
482 | Double_t ctp = cos(phi[iT]); | |
483 | Double_t crp = cos(jethighest->Phi()); | |
484 | Double_t stp = sin(phi[iT]); | |
485 | Double_t srp = sin(jethighest->Phi()); | |
63131144 | 486 | // Double_t alpha = acos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); |
487 | Double_t alpha; | |
488 | if (TMath::Abs(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt) > 0.9990) | |
489 | { | |
490 | alpha = 0.0; | |
491 | }else | |
492 | { | |
493 | alpha = TMath::ACos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); | |
494 | } | |
185da5d3 | 495 | Double_t correctp = pt[iT]/stt; |
ab01dff2 | 496 | fhJetPL2->Fill( correctp*cos(alpha)); |
185da5d3 | 497 | if ( (jethighest->Eta()-eta[iT])*(jethighest->Eta()-eta[iT]) + |
498 | (jethighest->Phi()-phi[iT])*(jethighest->Phi()-phi[iT]) < 0.2*0.2 ) | |
ab01dff2 | 499 | fhJetJT2->Fill( correctp*sin(alpha)); |
1515a8af | 500 | fhJetPT2->Fill(correctp*sin(tt)); |
185da5d3 | 501 | if (fNominalEnergy==0.0){ |
da2f0870 | 502 | fhFragmFcn2->Fill( correctp*sin(tt)/jethighest->Energy() ); |
185da5d3 | 503 | } else |
504 | { | |
ab01dff2 | 505 | fhFragmFcn2->Fill( correctp*sin(tt)/fNominalEnergy ); |
185da5d3 | 506 | } |
63131144 | 507 | if (doesJetMeetBinCriteria) |
508 | { | |
509 | fhRecoBinPt->Fill(correctp*sin(tt)); // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); | |
510 | } | |
185da5d3 | 511 | }// loop over tracks |
512 | } | |
513 | ||
1050d19e | 514 | if (numappjet == 1) |
185da5d3 | 515 | { |
516 | ||
517 | //========================= CASE 1 =========================== | |
518 | Int_t nPartons = fOutput->GetNPartons(); | |
f7d5860b | 519 | if (fOutput->GetNJets()!=1) return; |
520 | AliEMCALParton* parton; | |
521 | AliEMCALJet* jet; | |
1050d19e | 522 | jet = jethighest;//fOutput->GetJet(0); |
ab01dff2 | 523 | fhJetEt->Fill(jet->Energy()); |
da2f0870 | 524 | fhJetInvE->Fill(1.0/jethighest->Energy()); |
ab01dff2 | 525 | fhJetEta->Fill(jet->Eta() ); |
526 | fhJetPhi->Fill(jet->Phi() ); | |
f7d5860b | 527 | if (nPartons ==0) return; |
528 | parton = fOutput->GetParton(0); | |
185da5d3 | 529 | |
ab01dff2 | 530 | fhPartonEta->Fill( parton->Eta() ); |
531 | fhPartonPhi->Fill( parton->Phi() ); | |
f7d5860b | 532 | |
533 | //hJetEtDiff->Fill( jet->Energy() - parton->Energy() ); | |
ab01dff2 | 534 | fhEtaDiff->Fill( jet->Eta() - parton->Eta() ); |
535 | fhPhiDiff->Fill( jet->Phi() - parton->Phi() ); | |
536 | fhEtaPhiSpread->Fill(jet->Eta()-parton->Eta(),jet->Phi() - parton->Phi()); | |
f7d5860b | 537 | /* |
538 | Float_t *pt,*phi,*eta; | |
539 | Int_t *pdg; | |
540 | pt = new Float_t[parton->GetNTracks()]; | |
541 | eta = new Float_t[parton->GetNTracks()]; | |
542 | phi = new Float_t[parton->GetNTracks()]; | |
543 | pdg = new Int_t[parton->GetNTracks()];*/ | |
544 | ||
545 | ||
546 | ||
547 | Float_t pt[2000]; | |
548 | Float_t eta[2000]; | |
549 | Float_t phi[2000]; | |
550 | Int_t pdg[2000]; | |
551 | ||
552 | parton->GetTrackList(pt,eta,phi,pdg); | |
553 | for(Int_t iT=0; iT< parton->GetNTracks() ; iT++ ) | |
554 | { | |
555 | if ( (eta[iT]-parton->Eta())*(eta[iT]-parton->Eta())+ | |
556 | (phi[iT]-parton->Phi())*(phi[iT]-parton->Phi()) >fConeRadius * fConeRadius ) continue; | |
557 | Double_t tt = 2.0*atan(exp(-eta[iT])); // These names are short to make the equation manageable | |
558 | Double_t rt = 2.0*atan(exp(-parton->Eta())); | |
559 | Double_t ctt = cos(tt); | |
560 | Double_t crt = cos(rt); | |
561 | Double_t stt = sin(tt); | |
562 | Double_t srt = sin(rt); | |
563 | Double_t ctp = cos(phi[iT]); | |
564 | Double_t crp = cos(parton->Phi()); | |
565 | Double_t stp = sin(phi[iT]); | |
566 | Double_t srp = sin(parton->Phi()); | |
63131144 | 567 | // Double_t alpha = acos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); |
568 | Double_t alpha; | |
569 | if (TMath::Abs(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt) > 0.9990) | |
570 | { | |
571 | alpha = 0.0; | |
572 | }else | |
573 | { | |
574 | alpha = TMath::ACos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); } | |
f7d5860b | 575 | Double_t correctp = pt[iT]/stt; |
ab01dff2 | 576 | fhPartonPL->Fill( correctp*cos(alpha)); |
f7d5860b | 577 | if ( (parton->Eta()-eta[iT])*(parton->Eta()-eta[iT]) + |
578 | (parton->Phi()-phi[iT])*(parton->Phi()-phi[iT]) < 0.2*0.2 ) | |
ab01dff2 | 579 | fhPartonJT->Fill( correctp*sin(alpha)); |
f7d5860b | 580 | if (fNominalEnergy == 0.0) { |
ab01dff2 | 581 | fhPartonFragmFcn->Fill( correctp*sin(tt)/parton->Energy() ); |
1515a8af | 582 | fhPartonPT->Fill(correctp*sin(tt)); |
f7d5860b | 583 | }else |
584 | { | |
ab01dff2 | 585 | fhPartonFragmFcn->Fill(correctp*sin(tt)/fNominalEnergy); |
f7d5860b | 586 | } |
63131144 | 587 | if (doesJetMeetBinCriteria) |
588 | { | |
589 | fhRecoBinPartonPt->Fill(correctp*sin(tt)); // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); | |
590 | } | |
f7d5860b | 591 | }// loop over tracks |
592 | ||
593 | /* | |
594 | pt = new Float_t[jet->NTracks()]; | |
595 | eta = new Float_t[jet->NTracks()]; | |
596 | phi = new Float_t[jet->NTracks()]; | |
597 | pdg = new Int_t[jet->NTracks()];*/ | |
598 | jet->TrackList(pt,eta,phi,pdg); | |
599 | for(Int_t iT=0; iT< jet->NTracks() ; iT++ ) | |
600 | { | |
601 | Double_t tt = 2.0*atan(exp(-eta[iT])); // These names are short to make the equation manageable | |
602 | Double_t rt = 2.0*atan(exp(-jet->Eta())); | |
603 | Double_t ctt = cos(tt); | |
604 | Double_t crt = cos(rt); | |
605 | Double_t stt = sin(tt); | |
606 | Double_t srt = sin(rt); | |
607 | Double_t ctp = cos(phi[iT]); | |
608 | Double_t crp = cos(jet->Phi()); | |
609 | Double_t stp = sin(phi[iT]); | |
610 | Double_t srp = sin(jet->Phi()); | |
63131144 | 611 | //Info("plots","acos(%1.16f)\nstt=%f\npt=%f",crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt,stt,pt[iT]); |
612 | //Info("plots","diff to 1 %f",1.0-crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); | |
613 | Double_t alpha; | |
614 | if (TMath::Abs(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt) > 0.9990) | |
615 | { | |
616 | alpha = 0.0; | |
617 | }else | |
618 | { | |
619 | alpha = TMath::ACos(crp*ctp*srt*stt+srp*stp*srt*stt+crt*ctt); | |
620 | } | |
f7d5860b | 621 | Double_t correctp = pt[iT]/stt; |
ab01dff2 | 622 | fhJetPL->Fill( correctp*cos(alpha)); |
f7d5860b | 623 | if ( (jet->Eta()-eta[iT])*(jet->Eta()-eta[iT]) + |
624 | (jet->Phi()-phi[iT])*(jet->Phi()-phi[iT]) < 0.2*0.2 ) | |
ab01dff2 | 625 | fhJetJT->Fill( correctp*sin(alpha)); |
1515a8af | 626 | fhJetPT->Fill(correctp*sin(tt)); |
f7d5860b | 627 | if (fNominalEnergy==0.0){ |
da2f0870 | 628 | fhFragmFcn->Fill( correctp*sin(tt)/jet->Energy() ); // This is the jet fragmentation function |
f7d5860b | 629 | } else |
630 | { | |
ab01dff2 | 631 | fhFragmFcn->Fill( correctp*sin(tt)/fNominalEnergy ); |
f7d5860b | 632 | } |
63131144 | 633 | if (doesJetMeetBinCriteria) |
634 | { | |
635 | fhRecoBinPt->Fill(correctp*sin(tt)); // ("fhRecoBinPt","Reconstructed Pt Distribution",100,0,1); | |
636 | } | |
f7d5860b | 637 | }// loop over tracks |
185da5d3 | 638 | } |
f7d5860b | 639 | } |
640 | ||
641 |