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af0d4791 | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | |
17 | // | |
18 | // This task is meant to explore the possibility of using a VZERO amplitude | |
19 | // based multiplicity estimator for proton-proton collisions. For this, two | |
20 | // main operation methods for this task are foreseen: | |
21 | // | |
22 | // 1) (under development) it should act as an auxiliary task and provide a | |
23 | // calibrated estimator | |
24 | // | |
25 | // 2) "Debug mode" which will also create a ROOT TTree object with event | |
26 | // by event info potentially used for exploration / calibration. This | |
27 | // includes the following info: | |
28 | // | |
29 | // --- All VZERO Amplitudes (saved as Float_t) | |
30 | // --- (optional) time for each channel | |
31 | // --- (optional) time width for each channel | |
32 | // --- GetReferenceMultiplicity Estimator, |eta|<0.5 | |
33 | // --- GetReferenceMultiplicity Estimator, |eta|<0.8 | |
34 | // --- (if MC) True Multiplicity, |eta|<0.5 | |
35 | // --- (if MC) True Multiplicity, 2.8 < eta < 5.8 (VZEROA region) | |
36 | // --- (if MC) True Multiplicity, -3.7 < eta <-1.7 (VZEROC region) | |
37 | // --- Run Number | |
38 | // | |
39 | // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | |
40 | ||
41 | class TTree; | |
42 | class TParticle; | |
43 | class TVector3; | |
44 | ||
45 | //class AliMCEventHandler; | |
46 | //class AliMCEvent; | |
47 | //class AliStack; | |
48 | ||
49 | class AliESDVertex; | |
50 | class AliAODVertex; | |
51 | class AliESDv0; | |
52 | class AliAODv0; | |
53 | ||
54 | #include <Riostream.h> | |
55 | #include "TList.h" | |
56 | #include "TH1.h" | |
57 | #include "TH2.h" | |
58 | #include "TH3.h" | |
59 | #include "TFile.h" | |
60 | #include "THnSparse.h" | |
61 | #include "TVector3.h" | |
62 | #include "TCanvas.h" | |
63 | #include "TMath.h" | |
64 | #include "TLegend.h" | |
65 | //#include "AliLog.h" | |
66 | ||
67 | #include "AliESDEvent.h" | |
68 | #include "AliAODEvent.h" | |
69 | #include "AliV0vertexer.h" | |
70 | #include "AliCascadeVertexer.h" | |
71 | #include "AliESDpid.h" | |
72 | #include "AliESDtrack.h" | |
73 | #include "AliESDtrackCuts.h" | |
74 | #include "AliInputEventHandler.h" | |
75 | #include "AliAnalysisManager.h" | |
76 | #include "AliMCEventHandler.h" | |
77 | #include "AliMCEvent.h" | |
78 | #include "AliStack.h" | |
79 | #include "AliCentrality.h" | |
535c1213 | 80 | #include "AliPPVsMultUtils.h" |
2ca41fef | 81 | #include "AliPWG0Helper.h" |
af0d4791 | 82 | #include "AliCFContainer.h" |
83 | #include "AliMultiplicity.h" | |
84 | #include "AliAODMCParticle.h" | |
85 | #include "AliESDcascade.h" | |
86 | #include "AliAODcascade.h" | |
87 | #include "AliESDUtils.h" | |
88 | #include "AliGenEventHeader.h" | |
89 | #include "AliAnalysisTaskSE.h" | |
90 | #include "AliAnalysisUtils.h" | |
91 | #include "AliAnalysisTaskStrangenessVsMultiplicityMC.h" | |
92 | ||
535c1213 | 93 | |
af0d4791 | 94 | using std::cout; |
95 | using std::endl; | |
96 | ||
97 | ClassImp(AliAnalysisTaskStrangenessVsMultiplicityMC) | |
98 | ||
99 | AliAnalysisTaskStrangenessVsMultiplicityMC::AliAnalysisTaskStrangenessVsMultiplicityMC() | |
d8c18e93 | 100 | : AliAnalysisTaskSE(), fListHist(0), fTreeEvent(0), fTreeV0(0), fTreeCascade(0), fPIDResponse(0), fESDtrackCuts(0), fPPVsMultUtils(0), fUtils(0), |
af0d4791 | 101 | fkSaveV0Tree ( kFALSE ), |
102 | fkSaveCascadeTree ( kTRUE ), | |
dedb9266 | 103 | fkRunVertexers ( kTRUE ), |
104 | fkSkipEventSelection( kFALSE ), | |
d8c18e93 | 105 | fkApplyTrackletsVsClustersCut( kTRUE ), |
af0d4791 | 106 | //---> Variables for fTreeEvent |
107 | fAmplitude_V0A (0), | |
108 | fAmplitude_V0C (0), | |
109 | fAmplitude_V0AEq (0), | |
110 | fAmplitude_V0CEq (0), | |
111 | fCentrality_V0A(0), | |
112 | fCentrality_V0C(0), | |
113 | fCentrality_V0M(0), | |
114 | fCentrality_V0AEq(0), | |
115 | fCentrality_V0CEq(0), | |
116 | fCentrality_V0MEq(0), | |
535c1213 | 117 | fCustomCentrality_V0M(0), |
118 | fCustomCentrality_V0MEq(0), | |
af0d4791 | 119 | fRefMultEta5(0), |
120 | fRefMultEta8(0), | |
121 | fTrueMultEta5(0), | |
122 | fTrueMultEta8(0), | |
123 | fTrueMultVZEROA(0), | |
124 | fTrueMultVZEROC(0), | |
125 | fRunNumber(0), | |
39b65ed7 | 126 | fEvSel_HasAtLeastSPDVertex(0), |
127 | fEvSel_VtxZCut(0), | |
128 | fEvSel_IsNotPileup(0), | |
129 | fEvSel_IsNotPileupMV(0), | |
130 | fEvSel_IsNotPileupInMultBins(0), | |
131 | fEvSel_HasVtxContributor(0), | |
132 | fEvSel_Triggered(0), | |
133 | fEvSel_VtxZ(0), | |
134 | fEvSel_MCType(0), | |
161c57ac | 135 | //---> Variables for fTreeV0 |
136 | fTreeVariableChi2V0(0), | |
137 | fTreeVariableDcaV0Daughters(0), | |
138 | fTreeVariableDcaV0ToPrimVertex(0), | |
139 | fTreeVariableDcaPosToPrimVertex(0), | |
140 | fTreeVariableDcaNegToPrimVertex(0), | |
141 | fTreeVariableV0CosineOfPointingAngle(0), | |
142 | fTreeVariableV0Radius(0), | |
143 | fTreeVariablePt(0), | |
144 | fTreeVariablePtMC(0), | |
145 | fTreeVariableRapK0Short(0), | |
146 | fTreeVariableRapLambda(0), | |
147 | fTreeVariableRapMC(0), | |
148 | fTreeVariableInvMassK0s(0), | |
149 | fTreeVariableInvMassLambda(0), | |
150 | fTreeVariableInvMassAntiLambda(0), | |
151 | fTreeVariableAlphaV0(0), | |
152 | fTreeVariablePtArmV0(0), | |
153 | fTreeVariableNegEta(0), | |
154 | fTreeVariablePosEta(0), | |
155 | ||
156 | fTreeVariableNSigmasPosProton(0), | |
157 | fTreeVariableNSigmasPosPion(0), | |
158 | fTreeVariableNSigmasNegProton(0), | |
159 | fTreeVariableNSigmasNegPion(0), | |
160 | ||
161 | fTreeVariableDistOverTotMom(0), | |
162 | fTreeVariableLeastNbrCrossedRows(0), | |
163 | fTreeVariableLeastRatioCrossedRowsOverFindable(0), | |
164 | ||
161c57ac | 165 | fTreeVariableCentV0M(0), |
161c57ac | 166 | fTreeVariableCentV0MEq(0), |
9a28e152 | 167 | fTreeVariableCustomCentV0M(0), |
161c57ac | 168 | fTreeVariableRefMultEta8(0), |
169 | fTreeVariableRefMultEta5(0), | |
170 | fTreeVariableRunNumber(0), | |
171 | ||
172 | fTreeVariablePtMother(0), | |
173 | fTreeVariablePID(0), | |
174 | fTreeVariablePIDPositive(0), | |
175 | fTreeVariablePIDNegative(0), | |
176 | fTreeVariablePIDMother(0), | |
177 | fTreeVariablePrimaryStatus(0), | |
178 | fTreeVariablePrimaryStatusMother(0), | |
af0d4791 | 179 | //---> Variables for fTreeCascade |
180 | fTreeCascVarCharge(0), | |
181 | fTreeCascVarMassAsXi(0), | |
182 | fTreeCascVarMassAsOmega(0), | |
183 | fTreeCascVarPt(0), | |
184 | fTreeCascVarPtMC(0), | |
185 | fTreeCascVarRapXi(0), | |
186 | fTreeCascVarRapOmega(0), | |
187 | fTreeCascVarRapMC(0), | |
188 | fTreeCascVarNegEta(0), | |
189 | fTreeCascVarPosEta(0), | |
190 | fTreeCascVarBachEta(0), | |
191 | fTreeCascVarDCACascDaughters(0), | |
192 | fTreeCascVarDCABachToPrimVtx(0), | |
193 | fTreeCascVarDCAV0Daughters(0), | |
194 | fTreeCascVarDCAV0ToPrimVtx(0), | |
195 | fTreeCascVarDCAPosToPrimVtx(0), | |
196 | fTreeCascVarDCANegToPrimVtx(0), | |
197 | fTreeCascVarCascCosPointingAngle(0), | |
198 | fTreeCascVarCascRadius(0), | |
199 | fTreeCascVarV0Mass(0), | |
200 | fTreeCascVarV0CosPointingAngle(0), | |
201 | fTreeCascVarV0CosPointingAngleSpecial(0), | |
202 | fTreeCascVarV0Radius(0), | |
203 | fTreeCascVarLeastNbrClusters(0), | |
204 | fTreeCascVarDistOverTotMom(0), | |
205 | fTreeCascVarNegNSigmaPion(0), | |
206 | fTreeCascVarNegNSigmaProton(0), | |
207 | fTreeCascVarPosNSigmaPion(0), | |
208 | fTreeCascVarPosNSigmaProton(0), | |
209 | fTreeCascVarBachNSigmaPion(0), | |
210 | fTreeCascVarBachNSigmaKaon(0), | |
af0d4791 | 211 | fTreeCascVarCentV0M(0), |
af0d4791 | 212 | fTreeCascVarCentV0MEq(0), |
9a28e152 | 213 | fTreeCascVarCustomCentV0M(0), |
af0d4791 | 214 | fTreeCascVarRefMultEta8(0), |
215 | fTreeCascVarRefMultEta5(0), | |
216 | fTreeCascVarTrueMultEta5(0), | |
217 | fTreeCascVarTrueMultEta8(0), | |
218 | fTreeCascVarTrueMultVZEROA(0), | |
219 | fTreeCascVarTrueMultVZEROC(0), | |
220 | fTreeCascVarIsPhysicalPrimary(0), | |
221 | fTreeCascVarPID(0), | |
26d39641 | 222 | fTreeCascVarRunNumber(0), |
af0d4791 | 223 | //---> Histograms |
224 | fHistEventCounter(0), | |
225 | //---> MC Generated Histo (analysis level) | |
161c57ac | 226 | fHistPt_GenK0Short(0), |
227 | fHistPt_GenLambda(0), | |
228 | fHistPt_GenAntiLambda(0), | |
af0d4791 | 229 | fHistPt_GenXiMinus(0), |
230 | fHistPt_GenXiPlus(0), | |
231 | fHistPt_GenOmegaMinus(0), | |
232 | fHistPt_GenOmegaPlus(0), | |
233 | ||
234 | //VsRefMult | |
235 | fHistPtVsRefMultEta5_GenXiMinus(0), | |
236 | fHistPtVsRefMultEta5_GenXiPlus(0), | |
237 | fHistPtVsRefMultEta5_GenOmegaMinus(0), | |
238 | fHistPtVsRefMultEta5_GenOmegaPlus(0), | |
239 | fHistPtVsRefMultEta8_GenXiMinus(0), | |
240 | fHistPtVsRefMultEta8_GenXiPlus(0), | |
241 | fHistPtVsRefMultEta8_GenOmegaMinus(0), | |
242 | fHistPtVsRefMultEta8_GenOmegaPlus(0), | |
243 | ||
244 | //VsCentralities | |
245 | fHistPtVsCentV0A_GenXiMinus(0), | |
246 | fHistPtVsCentV0A_GenXiPlus(0), | |
247 | fHistPtVsCentV0A_GenOmegaMinus(0), | |
248 | fHistPtVsCentV0A_GenOmegaPlus(0), | |
249 | fHistPtVsCentV0C_GenXiMinus(0), | |
250 | fHistPtVsCentV0C_GenXiPlus(0), | |
251 | fHistPtVsCentV0C_GenOmegaMinus(0), | |
252 | fHistPtVsCentV0C_GenOmegaPlus(0), | |
253 | fHistPtVsCentV0M_GenXiMinus(0), | |
254 | fHistPtVsCentV0M_GenXiPlus(0), | |
255 | fHistPtVsCentV0M_GenOmegaMinus(0), | |
256 | fHistPtVsCentV0M_GenOmegaPlus(0), | |
257 | ||
258 | //Equalized | |
259 | fHistPtVsCentV0AEq_GenXiMinus(0), | |
260 | fHistPtVsCentV0AEq_GenXiPlus(0), | |
261 | fHistPtVsCentV0AEq_GenOmegaMinus(0), | |
262 | fHistPtVsCentV0AEq_GenOmegaPlus(0), | |
263 | fHistPtVsCentV0CEq_GenXiMinus(0), | |
264 | fHistPtVsCentV0CEq_GenXiPlus(0), | |
265 | fHistPtVsCentV0CEq_GenOmegaMinus(0), | |
266 | fHistPtVsCentV0CEq_GenOmegaPlus(0), | |
267 | fHistPtVsCentV0MEq_GenXiMinus(0), | |
268 | fHistPtVsCentV0MEq_GenXiPlus(0), | |
269 | fHistPtVsCentV0MEq_GenOmegaMinus(0), | |
270 | fHistPtVsCentV0MEq_GenOmegaPlus(0), | |
271 | ||
272 | //VsAmp | |
273 | fHistPtVsAmpV0A_GenXiMinus(0), | |
274 | fHistPtVsAmpV0A_GenXiPlus(0), | |
275 | fHistPtVsAmpV0A_GenOmegaMinus(0), | |
276 | fHistPtVsAmpV0A_GenOmegaPlus(0), | |
277 | fHistPtVsAmpV0C_GenXiMinus(0), | |
278 | fHistPtVsAmpV0C_GenXiPlus(0), | |
279 | fHistPtVsAmpV0C_GenOmegaMinus(0), | |
280 | fHistPtVsAmpV0C_GenOmegaPlus(0), | |
281 | fHistPtVsAmpV0M_GenXiMinus(0), | |
282 | fHistPtVsAmpV0M_GenXiPlus(0), | |
283 | fHistPtVsAmpV0M_GenOmegaMinus(0), | |
284 | fHistPtVsAmpV0M_GenOmegaPlus(0), | |
285 | //Equalized Amps | |
286 | fHistPtVsAmpV0AEq_GenXiMinus(0), | |
287 | fHistPtVsAmpV0AEq_GenXiPlus(0), | |
288 | fHistPtVsAmpV0AEq_GenOmegaMinus(0), | |
289 | fHistPtVsAmpV0AEq_GenOmegaPlus(0), | |
290 | fHistPtVsAmpV0CEq_GenXiMinus(0), | |
291 | fHistPtVsAmpV0CEq_GenXiPlus(0), | |
292 | fHistPtVsAmpV0CEq_GenOmegaMinus(0), | |
293 | fHistPtVsAmpV0CEq_GenOmegaPlus(0), | |
294 | fHistPtVsAmpV0MEq_GenXiMinus(0), | |
295 | fHistPtVsAmpV0MEq_GenXiPlus(0), | |
296 | fHistPtVsAmpV0MEq_GenOmegaMinus(0), | |
1dac6d41 | 297 | fHistPtVsAmpV0MEq_GenOmegaPlus(0), |
298 | fHistVZEROResponseStudy(0), | |
299 | fHistVZEROResponseStudyTotal(0) | |
af0d4791 | 300 | |
301 | //------------------------------------------------ | |
302 | // Tree Variables | |
303 | { | |
304 | ||
305 | } | |
306 | ||
307 | AliAnalysisTaskStrangenessVsMultiplicityMC::AliAnalysisTaskStrangenessVsMultiplicityMC(const char *name) | |
d8c18e93 | 308 | : AliAnalysisTaskSE(name), fListHist(0), fTreeEvent(0), fTreeV0(0), fTreeCascade(0), fPIDResponse(0), fESDtrackCuts(0), fPPVsMultUtils(0), fUtils(0), |
af0d4791 | 309 | fkSaveV0Tree ( kFALSE ), |
310 | fkSaveCascadeTree ( kTRUE ), | |
311 | fkRunVertexers ( kTRUE ), | |
dedb9266 | 312 | fkSkipEventSelection( kFALSE ), |
d8c18e93 | 313 | fkApplyTrackletsVsClustersCut( kTRUE ), |
af0d4791 | 314 | //---> Variables for fTreeEvent |
315 | fAmplitude_V0A (0), | |
316 | fAmplitude_V0C (0), | |
317 | fAmplitude_V0AEq (0), | |
318 | fAmplitude_V0CEq (0), | |
319 | fCentrality_V0A(0), | |
320 | fCentrality_V0C(0), | |
321 | fCentrality_V0M(0), | |
322 | fCentrality_V0AEq(0), | |
323 | fCentrality_V0CEq(0), | |
324 | fCentrality_V0MEq(0), | |
535c1213 | 325 | fCustomCentrality_V0M(0), |
326 | fCustomCentrality_V0MEq(0), | |
af0d4791 | 327 | fRefMultEta5(0), |
328 | fRefMultEta8(0), | |
329 | fTrueMultEta5(0), | |
330 | fTrueMultEta8(0), | |
331 | fTrueMultVZEROA(0), | |
332 | fTrueMultVZEROC(0), | |
333 | fRunNumber(0), | |
39b65ed7 | 334 | fEvSel_HasAtLeastSPDVertex(0), |
335 | fEvSel_VtxZCut(0), | |
336 | fEvSel_IsNotPileup(0), | |
337 | fEvSel_IsNotPileupMV(0), | |
338 | fEvSel_IsNotPileupInMultBins(0), | |
339 | fEvSel_HasVtxContributor(0), | |
340 | fEvSel_Triggered(0), | |
341 | fEvSel_VtxZ(0), | |
342 | fEvSel_MCType(0), | |
161c57ac | 343 | //---> Variables for fTreeV0 |
344 | fTreeVariableChi2V0(0), | |
345 | fTreeVariableDcaV0Daughters(0), | |
346 | fTreeVariableDcaV0ToPrimVertex(0), | |
347 | fTreeVariableDcaPosToPrimVertex(0), | |
348 | fTreeVariableDcaNegToPrimVertex(0), | |
349 | fTreeVariableV0CosineOfPointingAngle(0), | |
350 | fTreeVariableV0Radius(0), | |
351 | fTreeVariablePt(0), | |
352 | fTreeVariablePtMC(0), | |
353 | fTreeVariableRapK0Short(0), | |
354 | fTreeVariableRapLambda(0), | |
355 | fTreeVariableRapMC(0), | |
356 | fTreeVariableInvMassK0s(0), | |
357 | fTreeVariableInvMassLambda(0), | |
358 | fTreeVariableInvMassAntiLambda(0), | |
359 | fTreeVariableAlphaV0(0), | |
360 | fTreeVariablePtArmV0(0), | |
361 | fTreeVariableNegEta(0), | |
362 | fTreeVariablePosEta(0), | |
363 | ||
364 | fTreeVariableNSigmasPosProton(0), | |
365 | fTreeVariableNSigmasPosPion(0), | |
366 | fTreeVariableNSigmasNegProton(0), | |
367 | fTreeVariableNSigmasNegPion(0), | |
368 | ||
369 | fTreeVariableDistOverTotMom(0), | |
370 | fTreeVariableLeastNbrCrossedRows(0), | |
371 | fTreeVariableLeastRatioCrossedRowsOverFindable(0), | |
372 | ||
161c57ac | 373 | fTreeVariableCentV0M(0), |
161c57ac | 374 | fTreeVariableCentV0MEq(0), |
9a28e152 | 375 | fTreeVariableCustomCentV0M(0), |
161c57ac | 376 | fTreeVariableRefMultEta8(0), |
377 | fTreeVariableRefMultEta5(0), | |
378 | fTreeVariableRunNumber(0), | |
379 | ||
380 | fTreeVariablePtMother(0), | |
381 | fTreeVariablePID(0), | |
382 | fTreeVariablePIDPositive(0), | |
383 | fTreeVariablePIDNegative(0), | |
384 | fTreeVariablePIDMother(0), | |
385 | fTreeVariablePrimaryStatus(0), | |
386 | fTreeVariablePrimaryStatusMother(0), | |
af0d4791 | 387 | //---> Variables for fTreeCascade |
388 | fTreeCascVarCharge(0), | |
389 | fTreeCascVarMassAsXi(0), | |
390 | fTreeCascVarMassAsOmega(0), | |
391 | fTreeCascVarPt(0), | |
392 | fTreeCascVarPtMC(0), | |
393 | fTreeCascVarRapXi(0), | |
394 | fTreeCascVarRapOmega(0), | |
395 | fTreeCascVarRapMC(0), | |
396 | fTreeCascVarNegEta(0), | |
397 | fTreeCascVarPosEta(0), | |
398 | fTreeCascVarBachEta(0), | |
399 | fTreeCascVarDCACascDaughters(0), | |
400 | fTreeCascVarDCABachToPrimVtx(0), | |
401 | fTreeCascVarDCAV0Daughters(0), | |
402 | fTreeCascVarDCAV0ToPrimVtx(0), | |
403 | fTreeCascVarDCAPosToPrimVtx(0), | |
404 | fTreeCascVarDCANegToPrimVtx(0), | |
405 | fTreeCascVarCascCosPointingAngle(0), | |
406 | fTreeCascVarCascRadius(0), | |
407 | fTreeCascVarV0Mass(0), | |
408 | fTreeCascVarV0CosPointingAngle(0), | |
409 | fTreeCascVarV0CosPointingAngleSpecial(0), | |
410 | fTreeCascVarV0Radius(0), | |
411 | fTreeCascVarLeastNbrClusters(0), | |
412 | fTreeCascVarDistOverTotMom(0), | |
413 | fTreeCascVarNegNSigmaPion(0), | |
414 | fTreeCascVarNegNSigmaProton(0), | |
415 | fTreeCascVarPosNSigmaPion(0), | |
416 | fTreeCascVarPosNSigmaProton(0), | |
417 | fTreeCascVarBachNSigmaPion(0), | |
418 | fTreeCascVarBachNSigmaKaon(0), | |
af0d4791 | 419 | fTreeCascVarCentV0M(0), |
af0d4791 | 420 | fTreeCascVarCentV0MEq(0), |
9a28e152 | 421 | fTreeCascVarCustomCentV0M(0), |
af0d4791 | 422 | fTreeCascVarRefMultEta8(0), |
423 | fTreeCascVarRefMultEta5(0), | |
424 | fTreeCascVarTrueMultEta5(0), | |
425 | fTreeCascVarTrueMultEta8(0), | |
426 | fTreeCascVarTrueMultVZEROA(0), | |
427 | fTreeCascVarTrueMultVZEROC(0), | |
428 | fTreeCascVarIsPhysicalPrimary(0), | |
429 | fTreeCascVarPID(0), | |
26d39641 | 430 | fTreeCascVarRunNumber(0), |
af0d4791 | 431 | //---> Histograms |
432 | fHistEventCounter(0), | |
433 | //---> MC Generated Histo (analysis level) | |
161c57ac | 434 | fHistPt_GenK0Short(0), |
435 | fHistPt_GenLambda(0), | |
436 | fHistPt_GenAntiLambda(0), | |
af0d4791 | 437 | fHistPt_GenXiMinus(0), |
438 | fHistPt_GenXiPlus(0), | |
439 | fHistPt_GenOmegaMinus(0), | |
440 | fHistPt_GenOmegaPlus(0), | |
441 | ||
442 | //VsRefMult | |
443 | fHistPtVsRefMultEta5_GenXiMinus(0), | |
444 | fHistPtVsRefMultEta5_GenXiPlus(0), | |
445 | fHistPtVsRefMultEta5_GenOmegaMinus(0), | |
446 | fHistPtVsRefMultEta5_GenOmegaPlus(0), | |
447 | fHistPtVsRefMultEta8_GenXiMinus(0), | |
448 | fHistPtVsRefMultEta8_GenXiPlus(0), | |
449 | fHistPtVsRefMultEta8_GenOmegaMinus(0), | |
450 | fHistPtVsRefMultEta8_GenOmegaPlus(0), | |
451 | ||
452 | //VsCentralities | |
453 | fHistPtVsCentV0A_GenXiMinus(0), | |
454 | fHistPtVsCentV0A_GenXiPlus(0), | |
455 | fHistPtVsCentV0A_GenOmegaMinus(0), | |
456 | fHistPtVsCentV0A_GenOmegaPlus(0), | |
457 | fHistPtVsCentV0C_GenXiMinus(0), | |
458 | fHistPtVsCentV0C_GenXiPlus(0), | |
459 | fHistPtVsCentV0C_GenOmegaMinus(0), | |
460 | fHistPtVsCentV0C_GenOmegaPlus(0), | |
461 | fHistPtVsCentV0M_GenXiMinus(0), | |
462 | fHistPtVsCentV0M_GenXiPlus(0), | |
463 | fHistPtVsCentV0M_GenOmegaMinus(0), | |
464 | fHistPtVsCentV0M_GenOmegaPlus(0), | |
465 | ||
466 | //Equalized | |
467 | fHistPtVsCentV0AEq_GenXiMinus(0), | |
468 | fHistPtVsCentV0AEq_GenXiPlus(0), | |
469 | fHistPtVsCentV0AEq_GenOmegaMinus(0), | |
470 | fHistPtVsCentV0AEq_GenOmegaPlus(0), | |
471 | fHistPtVsCentV0CEq_GenXiMinus(0), | |
472 | fHistPtVsCentV0CEq_GenXiPlus(0), | |
473 | fHistPtVsCentV0CEq_GenOmegaMinus(0), | |
474 | fHistPtVsCentV0CEq_GenOmegaPlus(0), | |
475 | fHistPtVsCentV0MEq_GenXiMinus(0), | |
476 | fHistPtVsCentV0MEq_GenXiPlus(0), | |
477 | fHistPtVsCentV0MEq_GenOmegaMinus(0), | |
478 | fHistPtVsCentV0MEq_GenOmegaPlus(0), | |
479 | ||
480 | //VsAmp | |
481 | fHistPtVsAmpV0A_GenXiMinus(0), | |
482 | fHistPtVsAmpV0A_GenXiPlus(0), | |
483 | fHistPtVsAmpV0A_GenOmegaMinus(0), | |
484 | fHistPtVsAmpV0A_GenOmegaPlus(0), | |
485 | fHistPtVsAmpV0C_GenXiMinus(0), | |
486 | fHistPtVsAmpV0C_GenXiPlus(0), | |
487 | fHistPtVsAmpV0C_GenOmegaMinus(0), | |
488 | fHistPtVsAmpV0C_GenOmegaPlus(0), | |
489 | fHistPtVsAmpV0M_GenXiMinus(0), | |
490 | fHistPtVsAmpV0M_GenXiPlus(0), | |
491 | fHistPtVsAmpV0M_GenOmegaMinus(0), | |
492 | fHistPtVsAmpV0M_GenOmegaPlus(0), | |
493 | //Equalized Amps | |
494 | fHistPtVsAmpV0AEq_GenXiMinus(0), | |
495 | fHistPtVsAmpV0AEq_GenXiPlus(0), | |
496 | fHistPtVsAmpV0AEq_GenOmegaMinus(0), | |
497 | fHistPtVsAmpV0AEq_GenOmegaPlus(0), | |
498 | fHistPtVsAmpV0CEq_GenXiMinus(0), | |
499 | fHistPtVsAmpV0CEq_GenXiPlus(0), | |
500 | fHistPtVsAmpV0CEq_GenOmegaMinus(0), | |
501 | fHistPtVsAmpV0CEq_GenOmegaPlus(0), | |
502 | fHistPtVsAmpV0MEq_GenXiMinus(0), | |
503 | fHistPtVsAmpV0MEq_GenXiPlus(0), | |
504 | fHistPtVsAmpV0MEq_GenOmegaMinus(0), | |
1dac6d41 | 505 | fHistPtVsAmpV0MEq_GenOmegaPlus(0), |
506 | fHistVZEROResponseStudy(0), | |
507 | fHistVZEROResponseStudyTotal(0) | |
af0d4791 | 508 | { |
509 | ||
510 | //Re-vertex: Will only apply for cascade candidates | |
511 | ||
512 | fV0VertexerSels[0] = 33. ; // max allowed chi2 | |
513 | fV0VertexerSels[1] = 0.02; // min allowed impact parameter for the 1st daughter (LHC09a4 : 0.05) | |
514 | fV0VertexerSels[2] = 0.02; // min allowed impact parameter for the 2nd daughter (LHC09a4 : 0.05) | |
76ebc06c | 515 | fV0VertexerSels[3] = 2.0 ; // max allowed DCA between the daughter tracks (LHC09a4 : 0.5) |
af0d4791 | 516 | fV0VertexerSels[4] = 0.95; // min allowed cosine of V0's pointing angle (LHC09a4 : 0.99) |
517 | fV0VertexerSels[5] = 1.0 ; // min radius of the fiducial volume (LHC09a4 : 0.2) | |
518 | fV0VertexerSels[6] = 200. ; // max radius of the fiducial volume (LHC09a4 : 100.0) | |
519 | ||
520 | fCascadeVertexerSels[0] = 33. ; // max allowed chi2 (same as PDC07) | |
521 | fCascadeVertexerSels[1] = 0.05 ; // min allowed V0 impact parameter (PDC07 : 0.05 / LHC09a4 : 0.025 ) | |
522 | fCascadeVertexerSels[2] = 0.010; // "window" around the Lambda mass (PDC07 : 0.008 / LHC09a4 : 0.010 ) | |
523 | fCascadeVertexerSels[3] = 0.03 ; // min allowed bachelor's impact parameter (PDC07 : 0.035 / LHC09a4 : 0.025 ) | |
524 | fCascadeVertexerSels[4] = 2.0 ; // max allowed DCA between the V0 and the bachelor (PDC07 : 0.1 / LHC09a4 : 0.2 ) | |
525 | fCascadeVertexerSels[5] = 0.95 ; // min allowed cosine of the cascade pointing angle (PDC07 : 0.9985 / LHC09a4 : 0.998 ) | |
526 | fCascadeVertexerSels[6] = 0.4 ; // min radius of the fiducial volume (PDC07 : 0.9 / LHC09a4 : 0.2 ) | |
527 | fCascadeVertexerSels[7] = 100. ; // max radius of the fiducial volume (PDC07 : 100 / LHC09a4 : 100 ) | |
39b65ed7 | 528 | |
529 | for(int i=0; i<20; i++) { | |
530 | fTreeCascVarRefMultDiffEta[i] = 0; | |
531 | fTreeVariableRefMultDiffEta[i] = 0; | |
532 | fRefMultDiffEta[i] = 0; | |
533 | } | |
af0d4791 | 534 | |
535 | DefineOutput(1, TList::Class()); // Event Counter Histo | |
536 | DefineOutput(2, TTree::Class()); // Event Tree | |
537 | DefineOutput(3, TTree::Class()); // V0 Tree | |
538 | DefineOutput(4, TTree::Class()); // Cascade Tree | |
539 | } | |
540 | ||
541 | ||
542 | AliAnalysisTaskStrangenessVsMultiplicityMC::~AliAnalysisTaskStrangenessVsMultiplicityMC() | |
543 | { | |
544 | //------------------------------------------------ | |
545 | // DESTRUCTOR | |
546 | //------------------------------------------------ | |
547 | ||
548 | if (fListHist){ | |
549 | delete fListHist; | |
550 | fListHist = 0x0; | |
551 | } | |
552 | if (fTreeEvent){ | |
553 | delete fTreeEvent; | |
554 | fTreeEvent = 0x0; | |
555 | } | |
556 | if (fTreeV0){ | |
557 | delete fTreeV0; | |
558 | fTreeV0 = 0x0; | |
559 | } | |
560 | if (fTreeCascade){ | |
561 | delete fTreeCascade; | |
562 | fTreeCascade = 0x0; | |
563 | } | |
535c1213 | 564 | if (fPPVsMultUtils){ |
565 | delete fPPVsMultUtils; | |
566 | fPPVsMultUtils = 0x0; | |
567 | } | |
d8c18e93 | 568 | if (fUtils){ |
569 | delete fUtils; | |
570 | fUtils = 0x0; | |
571 | } | |
af0d4791 | 572 | } |
573 | ||
574 | //________________________________________________________________________ | |
575 | void AliAnalysisTaskStrangenessVsMultiplicityMC::UserCreateOutputObjects() | |
576 | { | |
577 | ||
578 | OpenFile(2); | |
579 | // Called once | |
580 | ||
581 | //------------------------------------------------ | |
582 | ||
583 | fTreeEvent = new TTree("fTreeEvent","Event"); | |
584 | ||
585 | //------------------------------------------------ | |
586 | // fTree Branch definitions - Event by Event info | |
587 | //------------------------------------------------ | |
588 | ||
589 | //-----------BASIC-INFO--------------------------- | |
590 | ||
591 | //--- VZERO Data (Integrated) | |
592 | fTreeEvent->Branch("fAmplitude_V0A",&fAmplitude_V0A,"fAmplitude_V0A/F"); | |
593 | fTreeEvent->Branch("fAmplitude_V0C",&fAmplitude_V0C,"fAmplitude_V0C/F"); | |
594 | fTreeEvent->Branch("fAmplitude_V0AEq",&fAmplitude_V0AEq,"fAmplitude_V0AEq/F"); | |
595 | fTreeEvent->Branch("fAmplitude_V0CEq",&fAmplitude_V0CEq,"fAmplitude_V0CEq/F"); | |
596 | ||
597 | //Info from AliCentrality (not necessarily 'centrality' per se) | |
598 | fTreeEvent->Branch("fCentrality_V0A",&fCentrality_V0A,"fCentrality_V0A/F"); | |
599 | fTreeEvent->Branch("fCentrality_V0C",&fCentrality_V0C,"fCentrality_V0C/F"); | |
34442f2a | 600 | fTreeEvent->Branch("fCentrality_V0M",&fCentrality_V0M,"fCentrality_V0M/F"); |
af0d4791 | 601 | fTreeEvent->Branch("fCentrality_V0AEq",&fCentrality_V0AEq,"fCentrality_V0AEq/F"); |
602 | fTreeEvent->Branch("fCentrality_V0CEq",&fCentrality_V0CEq,"fCentrality_V0CEq/F"); | |
34442f2a | 603 | fTreeEvent->Branch("fCentrality_V0MEq",&fCentrality_V0MEq,"fCentrality_V0MEq/F"); |
535c1213 | 604 | |
605 | fTreeEvent->Branch("fCustomCentrality_V0M",&fCustomCentrality_V0M,"fCustomCentrality_V0M/F"); | |
c2026b92 | 606 | fTreeEvent->Branch("fCustomCentrality_V0MEq",&fCustomCentrality_V0MEq,"fCustomCentrality_V0MEq/F"); |
af0d4791 | 607 | |
608 | //Official GetReferenceMultiplicity | |
609 | fTreeEvent->Branch("fRefMultEta5",&fRefMultEta5,"fRefMultEta5/I"); | |
610 | fTreeEvent->Branch("fRefMultEta8",&fRefMultEta8,"fRefMultEta8/I"); | |
39b65ed7 | 611 | fTreeEvent->Branch("fRefMultDiffEta",fRefMultDiffEta,"fRefMultDiffEta[20]/I"); |
af0d4791 | 612 | |
613 | fTreeEvent->Branch("fTrueMultEta5",&fTrueMultEta5,"fTrueMultEta5/I"); | |
614 | fTreeEvent->Branch("fTrueMultEta8",&fTrueMultEta8,"fTrueMultEta8/I"); | |
615 | fTreeEvent->Branch("fTrueMultVZEROA",&fTrueMultVZEROA,"fTrueMultVZEROA/I"); | |
616 | fTreeEvent->Branch("fTrueMultVZEROC",&fTrueMultVZEROC,"fTrueMultVZEROC/I"); | |
617 | ||
618 | //Run Number | |
619 | fTreeEvent->Branch("fRunNumber", &fRunNumber, "fRunNumber/I"); | |
dedb9266 | 620 | |
39b65ed7 | 621 | //Booleans for Event Selection |
622 | fTreeEvent->Branch("fEvSel_HasAtLeastSPDVertex", &fEvSel_HasAtLeastSPDVertex, "fEvSel_HasAtLeastSPDVertex/O"); | |
623 | fTreeEvent->Branch("fEvSel_VtxZCut", &fEvSel_VtxZCut, "fEvSel_VtxZCut/O"); | |
624 | fTreeEvent->Branch("fEvSel_IsNotPileup", &fEvSel_IsNotPileup, "fEvSel_IsNotPileup/O"); | |
625 | fTreeEvent->Branch("fEvSel_IsNotPileupMV", &fEvSel_IsNotPileupMV, "fEvSel_IsNotPileupMV/O"); | |
626 | fTreeEvent->Branch("fEvSel_IsNotPileupInMultBins", &fEvSel_IsNotPileupInMultBins, "fEvSel_IsNotPileupInMultBins/O"); | |
627 | fTreeEvent->Branch("fEvSel_HasVtxContributor", &fEvSel_HasVtxContributor, "fEvSel_HasVtxContributor/O"); | |
628 | fTreeEvent->Branch("fEvSel_Triggered", &fEvSel_Triggered, "fEvSel_Triggered/O"); | |
629 | fTreeEvent->Branch("fEvSel_VtxZ", &fEvSel_VtxZ, "fEvSel_VtxZ/F"); | |
630 | fTreeEvent->Branch("fEvSel_MCType", &fEvSel_MCType, "fEvSel_MCType/I"); | |
dedb9266 | 631 | |
af0d4791 | 632 | |
633 | //Create Basic V0 Output Tree | |
634 | fTreeV0 = new TTree( "fTreeV0", "V0 Candidates"); | |
635 | ||
161c57ac | 636 | //------------------------------------------------ |
637 | // fTreeV0 Branch definitions | |
638 | //------------------------------------------------ | |
639 | ||
640 | //-----------BASIC-INFO--------------------------- | |
641 | fTreeV0->Branch("fTreeVariableChi2V0",&fTreeVariableChi2V0,"fTreeVariableChi2V0/F"); | |
642 | fTreeV0->Branch("fTreeVariableDcaV0Daughters",&fTreeVariableDcaV0Daughters,"fTreeVariableDcaV0Daughters/F"); | |
643 | fTreeV0->Branch("fTreeVariableDcaV0ToPrimVertex",&fTreeVariableDcaV0ToPrimVertex,"fTreeVariableDcaV0ToPrimVertex/F"); | |
644 | fTreeV0->Branch("fTreeVariableDcaPosToPrimVertex",&fTreeVariableDcaPosToPrimVertex,"fTreeVariableDcaPosToPrimVertex/F"); | |
645 | fTreeV0->Branch("fTreeVariableDcaNegToPrimVertex",&fTreeVariableDcaNegToPrimVertex,"fTreeVariableDcaNegToPrimVertex/F"); | |
646 | fTreeV0->Branch("fTreeVariableV0Radius",&fTreeVariableV0Radius,"fTreeVariableV0Radius/F"); | |
647 | fTreeV0->Branch("fTreeVariablePt",&fTreeVariablePt,"fTreeVariablePt/F"); | |
648 | fTreeV0->Branch("fTreeVariablePtMC",&fTreeVariablePtMC,"fTreeVariablePtMC/F"); | |
649 | fTreeV0->Branch("fTreeVariableRapK0Short",&fTreeVariableRapK0Short,"fTreeVariableRapK0Short/F"); | |
650 | fTreeV0->Branch("fTreeVariableRapLambda",&fTreeVariableRapLambda,"fTreeVariableRapLambda/F"); | |
651 | fTreeV0->Branch("fTreeVariableRapMC",&fTreeVariableRapMC,"fTreeVariableRapMC/F"); | |
652 | fTreeV0->Branch("fTreeVariableInvMassK0s",&fTreeVariableInvMassK0s,"fTreeVariableInvMassK0s/F"); | |
653 | fTreeV0->Branch("fTreeVariableInvMassLambda",&fTreeVariableInvMassLambda,"fTreeVariableInvMassLambda/F"); | |
654 | fTreeV0->Branch("fTreeVariableInvMassAntiLambda",&fTreeVariableInvMassAntiLambda,"fTreeVariableInvMassAntiLambda/F"); | |
655 | fTreeV0->Branch("fTreeVariableV0CosineOfPointingAngle",&fTreeVariableV0CosineOfPointingAngle,"fTreeVariableV0CosineOfPointingAngle/F"); | |
656 | fTreeV0->Branch("fTreeVariableAlphaV0",&fTreeVariableAlphaV0,"fTreeVariableAlphaV0/F"); | |
657 | fTreeV0->Branch("fTreeVariablePtArmV0",&fTreeVariablePtArmV0,"fTreeVariablePtArmV0/F"); | |
658 | fTreeV0->Branch("fTreeVariableLeastNbrCrossedRows",&fTreeVariableLeastNbrCrossedRows,"fTreeVariableLeastNbrCrossedRows/I"); | |
659 | fTreeV0->Branch("fTreeVariableLeastRatioCrossedRowsOverFindable",&fTreeVariableLeastRatioCrossedRowsOverFindable,"fTreeVariableLeastRatioCrossedRowsOverFindable/F"); | |
660 | fTreeV0->Branch("fTreeVariableDistOverTotMom",&fTreeVariableDistOverTotMom,"fTreeVariableDistOverTotMom/F"); | |
661 | fTreeV0->Branch("fTreeVariableNSigmasPosProton",&fTreeVariableNSigmasPosProton,"fTreeVariableNSigmasPosProton/F"); | |
662 | fTreeV0->Branch("fTreeVariableNSigmasPosPion",&fTreeVariableNSigmasPosPion,"fTreeVariableNSigmasPosPion/F"); | |
663 | fTreeV0->Branch("fTreeVariableNSigmasNegProton",&fTreeVariableNSigmasNegProton,"fTreeVariableNSigmasNegProton/F"); | |
664 | fTreeV0->Branch("fTreeVariableNSigmasNegPion",&fTreeVariableNSigmasNegPion,"fTreeVariableNSigmasNegPion/F"); | |
665 | fTreeV0->Branch("fTreeVariableNegEta",&fTreeVariableNegEta,"fTreeVariableNegEta/F"); | |
666 | fTreeV0->Branch("fTreeVariablePosEta",&fTreeVariablePosEta,"fTreeVariablePosEta/F"); | |
667 | //-----------MULTIPLICITY-INFO-------------------- | |
161c57ac | 668 | fTreeV0->Branch("fTreeVariableCentV0M",&fTreeVariableCentV0M,"fTreeVariableCentV0M/F"); |
161c57ac | 669 | fTreeV0->Branch("fTreeVariableCentV0MEq",&fTreeVariableCentV0MEq,"fTreeVariableCentV0MEq/F"); |
9a28e152 | 670 | fTreeV0->Branch("fTreeVariableCustomCentV0M",&fTreeVariableCustomCentV0M,"fTreeVariableCustomCentV0M/F"); |
161c57ac | 671 | fTreeV0->Branch("fTreeVariableRefMultEta8",&fTreeVariableRefMultEta8,"fTreeVariableRefMultEta8/I"); |
672 | fTreeV0->Branch("fTreeVariableRefMultEta5",&fTreeVariableRefMultEta5,"fTreeVariableRefMultEta5/I"); | |
39b65ed7 | 673 | fTreeV0->Branch("fTreeVariableRefMultDiffEta",fTreeVariableRefMultDiffEta,"fTreeVariableRefMultDiffEta[20]/I"); |
161c57ac | 674 | fTreeV0->Branch("fTreeVariableRunNumber",&fTreeVariableRunNumber,"fTreeVariableRunNumber/I"); |
675 | //-----------MC Exclusive info-------------------- | |
676 | fTreeV0->Branch("fTreeVariablePtMother",&fTreeVariablePtMother,"fTreeVariablePtMother/F"); | |
677 | fTreeV0->Branch("fTreeVariablePID",&fTreeVariablePID,"fTreeVariablePID/I"); | |
678 | fTreeV0->Branch("fTreeVariablePIDPositive",&fTreeVariablePIDPositive,"fTreeVariablePIDPositive/I"); | |
679 | fTreeV0->Branch("fTreeVariablePIDNegative",&fTreeVariablePIDNegative,"fTreeVariablePIDNegative/I"); | |
680 | fTreeV0->Branch("fTreeVariablePIDMother",&fTreeVariablePIDMother,"fTreeVariablePIDMother/I"); | |
681 | fTreeV0->Branch("fTreeVariablePrimaryStatus",&fTreeVariablePrimaryStatus,"fTreeVariablePrimaryStatus/I"); | |
682 | fTreeV0->Branch("fTreeVariablePrimaryStatusMother",&fTreeVariablePrimaryStatusMother,"fTreeVariablePrimaryStatusMother/I"); | |
683 | //------------------------------------------------ | |
684 | ||
af0d4791 | 685 | //Create Cascade output tree |
686 | fTreeCascade = new TTree("fTreeCascade","CascadeCandidates"); | |
687 | ||
688 | //------------------------------------------------ | |
689 | // fTreeCascade Branch definitions - Cascade Tree | |
690 | //------------------------------------------------ | |
691 | ||
692 | //-----------BASIC-INFO--------------------------- | |
693 | fTreeCascade->Branch("fTreeCascVarCharge",&fTreeCascVarCharge,"fTreeCascVarCharge/I"); | |
694 | fTreeCascade->Branch("fTreeCascVarMassAsXi",&fTreeCascVarMassAsXi,"fTreeCascVarMassAsXi/F"); | |
695 | fTreeCascade->Branch("fTreeCascVarMassAsOmega",&fTreeCascVarMassAsOmega,"fTreeCascVarMassAsOmega/F"); | |
696 | fTreeCascade->Branch("fTreeCascVarPt",&fTreeCascVarPt,"fTreeCascVarPt/F"); | |
697 | fTreeCascade->Branch("fTreeCascVarPtMC",&fTreeCascVarPtMC,"fTreeCascVarPtMC/F"); | |
698 | fTreeCascade->Branch("fTreeCascVarRapXi",&fTreeCascVarRapXi,"fTreeCascVarRapXi/F"); | |
699 | fTreeCascade->Branch("fTreeCascVarRapOmega",&fTreeCascVarRapOmega,"fTreeCascVarRapOmega/F"); | |
700 | fTreeCascade->Branch("fTreeCascVarRapMC",&fTreeCascVarRapMC,"fTreeCascVarRapMC/F"); | |
701 | fTreeCascade->Branch("fTreeCascVarNegEta",&fTreeCascVarNegEta,"fTreeCascVarNegEta/F"); | |
702 | fTreeCascade->Branch("fTreeCascVarPosEta",&fTreeCascVarPosEta,"fTreeCascVarPosEta/F"); | |
703 | fTreeCascade->Branch("fTreeCascVarBachEta",&fTreeCascVarBachEta,"fTreeCascVarBachEta/F"); | |
704 | //-----------INFO-FOR-CUTS------------------------ | |
705 | fTreeCascade->Branch("fTreeCascVarDCACascDaughters",&fTreeCascVarDCACascDaughters,"fTreeCascVarDCACascDaughters/F"); | |
706 | fTreeCascade->Branch("fTreeCascVarDCABachToPrimVtx",&fTreeCascVarDCABachToPrimVtx,"fTreeCascVarDCABachToPrimVtx/F"); | |
707 | fTreeCascade->Branch("fTreeCascVarDCAV0Daughters",&fTreeCascVarDCAV0Daughters,"fTreeCascVarDCAV0Daughters/F"); | |
708 | fTreeCascade->Branch("fTreeCascVarDCAV0ToPrimVtx",&fTreeCascVarDCAV0ToPrimVtx,"fTreeCascVarDCAV0ToPrimVtx/F"); | |
709 | fTreeCascade->Branch("fTreeCascVarDCAPosToPrimVtx",&fTreeCascVarDCAPosToPrimVtx,"fTreeCascVarDCAPosToPrimVtx/F"); | |
710 | fTreeCascade->Branch("fTreeCascVarDCANegToPrimVtx",&fTreeCascVarDCANegToPrimVtx,"fTreeCascVarDCANegToPrimVtx/F"); | |
711 | fTreeCascade->Branch("fTreeCascVarCascCosPointingAngle",&fTreeCascVarCascCosPointingAngle,"fTreeCascVarCascCosPointingAngle/F"); | |
712 | fTreeCascade->Branch("fTreeCascVarCascRadius",&fTreeCascVarCascRadius,"fTreeCascVarCascRadius/F"); | |
713 | fTreeCascade->Branch("fTreeCascVarV0Mass",&fTreeCascVarV0Mass,"fTreeCascVarV0Mass/F"); | |
714 | fTreeCascade->Branch("fTreeCascVarV0CosPointingAngle",&fTreeCascVarV0CosPointingAngle,"fTreeCascVarV0CosPointingAngle/F"); | |
715 | fTreeCascade->Branch("fTreeCascVarV0CosPointingAngleSpecial",&fTreeCascVarV0CosPointingAngleSpecial,"fTreeCascVarV0CosPointingAngleSpecial/F"); | |
716 | fTreeCascade->Branch("fTreeCascVarV0Radius",&fTreeCascVarV0Radius,"fTreeCascVarV0Radius/F"); | |
717 | fTreeCascade->Branch("fTreeCascVarLeastNbrClusters",&fTreeCascVarLeastNbrClusters,"fTreeCascVarLeastNbrClusters/I"); | |
718 | //-----------MULTIPLICITY-INFO-------------------- | |
af0d4791 | 719 | fTreeCascade->Branch("fTreeCascVarCentV0M",&fTreeCascVarCentV0M,"fTreeCascVarCentV0M/F"); |
af0d4791 | 720 | fTreeCascade->Branch("fTreeCascVarCentV0MEq",&fTreeCascVarCentV0MEq,"fTreeCascVarCentV0MEq/F"); |
9a28e152 | 721 | fTreeCascade->Branch("fTreeCascVarCustomCentV0M",&fTreeCascVarCustomCentV0M,"fTreeCascVarCustomCentV0M/F"); |
af0d4791 | 722 | fTreeCascade->Branch("fTreeCascVarRefMultEta8",&fTreeCascVarRefMultEta8,"fTreeCascVarRefMultEta8/I"); |
723 | fTreeCascade->Branch("fTreeCascVarRefMultEta5",&fTreeCascVarRefMultEta5,"fTreeCascVarRefMultEta5/I"); | |
39b65ed7 | 724 | fTreeCascade->Branch("fTreeCascVarRefMultDiffEta",fTreeCascVarRefMultDiffEta,"fTreeCascVarRefMultDiffEta[20]/I"); |
af0d4791 | 725 | fTreeCascade->Branch("fTreeCascVarTrueMultEta5",&fTreeCascVarTrueMultEta5,"fTreeCascVarTrueMultEta5/I"); |
726 | fTreeCascade->Branch("fTreeCascVarTrueMultEta8",&fTreeCascVarTrueMultEta8,"fTreeCascVarTrueMultEta8/I"); | |
727 | fTreeCascade->Branch("fTreeCascVarTrueMultVZEROA",&fTreeCascVarTrueMultVZEROA,"fTreeCascVarTrueMultVZEROA/I"); | |
728 | fTreeCascade->Branch("fTreeCascVarTrueMultVZEROC",&fTreeCascVarTrueMultVZEROC,"fTreeCascVarTrueMultVZEROC/I"); | |
729 | fTreeCascade->Branch("fTreeCascVarIsPhysicalPrimary",&fTreeCascVarIsPhysicalPrimary,"fTreeCascVarIsPhysicalPrimary/I"); | |
730 | fTreeCascade->Branch("fTreeCascVarPID",&fTreeCascVarPID,"fTreeCascVarPID/I"); | |
26d39641 | 731 | fTreeCascade->Branch("fTreeCascVarRunNumber",&fTreeCascVarRunNumber,"fTreeCascVarRunNumber/I"); |
af0d4791 | 732 | //-----------DECAY-LENGTH-INFO-------------------- |
733 | fTreeCascade->Branch("fTreeCascVarDistOverTotMom",&fTreeCascVarDistOverTotMom,"fTreeCascVarDistOverTotMom/F"); | |
734 | //------------------------------------------------ | |
735 | fTreeCascade->Branch("fTreeCascVarNegNSigmaPion",&fTreeCascVarNegNSigmaPion,"fTreeCascVarNegNSigmaPion/F"); | |
736 | fTreeCascade->Branch("fTreeCascVarNegNSigmaProton",&fTreeCascVarNegNSigmaProton,"fTreeCascVarNegNSigmaProton/F"); | |
737 | fTreeCascade->Branch("fTreeCascVarPosNSigmaPion",&fTreeCascVarPosNSigmaPion,"fTreeCascVarPosNSigmaPion/F"); | |
738 | fTreeCascade->Branch("fTreeCascVarPosNSigmaProton",&fTreeCascVarPosNSigmaProton,"fTreeCascVarPosNSigmaProton/F"); | |
739 | fTreeCascade->Branch("fTreeCascVarBachNSigmaPion",&fTreeCascVarBachNSigmaPion,"fTreeCascVarBachNSigmaPion/F"); | |
740 | fTreeCascade->Branch("fTreeCascVarBachNSigmaKaon",&fTreeCascVarBachNSigmaKaon,"fTreeCascVarBachNSigmaKaon/F"); | |
741 | ||
742 | //------------------------------------------------ | |
743 | // Particle Identification Setup | |
744 | //------------------------------------------------ | |
745 | ||
746 | AliAnalysisManager *man=AliAnalysisManager::GetAnalysisManager(); | |
747 | AliInputEventHandler* inputHandler = (AliInputEventHandler*) (man->GetInputEventHandler()); | |
748 | fPIDResponse = inputHandler->GetPIDResponse(); | |
749 | ||
750 | // Multiplicity | |
751 | if(! fESDtrackCuts ){ | |
752 | fESDtrackCuts = new AliESDtrackCuts(); | |
753 | } | |
d8c18e93 | 754 | //Helper |
535c1213 | 755 | if(! fPPVsMultUtils ){ |
756 | fPPVsMultUtils = new AliPPVsMultUtils(); | |
757 | } | |
d8c18e93 | 758 | //Analysis Utils |
759 | if(! fUtils ){ | |
760 | fUtils = new AliAnalysisUtils(); | |
761 | } | |
af0d4791 | 762 | |
763 | //------------------------------------------------ | |
764 | // V0 Multiplicity Histograms | |
765 | //------------------------------------------------ | |
766 | ||
767 | // Create histograms | |
768 | OpenFile(1); | |
769 | fListHist = new TList(); | |
770 | fListHist->SetOwner(); // See http://root.cern.ch/root/html/TCollection.html#TCollection:SetOwner | |
771 | ||
772 | if(! fHistEventCounter ) { | |
773 | //Histogram Output: Event-by-Event | |
774 | fHistEventCounter = new TH1D( "fHistEventCounter", ";Evt. Sel. Step;Count",5,0,5); | |
775 | fHistEventCounter->GetXaxis()->SetBinLabel(1, "Processed"); | |
776 | fHistEventCounter->GetXaxis()->SetBinLabel(2, "Phys-Sel"); | |
777 | fHistEventCounter->GetXaxis()->SetBinLabel(3, "Has Vtx"); | |
778 | fHistEventCounter->GetXaxis()->SetBinLabel(4, "Vtx |z|<10cm"); | |
779 | fHistEventCounter->GetXaxis()->SetBinLabel(5, "Isn't Pileup"); | |
780 | fListHist->Add(fHistEventCounter); | |
781 | } | |
782 | ||
783 | //Histograms for Efficiency corrections... a bunch of them | |
784 | //1D Histograms - Fine if efficiency doesn't change vs mult (expected) | |
785 | //---> Always filled for |y|<0.5 | |
161c57ac | 786 | //V0s: basic Histos |
787 | if(! fHistPt_GenK0Short ) { | |
788 | fHistPt_GenK0Short = new TH1D( "fHistPt_GenK0Short", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenK0Short); } | |
789 | if(! fHistPt_GenLambda ) { | |
790 | fHistPt_GenLambda = new TH1D( "fHistPt_GenLambda", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenLambda); } | |
791 | if(! fHistPt_GenAntiLambda ) { | |
792 | fHistPt_GenAntiLambda = new TH1D( "fHistPt_GenAntiLambda", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenAntiLambda); } | |
793 | //Cascades: basic Histos | |
af0d4791 | 794 | if(! fHistPt_GenXiMinus ) { |
795 | fHistPt_GenXiMinus = new TH1D( "fHistPt_GenXiMinus", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenXiMinus); } | |
796 | if(! fHistPt_GenXiPlus ) { | |
797 | fHistPt_GenXiPlus = new TH1D( "fHistPt_GenXiPlus", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenXiPlus); } | |
798 | if(! fHistPt_GenOmegaMinus ) { | |
799 | fHistPt_GenOmegaMinus = new TH1D( "fHistPt_GenOmegaMinus", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenOmegaMinus); } | |
800 | if(! fHistPt_GenOmegaPlus ) { | |
801 | fHistPt_GenOmegaPlus = new TH1D( "fHistPt_GenOmegaPlus", "Generated;p_{T} (GeV/c)",200,0,20); fListHist->Add(fHistPt_GenOmegaPlus); } | |
802 | //2D Histos for vs Mult calculation | |
803 | if(! fHistPtVsRefMultEta5_GenXiMinus ) { | |
804 | fHistPtVsRefMultEta5_GenXiMinus = new TH2D( "fHistPtVsRefMultEta5_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta5_GenXiMinus); } | |
805 | if(! fHistPtVsRefMultEta5_GenXiPlus ) { | |
806 | fHistPtVsRefMultEta5_GenXiPlus = new TH2D( "fHistPtVsRefMultEta5_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta5_GenXiPlus); } | |
807 | if(! fHistPtVsRefMultEta5_GenOmegaMinus ) { | |
808 | fHistPtVsRefMultEta5_GenOmegaMinus = new TH2D( "fHistPtVsRefMultEta5_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta5_GenOmegaMinus); } | |
809 | if(! fHistPtVsRefMultEta5_GenOmegaPlus ) { | |
810 | fHistPtVsRefMultEta5_GenOmegaPlus = new TH2D( "fHistPtVsRefMultEta5_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta5_GenOmegaPlus); } | |
811 | if(! fHistPtVsRefMultEta8_GenXiMinus ) { | |
812 | fHistPtVsRefMultEta8_GenXiMinus = new TH2D( "fHistPtVsRefMultEta8_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta8_GenXiMinus); } | |
813 | if(! fHistPtVsRefMultEta8_GenXiPlus ) { | |
814 | fHistPtVsRefMultEta8_GenXiPlus = new TH2D( "fHistPtVsRefMultEta8_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta8_GenXiPlus); } | |
815 | if(! fHistPtVsRefMultEta8_GenOmegaMinus ) { | |
b6b1e756 | 816 | fHistPtVsRefMultEta8_GenOmegaMinus = new TH2D( "fHistPtVsRefMultEta8_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta8_GenOmegaMinus); } |
af0d4791 | 817 | if(! fHistPtVsRefMultEta8_GenOmegaPlus ) { |
818 | fHistPtVsRefMultEta8_GenOmegaPlus = new TH2D( "fHistPtVsRefMultEta8_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); fListHist->Add(fHistPtVsRefMultEta8_GenOmegaPlus); } | |
819 | ||
820 | //Centralities: V0A, V0C, V0M, +Eq | |
821 | if(! fHistPtVsCentV0A_GenXiMinus ) { | |
822 | fHistPtVsCentV0A_GenXiMinus = new TH2D( | |
823 | "fHistPtVsCentV0A_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
824 | fListHist->Add(fHistPtVsCentV0A_GenXiMinus); } | |
825 | if(! fHistPtVsCentV0A_GenXiPlus ) { | |
826 | fHistPtVsCentV0A_GenXiPlus = new TH2D( | |
827 | "fHistPtVsCentV0A_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
828 | fListHist->Add(fHistPtVsCentV0A_GenXiPlus); } | |
829 | if(! fHistPtVsCentV0A_GenOmegaMinus ) { | |
830 | fHistPtVsCentV0A_GenOmegaMinus = new TH2D( | |
831 | "fHistPtVsCentV0A_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
832 | fListHist->Add(fHistPtVsCentV0A_GenOmegaMinus); } | |
833 | if(! fHistPtVsCentV0A_GenOmegaPlus ) { | |
834 | fHistPtVsCentV0A_GenOmegaPlus = new TH2D( | |
835 | "fHistPtVsCentV0A_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
836 | fListHist->Add(fHistPtVsCentV0A_GenOmegaPlus); } | |
837 | ||
838 | if(! fHistPtVsCentV0C_GenXiMinus ) { | |
839 | fHistPtVsCentV0C_GenXiMinus = new TH2D( | |
840 | "fHistPtVsCentV0C_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
841 | fListHist->Add(fHistPtVsCentV0C_GenXiMinus); } | |
842 | if(! fHistPtVsCentV0C_GenXiPlus ) { | |
843 | fHistPtVsCentV0C_GenXiPlus = new TH2D( | |
844 | "fHistPtVsCentV0C_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
845 | fListHist->Add(fHistPtVsCentV0C_GenXiPlus); } | |
846 | if(! fHistPtVsCentV0C_GenOmegaMinus ) { | |
847 | fHistPtVsCentV0C_GenOmegaMinus = new TH2D( | |
848 | "fHistPtVsCentV0C_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
849 | fListHist->Add(fHistPtVsCentV0C_GenOmegaMinus); } | |
850 | if(! fHistPtVsCentV0C_GenOmegaPlus ) { | |
851 | fHistPtVsCentV0C_GenOmegaPlus = new TH2D( | |
852 | "fHistPtVsCentV0C_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
853 | fListHist->Add(fHistPtVsCentV0C_GenOmegaPlus); } | |
854 | ||
855 | if(! fHistPtVsCentV0M_GenXiMinus ) { | |
856 | fHistPtVsCentV0M_GenXiMinus = new TH2D( | |
857 | "fHistPtVsCentV0M_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
858 | fListHist->Add(fHistPtVsCentV0M_GenXiMinus); } | |
859 | if(! fHistPtVsCentV0M_GenXiPlus ) { | |
860 | fHistPtVsCentV0M_GenXiPlus = new TH2D( | |
861 | "fHistPtVsCentV0M_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
862 | fListHist->Add(fHistPtVsCentV0M_GenXiPlus); } | |
863 | if(! fHistPtVsCentV0M_GenOmegaMinus ) { | |
864 | fHistPtVsCentV0M_GenOmegaMinus = new TH2D( | |
865 | "fHistPtVsCentV0M_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
866 | fListHist->Add(fHistPtVsCentV0M_GenOmegaMinus); } | |
867 | if(! fHistPtVsCentV0M_GenOmegaPlus ) { | |
868 | fHistPtVsCentV0M_GenOmegaPlus = new TH2D( | |
869 | "fHistPtVsCentV0M_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
870 | fListHist->Add(fHistPtVsCentV0M_GenOmegaPlus); } | |
871 | ||
872 | //Equalized | |
873 | if(! fHistPtVsCentV0AEq_GenXiMinus ) { | |
874 | fHistPtVsCentV0AEq_GenXiMinus = new TH2D( | |
875 | "fHistPtVsCentV0AEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
876 | fListHist->Add(fHistPtVsCentV0AEq_GenXiMinus); } | |
877 | if(! fHistPtVsCentV0AEq_GenXiPlus ) { | |
878 | fHistPtVsCentV0AEq_GenXiPlus = new TH2D( | |
879 | "fHistPtVsCentV0AEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
880 | fListHist->Add(fHistPtVsCentV0AEq_GenXiPlus); } | |
881 | if(! fHistPtVsCentV0AEq_GenOmegaMinus ) { | |
882 | fHistPtVsCentV0AEq_GenOmegaMinus = new TH2D( | |
883 | "fHistPtVsCentV0AEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
884 | fListHist->Add(fHistPtVsCentV0AEq_GenOmegaMinus); } | |
885 | if(! fHistPtVsCentV0AEq_GenOmegaPlus ) { | |
886 | fHistPtVsCentV0AEq_GenOmegaPlus = new TH2D( | |
887 | "fHistPtVsCentV0AEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
888 | fListHist->Add(fHistPtVsCentV0AEq_GenOmegaPlus); } | |
889 | ||
890 | if(! fHistPtVsCentV0CEq_GenXiMinus ) { | |
891 | fHistPtVsCentV0CEq_GenXiMinus = new TH2D( | |
892 | "fHistPtVsCentV0CEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
893 | fListHist->Add(fHistPtVsCentV0CEq_GenXiMinus); } | |
894 | if(! fHistPtVsCentV0CEq_GenXiPlus ) { | |
895 | fHistPtVsCentV0CEq_GenXiPlus = new TH2D( | |
896 | "fHistPtVsCentV0CEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
897 | fListHist->Add(fHistPtVsCentV0CEq_GenXiPlus); } | |
898 | if(! fHistPtVsCentV0CEq_GenOmegaMinus ) { | |
899 | fHistPtVsCentV0CEq_GenOmegaMinus = new TH2D( | |
900 | "fHistPtVsCentV0CEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
901 | fListHist->Add(fHistPtVsCentV0CEq_GenOmegaMinus); } | |
902 | if(! fHistPtVsCentV0CEq_GenOmegaPlus ) { | |
903 | fHistPtVsCentV0CEq_GenOmegaPlus = new TH2D( | |
904 | "fHistPtVsCentV0CEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
905 | fListHist->Add(fHistPtVsCentV0CEq_GenOmegaPlus); } | |
906 | ||
907 | if(! fHistPtVsCentV0MEq_GenXiMinus ) { | |
908 | fHistPtVsCentV0MEq_GenXiMinus = new TH2D( | |
909 | "fHistPtVsCentV0MEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
910 | fListHist->Add(fHistPtVsCentV0MEq_GenXiMinus); } | |
911 | if(! fHistPtVsCentV0MEq_GenXiPlus ) { | |
912 | fHistPtVsCentV0MEq_GenXiPlus = new TH2D( | |
913 | "fHistPtVsCentV0MEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
914 | fListHist->Add(fHistPtVsCentV0MEq_GenXiPlus); } | |
915 | if(! fHistPtVsCentV0MEq_GenOmegaMinus ) { | |
916 | fHistPtVsCentV0MEq_GenOmegaMinus = new TH2D( | |
917 | "fHistPtVsCentV0MEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
918 | fListHist->Add(fHistPtVsCentV0MEq_GenOmegaMinus); } | |
919 | if(! fHistPtVsCentV0MEq_GenOmegaPlus ) { | |
920 | fHistPtVsCentV0MEq_GenOmegaPlus = new TH2D( | |
921 | "fHistPtVsCentV0MEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,100,0,100); | |
922 | fListHist->Add(fHistPtVsCentV0MEq_GenOmegaPlus); } | |
923 | ||
924 | //AMPLITUDES: V0A, V0C, V0M, +Eq | |
925 | Double_t lMaxAmplitude = 2500; | |
926 | Long_t lAmplitudeBins = 10000; | |
927 | if(! fHistPtVsAmpV0A_GenXiMinus ) { | |
928 | fHistPtVsAmpV0A_GenXiMinus = new TH2D( | |
929 | "fHistPtVsAmpV0A_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
930 | fListHist->Add(fHistPtVsAmpV0A_GenXiMinus); } | |
931 | if(! fHistPtVsAmpV0A_GenXiPlus ) { | |
932 | fHistPtVsAmpV0A_GenXiPlus = new TH2D( | |
933 | "fHistPtVsAmpV0A_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
934 | fListHist->Add(fHistPtVsAmpV0A_GenXiPlus); } | |
935 | if(! fHistPtVsAmpV0A_GenOmegaMinus ) { | |
936 | fHistPtVsAmpV0A_GenOmegaMinus = new TH2D( | |
937 | "fHistPtVsAmpV0A_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
938 | fListHist->Add(fHistPtVsAmpV0A_GenOmegaMinus); } | |
939 | if(! fHistPtVsAmpV0A_GenOmegaPlus ) { | |
940 | fHistPtVsAmpV0A_GenOmegaPlus = new TH2D( | |
941 | "fHistPtVsAmpV0A_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
942 | fListHist->Add(fHistPtVsAmpV0A_GenOmegaPlus); } | |
943 | ||
944 | if(! fHistPtVsAmpV0C_GenXiMinus ) { | |
945 | fHistPtVsAmpV0C_GenXiMinus = new TH2D( | |
946 | "fHistPtVsAmpV0C_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
947 | fListHist->Add(fHistPtVsAmpV0C_GenXiMinus); } | |
948 | if(! fHistPtVsAmpV0C_GenXiPlus ) { | |
949 | fHistPtVsAmpV0C_GenXiPlus = new TH2D( | |
950 | "fHistPtVsAmpV0C_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
951 | fListHist->Add(fHistPtVsAmpV0C_GenXiPlus); } | |
952 | if(! fHistPtVsAmpV0C_GenOmegaMinus ) { | |
953 | fHistPtVsAmpV0C_GenOmegaMinus = new TH2D( | |
954 | "fHistPtVsAmpV0C_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
955 | fListHist->Add(fHistPtVsAmpV0C_GenOmegaMinus); } | |
956 | if(! fHistPtVsAmpV0C_GenOmegaPlus ) { | |
957 | fHistPtVsAmpV0C_GenOmegaPlus = new TH2D( | |
958 | "fHistPtVsAmpV0C_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
959 | fListHist->Add(fHistPtVsAmpV0C_GenOmegaPlus); } | |
960 | ||
961 | if(! fHistPtVsAmpV0M_GenXiMinus ) { | |
962 | fHistPtVsAmpV0M_GenXiMinus = new TH2D( | |
963 | "fHistPtVsAmpV0M_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
964 | fListHist->Add(fHistPtVsAmpV0M_GenXiMinus); } | |
965 | if(! fHistPtVsAmpV0M_GenXiPlus ) { | |
966 | fHistPtVsAmpV0M_GenXiPlus = new TH2D( | |
967 | "fHistPtVsAmpV0M_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
968 | fListHist->Add(fHistPtVsAmpV0M_GenXiPlus); } | |
969 | if(! fHistPtVsAmpV0M_GenOmegaMinus ) { | |
970 | fHistPtVsAmpV0M_GenOmegaMinus = new TH2D( | |
971 | "fHistPtVsAmpV0M_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
972 | fListHist->Add(fHistPtVsAmpV0M_GenOmegaMinus); } | |
973 | if(! fHistPtVsAmpV0M_GenOmegaPlus ) { | |
974 | fHistPtVsAmpV0M_GenOmegaPlus = new TH2D( | |
975 | "fHistPtVsAmpV0M_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
976 | fListHist->Add(fHistPtVsAmpV0M_GenOmegaPlus); } | |
977 | ||
978 | //Equalized | |
979 | if(! fHistPtVsAmpV0AEq_GenXiMinus ) { | |
980 | fHistPtVsAmpV0AEq_GenXiMinus = new TH2D( | |
981 | "fHistPtVsAmpV0AEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
982 | fListHist->Add(fHistPtVsAmpV0AEq_GenXiMinus); } | |
983 | if(! fHistPtVsAmpV0AEq_GenXiPlus ) { | |
984 | fHistPtVsAmpV0AEq_GenXiPlus = new TH2D( | |
985 | "fHistPtVsAmpV0AEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
986 | fListHist->Add(fHistPtVsAmpV0AEq_GenXiPlus); } | |
987 | if(! fHistPtVsAmpV0AEq_GenOmegaMinus ) { | |
988 | fHistPtVsAmpV0AEq_GenOmegaMinus = new TH2D( | |
989 | "fHistPtVsAmpV0AEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
990 | fListHist->Add(fHistPtVsAmpV0AEq_GenOmegaMinus); } | |
991 | if(! fHistPtVsAmpV0AEq_GenOmegaPlus ) { | |
992 | fHistPtVsAmpV0AEq_GenOmegaPlus = new TH2D( | |
993 | "fHistPtVsAmpV0AEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
994 | fListHist->Add(fHistPtVsAmpV0AEq_GenOmegaPlus); } | |
995 | ||
996 | if(! fHistPtVsAmpV0CEq_GenXiMinus ) { | |
997 | fHistPtVsAmpV0CEq_GenXiMinus = new TH2D( | |
998 | "fHistPtVsAmpV0CEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
999 | fListHist->Add(fHistPtVsAmpV0CEq_GenXiMinus); } | |
1000 | if(! fHistPtVsAmpV0CEq_GenXiPlus ) { | |
1001 | fHistPtVsAmpV0CEq_GenXiPlus = new TH2D( | |
1002 | "fHistPtVsAmpV0CEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1003 | fListHist->Add(fHistPtVsAmpV0CEq_GenXiPlus); } | |
1004 | if(! fHistPtVsAmpV0CEq_GenOmegaMinus ) { | |
1005 | fHistPtVsAmpV0CEq_GenOmegaMinus = new TH2D( | |
1006 | "fHistPtVsAmpV0CEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1007 | fListHist->Add(fHistPtVsAmpV0CEq_GenOmegaMinus); } | |
1008 | if(! fHistPtVsAmpV0CEq_GenOmegaPlus ) { | |
1009 | fHistPtVsAmpV0CEq_GenOmegaPlus = new TH2D( | |
1010 | "fHistPtVsAmpV0CEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1011 | fListHist->Add(fHistPtVsAmpV0CEq_GenOmegaPlus); } | |
1012 | ||
1013 | if(! fHistPtVsAmpV0MEq_GenXiMinus ) { | |
1014 | fHistPtVsAmpV0MEq_GenXiMinus = new TH2D( | |
1015 | "fHistPtVsAmpV0MEq_GenXiMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1016 | fListHist->Add(fHistPtVsAmpV0MEq_GenXiMinus); } | |
1017 | if(! fHistPtVsAmpV0MEq_GenXiPlus ) { | |
1018 | fHistPtVsAmpV0MEq_GenXiPlus = new TH2D( | |
1019 | "fHistPtVsAmpV0MEq_GenXiPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1020 | fListHist->Add(fHistPtVsAmpV0MEq_GenXiPlus); } | |
1021 | if(! fHistPtVsAmpV0MEq_GenOmegaMinus ) { | |
1022 | fHistPtVsAmpV0MEq_GenOmegaMinus = new TH2D( | |
1023 | "fHistPtVsAmpV0MEq_GenOmegaMinus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1024 | fListHist->Add(fHistPtVsAmpV0MEq_GenOmegaMinus); } | |
1025 | if(! fHistPtVsAmpV0MEq_GenOmegaPlus ) { | |
1026 | fHistPtVsAmpV0MEq_GenOmegaPlus = new TH2D( | |
1027 | "fHistPtVsAmpV0MEq_GenOmegaPlus", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1028 | fListHist->Add(fHistPtVsAmpV0MEq_GenOmegaPlus); } | |
1029 | ||
1dac6d41 | 1030 | if(! fHistVZEROResponseStudy ) { |
1031 | fHistVZEROResponseStudy = new TH2D( | |
1032 | "fHistVZEROResponseStudy", "Generated;p_{T} (GeV/c); Mult",200,0,20,lAmplitudeBins,0,lMaxAmplitude); | |
1033 | fListHist->Add(fHistVZEROResponseStudy); } | |
1034 | ||
1035 | if(! fHistVZEROResponseStudyTotal ) { | |
1036 | fHistVZEROResponseStudyTotal = new TH2D( | |
a190e35b | 1037 | "fHistVZEROResponseStudyTotal", "Generated;p_{T} (GeV/c); Mult",5000,0,500,lAmplitudeBins,0,lMaxAmplitude); |
1dac6d41 | 1038 | fListHist->Add(fHistVZEROResponseStudyTotal); } |
1039 | ||
af0d4791 | 1040 | //List of Histograms: Normal |
1041 | PostData(1, fListHist); | |
1042 | ||
1043 | //TTree Object: Saved to base directory. Should cache to disk while saving. | |
1044 | //(Important to avoid excessive memory usage, particularly when merging) | |
1045 | PostData(2, fTreeEvent); | |
1046 | PostData(3, fTreeV0); | |
1047 | PostData(4, fTreeCascade); | |
1048 | ||
1049 | }// end UserCreateOutputObjects | |
1050 | ||
1051 | ||
1052 | //________________________________________________________________________ | |
1053 | void AliAnalysisTaskStrangenessVsMultiplicityMC::UserExec(Option_t *) | |
1054 | { | |
1055 | // Main loop | |
1056 | // Called for each event | |
1057 | ||
1058 | AliESDEvent *lESDevent = 0x0; | |
1059 | AliMCEvent *lMCevent = 0x0; | |
1060 | AliStack *lMCstack = 0x0; | |
2ca41fef | 1061 | |
5f31c5d4 | 1062 | //Zero all booleans, etc |
1063 | fEvSel_HasAtLeastSPDVertex = kFALSE; | |
1064 | fEvSel_VtxZCut = kFALSE; | |
1065 | fEvSel_IsNotPileup = kFALSE; | |
1066 | fEvSel_IsNotPileupInMultBins = kFALSE; | |
1067 | fEvSel_HasVtxContributor = kFALSE; | |
1068 | fEvSel_Triggered = kFALSE; | |
2ca41fef | 1069 | fEvSel_VtxZ = -100; |
1070 | fEvSel_MCType = -100; | |
af0d4791 | 1071 | // Connect to the InputEvent |
1072 | // After these lines, we should have an ESD/AOD event + the number of V0s in it. | |
1073 | ||
1074 | // Appropriate for ESD analysis! | |
1075 | ||
1076 | lESDevent = dynamic_cast<AliESDEvent*>( InputEvent() ); | |
1077 | if (!lESDevent) { | |
1078 | AliWarning("ERROR: lESDevent not available \n"); | |
1079 | return; | |
1080 | } | |
1081 | ||
1082 | //Get VZERO Information for multiplicity later | |
1083 | AliVVZERO* esdV0 = lESDevent->GetVZEROData(); | |
1084 | if (!esdV0) { | |
1085 | AliError("AliVVZERO not available"); | |
1086 | return; | |
1087 | } | |
1088 | ||
1089 | lMCevent = MCEvent(); | |
1090 | if (!lMCevent) { | |
1091 | Printf("ERROR: Could not retrieve MC event \n"); | |
1092 | cout << "Name of the file with pb :" << fInputHandler->GetTree()->GetCurrentFile()->GetName() << endl; | |
1093 | return; | |
1094 | } | |
1095 | ||
1096 | lMCstack = lMCevent->Stack(); | |
1097 | if (!lMCstack) { | |
1098 | Printf("ERROR: Could not retrieve MC stack \n"); | |
1099 | cout << "Name of the file with pb :" << fInputHandler->GetTree()->GetCurrentFile()->GetName() << endl; | |
1100 | return; | |
1101 | } | |
1102 | ||
1103 | fRunNumber = lESDevent->GetRunNumber(); | |
1104 | ||
1105 | Double_t lMagneticField = -10; | |
1106 | lMagneticField = lESDevent->GetMagneticField( ); | |
1107 | ||
1108 | //------------------------------------------------ | |
2ca41fef | 1109 | // MC type (ND, SD, DD) |
af0d4791 | 1110 | //------------------------------------------------ |
1111 | ||
2ca41fef | 1112 | AliGenEventHeader * header = lMCevent->GenEventHeader(); |
1113 | Int_t processtype = AliPWG0Helper::GetPythiaEventProcessType(header); | |
1114 | // non diffractive | |
1115 | if (processtype !=92 && processtype !=93 && processtype != 94) fEvSel_MCType = 1; | |
1116 | // single diffractive | |
1117 | if ((processtype == 92 || processtype == 93)) fEvSel_MCType = 2; | |
1118 | // double diffractive | |
1119 | if (processtype == 94) fEvSel_MCType = 3; | |
1120 | ||
af0d4791 | 1121 | //------------------------------------------------ |
1122 | // Physics Selection | |
1123 | //------------------------------------------------ | |
1124 | ||
1125 | fHistEventCounter->Fill(0.5); | |
1126 | ||
1127 | UInt_t maskIsSelected = ((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected(); | |
1128 | Bool_t isSelected = 0; | |
1129 | isSelected = (maskIsSelected & AliVEvent::kMB) == AliVEvent::kMB; | |
dedb9266 | 1130 | fEvSel_Triggered = isSelected; |
af0d4791 | 1131 | |
1132 | //Standard Min-Bias Selection | |
dedb9266 | 1133 | if ( (! isSelected) && (! fkSkipEventSelection ) ) { |
af0d4791 | 1134 | PostData(1, fListHist); |
1135 | PostData(2, fTreeEvent); | |
1136 | PostData(3, fTreeV0); | |
1137 | PostData(4, fTreeCascade); | |
1138 | return; | |
1139 | } | |
d8c18e93 | 1140 | |
1141 | //Tracklets vs Clusters cut via AliAnalysisUtils | |
1142 | if ( fkApplyTrackletsVsClustersCut && (! fkSkipEventSelection ) ) { | |
1143 | if( fUtils->IsSPDClusterVsTrackletBG( lESDevent ) ){ | |
1144 | PostData(1, fListHist); | |
1145 | PostData(2, fTreeEvent); | |
1146 | PostData(3, fTreeV0); | |
1147 | PostData(4, fTreeCascade); | |
1148 | return; | |
1149 | } | |
1150 | } | |
af0d4791 | 1151 | |
1152 | fHistEventCounter->Fill(1.5); | |
1153 | ||
1154 | //------------------------------------------------ | |
1155 | // Primary Vertex Requirements Section: | |
1156 | // ---> pp: has vertex, |z|<10cm | |
1157 | //------------------------------------------------ | |
1158 | ||
1159 | //classical Proton-proton like selection | |
1160 | const AliESDVertex *lPrimaryBestESDVtx = lESDevent->GetPrimaryVertex(); | |
1161 | const AliESDVertex *lPrimaryTrackingESDVtx = lESDevent->GetPrimaryVertexTracks(); | |
1162 | const AliESDVertex *lPrimarySPDVtx = lESDevent->GetPrimaryVertexSPD(); | |
1163 | ||
1164 | Double_t lBestPrimaryVtxPos[3] = {-100.0, -100.0, -100.0}; | |
1165 | lPrimaryBestESDVtx->GetXYZ( lBestPrimaryVtxPos ); | |
2ca41fef | 1166 | fEvSel_VtxZ = lBestPrimaryVtxPos[2]; |
af0d4791 | 1167 | |
1168 | //Only accept if Tracking or SPD vertex is fine | |
dedb9266 | 1169 | if (!lPrimarySPDVtx->GetStatus() && !lPrimaryTrackingESDVtx->GetStatus() && !fkSkipEventSelection ){ |
af0d4791 | 1170 | AliWarning("Pb / No SPD prim. vertex nor prim. Tracking vertex ... return !"); |
1171 | PostData(1, fListHist); | |
1172 | PostData(2, fTreeEvent); | |
1173 | PostData(3, fTreeV0); | |
1174 | PostData(4, fTreeCascade); | |
1175 | return; | |
1176 | } | |
dedb9266 | 1177 | |
1178 | if(! (!lPrimarySPDVtx->GetStatus() && !lPrimaryTrackingESDVtx->GetStatus()) ){ | |
1179 | //Passed selection! | |
1180 | fEvSel_HasAtLeastSPDVertex = kTRUE; | |
1181 | } | |
1182 | ||
af0d4791 | 1183 | //Has SPD or Tracking Vertex |
1184 | fHistEventCounter -> Fill(2.5); | |
1185 | ||
1186 | //Always do Primary Vertex Selection | |
dedb9266 | 1187 | if(TMath::Abs(lBestPrimaryVtxPos[2]) > 10.0 && !fkSkipEventSelection ) { |
af0d4791 | 1188 | AliWarning("Pb / | Z position of Best Prim Vtx | > 10.0 cm ... return !"); |
1189 | PostData(1, fListHist); | |
1190 | PostData(2, fTreeEvent); | |
1191 | PostData(3, fTreeV0); | |
1192 | PostData(4, fTreeCascade); | |
1193 | return; | |
1194 | } | |
dedb9266 | 1195 | |
1196 | if(TMath::Abs(lBestPrimaryVtxPos[2]) <= 10.0 ){ | |
1197 | //Passed selection! | |
1198 | fEvSel_VtxZCut = kTRUE; | |
1199 | } | |
af0d4791 | 1200 | |
1201 | //Fill Event selected counter | |
1202 | fHistEventCounter -> Fill(3.5); | |
1203 | ||
1204 | //------------------------------------------------ | |
1205 | // Check if this isn't pileup | |
1206 | //------------------------------------------------ | |
1207 | ||
535c1213 | 1208 | if(lESDevent->IsPileupFromSPD() && !fkSkipEventSelection ){ |
af0d4791 | 1209 | // minContributors=3, minZdist=0.8, nSigmaZdist=3., nSigmaDiamXY=2., nSigmaDiamZ=5. |
1210 | //-> see http://alisoft.cern.ch/viewvc/trunk/STEER/AliESDEvent.h?root=AliRoot&r1=41914&r2=42199&pathrev=42199 | |
1211 | AliWarning("Pb / Event tagged as pile-up by SPD... return !"); | |
1212 | PostData(1, fListHist); | |
1213 | PostData(2, fTreeEvent); | |
1214 | PostData(3, fTreeV0); | |
1215 | PostData(4, fTreeCascade); | |
1216 | return; | |
1217 | } | |
dedb9266 | 1218 | |
1219 | if( !lESDevent->IsPileupFromSPD() ) fEvSel_IsNotPileup = kTRUE; | |
1220 | if( !lESDevent->IsPileupFromSPDInMultBins() ) fEvSel_IsNotPileupInMultBins = kTRUE; | |
1221 | ||
1222 | //First implementation of pileup from multi-vertexer (simple use of analysis utils) | |
1223 | //if ( !fUtils->IsPileUpMV( lESDevent ) ) fEvSel_IsNotPileupMV = kTRUE; | |
1224 | fEvSel_IsNotPileupMV = kFALSE ; //dummy | |
1225 | ||
af0d4791 | 1226 | //Fill Event isn't pileup counter |
1227 | fHistEventCounter -> Fill(4.5); | |
1228 | ||
1229 | //------------------------------------------------ | |
1230 | // Multiplicity Information Acquistion | |
1231 | //------------------------------------------------ | |
1232 | ||
1233 | //Monte Carlo Level information ! | |
1234 | //--------- GENERATED NUMBER OF CHARGED PARTICLES | |
1235 | // ---> Variable Definition | |
1236 | ||
1237 | Long_t lNchEta5 = 0; | |
1238 | Long_t lNchEta8 = 0; | |
1239 | Long_t lNchVZEROA = 0; | |
1240 | Long_t lNchVZEROC = 0; | |
1241 | ||
1dac6d41 | 1242 | Float_t lPtOfParticleInsideVZEROA = -1; |
1243 | Float_t lPOfParticleInsideVZEROA = -1; | |
1244 | ||
af0d4791 | 1245 | //----- Loop on Stack ---------------------------------------------------------------- |
1246 | for (Int_t iCurrentLabelStack = 0; iCurrentLabelStack < (lMCstack->GetNtrack()); iCurrentLabelStack++) | |
1247 | {// This is the begining of the loop on tracks | |
1248 | TParticle* particleOne = lMCstack->Particle(iCurrentLabelStack); | |
1249 | if(!particleOne) continue; | |
1250 | if(!particleOne->GetPDG()) continue; | |
1251 | Double_t lThisCharge = particleOne->GetPDG()->Charge()/3.; | |
1252 | if(TMath::Abs(lThisCharge)<0.001) continue; | |
1253 | if(! (lMCstack->IsPhysicalPrimary(iCurrentLabelStack)) ) continue; | |
1254 | ||
1255 | //Double_t gpt = particleOne -> Pt(); | |
1256 | Double_t geta = particleOne -> Eta(); | |
1257 | ||
1258 | if( TMath::Abs(geta) < 0.5 ) lNchEta5++; | |
1259 | if( TMath::Abs(geta) < 0.8 ) lNchEta8++; | |
1260 | if( 2.8 < geta && geta < 5.1 ) lNchVZEROA++; | |
1dac6d41 | 1261 | if( 2.8 < geta && geta < 5.1 ) lPtOfParticleInsideVZEROA = particleOne->Pt(); |
1262 | if( 2.8 < geta && geta < 5.1 ) lPOfParticleInsideVZEROA = particleOne->P(); | |
af0d4791 | 1263 | if(-3.7 < geta && geta <-1.7 ) lNchVZEROC++; |
1264 | }//End of loop on tracks | |
1dac6d41 | 1265 | |
af0d4791 | 1266 | //Attribution |
1267 | fTrueMultEta5 = lNchEta5; | |
1268 | fTrueMultEta8 = lNchEta8; | |
1269 | fTrueMultVZEROA = lNchVZEROA; | |
1270 | fTrueMultVZEROC = lNchVZEROC; | |
1271 | //----- End Loop on Stack ------------------------------------------------------------ | |
1272 | ||
1273 | //Standard GetReferenceMultiplicity Estimator (0.5 and 0.8) | |
1274 | fRefMultEta5 = fESDtrackCuts->GetReferenceMultiplicity(lESDevent, AliESDtrackCuts::kTrackletsITSTPC,0.5); | |
1275 | fRefMultEta8 = fESDtrackCuts->GetReferenceMultiplicity(lESDevent, AliESDtrackCuts::kTrackletsITSTPC,0.8); | |
1276 | ||
39b65ed7 | 1277 | //Differential in eta |
1278 | //binning definition | |
1279 | Float_t lEtaBinning[21] = {-1.5,-1.,-0.8,-0.7,-0.6,-0.5,-0.4,-0.3,-0.2,-0.1,0.,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,1.0,1.5}; | |
1280 | Float_t lEtaCent = -666.; | |
1281 | Float_t lEtaRange = -666.; | |
1282 | for(Int_t i=0; i<20; i++){ | |
1283 | lEtaCent = lEtaBinning[i]+(lEtaBinning[i+1]-lEtaBinning[i])/2.; | |
1284 | lEtaRange = (lEtaBinning[i+1]-lEtaBinning[i])/2.; | |
1285 | if(i<2 || i>17) fRefMultDiffEta[i] = fESDtrackCuts->GetReferenceMultiplicity(lESDevent, AliESDtrackCuts::kTracklets,lEtaRange,lEtaCent); | |
1286 | else fRefMultDiffEta[i] = fESDtrackCuts->GetReferenceMultiplicity(lESDevent, AliESDtrackCuts::kTrackletsITSTPC,lEtaRange,lEtaCent); | |
1287 | } | |
1288 | ||
af0d4791 | 1289 | // VZERO PART |
1290 | Float_t multV0A = 0; // multiplicity from V0 reco side A | |
1291 | Float_t multV0C = 0; // multiplicity from V0 reco side C | |
1292 | Float_t multV0AEq = 0; // multiplicity from V0 reco side A | |
1293 | Float_t multV0CEq = 0; // multiplicity from V0 reco side C | |
1294 | Float_t multV0ACorr = 0; // multiplicity from V0 reco side A | |
1295 | Float_t multV0CCorr = 0; // multiplicity from V0 reco side C | |
1296 | ||
1297 | //Non-Equalized Signal: copy of multV0ACorr and multV0CCorr from AliCentralitySelectionTask | |
1298 | //Getters for uncorrected multiplicity | |
1299 | multV0A=esdV0->GetMTotV0A(); | |
1300 | multV0C=esdV0->GetMTotV0C(); | |
1301 | ||
1302 | //Get Z vertex position of SPD vertex (why not Tracking if available?) | |
1303 | Float_t zvtx = lPrimarySPDVtx->GetZ(); | |
1304 | ||
1305 | //Acquire Corrected multV0A | |
1306 | multV0ACorr = AliESDUtils::GetCorrV0A(multV0A,zvtx); | |
1307 | multV0CCorr = AliESDUtils::GetCorrV0C(multV0C,zvtx); | |
1308 | ||
1309 | //Copy to Event Tree for extra information | |
1310 | fAmplitude_V0A = multV0ACorr; | |
1311 | fAmplitude_V0C = multV0CCorr; | |
1312 | ||
1dac6d41 | 1313 | if( fTrueMultVZEROA == 1 ) fHistVZEROResponseStudy->Fill( lPtOfParticleInsideVZEROA , fAmplitude_V0A ); |
1314 | if( fTrueMultVZEROA == 1 ) fHistVZEROResponseStudyTotal->Fill( lPOfParticleInsideVZEROA , fAmplitude_V0A ); | |
1315 | ||
af0d4791 | 1316 | // Equalized signals // From AliCentralitySelectionTask |
1317 | for(Int_t iCh = 4; iCh < 7; ++iCh) { | |
1318 | Double_t mult = lESDevent->GetVZEROEqMultiplicity(iCh); | |
1319 | multV0AEq += mult; | |
1320 | } | |
1321 | for(Int_t iCh = 0; iCh < 3; ++iCh) { | |
1322 | Double_t mult = lESDevent->GetVZEROEqMultiplicity(iCh); | |
1323 | multV0CEq += mult; | |
1324 | } | |
1325 | fAmplitude_V0AEq = multV0AEq; | |
1326 | fAmplitude_V0CEq = multV0CEq; | |
1327 | ||
1328 | fCentrality_V0A = -100; | |
1329 | fCentrality_V0C = -100; | |
1330 | fCentrality_V0M = -100; | |
1331 | fCentrality_V0AEq = -100; | |
1332 | fCentrality_V0CEq = -100; | |
1333 | fCentrality_V0MEq = -100; | |
1334 | ||
1335 | //AliCentrality... Check if working? | |
1336 | AliCentrality* centrality; | |
1337 | centrality = lESDevent->GetCentrality(); | |
1338 | if ( !(centrality->GetQuality()>1) ){ | |
1339 | fCentrality_V0A = centrality->GetCentralityPercentile( "V0A" ); | |
1340 | fCentrality_V0C = centrality->GetCentralityPercentile( "V0C" ); | |
1341 | fCentrality_V0M = centrality->GetCentralityPercentile( "V0M" ); | |
1342 | fCentrality_V0AEq = centrality->GetCentralityPercentile( "V0AEq" ); | |
1343 | fCentrality_V0CEq = centrality->GetCentralityPercentile( "V0CEq" ); | |
1344 | fCentrality_V0MEq = centrality->GetCentralityPercentile( "V0MEq" ); | |
1345 | } | |
1346 | ||
535c1213 | 1347 | fCustomCentrality_V0M = fPPVsMultUtils -> GetMultiplicityPercentile(lESDevent, "V0M"); |
1348 | fCustomCentrality_V0MEq = fPPVsMultUtils -> GetMultiplicityPercentile(lESDevent, "V0MEq"); | |
1349 | ||
9a28e152 | 1350 | fTreeVariableCustomCentV0M = fCustomCentrality_V0M; |
1351 | fTreeCascVarCustomCentV0M = fCustomCentrality_V0M; | |
1352 | ||
af0d4791 | 1353 | //Event-level fill |
535c1213 | 1354 | fTreeEvent->Fill(); |
1355 | ||
1356 | //STOP HERE if skipping event selections (no point in doing the rest...) | |
1357 | if( fkSkipEventSelection ){ | |
1358 | PostData(1, fListHist); | |
1359 | PostData(2, fTreeEvent); | |
1360 | PostData(3, fTreeV0); | |
1361 | PostData(4, fTreeCascade); | |
1362 | return; | |
1363 | } | |
1364 | ||
af0d4791 | 1365 | |
1366 | //------------------------------------------------ | |
1367 | ||
1368 | //------------------------------------------------ | |
1369 | // Fill Efficiency Denominators, please | |
1370 | //------------------------------------------------ | |
1371 | ||
1372 | Int_t lThisPDG = 0; | |
1373 | Double_t lThisRap = 0; | |
1374 | Double_t lThisPt = 0; | |
1375 | ||
1376 | //----- Loop on Generated CASCADES --------------- | |
1377 | for (Int_t ilab = 0; ilab < (lMCstack->GetNtrack()); ilab++) | |
1378 | {// This is the begining of the loop on tracks | |
1379 | ||
1380 | TParticle* lPart = 0x0; | |
1381 | lPart = lMCstack->Particle( ilab ); | |
1382 | if(!lPart){ | |
1383 | Printf("Generated loop %d - MC TParticle pointer to current stack particle = 0x0 ! Skip ...\n", ilab ); | |
1384 | continue; | |
1385 | } | |
1386 | ||
1387 | lThisPDG = lPart->GetPdgCode(); | |
1388 | ||
161c57ac | 1389 | if ( (TMath::Abs(lThisPDG) == 3312) || (TMath::Abs(lThisPDG) == 3334) || (TMath::Abs(lThisPDG) == 3122) || lThisPDG == 310 ) |
af0d4791 | 1390 | { |
1391 | lThisRap = MyRapidity(lPart->Energy(),lPart->Pz()); | |
1392 | lThisPt = lPart->Pt(); | |
1393 | ||
1394 | //Use Physical Primaries only for filling These Histos | |
1395 | if ( lMCstack->IsPhysicalPrimary(ilab)!=kTRUE ) continue; | |
1396 | ||
161c57ac | 1397 | if( lThisPDG == 310 && TMath::Abs(lThisRap) < 0.5 ) fHistPt_GenK0Short -> Fill ( lThisPt ); |
1398 | if( lThisPDG == 3122 && TMath::Abs(lThisRap) < 0.5 ) fHistPt_GenLambda -> Fill ( lThisPt ); | |
1399 | if( lThisPDG == -3122 && TMath::Abs(lThisRap) < 0.5 ) fHistPt_GenAntiLambda -> Fill ( lThisPt ); | |
1400 | ||
af0d4791 | 1401 | if( lThisPDG == 3312 && TMath::Abs(lThisRap) < 0.5 ){ |
1402 | fHistPt_GenXiMinus -> Fill (lThisPt); | |
1403 | fHistPtVsRefMultEta5_GenXiMinus -> Fill (lThisPt, fRefMultEta5); | |
1404 | fHistPtVsRefMultEta8_GenXiMinus -> Fill (lThisPt, fRefMultEta8); | |
1405 | //Centralities | |
1406 | fHistPtVsCentV0A_GenXiMinus -> Fill (lThisPt, fCentrality_V0A); | |
1407 | fHistPtVsCentV0C_GenXiMinus -> Fill (lThisPt, fCentrality_V0C); | |
1408 | fHistPtVsCentV0M_GenXiMinus -> Fill (lThisPt, fCentrality_V0M); | |
1409 | fHistPtVsCentV0AEq_GenXiMinus -> Fill (lThisPt, fCentrality_V0AEq); | |
1410 | fHistPtVsCentV0CEq_GenXiMinus -> Fill (lThisPt, fCentrality_V0CEq); | |
1411 | fHistPtVsCentV0MEq_GenXiMinus -> Fill (lThisPt, fCentrality_V0MEq); | |
1412 | //Amplitudes | |
1413 | fHistPtVsAmpV0A_GenXiMinus -> Fill (lThisPt, fAmplitude_V0A); | |
1414 | fHistPtVsAmpV0C_GenXiMinus -> Fill (lThisPt, fAmplitude_V0C); | |
1415 | fHistPtVsAmpV0M_GenXiMinus -> Fill (lThisPt, fAmplitude_V0A + fAmplitude_V0C); | |
1416 | fHistPtVsAmpV0AEq_GenXiMinus -> Fill (lThisPt, fAmplitude_V0AEq); | |
1417 | fHistPtVsAmpV0CEq_GenXiMinus -> Fill (lThisPt, fAmplitude_V0CEq); | |
1418 | fHistPtVsAmpV0MEq_GenXiMinus -> Fill (lThisPt, fAmplitude_V0AEq + fAmplitude_V0CEq); | |
1419 | } | |
1420 | if( lThisPDG == -3312 && TMath::Abs(lThisRap) < 0.5 ){ | |
1421 | fHistPt_GenXiPlus -> Fill (lThisPt); | |
1422 | fHistPtVsRefMultEta5_GenXiPlus -> Fill (lThisPt, fRefMultEta5); | |
1423 | fHistPtVsRefMultEta8_GenXiPlus -> Fill (lThisPt, fRefMultEta8); | |
1424 | //Centralities | |
1425 | fHistPtVsCentV0A_GenXiPlus -> Fill (lThisPt, fCentrality_V0A); | |
1426 | fHistPtVsCentV0C_GenXiPlus -> Fill (lThisPt, fCentrality_V0C); | |
1427 | fHistPtVsCentV0M_GenXiPlus -> Fill (lThisPt, fCentrality_V0M); | |
1428 | fHistPtVsCentV0AEq_GenXiPlus -> Fill (lThisPt, fCentrality_V0AEq); | |
1429 | fHistPtVsCentV0CEq_GenXiPlus -> Fill (lThisPt, fCentrality_V0CEq); | |
1430 | fHistPtVsCentV0MEq_GenXiPlus -> Fill (lThisPt, fCentrality_V0MEq); | |
1431 | //Amplitudes | |
1432 | fHistPtVsAmpV0A_GenXiPlus -> Fill (lThisPt, fAmplitude_V0A); | |
1433 | fHistPtVsAmpV0C_GenXiPlus -> Fill (lThisPt, fAmplitude_V0C); | |
1434 | fHistPtVsAmpV0M_GenXiPlus -> Fill (lThisPt, fAmplitude_V0A + fAmplitude_V0C); | |
1435 | fHistPtVsAmpV0AEq_GenXiPlus -> Fill (lThisPt, fAmplitude_V0AEq); | |
1436 | fHistPtVsAmpV0CEq_GenXiPlus -> Fill (lThisPt, fAmplitude_V0CEq); | |
1437 | fHistPtVsAmpV0MEq_GenXiPlus -> Fill (lThisPt, fAmplitude_V0AEq + fAmplitude_V0CEq); | |
1438 | } | |
1439 | if( lThisPDG == 3334 && TMath::Abs(lThisRap) < 0.5 ){ | |
1440 | fHistPt_GenOmegaMinus -> Fill (lThisPt); | |
1441 | fHistPtVsRefMultEta5_GenOmegaMinus -> Fill (lThisPt, fRefMultEta5); | |
1442 | fHistPtVsRefMultEta8_GenOmegaMinus -> Fill (lThisPt, fRefMultEta8); | |
1443 | //Centralities | |
1444 | fHistPtVsCentV0A_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0A); | |
1445 | fHistPtVsCentV0C_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0C); | |
1446 | fHistPtVsCentV0M_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0M); | |
1447 | fHistPtVsCentV0AEq_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0AEq); | |
1448 | fHistPtVsCentV0CEq_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0CEq); | |
1449 | fHistPtVsCentV0MEq_GenOmegaMinus -> Fill (lThisPt, fCentrality_V0MEq); | |
1450 | //Amplitudes | |
1451 | fHistPtVsAmpV0A_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0A); | |
1452 | fHistPtVsAmpV0C_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0C); | |
1453 | fHistPtVsAmpV0M_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0A + fAmplitude_V0C); | |
1454 | fHistPtVsAmpV0AEq_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0AEq); | |
1455 | fHistPtVsAmpV0CEq_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0CEq); | |
1456 | fHistPtVsAmpV0MEq_GenOmegaMinus -> Fill (lThisPt, fAmplitude_V0AEq + fAmplitude_V0CEq); | |
1457 | } | |
1458 | if( lThisPDG == -3334 && TMath::Abs(lThisRap) < 0.5 ){ | |
1459 | fHistPt_GenOmegaPlus -> Fill (lThisPt); | |
1460 | fHistPtVsRefMultEta5_GenOmegaPlus -> Fill (lThisPt, fRefMultEta5); | |
1461 | fHistPtVsRefMultEta8_GenOmegaPlus -> Fill (lThisPt, fRefMultEta8); | |
1462 | //Centralities | |
1463 | fHistPtVsCentV0A_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0A); | |
1464 | fHistPtVsCentV0C_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0C); | |
1465 | fHistPtVsCentV0M_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0M); | |
1466 | fHistPtVsCentV0AEq_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0AEq); | |
1467 | fHistPtVsCentV0CEq_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0CEq); | |
1468 | fHistPtVsCentV0MEq_GenOmegaPlus -> Fill (lThisPt, fCentrality_V0MEq); | |
1469 | //Amplitudes | |
1470 | fHistPtVsAmpV0A_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0A); | |
1471 | fHistPtVsAmpV0C_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0C); | |
1472 | fHistPtVsAmpV0M_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0A + fAmplitude_V0C); | |
1473 | fHistPtVsAmpV0AEq_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0AEq); | |
1474 | fHistPtVsAmpV0CEq_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0CEq); | |
1475 | fHistPtVsAmpV0MEq_GenOmegaPlus -> Fill (lThisPt, fAmplitude_V0AEq + fAmplitude_V0CEq); | |
1476 | } | |
1477 | } | |
1478 | }//End of loop on tracks | |
1479 | //----- End Loop on Cascades ------------------------------------------------------------ | |
1480 | ||
161c57ac | 1481 | //------------------------------------------------ |
1482 | // Fill V0 Tree as needed | |
1483 | //------------------------------------------------ | |
1484 | ||
1485 | //Variable definition | |
1486 | Int_t lOnFlyStatus = 0;// nv0sOn = 0, nv0sOff = 0; | |
1487 | Double_t lChi2V0 = 0; | |
1488 | Double_t lDcaV0Daughters = 0, lDcaV0ToPrimVertex = 0; | |
1489 | Double_t lDcaPosToPrimVertex = 0, lDcaNegToPrimVertex = 0; | |
1490 | Double_t lV0CosineOfPointingAngle = 0; | |
1491 | Double_t lV0Radius = 0, lPt = 0; | |
1492 | Double_t lRapK0Short = 0, lRapLambda = 0; | |
1493 | Double_t lInvMassK0s = 0, lInvMassLambda = 0, lInvMassAntiLambda = 0; | |
1494 | Double_t lAlphaV0 = 0, lPtArmV0 = 0; | |
1495 | ||
1496 | Double_t fMinV0Pt = 0; | |
1497 | Double_t fMaxV0Pt = 100; | |
1498 | ||
1499 | Int_t nv0s = 0; | |
1500 | nv0s = lESDevent->GetNumberOfV0s(); | |
1501 | ||
1502 | for (Int_t iV0 = 0; iV0 < nv0s; iV0++) //extra-crazy test | |
1503 | {// This is the begining of the V0 loop | |
1504 | AliESDv0 *v0 = ((AliESDEvent*)lESDevent)->GetV0(iV0); | |
1505 | if (!v0) continue; | |
1506 | ||
1507 | Double_t tDecayVertexV0[3]; v0->GetXYZ(tDecayVertexV0[0],tDecayVertexV0[1],tDecayVertexV0[2]); | |
1508 | ||
1509 | Double_t tV0mom[3]; | |
1510 | v0->GetPxPyPz( tV0mom[0],tV0mom[1],tV0mom[2] ); | |
1511 | Double_t lV0TotalMomentum = TMath::Sqrt( | |
1512 | tV0mom[0]*tV0mom[0]+tV0mom[1]*tV0mom[1]+tV0mom[2]*tV0mom[2] ); | |
1513 | ||
1514 | lV0Radius = TMath::Sqrt(tDecayVertexV0[0]*tDecayVertexV0[0]+tDecayVertexV0[1]*tDecayVertexV0[1]); | |
1515 | ||
1516 | lPt = v0->Pt(); | |
1517 | lRapK0Short = v0->RapK0Short(); | |
1518 | lRapLambda = v0->RapLambda(); | |
1519 | if ((lPt<fMinV0Pt)||(fMaxV0Pt<lPt)) continue; | |
1520 | ||
1521 | UInt_t lKeyPos = (UInt_t)TMath::Abs(v0->GetPindex()); | |
1522 | UInt_t lKeyNeg = (UInt_t)TMath::Abs(v0->GetNindex()); | |
1523 | ||
1524 | Double_t lMomPos[3]; v0->GetPPxPyPz(lMomPos[0],lMomPos[1],lMomPos[2]); | |
1525 | Double_t lMomNeg[3]; v0->GetNPxPyPz(lMomNeg[0],lMomNeg[1],lMomNeg[2]); | |
1526 | ||
1527 | AliESDtrack *pTrack=((AliESDEvent*)lESDevent)->GetTrack(lKeyPos); | |
1528 | AliESDtrack *nTrack=((AliESDEvent*)lESDevent)->GetTrack(lKeyNeg); | |
1529 | if (!pTrack || !nTrack) { | |
1530 | Printf("ERROR: Could not retreive one of the daughter track"); | |
1531 | continue; | |
1532 | } | |
1533 | ||
1534 | //Daughter Eta for Eta selection, afterwards | |
1535 | fTreeVariableNegEta = nTrack->Eta(); | |
1536 | fTreeVariablePosEta = pTrack->Eta(); | |
1537 | ||
1538 | // Filter like-sign V0 (next: add counter and distribution) | |
1539 | if ( pTrack->GetSign() == nTrack->GetSign()){ | |
1540 | continue; | |
1541 | } | |
1542 | ||
1543 | //________________________________________________________________________ | |
1544 | // Track quality cuts | |
1545 | Float_t lPosTrackCrossedRows = pTrack->GetTPCClusterInfo(2,1); | |
1546 | Float_t lNegTrackCrossedRows = nTrack->GetTPCClusterInfo(2,1); | |
1547 | fTreeVariableLeastNbrCrossedRows = (Int_t) lPosTrackCrossedRows; | |
1548 | if( lNegTrackCrossedRows < fTreeVariableLeastNbrCrossedRows ) | |
1549 | fTreeVariableLeastNbrCrossedRows = (Int_t) lNegTrackCrossedRows; | |
1550 | ||
1551 | // TPC refit condition (done during reconstruction for Offline but not for On-the-fly) | |
1552 | if( !(pTrack->GetStatus() & AliESDtrack::kTPCrefit)) continue; | |
1553 | if( !(nTrack->GetStatus() & AliESDtrack::kTPCrefit)) continue; | |
1554 | ||
1555 | ||
1556 | if ( ( ( pTrack->GetTPCClusterInfo(2,1) ) < 70 ) || ( ( nTrack->GetTPCClusterInfo(2,1) ) < 70 ) ) continue; | |
1557 | ||
1558 | //GetKinkIndex condition | |
1559 | if( pTrack->GetKinkIndex(0)>0 || nTrack->GetKinkIndex(0)>0 ) continue; | |
1560 | ||
1561 | //Findable clusters > 0 condition | |
1562 | if( pTrack->GetTPCNclsF()<=0 || nTrack->GetTPCNclsF()<=0 ) continue; | |
1563 | ||
1564 | //Compute ratio Crossed Rows / Findable clusters | |
1565 | //Note: above test avoids division by zero! | |
1566 | Float_t lPosTrackCrossedRowsOverFindable = lPosTrackCrossedRows / ((double)(pTrack->GetTPCNclsF())); | |
1567 | Float_t lNegTrackCrossedRowsOverFindable = lNegTrackCrossedRows / ((double)(nTrack->GetTPCNclsF())); | |
1568 | ||
1569 | fTreeVariableLeastRatioCrossedRowsOverFindable = lPosTrackCrossedRowsOverFindable; | |
1570 | if( lNegTrackCrossedRowsOverFindable < fTreeVariableLeastRatioCrossedRowsOverFindable ) | |
1571 | fTreeVariableLeastRatioCrossedRowsOverFindable = lNegTrackCrossedRowsOverFindable; | |
1572 | ||
1573 | //Lowest Cut Level for Ratio Crossed Rows / Findable = 0.8, set here | |
1574 | if ( fTreeVariableLeastRatioCrossedRowsOverFindable < 0.8 ) continue; | |
1575 | ||
1576 | //End track Quality Cuts | |
1577 | //________________________________________________________________________ | |
1578 | ||
1579 | lDcaPosToPrimVertex = TMath::Abs(pTrack->GetD(lBestPrimaryVtxPos[0], | |
1580 | lBestPrimaryVtxPos[1], | |
1581 | lMagneticField) ); | |
1582 | ||
1583 | lDcaNegToPrimVertex = TMath::Abs(nTrack->GetD(lBestPrimaryVtxPos[0], | |
1584 | lBestPrimaryVtxPos[1], | |
1585 | lMagneticField) ); | |
1586 | ||
1587 | lOnFlyStatus = v0->GetOnFlyStatus(); | |
1588 | lChi2V0 = v0->GetChi2V0(); | |
1589 | lDcaV0Daughters = v0->GetDcaV0Daughters(); | |
1590 | lDcaV0ToPrimVertex = v0->GetD(lBestPrimaryVtxPos[0],lBestPrimaryVtxPos[1],lBestPrimaryVtxPos[2]); | |
1591 | lV0CosineOfPointingAngle = v0->GetV0CosineOfPointingAngle(lBestPrimaryVtxPos[0],lBestPrimaryVtxPos[1],lBestPrimaryVtxPos[2]); | |
1592 | fTreeVariableV0CosineOfPointingAngle=lV0CosineOfPointingAngle; | |
1593 | ||
1594 | // Getting invariant mass infos directly from ESD | |
1595 | v0->ChangeMassHypothesis(310); | |
1596 | lInvMassK0s = v0->GetEffMass(); | |
1597 | v0->ChangeMassHypothesis(3122); | |
1598 | lInvMassLambda = v0->GetEffMass(); | |
1599 | v0->ChangeMassHypothesis(-3122); | |
1600 | lInvMassAntiLambda = v0->GetEffMass(); | |
1601 | lAlphaV0 = v0->AlphaV0(); | |
1602 | lPtArmV0 = v0->PtArmV0(); | |
1603 | ||
1604 | ||
1605 | //=============================================== | |
1606 | // Monte Carlo Association starts here | |
1607 | //=============================================== | |
1608 | ||
1609 | //---> Set Everything to "I don't know" before starting | |
1610 | ||
1611 | fTreeVariablePIDPositive = 0; | |
1612 | fTreeVariablePIDNegative = 0; | |
1613 | ||
1614 | fTreeVariablePtMother = -1; | |
1615 | fTreeVariablePtMC = -1; | |
1616 | fTreeVariableRapMC = -100; | |
1617 | ||
1618 | fTreeVariablePID = -1; | |
1619 | fTreeVariablePIDMother = -1; | |
1620 | ||
1621 | fTreeVariablePrimaryStatus = 0; | |
1622 | fTreeVariablePrimaryStatusMother = 0; | |
1623 | ||
1624 | Int_t lblPosV0Dghter = (Int_t) TMath::Abs( pTrack->GetLabel() ); | |
1625 | Int_t lblNegV0Dghter = (Int_t) TMath::Abs( nTrack->GetLabel() ); | |
1626 | ||
1627 | TParticle* mcPosV0Dghter = lMCstack->Particle( lblPosV0Dghter ); | |
1628 | TParticle* mcNegV0Dghter = lMCstack->Particle( lblNegV0Dghter ); | |
1629 | ||
1630 | Int_t lPIDPositive = mcPosV0Dghter -> GetPdgCode(); | |
1631 | Int_t lPIDNegative = mcNegV0Dghter -> GetPdgCode(); | |
1632 | ||
1633 | fTreeVariablePIDPositive = lPIDPositive; | |
1634 | fTreeVariablePIDNegative = lPIDNegative; | |
1635 | ||
1636 | Int_t lblMotherPosV0Dghter = mcPosV0Dghter->GetFirstMother() ; | |
1637 | Int_t lblMotherNegV0Dghter = mcNegV0Dghter->GetFirstMother(); | |
1638 | ||
1639 | if( lblMotherPosV0Dghter == lblMotherNegV0Dghter && lblMotherPosV0Dghter > -1 ){ | |
1640 | //either label is fine, they're equal at this stage | |
1641 | TParticle* pThisV0 = lMCstack->Particle( lblMotherPosV0Dghter ); | |
1642 | //Set tree variables | |
1643 | fTreeVariablePID = pThisV0->GetPdgCode(); //PDG Code | |
1644 | fTreeVariablePtMC = pThisV0->Pt(); //Perfect Pt | |
1645 | ||
1646 | //Only Interested if it's a Lambda, AntiLambda or K0s | |
1647 | //Avoid the Junction Bug! PYTHIA has particles with Px=Py=Pz=E=0 occasionally, | |
1648 | //having particle code 88 (unrecognized by PDG), for documentation purposes. | |
1649 | //Even ROOT's TParticle::Y() is not prepared to deal with that exception! | |
1650 | //Note that TParticle::Pt() is immune (that would just return 0)... | |
1651 | //Though granted that that should be extremely rare in this precise condition... | |
1652 | if( TMath::Abs(fTreeVariablePID) == 3122 || fTreeVariablePID==310 ){ | |
1653 | fTreeVariableRapMC = pThisV0->Y(); //Perfect Y | |
1654 | } | |
1655 | if( lMCstack->IsPhysicalPrimary (lblMotherPosV0Dghter) ) fTreeVariablePrimaryStatus = 1; //Is Primary! | |
1656 | if( lMCstack->IsSecondaryFromWeakDecay(lblMotherPosV0Dghter) ) fTreeVariablePrimaryStatus = 2; //Weak Decay! | |
1657 | if( lMCstack->IsSecondaryFromMaterial (lblMotherPosV0Dghter) ) fTreeVariablePrimaryStatus = 3; //Material Int! | |
1658 | ||
1659 | //Now we try to acquire the V0 parent particle, if possible | |
1660 | Int_t lblThisV0Parent = pThisV0->GetFirstMother(); | |
1661 | if ( lblThisV0Parent > -1 ){ //if it has a parent, get it and store specs | |
1662 | TParticle* pThisV0Parent = lMCstack->Particle( lblThisV0Parent ); | |
1663 | fTreeVariablePIDMother = pThisV0Parent->GetPdgCode(); //V0 Mother PDG | |
1664 | fTreeVariablePtMother = pThisV0Parent->Pt(); //V0 Mother Pt | |
1665 | //Primary Status for the V0 Mother particle | |
1666 | if( lMCstack->IsPhysicalPrimary (lblThisV0Parent) ) fTreeVariablePrimaryStatusMother = 1; //Is Primary! | |
1667 | if( lMCstack->IsSecondaryFromWeakDecay(lblThisV0Parent) ) fTreeVariablePrimaryStatusMother = 2; //Weak Decay! | |
1668 | if( lMCstack->IsSecondaryFromMaterial (lblThisV0Parent) ) fTreeVariablePrimaryStatusMother = 3; //Material Int! | |
1669 | } | |
1670 | } | |
1671 | ||
1672 | fTreeVariablePt = v0->Pt(); | |
1673 | fTreeVariableChi2V0 = lChi2V0; | |
1674 | fTreeVariableDcaV0ToPrimVertex = lDcaV0ToPrimVertex; | |
1675 | fTreeVariableDcaV0Daughters = lDcaV0Daughters; | |
1676 | fTreeVariableV0CosineOfPointingAngle = lV0CosineOfPointingAngle; | |
1677 | fTreeVariableV0Radius = lV0Radius; | |
1678 | fTreeVariableDcaPosToPrimVertex = lDcaPosToPrimVertex; | |
1679 | fTreeVariableDcaNegToPrimVertex = lDcaNegToPrimVertex; | |
1680 | fTreeVariableInvMassK0s = lInvMassK0s; | |
1681 | fTreeVariableInvMassLambda = lInvMassLambda; | |
1682 | fTreeVariableInvMassAntiLambda = lInvMassAntiLambda; | |
1683 | fTreeVariableRapK0Short = lRapK0Short; | |
1684 | fTreeVariableRapLambda = lRapLambda; | |
1685 | fTreeVariableAlphaV0 = lAlphaV0; | |
1686 | fTreeVariablePtArmV0 = lPtArmV0; | |
1687 | ||
1688 | //Official means of acquiring N-sigmas | |
1689 | fTreeVariableNSigmasPosProton = fPIDResponse->NumberOfSigmasTPC( pTrack, AliPID::kProton ); | |
1690 | fTreeVariableNSigmasPosPion = fPIDResponse->NumberOfSigmasTPC( pTrack, AliPID::kPion ); | |
1691 | fTreeVariableNSigmasNegProton = fPIDResponse->NumberOfSigmasTPC( nTrack, AliPID::kProton ); | |
1692 | fTreeVariableNSigmasNegPion = fPIDResponse->NumberOfSigmasTPC( nTrack, AliPID::kPion ); | |
1693 | ||
1694 | //This requires an Invariant Mass Hypothesis afterwards | |
1695 | fTreeVariableDistOverTotMom = TMath::Sqrt( | |
1696 | TMath::Power( tDecayVertexV0[0] - lBestPrimaryVtxPos[0] , 2) + | |
1697 | TMath::Power( tDecayVertexV0[1] - lBestPrimaryVtxPos[1] , 2) + | |
1698 | TMath::Power( tDecayVertexV0[2] - lBestPrimaryVtxPos[2] , 2) | |
1699 | ); | |
1700 | fTreeVariableDistOverTotMom /= (lV0TotalMomentum+1e-10); //avoid division by zero, to be sure | |
1701 | ||
1702 | //Copy Multiplicity information | |
161c57ac | 1703 | fTreeVariableCentV0M = fCentrality_V0M; |
161c57ac | 1704 | fTreeVariableCentV0MEq = fCentrality_V0MEq; |
161c57ac | 1705 | fTreeVariableRefMultEta8 = fRefMultEta8; |
1706 | fTreeVariableRefMultEta5 = fRefMultEta5; | |
39b65ed7 | 1707 | fTreeVariableRunNumber = fRunNumber; |
1708 | for(Int_t i=0; i<20; i++) fTreeVariableRefMultDiffEta[i] = fRefMultDiffEta[i]; | |
161c57ac | 1709 | |
1710 | //------------------------------------------------ | |
1711 | // Fill Tree! | |
1712 | //------------------------------------------------ | |
1713 | ||
1714 | // The conditionals are meant to decrease excessive | |
1715 | // memory usage! | |
1716 | ||
1717 | //First Selection: Reject OnFly | |
1718 | if( lOnFlyStatus == 0 ){ | |
1719 | //Second Selection: rough 20-sigma band, parametric. | |
1720 | //K0Short: Enough to parametrize peak broadening with linear function. | |
1721 | Double_t lUpperLimitK0Short = (5.63707e-01) + (1.14979e-02)*fTreeVariablePt; | |
1722 | Double_t lLowerLimitK0Short = (4.30006e-01) - (1.10029e-02)*fTreeVariablePt; | |
1723 | //Lambda: Linear (for higher pt) plus exponential (for low-pt broadening) | |
1724 | //[0]+[1]*x+[2]*TMath::Exp(-[3]*x) | |
1725 | Double_t lUpperLimitLambda = (1.13688e+00) + (5.27838e-03)*fTreeVariablePt + (8.42220e-02)*TMath::Exp(-(3.80595e+00)*fTreeVariablePt); | |
1726 | Double_t lLowerLimitLambda = (1.09501e+00) - (5.23272e-03)*fTreeVariablePt - (7.52690e-02)*TMath::Exp(-(3.46339e+00)*fTreeVariablePt); | |
1727 | //Do Selection | |
1728 | if( (fTreeVariableInvMassLambda < lUpperLimitLambda && fTreeVariableInvMassLambda > lLowerLimitLambda ) || | |
1729 | (fTreeVariableInvMassAntiLambda < lUpperLimitLambda && fTreeVariableInvMassAntiLambda > lLowerLimitLambda ) || | |
1730 | (fTreeVariableInvMassK0s < lUpperLimitK0Short && fTreeVariableInvMassK0s > lLowerLimitK0Short ) ){ | |
1731 | //Pre-selection in case this is AA... | |
1732 | if ( TMath::Abs(fTreeVariableNegEta)<0.8 && TMath::Abs(fTreeVariablePosEta)<0.8 && fkSaveV0Tree ) fTreeV0->Fill(); | |
1733 | } | |
1734 | } | |
1735 | }// This is the end of the V0 loop | |
1736 | ||
1737 | //------------------------------------------------ | |
1738 | // Fill V0 tree over. | |
1739 | //------------------------------------------------ | |
1740 | ||
af0d4791 | 1741 | //------------------------------------------------ |
1742 | // Rerun cascade vertexer! | |
1743 | //------------------------------------------------ | |
1744 | ||
1745 | if( fkRunVertexers ){ | |
1746 | lESDevent->ResetCascades(); | |
1747 | lESDevent->ResetV0s(); | |
1748 | ||
1749 | AliV0vertexer lV0vtxer; | |
1750 | AliCascadeVertexer lCascVtxer; | |
1751 | ||
1752 | lV0vtxer.SetDefaultCuts(fV0VertexerSels); | |
1753 | lCascVtxer.SetDefaultCuts(fCascadeVertexerSels); | |
1754 | ||
1755 | lV0vtxer.Tracks2V0vertices(lESDevent); | |
1756 | lCascVtxer.V0sTracks2CascadeVertices(lESDevent); | |
1757 | } | |
1758 | ||
1759 | //------------------------------------------------ | |
1760 | // MAIN CASCADE LOOP STARTS HERE | |
1761 | //------------------------------------------------ | |
1762 | // Code Credit: Antonin Maire (thanks^100) | |
1763 | // ---> This is an adaptation | |
1764 | ||
1765 | Long_t ncascades = 0; | |
1766 | ncascades = lESDevent->GetNumberOfCascades(); | |
1767 | ||
1768 | for (Int_t iXi = 0; iXi < ncascades; iXi++){ | |
1769 | //------------------------------------------------ | |
1770 | // Initializations | |
1771 | //------------------------------------------------ | |
1772 | //Double_t lTrkgPrimaryVtxRadius3D = -500.0; | |
1773 | //Double_t lBestPrimaryVtxRadius3D = -500.0; | |
1774 | ||
1775 | // - 1st part of initialisation : variables needed to store AliESDCascade data members | |
1776 | Double_t lEffMassXi = 0. ; | |
1777 | //Double_t lChi2Xi = -1. ; | |
1778 | Double_t lDcaXiDaughters = -1. ; | |
1779 | Double_t lXiCosineOfPointingAngle = -1. ; | |
1780 | Double_t lPosXi[3] = { -1000.0, -1000.0, -1000.0 }; | |
1781 | Double_t lXiRadius = -1000. ; | |
1782 | ||
1783 | // - 2nd part of initialisation : Nbr of clusters within TPC for the 3 daughter cascade tracks | |
1784 | Int_t lPosTPCClusters = -1; // For ESD only ...//FIXME : wait for availability in AOD | |
1785 | Int_t lNegTPCClusters = -1; // For ESD only ... | |
1786 | Int_t lBachTPCClusters = -1; // For ESD only ... | |
1787 | ||
1788 | // - 3rd part of initialisation : about V0 part in cascades | |
1789 | Double_t lInvMassLambdaAsCascDghter = 0.; | |
1790 | //Double_t lV0Chi2Xi = -1. ; | |
1791 | Double_t lDcaV0DaughtersXi = -1.; | |
1792 | ||
1793 | Double_t lDcaBachToPrimVertexXi = -1., lDcaV0ToPrimVertexXi = -1.; | |
1794 | Double_t lDcaPosToPrimVertexXi = -1.; | |
1795 | Double_t lDcaNegToPrimVertexXi = -1.; | |
1796 | Double_t lV0CosineOfPointingAngleXi = -1. ; | |
1797 | Double_t lV0CosineOfPointingAngleXiSpecial = -1. ; | |
1798 | Double_t lPosV0Xi[3] = { -1000. , -1000., -1000. }; // Position of VO coming from cascade | |
1799 | Double_t lV0RadiusXi = -1000.0; | |
1800 | Double_t lV0quality = 0.; | |
1801 | ||
1802 | // - 4th part of initialisation : Effective masses | |
1803 | Double_t lInvMassXiMinus = 0.; | |
1804 | Double_t lInvMassXiPlus = 0.; | |
1805 | Double_t lInvMassOmegaMinus = 0.; | |
1806 | Double_t lInvMassOmegaPlus = 0.; | |
1807 | ||
1808 | // - 6th part of initialisation : extra info for QA | |
1809 | Double_t lXiMomX = 0. , lXiMomY = 0., lXiMomZ = 0.; | |
1810 | Double_t lXiTransvMom = 0. ; | |
1811 | //Double_t lXiTransvMomMC= 0. ; | |
1812 | Double_t lXiTotMom = 0. ; | |
1813 | ||
1814 | Double_t lBachMomX = 0., lBachMomY = 0., lBachMomZ = 0.; | |
1815 | //Double_t lBachTransvMom = 0.; | |
1816 | //Double_t lBachTotMom = 0.; | |
1817 | ||
1818 | fTreeCascVarNegNSigmaPion = -100; | |
1819 | fTreeCascVarNegNSigmaProton = -100; | |
1820 | fTreeCascVarPosNSigmaPion = -100; | |
1821 | fTreeCascVarPosNSigmaProton = -100; | |
1822 | fTreeCascVarBachNSigmaPion = -100; | |
1823 | fTreeCascVarBachNSigmaKaon = -100; | |
1824 | ||
1825 | Short_t lChargeXi = -2; | |
1826 | //Double_t lV0toXiCosineOfPointingAngle = 0. ; | |
1827 | ||
1828 | Double_t lRapXi = -20.0, lRapOmega = -20.0, lRapMC = -20;// lEta = -20.0, lTheta = 360., lPhi = 720. ; | |
1829 | //Double_t lAlphaXi = -200., lPtArmXi = -200.0; | |
1830 | ||
1831 | // ------------------------------------- | |
1832 | // II.ESD - Calculation Part dedicated to Xi vertices (ESD) | |
1833 | ||
1834 | AliESDcascade *xi = lESDevent->GetCascade(iXi); | |
1835 | if (!xi) continue; | |
1836 | ||
1837 | // - II.Step 2 : Assigning the necessary variables for specific AliESDcascade data members (ESD) | |
1838 | //------------- | |
1839 | lV0quality = 0.; | |
1840 | xi->ChangeMassHypothesis(lV0quality , 3312); // default working hypothesis : cascade = Xi- decay | |
1841 | ||
1842 | lEffMassXi = xi->GetEffMassXi(); | |
1843 | //lChi2Xi = xi->GetChi2Xi(); | |
1844 | lDcaXiDaughters = xi->GetDcaXiDaughters(); | |
1845 | lXiCosineOfPointingAngle = xi->GetCascadeCosineOfPointingAngle( lBestPrimaryVtxPos[0], | |
1846 | lBestPrimaryVtxPos[1], | |
1847 | lBestPrimaryVtxPos[2] ); | |
1848 | // Take care : the best available vertex should be used (like in AliCascadeVertexer) | |
1849 | ||
1850 | xi->GetXYZcascade( lPosXi[0], lPosXi[1], lPosXi[2] ); | |
1851 | lXiRadius = TMath::Sqrt( lPosXi[0]*lPosXi[0] + lPosXi[1]*lPosXi[1] ); | |
1852 | ||
1853 | // - II.Step 3 : around the tracks : Bach + V0 (ESD) | |
1854 | // ~ Necessary variables for ESDcascade data members coming from the ESDv0 part (inheritance) | |
1855 | //------------- | |
1856 | ||
1857 | UInt_t lIdxPosXi = (UInt_t) TMath::Abs( xi->GetPindex() ); | |
1858 | UInt_t lIdxNegXi = (UInt_t) TMath::Abs( xi->GetNindex() ); | |
1859 | UInt_t lBachIdx = (UInt_t) TMath::Abs( xi->GetBindex() ); | |
1860 | // Care track label can be negative in MC production (linked with the track quality) | |
1861 | // However = normally, not the case for track index ... | |
1862 | ||
1863 | // FIXME : rejection of a double use of a daughter track (nothing but just a crosscheck of what is done in the cascade vertexer) | |
1864 | if(lBachIdx == lIdxNegXi) { | |
1865 | AliWarning("Pb / Idx(Bach. track) = Idx(Neg. track) ... continue!"); continue; | |
1866 | } | |
1867 | if(lBachIdx == lIdxPosXi) { | |
1868 | AliWarning("Pb / Idx(Bach. track) = Idx(Pos. track) ... continue!"); continue; | |
1869 | } | |
1870 | ||
1871 | AliESDtrack *pTrackXi = lESDevent->GetTrack( lIdxPosXi ); | |
1872 | AliESDtrack *nTrackXi = lESDevent->GetTrack( lIdxNegXi ); | |
1873 | AliESDtrack *bachTrackXi = lESDevent->GetTrack( lBachIdx ); | |
1874 | ||
1875 | if (!pTrackXi || !nTrackXi || !bachTrackXi ) { | |
1876 | AliWarning("ERROR: Could not retrieve one of the 3 ESD daughter tracks of the cascade ..."); | |
1877 | continue; | |
1878 | } | |
1879 | ||
1880 | fTreeCascVarPosEta = pTrackXi->Eta(); | |
1881 | fTreeCascVarNegEta = nTrackXi->Eta(); | |
1882 | fTreeCascVarBachEta = bachTrackXi->Eta(); | |
1883 | ||
1884 | Double_t lBMom[3], lNMom[3], lPMom[3]; | |
1885 | xi->GetBPxPyPz( lBMom[0], lBMom[1], lBMom[2] ); | |
1886 | xi->GetPPxPyPz( lPMom[0], lPMom[1], lPMom[2] ); | |
1887 | xi->GetNPxPyPz( lNMom[0], lNMom[1], lNMom[2] ); | |
1888 | ||
1889 | //fTreeCascVarBachTransMom = TMath::Sqrt( lBMom[0]*lBMom[0] + lBMom[1]*lBMom[1] ); | |
1890 | //fTreeCascVarPosTransMom = TMath::Sqrt( lPMom[0]*lPMom[0] + lPMom[1]*lPMom[1] ); | |
1891 | //fTreeCascVarNegTransMom = TMath::Sqrt( lNMom[0]*lNMom[0] + lNMom[1]*lNMom[1] ); | |
1892 | ||
1893 | //------------------------------------------------ | |
1894 | // TPC dEdx information | |
1895 | //------------------------------------------------ | |
1896 | fTreeCascVarNegNSigmaPion = fPIDResponse->NumberOfSigmasTPC( nTrackXi, AliPID::kPion ); | |
1897 | fTreeCascVarNegNSigmaProton = fPIDResponse->NumberOfSigmasTPC( nTrackXi, AliPID::kProton ); | |
1898 | fTreeCascVarPosNSigmaPion = fPIDResponse->NumberOfSigmasTPC( pTrackXi, AliPID::kPion ); | |
1899 | fTreeCascVarPosNSigmaProton = fPIDResponse->NumberOfSigmasTPC( pTrackXi, AliPID::kProton ); | |
1900 | fTreeCascVarBachNSigmaPion = fPIDResponse->NumberOfSigmasTPC( bachTrackXi, AliPID::kPion ); | |
1901 | fTreeCascVarBachNSigmaKaon = fPIDResponse->NumberOfSigmasTPC( bachTrackXi, AliPID::kKaon ); | |
1902 | ||
1903 | //------------------------------------------------ | |
1904 | // TPC Number of clusters info | |
1905 | // --- modified to save the smallest number | |
1906 | // --- of TPC clusters for the 3 tracks | |
1907 | //------------------------------------------------ | |
1908 | ||
1909 | lPosTPCClusters = pTrackXi->GetTPCNcls(); | |
1910 | lNegTPCClusters = nTrackXi->GetTPCNcls(); | |
1911 | lBachTPCClusters = bachTrackXi->GetTPCNcls(); | |
1912 | ||
1913 | // 1 - Poor quality related to TPCrefit | |
1914 | ULong_t pStatus = pTrackXi->GetStatus(); | |
1915 | ULong_t nStatus = nTrackXi->GetStatus(); | |
1916 | ULong_t bachStatus = bachTrackXi->GetStatus(); | |
1917 | ||
1918 | //fTreeCascVarkITSRefitBachelor = kTRUE; | |
1919 | //fTreeCascVarkITSRefitNegative = kTRUE; | |
1920 | //fTreeCascVarkITSRefitPositive = kTRUE; | |
1921 | ||
1922 | if ((pStatus&AliESDtrack::kTPCrefit) == 0) { AliWarning("Pb / V0 Pos. track has no TPCrefit ... continue!"); continue; } | |
1923 | if ((nStatus&AliESDtrack::kTPCrefit) == 0) { AliWarning("Pb / V0 Neg. track has no TPCrefit ... continue!"); continue; } | |
1924 | if ((bachStatus&AliESDtrack::kTPCrefit) == 0) { AliWarning("Pb / Bach. track has no TPCrefit ... continue!"); continue; } | |
1925 | ||
1926 | //Extra Debug Information: booleans for ITS refit | |
1927 | //if ((pStatus&AliESDtrack::kITSrefit) == 0) { fTreeCascVarkITSRefitPositive = kFALSE; } | |
1928 | //if ((nStatus&AliESDtrack::kITSrefit) == 0) { fTreeCascVarkITSRefitNegative = kFALSE; } | |
1929 | //if ((bachStatus&AliESDtrack::kITSrefit) == 0) { fTreeCascVarkITSRefitBachelor = kFALSE; } | |
1930 | ||
1931 | // 2 - Poor quality related to TPC clusters: lowest cut of 70 clusters | |
1932 | if(lPosTPCClusters < 70) { AliWarning("Pb / V0 Pos. track has less than 70 TPC clusters ... continue!"); continue; } | |
1933 | if(lNegTPCClusters < 70) { AliWarning("Pb / V0 Neg. track has less than 70 TPC clusters ... continue!"); continue; } | |
1934 | if(lBachTPCClusters < 70) { AliWarning("Pb / Bach. track has less than 70 TPC clusters ... continue!"); continue; } | |
1935 | Int_t leastnumberofclusters = 1000; | |
1936 | if( lPosTPCClusters < leastnumberofclusters ) leastnumberofclusters = lPosTPCClusters; | |
1937 | if( lNegTPCClusters < leastnumberofclusters ) leastnumberofclusters = lNegTPCClusters; | |
1938 | if( lBachTPCClusters < leastnumberofclusters ) leastnumberofclusters = lBachTPCClusters; | |
1939 | ||
1940 | lInvMassLambdaAsCascDghter = xi->GetEffMass(); | |
1941 | // This value shouldn't change, whatever the working hyp. is : Xi-, Xi+, Omega-, Omega+ | |
1942 | lDcaV0DaughtersXi = xi->GetDcaV0Daughters(); | |
1943 | //lV0Chi2Xi = xi->GetChi2V0(); | |
1944 | ||
1945 | lV0CosineOfPointingAngleXi = xi->GetV0CosineOfPointingAngle( lBestPrimaryVtxPos[0], | |
1946 | lBestPrimaryVtxPos[1], | |
1947 | lBestPrimaryVtxPos[2] ); | |
1948 | //Modification: V0 CosPA wrt to Cascade decay vertex | |
1949 | lV0CosineOfPointingAngleXiSpecial = xi->GetV0CosineOfPointingAngle( lPosXi[0], | |
1950 | lPosXi[1], | |
1951 | lPosXi[2] ); | |
1952 | ||
1953 | lDcaV0ToPrimVertexXi = xi->GetD( lBestPrimaryVtxPos[0], | |
1954 | lBestPrimaryVtxPos[1], | |
1955 | lBestPrimaryVtxPos[2] ); | |
1956 | ||
1957 | lDcaBachToPrimVertexXi = TMath::Abs( bachTrackXi->GetD( lBestPrimaryVtxPos[0], | |
1958 | lBestPrimaryVtxPos[1], | |
1959 | lMagneticField ) ); | |
1960 | // Note : AliExternalTrackParam::GetD returns an algebraic value ... | |
1961 | ||
1962 | xi->GetXYZ( lPosV0Xi[0], lPosV0Xi[1], lPosV0Xi[2] ); | |
1963 | lV0RadiusXi = TMath::Sqrt( lPosV0Xi[0]*lPosV0Xi[0] + lPosV0Xi[1]*lPosV0Xi[1] ); | |
1964 | ||
1965 | lDcaPosToPrimVertexXi = TMath::Abs( pTrackXi ->GetD( lBestPrimaryVtxPos[0], | |
1966 | lBestPrimaryVtxPos[1], | |
1967 | lMagneticField ) ); | |
1968 | ||
1969 | lDcaNegToPrimVertexXi = TMath::Abs( nTrackXi ->GetD( lBestPrimaryVtxPos[0], | |
1970 | lBestPrimaryVtxPos[1], | |
1971 | lMagneticField ) ); | |
1972 | ||
1973 | // - II.Step 4 : around effective masses (ESD) | |
1974 | // ~ change mass hypotheses to cover all the possibilities : Xi-/+, Omega -/+ | |
1975 | ||
1976 | if( bachTrackXi->Charge() < 0 ) { | |
1977 | lV0quality = 0.; | |
1978 | xi->ChangeMassHypothesis(lV0quality , 3312); | |
1979 | // Calculate the effective mass of the Xi- candidate. | |
1980 | // pdg code 3312 = Xi- | |
1981 | lInvMassXiMinus = xi->GetEffMassXi(); | |
1982 | ||
1983 | lV0quality = 0.; | |
1984 | xi->ChangeMassHypothesis(lV0quality , 3334); | |
1985 | // Calculate the effective mass of the Xi- candidate. | |
1986 | // pdg code 3334 = Omega- | |
1987 | lInvMassOmegaMinus = xi->GetEffMassXi(); | |
1988 | ||
1989 | lV0quality = 0.; | |
1990 | xi->ChangeMassHypothesis(lV0quality , 3312); // Back to default hyp. | |
1991 | }// end if negative bachelor | |
1992 | ||
1993 | ||
1994 | if( bachTrackXi->Charge() > 0 ){ | |
1995 | lV0quality = 0.; | |
1996 | xi->ChangeMassHypothesis(lV0quality , -3312); | |
1997 | // Calculate the effective mass of the Xi+ candidate. | |
1998 | // pdg code -3312 = Xi+ | |
1999 | lInvMassXiPlus = xi->GetEffMassXi(); | |
2000 | ||
2001 | lV0quality = 0.; | |
2002 | xi->ChangeMassHypothesis(lV0quality , -3334); | |
2003 | // Calculate the effective mass of the Xi+ candidate. | |
2004 | // pdg code -3334 = Omega+ | |
2005 | lInvMassOmegaPlus = xi->GetEffMassXi(); | |
2006 | ||
2007 | lV0quality = 0.; | |
2008 | xi->ChangeMassHypothesis(lV0quality , -3312); // Back to "default" hyp. | |
2009 | }// end if positive bachelor | |
2010 | // - II.Step 6 : extra info for QA (ESD) | |
2011 | // miscellaneous pieces of info that may help regarding data quality assessment. | |
2012 | //------------- | |
2013 | ||
2014 | xi->GetPxPyPz( lXiMomX, lXiMomY, lXiMomZ ); | |
2015 | lXiTransvMom = TMath::Sqrt( lXiMomX*lXiMomX + lXiMomY*lXiMomY ); | |
2016 | lXiTotMom = TMath::Sqrt( lXiMomX*lXiMomX + lXiMomY*lXiMomY + lXiMomZ*lXiMomZ ); | |
2017 | ||
2018 | xi->GetBPxPyPz( lBachMomX, lBachMomY, lBachMomZ ); | |
2019 | //lBachTransvMom = TMath::Sqrt( lBachMomX*lBachMomX + lBachMomY*lBachMomY ); | |
2020 | //lBachTotMom = TMath::Sqrt( lBachMomX*lBachMomX + lBachMomY*lBachMomY + lBachMomZ*lBachMomZ ); | |
2021 | ||
2022 | lChargeXi = xi->Charge(); | |
2023 | ||
2024 | //lV0toXiCosineOfPointingAngle = xi->GetV0CosineOfPointingAngle( lPosXi[0], lPosXi[1], lPosXi[2] ); | |
2025 | ||
2026 | lRapXi = xi->RapXi(); | |
2027 | lRapOmega = xi->RapOmega(); | |
2028 | //lEta = xi->Eta(); | |
2029 | //lTheta = xi->Theta() *180.0/TMath::Pi(); | |
2030 | //lPhi = xi->Phi() *180.0/TMath::Pi(); | |
2031 | //lAlphaXi = xi->AlphaXi(); | |
2032 | //lPtArmXi = xi->PtArmXi(); | |
2033 | ||
2034 | //------------------------------------------------ | |
2035 | // Associate Cascade Candidates to Monte Carlo! | |
2036 | //------------------------------------------------ | |
2037 | ||
2038 | //Warning: Not using Continues... Need to fill tree later! | |
2039 | ||
2040 | Double_t lXiTransvMomMC= 0. ; | |
2041 | Int_t lPDGCodeCascade = 0; | |
2042 | Int_t lPID_BachMother = 0; | |
2043 | Int_t lPID_NegMother = 0; | |
2044 | Int_t lPID_PosMother = 0; | |
2045 | fTreeCascVarIsPhysicalPrimary = 0; // 0: not defined, any candidate may have this | |
2046 | ||
2047 | if(fDebug > 5) | |
2048 | cout << "MC EventNumber : " << lMCevent->Header()->GetEvent() | |
2049 | << " / MC event Number in Run : " << lMCevent->Header()->GetEventNrInRun() << endl; | |
2050 | ||
2051 | //---------------------------------------- | |
2052 | // Regular MC ASSOCIATION STARTS HERE | |
2053 | //---------------------------------------- | |
2054 | ||
2055 | Int_t lblPosV0Dghter = (Int_t) TMath::Abs( pTrackXi->GetLabel() ); | |
2056 | // Abs value = needed ! question of quality track association ... | |
2057 | Int_t lblNegV0Dghter = (Int_t) TMath::Abs( nTrackXi->GetLabel() ); | |
2058 | Int_t lblBach = (Int_t) TMath::Abs( bachTrackXi->GetLabel() ); | |
2059 | ||
2060 | TParticle* mcPosV0Dghter = lMCstack->Particle( lblPosV0Dghter ); | |
2061 | TParticle* mcNegV0Dghter = lMCstack->Particle( lblNegV0Dghter ); | |
2062 | TParticle* mcBach = lMCstack->Particle( lblBach ); | |
2063 | ||
2064 | //fTreeCascVarPosTransMomMC = mcPosV0Dghter->Pt(); | |
2065 | //fTreeCascVarNegTransMomMC = mcNegV0Dghter->Pt(); | |
2066 | ||
2067 | //fTreeCascVarPIDPositive = mcPosV0Dghter -> GetPdgCode(); | |
2068 | //fTreeCascVarPIDNegative = mcNegV0Dghter -> GetPdgCode(); | |
2069 | //fTreeCascVarPIDBachelor = mcBach->GetPdgCode(); | |
2070 | ||
2071 | // - Step 4.2 : level of the Xi daughters | |
2072 | ||
2073 | Int_t lblMotherPosV0Dghter = mcPosV0Dghter->GetFirstMother() ; | |
2074 | Int_t lblMotherNegV0Dghter = mcNegV0Dghter->GetFirstMother(); | |
2075 | ||
2076 | //Rather uncivilized: Open brackets for each 'continue' | |
2077 | if(! (lblMotherPosV0Dghter != lblMotherNegV0Dghter) ) { // same mother | |
2078 | if(! (lblMotherPosV0Dghter < 0) ) { // mother != primary (!= -1) | |
2079 | if(! (lblMotherNegV0Dghter < 0) ) { | |
2080 | ||
2081 | // mothers = Lambda candidate ... a priori | |
2082 | ||
2083 | TParticle* mcMotherPosV0Dghter = lMCstack->Particle( lblMotherPosV0Dghter ); | |
2084 | TParticle* mcMotherNegV0Dghter = lMCstack->Particle( lblMotherNegV0Dghter ); | |
2085 | ||
2086 | // - Step 4.3 : level of Xi candidate | |
2087 | ||
2088 | Int_t lblGdMotherPosV0Dghter = mcMotherPosV0Dghter->GetFirstMother() ; | |
2089 | Int_t lblGdMotherNegV0Dghter = mcMotherNegV0Dghter->GetFirstMother() ; | |
2090 | ||
2091 | if(! (lblGdMotherPosV0Dghter != lblGdMotherNegV0Dghter) ) { | |
2092 | if(! (lblGdMotherPosV0Dghter < 0) ) { // primary lambda ... | |
2093 | if(! (lblGdMotherNegV0Dghter < 0) ) { // primary lambda ... | |
2094 | ||
2095 | // Gd mothers = Xi candidate ... a priori | |
2096 | ||
2097 | TParticle* mcGdMotherPosV0Dghter = lMCstack->Particle( lblGdMotherPosV0Dghter ); | |
2098 | TParticle* mcGdMotherNegV0Dghter = lMCstack->Particle( lblGdMotherNegV0Dghter ); | |
2099 | ||
2100 | Int_t lblMotherBach = (Int_t) TMath::Abs( mcBach->GetFirstMother() ); | |
2101 | ||
2102 | // if( lblMotherBach != lblGdMotherPosV0Dghter ) continue; //same mother for bach and V0 daughters | |
2103 | if(!(lblMotherBach != lblGdMotherPosV0Dghter)) { //same mother for bach and V0 daughters | |
2104 | ||
2105 | TParticle* mcMotherBach = lMCstack->Particle( lblMotherBach ); | |
2106 | ||
2107 | lPID_BachMother = mcMotherBach->GetPdgCode(); | |
2108 | lPID_NegMother = mcGdMotherPosV0Dghter->GetPdgCode(); | |
2109 | lPID_PosMother = mcGdMotherNegV0Dghter->GetPdgCode(); | |
2110 | ||
2111 | if(lPID_BachMother==lPID_NegMother && lPID_BachMother==lPID_PosMother){ | |
2112 | lPDGCodeCascade = lPID_BachMother; | |
2113 | lXiTransvMomMC = mcMotherBach->Pt(); | |
2114 | if( lMCstack->IsPhysicalPrimary (lblMotherBach) ) fTreeCascVarIsPhysicalPrimary = 1; //Is Primary! | |
2115 | if( lMCstack->IsSecondaryFromWeakDecay(lblMotherBach) ) fTreeCascVarIsPhysicalPrimary = 2; //Weak Decay! | |
2116 | if( lMCstack->IsSecondaryFromMaterial (lblMotherBach) ) fTreeCascVarIsPhysicalPrimary = 3; //From Material! | |
2117 | if ( (mcMotherBach->Energy() + mcMotherBach->Pz()) / (mcMotherBach->Energy() - mcMotherBach->Pz() +1.e-13) !=0 ){ | |
2118 | lRapMC = 0.5*TMath::Log( (mcMotherBach->Energy() + mcMotherBach->Pz()) / (mcMotherBach->Energy() - mcMotherBach->Pz() +1.e-13) ); | |
2119 | } | |
2120 | } | |
2121 | ||
2122 | }}}}}}} //Ends all conditionals above... | |
2123 | ||
2124 | //---------------------------------------- | |
2125 | // Regular MC ASSOCIATION ENDS HERE | |
2126 | //---------------------------------------- | |
2127 | ||
2128 | ||
2129 | //------------------------------------------------ | |
2130 | // Set Variables for adding to tree | |
2131 | //------------------------------------------------ | |
2132 | ||
2133 | fTreeCascVarCharge = lChargeXi; | |
2134 | fTreeCascVarPID = lPDGCodeCascade; | |
2135 | if(lInvMassXiMinus!=0) fTreeCascVarMassAsXi = lInvMassXiMinus; | |
2136 | if(lInvMassXiPlus!=0) fTreeCascVarMassAsXi = lInvMassXiPlus; | |
2137 | if(lInvMassOmegaMinus!=0) fTreeCascVarMassAsOmega = lInvMassOmegaMinus; | |
2138 | if(lInvMassOmegaPlus!=0) fTreeCascVarMassAsOmega = lInvMassOmegaPlus; | |
2139 | fTreeCascVarPt = lXiTransvMom; | |
2140 | fTreeCascVarPtMC = lXiTransvMomMC; | |
2141 | fTreeCascVarRapXi = lRapXi ; | |
2142 | fTreeCascVarRapMC = lRapMC ; | |
2143 | fTreeCascVarRapOmega = lRapOmega ; | |
2144 | fTreeCascVarDCACascDaughters = lDcaXiDaughters; | |
2145 | fTreeCascVarDCABachToPrimVtx = lDcaBachToPrimVertexXi; | |
2146 | fTreeCascVarDCAV0Daughters = lDcaV0DaughtersXi; | |
2147 | fTreeCascVarDCAV0ToPrimVtx = lDcaV0ToPrimVertexXi; | |
2148 | fTreeCascVarDCAPosToPrimVtx = lDcaPosToPrimVertexXi; | |
2149 | fTreeCascVarDCANegToPrimVtx = lDcaNegToPrimVertexXi; | |
2150 | fTreeCascVarCascCosPointingAngle = lXiCosineOfPointingAngle; | |
2151 | fTreeCascVarCascRadius = lXiRadius; | |
2152 | fTreeCascVarV0Mass = lInvMassLambdaAsCascDghter; | |
2153 | fTreeCascVarV0CosPointingAngle = lV0CosineOfPointingAngleXi; | |
2154 | fTreeCascVarV0CosPointingAngleSpecial = lV0CosineOfPointingAngleXiSpecial; | |
2155 | fTreeCascVarV0Radius = lV0RadiusXi; | |
2156 | fTreeCascVarLeastNbrClusters = leastnumberofclusters; | |
2157 | ||
2158 | //Copy Multiplicity information | |
af0d4791 | 2159 | fTreeCascVarCentV0M = fCentrality_V0M; |
af0d4791 | 2160 | fTreeCascVarCentV0MEq = fCentrality_V0MEq; |
af0d4791 | 2161 | fTreeCascVarRefMultEta8 = fRefMultEta8; |
2162 | fTreeCascVarRefMultEta5 = fRefMultEta5; | |
39b65ed7 | 2163 | fTreeCascVarRunNumber = fRunNumber; |
2164 | for(Int_t i=0; i<20; i++) fTreeCascVarRefMultDiffEta[i] = fRefMultDiffEta[i]; | |
af0d4791 | 2165 | |
2166 | fTreeCascVarDistOverTotMom = TMath::Sqrt( | |
2167 | TMath::Power( lPosXi[0] - lBestPrimaryVtxPos[0] , 2) + | |
2168 | TMath::Power( lPosXi[1] - lBestPrimaryVtxPos[1] , 2) + | |
2169 | TMath::Power( lPosXi[2] - lBestPrimaryVtxPos[2] , 2) | |
2170 | ); | |
2171 | fTreeCascVarDistOverTotMom /= (lXiTotMom+1e-13); | |
2172 | ||
2173 | //All vars not specified here: specified elsewhere! | |
2174 | ||
2175 | //------------------------------------------------ | |
2176 | // Fill Tree! | |
2177 | //------------------------------------------------ | |
2178 | ||
2179 | // The conditional is meant to decrease excessive | |
2180 | // memory usage! Be careful when loosening the | |
2181 | // cut! | |
2182 | ||
2183 | //Xi Mass window: 150MeV wide | |
2184 | //Omega mass window: 150MeV wide | |
2185 | ||
2186 | if( fkSaveCascadeTree && ( (fTreeCascVarMassAsXi<1.32+0.075&&fTreeCascVarMassAsXi>1.32-0.075) || | |
2187 | (fTreeCascVarMassAsOmega<1.68+0.075&&fTreeCascVarMassAsOmega>1.68-0.075) ) ){ | |
2188 | fTreeCascade->Fill(); | |
2189 | } | |
2190 | ||
2191 | //------------------------------------------------ | |
2192 | // Fill tree over. | |
2193 | //------------------------------------------------ | |
2194 | ||
2195 | }// end of the Cascade loop (ESD or AOD) | |
2196 | ||
2197 | // Post output data. | |
2198 | PostData(1, fListHist); | |
2199 | PostData(2, fTreeEvent); | |
2200 | PostData(3, fTreeV0); | |
2201 | PostData(4, fTreeCascade); | |
2202 | } | |
2203 | ||
2204 | //________________________________________________________________________ | |
2205 | void AliAnalysisTaskStrangenessVsMultiplicityMC::Terminate(Option_t *) | |
2206 | { | |
2207 | // Draw result to the screen | |
2208 | // Called once at the end of the query | |
2209 | ||
2210 | TList *cRetrievedList = 0x0; | |
2211 | cRetrievedList = (TList*)GetOutputData(1); | |
2212 | if(!cRetrievedList){ | |
2213 | Printf("ERROR - AliAnalysisTaskStrangenessVsMultiplicityMC : ouput data container list not available\n"); | |
2214 | return; | |
2215 | } | |
2216 | ||
2217 | fHistEventCounter = dynamic_cast<TH1D*> ( cRetrievedList->FindObject("fHistEventCounter") ); | |
2218 | if (!fHistEventCounter) { | |
2219 | Printf("ERROR - AliAnalysisTaskStrangenessVsMultiplicityMC : fHistEventCounter not available"); | |
2220 | return; | |
2221 | } | |
2222 | ||
2223 | TCanvas *canCheck = new TCanvas("AliAnalysisTaskStrangenessVsMultiplicityMC","V0 Multiplicity",10,10,510,510); | |
2224 | canCheck->cd(1)->SetLogy(); | |
2225 | ||
2226 | fHistEventCounter->SetMarkerStyle(22); | |
2227 | fHistEventCounter->DrawCopy("E"); | |
2228 | } | |
2229 | ||
2230 | //---------------------------------------------------------------------------- | |
2231 | ||
2232 | Double_t AliAnalysisTaskStrangenessVsMultiplicityMC::MyRapidity(Double_t rE, Double_t rPz) const | |
2233 | { | |
2234 | // Local calculation for rapidity | |
2235 | Double_t ReturnValue = -100; | |
2236 | if( (rE-rPz+1.e-13) != 0 && (rE+rPz) != 0 ){ | |
2237 | ReturnValue = 0.5*TMath::Log((rE+rPz)/(rE-rPz+1.e-13)); | |
2238 | } | |
2239 | return ReturnValue; | |
2240 | } |