Fixed warnings + moved filling of histograms
[u/mrichter/AliRoot.git] / PWG0 / dNdPt / AlidNdPtCorrection.cxx
CommitLineData
0aaa8b91 1/**************************************************************************\r
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
3 * *\r
4 * Author: The ALICE Off-line Project. *\r
5 * Contributors are mentioned in the code where appropriate. *\r
6 * *\r
7 * Permission to use, copy, modify and distribute this software and its *\r
8 * documentation strictly for non-commercial purposes is hereby granted *\r
9 * without fee, provided that the above copyright notice appears in all *\r
10 * copies and that both the copyright notice and this permission notice *\r
11 * appear in the supporting documentation. The authors make no claims *\r
12 * about the suitability of this software for any purpose. It is *\r
13 * provided "as is" without express or implied warranty. *\r
14 **************************************************************************/\r
00b81913 15//------------------------------------------------------------------------------\r
16// AlidNdPtCorrection class:\r
17//\r
18// a. functionality:\r
19// - applies corrections on dNdPt spectra\r
20// - fills corrected dNdPt histograms\r
21// - fills correction control histograms \r
22//\r
23// b. data members:\r
24// - dNdPt spectra before and after correction procedure\r
25// - control histograms\r
26// - correction matrices (must be loaded)\r
27// \r
28// Author: J.Otwinowski 04/11/2008 \r
29//------------------------------------------------------------------------------\r
0aaa8b91 30\r
31#include "TFile.h"\r
0aaa8b91 32#include "TH1.h"\r
33#include "TH2.h"\r
34\r
35#include "AliHeader.h" \r
36#include "AliGenEventHeader.h" \r
37#include "AliStack.h" \r
38#include "AliESDEvent.h" \r
39#include "AliMCEvent.h" \r
40#include "AliESDtrackCuts.h" \r
41#include "AliLog.h" \r
15b7cc05 42#include "AliMultiplicity.h"\r
43#include "AliTracker.h"\r
0aaa8b91 44\r
45#include "AlidNdPtEventCuts.h"\r
46#include "AlidNdPtAcceptanceCuts.h"\r
d269b0e6 47#include "AliPhysicsSelection.h"\r
0aaa8b91 48\r
bad4ba69 49#include "AliPWG0Helper.h"\r
50#include "AlidNdPtHelper.h"\r
0aaa8b91 51#include "AlidNdPtCorrection.h"\r
52\r
53using namespace std;\r
54\r
55ClassImp(AlidNdPtCorrection)\r
56\r
57//_____________________________________________________________________________\r
58//AlidNdPtCorrection::AlidNdPtCorrection(): TNamed(),\r
59 AlidNdPtCorrection::AlidNdPtCorrection(): AlidNdPt(),\r
60 fCorrectionFolder(0),\r
61 fMCEventHist1(0),\r
62 fRecEventHist1(0),\r
63 fMCAllEventMultHist1(0),\r
64 fMCAllNDEventMultHist1(0),\r
65 fMCAllNSDEventMultHist1(0),\r
66 fMCTriggerMultHist1(0),\r
67 fMCEventMultHist1(0),\r
68 fMCAllPrimTrackMultHist1(0),\r
69 fMCNDEventAllPrimTrackMultHist1(0),\r
70 fMCNSDEventAllPrimTrackMultHist1(0),\r
71 fMCTriggerPrimTrackMultHist1(0),\r
72 fMCEventPrimTrackMultHist1(0),\r
15b7cc05 73 fMCAllPrimTrackTrueMultHist1(0),\r
74 fMCNDEventAllPrimTrackTrueMultHist1(0),\r
75 fMCNSDEventAllPrimTrackTrueMultHist1(0),\r
76 fMCTriggerPrimTrackTrueMultHist1(0),\r
77 fMCEventPrimTrackTrueMultHist1(0),\r
78 fMCAllPrimTrackMeanPtMult1(0),\r
79 fMCNDEventAllPrimTrackMeanPtMult1(0),\r
80 fMCNSDEventAllPrimTrackMeanPtMult1(0),\r
81 fMCTriggerPrimTrackMeanPtMult1(0),\r
82 fMCEventPrimTrackMeanPtMult1(0),\r
83 fMCAllPrimTrackMeanPtTrueMult1(0),\r
84 fMCNDEventAllPrimTrackMeanPtTrueMult1(0),\r
85 fMCNSDEventAllPrimTrackMeanPtTrueMult1(0),\r
86 fMCTriggerPrimTrackMeanPtTrueMult1(0),\r
87 fMCEventPrimTrackMeanPtTrueMult1(0),\r
0aaa8b91 88 fEventMultCorrelationMatrix(0),\r
89 fZvNorm(0),\r
90 fZvEmptyEventsNorm(0),\r
91 fCorrTriggerMBtoInelEventMatrix(0),\r
92 fCorrTriggerMBtoNDEventMatrix(0),\r
93 fCorrTriggerMBtoNSDEventMatrix(0),\r
94 fCorrEventMatrix(0),\r
95 fCorrTriggerMBtoInelTrackEventMatrix(0),\r
96 fCorrTriggerMBtoNDTrackEventMatrix(0),\r
97 fCorrTriggerMBtoNSDTrackEventMatrix(0),\r
98 fCorrTrackEventMatrix(0),\r
99 fCorrTrackMatrix(0),\r
15b7cc05 100 fCorrHighPtTrackMatrix(0),\r
0aaa8b91 101 fContTrackMatrix(0),\r
102 fContMultTrackMatrix(0),\r
d269b0e6 103 fCorrMatrixFileName(""),\r
104 fCosmicsHisto(0)\r
0aaa8b91 105{\r
106 // default constructor\r
107 for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
108 fRecTrackHist1[i]=0; \r
109 }\r
110\r
111 for(Int_t i=0; i<8; i++) { \r
112 fCorrRecTrackMultHist1[i] = 0;\r
15b7cc05 113 fCorrRecTrackTrueMultHist1[i] = 0;\r
114 fCorrRecTrackMeanPtMultHist1[i] = 0;\r
115 fCorrRecTrackMeanPtTrueMultHist1[i] = 0;\r
116 fCorrRecTrackPt1[i] = 0;\r
0aaa8b91 117 }\r
118\r
119 for(Int_t i=0; i<5; i++) { \r
120 fCorrRecEventHist1[i] = 0;\r
121 fCorrRecEventHist2[i] = 0;\r
122 }\r
123\r
124 Init();\r
125}\r
126\r
127//_____________________________________________________________________________\r
128AlidNdPtCorrection::AlidNdPtCorrection(Char_t* name, Char_t* title, TString corrMatrixFileName): AlidNdPt(name,title),\r
129 fCorrectionFolder(0),\r
130 fMCEventHist1(0),\r
131 fRecEventHist1(0),\r
132 fMCAllEventMultHist1(0),\r
133 fMCAllNDEventMultHist1(0),\r
134 fMCAllNSDEventMultHist1(0),\r
135 fMCTriggerMultHist1(0),\r
136 fMCEventMultHist1(0),\r
137 fMCAllPrimTrackMultHist1(0),\r
138 fMCNDEventAllPrimTrackMultHist1(0),\r
139 fMCNSDEventAllPrimTrackMultHist1(0),\r
140 fMCTriggerPrimTrackMultHist1(0),\r
141 fMCEventPrimTrackMultHist1(0),\r
15b7cc05 142 fMCAllPrimTrackTrueMultHist1(0),\r
143 fMCNDEventAllPrimTrackTrueMultHist1(0),\r
144 fMCNSDEventAllPrimTrackTrueMultHist1(0),\r
145 fMCTriggerPrimTrackTrueMultHist1(0),\r
146 fMCEventPrimTrackTrueMultHist1(0),\r
147 fMCAllPrimTrackMeanPtMult1(0),\r
148 fMCNDEventAllPrimTrackMeanPtMult1(0),\r
149 fMCNSDEventAllPrimTrackMeanPtMult1(0),\r
150 fMCTriggerPrimTrackMeanPtMult1(0),\r
151 fMCEventPrimTrackMeanPtMult1(0),\r
152 fMCAllPrimTrackMeanPtTrueMult1(0),\r
153 fMCNDEventAllPrimTrackMeanPtTrueMult1(0),\r
154 fMCNSDEventAllPrimTrackMeanPtTrueMult1(0),\r
155 fMCTriggerPrimTrackMeanPtTrueMult1(0),\r
156 fMCEventPrimTrackMeanPtTrueMult1(0),\r
0aaa8b91 157 fEventMultCorrelationMatrix(0),\r
158 fZvNorm(0),\r
159 fZvEmptyEventsNorm(0),\r
160 fCorrTriggerMBtoInelEventMatrix(0),\r
161 fCorrTriggerMBtoNDEventMatrix(0),\r
162 fCorrTriggerMBtoNSDEventMatrix(0),\r
163 fCorrEventMatrix(0),\r
164 fCorrTriggerMBtoInelTrackEventMatrix(0),\r
165 fCorrTriggerMBtoNDTrackEventMatrix(0),\r
166 fCorrTriggerMBtoNSDTrackEventMatrix(0),\r
167 fCorrTrackEventMatrix(0),\r
168 fCorrTrackMatrix(0),\r
15b7cc05 169 fCorrHighPtTrackMatrix(0),\r
0aaa8b91 170 fContTrackMatrix(0),\r
171 fContMultTrackMatrix(0),\r
d269b0e6 172 fCorrMatrixFileName(corrMatrixFileName),\r
173 fCosmicsHisto(0)\r
0aaa8b91 174{\r
175 // constructor\r
176 for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
177 fRecTrackHist1[i]=0; \r
178 }\r
179\r
180 for(Int_t i=0; i<8; i++) { \r
181 fCorrRecTrackMultHist1[i] = 0;\r
15b7cc05 182 fCorrRecTrackTrueMultHist1[i] = 0;\r
183 fCorrRecTrackMeanPtMultHist1[i] = 0;\r
184 fCorrRecTrackMeanPtTrueMultHist1[i] = 0;\r
185 fCorrRecTrackPt1[i] = 0;\r
0aaa8b91 186 }\r
187\r
188 for(Int_t i=0; i<5; i++) { \r
189 fCorrRecEventHist1[i] = 0;\r
190 fCorrRecEventHist2[i] = 0;\r
191 }\r
192\r
193 Init();\r
194}\r
195\r
196//_____________________________________________________________________________\r
197AlidNdPtCorrection::~AlidNdPtCorrection() {\r
198 // \r
199 // destructor\r
200 //\r
201 if(fMCEventHist1) delete fMCEventHist1; fMCEventHist1=0;\r
202 if(fRecEventHist1) delete fRecEventHist1; fRecEventHist1=0;\r
203\r
204 if(fMCAllEventMultHist1) delete fMCAllEventMultHist1; fMCAllEventMultHist1=0;\r
205 if(fMCAllNDEventMultHist1) delete fMCAllNDEventMultHist1; fMCAllNDEventMultHist1=0;\r
206 if(fMCAllNSDEventMultHist1) delete fMCAllNSDEventMultHist1; fMCAllNSDEventMultHist1=0;\r
207 if(fMCTriggerMultHist1) delete fMCTriggerMultHist1; fMCTriggerMultHist1=0;\r
208 if(fMCEventMultHist1) delete fMCEventMultHist1; fMCEventMultHist1=0;\r
209\r
210 if(fMCAllPrimTrackMultHist1) delete fMCAllPrimTrackMultHist1; fMCAllPrimTrackMultHist1=0;\r
211 if(fMCNDEventAllPrimTrackMultHist1) delete fMCNDEventAllPrimTrackMultHist1; fMCNDEventAllPrimTrackMultHist1=0;\r
212 if(fMCNSDEventAllPrimTrackMultHist1) delete fMCNSDEventAllPrimTrackMultHist1; fMCNSDEventAllPrimTrackMultHist1=0;\r
213 if(fMCTriggerPrimTrackMultHist1) delete fMCTriggerPrimTrackMultHist1; fMCTriggerPrimTrackMultHist1=0;\r
214 if(fMCEventPrimTrackMultHist1) delete fMCEventPrimTrackMultHist1; fMCEventPrimTrackMultHist1=0;\r
15b7cc05 215\r
216 if(fMCAllPrimTrackTrueMultHist1) delete fMCAllPrimTrackTrueMultHist1; fMCAllPrimTrackTrueMultHist1=0;\r
217 if(fMCNDEventAllPrimTrackTrueMultHist1) delete fMCNDEventAllPrimTrackTrueMultHist1; fMCNDEventAllPrimTrackTrueMultHist1=0;\r
218 if(fMCNSDEventAllPrimTrackTrueMultHist1) delete fMCNSDEventAllPrimTrackTrueMultHist1; fMCNSDEventAllPrimTrackTrueMultHist1=0;\r
219 if(fMCTriggerPrimTrackTrueMultHist1) delete fMCTriggerPrimTrackTrueMultHist1; fMCTriggerPrimTrackTrueMultHist1=0;\r
220 if(fMCEventPrimTrackTrueMultHist1) delete fMCEventPrimTrackTrueMultHist1; fMCEventPrimTrackTrueMultHist1=0;\r
221\r
222 if(fMCAllPrimTrackMeanPtMult1) delete fMCAllPrimTrackMeanPtMult1; fMCAllPrimTrackMeanPtMult1=0;\r
223 if(fMCNDEventAllPrimTrackMeanPtMult1) delete fMCNDEventAllPrimTrackMeanPtMult1; fMCNDEventAllPrimTrackMeanPtMult1=0;\r
224 if(fMCNSDEventAllPrimTrackMeanPtMult1) delete fMCNSDEventAllPrimTrackMeanPtMult1; fMCNSDEventAllPrimTrackMeanPtMult1=0;\r
225 if(fMCTriggerPrimTrackMeanPtMult1) delete fMCTriggerPrimTrackMeanPtMult1; fMCTriggerPrimTrackMeanPtMult1=0;\r
226 if(fMCEventPrimTrackMeanPtMult1) delete fMCEventPrimTrackMeanPtMult1; fMCEventPrimTrackMeanPtMult1=0;\r
227\r
228 if(fMCAllPrimTrackMeanPtTrueMult1) delete fMCAllPrimTrackMeanPtTrueMult1; fMCAllPrimTrackMeanPtTrueMult1=0;\r
229 if(fMCNDEventAllPrimTrackMeanPtTrueMult1) delete fMCNDEventAllPrimTrackMeanPtTrueMult1; fMCNDEventAllPrimTrackMeanPtTrueMult1=0;\r
230 if(fMCNSDEventAllPrimTrackMeanPtTrueMult1) delete fMCNSDEventAllPrimTrackMeanPtTrueMult1; fMCNSDEventAllPrimTrackMeanPtTrueMult1=0;\r
231 if(fMCTriggerPrimTrackMeanPtTrueMult1) delete fMCTriggerPrimTrackMeanPtTrueMult1; fMCTriggerPrimTrackMeanPtTrueMult1=0;\r
232 if(fMCEventPrimTrackMeanPtTrueMult1) delete fMCEventPrimTrackMeanPtTrueMult1; fMCEventPrimTrackMeanPtTrueMult1=0;\r
233\r
d269b0e6 234 if(fCosmicsHisto) delete fCosmicsHisto; fCosmicsHisto=0;\r
0aaa8b91 235\r
236 for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) { \r
237 if(fRecTrackHist1[i]) delete fRecTrackHist1[i]; fRecTrackHist1[i]=0;\r
238 }\r
239\r
240 for(Int_t i=0; i<8; i++) { \r
241 if(fCorrRecTrackMultHist1[i]) delete fCorrRecTrackMultHist1[i]; fCorrRecTrackMultHist1[i]=0;\r
15b7cc05 242 if(fCorrRecTrackTrueMultHist1[i]) delete fCorrRecTrackTrueMultHist1[i]; fCorrRecTrackTrueMultHist1[i]=0;\r
243 if(fCorrRecTrackMeanPtMultHist1[i]) delete fCorrRecTrackMeanPtMultHist1[i]; fCorrRecTrackMeanPtMultHist1[i]=0;\r
244 if(fCorrRecTrackMeanPtTrueMultHist1[i]) delete fCorrRecTrackMeanPtTrueMultHist1[i]; fCorrRecTrackMeanPtTrueMultHist1[i]=0;\r
245 if(fCorrRecTrackPt1[i]) delete fCorrRecTrackPt1[i]; fCorrRecTrackPt1[i]=0;\r
0aaa8b91 246 }\r
247\r
248 for(Int_t i=0; i<5; i++) { \r
249 if(fCorrRecEventHist1[i]) delete fCorrRecEventHist1[i]; fCorrRecEventHist1[i]=0;\r
250 if(fCorrRecEventHist2[i]) delete fCorrRecEventHist2[i]; fCorrRecEventHist2[i]=0;\r
251 }\r
252\r
253 if(fCorrectionFolder) delete fCorrectionFolder; fCorrectionFolder=0;\r
0aaa8b91 254}\r
255\r
256//_____________________________________________________________________________\r
257void AlidNdPtCorrection::Init(){\r
258 //\r
259 // Init histograms\r
260 //\r
261 const Int_t etaNbins = 30; \r
262 const Int_t zvNbins = 12;\r
263\r
264 // UA1 bining\r
265 //const Int_t ptNbins = 52; \r
266 //Double_t binsPt[ptNbins+1] = { 0.20, 0.30, 0.40, 0.50, 0.60, 0.70, 0.80, 0.90, 1.00, 1.10, 1.20, 1.30, 1.40, 1.50, 1.60, 1.70, 1.80, 1.90, 2.00, 2.10, 2.20, 2.30, 2.40, 2.50, 2.60, 2.70, 2.80, 2.90, 3.00, 3.10, 3.20, 3.30, 3.40, 3.50, 3.60, 3.70, 3.80, 3.90, 4.00, 4.20, 4.40, 4.60, 4.80, 5.00, 5.20, 5.40, 5.60, 5.80, 6.00, 7.00, 7.60, 8.80, 9.60 }; \r
267\r
268 const Int_t ptNbins = 56; \r
269 Double_t binsPt[ptNbins+1] = {0.,0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.4,0.45,0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.9,0.95,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.2,2.4,2.6,2.8,3.0,3.2,3.4,3.6,3.8,4.0,4.5,5.0,5.5,6.0,6.5,7.0,7.5,8.0,9.0,10.0,11.0,12.0,13.0,14.0,15.0,16.0};\r
270 Double_t binsEta[etaNbins+1] = {-1.5,-1.4,-1.3,-1.2,-1.1,-1.0,-0.9,-0.8,-0.7,-0.6,-0.5,-0.4,-0.3,-0.2,-0.1,0.,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5};\r
271 Double_t binsZv[zvNbins+1] = {-30.,-25.,-20.,-15.,-10.,-5.,0.,5.,10.,15.,20.,25.,30.};\r
272\r
0aaa8b91 273\r
274 //\r
275 Int_t binsMCEventHist1[3]={100,100,140};\r
276 Double_t minMCEventHist1[3]={-0.1,-0.1,-35.}; \r
277 Double_t maxMCEventHist1[3]={0.1,0.1,35.}; \r
278 fMCEventHist1 = new THnSparseF("fMCEventHist1","mcXv:mcYv:mcZv",3,binsMCEventHist1,minMCEventHist1,maxMCEventHist1);\r
279 fMCEventHist1->GetAxis(0)->SetTitle("mcXv (cm)");\r
280 fMCEventHist1->GetAxis(1)->SetTitle("mcYv (cm)");\r
281 fMCEventHist1->GetAxis(2)->SetTitle("mcZv (cm)");\r
282 fMCEventHist1->Sumw2();\r
283\r
284 //\r
285 Int_t binsRecEventHist1[3]={100,100,140};\r
286 Double_t minRecEventHist1[3]={-3.,-3.,-35.}; \r
287 Double_t maxRecEventHist1[3]={3.,3.,35.}; \r
288 fRecEventHist1 = new THnSparseF("fRecEventHist1","Xv:Yv:Zv",3,binsRecEventHist1,minRecEventHist1,maxRecEventHist1);\r
289 fRecEventHist1->GetAxis(0)->SetTitle("Xv (cm)");\r
290 fRecEventHist1->GetAxis(1)->SetTitle("Yv (cm)");\r
291 fRecEventHist1->GetAxis(2)->SetTitle("Zv (cm)");\r
292 fRecEventHist1->Sumw2();\r
293\r
294 //\r
295 char name[256];\r
296 char title[256];\r
297\r
298 Int_t binsMCAllPrimTrackMultHist1[3]={ptNbins,etaNbins,150};\r
299 Double_t minMCAllPrimTrackMultHist1[3]={0.,-1.,-0.5}; \r
300 Double_t maxMCAllPrimTrackMultHist1[3]={20.,1.,149.5}; \r
301 sprintf(name,"fMCAllPrimTrackMultHist1");\r
302 sprintf(title,"mcPt:mcEta:multiplicity");\r
303 \r
304 fMCAllPrimTrackMultHist1 = new THnSparseF(name,title,3,binsMCAllPrimTrackMultHist1,minMCAllPrimTrackMultHist1,maxMCAllPrimTrackMultHist1);\r
305 fMCAllPrimTrackMultHist1->SetBinEdges(0,binsPt);\r
306 fMCAllPrimTrackMultHist1->SetBinEdges(1,binsEta);\r
307 fMCAllPrimTrackMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
308 fMCAllPrimTrackMultHist1->GetAxis(1)->SetTitle("mcEta");\r
309 fMCAllPrimTrackMultHist1->GetAxis(2)->SetTitle("multiplicity");\r
310 fMCAllPrimTrackMultHist1->Sumw2();\r
311\r
312 Int_t binsMCNDEventAllPrimTrackMultHist1[3]={ptNbins,etaNbins,150};\r
313 Double_t minMCNDEventAllPrimTrackMultHist1[3]={0.,-1.,-0.5}; \r
314 Double_t maxMCNDEventAllPrimTrackMultHist1[3]={20.,1.,149.5}; \r
315 sprintf(name,"fMCNDEventAllPrimTrackMultHist1");\r
316 sprintf(title,"mcPt:mcEta:multiplicity");\r
317 \r
318 fMCNDEventAllPrimTrackMultHist1 = new THnSparseF(name,title,3,binsMCNDEventAllPrimTrackMultHist1,minMCNDEventAllPrimTrackMultHist1,maxMCNDEventAllPrimTrackMultHist1);\r
319 fMCNDEventAllPrimTrackMultHist1->SetBinEdges(0,binsPt);\r
320 fMCNDEventAllPrimTrackMultHist1->SetBinEdges(1,binsEta);\r
321 fMCNDEventAllPrimTrackMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
322 fMCNDEventAllPrimTrackMultHist1->GetAxis(1)->SetTitle("mcEta");\r
323 fMCNDEventAllPrimTrackMultHist1->GetAxis(2)->SetTitle("multiplicity");\r
324 fMCNDEventAllPrimTrackMultHist1->Sumw2();\r
325\r
326 Int_t binsMCNSDEventAllPrimTrackMultHist1[3]={ptNbins,etaNbins,150};\r
327 Double_t minMCNSDEventAllPrimTrackMultHist1[3]={0.,-1.,-0.5}; \r
15b7cc05 328 Double_t maxMCNSDEventAllPrimTrackMultHist1[3]={20.,1.,149.5}; \r
0aaa8b91 329 sprintf(name,"fMCNSDEventAllPrimTrackMultHist1");\r
330 sprintf(title,"mcPt:mcEta:multiplicity");\r
331 \r
332 fMCNSDEventAllPrimTrackMultHist1 = new THnSparseF(name,title,3,binsMCNSDEventAllPrimTrackMultHist1,minMCNSDEventAllPrimTrackMultHist1,maxMCNSDEventAllPrimTrackMultHist1);\r
333 fMCNSDEventAllPrimTrackMultHist1->SetBinEdges(0,binsPt);\r
334 fMCNSDEventAllPrimTrackMultHist1->SetBinEdges(1,binsEta);\r
335 fMCNSDEventAllPrimTrackMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
336 fMCNSDEventAllPrimTrackMultHist1->GetAxis(1)->SetTitle("mcEta");\r
337 fMCNSDEventAllPrimTrackMultHist1->GetAxis(2)->SetTitle("multiplicity");\r
338 fMCNSDEventAllPrimTrackMultHist1->Sumw2();\r
339\r
340 Int_t binsMCEventTriggerPrimTrackMultHist1[3]={ptNbins,etaNbins,150};\r
341 Double_t minMCEventTriggerPrimTrackMultHist1[3]={0.,-1.,-0.5}; \r
342 Double_t maxMCEventTriggerPrimTrackMultHist1[3]={20.,1.,149.5}; \r
343 sprintf(name,"fMCTriggerPrimTrackMultHist1");\r
344 sprintf(title,"mcPt:mcEta:multiplicity");\r
345 \r
346 fMCTriggerPrimTrackMultHist1 = new THnSparseF(name,title,3,binsMCEventTriggerPrimTrackMultHist1,minMCEventTriggerPrimTrackMultHist1,maxMCEventTriggerPrimTrackMultHist1);\r
347 fMCTriggerPrimTrackMultHist1->SetBinEdges(0,binsPt);\r
348 fMCTriggerPrimTrackMultHist1->SetBinEdges(1,binsEta);\r
349 fMCTriggerPrimTrackMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
350 fMCTriggerPrimTrackMultHist1->GetAxis(1)->SetTitle("mcEta");\r
351 fMCTriggerPrimTrackMultHist1->GetAxis(2)->SetTitle("multiplicity");\r
352 fMCTriggerPrimTrackMultHist1->Sumw2();\r
353\r
354 Int_t binsMCEventPrimTrackMultHist1[3]={ptNbins,etaNbins,150};\r
355 Double_t minMCEventPrimTrackMultHist1[3]={0.,-1.,-0.5}; \r
356 Double_t maxMCEventPrimTrackMultHist1[3]={20.,1.,149.5}; \r
357 sprintf(name,"fMCEventPrimTrackMultHist1");\r
358 sprintf(title,"mcPt:mcEta:multiplicity");\r
359 \r
360 fMCEventPrimTrackMultHist1 = new THnSparseF(name,title,3,binsMCEventPrimTrackMultHist1,minMCEventPrimTrackMultHist1,maxMCEventPrimTrackMultHist1);\r
361 fMCEventPrimTrackMultHist1->SetBinEdges(0,binsPt);\r
362 fMCEventPrimTrackMultHist1->SetBinEdges(1,binsEta);\r
363 fMCEventPrimTrackMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
364 fMCEventPrimTrackMultHist1->GetAxis(1)->SetTitle("mcEta");\r
365 fMCEventPrimTrackMultHist1->GetAxis(2)->SetTitle("multiplicity");\r
366 fMCEventPrimTrackMultHist1->Sumw2();\r
367\r
15b7cc05 368 //\r
369 // true multiplicity\r
370 //\r
371\r
372 Int_t binsMCAllPrimTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
373 Double_t minMCAllPrimTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
374 Double_t maxMCAllPrimTrackTrueMultHist1[3]={20.,1.,149.5}; \r
375 sprintf(name,"fMCAllPrimTrackTrueMultHist1");\r
376 sprintf(title,"mcPt:mcEta:true_mult");\r
377 \r
378 fMCAllPrimTrackTrueMultHist1 = new THnSparseF(name,title,3,binsMCAllPrimTrackTrueMultHist1,minMCAllPrimTrackTrueMultHist1,maxMCAllPrimTrackTrueMultHist1);\r
379 fMCAllPrimTrackTrueMultHist1->SetBinEdges(0,binsPt);\r
380 fMCAllPrimTrackTrueMultHist1->SetBinEdges(1,binsEta);\r
381 fMCAllPrimTrackTrueMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
382 fMCAllPrimTrackTrueMultHist1->GetAxis(1)->SetTitle("mcEta");\r
383 fMCAllPrimTrackTrueMultHist1->GetAxis(2)->SetTitle("true_mult");\r
384 fMCAllPrimTrackTrueMultHist1->Sumw2();\r
385\r
386 Int_t binsMCNDEventAllPrimTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
387 Double_t minMCNDEventAllPrimTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
388 Double_t maxMCNDEventAllPrimTrackTrueMultHist1[3]={20.,1.,149.5}; \r
389 sprintf(name,"fMCNDEventAllPrimTrackTrueMultHist1");\r
390 sprintf(title,"mcPt:mcEta:true_mult");\r
391 \r
392 fMCNDEventAllPrimTrackTrueMultHist1 = new THnSparseF(name,title,3,binsMCNDEventAllPrimTrackTrueMultHist1,minMCNDEventAllPrimTrackTrueMultHist1,maxMCNDEventAllPrimTrackTrueMultHist1);\r
393 fMCNDEventAllPrimTrackTrueMultHist1->SetBinEdges(0,binsPt);\r
394 fMCNDEventAllPrimTrackTrueMultHist1->SetBinEdges(1,binsEta);\r
395 fMCNDEventAllPrimTrackTrueMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
396 fMCNDEventAllPrimTrackTrueMultHist1->GetAxis(1)->SetTitle("mcEta");\r
397 fMCNDEventAllPrimTrackTrueMultHist1->GetAxis(2)->SetTitle("true_mult");\r
398 fMCNDEventAllPrimTrackTrueMultHist1->Sumw2();\r
399\r
400 Int_t binsMCNSDEventAllPrimTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
401 Double_t minMCNSDEventAllPrimTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
402 Double_t maxMCNSDEventAllPrimTrackTrueMultHist1[3]={20.,1.,149.5}; \r
403 sprintf(name,"fMCNSDEventAllPrimTrackTrueMultHist1");\r
404 sprintf(title,"mcPt:mcEta:true_mult");\r
405 \r
406 fMCNSDEventAllPrimTrackTrueMultHist1 = new THnSparseF(name,title,3,binsMCNSDEventAllPrimTrackTrueMultHist1,minMCNSDEventAllPrimTrackTrueMultHist1,maxMCNSDEventAllPrimTrackTrueMultHist1);\r
407 fMCNSDEventAllPrimTrackTrueMultHist1->SetBinEdges(0,binsPt);\r
408 fMCNSDEventAllPrimTrackTrueMultHist1->SetBinEdges(1,binsEta);\r
409 fMCNSDEventAllPrimTrackTrueMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
410 fMCNSDEventAllPrimTrackTrueMultHist1->GetAxis(1)->SetTitle("mcEta");\r
411 fMCNSDEventAllPrimTrackTrueMultHist1->GetAxis(2)->SetTitle("true_mult");\r
412 fMCNSDEventAllPrimTrackTrueMultHist1->Sumw2();\r
413\r
414 Int_t binsMCEventTriggerPrimTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
415 Double_t minMCEventTriggerPrimTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
416 Double_t maxMCEventTriggerPrimTrackTrueMultHist1[3]={20.,1.,149.5}; \r
417 sprintf(name,"fMCTriggerPrimTrackTrueMultHist1");\r
418 sprintf(title,"mcPt:mcEta:true_mult");\r
419 \r
420 fMCTriggerPrimTrackTrueMultHist1 = new THnSparseF(name,title,3,binsMCEventTriggerPrimTrackTrueMultHist1,minMCEventTriggerPrimTrackTrueMultHist1,maxMCEventTriggerPrimTrackTrueMultHist1);\r
421 fMCTriggerPrimTrackTrueMultHist1->SetBinEdges(0,binsPt);\r
422 fMCTriggerPrimTrackTrueMultHist1->SetBinEdges(1,binsEta);\r
423 fMCTriggerPrimTrackTrueMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
424 fMCTriggerPrimTrackTrueMultHist1->GetAxis(1)->SetTitle("mcEta");\r
425 fMCTriggerPrimTrackTrueMultHist1->GetAxis(2)->SetTitle("true_mult");\r
426 fMCTriggerPrimTrackTrueMultHist1->Sumw2();\r
427\r
428 Int_t binsMCEventPrimTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
429 Double_t minMCEventPrimTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
430 Double_t maxMCEventPrimTrackTrueMultHist1[3]={20.,1.,149.5}; \r
431 sprintf(name,"fMCEventPrimTrackTrueMultHist1");\r
432 sprintf(title,"mcPt:mcEta:true_mult");\r
433 \r
434 fMCEventPrimTrackTrueMultHist1 = new THnSparseF(name,title,3,binsMCEventPrimTrackTrueMultHist1,minMCEventPrimTrackTrueMultHist1,maxMCEventPrimTrackTrueMultHist1);\r
435 fMCEventPrimTrackTrueMultHist1->SetBinEdges(0,binsPt);\r
436 fMCEventPrimTrackTrueMultHist1->SetBinEdges(1,binsEta);\r
437 fMCEventPrimTrackTrueMultHist1->GetAxis(0)->SetTitle("mcPt (GeV/c)");\r
438 fMCEventPrimTrackTrueMultHist1->GetAxis(1)->SetTitle("mcEta");\r
439 fMCEventPrimTrackTrueMultHist1->GetAxis(2)->SetTitle("true_mult");\r
440 fMCEventPrimTrackTrueMultHist1->Sumw2();\r
441\r
442 //\r
443 // mean pt\r
444 //\r
445 Int_t binsMCAllPrimTrackMeanPtTrueMult1[2]={100,150};\r
446 Double_t minMCAllPrimTrackMeanPtTrueMult1[2]={0.,-0.5}; \r
447 Double_t maxMCAllPrimTrackMeanPtTrueMult1[2]={10.,149.5}; \r
448 sprintf(name,"fMCAllPrimTrackMeanPtTrueMult1");\r
449 sprintf(title,"event <mcPt>:true_mult");\r
450 \r
451 fMCAllPrimTrackMeanPtTrueMult1 = new THnSparseF(name,title,2,binsMCAllPrimTrackMeanPtTrueMult1,minMCAllPrimTrackMeanPtTrueMult1,maxMCAllPrimTrackMeanPtTrueMult1);\r
452 fMCAllPrimTrackMeanPtTrueMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
453 fMCAllPrimTrackMeanPtTrueMult1->GetAxis(1)->SetTitle("true_mult");\r
454 fMCAllPrimTrackMeanPtTrueMult1->Sumw2();\r
455\r
456 Int_t binsMCAllPrimTrackMeanPtMult1[2]={100,150};\r
457 Double_t minMCAllPrimTrackMeanPtMult1[2]={0.,-0.5}; \r
458 Double_t maxMCAllPrimTrackMeanPtMult1[2]={10.,149.5}; \r
459 sprintf(name,"fMCAllPrimTrackMeanPtMult1");\r
460 sprintf(title,"event <mcPt>:mult");\r
461 \r
462 fMCAllPrimTrackMeanPtMult1 = new THnSparseF(name,title,2,binsMCAllPrimTrackMeanPtMult1,minMCAllPrimTrackMeanPtMult1,maxMCAllPrimTrackMeanPtMult1);\r
463 fMCAllPrimTrackMeanPtMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
464 fMCAllPrimTrackMeanPtMult1->GetAxis(1)->SetTitle("multiplicity");\r
465 fMCAllPrimTrackMeanPtMult1->Sumw2();\r
466\r
467 //\r
468 Int_t binsMCNDEventAllPrimTrackMeanPtTrueMult1[2]={100,150};\r
469 Double_t minMCNDEventAllPrimTrackMeanPtTrueMult1[2]={0.,-0.5}; \r
470 Double_t maxMCNDEventAllPrimTrackMeanPtTrueMult1[2]={10.,149.5}; \r
471 sprintf(name,"fMCNDEventAllPrimTrackMeanPtTrueMult1");\r
472 sprintf(title,"event <mcPt>:true_mult");\r
473 \r
474 fMCNDEventAllPrimTrackMeanPtTrueMult1 = new THnSparseF(name,title,2,binsMCNDEventAllPrimTrackMeanPtTrueMult1,minMCNDEventAllPrimTrackMeanPtTrueMult1,maxMCNDEventAllPrimTrackMeanPtTrueMult1);\r
475 fMCNDEventAllPrimTrackMeanPtTrueMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
476 fMCNDEventAllPrimTrackMeanPtTrueMult1->GetAxis(1)->SetTitle("true_mult");\r
477 fMCNDEventAllPrimTrackMeanPtTrueMult1->Sumw2();\r
478\r
479 Int_t binsMCNDEventAllPrimTrackMeanPtMult1[2]={100,150};\r
480 Double_t minMCNDEventAllPrimTrackMeanPtMult1[2]={0.,-0.5}; \r
481 Double_t maxMCNDEventAllPrimTrackMeanPtMult1[2]={10.,149.5}; \r
482 sprintf(name,"fMCNDEventAllPrimTrackMeanPtMult1");\r
483 sprintf(title,"event <mcPt>:mult");\r
484 \r
485 fMCNDEventAllPrimTrackMeanPtMult1 = new THnSparseF(name,title,2,binsMCNDEventAllPrimTrackMeanPtMult1,minMCNDEventAllPrimTrackMeanPtMult1,maxMCNDEventAllPrimTrackMeanPtMult1);\r
486 fMCNDEventAllPrimTrackMeanPtMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
487 fMCNDEventAllPrimTrackMeanPtMult1->GetAxis(1)->SetTitle("multiplicity");\r
488 fMCNDEventAllPrimTrackMeanPtMult1->Sumw2();\r
489\r
490 //\r
491 Int_t binsMCNSDEventAllPrimTrackMeanPtTrueMult1[2]={100,150};\r
492 Double_t minMCNSDEventAllPrimTrackMeanPtTrueMult1[2]={0.,-0.5}; \r
493 Double_t maxMCNSDEventAllPrimTrackMeanPtTrueMult1[2]={10.,149.5}; \r
494 sprintf(name,"fMCNSDEventAllPrimTrackMeanPtTrueMult1");\r
495 sprintf(title,"event <mcPt>:true_mult");\r
496 \r
497 fMCNSDEventAllPrimTrackMeanPtTrueMult1 = new THnSparseF(name,title,2,binsMCNSDEventAllPrimTrackMeanPtTrueMult1,minMCNSDEventAllPrimTrackMeanPtTrueMult1,maxMCNSDEventAllPrimTrackMeanPtTrueMult1);\r
498 fMCNSDEventAllPrimTrackMeanPtTrueMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
499 fMCNSDEventAllPrimTrackMeanPtTrueMult1->GetAxis(1)->SetTitle("true_mult");\r
500 fMCNSDEventAllPrimTrackMeanPtTrueMult1->Sumw2();\r
501\r
502 Int_t binsMCNSDEventAllPrimTrackMeanPtMult1[2]={100,150};\r
503 Double_t minMCNSDEventAllPrimTrackMeanPtMult1[2]={0.,-0.5}; \r
504 Double_t maxMCNSDEventAllPrimTrackMeanPtMult1[2]={10.,149.5}; \r
505 sprintf(name,"fMCNSDEventAllPrimTrackMeanPtMult1");\r
506 sprintf(title,"event <mcPt>:mult");\r
507 \r
508 fMCNSDEventAllPrimTrackMeanPtMult1 = new THnSparseF(name,title,2,binsMCNSDEventAllPrimTrackMeanPtMult1,minMCNSDEventAllPrimTrackMeanPtMult1,maxMCNSDEventAllPrimTrackMeanPtMult1);\r
509 fMCNSDEventAllPrimTrackMeanPtMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
510 fMCNSDEventAllPrimTrackMeanPtMult1->GetAxis(1)->SetTitle("multiplicity");\r
511 fMCNSDEventAllPrimTrackMeanPtMult1->Sumw2();\r
512\r
513 //\r
514 Int_t binsMCTriggerPrimTrackMeanPtTrueMult1[2]={100,150};\r
515 Double_t minMCTriggerPrimTrackMeanPtTrueMult1[2]={0.,-0.5}; \r
516 Double_t maxMCTriggerPrimTrackMeanPtTrueMult1[2]={10.,149.5}; \r
517 sprintf(name,"fMCTriggerPrimTrackMeanPtTrueMult1");\r
518 sprintf(title,"event <mcPt>:true_mult");\r
519 \r
520 fMCTriggerPrimTrackMeanPtTrueMult1 = new THnSparseF(name,title,2,binsMCTriggerPrimTrackMeanPtTrueMult1,minMCTriggerPrimTrackMeanPtTrueMult1,maxMCTriggerPrimTrackMeanPtTrueMult1);\r
521 fMCTriggerPrimTrackMeanPtTrueMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
522 fMCTriggerPrimTrackMeanPtTrueMult1->GetAxis(1)->SetTitle("true_mult");\r
523 fMCTriggerPrimTrackMeanPtTrueMult1->Sumw2();\r
524\r
525 Int_t binsMCTriggerPrimTrackMeanPtMult1[2]={100,150};\r
526 Double_t minMCTriggerPrimTrackMeanPtMult1[2]={0.,-0.5}; \r
527 Double_t maxMCTriggerPrimTrackMeanPtMult1[2]={10.,149.5}; \r
528 sprintf(name,"fMCTriggerPrimTrackMeanPtMult1");\r
529 sprintf(title,"event <mcPt>:mult");\r
530 \r
531 fMCTriggerPrimTrackMeanPtMult1 = new THnSparseF(name,title,2,binsMCTriggerPrimTrackMeanPtMult1,minMCTriggerPrimTrackMeanPtMult1,maxMCTriggerPrimTrackMeanPtMult1);\r
532 fMCTriggerPrimTrackMeanPtMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
533 fMCTriggerPrimTrackMeanPtMult1->GetAxis(1)->SetTitle("multiplicity");\r
534 fMCTriggerPrimTrackMeanPtMult1->Sumw2();\r
535\r
536 //\r
537 Int_t binsMCEventPrimTrackMeanPtTrueMult1[2]={100,150};\r
538 Double_t minMCEventPrimTrackMeanPtTrueMult1[2]={0.,-0.5}; \r
539 Double_t maxMCEventPrimTrackMeanPtTrueMult1[2]={10.,149.5}; \r
540 sprintf(name,"fMCEventPrimTrackMeanPtTrueMult1");\r
541 sprintf(title,"event <mcPt>:true_mult");\r
542 \r
543 fMCEventPrimTrackMeanPtTrueMult1 = new THnSparseF(name,title,2,binsMCEventPrimTrackMeanPtTrueMult1,minMCEventPrimTrackMeanPtTrueMult1,maxMCEventPrimTrackMeanPtTrueMult1);\r
544 fMCEventPrimTrackMeanPtTrueMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
545 fMCEventPrimTrackMeanPtTrueMult1->GetAxis(1)->SetTitle("true_mult");\r
546 fMCEventPrimTrackMeanPtTrueMult1->Sumw2();\r
547\r
548 Int_t binsMCEventPrimTrackMeanPtMult1[2]={100,150};\r
549 Double_t minMCEventPrimTrackMeanPtMult1[2]={0.,-0.5}; \r
550 Double_t maxMCEventPrimTrackMeanPtMult1[2]={10.,149.5}; \r
551 sprintf(name,"fMCEventPrimTrackMeanPtMult1");\r
552 sprintf(title,"event <mcPt>:mult");\r
553 \r
554 fMCEventPrimTrackMeanPtMult1 = new THnSparseF(name,title,2,binsMCEventPrimTrackMeanPtMult1,minMCEventPrimTrackMeanPtMult1,maxMCEventPrimTrackMeanPtMult1);\r
555 fMCEventPrimTrackMeanPtMult1->GetAxis(0)->SetTitle("<mcPt> (GeV/c)");\r
556 fMCEventPrimTrackMeanPtMult1->GetAxis(1)->SetTitle("multiplicity");\r
557 fMCEventPrimTrackMeanPtMult1->Sumw2();\r
558\r
559\r
560\r
561\r
562\r
563\r
564 //\r
0aaa8b91 565 for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) \r
566 {\r
567 // THnSparse track histograms\r
568 //\r
569 Int_t binsRecTrackHist1[3]={ptNbins,etaNbins,90};\r
570 Double_t minRecTrackHist1[3]={0.,-1.,0.}; \r
571 Double_t maxRecTrackHist1[3]={10.,1.,2.*TMath::Pi()};\r
572 sprintf(name,"fRecTrackHist1_%d",i);\r
573 sprintf(title,"Pt:Eta:Phi");\r
574 \r
575 fRecTrackHist1[i] = new THnSparseF(name,title,3,binsRecTrackHist1,minRecTrackHist1,maxRecTrackHist1);\r
576 fRecTrackHist1[i]->SetBinEdges(0,binsPt);\r
577 fRecTrackHist1[i]->SetBinEdges(1,binsEta);\r
578 fRecTrackHist1[i]->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
579 fRecTrackHist1[i]->GetAxis(1)->SetTitle("Eta");\r
580 fRecTrackHist1[i]->GetAxis(2)->SetTitle("Phi (rad)");\r
581 fRecTrackHist1[i]->Sumw2();\r
582 }\r
583\r
15b7cc05 584 //\r
0aaa8b91 585 Int_t binsCorrRecTrackMultHist1[3]={ptNbins,etaNbins,150};\r
586 Double_t minCorrRecTrackMultHist1[3]={0.,-1.,-0.5}; \r
587 Double_t maxCorrRecTrackMultHist1[3]={20.,1.,149.5};\r
bad4ba69 588\r
15b7cc05 589 Int_t binsCorrRecTrackTrueMultHist1[3]={ptNbins,etaNbins,150};\r
590 Double_t minCorrRecTrackTrueMultHist1[3]={0.,-1.,-0.5}; \r
591 Double_t maxCorrRecTrackTrueMultHist1[3]={20.,1.,149.5};\r
592\r
593 //\r
594 Int_t binsCorrRecTrackMeanPtMultHist1[2]={100,150};\r
595 Double_t minCorrRecTrackMeanPtMultHist1[2]={0.,-0.5}; \r
596 Double_t maxCorrRecTrackMeanPtMultHist1[2]={10.,149.5};\r
597\r
598 Int_t binsCorrRecTrackMeanPtTrueMultHist1[2]={100,150};\r
599 Double_t minCorrRecTrackMeanPtTrueMultHist1[2]={0.,-0.5}; \r
600 Double_t maxCorrRecTrackMeanPtTrueMultHist1[2]={10.,149.5};\r
601\r
602 Int_t binsCorrRecTrackPt1[1]={200};\r
603 Double_t minCorrRecTrackPt1[1]={0.}; \r
604 Double_t maxCorrRecTrackPt1[1]={10.};\r
bad4ba69 605\r
0aaa8b91 606 for(Int_t i=0; i<8; i++) \r
607 {\r
608 // THnSparse track histograms\r
609 sprintf(name,"fCorrRecTrackMultHist1_%d",i);\r
610 sprintf(title,"Pt:Eta:mult");\r
611 fCorrRecTrackMultHist1[i] = new THnSparseF(name,title,3,binsCorrRecTrackMultHist1,minCorrRecTrackMultHist1,maxCorrRecTrackMultHist1);\r
612 fCorrRecTrackMultHist1[i]->SetBinEdges(0,binsPt);\r
613 fCorrRecTrackMultHist1[i]->SetBinEdges(1,binsEta);\r
614 fCorrRecTrackMultHist1[i]->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
615 fCorrRecTrackMultHist1[i]->GetAxis(1)->SetTitle("Eta");\r
616 fCorrRecTrackMultHist1[i]->GetAxis(2)->SetTitle("multiplicity");\r
617 fCorrRecTrackMultHist1[i]->Sumw2();\r
bad4ba69 618\r
15b7cc05 619 // THnSparse track histograms\r
620 sprintf(name,"fCorrRecTrackTrueMultHist1_%d",i);\r
621 sprintf(title,"Pt:Eta:true_mult");\r
622 fCorrRecTrackTrueMultHist1[i] = new THnSparseF(name,title,3,binsCorrRecTrackTrueMultHist1,minCorrRecTrackTrueMultHist1,maxCorrRecTrackTrueMultHist1);\r
623 fCorrRecTrackTrueMultHist1[i]->SetBinEdges(0,binsPt);\r
624 fCorrRecTrackTrueMultHist1[i]->SetBinEdges(1,binsEta);\r
625 fCorrRecTrackTrueMultHist1[i]->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
626 fCorrRecTrackTrueMultHist1[i]->GetAxis(1)->SetTitle("Eta");\r
627 fCorrRecTrackTrueMultHist1[i]->GetAxis(2)->SetTitle("true multiplicity");\r
628 fCorrRecTrackTrueMultHist1[i]->Sumw2();\r
629\r
630\r
631 // THnSparse track histograms\r
632 sprintf(name,"fCorrRecTrackMeanPtMultHist1_%d",i);\r
633 sprintf(title,"<Pt>:mult");\r
634 fCorrRecTrackMeanPtMultHist1[i] = new THnSparseF(name,title,2,binsCorrRecTrackMeanPtMultHist1,minCorrRecTrackMeanPtMultHist1,maxCorrRecTrackMeanPtMultHist1);\r
635 fCorrRecTrackMeanPtMultHist1[i]->GetAxis(0)->SetTitle("<Pt> (GeV/c)");\r
636 fCorrRecTrackMeanPtMultHist1[i]->GetAxis(1)->SetTitle("multiplicity");\r
637 fCorrRecTrackMeanPtMultHist1[i]->Sumw2();\r
638\r
639 // THnSparse track histograms\r
640 sprintf(name,"fCorrRecTrackMeanPtTrueMultHist1_%d",i);\r
641 sprintf(title,"<Pt>:true_mult");\r
642 fCorrRecTrackMeanPtTrueMultHist1[i] = new THnSparseF(name,title,2,binsCorrRecTrackMeanPtTrueMultHist1,minCorrRecTrackMeanPtTrueMultHist1,maxCorrRecTrackMeanPtTrueMultHist1);\r
643 fCorrRecTrackMeanPtTrueMultHist1[i]->GetAxis(0)->SetTitle("<Pt> (GeV/c)");\r
644 fCorrRecTrackMeanPtTrueMultHist1[i]->GetAxis(1)->SetTitle("true multiplicity");\r
645 fCorrRecTrackMeanPtTrueMultHist1[i]->Sumw2();\r
646\r
647 sprintf(name,"fCorrRecTrackPt1_%d",i);\r
648 sprintf(title,"pt small bining");\r
649 fCorrRecTrackPt1[i] = new THnSparseF(name,title,1,binsCorrRecTrackPt1,minCorrRecTrackPt1,maxCorrRecTrackPt1);\r
650 fCorrRecTrackPt1[i]->GetAxis(0)->SetTitle("Pt (GeV/c)");\r
651 fCorrRecTrackPt1[i]->Sumw2();\r
652\r
0aaa8b91 653 }\r
654\r
655 Int_t binsEventMatrix[2]={zvNbins,150};\r
656 Double_t minEventMatrix[2]={-25.,-0.5};\r
657 Double_t maxEventMatrix[2]={25.,149.5};\r
658\r
659 fMCAllEventMultHist1 = new THnSparseF("fMCAllEventMultHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
660 fMCAllEventMultHist1->SetBinEdges(0,binsZv);\r
661 fMCAllEventMultHist1->GetAxis(0)->SetTitle("mcZv (cm)");\r
662 fMCAllEventMultHist1->GetAxis(1)->SetTitle("multiplicity");\r
663 fMCAllEventMultHist1->Sumw2();\r
664\r
665 fMCAllNDEventMultHist1 = new THnSparseF("fMCAllNDEventMultHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
666 fMCAllNDEventMultHist1->SetBinEdges(0,binsZv);\r
667 fMCAllNDEventMultHist1->GetAxis(0)->SetTitle("mcZv (cm)");\r
668 fMCAllNDEventMultHist1->GetAxis(1)->SetTitle("multiplicity");\r
669 fMCAllNDEventMultHist1->Sumw2();\r
670\r
671 fMCAllNSDEventMultHist1 = new THnSparseF("fMCAllNSDEventMultHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
672 fMCAllNSDEventMultHist1->SetBinEdges(0,binsZv);\r
673 fMCAllNSDEventMultHist1->GetAxis(0)->SetTitle("mcZv (cm)");\r
674 fMCAllNSDEventMultHist1->GetAxis(1)->SetTitle("multiplicity");\r
675 fMCAllNSDEventMultHist1->Sumw2();\r
676\r
677 fMCTriggerMultHist1 = new THnSparseF("fMCTriggerMultHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
678 fMCTriggerMultHist1->SetBinEdges(0,binsZv);\r
679 fMCTriggerMultHist1->GetAxis(0)->SetTitle("mcZv (cm)");\r
680 fMCTriggerMultHist1->GetAxis(1)->SetTitle("multiplicity");\r
681 fMCTriggerMultHist1->Sumw2();\r
682\r
683 fMCEventMultHist1 = new THnSparseF("fMCEventMultHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
684 fMCEventMultHist1->SetBinEdges(0,binsZv);\r
685 fMCEventMultHist1->GetAxis(0)->SetTitle("mcZv (cm)");\r
686 fMCEventMultHist1->GetAxis(1)->SetTitle("multiplicity");\r
687 fMCEventMultHist1->Sumw2();\r
688\r
689 for(Int_t i=0; i<5; i++) \r
690 {\r
691 // event corrected histograms\r
692 sprintf(name,"fCorrRecEventHist1_%d",i);\r
693 sprintf(title,"mcZv:mult");\r
694 fCorrRecEventHist1[i] = new THnSparseF("fCorrRecEventHist1","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
695 fCorrRecEventHist1[i]->SetBinEdges(0,binsZv);\r
696 fCorrRecEventHist1[i]->GetAxis(0)->SetTitle("Zv (cm)");\r
697 fCorrRecEventHist1[i]->GetAxis(1)->SetTitle("multiplicity");\r
698 fCorrRecEventHist1[i]->Sumw2();\r
699\r
700 // empty event corrected histograms\r
701 sprintf(name,"fCorrRecEventHist2_%d",i);\r
702 sprintf(title,"mcZv:mult");\r
703 fCorrRecEventHist2[i] = new THnSparseF("fCorrRecEventHist2","mcZv:mult",2,binsEventMatrix,minEventMatrix,maxEventMatrix);\r
704 fCorrRecEventHist2[i]->SetBinEdges(0,binsZv);\r
705 fCorrRecEventHist2[i]->GetAxis(0)->SetTitle("Zv (cm)");\r
706 fCorrRecEventHist2[i]->GetAxis(1)->SetTitle("multiplicity");\r
707 fCorrRecEventHist2[i]->Sumw2();\r
708 }\r
d269b0e6 709 \r
710 //\r
711 // cosmics histo\r
712 //\r
713 Int_t binsCosmicsHisto[3]= {151, 300, ptNbins};\r
714 Double_t minCosmicsHisto[3]={-1.5, -2.*TMath::Pi(), 0.0}; \r
715 Double_t maxCosmicsHisto[3]={ 1.5, 2.*TMath::Pi(), 16.0}; \r
716 sprintf(name,"fCosmicsHisto");\r
717 sprintf(title,"deta:dphi:pt");\r
718 \r
719 fCosmicsHisto = new THnSparseF(name,title,3,binsCosmicsHisto,minCosmicsHisto,maxCosmicsHisto);\r
720 fCosmicsHisto->SetBinEdges(2,binsPt);\r
721 fCosmicsHisto->GetAxis(0)->SetTitle("#Delta#eta");\r
722 fCosmicsHisto->GetAxis(1)->SetTitle("#Delta#phi (rad)");\r
723 fCosmicsHisto->GetAxis(2)->SetTitle("pt (GV/c)");\r
724 fCosmicsHisto->Sumw2();\r
0aaa8b91 725\r
726 // init output folder\r
727 fCorrectionFolder = CreateFolder("folderdNdPt","Correction dNdPt Folder");\r
728\r
729 // init correction matrices\r
730 TFile *file = (TFile *)TFile::Open(fCorrMatrixFileName.Data()); \r
731 if(!file) { \r
732 AliDebug(AliLog::kError, "file with efficiency matrices not available");\r
733 printf("file with efficiency matrices not available \n");\r
734 } else {\r
735 TFolder *folder = (TFolder *)file->FindObjectAny("folderdNdPt");\r
736 if(!folder) { \r
737 AliDebug(AliLog::kError, "file without folderdNdPt");\r
738 printf("file without folderdNdPt \n");\r
739 } else {\r
740 // rec. event mult vs true multiplicity \r
741 fEventMultCorrelationMatrix = (THnSparseF*)folder->FindObject("event_mult_correlation_matrix");\r
742 if(!fEventMultCorrelationMatrix) {\r
743 Printf("No %s matrix \n", "event_mult_correlation_matrix");\r
744 }\r
745\r
746 //\r
747 // event level corrections (zv,mult_MB)\r
748 //\r
749 \r
750 // trigger bias correction (MBtoND) \r
751 fCorrTriggerMBtoNDEventMatrix = (THnSparseF*)folder->FindObject("zv_mult_trig_MBtoND_corr_matrix");\r
752 if(!fCorrTriggerMBtoNDEventMatrix) {\r
753 Printf("No %s matrix \n", "zv_mult_trig_MBtoND_corr_matrix");\r
754 }\r
755\r
756 // trigger bias correction (MBtoNSD)\r
757 fCorrTriggerMBtoNSDEventMatrix = (THnSparseF*)folder->FindObject("zv_mult_trig_MBtoNSD_corr_matrix");\r
758 if(!fCorrTriggerMBtoNSDEventMatrix) {\r
759 Printf("No %s matrix \n", "zv_mult_trig_MBtoNSD_corr_matrix");\r
760 }\r
761\r
762 // trigger bias correction (MBtoInel)\r
763 fCorrTriggerMBtoInelEventMatrix = (THnSparseF*)folder->FindObject("zv_mult_trig_MBtoInel_corr_matrix");\r
764 if(!fCorrTriggerMBtoInelEventMatrix) {\r
765 Printf("No %s matrix \n", "zv_mult_trig_MBtoInel_corr_matrix"); \r
766 }\r
767 \r
768 // vertex reconstruction efficiency correction\r
769 fCorrEventMatrix = (THnSparseF*)folder->FindObject("zv_mult_event_corr_matrix");\r
770 if(!fCorrEventMatrix) {\r
771 Printf("No %s matrix \n", "zv_mult_event_corr_matrix");\r
772 }\r
773\r
774 //\r
775 // histogram needed for empty events corrections\r
776 //\r
777 fZvNorm = (TH1D*)folder->FindObject("zv_distribution_norm");\r
778 if(!fZvNorm) {\r
779 Printf("No %s matrix \n", "fZvNorm");\r
780 }\r
781\r
782 fZvEmptyEventsNorm = (TH1D*)folder->FindObject("zv_empty_events_norm");\r
783 if(!fZvEmptyEventsNorm) {\r
784 Printf("No %s matrix \n", "fZvEmptyEventsNorm");\r
785 }\r
786\r
787 //\r
788 // track-event level corrections (zv,pt,eta)\r
789 //\r
790\r
791 // trigger bias correction (MBtoND) \r
792 fCorrTriggerMBtoNDTrackEventMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_trig_MBtoND_corr_matrix");\r
793 if(!fCorrTriggerMBtoNDTrackEventMatrix) {\r
794 Printf("No %s matrix \n", "zv_pt_eta_track_trig_MBtoND_corr_matrix");\r
795 }\r
796\r
797 // trigger bias correction (MBtoNSD)\r
798 fCorrTriggerMBtoNSDTrackEventMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_trig_MBtoNSD_corr_matrix");\r
799 if(!fCorrTriggerMBtoNSDTrackEventMatrix) {\r
800 Printf("No %s matrix \n", "zv_pt_eta_track_trig_MBtoNSD_corr_matrix");\r
801 }\r
802\r
803 // trigger bias correction (MBtoInel) \r
804 fCorrTriggerMBtoInelTrackEventMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_trig_MBtoInel_corr_matrix");\r
805 if(!fCorrTriggerMBtoInelTrackEventMatrix) {\r
806 Printf("No %s matrix \n", "zv_pt_eta_track_trig_MBtoInel_corr_matrix");\r
807 }\r
808 \r
809 // vertex reconstruction efficiency correction (zv,pt,eta)\r
810 fCorrTrackEventMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_event_corr_matrix");\r
811 if(!fCorrTrackEventMatrix) {\r
812 Printf("No %s matrix \n", "zv_pt_eta_track_event_corr_matrix");\r
813 }\r
814\r
815 // track reconstruction efficiency correction (zv,pt,eta)\r
816 fCorrTrackMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_corr_matrix");\r
817 if(!fCorrTrackMatrix) {\r
818 Printf("No %s matrix \n", "zv_pt_eta_track_corr_matrix");\r
819 }\r
820\r
15b7cc05 821 // high pt track reconstruction efficiency correction (zv,pt,eta)\r
822 fCorrHighPtTrackMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_highPt_track_corr_matrix");\r
823 if(!fCorrHighPtTrackMatrix) {\r
824 Printf("No %s matrix \n", "zv_pt_eta_highPt_track_corr_matrix");\r
825 }\r
826\r
0aaa8b91 827 // secondary tracks contamination correction (zv,pt,eta)\r
828 fContTrackMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_track_cont_matrix");\r
829 if(!fContTrackMatrix) {\r
830 Printf("No %s matrix \n", "zv_pt_eta_track_cont_matrix");\r
831 }\r
832\r
833 // multiply reconstructed tracks correction\r
834 fContMultTrackMatrix = (THnSparseF*)folder->FindObject("zv_pt_eta_mult_track_cont_matrix");\r
835 if(!fContMultTrackMatrix) {\r
836 Printf("No %s matrix \n", "zv_pt_eta_mult_track_cont_matrix");\r
837 }\r
838 }\r
839 }\r
840\r
841}\r
842\r
843//_____________________________________________________________________________\r
844void AlidNdPtCorrection::Process(AliESDEvent *esdEvent, AliMCEvent *mcEvent)\r
845{\r
846 //\r
847 // Process real and/or simulated events\r
848 //\r
849 if(!esdEvent) {\r
850 AliDebug(AliLog::kError, "esdEvent not available");\r
851 return;\r
852 }\r
853\r
bad4ba69 854 // get selection cuts\r
0aaa8b91 855 AlidNdPtEventCuts *evtCuts = GetEventCuts(); \r
856 AlidNdPtAcceptanceCuts *accCuts = GetAcceptanceCuts(); \r
857 AliESDtrackCuts *esdTrackCuts = GetTrackCuts(); \r
858\r
bad4ba69 859 if(!evtCuts || !accCuts || !esdTrackCuts) {\r
0aaa8b91 860 AliDebug(AliLog::kError, "cuts not available");\r
861 return;\r
862 }\r
863\r
bad4ba69 864 // trigger selection\r
865 Bool_t isEventTriggered = kTRUE;\r
15b7cc05 866 if(evtCuts->IsTriggerRequired()) \r
867 {\r
868 AliPhysicsSelection *trigSel = GetPhysicsTriggerSelection();\r
869 if(!trigSel) {\r
870 AliDebug(AliLog::kError, "cannot get trigSel");\r
871 return;\r
872 }\r
873\r
f537848a 874 if(IsUseMCInfo()) { \r
d269b0e6 875 //static AliTriggerAnalysis* triggerAnalysis = new AliTriggerAnalysis;\r
876 //isEventTriggered = triggerAnalysis->IsTriggerFired(esdEvent, GetTrigger());\r
877 trigSel->SetAnalyzeMC();\r
878 isEventTriggered = trigSel->IsCollisionCandidate(esdEvent);\r
f537848a 879 }\r
880 else {\r
d269b0e6 881 isEventTriggered = trigSel->IsCollisionCandidate(esdEvent);\r
f537848a 882 }\r
bad4ba69 883 }\r
15b7cc05 884 \r
bad4ba69 885 // use MC information\r
0aaa8b91 886 AliHeader* header = 0;\r
887 AliGenEventHeader* genHeader = 0;\r
888 AliStack* stack = 0;\r
889 TArrayF vtxMC(3);\r
bad4ba69 890 AliPWG0Helper::MCProcessType evtType = AliPWG0Helper::kInvalidProcess;\r
0aaa8b91 891 Int_t multMCTrueTracks = 0;\r
892\r
893 if(IsUseMCInfo())\r
894 {\r
895 if(!mcEvent) {\r
896 AliDebug(AliLog::kError, "mcEvent not available");\r
897 return;\r
898 }\r
899\r
900 // get MC event header\r
901 header = mcEvent->Header();\r
902 if (!header) {\r
903 AliDebug(AliLog::kError, "Header not available");\r
904 return;\r
905 }\r
906 // MC particle stack\r
907 stack = mcEvent->Stack();\r
908 if (!stack) {\r
909 AliDebug(AliLog::kError, "Stack not available");\r
910 return;\r
911 }\r
912\r
913 // get event type (ND=0x1, DD=0x2, SD=0x4)\r
bad4ba69 914 evtType = AliPWG0Helper::GetEventProcessType(header);\r
0aaa8b91 915 //Printf("evtType %d \n", evtType);\r
916 AliDebug(AliLog::kDebug+1, Form("Found process type %d", evtType));\r
917\r
918 // get MC vertex\r
919 genHeader = header->GenEventHeader();\r
920 if (!genHeader) {\r
921 AliDebug(AliLog::kError, "Could not retrieve genHeader from Header");\r
922 return;\r
923 }\r
924 genHeader->PrimaryVertex(vtxMC);\r
925\r
926 // Fill MC event histogram\r
927 Double_t vMCEventHist1[3]={vtxMC[0],vtxMC[1],vtxMC[2]};\r
928 fMCEventHist1->Fill(vMCEventHist1);\r
929\r
930 // multipliticy of all MC primary tracks\r
931 // in Zvtx, pt and eta ranges\r
932 multMCTrueTracks = AlidNdPtHelper::GetMCTrueTrackMult(mcEvent,evtCuts,accCuts);\r
933\r
934 } // end bUseMC\r
935\r
936 // get reconstructed vertex \r
937 const AliESDVertex* vtxESD = 0; \r
938 Bool_t isRecVertex = kFALSE;\r
939 if(evtCuts->IsRecVertexRequired()) \r
940 {\r
bad4ba69 941 Bool_t bRedoTPCVertex = evtCuts->IsRedoTPCVertex();\r
942 Bool_t bUseConstraints = evtCuts->IsUseBeamSpotConstraint();\r
943 vtxESD = AlidNdPtHelper::GetVertex(esdEvent,evtCuts,accCuts,esdTrackCuts,GetAnalysisMode(),kFALSE,bRedoTPCVertex,bUseConstraints); \r
847e74b2 944 isRecVertex = AlidNdPtHelper::TestRecVertex(vtxESD, GetAnalysisMode(), kFALSE); \r
0aaa8b91 945 }\r
946 if( IsUseMCInfo() && !evtCuts->IsRecVertexRequired() ) {\r
947 vtxESD = new AliESDVertex(vtxMC[2],10.,genHeader->NProduced());\r
948 isRecVertex = kTRUE;\r
949 }\r
950 Bool_t isEventOK = evtCuts->AcceptEvent(esdEvent,mcEvent,vtxESD) && isRecVertex; \r
15b7cc05 951 //printf("isEventOK %d, isRecVertex %d, nContributors %d, Zv %f\n",isEventOK, isRecVertex, vtxESD->GetNContributors(), vtxESD->GetZv());\r
0aaa8b91 952\r
953 //\r
847e74b2 954 // get multiplicity vertex contributors\r
0aaa8b91 955 //\r
956 Int_t multMBTracks = 0; \r
957 if(GetAnalysisMode() == AlidNdPtHelper::kTPC || GetAnalysisMode() == AlidNdPtHelper::kMCRec) { \r
958 multMBTracks = AlidNdPtHelper::GetTPCMBTrackMult(esdEvent,evtCuts,accCuts,esdTrackCuts);\r
959 } \r
15b7cc05 960 else if(GetAnalysisMode() == AlidNdPtHelper::kTPCITS || GetAnalysisMode() == AlidNdPtHelper::kTPCSPDvtx || \r
961 GetAnalysisMode() == AlidNdPtHelper::kTPCSPDvtxUpdate || GetAnalysisMode() == AlidNdPtHelper::kMCRec || \r
962 GetAnalysisMode()==AlidNdPtHelper::kTPCITSHybrid) {\r
963 //if(vtxESD->GetStatus())\r
964 // multMBTracks = vtxESD->GetNContributors();\r
965\r
966 // origin Jan Fiete GO\r
967 const AliMultiplicity* mult = esdEvent->GetMultiplicity();\r
968 if (mult) {\r
969 Int_t trackletCount = 0;\r
970\r
971 for(Int_t i=0; i<mult->GetNumberOfTracklets(); ++i) {\r
972 Float_t deltaPhi = mult->GetDeltaPhi(i);\r
973 // prevent values to be shifted by 2 Pi()\r
974 if (deltaPhi < -TMath::Pi())\r
975 deltaPhi += TMath::Pi() * 2;\r
976 if (deltaPhi > TMath::Pi())\r
977 deltaPhi -= TMath::Pi() * 2;\r
978\r
979 //if (fDeltaPhiCut > 0 && TMath::Abs(deltaPhi) > fDeltaPhiCut)\r
980 // continue;\r
981\r
982 trackletCount++;\r
983 }\r
984 //multMBTracks = mult->GetNumberOfTracklets();\r
985 multMBTracks = trackletCount;\r
986 //printf("trackletCount %d \n", trackletCount);\r
987 }\r
988 else {\r
989 AliDebug(AliLog::kError, Form("Multiplicty %p", mult));\r
990 return; \r
991 }\r
0aaa8b91 992 } \r
993 else {\r
994 AliDebug(AliLog::kError, Form("Found analysis type %s", GetAnalysisMode()));\r
995 return; \r
996 }\r
997\r
998 //\r
999 // correct event and track histograms\r
1000 //\r
1001 TObjArray *allChargedTracks=0;\r
1002 Int_t multRec=0, multRecTemp=0;\r
1003 Int_t *labelsRec=0;\r
a8ac5525 1004 Bool_t isCosmic = kFALSE;\r
0aaa8b91 1005\r
1006 if(isEventOK && isEventTriggered)\r
1007 {\r
1008 // get all charged tracks\r
bad4ba69 1009 allChargedTracks = AlidNdPtHelper::GetAllChargedTracks(esdEvent,GetAnalysisMode());\r
0aaa8b91 1010 if(!allChargedTracks) return;\r
1011\r
1012 Int_t entries = allChargedTracks->GetEntries();\r
1013 labelsRec = new Int_t[entries];\r
1014\r
1015 // calculate mult of reconstructed tracks\r
15b7cc05 1016\r
0aaa8b91 1017 for(Int_t i=0; i<entries;++i) \r
1018 {\r
1019 AliESDtrack *track = (AliESDtrack*)allChargedTracks->At(i);\r
1020 if(!track) continue;\r
847e74b2 1021 if(track->Charge()==0) continue;\r
1022\r
15b7cc05 1023\r
847e74b2 1024 // only postive charged \r
1025 if(GetParticleMode() == AlidNdPtHelper::kPlus && track->Charge() < 0) \r
1026 continue;\r
1027 \r
1028 // only negative charged \r
1029 if(GetParticleMode() == AlidNdPtHelper::kMinus && track->Charge() > 0) \r
1030 continue;\r
1031\r
d269b0e6 1032 // cosmics analysis\r
a8ac5525 1033 isCosmic = kFALSE;\r
15b7cc05 1034 if( GetParticleMode()==AlidNdPtHelper::kCosmic )\r
d269b0e6 1035 {\r
1036 for(Int_t j=0; j<entries;++j) \r
1037 {\r
1038 AliESDtrack *track1 = (AliESDtrack*)allChargedTracks->At(j);\r
1039 if(!track1) continue;\r
1040 if(track1->Charge()==0) continue;\r
1041\r
1042 if( esdTrackCuts->AcceptTrack(track) && accCuts->AcceptTrack(track) && \r
1043 esdTrackCuts->AcceptTrack(track1) && accCuts->AcceptTrack(track1) ) \r
1044 { \r
a8ac5525 1045 isCosmic = AlidNdPtHelper::IsCosmicTrack(track, track1);\r
d269b0e6 1046 }\r
1047 if(isCosmic) \r
1048 {\r
a8ac5525 1049 Double_t vCosmicsHisto[3] = { track->Eta()+track1->Eta(), track->Phi()-track1->Phi(), track1->Pt() };\r
d269b0e6 1050 fCosmicsHisto->Fill(vCosmicsHisto);\r
1051 }\r
1052 }\r
1053 \r
1054 if(!isCosmic) continue;\r
1055 }\r
1056\r
847e74b2 1057 if(esdTrackCuts->AcceptTrack(track) && accCuts->AcceptTrack(track)) \r
1058 multRecTemp++;\r
0aaa8b91 1059 } \r
1060\r
847e74b2 1061 //\r
0aaa8b91 1062 for(Int_t i=0; i<entries;++i) \r
1063 {\r
1064 AliESDtrack *track = (AliESDtrack*)allChargedTracks->At(i);\r
1065 if(!track) continue;\r
847e74b2 1066 if(track->Charge()==0) continue;\r
1067\r
15b7cc05 1068\r
847e74b2 1069 // only postive charged \r
1070 if(GetParticleMode() == AlidNdPtHelper::kPlus && track->Charge() < 0) \r
1071 continue;\r
1072 \r
1073 // only negative charged \r
1074 if(GetParticleMode() == AlidNdPtHelper::kMinus && track->Charge() > 0) \r
1075 continue;\r
0aaa8b91 1076 \r
847e74b2 1077 // track-level corrections\r
1078 if(esdTrackCuts->AcceptTrack(track)) \r
0aaa8b91 1079 {\r
a8ac5525 1080 // cosmics analysis\r
1081 isCosmic = kFALSE;\r
15b7cc05 1082 if( GetParticleMode()==AlidNdPtHelper::kCosmic )\r
a8ac5525 1083 {\r
1084 for(Int_t j=0; j<entries;++j) \r
1085 {\r
1086 AliESDtrack *track1 = (AliESDtrack*)allChargedTracks->At(j);\r
1087 if(!track1) continue;\r
1088 if(track1->Charge()==0) continue;\r
1089\r
1090 if( esdTrackCuts->AcceptTrack(track) && accCuts->AcceptTrack(track) && \r
1091 esdTrackCuts->AcceptTrack(track1) && accCuts->AcceptTrack(track1) ) \r
1092 { \r
1093 isCosmic = AlidNdPtHelper::IsCosmicTrack(track, track1);\r
1094 }\r
1095 }\r
1096 if(!isCosmic) continue;\r
1097 }\r
1098\r
15b7cc05 1099 Bool_t isOK = kFALSE;\r
1100 Double_t x[3]; track->GetXYZ(x);\r
1101 Double_t b[3]; AliTracker::GetBxByBz(x,b);\r
1102\r
1103 //\r
1104 // if TPC-ITS hybrid tracking (kTPCITSHybrid)\r
1105 // replace track parameters with TPC-ony track parameters\r
1106 //\r
1107 if( GetAnalysisMode() == AlidNdPtHelper::kTPCITSHybrid ) \r
1108 {\r
1109 // Relate TPC-only tracks to SPD vertex\r
1110 isOK = track->RelateToVertexTPCBxByBz(esdEvent->GetPrimaryVertexSPD(), b, kVeryBig);\r
1111 if(!isOK) continue;\r
1112\r
1113 // replace esd track parameters with TPCinner\r
1114 AliExternalTrackParam *tpcTrack = new AliExternalTrackParam(*(track->GetTPCInnerParam()));\r
1115 if (!tpcTrack) return;\r
1116 track->Set(tpcTrack->GetX(),tpcTrack->GetAlpha(),tpcTrack->GetParameter(),tpcTrack->GetCovariance());\r
1117\r
1118 if(tpcTrack) delete tpcTrack; \r
1119 } \r
1120\r
1121 //\r
1122 if (GetAnalysisMode()==AlidNdPtHelper::kTPCSPDvtxUpdate) \r
1123 {\r
847e74b2 1124 //\r
1125 // update track parameters\r
1126 //\r
1127 AliExternalTrackParam cParam;\r
15b7cc05 1128 isOK = track->RelateToVertexTPC(esdEvent->GetPrimaryVertexSPD(),esdEvent->GetMagneticField(),kVeryBig,&cParam);\r
1129 if(!isOK) continue;\r
847e74b2 1130 track->Set(cParam.GetX(),cParam.GetAlpha(),cParam.GetParameter(),cParam.GetCovariance());\r
1131\r
1132 if(accCuts->AcceptTrack(track)) { \r
15b7cc05 1133 FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZv(),multRecTemp,multMCTrueTracks); \r
847e74b2 1134 labelsRec[multRec] = TMath::Abs(track->GetLabel());\r
1135 multRec++;\r
1136 }\r
1137 }\r
1138 else if (GetAnalysisMode()==AlidNdPtHelper::kMCRec && IsUseMCInfo()) \r
1139 { \r
1140 //\r
1141 // Replace rec with MC\r
1142 //\r
1143 if(accCuts->AcceptTrack(track)) { \r
15b7cc05 1144 FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxMC[2],multRecTemp, multMCTrueTracks); \r
847e74b2 1145 labelsRec[multRec] = TMath::Abs(track->GetLabel());\r
1146 multRec++;\r
1147 }\r
1148 } \r
1149 else {\r
1150 //\r
1151 // all the rest tracking scenarios\r
1152 //\r
1153 if(accCuts->AcceptTrack(track)) { \r
15b7cc05 1154 FillHistograms(track,stack,AlidNdPtHelper::kRecTracks,vtxESD->GetZv(),multRecTemp, multMCTrueTracks); \r
847e74b2 1155 labelsRec[multRec] = TMath::Abs(track->GetLabel());\r
1156 multRec++;\r
1157 }\r
1158 }\r
1159 }\r
0aaa8b91 1160 }\r
1161 // event-level corrections\r
1162 if(GetAnalysisMode()==AlidNdPtHelper::kMCRec && IsUseMCInfo()) { \r
1163 FillHistograms(AlidNdPtHelper::kRecEvents,vtxMC[2],multMBTracks);\r
1164 }\r
1165 else {\r
1166 FillHistograms(AlidNdPtHelper::kRecEvents,vtxESD->GetZv(),multMBTracks);\r
1167 }\r
1168\r
15b7cc05 1169 // calculate meanPt from the event\r
1170 Double_t meanPtMult[8] = {0}; \r
1171 Double_t meanPtTrueMult[8] = {0}; \r
1172 for (Int_t i = 0; i<8; i++) {\r
1173 if(!fCorrRecTrackMultHist1[i]) continue;\r
1174 meanPtMult[i] = fCorrRecTrackPt1[i]->Projection(0)->GetMean(); \r
1175 Double_t vCorrRecTrackMeanPtMultHist1[2] = {meanPtMult[i],multRecTemp};\r
1176 fCorrRecTrackMeanPtMultHist1[i]->Fill(vCorrRecTrackMeanPtMultHist1); \r
1177 \r
1178 if( IsUseMCInfo() ) {\r
1179 if(!fCorrRecTrackTrueMultHist1[i]) continue;\r
1180 meanPtTrueMult[i] = fCorrRecTrackPt1[i]->Projection(0)->GetMean(); \r
1181 Double_t vCorrRecTrackMeanPtTrueMultHist1[2] = {meanPtMult[i],multMCTrueTracks};\r
1182 fCorrRecTrackMeanPtTrueMultHist1[i]->Fill(vCorrRecTrackMeanPtTrueMultHist1); \r
1183 }\r
1184\r
1185 // reset pt histo for the next event\r
1186 if(fCorrRecTrackPt1[i]) fCorrRecTrackPt1[i]->Reset();\r
1187 }\r
1188\r
0aaa8b91 1189 // control event histograms\r
1190 Double_t vRecEventHist1[3] = {vtxESD->GetXv(),vtxESD->GetYv(),vtxESD->GetZv()};\r
1191 fRecEventHist1->Fill(vRecEventHist1);\r
1192 } \r
1193\r
1194 // empty events corrections\r
1195 // no reconstructed zv\r
1196 if(isEventTriggered && multMBTracks==0) {\r
1197 if(GetAnalysisMode()==AlidNdPtHelper::kMCRec && IsUseMCInfo()) {\r
1198 FillHistograms(AlidNdPtHelper::kTriggeredEvents,vtxMC[2],multMBTracks);\r
1199 }\r
1200 else {\r
1201 Double_t zv = fZvNorm->GetRandom();\r
1202 FillHistograms(AlidNdPtHelper::kTriggeredEvents,zv,multMBTracks);\r
1203 }\r
1204 }\r
1205\r
1206 if(IsUseMCInfo()) \r
1207 {\r
1208 // select MC events \r
1209 if(evtCuts->AcceptMCEvent(mcEvent))\r
1210 {\r
1211 //\r
1212 // event histograms\r
1213 //\r
1214 Double_t vMCEventMatrix[2] = {vtxMC[2],multMBTracks};\r
1215 fMCAllEventMultHist1->Fill(vMCEventMatrix);\r
bad4ba69 1216 if(evtType == AliPWG0Helper::kND) {\r
0aaa8b91 1217 fMCAllNDEventMultHist1->Fill(vMCEventMatrix);\r
1218 }\r
bad4ba69 1219 if(evtType != AliPWG0Helper::kSD) {\r
0aaa8b91 1220 fMCAllNSDEventMultHist1->Fill(vMCEventMatrix);\r
1221 }\r
1222 if(isEventTriggered) fMCTriggerMultHist1->Fill(vMCEventMatrix);\r
1223 if(isEventTriggered && isEventOK) fMCEventMultHist1->Fill(vMCEventMatrix);\r
1224\r
1225 //\r
1226 // MC histograms for efficiency studies\r
1227 //\r
15b7cc05 1228 Double_t sumPtMC = 0;\r
0aaa8b91 1229 Int_t nPart = stack->GetNtrack();\r
1230 for (Int_t iMc = 0; iMc < nPart; ++iMc) \r
1231 {\r
1232 // print MC stack info\r
1233 //AlidNdPtHelper::PrintMCInfo(stack,iMc);\r
1234\r
1235 TParticle* particle = stack->Particle(iMc);\r
1236 if (!particle)\r
1237 continue;\r
1238\r
1239 // only charged particles\r
1240 Double_t charge = particle->GetPDG()->Charge()/3.;\r
00b81913 1241 if (TMath::Abs(charge) < 0.001)\r
0aaa8b91 1242 continue;\r
847e74b2 1243\r
1244 // only postive charged \r
1245 if(GetParticleMode() == AlidNdPtHelper::kPlus && charge < 0.) \r
1246 continue;\r
1247 \r
1248 // only negative charged \r
1249 if(GetParticleMode() == AlidNdPtHelper::kMinus && charge > 0.) \r
1250 continue;\r
0aaa8b91 1251 \r
1252 // physical primary\r
1253 Bool_t prim = stack->IsPhysicalPrimary(iMc);\r
15b7cc05 1254 if(!prim) continue;\r
0aaa8b91 1255\r
1256 // all primaries in acceptance\r
1257 if(!accCuts->AcceptTrack(particle)) continue;\r
0aaa8b91 1258\r
1259 Double_t gpt = particle->Pt();\r
1260 Double_t geta = particle->Eta();\r
1261\r
15b7cc05 1262 // sum up pt in the event\r
1263 sumPtMC +=gpt; \r
1264\r
0aaa8b91 1265 Double_t valMCAllTrackMultHist1[3] = {gpt,geta,multRec}; \r
15b7cc05 1266 Double_t valMCAllTrackTrueMultHist1[3] = {gpt,geta,multMCTrueTracks}; \r
1267\r
0aaa8b91 1268 fMCAllPrimTrackMultHist1->Fill(valMCAllTrackMultHist1);\r
15b7cc05 1269 fMCAllPrimTrackTrueMultHist1->Fill(valMCAllTrackTrueMultHist1);\r
1270\r
bad4ba69 1271 if(evtType == AliPWG0Helper::kND) {\r
0aaa8b91 1272 fMCNDEventAllPrimTrackMultHist1->Fill(valMCAllTrackMultHist1);\r
15b7cc05 1273 fMCNDEventAllPrimTrackTrueMultHist1->Fill(valMCAllTrackTrueMultHist1);\r
0aaa8b91 1274 }\r
bad4ba69 1275 if(evtType != AliPWG0Helper::kSD) {\r
0aaa8b91 1276 fMCNSDEventAllPrimTrackMultHist1->Fill(valMCAllTrackMultHist1);\r
15b7cc05 1277 fMCNSDEventAllPrimTrackTrueMultHist1->Fill(valMCAllTrackTrueMultHist1);\r
0aaa8b91 1278 }\r
15b7cc05 1279 if(isEventTriggered) { \r
1280 fMCTriggerPrimTrackMultHist1->Fill(valMCAllTrackMultHist1);\r
1281 fMCTriggerPrimTrackTrueMultHist1->Fill(valMCAllTrackTrueMultHist1);\r
1282 }\r
1283 if(isEventTriggered && isEventOK) { \r
1284 fMCEventPrimTrackMultHist1->Fill(valMCAllTrackMultHist1);\r
1285 fMCEventPrimTrackTrueMultHist1->Fill(valMCAllTrackTrueMultHist1);\r
1286 }\r
0aaa8b91 1287 }\r
15b7cc05 1288\r
1289 //\r
1290 // calculate <pt> in the event\r
1291 //\r
1292 Double_t meanPtMCMult = 0;\r
1293 Double_t meanPtMCTrueMult = 0;\r
1294 if(multRec) meanPtMCMult = sumPtMC/multRec; \r
1295 if(multMCTrueTracks) meanPtMCTrueMult = sumPtMC/multMCTrueTracks; \r
1296\r
1297 Double_t valMCMeanPtMult[2] = {meanPtMCMult,multRec}; \r
1298 Double_t valMCMeanPtTrueMult[2] = {meanPtMCTrueMult,multMCTrueTracks}; \r
1299\r
1300 fMCAllPrimTrackMeanPtMult1->Fill(valMCMeanPtMult);\r
1301 fMCAllPrimTrackMeanPtTrueMult1->Fill(valMCMeanPtTrueMult);\r
1302\r
1303 if(evtType == AliPWG0Helper::kND) {\r
1304 fMCNDEventAllPrimTrackMeanPtMult1->Fill(valMCMeanPtMult);\r
1305 fMCNDEventAllPrimTrackMeanPtTrueMult1->Fill(valMCMeanPtTrueMult);\r
1306 }\r
1307 if(evtType != AliPWG0Helper::kSD) {\r
1308 fMCNSDEventAllPrimTrackMeanPtMult1->Fill(valMCMeanPtMult);\r
1309 fMCNSDEventAllPrimTrackMeanPtTrueMult1->Fill(valMCMeanPtTrueMult);\r
1310 }\r
1311 if(isEventTriggered) { \r
1312 fMCTriggerPrimTrackMeanPtMult1->Fill(valMCMeanPtMult);\r
1313 fMCTriggerPrimTrackMeanPtTrueMult1->Fill(valMCMeanPtTrueMult);\r
1314 }\r
1315 if(isEventTriggered && isEventOK) { \r
1316 fMCEventPrimTrackMeanPtMult1->Fill(valMCMeanPtMult);\r
1317 fMCEventPrimTrackMeanPtTrueMult1->Fill(valMCMeanPtTrueMult);\r
1318 }\r
1319\r
0aaa8b91 1320 }\r
1321 } // end bUseMC\r
1322\r
1323 if(allChargedTracks) delete allChargedTracks; allChargedTracks = 0;\r
1324 if(labelsRec) delete [] labelsRec; labelsRec = 0;\r
1325\r
f537848a 1326 if(!evtCuts->IsRecVertexRequired() && vtxESD != NULL) delete vtxESD;\r
0aaa8b91 1327}\r
1328\r
1329//_____________________________________________________________________________\r
00b81913 1330void AlidNdPtCorrection::FillHistograms(AlidNdPtHelper::EventObject eventObj, Double_t zv, Int_t multMBTracks) const\r
0aaa8b91 1331{\r
1332 //\r
1333 // Fill corrected histograms\r
1334 //\r
1335\r
1336 Double_t vEventMatrix[2] = {zv,multMBTracks};\r
1337 //\r
1338 // Correct for efficiency \r
1339 //\r
1340 if(eventObj == AlidNdPtHelper::kRecEvents && multMBTracks>0) \r
1341 {\r
1342 Double_t corrToMBF = GetCorrFactZvMult(fCorrEventMatrix,zv,multMBTracks);\r
1343 Double_t corrToInelF = GetCorrFactZvMult(fCorrTriggerMBtoInelEventMatrix,zv,multMBTracks);\r
1344 Double_t corrToNDF = GetCorrFactZvMult(fCorrTriggerMBtoNDEventMatrix,zv,multMBTracks);\r
1345 Double_t corrToNSDF = GetCorrFactZvMult(fCorrTriggerMBtoNSDEventMatrix,zv,multMBTracks);\r
1346 //printf("corrToMBF %f, corrToInelF %f, corrToNDF %f corrToNSDF %f \n",corrToMBF,corrToInelF,corrToNDF,corrToNSDF);\r
1347\r
1348 fCorrRecEventHist1[0]->Fill(vEventMatrix);\r
1349 fCorrRecEventHist1[1]->Fill(vEventMatrix,corrToMBF);\r
1350 fCorrRecEventHist1[2]->Fill(vEventMatrix,corrToMBF*corrToInelF);\r
1351 fCorrRecEventHist1[3]->Fill(vEventMatrix,corrToMBF*corrToNDF);\r
1352 fCorrRecEventHist1[4]->Fill(vEventMatrix,corrToMBF*corrToNSDF);\r
1353 }\r
1354\r
1355 if(eventObj==AlidNdPtHelper::kTriggeredEvents && multMBTracks==0) // empty triggered events\r
1356 {\r
1357 Int_t bin = fZvEmptyEventsNorm->FindBin(zv);\r
00b81913 1358 Double_t factZ = fZvEmptyEventsNorm->GetBinContent(bin);\r
0aaa8b91 1359 Double_t corrToInelF0 = GetCorrFactZvMult(fCorrTriggerMBtoInelEventMatrix,zv,multMBTracks);\r
1360 Double_t corrToNDF0 = GetCorrFactZvMult(fCorrTriggerMBtoNDEventMatrix,zv,multMBTracks);\r
1361 Double_t corrToNSDF0 = GetCorrFactZvMult(fCorrTriggerMBtoNSDEventMatrix,zv,multMBTracks);\r
00b81913 1362 //printf("factZ %f, corrToInelF0 %f, corrToNDF0 %f, corrToNSDF0 %f \n",factZ,corrToInelF0,corrToNDF0,corrToNSDF0);\r
0aaa8b91 1363\r
1364 fCorrRecEventHist2[0]->Fill(vEventMatrix);\r
00b81913 1365 fCorrRecEventHist2[1]->Fill(vEventMatrix,factZ);\r
1366 fCorrRecEventHist2[2]->Fill(vEventMatrix,factZ*corrToInelF0);\r
1367 fCorrRecEventHist2[3]->Fill(vEventMatrix,factZ*corrToNDF0);\r
1368 fCorrRecEventHist2[4]->Fill(vEventMatrix,factZ*corrToNSDF0);\r
0aaa8b91 1369 }\r
1370}\r
1371\r
1372//_____________________________________________________________________________\r
15b7cc05 1373void AlidNdPtCorrection::FillHistograms(AliESDtrack * const esdTrack, AliStack * const stack, AlidNdPtHelper::TrackObject trackObj, Double_t zv, Int_t mult, Int_t trueMult) const\r
0aaa8b91 1374{\r
1375 //\r
1376 // Fill ESD track and MC histograms \r
1377 //\r
1378 if(!esdTrack) return;\r
1379\r
1380 //Float_t q = esdTrack->Charge();\r
1381 Float_t pt = esdTrack->Pt();\r
1382 Float_t eta = esdTrack->Eta();\r
1383 Float_t phi = esdTrack->Phi();\r
1384\r
1385 if(stack && GetAnalysisMode() == AlidNdPtHelper::kMCRec) \r
1386 {\r
1387 Int_t label = TMath::Abs(esdTrack->GetLabel());\r
1388 \r
1389 TParticle* particle = stack->Particle(label);\r
1390 if(!particle) return;\r
1391 \r
1392 Double_t gq = particle->GetPDG()->Charge()/3.0; // Charge units |e|/3\r
00b81913 1393 if(TMath::Abs(gq)<0.001) return;\r
0aaa8b91 1394 Float_t gpt = particle->Pt();\r
1395 Float_t geta = particle->Eta();\r
1396 Float_t gphi = particle->Phi();\r
1397\r
1398 // replace reconstructed values with MC\r
1399 pt = gpt;\r
1400 eta = geta;\r
1401 phi = gphi;\r
1402 }\r
1403\r
1404 //\r
1405 // Fill histograms\r
1406 //\r
1407 Double_t values[3] = {pt,eta,phi}; \r
1408 fRecTrackHist1[trackObj]->Fill(values);\r
1409\r
1410 //\r
1411 // Correct for contamination and efficiency \r
1412 //\r
1413 if(trackObj == AlidNdPtHelper::kRecTracks || GetAnalysisMode() == AlidNdPtHelper::kMCRec) \r
1414 {\r
1415 // track level corrections\r
15b7cc05 1416 Double_t trackEffF = 1.0; \r
1417 if(pt < 2.5) trackEffF = GetCorrFactZvPtEta(fCorrTrackMatrix,zv,pt,eta);\r
1418 else trackEffF = GetCorrFactZvPtEta(fCorrHighPtTrackMatrix,zv,pt,eta);\r
1419\r
0aaa8b91 1420 Double_t trackContF = GetContFactZvPtEta(fContTrackMatrix,zv,pt,eta);\r
1421 Double_t multTrackContF = GetContFactZvPtEta(fContMultTrackMatrix,zv,pt,eta);\r
1422 //printf("zv %f, pt %f, eta %f \n",zv,pt,eta);\r
1423 //printf("trackEffF %f, trackContF %f, multTrackContF %f \n", trackEffF, trackContF, multTrackContF);\r
1424 \r
1425 // track-event level corrections\r
1426 Double_t vertexEffF = GetCorrFactZvPtEta(fCorrTrackEventMatrix,zv,pt,eta);\r
1427 Double_t trigMBToInel = GetCorrFactZvPtEta(fCorrTriggerMBtoInelTrackEventMatrix,zv,pt,eta); \r
1428 Double_t trigMBToND = GetCorrFactZvPtEta(fCorrTriggerMBtoNDTrackEventMatrix,zv,pt,eta);\r
1429 Double_t trigMBToNSD = GetCorrFactZvPtEta(fCorrTriggerMBtoNSDTrackEventMatrix,zv,pt,eta);\r
1430 //printf("vertexEffF %f, trigMBToInel %f, trigMBToNSD %f \n", vertexEffF, trigMBToInel, trigMBToNSD);\r
bad4ba69 1431 \r
1432 Double_t corrF[8] = { 1.0, \r
1433 trackContF,\r
1434 trackContF*trackEffF,\r
1435 trackContF*trackEffF*multTrackContF,\r
1436 trackContF*trackEffF*multTrackContF*vertexEffF,\r
1437 trackContF*trackEffF*multTrackContF*vertexEffF*trigMBToInel,\r
1438 trackContF*trackEffF*multTrackContF*vertexEffF*trigMBToND,\r
1439 trackContF*trackEffF*multTrackContF*vertexEffF*trigMBToNSD\r
1440 }; \r
1441 \r
1442 // Fill histograms\r
0aaa8b91 1443 Double_t valCorrRecTrackMultHist1[3] = {pt,eta,mult}; \r
15b7cc05 1444 Double_t valCorrRecTrackPt1[1] = {pt}; \r
bad4ba69 1445 for(Int_t i=0; i<8; i++) {\r
1446 fCorrRecTrackMultHist1[i]->Fill(valCorrRecTrackMultHist1,corrF[i]);\r
15b7cc05 1447 fCorrRecTrackPt1[i]->Fill(valCorrRecTrackPt1,corrF[i]);\r
1448\r
1449 if( IsUseMCInfo() ) {\r
1450 Double_t valCorrRecTrackTrueMultHist1[3] = {pt,eta,trueMult}; \r
1451 fCorrRecTrackTrueMultHist1[i]->Fill(valCorrRecTrackTrueMultHist1,corrF[i]);\r
1452 } \r
bad4ba69 1453 }\r
0aaa8b91 1454 }\r
1455}\r
1456\r
00b81913 1457void AlidNdPtCorrection::FillHistograms(AliStack * const stack, Int_t /*label*/, AlidNdPtHelper::TrackObject /*trackObj*/, Int_t /*mult*/) const\r
0aaa8b91 1458{\r
1459 // Fill MC histograms\r
1460 if(!stack) return;\r
1461\r
1462 /*\r
1463 TParticle* particle = stack->Particle(label);\r
1464 if(!particle) return;\r
1465\r
1466 Int_t mother_pdg = -1;\r
1467 TParticle* mother = 0;\r
1468\r
1469 //TParticle* prim_mother = AlidNdPtHelper::FindPrimaryMother(stack,label);\r
1470 Int_t motherLabel = particle->GetMother(0); \r
1471 if(motherLabel>0) mother = stack->Particle(motherLabel);\r
1472 if(mother) mother_pdg = TMath::Abs(mother->GetPdgCode()); // take abs for visualisation only\r
1473 Int_t mech = particle->GetUniqueID(); // production mechanism\r
1474\r
1475 Double_t gq = particle->GetPDG()->Charge()/3.0; // Charge units |e|/3 \r
1476 Float_t gpt = particle->Pt();\r
1477 Float_t qgpt = particle->Pt() * gq;\r
1478 Float_t geta = particle->Eta();\r
1479 Float_t gphi = particle->Phi();\r
1480 Float_t gpz = particle->Pz();\r
1481\r
1482 Bool_t prim = stack->IsPhysicalPrimary(label);\r
1483 Float_t vx = particle->Vx(); Float_t vy = particle->Vy(); Float_t vz = particle->Vz();\r
1484\r
1485 Int_t pid=-1;\r
1486 if (TMath::Abs(particle->GetPdgCode()) == kElectron) { pid = 0; }\r
1487 else if (TMath::Abs(particle->GetPdgCode()) == kMuonMinus) { pid = 1; }\r
1488 else if (TMath::Abs(particle->GetPdgCode()) == kPiPlus) { pid = 2; }\r
1489 else if (TMath::Abs(particle->GetPdgCode()) == kKPlus) { pid = 3; }\r
1490 else if (TMath::Abs(particle->GetPdgCode()) == kProton) { pid = 4; }\r
1491 else { pid = 5; }\r
1492 */\r
1493\r
1494 //if(!prim) printf("prim_mother %d, mother %d, particle %d, production mech %d\n",prim_mother->GetPdgCode(),mother->GetPdgCode(), particle->GetPdgCode(),mech);\r
1495 \r
1496}\r
1497\r
1498//_____________________________________________________________________________\r
00b81913 1499Double_t AlidNdPtCorrection::GetCorrFactZvPtEta(THnSparse * const hist, Double_t zv, Double_t pt, Double_t eta) const {\r
0aaa8b91 1500// return correction factor F(zv,pt,eta)\r
1501\r
1502 if(!hist) return 1.;\r
1503\r
1504 //\r
1505 TAxis *ax = hist->GetAxis(0);\r
1506 TAxis *ay = hist->GetAxis(1);\r
1507 TAxis *az = hist->GetAxis(2);\r
1508\r
1509 Int_t binx = ax->FindBin(zv);\r
1510 Int_t biny = ay->FindBin(pt);\r
1511 Int_t binz = az->FindBin(eta);\r
1512 Int_t dim[3] = {binx,biny,binz};\r
1513\r
1514 Double_t fact = hist->GetBinContent(dim); \r
1515\r
1516return fact;\r
1517}\r
1518\r
1519//_____________________________________________________________________________\r
00b81913 1520Double_t AlidNdPtCorrection::GetContFactZvPtEta(THnSparse * const hist, Double_t zv, Double_t pt, Double_t eta) const {\r
0aaa8b91 1521// return contamination correction factor F(zv,pt,eta)\r
1522\r
1523 if(!hist) return 1.0;\r
1524\r
1525 //\r
1526 TAxis *ax = hist->GetAxis(0);\r
1527 TAxis *ay = hist->GetAxis(1);\r
1528 TAxis *az = hist->GetAxis(2);\r
1529\r
1530 Int_t binx = ax->FindBin(zv);\r
1531 Int_t biny = ay->FindBin(pt);\r
1532 Int_t binz = az->FindBin(eta);\r
1533 Int_t dim[3] = {binx,biny,binz};\r
1534\r
1535 Double_t fact = 1.0-hist->GetBinContent(dim); \r
1536 //Double_t fact = hist->GetBinContent(dim); \r
1537\r
1538return fact;\r
1539}\r
1540\r
1541//_____________________________________________________________________________\r
00b81913 1542Double_t AlidNdPtCorrection::GetCorrFactZvMult(THnSparse * const hist, Double_t zv, Int_t mult) const {\r
0aaa8b91 1543// return correction factor F(zv,mult)\r
1544\r
1545 if(!hist) return 1.;\r
1546\r
1547 TAxis *ax = hist->GetAxis(0);\r
1548 TAxis *ay = hist->GetAxis(1);\r
1549 Int_t binx = ax->FindBin(zv);\r
1550 Int_t biny = ay->FindBin(mult);\r
1551 Int_t dim[2] = {binx,biny};\r
1552\r
1553 Double_t fact = hist->GetBinContent(dim); \r
1554\r
1555\r
1556return fact;\r
1557}\r
1558\r
1559//_____________________________________________________________________________\r
00b81913 1560Double_t AlidNdPtCorrection::GetContFactZvMult(THnSparse * const hist, Double_t zv, Int_t mult) const {\r
0aaa8b91 1561// return contamination correction factor F(zv,mult)\r
1562\r
1563 if(!hist) return 1.;\r
1564\r
1565 TAxis *ax = hist->GetAxis(0);\r
1566 TAxis *ay = hist->GetAxis(1);\r
1567 Int_t binx = ax->FindBin(zv);\r
1568 Int_t biny = ay->FindBin(mult);\r
1569 Int_t dim[2] = {binx,biny};\r
1570 Double_t fact = 1.0-hist->GetBinContent(dim); \r
1571\r
1572return fact;\r
1573}\r
1574\r
1575//_____________________________________________________________________________\r
00b81913 1576Long64_t AlidNdPtCorrection::Merge(TCollection* const list) \r
0aaa8b91 1577{\r
1578 // Merge list of objects (needed by PROOF)\r
1579\r
1580 if (!list)\r
1581 return 0;\r
1582\r
1583 if (list->IsEmpty())\r
1584 return 1;\r
1585\r
1586 TIterator* iter = list->MakeIterator();\r
1587 TObject* obj = 0;\r
1588\r
1589 // collection of generated histograms\r
1590\r
1591 Int_t count=0;\r
1592 while((obj = iter->Next()) != 0) {\r
1593 AlidNdPtCorrection* entry = dynamic_cast<AlidNdPtCorrection*>(obj);\r
1594 if (entry == 0) continue; \r
1595 \r
1596 fMCEventHist1->Add(entry->fMCEventHist1);\r
1597 fRecEventHist1->Add(entry->fRecEventHist1);\r
1598\r
1599 fMCAllEventMultHist1->Add(entry->fMCAllEventMultHist1);\r
1600 fMCAllNDEventMultHist1->Add(entry->fMCAllNDEventMultHist1);\r
1601 fMCAllNSDEventMultHist1->Add(entry->fMCAllNSDEventMultHist1);\r
1602 fMCTriggerMultHist1->Add(entry->fMCTriggerMultHist1);\r
1603 fMCEventMultHist1->Add(entry->fMCEventMultHist1);\r
1604\r
1605 fMCAllPrimTrackMultHist1->Add(entry->fMCAllPrimTrackMultHist1);\r
1606 fMCNDEventAllPrimTrackMultHist1->Add(entry->fMCNDEventAllPrimTrackMultHist1);\r
1607 fMCNSDEventAllPrimTrackMultHist1->Add(entry->fMCNSDEventAllPrimTrackMultHist1);\r
1608 fMCTriggerPrimTrackMultHist1->Add(entry->fMCTriggerPrimTrackMultHist1);\r
1609 fMCEventPrimTrackMultHist1->Add(entry->fMCEventPrimTrackMultHist1);\r
15b7cc05 1610\r
1611 fMCAllPrimTrackTrueMultHist1->Add(entry->fMCAllPrimTrackTrueMultHist1);\r
1612 fMCNDEventAllPrimTrackTrueMultHist1->Add(entry->fMCNDEventAllPrimTrackTrueMultHist1);\r
1613 fMCNSDEventAllPrimTrackTrueMultHist1->Add(entry->fMCNSDEventAllPrimTrackTrueMultHist1);\r
1614 fMCTriggerPrimTrackTrueMultHist1->Add(entry->fMCTriggerPrimTrackTrueMultHist1);\r
1615 fMCEventPrimTrackTrueMultHist1->Add(entry->fMCEventPrimTrackTrueMultHist1);\r
1616\r
1617 fMCAllPrimTrackMeanPtMult1->Add(entry->fMCAllPrimTrackMeanPtMult1);\r
1618 fMCNDEventAllPrimTrackMeanPtMult1->Add(entry->fMCNDEventAllPrimTrackMeanPtMult1);\r
1619 fMCNSDEventAllPrimTrackMeanPtMult1->Add(entry->fMCNSDEventAllPrimTrackMeanPtMult1);\r
1620 fMCTriggerPrimTrackMeanPtMult1->Add(entry->fMCTriggerPrimTrackMeanPtMult1);\r
1621 fMCEventPrimTrackMeanPtMult1->Add(entry->fMCEventPrimTrackMeanPtMult1);\r
1622\r
1623 fMCAllPrimTrackMeanPtTrueMult1->Add(entry->fMCAllPrimTrackMeanPtTrueMult1);\r
1624 fMCNDEventAllPrimTrackMeanPtTrueMult1->Add(entry->fMCNDEventAllPrimTrackMeanPtTrueMult1);\r
1625 fMCNSDEventAllPrimTrackMeanPtTrueMult1->Add(entry->fMCNSDEventAllPrimTrackMeanPtTrueMult1);\r
1626 fMCTriggerPrimTrackMeanPtTrueMult1->Add(entry->fMCTriggerPrimTrackMeanPtTrueMult1);\r
1627 fMCEventPrimTrackMeanPtTrueMult1->Add(entry->fMCEventPrimTrackMeanPtTrueMult1);\r
1628\r
d269b0e6 1629 fCosmicsHisto->Add(entry->fCosmicsHisto);\r
0aaa8b91 1630\r
1631 for(Int_t i=0; i<AlidNdPtHelper::kCutSteps; i++) {\r
1632 fRecTrackHist1[i]->Add(entry->fRecTrackHist1[i]);\r
1633 }\r
1634\r
1635 for(Int_t i=0; i<8; i++) {\r
1636 fCorrRecTrackMultHist1[i]->Add(entry->fCorrRecTrackMultHist1[i]);\r
15b7cc05 1637 fCorrRecTrackTrueMultHist1[i]->Add(entry->fCorrRecTrackTrueMultHist1[i]);\r
1638\r
1639 fCorrRecTrackMeanPtMultHist1[i]->Add(entry->fCorrRecTrackMeanPtMultHist1[i]);\r
1640 fCorrRecTrackMeanPtTrueMultHist1[i]->Add(entry->fCorrRecTrackMeanPtTrueMultHist1[i]);\r
1641\r
1642 fCorrRecTrackPt1[i]->Add(entry->fCorrRecTrackPt1[i]);\r
0aaa8b91 1643 }\r
1644\r
1645 for(Int_t i=0; i<5; i++) {\r
1646 fCorrRecEventHist1[i]->Add(entry->fCorrRecEventHist1[i]);\r
1647 fCorrRecEventHist2[i]->Add(entry->fCorrRecEventHist2[i]);\r
1648 }\r
1649\r
0aaa8b91 1650 count++;\r
1651 }\r
1652\r
1653return count;\r
1654}\r
1655 \r
00b81913 1656//____________________________________________________________________________\r
1657Int_t AlidNdPtCorrection::GetTrueMult(THnSparse * const hist, Int_t mult) const\r
0aaa8b91 1658{\r
00b81913 1659//\r
1660// get multiplicity of primary particles\r
1661//\r
0aaa8b91 1662 if(!hist) return 0;\r
00b81913 1663 Int_t trueMult = 0;\r
0aaa8b91 1664\r
1665 // 0 bins exluded\r
1666 TAxis *ax = hist->GetAxis(0);\r
1667 TAxis *ay = hist->GetAxis(1);\r
1668 ax->SetRange(1,ax->GetNbins());\r
1669 ay->SetRange(1,ay->GetNbins());\r
1670\r
1671 // measured mult\r
1672 ax->SetRangeUser((Float_t)mult,(Float_t)mult); \r
1673\r
1674 // get true multiplicity\r
1675 TH1D *h1 = (TH1D *)hist->Projection(1);\r
00b81913 1676 trueMult = (Int_t)h1->GetMean();\r
0aaa8b91 1677\r
00b81913 1678 return trueMult;\r
0aaa8b91 1679}\r
1680\r
1681//_____________________________________________________________________________\r
1682void AlidNdPtCorrection::Analyse() \r
1683{\r
1684 // Analyse histograms\r
1685 //\r
1686 TH1::AddDirectory(kFALSE);\r
1687 TH1 *h = 0, *hs=0, *hsc=0; \r
1688 TH2 *h2D = 0; \r
1689\r
1690 TObjArray *aFolderObj = new TObjArray;\r
1691\r
1692 //\r
1693 // get cuts\r
1694 //\r
1695 AlidNdPtEventCuts *evtCuts = GetEventCuts(); \r
1696 AlidNdPtAcceptanceCuts *accCuts = GetAcceptanceCuts(); \r
1697 AliESDtrackCuts *esdTrackCuts = GetTrackCuts(); \r
1698\r
1699 if(!evtCuts || !accCuts || !esdTrackCuts) {\r
1700 Error("AlidNdPtCutAnalysis::Analyse()", "cuts not available");\r
1701 return;\r
1702 }\r
1703\r
1704 //\r
1705 // set min and max values\r
1706 //\r
847e74b2 1707 //Double_t minPt = accCuts->GetMinPt();\r
1708 //Double_t maxPt = accCuts->GetMaxPt();\r
00b81913 1709 Double_t minEta = accCuts->GetMinEta();\r
1710 Double_t maxEta = accCuts->GetMaxEta()-0.00001;\r
d269b0e6 1711 \r
00b81913 1712 printf("minEta %f, maxEta %f \n",minEta, maxEta);\r
d269b0e6 1713\r
1714 //\r
1715 // cosmics background histo\r
1716 //\r
1717 h2D = fCosmicsHisto->Projection(0,1);\r
1718 h2D->SetName("deta_vs_dphi_cosmics");\r
1719 aFolderObj->Add(h2D);\r
0aaa8b91 1720\r
1721 //\r
0aaa8b91 1722 // event level \r
1723 //\r
1724 h = fCorrRecEventHist1[0]->Projection(1);\r
1725 h->SetName("mult_event_not_corrected");\r
1726 aFolderObj->Add(h);\r
1727\r
1728 h = fCorrRecEventHist1[1]->Projection(1);\r
1729 h->SetName("mult_event_vertex_corrected");\r
1730 aFolderObj->Add(h);\r
1731\r
1732 h = fCorrRecEventHist1[2]->Projection(1);\r
1733 h->SetName("mult_trigger_vertex_corrected");\r
1734 aFolderObj->Add(h);\r
1735\r
1736 h = fCorrRecEventHist1[3]->Projection(1);\r
1737 h->SetName("mult_ND_trigger_vertex_corrected");\r
1738 aFolderObj->Add(h);\r
1739\r
1740 h = fCorrRecEventHist1[4]->Projection(1);\r
1741 h->SetName("mult_NSD_trigger_vertex_corrected");\r
1742 aFolderObj->Add(h);\r
1743\r
1744 // empty events\r
1745 h = fCorrRecEventHist2[0]->Projection(1);\r
1746 h->SetName("mult_empty_event_not_corrected");\r
1747 aFolderObj->Add(h);\r
1748\r
1749 h = fCorrRecEventHist2[1]->Projection(1);\r
1750 h->SetName("mult_empty_event_vertex_corrected");\r
1751 aFolderObj->Add(h);\r
1752\r
1753 h = fCorrRecEventHist2[2]->Projection(1);\r
1754 h->SetName("mult_empty_trigger_vertex_corrected");\r
1755 aFolderObj->Add(h);\r
1756\r
1757 h = fCorrRecEventHist2[3]->Projection(1);\r
1758 h->SetName("mult_empty_ND_trigger_vertex_corrected");\r
1759 aFolderObj->Add(h);\r
1760\r
1761 h = fCorrRecEventHist2[4]->Projection(1);\r
1762 h->SetName("mult_empty_NSD_trigger_vertex_corrected");\r
1763 aFolderObj->Add(h);\r
bad4ba69 1764 \r
1765 //\r
1766 // MC available\r
1767 //\r
1768 if(IsUseMCInfo()) {\r
0aaa8b91 1769\r
1770 // mc \r
1771 h = fMCAllEventMultHist1->Projection(1);\r
1772 h->SetName("mc_mult_event_acc_prim");\r
1773 aFolderObj->Add(h);\r
1774\r
1775 h = fMCAllNDEventMultHist1->Projection(1);\r
1776 h->SetName("mc_mult_ND_event_acc_prim");\r
1777 aFolderObj->Add(h);\r
1778\r
1779 h = fMCAllNSDEventMultHist1->Projection(1);\r
1780 h->SetName("mc_mult_NSD_event_acc_prim");\r
1781 aFolderObj->Add(h);\r
1782\r
1783 h = fMCTriggerMultHist1->Projection(1);\r
1784 h->SetName("mc_mult_trigger_acc_prim");\r
1785 aFolderObj->Add(h);\r
1786\r
1787 h = fMCEventMultHist1->Projection(1);\r
1788 h->SetName("mc_mult_trigger_event_acc_prim");\r
1789 aFolderObj->Add(h);\r
1790\r
1791\r
1792 //\r
1793 // track level\r
1794 //\r
1795 \r
1796 // limit eta range\r
1797 for(Int_t i=0;i<8;i++) { \r
3405c7c2 1798 //fCorrRecTrackMultHist1[i]->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1799 //fCorrRecTrackMultHist1[i]->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
0aaa8b91 1800 }\r
3405c7c2 1801 //fMCAllPrimTrackMultHist1->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1802 //fMCAllPrimTrackMultHist1->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
0aaa8b91 1803\r
3405c7c2 1804 //fMCNDEventAllPrimTrackMultHist1->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1805 //fMCNDEventAllPrimTrackMultHist1->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
0aaa8b91 1806\r
3405c7c2 1807 //fMCNSDEventAllPrimTrackMultHist1->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1808 //fMCNSDEventAllPrimTrackMultHist1->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
0aaa8b91 1809\r
3405c7c2 1810 //fMCTriggerPrimTrackMultHist1->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1811 //fMCTriggerPrimTrackMultHist1->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
0aaa8b91 1812\r
3405c7c2 1813 //fMCEventPrimTrackMultHist1->GetAxis(0)->SetRangeUser(minPt,maxPt);\r
1814 //fMCEventPrimTrackMultHist1->GetAxis(1)->SetRangeUser(minEta,maxEta);\r
bad4ba69 1815\r
1816 } // end use MC info \r
0aaa8b91 1817 \r
1818 //\r
1819 h2D = fCorrRecTrackMultHist1[3]->Projection(1,0);\r
1820 h2D->SetName("pt_eta_rec_track_mult_eff_cont_corrected");\r
1821 aFolderObj->Add(h2D);\r
1822\r
1823 h2D = fCorrRecTrackMultHist1[4]->Projection(1,0);\r
1824 h2D->SetName("pt_eta_rec_event_track_mult_eff_cont_corrected");\r
1825 aFolderObj->Add(h2D);\r
1826\r
1827 h2D = fCorrRecTrackMultHist1[5]->Projection(1,0);\r
1828 h2D->SetName("pt_eta_rec_trig_event_track_mult_eff_cont_corrected");\r
1829 aFolderObj->Add(h2D);\r
1830\r
1831 h2D = fCorrRecTrackMultHist1[6]->Projection(1,0);\r
1832 h2D->SetName("pt_eta_rec_ND_trig_event_track_mult_eff_cont_corrected");\r
1833 aFolderObj->Add(h2D);\r
1834\r
1835 h2D = fCorrRecTrackMultHist1[7]->Projection(1,0);\r
1836 h2D->SetName("pt_eta_rec_NSD_trig_event_track_mult_eff_cont_corrected");\r
1837 aFolderObj->Add(h2D);\r
1838\r
1839\r
1840 //\r
1841 h2D = fCorrRecTrackMultHist1[3]->Projection(2,0);\r
1842 h2D->SetName("pt_mult_rec_track_mult_eff_cont_corrected");\r
1843 aFolderObj->Add(h2D);\r
1844\r
1845 h2D = fCorrRecTrackMultHist1[4]->Projection(2,0);\r
1846 h2D->SetName("pt_mult_rec_event_track_mult_eff_cont_corrected");\r
1847 aFolderObj->Add(h2D);\r
1848\r
1849 h2D = fCorrRecTrackMultHist1[5]->Projection(2,0);\r
1850 h2D->SetName("pt_mult_rec_trig_event_track_mult_eff_cont_corrected");\r
1851 aFolderObj->Add(h2D);\r
1852\r
1853 h2D = fCorrRecTrackMultHist1[6]->Projection(2,0);\r
1854 h2D->SetName("pt_mult_rec_ND_trig_event_track_mult_eff_cont_corrected");\r
1855 aFolderObj->Add(h2D);\r
1856\r
1857 h2D = fCorrRecTrackMultHist1[7]->Projection(2,0);\r
1858 h2D->SetName("pt_mult_rec_NSD_trig_event_track_mult_eff_cont_corrected");\r
1859 aFolderObj->Add(h2D);\r
1860\r
1861 // pt axis\r
1862\r
1863 h = fCorrRecTrackMultHist1[0]->Projection(0);\r
1864 h->SetName("pt_rec_track_not_corrected");\r
1865 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1866 hs->SetName("pt_rec_track_not_corrected_s");\r
1867 aFolderObj->Add(hs);\r
1868\r
1869 //\r
1870 h = fCorrRecTrackMultHist1[1]->Projection(0);\r
1871 h->SetName("pt_rec_track_cont_corrected");\r
1872 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1873 hs->SetName("pt_rec_track_cont_corrected_s");\r
1874 aFolderObj->Add(hs);\r
1875\r
1876 hsc = (TH1D*)hs->Clone("pt_rec_track_cont_corr_fact");\r
1877 hsc->Divide((TH1D*)aFolderObj->FindObject("pt_rec_track_not_corrected_s"));\r
1878 aFolderObj->Add(hsc);\r
1879\r
1880 //\r
1881 h = fCorrRecTrackMultHist1[2]->Projection(0);\r
1882 h->SetName("pt_rec_track_eff_cont_corrected");\r
1883 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1884 hs->SetName("pt_rec_track_eff_cont_corrected_s");\r
1885 aFolderObj->Add(hs);\r
1886\r
1887 hsc = (TH1D*)hs->Clone("pt_rec_track_eff_corr_fact");\r
1888 hsc->Divide((TH1D*)aFolderObj->FindObject("pt_rec_track_cont_corrected_s"));\r
1889 aFolderObj->Add(hsc);\r
1890\r
1891 //\r
1892 h = fCorrRecTrackMultHist1[3]->Projection(0);\r
1893 h->SetName("pt_rec_track_mult_eff_cont_corrected");\r
1894 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1895 hs->SetName("pt_rec_track_mult_eff_cont_corrected_s");\r
1896 aFolderObj->Add(hs);\r
1897\r
1898 hsc = (TH1D*)hs->Clone("pt_rec_track_mult_corr_fact");\r
1899 hsc->Divide((TH1D*)aFolderObj->FindObject("pt_rec_track_eff_cont_corrected_s"));\r
1900 aFolderObj->Add(hsc);\r
1901\r
1902 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1903 hsc = (TH1D*)hs->Clone("pt_rec_track_mult_eff_cont_corr_fact");\r
1904 hsc->Divide((TH1D*)aFolderObj->FindObject("pt_rec_track_not_corrected_s"));\r
1905 aFolderObj->Add(hsc);\r
1906\r
1907 hsc = (TH1D*)hs->Clone();\r
1908 hsc->SetName("pt_rec_track_mult_eff_cont_corrected_s_norm");\r
1909 hsc->Scale(1./(fCorrRecEventHist1[0]->Projection(1)->Integral()));\r
1910 aFolderObj->Add(hsc);\r
1911\r
1912 //\r
1913 h = fCorrRecTrackMultHist1[4]->Projection(0);\r
1914 h->SetName("pt_rec_event_track_mult_eff_cont_corrected");\r
1915 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1916 hs->SetName("pt_rec_event_track_mult_eff_cont_corrected_s");\r
1917 aFolderObj->Add(hs);\r
1918\r
1919 hsc = (TH1D*)hs->Clone();\r
1920 hsc->SetName("pt_rec_event_track_mult_eff_cont_corrected_s_norm");\r
1921 hsc->Scale(1./(fCorrRecEventHist1[1]->Projection(1)->Integral()+fCorrRecEventHist2[1]->Projection(1)->Integral()));\r
1922 aFolderObj->Add(hsc);\r
1923\r
1924 //\r
1925 h = fCorrRecTrackMultHist1[5]->Projection(0);\r
1926 h->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected");\r
1927 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1928 hs->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s");\r
1929 aFolderObj->Add(hs);\r
1930\r
1931 hsc = (TH1D*)hs->Clone();\r
1932 hsc->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s_norm");\r
1933 hsc->Scale(1./(fCorrRecEventHist1[2]->Projection(1)->Integral() + fCorrRecEventHist2[2]->Projection(1)->Integral()));\r
1934 aFolderObj->Add(hsc);\r
1935\r
00b81913 1936 // positive eta\r
1937 fCorrRecTrackMultHist1[5]->GetAxis(1)->SetRangeUser(0., maxEta);\r
1938\r
1939 h = fCorrRecTrackMultHist1[5]->Projection(0);\r
1940 h->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_posEta");\r
1941 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1942 hs->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s_posEta");\r
1943 aFolderObj->Add(hs);\r
1944\r
1945 hsc = (TH1D*)hs->Clone();\r
1946 hsc->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s_norm_posEta");\r
1947 hsc->Scale(1./(fCorrRecEventHist1[2]->Projection(1)->Integral()+fCorrRecEventHist2[2]->Projection(1)->Integral()));\r
1948 aFolderObj->Add(hsc);\r
1949\r
1950 // negative eta\r
1951 fCorrRecTrackMultHist1[5]->GetAxis(1)->SetRangeUser(minEta, -0.00001);\r
1952\r
1953 h = fCorrRecTrackMultHist1[5]->Projection(0);\r
1954 h->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_negEta");\r
1955 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1956 hs->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s_negEta");\r
1957 aFolderObj->Add(hs);\r
1958\r
1959 hsc = (TH1D*)hs->Clone();\r
1960 hsc->SetName("pt_rec_trig_event_track_mult_eff_cont_corrected_s_norm_negEta");\r
1961 hsc->Scale(1./(fCorrRecEventHist1[2]->Projection(1)->Integral()+fCorrRecEventHist2[2]->Projection(1)->Integral()));\r
1962 aFolderObj->Add(hsc);\r
1963\r
1964 fCorrRecTrackMultHist1[5]->GetAxis(1)->SetRange(1, fCorrRecTrackMultHist1[5]->GetAxis(1)->GetNbins());\r
1965\r
0aaa8b91 1966 //\r
1967 h = fCorrRecTrackMultHist1[6]->Projection(0);\r
1968 h->SetName("pt_rec_ND_trig_event_track_mult_eff_cont_corrected");\r
1969 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1970 hs->SetName("pt_rec_ND_trig_event_track_mult_eff_cont_corrected_s");\r
1971 aFolderObj->Add(hs);\r
1972\r
1973 hsc = (TH1D*)hs->Clone();\r
1974 hsc->SetName("pt_rec_ND_trig_event_track_mult_eff_cont_corrected_s_norm");\r
1975 hsc->Scale(1./(fCorrRecEventHist1[3]->Projection(1)->Integral()+fCorrRecEventHist2[3]->Projection(1)->Integral()));\r
1976 aFolderObj->Add(hsc);\r
1977\r
1978 //\r
1979 h = fCorrRecTrackMultHist1[7]->Projection(0);\r
1980 h->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected");\r
1981 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1982 hs->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s");\r
1983 aFolderObj->Add(hs);\r
1984\r
1985 hsc = (TH1D*)hs->Clone();\r
1986 hsc->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_norm");\r
15b7cc05 1987 hsc->Scale(1./(fCorrRecEventHist1[4]->Projection(1)->Integral() + fCorrRecEventHist2[4]->Projection(1)->Integral()));\r
0aaa8b91 1988 aFolderObj->Add(hsc);\r
1989\r
00b81913 1990 //\r
1991 // positive eta\r
1992 //\r
1993 fCorrRecTrackMultHist1[7]->GetAxis(1)->SetRangeUser(0., maxEta);\r
1994\r
1995 h = fCorrRecTrackMultHist1[7]->Projection(0);\r
1996 h->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_posEta");\r
1997 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
1998 hs->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_posEta");\r
1999 aFolderObj->Add(hs);\r
2000\r
2001 hsc = (TH1D*)hs->Clone();\r
2002 hsc->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_norm_posEta");\r
2003 hsc->Scale(1./(fCorrRecEventHist1[4]->Projection(1)->Integral()+fCorrRecEventHist2[4]->Projection(1)->Integral()));\r
2004 aFolderObj->Add(hsc);\r
2005\r
2006 //\r
2007 // negative eta\r
2008 //\r
2009 fCorrRecTrackMultHist1[7]->GetAxis(1)->SetRangeUser(minEta, -0.00001);\r
2010\r
2011 h = fCorrRecTrackMultHist1[7]->Projection(0);\r
2012 h->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_negEta");\r
2013 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2014 hs->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_negEta");\r
2015 aFolderObj->Add(hs);\r
2016\r
2017 hsc = (TH1D*)hs->Clone();\r
2018 hsc->SetName("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_norm_negEta");\r
2019 hsc->Scale(1./(fCorrRecEventHist1[4]->Projection(1)->Integral()+fCorrRecEventHist2[4]->Projection(1)->Integral()));\r
2020 aFolderObj->Add(hsc);\r
2021\r
2022 fCorrRecTrackMultHist1[7]->GetAxis(1)->SetRange(1, fCorrRecTrackMultHist1[7]->GetAxis(1)->GetNbins());\r
2023\r
0aaa8b91 2024 // eta axis\r
2025 h = fCorrRecTrackMultHist1[0]->Projection(1);\r
2026 h->SetName("eta_rec_track_not_corrected");\r
2027 aFolderObj->Add(h);\r
2028 \r
2029 h = fCorrRecTrackMultHist1[1]->Projection(1);\r
2030 h->SetName("eta_rec_track_cont_corrected");\r
2031 aFolderObj->Add(h);\r
2032\r
2033 h = fCorrRecTrackMultHist1[2]->Projection(1);\r
2034 h->SetName("eta_rec_track_eff_cont_corrected");\r
2035 aFolderObj->Add(h);\r
2036\r
2037 h = fCorrRecTrackMultHist1[3]->Projection(1);\r
2038 h->SetName("eta_rec_track_mult_eff_cont_corrected");\r
2039 aFolderObj->Add(h);\r
2040\r
2041 h = fCorrRecTrackMultHist1[4]->Projection(1);\r
2042 h->SetName("eta_rec_event_track_mult_eff_cont_corrected");\r
2043 aFolderObj->Add(h);\r
2044\r
2045 h = fCorrRecTrackMultHist1[5]->Projection(1);\r
2046 h->SetName("eta_rec_trig_event_track_mult_eff_cont_corrected");\r
2047 aFolderObj->Add(h);\r
2048\r
2049 h = fCorrRecTrackMultHist1[6]->Projection(1);\r
2050 h->SetName("eta_rec_ND_trig_event_track_mult_eff_cont_corrected");\r
2051 aFolderObj->Add(h);\r
2052\r
2053 h = fCorrRecTrackMultHist1[7]->Projection(1);\r
2054 h->SetName("eta_rec_NSD_trig_event_track_mult_eff_cont_corrected");\r
2055 aFolderObj->Add(h);\r
2056\r
2057\r
bad4ba69 2058 //\r
2059 // MC available\r
2060 //\r
2061 if(IsUseMCInfo()) {\r
0aaa8b91 2062\r
2063 //\r
2064 h2D = fMCAllPrimTrackMultHist1->Projection(2,0);\r
2065 h2D->SetName("mc_all_pt_mult_acc_prim");\r
2066 aFolderObj->Add(h2D);\r
2067\r
2068 h2D = fMCAllPrimTrackMultHist1->Projection(1,0);\r
2069 h2D->SetName("mc_all_eta_pt_acc_prim");\r
2070 aFolderObj->Add(h2D);\r
2071\r
2072 h2D = fMCNDEventAllPrimTrackMultHist1->Projection(2,0);\r
2073 h2D->SetName("mc_ND_all_pt_mult_acc_prim");\r
2074 aFolderObj->Add(h2D);\r
2075\r
2076 h2D = fMCNDEventAllPrimTrackMultHist1->Projection(1,0);\r
2077 h2D->SetName("mc_ND_all_eta_pt_acc_prim");\r
2078 aFolderObj->Add(h2D);\r
2079\r
2080 h2D = fMCNSDEventAllPrimTrackMultHist1->Projection(2,0);\r
2081 h2D->SetName("mc_NSD_all_pt_mult_acc_prim");\r
2082 aFolderObj->Add(h2D);\r
2083\r
2084 h2D = fMCNSDEventAllPrimTrackMultHist1->Projection(1,0);\r
2085 h2D->SetName("mc_NSD_all_eta_pt_acc_prim");\r
2086 aFolderObj->Add(h2D);\r
2087\r
2088 //\r
2089\r
2090 h = fMCAllPrimTrackMultHist1->Projection(0);\r
2091 h->SetName("mc_all_pt_acc_prim");\r
2092 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2093 hs->SetName("mc_all_pt_acc_prim_s");\r
2094 aFolderObj->Add(hs);\r
2095\r
2096 hsc = (TH1D*)hs->Clone();\r
2097 hsc->SetName("mc_all_pt_acc_prim_s_norm");\r
2098 hsc->Scale(1./fMCAllEventMultHist1->Projection(1)->Integral());\r
2099 aFolderObj->Add(hsc);\r
2100\r
2101 h = fMCNDEventAllPrimTrackMultHist1->Projection(0);\r
2102 h->SetName("mc_ND_all_pt_acc_prim");\r
2103 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2104 hs->SetName("mc_ND_all_pt_acc_prim_s");\r
2105 aFolderObj->Add(hs);\r
2106\r
2107 hsc = (TH1D*)hs->Clone();\r
2108 hsc->SetName("mc_ND_all_pt_acc_prim_s_norm");\r
2109 hsc->Scale(1./fMCAllNDEventMultHist1->Projection(1)->Integral());\r
2110 aFolderObj->Add(hsc);\r
2111\r
2112 h = fMCNSDEventAllPrimTrackMultHist1->Projection(0);\r
2113 h->SetName("mc_NSD_all_pt_acc_prim");\r
2114 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2115 hs->SetName("mc_NSD_all_pt_acc_prim_s");\r
2116 aFolderObj->Add(hs);\r
2117\r
2118 hsc = (TH1D*)hs->Clone();\r
2119 hsc->SetName("mc_NSD_all_pt_acc_prim_s_norm");\r
2120 hsc->Scale(1./fMCAllNSDEventMultHist1->Projection(1)->Integral());\r
2121 aFolderObj->Add(hsc);\r
2122\r
2123 h = fMCTriggerPrimTrackMultHist1->Projection(0);\r
2124 h->SetName("mc_trigger_all_pt_acc_prim");\r
2125 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2126 hs->SetName("mc_trigger_all_pt_acc_prim_s");\r
2127 aFolderObj->Add(hs);\r
2128\r
2129 hsc = (TH1D*)hs->Clone();\r
2130 hsc->SetName("mc_trigger_all_pt_acc_prim_s_norm");\r
2131 hsc->Scale(1./fMCTriggerMultHist1->Projection(1)->Integral());\r
2132 aFolderObj->Add(hsc);\r
2133\r
2134 h = fMCEventPrimTrackMultHist1->Projection(0);\r
2135 h->SetName("mc_all_pt_acc_trig_event_prim");\r
2136 hs = AlidNdPtHelper::ScaleByBinWidth(h);\r
2137 hs->SetName("mc_all_pt_acc_trig_event_prim_s");\r
2138 aFolderObj->Add(hs);\r
2139\r
2140 hsc = (TH1D*)hs->Clone();\r
2141 hsc->SetName("mc_all_pt_acc_trig_event_prim_s_norm");\r
2142 hsc->Scale(1./fMCEventMultHist1->Projection(1)->Integral());\r
2143 aFolderObj->Add(hsc);\r
2144\r
2145 //\r
2146\r
2147 h = fMCAllPrimTrackMultHist1->Projection(1);\r
2148 h->SetName("mc_all_eta_acc_prim");\r
2149 aFolderObj->Add(h);\r
2150\r
2151 h = fMCNDEventAllPrimTrackMultHist1->Projection(1);\r
2152 h->SetName("mc_ND_all_eta_acc_prim");\r
2153 aFolderObj->Add(h);\r
2154\r
2155 h = fMCNSDEventAllPrimTrackMultHist1->Projection(1);\r
2156 h->SetName("mc_NSD_all_eta_acc_prim");\r
2157 aFolderObj->Add(h);\r
2158\r
2159 h = fMCTriggerPrimTrackMultHist1->Projection(1);\r
2160 h->SetName("mc_trigger_all_eta_acc_prim");\r
2161 aFolderObj->Add(h);\r
2162\r
2163 h = fMCEventPrimTrackMultHist1->Projection(1);\r
2164 h->SetName("mc_all_eta_acc_trig_event_prim");\r
2165 aFolderObj->Add(h);\r
2166\r
2167 //\r
2168 // calculate ratios (rec / mc)\r
2169 //\r
2170 \r
2171 hs = (TH1*)aFolderObj->FindObject("pt_rec_trig_event_track_mult_eff_cont_corrected_s_norm");\r
2172 hsc = (TH1D*)hs->Clone("ratio_pt_rec_to_mc_trig_event_track_mult_eff_cont_corrected"); \r
2173 hsc->Sumw2();\r
2174 hsc->Divide((TH1*)aFolderObj->FindObject("mc_all_pt_acc_prim_s_norm"));\r
2175 aFolderObj->Add(hsc);\r
2176\r
2177 hs = (TH1*)aFolderObj->FindObject("eta_rec_trig_event_track_mult_eff_cont_corrected");\r
2178 hsc = (TH1D*)hs->Clone("ratio_eta_rec_to_mc_trig_event_track_mult_eff_cont_corrected"); \r
2179 hsc->Sumw2();\r
2180 hsc->Divide((TH1*)aFolderObj->FindObject("mc_all_eta_acc_prim"));\r
2181 aFolderObj->Add(hsc);\r
2182\r
2183 //\r
2184 hs = (TH1*)aFolderObj->FindObject("pt_rec_ND_trig_event_track_mult_eff_cont_corrected_s_norm");\r
2185 hsc = (TH1D*)hs->Clone("ratio_pt_rec_to_mc_ND_trig_event_track_mult_eff_cont_corrected"); \r
2186 hsc->Sumw2();\r
2187 hsc->Divide((TH1*)aFolderObj->FindObject("mc_ND_all_pt_acc_prim_s_norm"));\r
2188 aFolderObj->Add(hsc);\r
2189\r
2190 hs = (TH1*)aFolderObj->FindObject("eta_rec_ND_trig_event_track_mult_eff_cont_corrected");\r
2191 hsc = (TH1D*)hs->Clone("ratio_eta_rec_to_mc_ND_trig_event_track_mult_eff_cont_corrected"); \r
2192 hsc->Sumw2();\r
2193 hsc->Divide((TH1*)aFolderObj->FindObject("mc_ND_all_eta_acc_prim"));\r
2194 aFolderObj->Add(hsc);\r
2195\r
2196 //\r
2197 hs = (TH1*)aFolderObj->FindObject("pt_rec_NSD_trig_event_track_mult_eff_cont_corrected_s_norm");\r
2198 hsc = (TH1D*)hs->Clone("ratio_pt_rec_to_mc_NSD_trig_event_track_mult_eff_cont_corrected"); \r
2199 hsc->Sumw2();\r
2200 hsc->Divide((TH1*)aFolderObj->FindObject("mc_NSD_all_pt_acc_prim_s_norm"));\r
2201 aFolderObj->Add(hsc);\r
2202\r
2203 hs = (TH1*)aFolderObj->FindObject("eta_rec_NSD_trig_event_track_mult_eff_cont_corrected");\r
2204 hsc = (TH1D*)hs->Clone("ratio_eta_rec_to_mc_NSD_trig_event_track_mult_eff_cont_corrected"); \r
2205 hsc->Sumw2();\r
2206 hsc->Divide((TH1*)aFolderObj->FindObject("mc_NSD_all_eta_acc_prim"));\r
2207 aFolderObj->Add(hsc);\r
2208\r
2209 //\r
2210 hs = (TH1*)aFolderObj->FindObject("pt_rec_event_track_mult_eff_cont_corrected_s_norm");\r
2211 hsc = (TH1D*)hs->Clone("ratio_pt_rec_to_mc_event_track_mult_eff_cont_corrected"); \r
2212 hsc->Sumw2();\r
2213 hsc->Divide((TH1*)aFolderObj->FindObject("mc_trigger_all_pt_acc_prim_s_norm"));\r
2214 aFolderObj->Add(hsc);\r
2215\r
2216 hs = (TH1*)aFolderObj->FindObject("eta_rec_event_track_mult_eff_cont_corrected");\r
2217 hsc = (TH1D*)hs->Clone("ratio_eta_rec_to_mc_event_track_mult_eff_cont_corrected"); \r
2218 hsc->Sumw2();\r
2219 hsc->Divide((TH1*)aFolderObj->FindObject("mc_trigger_all_eta_acc_prim"));\r
2220 aFolderObj->Add(hsc);\r
2221\r
2222 // track level\r
2223 hs = (TH1*)aFolderObj->FindObject("pt_rec_track_mult_eff_cont_corrected_s_norm");\r
2224 hsc = (TH1D*)hs->Clone("ratio_pt_rec_to_mc_track_mult_eff_cont_corrected"); \r
2225 hsc->Sumw2();\r
2226 hsc->Divide((TH1*)aFolderObj->FindObject("mc_all_pt_acc_trig_event_prim_s_norm"));\r
2227 aFolderObj->Add(hsc);\r
2228\r
2229 hs = (TH1*)aFolderObj->FindObject("eta_rec_track_mult_eff_cont_corrected");\r
2230 hsc = (TH1D*)hs->Clone("ratio_eta_rec_to_mc_track_mult_eff_cont_corrected"); \r
2231 hsc->Sumw2();\r
2232 hsc->Divide((TH1*)aFolderObj->FindObject("mc_all_eta_acc_trig_event_prim"));\r
2233 aFolderObj->Add(hsc);\r
2234\r
bad4ba69 2235 } // end MC infor available\r
2236\r
0aaa8b91 2237 // export objects to analysis folder\r
2238 fCorrectionFolder = ExportToFolder(aFolderObj);\r
2239\r
2240 // delete only TObjArray\r
2241 if(aFolderObj) delete aFolderObj;\r
2242}\r
2243\r
2244//_____________________________________________________________________________\r
c931948b 2245TFolder* AlidNdPtCorrection::ExportToFolder(TObjArray * const array) \r
0aaa8b91 2246{\r
2247 // recreate folder avery time and export objects to new one\r
2248 //\r
2249 AlidNdPtCorrection * comp=this;\r
2250 TFolder *folder = comp->GetCorrectionFolder();\r
2251\r
2252 TString name, title;\r
2253 TFolder *newFolder = 0;\r
2254 Int_t i = 0;\r
2255 Int_t size = array->GetSize();\r
2256\r
2257 if(folder) { \r
2258 // get name and title from old folder\r
2259 name = folder->GetName(); \r
2260 title = folder->GetTitle(); \r
2261\r
2262 // delete old one\r
2263 delete folder;\r
2264\r
2265 // create new one\r
2266 newFolder = CreateFolder(name.Data(),title.Data());\r
2267 newFolder->SetOwner();\r
2268\r
2269 // add objects to folder\r
2270 while(i < size) {\r
2271 newFolder->Add(array->At(i));\r
2272 i++;\r
2273 }\r
2274 }\r
2275\r
2276return newFolder;\r
2277}\r
2278\r
2279//_____________________________________________________________________________\r
2280TFolder* AlidNdPtCorrection::CreateFolder(TString name,TString title) { \r
2281// create folder for analysed histograms\r
2282//\r
2283TFolder *folder = 0;\r
2284 folder = new TFolder(name.Data(),title.Data());\r
2285\r
2286 return folder;\r
2287}\r