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d756027f | 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 | // This class stores QA variables as function of pT for different type | |
18 | // of tracks and track selection criteria | |
19 | // Output: Histograms for different set of cuts | |
20 | //----------------------------------------------------------------------- | |
21 | // Author : Marta Verweij - UU | |
22 | //----------------------------------------------------------------------- | |
23 | ||
24 | #ifndef ALIPWG4HIGHPTTRACKQA_CXX | |
25 | #define ALIPWG4HIGHPTTRACKQA_CXX | |
26 | ||
27 | #include "AliPWG4HighPtTrackQA.h" | |
28 | ||
29 | #include "TH1.h" | |
30 | #include "TH2.h" | |
31 | #include "TH3.h" | |
32 | #include "TProfile.h" | |
33 | #include "TList.h" | |
34 | #include "TFile.h" | |
35 | #include "TChain.h" | |
36 | #include "TH3F.h" | |
37 | #include "TKey.h" | |
38 | #include "TSystem.h" | |
39 | #include "TBits.h" | |
40 | ||
41 | #include "AliAnalysisManager.h" | |
42 | #include "AliESDInputHandler.h" | |
43 | #include "AliMCEvent.h" | |
44 | #include "AliMCEventHandler.h" | |
45 | #include "AliStack.h" | |
46 | #include "AliESDtrack.h" | |
47 | #include "AliESDtrackCuts.h" | |
48 | #include "AliExternalTrackParam.h" | |
49 | #include "AliLog.h" | |
50 | #include "AliGenPythiaEventHeader.h" | |
51 | #include "AliGenCocktailEventHeader.h" | |
52 | #include "AliCentrality.h" | |
53 | #include "AliAODVertex.h" | |
54 | #include "AliAODEvent.h" | |
55 | //#include "AliAnalysisHelperJetTasks.h" | |
56 | ||
57 | using namespace std; //required for resolving the 'cout' symbol | |
58 | ||
59 | ClassImp(AliPWG4HighPtTrackQA) | |
60 | ||
61 | AliPWG4HighPtTrackQA::AliPWG4HighPtTrackQA() | |
62 | : AliAnalysisTaskSE(), | |
63 | fDataType(kESD), | |
64 | fEvent(0x0), | |
65 | fESD(0x0), | |
66 | fVtx(0x0), | |
44684f3b | 67 | fTrackCuts(0x0), |
68 | fTrackCutsITSLoose(0x0), | |
69 | fTrackCutsTPConly(0x0), | |
d756027f | 70 | fTrackType(0), |
71 | fFilterMask(0), | |
aa3ba8d2 | 72 | fSigmaConstrainedMax(-1.), |
d756027f | 73 | fPtMax(100.), |
74 | fIsPbPb(0), | |
75 | fCentClass(10), | |
a5e0d236 | 76 | fNVariables(25), |
d756027f | 77 | fVariables(0x0), |
b8f6bad5 | 78 | fITSClusterMap(0), |
d756027f | 79 | fAvgTrials(1), |
80 | fNEventAll(0), | |
81 | fNEventSel(0), | |
82 | fNEventReject(0), | |
83 | fh1Centrality(0x0), | |
84 | fh1Xsec(0), | |
85 | fh1Trials(0), | |
86 | fh1PtHard(0), | |
87 | fh1PtHardTrials(0), | |
88 | fh1NTracksAll(0x0), | |
89 | fh1NTracksReject(0x0), | |
90 | fh1NTracksSel(0x0), | |
91 | fPtAll(0), | |
92 | fPtSel(0), | |
93 | fPtPhi(0x0), | |
94 | fPtEta(0x0), | |
95 | fPtDCA2D(0x0), | |
96 | fPtDCAZ(0x0), | |
97 | fPtNClustersTPC(0x0), | |
0f76d8ae | 98 | fPtNClustersTPCIter1(0x0), |
a5e0d236 | 99 | fPtNClustersTPCIter1Phi(0x0), |
d889ce29 | 100 | fPtNClustersTPCShared(0x0), |
101 | fPtNClustersTPCSharedFrac(0x0), | |
d756027f | 102 | fPtNPointITS(0x0), |
103 | fPtChi2C(0x0), | |
104 | fPtNSigmaToVertex(0x0), | |
105 | fPtRelUncertainty1Pt(0x0), | |
05cb235d | 106 | fPtRelUncertainty1PtNClus(0x0), |
0f76d8ae | 107 | fPtRelUncertainty1PtNClusIter1(0x0), |
b8f6bad5 | 108 | fPtRelUncertainty1PtNPointITS(0x0), |
109 | fPtRelUncertainty1PtITSClusterMap(0x0), | |
05cb235d | 110 | fPtRelUncertainty1PtChi2(0x0), |
0f76d8ae | 111 | fPtRelUncertainty1PtChi2Iter1(0x0), |
112 | fPtRelUncertainty1PtPhi(0x0), | |
2b553e6f | 113 | fPtUncertainty1Pt(0x0), |
d756027f | 114 | fPtChi2PerClusterTPC(0x0), |
0f76d8ae | 115 | fPtChi2PerClusterTPCIter1(0x0), |
d756027f | 116 | fPtNCrossedRows(0x0), |
a337a5a9 | 117 | fPtNCrossedRowsPhi(0x0), |
b8f6bad5 | 118 | fPtNCrossedRowsNClusFPhi(0x0), |
d756027f | 119 | fPtNCrRNCrRNClusF(0x0), |
a5e0d236 | 120 | fPtNCrossedRowsFit(0x0), |
a337a5a9 | 121 | fPtNCrossedRowsFitPhi(0x0), |
b8f6bad5 | 122 | fPtNCrossedRowsNClusFFitPhi(0x0), |
a337a5a9 | 123 | fNCrossedRowsNCrossedRowsFit(0x0), |
124 | fNClustersNCrossedRows(0x0), | |
125 | fNClustersNCrossedRowsFit(0x0), | |
b8f6bad5 | 126 | fPtRelUncertainty1PtNCrossedRows(0x0), |
127 | fPtRelUncertainty1PtNCrossedRowsFit(0x0), | |
dae7dd67 | 128 | fPtChi2Gold(0x0), |
129 | fPtChi2GGC(0x0), | |
130 | fPtChi2GoldPhi(0x0), | |
131 | fPtChi2GGCPhi(0x0), | |
132 | fChi2GoldChi2GGC(0x0), | |
2b553e6f | 133 | fPtSigmaY2(0x0), |
134 | fPtSigmaZ2(0x0), | |
135 | fPtSigmaSnp2(0x0), | |
136 | fPtSigmaTgl2(0x0), | |
137 | fPtSigma1Pt2(0x0), | |
aa3ba8d2 | 138 | fProfPtSigmaY2(0x0), |
139 | fProfPtSigmaZ2(0x0), | |
140 | fProfPtSigmaSnp2(0x0), | |
141 | fProfPtSigmaTgl2(0x0), | |
142 | fProfPtSigma1Pt2(0x0), | |
143 | fProfPtSigma1Pt(0x0), | |
144 | fProfPtPtSigma1Pt(0x0), | |
d756027f | 145 | fHistList(0) |
146 | { | |
006b2a30 | 147 | // |
148 | // Constructor | |
149 | // | |
a5e0d236 | 150 | SetNVariables(25); |
aa3ba8d2 | 151 | |
152 | fPtBinEdges[0][0] = 10.; | |
153 | fPtBinEdges[0][1] = 1.; | |
154 | fPtBinEdges[1][0] = 20.; | |
155 | fPtBinEdges[1][1] = 2.; | |
b1041e3b | 156 | fPtBinEdges[2][0] = 100.; |
aa3ba8d2 | 157 | fPtBinEdges[2][1] = 5.; |
158 | ||
d756027f | 159 | } |
160 | //________________________________________________________________________ | |
161 | AliPWG4HighPtTrackQA::AliPWG4HighPtTrackQA(const char *name): | |
162 | AliAnalysisTaskSE(name), | |
163 | fDataType(kESD), | |
164 | fEvent(0x0), | |
165 | fESD(0x0), | |
166 | fVtx(0x0), | |
44684f3b | 167 | fTrackCuts(0x0), |
168 | fTrackCutsITSLoose(0x0), | |
169 | fTrackCutsTPConly(0x0), | |
d756027f | 170 | fTrackType(0), |
171 | fFilterMask(0), | |
aa3ba8d2 | 172 | fSigmaConstrainedMax(-1.), |
d756027f | 173 | fPtMax(100.), |
174 | fIsPbPb(0), | |
175 | fCentClass(10), | |
a5e0d236 | 176 | fNVariables(25), |
d756027f | 177 | fVariables(0x0), |
b8f6bad5 | 178 | fITSClusterMap(0), |
d756027f | 179 | fAvgTrials(1), |
180 | fNEventAll(0), | |
181 | fNEventSel(0), | |
182 | fNEventReject(0), | |
183 | fh1Centrality(0x0), | |
184 | fh1Xsec(0), | |
185 | fh1Trials(0), | |
186 | fh1PtHard(0), | |
187 | fh1PtHardTrials(0), | |
188 | fh1NTracksAll(0x0), | |
189 | fh1NTracksReject(0x0), | |
190 | fh1NTracksSel(0x0), | |
191 | fPtAll(0), | |
192 | fPtSel(0), | |
193 | fPtPhi(0x0), | |
194 | fPtEta(0x0), | |
195 | fPtDCA2D(0x0), | |
196 | fPtDCAZ(0x0), | |
197 | fPtNClustersTPC(0x0), | |
0f76d8ae | 198 | fPtNClustersTPCIter1(0x0), |
a5e0d236 | 199 | fPtNClustersTPCIter1Phi(0x0), |
d889ce29 | 200 | fPtNClustersTPCShared(0x0), |
201 | fPtNClustersTPCSharedFrac(0x0), | |
d756027f | 202 | fPtNPointITS(0x0), |
203 | fPtChi2C(0x0), | |
204 | fPtNSigmaToVertex(0x0), | |
205 | fPtRelUncertainty1Pt(0x0), | |
05cb235d | 206 | fPtRelUncertainty1PtNClus(0x0), |
0f76d8ae | 207 | fPtRelUncertainty1PtNClusIter1(0x0), |
b8f6bad5 | 208 | fPtRelUncertainty1PtNPointITS(0x0), |
209 | fPtRelUncertainty1PtITSClusterMap(0x0), | |
05cb235d | 210 | fPtRelUncertainty1PtChi2(0x0), |
0f76d8ae | 211 | fPtRelUncertainty1PtChi2Iter1(0x0), |
212 | fPtRelUncertainty1PtPhi(0x0), | |
2b553e6f | 213 | fPtUncertainty1Pt(0x0), |
d756027f | 214 | fPtChi2PerClusterTPC(0x0), |
0f76d8ae | 215 | fPtChi2PerClusterTPCIter1(0x0), |
d756027f | 216 | fPtNCrossedRows(0x0), |
a337a5a9 | 217 | fPtNCrossedRowsPhi(0x0), |
b8f6bad5 | 218 | fPtNCrossedRowsNClusFPhi(0x0), |
d756027f | 219 | fPtNCrRNCrRNClusF(0x0), |
a5e0d236 | 220 | fPtNCrossedRowsFit(0x0), |
a337a5a9 | 221 | fPtNCrossedRowsFitPhi(0x0), |
b8f6bad5 | 222 | fPtNCrossedRowsNClusFFitPhi(0x0), |
a337a5a9 | 223 | fNCrossedRowsNCrossedRowsFit(0x0), |
224 | fNClustersNCrossedRows(0x0), | |
225 | fNClustersNCrossedRowsFit(0x0), | |
b8f6bad5 | 226 | fPtRelUncertainty1PtNCrossedRows(0x0), |
227 | fPtRelUncertainty1PtNCrossedRowsFit(0x0), | |
dae7dd67 | 228 | fPtChi2Gold(0x0), |
229 | fPtChi2GGC(0x0), | |
230 | fPtChi2GoldPhi(0x0), | |
231 | fPtChi2GGCPhi(0x0), | |
232 | fChi2GoldChi2GGC(0x0), | |
2b553e6f | 233 | fPtSigmaY2(0x0), |
234 | fPtSigmaZ2(0x0), | |
235 | fPtSigmaSnp2(0x0), | |
236 | fPtSigmaTgl2(0x0), | |
237 | fPtSigma1Pt2(0x0), | |
aa3ba8d2 | 238 | fProfPtSigmaY2(0x0), |
239 | fProfPtSigmaZ2(0x0), | |
240 | fProfPtSigmaSnp2(0x0), | |
241 | fProfPtSigmaTgl2(0x0), | |
242 | fProfPtSigma1Pt2(0x0), | |
243 | fProfPtSigma1Pt(0x0), | |
244 | fProfPtPtSigma1Pt(0x0), | |
d756027f | 245 | fHistList(0) |
246 | { | |
247 | // | |
248 | // Constructor. Initialization of Inputs and Outputs | |
249 | // | |
250 | AliDebug(2,Form("AliPWG4HighPtTrackQA Calling Constructor")); | |
251 | ||
a5e0d236 | 252 | SetNVariables(25); |
d756027f | 253 | |
aa3ba8d2 | 254 | fPtBinEdges[0][0] = 10.; |
255 | fPtBinEdges[0][1] = 1.; | |
256 | fPtBinEdges[1][0] = 20.; | |
257 | fPtBinEdges[1][1] = 2.; | |
b1041e3b | 258 | fPtBinEdges[2][0] = 100.; |
aa3ba8d2 | 259 | fPtBinEdges[2][1] = 5.; |
260 | ||
d756027f | 261 | // Input slot #0 works with a TChain ESD |
262 | DefineInput(0, TChain::Class()); | |
263 | // Output slot #1 write into a TList | |
264 | DefineOutput(1, TList::Class()); | |
265 | } | |
266 | ||
aa3ba8d2 | 267 | //________________________________________________________________________ |
268 | void AliPWG4HighPtTrackQA::SetPtBinEdges(Int_t region, Double_t ptmax, Double_t ptBinWidth) { | |
006b2a30 | 269 | // |
270 | // Set variable bin sizes for pT axis in histos | |
271 | // | |
aa3ba8d2 | 272 | |
273 | if(region<3) { | |
274 | fPtBinEdges[region][0] = ptmax; | |
275 | fPtBinEdges[region][1] = ptBinWidth; | |
276 | } | |
277 | else { | |
278 | AliError("Only 3 regions alowed. Use region 0/1/2\n"); | |
279 | return; | |
280 | } | |
281 | ||
282 | } | |
283 | ||
d756027f | 284 | //________________________________________________________________________ |
285 | void AliPWG4HighPtTrackQA::UserCreateOutputObjects() { | |
286 | //Create output objects | |
287 | AliDebug(2,Form(">> AliPWG4HighPtTrackQA::UserCreateOutputObjects \n")); | |
288 | ||
289 | Bool_t oldStatus = TH1::AddDirectoryStatus(); | |
290 | TH1::AddDirectory(kFALSE); | |
291 | ||
292 | OpenFile(1); | |
293 | fHistList = new TList(); | |
294 | fHistList->SetOwner(kTRUE); | |
295 | ||
296 | Float_t fgkPtMin = 0.; | |
59869f97 | 297 | // Float_t fgkPtMax = fPtMax; |
d756027f | 298 | |
aa3ba8d2 | 299 | //fPtBinEdges[region][0] = ptmax of region ; fPtBinEdges[region][1] = binWidth of region |
d756027f | 300 | const Float_t ptmin1 = fgkPtMin; |
aa3ba8d2 | 301 | const Float_t ptmax1 = fPtBinEdges[0][0]; |
d756027f | 302 | const Float_t ptmin2 = ptmax1 ; |
aa3ba8d2 | 303 | const Float_t ptmax2 = fPtBinEdges[1][0]; |
d756027f | 304 | const Float_t ptmin3 = ptmax2 ; |
b1041e3b | 305 | const Float_t ptmax3 = fPtBinEdges[2][0];//fgkPtMax; |
aa3ba8d2 | 306 | const Int_t nbin11 = (int)((ptmax1-ptmin1)/fPtBinEdges[0][1]); |
307 | const Int_t nbin12 = (int)((ptmax2-ptmin2)/fPtBinEdges[1][1])+nbin11; | |
2793fe00 | 308 | const Int_t nbin13 = (int)((ptmax3-ptmin3)/fPtBinEdges[2][1])+nbin12; |
d756027f | 309 | Int_t fgkNPtBins=nbin13; |
310 | //Create array with low edges of each bin | |
311 | Double_t *binsPt=new Double_t[fgkNPtBins+1]; | |
312 | for(Int_t i=0; i<=fgkNPtBins; i++) { | |
313 | if(i<=nbin11) binsPt[i]=(Double_t)ptmin1 + (ptmax1-ptmin1)/nbin11*(Double_t)i ; | |
314 | if(i<=nbin12 && i>nbin11) binsPt[i]=(Double_t)ptmin2 + (ptmax2-ptmin2)/(nbin12-nbin11)*((Double_t)i-(Double_t)nbin11) ; | |
315 | if(i<=nbin13 && i>nbin12) binsPt[i]=(Double_t)ptmin3 + (ptmax3-ptmin3)/(nbin13-nbin12)*((Double_t)i-(Double_t)nbin12) ; | |
316 | } | |
317 | ||
318 | Int_t fgkNPhiBins = 18*6; | |
319 | Float_t kMinPhi = 0.; | |
320 | Float_t kMaxPhi = 2.*TMath::Pi(); | |
321 | Double_t *binsPhi = new Double_t[fgkNPhiBins+1]; | |
322 | for(Int_t i=0; i<=fgkNPhiBins; i++) binsPhi[i]=(Double_t)kMinPhi + (kMaxPhi-kMinPhi)/fgkNPhiBins*(Double_t)i ; | |
323 | ||
324 | Int_t fgkNEtaBins=20; | |
325 | Float_t fgkEtaMin = -1.; | |
326 | Float_t fgkEtaMax = 1.; | |
327 | Double_t *binsEta=new Double_t[fgkNEtaBins+1]; | |
328 | for(Int_t i=0; i<=fgkNEtaBins; i++) binsEta[i]=(Double_t)fgkEtaMin + (fgkEtaMax-fgkEtaMin)/fgkNEtaBins*(Double_t)i ; | |
329 | ||
330 | Int_t fgkNNClustersTPCBins=80; | |
331 | Float_t fgkNClustersTPCMin = 0.5; | |
332 | Float_t fgkNClustersTPCMax = 160.5; | |
333 | Double_t *binsNClustersTPC=new Double_t[fgkNNClustersTPCBins+1]; | |
334 | for(Int_t i=0; i<=fgkNNClustersTPCBins; i++) binsNClustersTPC[i]=(Double_t)fgkNClustersTPCMin + (fgkNClustersTPCMax-fgkNClustersTPCMin)/fgkNNClustersTPCBins*(Double_t)i ; | |
335 | ||
336 | Int_t fgkNDCA2DBins=80; | |
337 | Float_t fgkDCA2DMin = -0.2; | |
338 | Float_t fgkDCA2DMax = 0.2; | |
dae7dd67 | 339 | if(fTrackType==1 || fTrackType==2 || fTrackType==4 || fTrackType==7) { |
2b553e6f | 340 | fgkDCA2DMin = -2.; |
341 | fgkDCA2DMax = 2.; | |
342 | } | |
d756027f | 343 | Double_t *binsDCA2D=new Double_t[fgkNDCA2DBins+1]; |
344 | for(Int_t i=0; i<=fgkNDCA2DBins; i++) binsDCA2D[i]=(Double_t)fgkDCA2DMin + (fgkDCA2DMax-fgkDCA2DMin)/fgkNDCA2DBins*(Double_t)i ; | |
345 | ||
346 | Int_t fgkNDCAZBins=80; | |
347 | Float_t fgkDCAZMin = -2.; | |
348 | Float_t fgkDCAZMax = 2.; | |
aa3ba8d2 | 349 | if(fTrackType==1 || fTrackType==2 || fTrackType==4) { |
2b553e6f | 350 | fgkDCAZMin = -5.; |
351 | fgkDCAZMax = 5.; | |
352 | } | |
d756027f | 353 | Double_t *binsDCAZ=new Double_t[fgkNDCAZBins+1]; |
354 | for(Int_t i=0; i<=fgkNDCAZBins; i++) binsDCAZ[i]=(Double_t)fgkDCAZMin + (fgkDCAZMax-fgkDCAZMin)/fgkNDCAZBins*(Double_t)i ; | |
355 | ||
356 | Int_t fgkNNPointITSBins=9; | |
357 | Float_t fgkNPointITSMin = -0.5; | |
358 | Float_t fgkNPointITSMax = 8.5; | |
359 | Double_t *binsNPointITS=new Double_t[fgkNNPointITSBins+1]; | |
360 | for(Int_t i=0; i<=fgkNNPointITSBins; i++) binsNPointITS[i]=(Double_t)fgkNPointITSMin + (fgkNPointITSMax-fgkNPointITSMin)/fgkNNPointITSBins*(Double_t)i ; | |
361 | ||
b8f6bad5 | 362 | Int_t fgkNITSClusterMapBins=65; |
363 | Float_t fgkITSClusterMapMin = -0.5; | |
364 | Float_t fgkITSClusterMapMax = 64.5; | |
365 | Double_t *binsITSClusterMap=new Double_t[fgkNITSClusterMapBins+1]; | |
366 | for(Int_t i=0; i<=fgkNITSClusterMapBins; i++) binsITSClusterMap[i]=(Double_t)fgkITSClusterMapMin + (fgkITSClusterMapMax-fgkITSClusterMapMin)/fgkNITSClusterMapBins*(Double_t)i ; | |
367 | ||
368 | ||
dae7dd67 | 369 | Int_t fgkNNSigmaToVertexBins=9; |
d756027f | 370 | Float_t fgkNSigmaToVertexMin = 0.; |
dae7dd67 | 371 | Float_t fgkNSigmaToVertexMax = 9.; |
d756027f | 372 | Double_t *binsNSigmaToVertex=new Double_t[fgkNNSigmaToVertexBins+1]; |
373 | for(Int_t i=0; i<=fgkNNSigmaToVertexBins; i++) binsNSigmaToVertex[i]=(Double_t)fgkNSigmaToVertexMin + (fgkNSigmaToVertexMax-fgkNSigmaToVertexMin)/fgkNNSigmaToVertexBins*(Double_t)i ; | |
374 | ||
dae7dd67 | 375 | Int_t fgkNChi2CBins=10; |
376 | // Float_t fgkChi2CMin = 0.; | |
377 | // Float_t fgkChi2CMax = 100.; //10 sigma | |
d756027f | 378 | Double_t *binsChi2C=new Double_t[fgkNChi2CBins+1]; |
dae7dd67 | 379 | for(Int_t i=0; i<=fgkNChi2CBins; i++) binsChi2C[i] = (Double_t)i * (Double_t)i; |
d756027f | 380 | |
d756027f | 381 | Float_t fgkRel1PtUncertaintyMin = 0.; |
5ad580fa | 382 | Float_t fgkRel1PtUncertaintyMax = 1.; |
f9665bd4 | 383 | Float_t binEdgeRel1PtUncertainty1= 0.3; |
384 | Int_t fgkNRel1PtUncertaintyBins1 = 45; | |
385 | Float_t binWidthRel1PtUncertainty1 = (binEdgeRel1PtUncertainty1-fgkRel1PtUncertaintyMin)/((Float_t)fgkNRel1PtUncertaintyBins1); | |
386 | Int_t fgkNRel1PtUncertaintyBins2 = 35; | |
387 | Float_t binWidthRel1PtUncertainty2 = (fgkRel1PtUncertaintyMax-binEdgeRel1PtUncertainty1)/((Float_t)fgkNRel1PtUncertaintyBins2); | |
388 | Int_t fgkNRel1PtUncertaintyBins = fgkNRel1PtUncertaintyBins1 + fgkNRel1PtUncertaintyBins2; | |
389 | ||
d756027f | 390 | Double_t *binsRel1PtUncertainty=new Double_t[fgkNRel1PtUncertaintyBins+1]; |
f9665bd4 | 391 | for(Int_t i=0; i<=fgkNRel1PtUncertaintyBins; i++) { |
392 | if(i<=fgkNRel1PtUncertaintyBins1) | |
393 | binsRel1PtUncertainty[i]=(Double_t)fgkRel1PtUncertaintyMin + (Double_t)binWidthRel1PtUncertainty1*(Double_t)i ; | |
394 | if(i<=fgkNRel1PtUncertaintyBins && i>fgkNRel1PtUncertaintyBins1) | |
395 | binsRel1PtUncertainty[i]=(Double_t)binEdgeRel1PtUncertainty1 + (Double_t)binWidthRel1PtUncertainty2*(Double_t)(i-fgkNRel1PtUncertaintyBins1); | |
396 | } | |
d756027f | 397 | |
2b553e6f | 398 | Int_t fgkNUncertainty1PtBins = 30; |
399 | Float_t fgkUncertainty1PtMin = 0.; | |
400 | Float_t fgkUncertainty1PtMax = 0.1; | |
aa3ba8d2 | 401 | if(fTrackType==1 || fTrackType==2 || fTrackType==4) |
402 | fgkUncertainty1PtMax = 0.2; | |
2b553e6f | 403 | Double_t *binsUncertainty1Pt=new Double_t[fgkNUncertainty1PtBins+1]; |
404 | for(Int_t i=0; i<=fgkNUncertainty1PtBins; i++) binsUncertainty1Pt[i]=(Double_t)fgkUncertainty1PtMin + (fgkUncertainty1PtMax-fgkUncertainty1PtMin)/fgkNUncertainty1PtBins*(Double_t)i ; | |
405 | ||
d756027f | 406 | Float_t fgkChi2PerClusMin = 0.; |
407 | Float_t fgkChi2PerClusMax = 4.; | |
408 | Int_t fgkNChi2PerClusBins = (int)(fgkChi2PerClusMax*10.); | |
409 | Double_t *binsChi2PerClus=new Double_t[fgkNChi2PerClusBins+1]; | |
410 | for(Int_t i=0; i<=fgkNChi2PerClusBins; i++) binsChi2PerClus[i]=(Double_t)fgkChi2PerClusMin + (fgkChi2PerClusMax-fgkChi2PerClusMin)/fgkNChi2PerClusBins*(Double_t)i ; | |
411 | ||
b8f6bad5 | 412 | Int_t fgkNCrossedRowsNClusFBins = 45; |
d756027f | 413 | Float_t fgkNCrossedRowsNClusFMin = 0.; |
b8f6bad5 | 414 | Float_t fgkNCrossedRowsNClusFMax = 1.5; |
d756027f | 415 | Double_t *binsNCrossedRowsNClusF=new Double_t[fgkNCrossedRowsNClusFBins+1]; |
416 | for(Int_t i=0; i<=fgkNCrossedRowsNClusFBins; i++) binsNCrossedRowsNClusF[i]=(Double_t)fgkNCrossedRowsNClusFMin + (fgkNCrossedRowsNClusFMax-fgkNCrossedRowsNClusFMin)/fgkNCrossedRowsNClusFBins*(Double_t)i ; | |
417 | ||
2b553e6f | 418 | Float_t fgk1PtMin = 0.; |
419 | Float_t fgk1PtMax = 6.; | |
aa3ba8d2 | 420 | Float_t binEdge1Pt1 = 1.; |
421 | Float_t binWidth1Pt1 = 0.05; | |
422 | Int_t fgkN1PtBins1 = (int)((binEdge1Pt1-fgk1PtMin)/binWidth1Pt1); | |
423 | Float_t binWidth1Pt2 = 0.1; | |
424 | Int_t fgkN1PtBins2 = (int)((fgk1PtMax-binEdge1Pt1)/binWidth1Pt2); | |
425 | Int_t fgkN1PtBins = fgkN1PtBins1+fgkN1PtBins2; | |
2b553e6f | 426 | Double_t *bins1Pt=new Double_t[fgkN1PtBins+1]; |
aa3ba8d2 | 427 | |
428 | for(Int_t i=0; i<=fgkN1PtBins; i++) { | |
429 | if(i<=fgkN1PtBins1) | |
430 | bins1Pt[i]=(Double_t)fgk1PtMin + (Double_t)(binEdge1Pt1-fgk1PtMin)/(Double_t)fgkN1PtBins1*(Double_t)i; | |
431 | if(i<=fgkN1PtBins && i>fgkN1PtBins1) | |
432 | bins1Pt[i]=(Double_t)binEdge1Pt1 + (Double_t)(fgk1PtMax-binEdge1Pt1)/(Double_t)fgkN1PtBins2*(Double_t)(i-fgkN1PtBins1); | |
433 | } | |
2b553e6f | 434 | |
435 | Int_t fgkNSigmaY2Bins = 50; | |
436 | Float_t fgkSigmaY2Min = 0.; | |
aa3ba8d2 | 437 | Float_t fgkSigmaY2Max = 1.; |
438 | if(fTrackType==1) fgkSigmaY2Max = 4.; | |
439 | if(fTrackType==2 || fTrackType==4) fgkSigmaY2Max = 0.1; | |
2b553e6f | 440 | Double_t *binsSigmaY2=new Double_t[fgkNSigmaY2Bins+1]; |
441 | for(Int_t i=0; i<=fgkNSigmaY2Bins; i++) binsSigmaY2[i]=(Double_t)fgkSigmaY2Min + (fgkSigmaY2Max-fgkSigmaY2Min)/fgkNSigmaY2Bins*(Double_t)i ; | |
442 | ||
443 | Int_t fgkNSigmaZ2Bins = 50; | |
444 | Float_t fgkSigmaZ2Min = 0.; | |
aa3ba8d2 | 445 | Float_t fgkSigmaZ2Max = 0.4; |
2b553e6f | 446 | Double_t *binsSigmaZ2=new Double_t[fgkNSigmaZ2Bins+1]; |
447 | for(Int_t i=0; i<=fgkNSigmaZ2Bins; i++) binsSigmaZ2[i]=(Double_t)fgkSigmaZ2Min + (fgkSigmaZ2Max-fgkSigmaZ2Min)/fgkNSigmaZ2Bins*(Double_t)i ; | |
448 | ||
449 | Int_t fgkNSigmaSnp2Bins = 50; | |
450 | Float_t fgkSigmaSnp2Min = 0.; | |
aa3ba8d2 | 451 | Float_t fgkSigmaSnp2Max = 0.05; |
452 | if(fTrackType==1) fgkSigmaSnp2Max = 0.2; | |
453 | if(fTrackType==2 || fTrackType==4) fgkSigmaSnp2Max = 0.1; | |
2b553e6f | 454 | Double_t *binsSigmaSnp2=new Double_t[fgkNSigmaSnp2Bins+1]; |
455 | for(Int_t i=0; i<=fgkNSigmaSnp2Bins; i++) binsSigmaSnp2[i]=(Double_t)fgkSigmaSnp2Min + (fgkSigmaSnp2Max-fgkSigmaSnp2Min)/fgkNSigmaSnp2Bins*(Double_t)i ; | |
456 | ||
457 | Int_t fgkNSigmaTgl2Bins = 50; | |
458 | Float_t fgkSigmaTgl2Min = 0.; | |
aa3ba8d2 | 459 | Float_t fgkSigmaTgl2Max = 0.1; |
460 | if(fTrackType==1) fgkSigmaTgl2Max = 0.2; | |
461 | if(fTrackType==2 || fTrackType==4) fgkSigmaTgl2Max = 0.1; | |
2b553e6f | 462 | Double_t *binsSigmaTgl2=new Double_t[fgkNSigmaTgl2Bins+1]; |
463 | for(Int_t i=0; i<=fgkNSigmaTgl2Bins; i++) binsSigmaTgl2[i]=(Double_t)fgkSigmaTgl2Min + (fgkSigmaTgl2Max-fgkSigmaTgl2Min)/fgkNSigmaTgl2Bins*(Double_t)i ; | |
464 | ||
465 | Int_t fgkNSigma1Pt2Bins = 50; | |
466 | Float_t fgkSigma1Pt2Min = 0.; | |
aa3ba8d2 | 467 | Float_t fgkSigma1Pt2Max = 1.; |
2b553e6f | 468 | Double_t *binsSigma1Pt2=new Double_t[fgkNSigma1Pt2Bins+1]; |
469 | for(Int_t i=0; i<=fgkNSigma1Pt2Bins; i++) binsSigma1Pt2[i]=(Double_t)fgkSigma1Pt2Min + (fgkSigma1Pt2Max-fgkSigma1Pt2Min)/fgkNSigma1Pt2Bins*(Double_t)i ; | |
470 | ||
471 | ||
d756027f | 472 | fNEventAll = new TH1F("fNEventAll","NEventAll",1,-0.5,0.5); |
473 | fHistList->Add(fNEventAll); | |
474 | fNEventSel = new TH1F("fNEventSel","NEvent Selected for analysis",1,-0.5,0.5); | |
475 | fHistList->Add(fNEventSel); | |
476 | fNEventReject = new TH1F("fNEventReject","Reason events are rejectected for analysis",20,0,20); | |
477 | //Set labels | |
478 | fNEventReject->Fill("noESD",0); | |
479 | fNEventReject->Fill("Trigger",0); | |
480 | fNEventReject->Fill("NTracks<2",0); | |
481 | fNEventReject->Fill("noVTX",0); | |
482 | fNEventReject->Fill("VtxStatus",0); | |
483 | fNEventReject->Fill("NCont<2",0); | |
484 | fNEventReject->Fill("ZVTX>10",0); | |
485 | fNEventReject->Fill("cent",0); | |
486 | fNEventReject->Fill("cent>90",0); | |
487 | fHistList->Add(fNEventReject); | |
488 | ||
489 | fh1Centrality = new TH1F("fh1Centrality","fh1Centrality; Centrality %",100,0,100); | |
490 | fHistList->Add(fh1Centrality); | |
491 | ||
492 | fh1Xsec = new TProfile("fh1Xsec","xsec from pyxsec.root",1,0,1); | |
493 | fh1Xsec->GetXaxis()->SetBinLabel(1,"<#sigma>"); | |
494 | fHistList->Add(fh1Xsec); | |
495 | ||
496 | fh1Trials = new TH1F("fh1Trials","trials root file",1,0,1); | |
497 | fh1Trials->GetXaxis()->SetBinLabel(1,"#sum{ntrials}"); | |
498 | fHistList->Add(fh1Trials); | |
499 | ||
500 | fh1PtHard = new TH1F("fh1PtHard","PYTHIA Pt hard;p_{T,hard}",350,-.5,349.5); | |
501 | fHistList->Add(fh1PtHard); | |
502 | fh1PtHardTrials = new TH1F("fh1PtHardTrials","PYTHIA Pt hard weight with trials;p_{T,hard}",350,-.5,349.5); | |
503 | fHistList->Add(fh1PtHardTrials); | |
504 | ||
505 | fh1NTracksAll = new TH1F("fh1NTracksAll","fh1NTracksAll",1,-0.5,0.5); | |
506 | fHistList->Add(fh1NTracksAll); | |
507 | ||
508 | fh1NTracksReject = new TH1F("fh1NTracksReject","fh1NTracksReject",1,-0.5,0.5); | |
509 | fh1NTracksReject->Fill("noESDtrack",0); | |
510 | fh1NTracksReject->Fill("noTPCInner",0); | |
511 | fh1NTracksReject->Fill("FillTPC",0); | |
512 | fh1NTracksReject->Fill("noTPConly",0); | |
513 | fh1NTracksReject->Fill("relate",0); | |
514 | fh1NTracksReject->Fill("trackCuts",0); | |
515 | fh1NTracksReject->Fill("laser",0); | |
2b553e6f | 516 | fh1NTracksReject->Fill("chi2",0); |
d756027f | 517 | fHistList->Add(fh1NTracksReject); |
518 | ||
519 | fh1NTracksSel = new TH1F("fh1NTracksSel","fh1NTracksSel",1,-0.5,0.5); | |
520 | fHistList->Add(fh1NTracksSel); | |
521 | ||
d756027f | 522 | fPtAll = new TH1F("fPtAll","PtAll",fgkNPtBins, binsPt); |
523 | fHistList->Add(fPtAll); | |
524 | fPtSel = new TH1F("fPtSel","PtSel",fgkNPtBins, binsPt); | |
525 | fHistList->Add(fPtSel); | |
526 | ||
527 | fPtPhi = new TH2F("fPtPhi","fPtPhi",fgkNPtBins,binsPt,fgkNPhiBins,binsPhi); | |
528 | fHistList->Add(fPtPhi); | |
529 | ||
530 | fPtEta = new TH2F("fPtEta","fPtEta",fgkNPtBins,binsPt,fgkNEtaBins,binsEta); | |
531 | fHistList->Add(fPtEta); | |
532 | ||
533 | fPtDCA2D = new TH2F("fPtDCA2D","fPtDCA2D",fgkNPtBins,binsPt,fgkNDCA2DBins,binsDCA2D); | |
534 | fHistList->Add(fPtDCA2D); | |
535 | ||
536 | fPtDCAZ = new TH2F("fPtDCAZ","fPtDCAZ",fgkNPtBins,binsPt,fgkNDCAZBins,binsDCAZ); | |
537 | fHistList->Add(fPtDCAZ); | |
538 | ||
539 | fPtNClustersTPC = new TH2F("fPtNClustersTPC","fPtNClustersTPC",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC); | |
540 | fHistList->Add(fPtNClustersTPC); | |
0f76d8ae | 541 | |
542 | fPtNClustersTPCIter1 = new TH2F("fPtNClustersTPCIter1","fPtNClustersTPCIter1",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC); | |
543 | fHistList->Add(fPtNClustersTPCIter1); | |
d889ce29 | 544 | |
a5e0d236 | 545 | fPtNClustersTPCIter1Phi = new TH3F("fPtNClustersTPCIter1Phi","fPtNClustersTPCIter1Phi",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC,fgkNPhiBins,binsPhi); |
546 | fHistList->Add(fPtNClustersTPCIter1Phi); | |
547 | ||
d889ce29 | 548 | fPtNClustersTPCShared = new TH2F("fPtNClustersTPCShared","fPtNClustersTPCShared",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC); |
549 | fHistList->Add(fPtNClustersTPCShared); | |
550 | ||
551 | fPtNClustersTPCSharedFrac = new TH2F("fPtNClustersTPCSharedFrac","fPtNClustersTPCSharedFrac",fgkNPtBins,binsPt,fgkNSigma1Pt2Bins,binsSigma1Pt2); | |
552 | fHistList->Add(fPtNClustersTPCSharedFrac); | |
d756027f | 553 | |
554 | fPtNPointITS = new TH2F("fPtNPointITS","fPtNPointITS",fgkNPtBins,binsPt,fgkNNPointITSBins,binsNPointITS); | |
555 | fHistList->Add(fPtNPointITS); | |
556 | ||
557 | fPtChi2C = new TH2F("fPtChi2C","fPtChi2C",fgkNPtBins,binsPt,fgkNChi2CBins,binsChi2C); | |
558 | fHistList->Add(fPtChi2C); | |
559 | ||
560 | fPtNSigmaToVertex = new TH2F("fPtNSigmaToVertex","fPtNSigmaToVertex",fgkNPtBins,binsPt,fgkNNSigmaToVertexBins,binsNSigmaToVertex); | |
561 | fHistList->Add(fPtNSigmaToVertex); | |
562 | ||
563 | fPtRelUncertainty1Pt = new TH2F("fPtRelUncertainty1Pt","fPtRelUncertainty1Pt",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty); | |
564 | fHistList->Add(fPtRelUncertainty1Pt); | |
2b553e6f | 565 | |
05cb235d | 566 | fPtRelUncertainty1PtNClus = new TH3F("fPtRelUncertainty1PtNClus","fPtRelUncertainty1PtNClus",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNNClustersTPCBins,binsNClustersTPC); |
567 | fHistList->Add(fPtRelUncertainty1PtNClus); | |
568 | ||
0f76d8ae | 569 | fPtRelUncertainty1PtNClusIter1 = new TH3F("fPtRelUncertainty1PtNClusIter1","fPtRelUncertainty1PtNClusIter1",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNNClustersTPCBins,binsNClustersTPC); |
570 | fHistList->Add(fPtRelUncertainty1PtNClusIter1); | |
571 | ||
b8f6bad5 | 572 | fPtRelUncertainty1PtNPointITS = new TH3F("fPtRelUncertainty1PtNPointITS","fPtRelUncertainty1PtNPointITS",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNNPointITSBins,binsNPointITS); |
573 | fHistList->Add(fPtRelUncertainty1PtNPointITS); | |
574 | ||
575 | fPtRelUncertainty1PtITSClusterMap = new TH3F("fPtRelUncertainty1PtITSClusterMap","fPtRelUncertainty1PtITSClusterMap",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNITSClusterMapBins,binsITSClusterMap); | |
576 | fHistList->Add(fPtRelUncertainty1PtITSClusterMap); | |
577 | ||
05cb235d | 578 | fPtRelUncertainty1PtChi2 = new TH3F("fPtRelUncertainty1PtChi2","fPtRelUncertainty1PtChi2",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNChi2PerClusBins,binsChi2PerClus); |
579 | fHistList->Add(fPtRelUncertainty1PtChi2); | |
580 | ||
0f76d8ae | 581 | fPtRelUncertainty1PtChi2Iter1 = new TH3F("fPtRelUncertainty1PtChi2Iter1","fPtRelUncertainty1PtChi2Iter1",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNChi2PerClusBins,binsChi2PerClus); |
582 | fHistList->Add(fPtRelUncertainty1PtChi2Iter1); | |
583 | ||
584 | fPtRelUncertainty1PtPhi = new TH3F("fPtRelUncertainty1PtPhi","fPtRelUncertainty1PtPhi",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNPhiBins,binsPhi); | |
585 | fHistList->Add(fPtRelUncertainty1PtPhi); | |
586 | ||
2b553e6f | 587 | fPtUncertainty1Pt = new TH2F("fPtUncertainty1Pt","fPtUncertainty1Pt",fgkNPtBins,binsPt,fgkNUncertainty1PtBins,binsUncertainty1Pt); |
588 | fHistList->Add(fPtUncertainty1Pt); | |
d756027f | 589 | |
590 | fPtChi2PerClusterTPC = new TH2F("fPtChi2PerClusterTPC","fPtChi2PerClusterTPC",fgkNPtBins,binsPt,fgkNChi2PerClusBins,binsChi2PerClus); | |
591 | fHistList->Add(fPtChi2PerClusterTPC); | |
0f76d8ae | 592 | |
593 | fPtChi2PerClusterTPCIter1 = new TH2F("fPtChi2PerClusterTPCIter1","fPtChi2PerClusterTPCIter1",fgkNPtBins,binsPt,fgkNChi2PerClusBins,binsChi2PerClus); | |
594 | fHistList->Add(fPtChi2PerClusterTPCIter1); | |
d756027f | 595 | |
596 | fPtNCrossedRows = new TH2F("fPtNCrossedRows","fPtNCrossedRows",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC); | |
597 | fHistList->Add(fPtNCrossedRows); | |
598 | ||
a337a5a9 | 599 | fPtNCrossedRowsPhi = new TH3F("fPtNCrossedRowsPhi","fPtNCrossedRowsPhi",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC,fgkNPhiBins,binsPhi); |
600 | fHistList->Add(fPtNCrossedRowsPhi); | |
601 | ||
b8f6bad5 | 602 | fPtNCrossedRowsNClusFPhi = new TH3F("fPtNCrossedRowsNClusFPhi","fPtNCrossedRowsNClusFPhi",fgkNPtBins,binsPt,fgkNCrossedRowsNClusFBins,binsNCrossedRowsNClusF,fgkNPhiBins,binsPhi); |
603 | fHistList->Add(fPtNCrossedRowsNClusFPhi); | |
d756027f | 604 | |
605 | fPtNCrRNCrRNClusF = new TH3F("fPtNCrRNCrRNClusF","fPtNCrRNCrRNClusF",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC,fgkNCrossedRowsNClusFBins,binsNCrossedRowsNClusF); | |
606 | fHistList->Add(fPtNCrRNCrRNClusF); | |
2b553e6f | 607 | |
a5e0d236 | 608 | fPtNCrossedRowsFit = new TH2F("fPtNCrossedRowsFit","fPtNCrossedRowsFit",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC); |
609 | fHistList->Add(fPtNCrossedRowsFit); | |
610 | ||
a337a5a9 | 611 | fPtNCrossedRowsFitPhi = new TH3F("fPtNCrossedRowsFitPhi","fPtNCrossedRowsFitPhi",fgkNPtBins,binsPt,fgkNNClustersTPCBins,binsNClustersTPC,fgkNPhiBins,binsPhi); |
612 | fHistList->Add(fPtNCrossedRowsFitPhi); | |
613 | ||
b8f6bad5 | 614 | fPtNCrossedRowsNClusFFitPhi = new TH3F("fPtNCrossedRowsNClusFFitPhi","fPtNCrossedRowsNClusFFitPhi",fgkNPtBins,binsPt,fgkNCrossedRowsNClusFBins,binsNCrossedRowsNClusF,fgkNPhiBins,binsPhi); |
615 | fHistList->Add(fPtNCrossedRowsNClusFFitPhi); | |
a5e0d236 | 616 | |
a337a5a9 | 617 | fNCrossedRowsNCrossedRowsFit = new TH2F("fNCrossedRowsNCrossedRowsFit","fNCrossedRowsNCrossedRowsFit",fgkNNClustersTPCBins,binsNClustersTPC,fgkNNClustersTPCBins,binsNClustersTPC); |
618 | fHistList->Add(fNCrossedRowsNCrossedRowsFit); | |
619 | ||
620 | fNClustersNCrossedRows = new TH2F("fNClustersNCrossedRows","fNClustersNCrossedRows",fgkNNClustersTPCBins,binsNClustersTPC,fgkNNClustersTPCBins,binsNClustersTPC); | |
621 | fHistList->Add(fNClustersNCrossedRows); | |
622 | ||
623 | fNClustersNCrossedRowsFit = new TH2F("fNClustersNCrossedRowsFit","fNClustersNCrossedRowsFit",fgkNNClustersTPCBins,binsNClustersTPC,fgkNNClustersTPCBins,binsNClustersTPC); | |
624 | fHistList->Add(fNClustersNCrossedRowsFit); | |
625 | ||
b8f6bad5 | 626 | fPtRelUncertainty1PtNCrossedRows = new TH3F("fPtRelUncertainty1PtNCrossedRows","fPtRelUncertainty1PtNCrossedRows",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNNClustersTPCBins,binsNClustersTPC); |
627 | fHistList->Add(fPtRelUncertainty1PtNCrossedRows); | |
628 | ||
629 | fPtRelUncertainty1PtNCrossedRowsFit = new TH3F("fPtRelUncertainty1PtNCrossedRowsFit","fPtRelUncertainty1PtNCrossedRowsFit",fgkNPtBins,binsPt,fgkNRel1PtUncertaintyBins,binsRel1PtUncertainty,fgkNNClustersTPCBins,binsNClustersTPC); | |
630 | fHistList->Add(fPtRelUncertainty1PtNCrossedRowsFit); | |
631 | ||
dae7dd67 | 632 | fPtChi2Gold = new TH2F("fPtChi2Gold","fPtChi2Gold",fgkNPtBins,binsPt,fgkNChi2CBins,binsChi2C); |
633 | fHistList->Add(fPtChi2Gold); | |
634 | ||
635 | fPtChi2GGC = new TH2F("fPtChi2GGC","fPtChi2GGC",fgkNPtBins,binsPt,fgkNChi2CBins,binsChi2C); | |
636 | fHistList->Add(fPtChi2GGC); | |
637 | ||
638 | fPtChi2GoldPhi = new TH3F("fPtChi2GoldPhi","fPtChi2GoldPhi",fgkNPtBins,binsPt,fgkNChi2CBins,binsChi2C,fgkNPhiBins,binsPhi); | |
639 | fHistList->Add(fPtChi2GoldPhi); | |
640 | ||
641 | fPtChi2GGCPhi = new TH3F("fPtChi2GGCPhi","fPtChi2GGCPhi",fgkNPtBins,binsPt,fgkNChi2CBins,binsChi2C,fgkNPhiBins,binsPhi); | |
642 | fHistList->Add(fPtChi2GGCPhi); | |
643 | ||
644 | fChi2GoldChi2GGC = new TH2F("fChi2GoldChi2GGC","fChi2GoldChi2GGC;#chi^{2}_{gold};#chi^{2}_{ggc}",fgkNChi2CBins,binsChi2C,fgkNChi2CBins,binsChi2C); | |
645 | fHistList->Add(fChi2GoldChi2GGC); | |
646 | ||
647 | ||
aa3ba8d2 | 648 | fPtSigmaY2 = new TH2F("fPtSigmaY2","fPtSigmaY2",fgkN1PtBins,bins1Pt,fgkNSigmaY2Bins,binsSigmaY2); |
2b553e6f | 649 | fHistList->Add(fPtSigmaY2); |
650 | ||
651 | fPtSigmaZ2 = new TH2F("fPtSigmaZ2","fPtSigmaZ2",fgkN1PtBins,bins1Pt,fgkNSigmaZ2Bins,binsSigmaZ2); | |
652 | fHistList->Add(fPtSigmaZ2); | |
653 | ||
aa3ba8d2 | 654 | fPtSigmaSnp2 = new TH2F("fPtSigmaSnp2","fPtSigmaSnp2",fgkN1PtBins,bins1Pt,fgkNSigmaSnp2Bins,binsSigmaSnp2); |
2b553e6f | 655 | fHistList->Add(fPtSigmaSnp2); |
656 | ||
aa3ba8d2 | 657 | fPtSigmaTgl2 = new TH2F("fPtSigmaTgl2","fPtSigmaTgl2",fgkN1PtBins,bins1Pt,fgkNSigmaTgl2Bins,binsSigmaTgl2); |
2b553e6f | 658 | fHistList->Add(fPtSigmaTgl2); |
659 | ||
aa3ba8d2 | 660 | fPtSigma1Pt2 = new TH2F("fPtSigma1Pt2","fPtSigma1Pt2",fgkN1PtBins,bins1Pt,fgkNSigma1Pt2Bins,binsSigma1Pt2); |
2b553e6f | 661 | fHistList->Add(fPtSigma1Pt2); |
662 | ||
aa3ba8d2 | 663 | fProfPtSigmaY2 = new TProfile("fProfPtSigmaY2","fProfPtSigmaY2",fgkN1PtBins,bins1Pt); |
664 | fHistList->Add(fProfPtSigmaY2); | |
665 | ||
666 | fProfPtSigmaZ2 = new TProfile("fProfPtSigmaZ2","fProfPtSigmaZ2",fgkN1PtBins,bins1Pt); | |
667 | fHistList->Add(fProfPtSigmaZ2); | |
668 | ||
669 | fProfPtSigmaSnp2 = new TProfile("fProfPtSigmaSnp2","fProfPtSigmaSnp2",fgkN1PtBins,bins1Pt); | |
670 | fHistList->Add(fProfPtSigmaSnp2); | |
671 | ||
672 | fProfPtSigmaTgl2 = new TProfile("fProfPtSigmaTgl2","fProfPtSigmaTgl2",fgkN1PtBins,bins1Pt); | |
673 | fHistList->Add(fProfPtSigmaTgl2); | |
674 | ||
675 | fProfPtSigma1Pt2 = new TProfile("fProfPtSigma1Pt2","fProfPtSigma1Pt2",fgkN1PtBins,bins1Pt); | |
676 | fHistList->Add(fProfPtSigma1Pt2); | |
677 | ||
678 | fProfPtSigma1Pt = new TProfile("fProfPtSigma1Pt","fProfPtSigma1Pt;p_{T};#sigma(1/p_{T})",fgkNPtBins,binsPt); | |
679 | fHistList->Add(fProfPtSigma1Pt); | |
680 | ||
681 | fProfPtPtSigma1Pt = new TProfile("fProfPtPtSigma1Pt","fProfPtPtSigma1Pt;p_{T};p_{T}#sigma(1/p_{T})",fgkNPtBins,binsPt); | |
682 | fHistList->Add(fProfPtPtSigma1Pt); | |
683 | ||
d756027f | 684 | TH1::AddDirectory(oldStatus); |
685 | ||
686 | PostData(1, fHistList); | |
687 | ||
688 | if(binsPhi) delete [] binsPhi; | |
689 | if(binsPt) delete [] binsPt; | |
690 | if(binsNClustersTPC) delete [] binsNClustersTPC; | |
691 | if(binsDCA2D) delete [] binsDCA2D; | |
692 | if(binsDCAZ) delete [] binsDCAZ; | |
693 | if(binsNPointITS) delete [] binsNPointITS; | |
694 | if(binsNSigmaToVertex) delete [] binsNSigmaToVertex; | |
695 | if(binsChi2C) delete [] binsChi2C; | |
696 | if(binsEta) delete [] binsEta; | |
697 | if(binsRel1PtUncertainty) delete [] binsRel1PtUncertainty; | |
2b553e6f | 698 | if(binsUncertainty1Pt) delete [] binsUncertainty1Pt; |
d756027f | 699 | if(binsChi2PerClus) delete [] binsChi2PerClus; |
700 | if(binsChi2PerClus) delete [] binsNCrossedRowsNClusF; | |
2b553e6f | 701 | if(bins1Pt) delete [] bins1Pt; |
702 | if(binsSigmaY2) delete [] binsSigmaY2; | |
703 | if(binsSigmaZ2) delete [] binsSigmaZ2; | |
704 | if(binsSigmaSnp2) delete [] binsSigmaSnp2; | |
705 | if(binsSigmaTgl2) delete [] binsSigmaTgl2; | |
706 | if(binsSigma1Pt2) delete [] binsSigma1Pt2; | |
d756027f | 707 | } |
708 | ||
709 | //________________________________________________________________________ | |
710 | Bool_t AliPWG4HighPtTrackQA::SelectEvent() { | |
711 | // | |
712 | // Decide if event should be selected for analysis | |
713 | // | |
714 | ||
715 | // Checks following requirements: | |
716 | // - fEvent available | |
717 | // - trigger info from AliPhysicsSelection | |
718 | // - MCevent available | |
719 | // - number of reconstructed tracks > 1 | |
720 | // - primary vertex reconstructed | |
721 | // - z-vertex < 10 cm | |
722 | // - centrality in case of PbPb | |
723 | ||
724 | Bool_t selectEvent = kTRUE; | |
725 | ||
726 | //fEvent object available? | |
727 | if (!fEvent) { | |
728 | AliDebug(2,Form("ERROR: fInputEvent not available\n")); | |
729 | fNEventReject->Fill("noAliVEvent",1); | |
730 | selectEvent = kFALSE; | |
731 | return selectEvent; | |
732 | } | |
733 | ||
734 | //Check if number of reconstructed tracks is larger than 1 | |
735 | if(!fEvent->GetNumberOfTracks() || fEvent->GetNumberOfTracks()<2) { | |
736 | fNEventReject->Fill("NTracks<2",1); | |
737 | selectEvent = kFALSE; | |
738 | return selectEvent; | |
739 | } | |
740 | ||
741 | //Check if vertex is reconstructed | |
1ea145ef | 742 | if(fDataType==kESD&&dynamic_cast<AliESDEvent*>(fEvent)) { |
a5e0d236 | 743 | fVtx = ((AliESDEvent*)fEvent)->GetPrimaryVertexTracks(); |
744 | ||
745 | if (!fVtx || !fVtx->GetStatus()) | |
746 | fVtx = ((AliESDEvent*)fEvent)->GetPrimaryVertexSPD(); | |
d756027f | 747 | |
748 | if(!fVtx) { | |
749 | fNEventReject->Fill("noVTX",1); | |
750 | selectEvent = kFALSE; | |
751 | return selectEvent; | |
752 | } | |
753 | ||
754 | if(!fVtx->GetStatus()) { | |
755 | fNEventReject->Fill("VtxStatus",1); | |
756 | selectEvent = kFALSE; | |
757 | return selectEvent; | |
758 | } | |
759 | ||
760 | // Need vertex cut | |
761 | if(fVtx->GetNContributors()<2) { | |
762 | fNEventReject->Fill("NCont<2",1); | |
763 | selectEvent = kFALSE; | |
764 | return selectEvent; | |
765 | } | |
766 | ||
767 | //Check if z-vertex < 10 cm | |
768 | double primVtx[3]; | |
769 | fVtx->GetXYZ(primVtx); | |
770 | if(TMath::Sqrt(primVtx[0]*primVtx[0] + primVtx[1]*primVtx[1])>1. || TMath::Abs(primVtx[2]>10.)){ | |
771 | fNEventReject->Fill("ZVTX>10",1); | |
772 | selectEvent = kFALSE; | |
773 | return selectEvent; | |
774 | } | |
775 | } | |
1ea145ef | 776 | else if(fDataType==kAOD&&dynamic_cast<AliAODEvent*>(fEvent)) { |
777 | const AliAODVertex *vtx = ((AliAODEvent*)fEvent)->GetPrimaryVertexSPD(); | |
d756027f | 778 | if(!vtx) { |
779 | fNEventReject->Fill("noVTX",1); | |
780 | selectEvent = kFALSE; | |
781 | return selectEvent; | |
782 | } | |
783 | ||
784 | // Need vertex cut | |
785 | if(vtx->GetNContributors()<2) { | |
786 | fNEventReject->Fill("NCont<2",1); | |
787 | selectEvent = kFALSE; | |
788 | return selectEvent; | |
789 | } | |
790 | ||
791 | //Check if z-vertex < 10 cm | |
792 | double primVtx[3]; | |
793 | vtx->GetXYZ(primVtx); | |
794 | if(TMath::Sqrt(primVtx[0]*primVtx[0] + primVtx[1]*primVtx[1])>1. || TMath::Abs(primVtx[2]>10.)){ | |
795 | fNEventReject->Fill("ZVTX>10",1); | |
796 | selectEvent = kFALSE; | |
797 | return selectEvent; | |
798 | } | |
799 | ||
800 | } | |
801 | ||
802 | //Centrality selection should only be done in case of PbPb | |
803 | if(IsPbPb()) { | |
804 | Float_t cent = 0.; | |
805 | if(fCentClass!=CalculateCentrality(fEvent) && fCentClass!=10) { | |
806 | fNEventReject->Fill("cent",1); | |
807 | selectEvent = kFALSE; | |
808 | return selectEvent; | |
809 | } | |
810 | else { | |
811 | if(fDataType==kESD) { | |
812 | if(dynamic_cast<AliESDEvent*>(fEvent)->GetCentrality()) { | |
813 | cent = dynamic_cast<AliESDEvent*>(fEvent)->GetCentrality()->GetCentralityPercentile("V0M"); | |
814 | } | |
815 | } | |
816 | else if(fDataType==kAOD) { | |
817 | if(dynamic_cast<AliAODEvent*>(fEvent)->GetHeader()->GetCentrality()) | |
818 | cent = dynamic_cast<AliAODEvent*>(fEvent)->GetHeader()->GetCentrality(); | |
819 | } | |
820 | if(cent>90.) { | |
821 | fNEventReject->Fill("cent>90",1); | |
822 | selectEvent = kFALSE; | |
823 | return selectEvent; | |
824 | } | |
825 | fh1Centrality->Fill(cent); | |
826 | } | |
827 | } | |
828 | ||
829 | return selectEvent; | |
830 | ||
831 | } | |
832 | ||
833 | //________________________________________________________________________ | |
834 | Int_t AliPWG4HighPtTrackQA::CalculateCentrality(AliVEvent *ev){ | |
669e2312 | 835 | // |
836 | // Get centrality from ESD or AOD | |
837 | // | |
838 | ||
d756027f | 839 | if(fDataType==kESD) |
840 | return CalculateCentrality(dynamic_cast<AliESDEvent*>(ev)); | |
841 | else if(fDataType==kAOD) | |
842 | return CalculateCentrality(dynamic_cast<AliAODEvent*>(ev)); | |
843 | else | |
844 | return 5; | |
845 | } | |
846 | ||
847 | //________________________________________________________________________ | |
848 | Int_t AliPWG4HighPtTrackQA::CalculateCentrality(AliESDEvent *esd){ | |
669e2312 | 849 | // |
850 | // Get centrality from ESD | |
851 | // | |
d756027f | 852 | |
669e2312 | 853 | Float_t cent = -1; |
1ea145ef | 854 | |
855 | if(esd){ | |
856 | if(esd->GetCentrality()){ | |
857 | cent = esd->GetCentrality()->GetCentralityPercentile("V0M"); | |
669e2312 | 858 | if(fDebug>3) printf("centrality: %f\n",cent); |
1ea145ef | 859 | } |
d756027f | 860 | } |
861 | ||
669e2312 | 862 | return GetCentralityClass(cent); |
d756027f | 863 | |
864 | } | |
865 | ||
866 | //________________________________________________________________________ | |
006b2a30 | 867 | Int_t AliPWG4HighPtTrackQA::CalculateCentrality(const AliAODEvent *aod){ |
669e2312 | 868 | // |
869 | // Get centrality from AOD | |
870 | // | |
d756027f | 871 | |
669e2312 | 872 | if(!aod) return 5; |
d756027f | 873 | Float_t cent = aod->GetHeader()->GetCentrality(); |
669e2312 | 874 | if(fDebug>3) printf("centrality: %f\n",cent); |
875 | ||
876 | return GetCentralityClass(cent); | |
877 | ||
878 | } | |
879 | ||
880 | //________________________________________________________________________ | |
006b2a30 | 881 | Int_t AliPWG4HighPtTrackQA::GetCentralityClass(Float_t cent) const { |
669e2312 | 882 | // |
883 | // Get centrality class | |
884 | // | |
885 | ||
886 | if(cent<0) return 5; // OB - cent sometimes negative | |
887 | if(cent>80) return 4; | |
888 | if(cent>50) return 3; | |
889 | if(cent>30) return 2; | |
890 | if(cent>10) return 1; | |
d756027f | 891 | return 0; |
892 | ||
893 | } | |
894 | ||
895 | //________________________________________________________________________ | |
896 | void AliPWG4HighPtTrackQA::UserExec(Option_t *) { | |
897 | // Main loop | |
898 | // Called for each event | |
899 | AliDebug(2,Form(">> AliPWG4HighPtTrackQA::UserExec \n")); | |
900 | ||
901 | fEvent = InputEvent(); | |
902 | fESD = dynamic_cast<AliESDEvent*>(InputEvent()); | |
903 | ||
904 | // All events without selection | |
905 | fNEventAll->Fill(0.); | |
906 | ||
907 | if(!SelectEvent()) { | |
908 | // Post output data | |
909 | PostData(1, fHistList); | |
910 | return; | |
911 | } | |
912 | ||
913 | ||
914 | //Need to keep track of selected events | |
915 | fNEventSel->Fill(0.); | |
916 | ||
917 | fVariables = new TArrayF(fNVariables); | |
918 | ||
919 | if(fDataType==kESD) DoAnalysisESD(); | |
920 | if(fDataType==kAOD) DoAnalysisAOD(); | |
921 | ||
922 | //Delete old fVariables | |
923 | if(fVariables) delete fVariables; | |
924 | ||
925 | // Post output data | |
926 | PostData(1, fHistList); | |
927 | ||
928 | } | |
929 | ||
930 | //________________________________________________________________________ | |
931 | void AliPWG4HighPtTrackQA::DoAnalysisESD() { | |
05cb235d | 932 | // |
933 | // Run analysis on ESD | |
934 | // | |
d756027f | 935 | |
936 | if(!fESD) { | |
937 | PostData(1, fHistList); | |
938 | return; | |
939 | } | |
940 | ||
941 | // ---- Get MC Header information (for MC productions in pThard bins) ---- | |
942 | Double_t ptHard = 0.; | |
943 | Double_t nTrials = 1; // trials for MC trigger weight for real data | |
944 | ||
945 | AliMCEventHandler *eventHandlerMC = dynamic_cast<AliMCEventHandler*> (AliAnalysisManager::GetAnalysisManager()->GetMCtruthEventHandler()); | |
946 | if (eventHandlerMC) { | |
947 | ||
948 | if(eventHandlerMC->MCEvent()){ | |
949 | AliGenPythiaEventHeader* pythiaGenHeader = GetPythiaEventHeader(eventHandlerMC->MCEvent()); | |
950 | if(pythiaGenHeader){ | |
951 | nTrials = pythiaGenHeader->Trials(); | |
952 | ptHard = pythiaGenHeader->GetPtHard(); | |
953 | ||
954 | fh1PtHard->Fill(ptHard); | |
955 | fh1PtHardTrials->Fill(ptHard,nTrials); | |
956 | ||
957 | fh1Trials->Fill("#sum{ntrials}",fAvgTrials); | |
958 | } | |
959 | } | |
960 | } | |
961 | ||
962 | Int_t nTracks = fESD->GetNumberOfTracks(); | |
963 | AliDebug(2,Form("nTracks ESD%d", nTracks)); | |
964 | ||
965 | /* | |
966 | Variables to be put in fVariables | |
967 | 0: pt | |
968 | 1: phi | |
969 | 2: eta | |
970 | 3: dca2D | |
971 | 4: dcaZ | |
972 | 5: nClustersTPC | |
973 | 6: nPointITS | |
974 | 7: chi2C | |
975 | 8: nSigmaToVertex | |
05cb235d | 976 | 9: trackLengthTPC |
d756027f | 977 | 10: chi2PerClusterTPC |
978 | 11: #crossed rows | |
979 | 12: (#crossed rows)/(#findable clusters) | |
2b553e6f | 980 | 13: SigmaY2 |
981 | 14: SigmaZ2 | |
982 | 15: SigmaSnp2 | |
983 | 16: SigmaTgl2 | |
984 | 17: Sigma1Pt2 | |
0f76d8ae | 985 | 18: NClustersTPCIter1 |
986 | 19: Chi2TPCIter1 | |
d889ce29 | 987 | 20: nClustersTPCShared |
dae7dd67 | 988 | 21: Golden Chi2 - global vs TPC constrained |
989 | 22: Chi2 between global and global constrained | |
d756027f | 990 | */ |
991 | ||
992 | for (Int_t iTrack = 0; iTrack < nTracks; iTrack++) { | |
993 | fh1NTracksAll->Fill(0.); | |
994 | ||
995 | //Get track for analysis | |
2b553e6f | 996 | AliESDtrack *track = 0x0; |
d756027f | 997 | AliESDtrack *esdtrack = fESD->GetTrack(iTrack); |
998 | if(!esdtrack) { | |
999 | fh1NTracksReject->Fill("noESDtrack",1); | |
1000 | continue; | |
1001 | } | |
509dc845 | 1002 | AliESDtrack *origtrack = new AliESDtrack(*esdtrack); |
2926ddbb | 1003 | if(!origtrack) |
1004 | continue; | |
d756027f | 1005 | |
aa3ba8d2 | 1006 | if(fTrackType==4) { |
aa3ba8d2 | 1007 | if (!(fTrackCuts->AcceptTrack(esdtrack))) { |
1008 | fh1NTracksReject->Fill("trackCuts",1); | |
42881dab | 1009 | if(origtrack) delete origtrack; |
aa3ba8d2 | 1010 | continue; |
1011 | } | |
1012 | } | |
1013 | ||
d756027f | 1014 | if(fTrackType==1) |
1015 | track = AliESDtrackCuts::GetTPCOnlyTrack(fESD,esdtrack->GetID()); | |
aa3ba8d2 | 1016 | else if(fTrackType==2 || fTrackType==4) { |
d756027f | 1017 | track = AliESDtrackCuts::GetTPCOnlyTrack(fESD,esdtrack->GetID()); |
1018 | if(!track) { | |
1019 | fh1NTracksReject->Fill("noTPConly",1); | |
42881dab | 1020 | if(origtrack) delete origtrack; |
d756027f | 1021 | continue; |
1022 | } | |
1023 | AliExternalTrackParam exParam; | |
1024 | Bool_t relate = track->RelateToVertexTPC(fVtx,fESD->GetMagneticField(),kVeryBig,&exParam); | |
1025 | if( !relate ) { | |
1026 | fh1NTracksReject->Fill("relate",1); | |
fb4a2fc7 | 1027 | if(track) delete track; |
42881dab | 1028 | if(origtrack) delete origtrack; |
d756027f | 1029 | continue; |
1030 | } | |
1031 | track->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance()); | |
1032 | } | |
44684f3b | 1033 | else if(fTrackType==5 || fTrackType==6) { |
1034 | if(fTrackCuts->AcceptTrack(esdtrack)) { | |
42881dab | 1035 | if(origtrack) delete origtrack; |
44684f3b | 1036 | continue; |
1037 | } | |
1038 | else { | |
1039 | if( !(fTrackCutsITSLoose->AcceptTrack(esdtrack)) && fTrackCutsTPConly->AcceptTrack(esdtrack) ) { | |
1040 | ||
1041 | if(fTrackType==5) { | |
1042 | //use TPConly constrained track | |
1043 | track = AliESDtrackCuts::GetTPCOnlyTrack(fESD,esdtrack->GetID()); | |
2bdab66e | 1044 | if(!track) { |
1045 | fh1NTracksReject->Fill("noTPConly",1); | |
42881dab | 1046 | if(origtrack) delete origtrack; |
2bdab66e | 1047 | continue; |
1048 | } | |
44684f3b | 1049 | AliExternalTrackParam exParam; |
1050 | Bool_t relate = track->RelateToVertexTPC(fVtx,fESD->GetMagneticField(),kVeryBig,&exParam); | |
1051 | if( !relate ) { | |
1052 | fh1NTracksReject->Fill("relate",1); | |
fb4a2fc7 | 1053 | if(track) delete track; |
42881dab | 1054 | if(origtrack) delete origtrack; |
44684f3b | 1055 | continue; |
1056 | } | |
1057 | track->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance()); | |
1058 | } | |
1059 | else if(fTrackType==6) { | |
1060 | //use global constrained track | |
42881dab | 1061 | track = new AliESDtrack(*esdtrack); |
44684f3b | 1062 | track->Set(esdtrack->GetConstrainedParam()->GetX(),esdtrack->GetConstrainedParam()->GetAlpha(),esdtrack->GetConstrainedParam()->GetParameter(),esdtrack->GetConstrainedParam()->GetCovariance()); |
1063 | ||
1064 | } | |
1065 | } | |
1066 | } | |
1067 | } | |
d3a3f33d | 1068 | else if(fTrackType==7) { |
1069 | //use global constrained track | |
dae7dd67 | 1070 | track = new AliESDtrack(*esdtrack); |
d3a3f33d | 1071 | } |
d756027f | 1072 | else |
1073 | track = esdtrack; | |
1074 | ||
42881dab | 1075 | if(!track) { |
1076 | if(origtrack) delete origtrack; | |
d756027f | 1077 | continue; |
42881dab | 1078 | } |
d756027f | 1079 | |
fb4a2fc7 | 1080 | if(fTrackType==2 || fTrackType==4 || fTrackType==5) { |
2b553e6f | 1081 | //Cut on chi2 of constrained fit |
aa3ba8d2 | 1082 | if(track->GetConstrainedChi2TPC() > fSigmaConstrainedMax*fSigmaConstrainedMax && fSigmaConstrainedMax>0.) { |
2b553e6f | 1083 | fh1NTracksReject->Fill("chi2",1); |
fb4a2fc7 | 1084 | if(track) delete track; |
42881dab | 1085 | if(origtrack) delete origtrack; |
2b553e6f | 1086 | continue; |
1087 | } | |
1088 | } | |
1089 | ||
d756027f | 1090 | fPtAll->Fill(track->Pt()); |
1091 | ||
44684f3b | 1092 | if (!(fTrackCuts->AcceptTrack(track)) && fTrackType!=4 && fTrackType!=5 && fTrackType!=6) { |
d756027f | 1093 | fh1NTracksReject->Fill("trackCuts",1); |
42881dab | 1094 | if(fTrackType==1 || fTrackType==2 || fTrackType==7) { |
fb4a2fc7 | 1095 | if(track) delete track; |
1096 | } | |
42881dab | 1097 | if(origtrack) delete origtrack; |
d756027f | 1098 | continue; |
1099 | } | |
aa3ba8d2 | 1100 | |
031aac8e | 1101 | if(fTrackType==7) { |
327d12da | 1102 | if(fTrackCutsITSLoose ) { |
dae7dd67 | 1103 | if(fTrackCutsITSLoose->AcceptTrack(track) ) { |
1104 | if(track) delete track; | |
42881dab | 1105 | if(origtrack) delete origtrack; |
327d12da | 1106 | continue; |
dae7dd67 | 1107 | } |
327d12da | 1108 | } |
1109 | ||
031aac8e | 1110 | if(esdtrack->GetConstrainedParam()) |
1111 | track->Set(esdtrack->GetConstrainedParam()->GetX(),esdtrack->GetConstrainedParam()->GetAlpha(),esdtrack->GetConstrainedParam()->GetParameter(),esdtrack->GetConstrainedParam()->GetCovariance()); | |
031aac8e | 1112 | } |
1113 | ||
dae7dd67 | 1114 | if(!track) { |
42881dab | 1115 | if(fTrackType==1 || fTrackType==2 || fTrackType==4 || fTrackType==5 || fTrackType==6 || fTrackType==7) { |
dae7dd67 | 1116 | if(track) delete track; |
1117 | } | |
42881dab | 1118 | if(origtrack) delete origtrack; |
dae7dd67 | 1119 | continue; |
1120 | } | |
1121 | ||
d756027f | 1122 | fh1NTracksSel->Fill(0.); |
1123 | ||
1124 | fVariables->Reset(0.); | |
1125 | ||
2b553e6f | 1126 | fVariables->SetAt(track->Pt(),0); |
1127 | fVariables->SetAt(track->Phi(),1); | |
1128 | fVariables->SetAt(track->Eta(),2); | |
d756027f | 1129 | |
1130 | Float_t dca2D = 0.; | |
1131 | Float_t dcaz = 0.; | |
031aac8e | 1132 | |
1133 | if(fTrackType==1 || fTrackType==2 || fTrackType==4) { | |
1134 | track->GetImpactParametersTPC(dca2D,dcaz); //TPConly | |
d756027f | 1135 | } |
031aac8e | 1136 | else |
1137 | track->GetImpactParameters(dca2D,dcaz); //Global | |
1138 | ||
d756027f | 1139 | fVariables->SetAt(dca2D,3); |
dae7dd67 | 1140 | fVariables->SetAt(dcaz,4); |
d756027f | 1141 | |
1142 | fVariables->SetAt((float)track->GetTPCNcls(),5); | |
1143 | ||
1144 | Int_t nPointITS = 0; | |
b8f6bad5 | 1145 | fITSClusterMap = track->GetITSClusterMap(); |
d756027f | 1146 | UChar_t itsMap = track->GetITSClusterMap(); |
1147 | for (Int_t i=0; i < 6; i++) { | |
1148 | if (itsMap & (1 << i)) | |
1149 | nPointITS ++; | |
1150 | } | |
1151 | fVariables->SetAt((float)nPointITS,6); | |
2b553e6f | 1152 | Float_t chi2C = (float)track->GetConstrainedChi2(); |
aa3ba8d2 | 1153 | if(fTrackType==1 || fTrackType==2 || fTrackType==4) |
2b553e6f | 1154 | chi2C = (float)track->GetConstrainedChi2TPC(); |
1155 | fVariables->SetAt(chi2C,7); | |
d756027f | 1156 | fVariables->SetAt(fTrackCuts->GetSigmaToVertex(track),8);// Calculates the number of sigma to the vertex for a track. |
1157 | ||
05cb235d | 1158 | fVariables->SetAt(GetTrackLengthTPC(track),9); |
d756027f | 1159 | |
1160 | if(fVariables->At(5)>0.) fVariables->SetAt(track->GetTPCchi2()/fVariables->At(5),10); | |
1161 | ||
a337a5a9 | 1162 | //fVariables->SetAt(track->GetTPCClusterInfo(2,1),11); //#crossed rows |
a5e0d236 | 1163 | fVariables->SetAt(track->GetTPCCrossedRows(),11); //#crossed rows |
a337a5a9 | 1164 | |
44684f3b | 1165 | Float_t crossedRowsTPCNClsF = 1.;//track->GetTPCClusterInfo(2,0); |
1166 | if(track->GetTPCNclsF()>0.) crossedRowsTPCNClsF = fVariables->At(11)/track->GetTPCNclsF(); | |
d756027f | 1167 | fVariables->SetAt(crossedRowsTPCNClsF,12);//(#crossed rows)/(#findable clusters) |
2b553e6f | 1168 | fVariables->SetAt(track->GetSigmaY2(),13); |
1169 | fVariables->SetAt(track->GetSigmaZ2(),14); | |
1170 | fVariables->SetAt(track->GetSigmaSnp2(),15); | |
1171 | fVariables->SetAt(track->GetSigmaTgl2(),16); | |
1172 | fVariables->SetAt(track->GetSigma1Pt2(),17); | |
0f76d8ae | 1173 | |
1174 | fVariables->SetAt(track->GetTPCNclsIter1(),18); | |
1175 | fVariables->SetAt(track->GetTPCchi2Iter1(),19); | |
d889ce29 | 1176 | |
1177 | fVariables->SetAt(track->GetTPCnclsS(),20); | |
dae7dd67 | 1178 | |
a5e0d236 | 1179 | Float_t chi2Gold = origtrack->GetChi2TPCConstrainedVsGlobal(fVtx);//GetGoldenChi2(origtrack); |
42881dab | 1180 | Float_t chi2GGC = GetGGCChi2(origtrack); |
dae7dd67 | 1181 | |
1182 | fVariables->SetAt(chi2Gold,21); | |
1183 | fVariables->SetAt(chi2GGC,22); | |
a5e0d236 | 1184 | |
1185 | fVariables->SetAt(GetTPCClusterInfoFitMap(track,2,1),23); | |
1186 | Float_t crossedRowsTPCNClsFFit = 1.; | |
1187 | if(track->GetTPCNclsF()>0.) crossedRowsTPCNClsFFit = fVariables->At(23)/track->GetTPCNclsF(); | |
1188 | fVariables->SetAt(crossedRowsTPCNClsFFit,24); | |
d756027f | 1189 | |
1190 | FillHistograms(); | |
1191 | ||
1192 | // int mult = fTrackCuts->CountAcceptedTracks(fESD); | |
1193 | ||
42881dab | 1194 | if(fTrackType==1 || fTrackType==2 || fTrackType==4 || fTrackType==5 || fTrackType==6 || fTrackType==7) { |
fb4a2fc7 | 1195 | if(track) delete track; |
1196 | } | |
509dc845 | 1197 | if(origtrack) delete origtrack; |
d756027f | 1198 | |
1199 | }//track loop | |
1200 | ||
1201 | } | |
1202 | ||
1203 | //________________________________________________________________________ | |
1204 | void AliPWG4HighPtTrackQA::DoAnalysisAOD() { | |
006b2a30 | 1205 | // |
1206 | // Do QA on AOD input | |
1207 | // | |
d756027f | 1208 | AliAODEvent *aod = dynamic_cast<AliAODEvent*>(fEvent); |
1ea145ef | 1209 | if(!aod)return; |
c3ff0a6e | 1210 | AliExternalTrackParam *exParam = new AliExternalTrackParam(); |
d756027f | 1211 | for (Int_t iTrack = 0; iTrack < fEvent->GetNumberOfTracks(); iTrack++) { |
1212 | ||
1213 | AliAODTrack *aodtrack = aod->GetTrack(iTrack); | |
1214 | if( !aodtrack->TestFilterMask(fFilterMask) ) continue; | |
1215 | ||
1216 | fVariables->Reset(0.); | |
1217 | ||
1218 | fVariables->SetAt(aodtrack->Pt(),0); | |
1219 | fVariables->SetAt(aodtrack->Phi(),1); | |
1220 | fVariables->SetAt(aodtrack->Eta(),2); | |
1221 | ||
1222 | Double_t dca[2] = {1e6,1e6}; | |
1223 | Double_t covar[3] = {1e6,1e6,1e6}; | |
1224 | if(aodtrack->PropagateToDCA(fEvent->GetPrimaryVertex(),fEvent->GetMagneticField(),100.,dca,covar)) { | |
1225 | fVariables->SetAt(dca[0],3); | |
1226 | fVariables->SetAt(dca[1],4); | |
1227 | } | |
1228 | ||
1229 | fVariables->SetAt((float)aodtrack->GetTPCNcls(),5); | |
1230 | fVariables->SetAt((float)aodtrack->GetITSNcls(),6); | |
aa3ba8d2 | 1231 | fVariables->SetAt(aodtrack->Chi2perNDF(),7); |
d756027f | 1232 | fVariables->SetAt(0.,8); |
c3ff0a6e | 1233 | fVariables->SetAt(GetTrackLengthTPC(aodtrack),9); |
d756027f | 1234 | fVariables->SetAt(aodtrack->Chi2perNDF(),10); |
a5e0d236 | 1235 | fVariables->SetAt(GetTPCClusterInfo(aodtrack,2,1),11); |
d756027f | 1236 | Float_t crossedRowsTPCNClsF = 0.; |
1237 | if(aodtrack->GetTPCNclsF()>0.) crossedRowsTPCNClsF = fVariables->At(11)/aodtrack->GetTPCNclsF(); | |
1238 | fVariables->SetAt(crossedRowsTPCNClsF,12); | |
c3ff0a6e | 1239 | |
1240 | //get covariance matrix | |
1241 | Double_t cov[21] = {0,}; | |
1242 | aodtrack->GetCovMatrix(cov); | |
1243 | Double_t pxpypz[3] = {0,}; | |
1244 | aodtrack->PxPyPz(pxpypz); | |
1245 | Double_t xyz[3] = {0,}; | |
1246 | aodtrack->GetXYZ(xyz); | |
1247 | Short_t sign = aodtrack->Charge(); | |
1248 | exParam->Set(xyz,pxpypz,cov,sign); | |
1249 | ||
1250 | fVariables->SetAt(exParam->GetSigmaY2(),13); | |
1251 | fVariables->SetAt(exParam->GetSigmaZ2(),14); | |
1252 | fVariables->SetAt(exParam->GetSigmaSnp2(),15); | |
1253 | fVariables->SetAt(exParam->GetSigmaTgl2(),16); | |
1254 | fVariables->SetAt(exParam->GetSigma1Pt2(),17); | |
1255 | ||
1256 | fVariables->SetAt(0.,18); | |
1257 | fVariables->SetAt(0.,19); | |
d889ce29 | 1258 | |
1259 | TBits sharedClusterMap = aodtrack->GetTPCSharedMap(); | |
1260 | fVariables->SetAt(sharedClusterMap.CountBits(),20); | |
d756027f | 1261 | |
dae7dd67 | 1262 | fVariables->SetAt(0.,21); //not available in AOD |
1263 | fVariables->SetAt(0.,22); //not available in AOD | |
1264 | ||
a5e0d236 | 1265 | fVariables->SetAt(0.,23); //not available in AOD |
1266 | fVariables->SetAt(0.,24); //not available in AOD | |
1267 | ||
d756027f | 1268 | fPtAll->Fill(fVariables->At(0)); |
1269 | ||
1270 | FillHistograms(); | |
1271 | ||
1272 | } | |
1273 | ||
1274 | } | |
1275 | ||
1276 | //________________________________________________________________________ | |
1277 | void AliPWG4HighPtTrackQA::FillHistograms() { | |
006b2a30 | 1278 | // |
1279 | // Fill all QA histograms | |
1280 | // | |
d756027f | 1281 | |
1282 | fPtSel->Fill(fVariables->At(0)); | |
1283 | fPtPhi->Fill(fVariables->At(0),fVariables->At(1)); | |
1284 | fPtEta->Fill(fVariables->At(0),fVariables->At(2)); | |
1285 | fPtDCA2D->Fill(fVariables->At(0),fVariables->At(3)); | |
1286 | fPtDCAZ->Fill(fVariables->At(0),fVariables->At(4)); | |
1287 | fPtNClustersTPC->Fill(fVariables->At(0),fVariables->At(5)); | |
1288 | fPtNPointITS->Fill(fVariables->At(0),fVariables->At(6)); | |
c3ff0a6e | 1289 | |
1290 | ||
1291 | fPtNClustersTPCIter1->Fill(fVariables->At(0),fVariables->At(18)); | |
a5e0d236 | 1292 | fPtNClustersTPCIter1Phi->Fill(fVariables->At(0),fVariables->At(18),fVariables->At(1)); |
d889ce29 | 1293 | fPtNClustersTPCShared->Fill(fVariables->At(0),fVariables->At(20)); |
1294 | if(fVariables->At(5)>0.) | |
1295 | fPtNClustersTPCSharedFrac->Fill(fVariables->At(0),fVariables->At(20)/fVariables->At(5)); | |
1296 | ||
c3ff0a6e | 1297 | if(fVariables->At(18)>0.) |
1298 | fPtChi2PerClusterTPCIter1->Fill(fVariables->At(0),fVariables->At(19)/fVariables->At(18)); | |
1299 | ||
1300 | fPtChi2C->Fill(fVariables->At(0),fVariables->At(7)); | |
1301 | fPtNSigmaToVertex->Fill(fVariables->At(0),fVariables->At(8)); | |
1302 | fPtRelUncertainty1Pt->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17))); | |
1303 | fPtRelUncertainty1PtNClus->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(5)); | |
1304 | fPtRelUncertainty1PtNClusIter1->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(18)); | |
b8f6bad5 | 1305 | fPtRelUncertainty1PtNPointITS->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(6)); |
1306 | ||
1307 | fPtRelUncertainty1PtITSClusterMap->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),(int)fITSClusterMap); | |
1308 | ||
c3ff0a6e | 1309 | fPtRelUncertainty1PtChi2->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(10)); |
1310 | if(fVariables->At(18)>0.) | |
1311 | fPtRelUncertainty1PtChi2Iter1->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(19)/fVariables->At(18)); | |
1312 | fPtRelUncertainty1PtPhi->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(1)); | |
c3ff0a6e | 1313 | |
1314 | fPtUncertainty1Pt->Fill(fVariables->At(0),TMath::Sqrt(fVariables->At(17))); | |
1315 | fPtSigmaY2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(13))); | |
1316 | fPtSigmaZ2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(14))); | |
1317 | fPtSigmaSnp2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(15))); | |
1318 | fPtSigmaTgl2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(16))); | |
1319 | fPtSigma1Pt2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(17))); | |
1320 | ||
1321 | fProfPtSigmaY2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(13))); | |
1322 | fProfPtSigmaZ2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(14))); | |
1323 | fProfPtSigmaSnp2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(15))); | |
1324 | fProfPtSigmaTgl2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(16))); | |
1325 | fProfPtSigma1Pt2->Fill(1./fVariables->At(0),TMath::Sqrt(fVariables->At(17))); | |
1326 | fProfPtSigma1Pt->Fill(fVariables->At(0),TMath::Sqrt(fVariables->At(17))); | |
1327 | fProfPtPtSigma1Pt->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17))); | |
1328 | ||
d756027f | 1329 | fPtChi2PerClusterTPC->Fill(fVariables->At(0),fVariables->At(10)); |
1330 | fPtNCrossedRows->Fill(fVariables->At(0),fVariables->At(11)); | |
a337a5a9 | 1331 | fPtNCrossedRowsPhi->Fill(fVariables->At(0),fVariables->At(11),fVariables->At(1)); |
b8f6bad5 | 1332 | fPtNCrossedRowsNClusFPhi->Fill(fVariables->At(0),fVariables->At(12),fVariables->At(1)); |
d756027f | 1333 | fPtNCrRNCrRNClusF->Fill(fVariables->At(0),fVariables->At(11),fVariables->At(12)); |
d889ce29 | 1334 | |
dae7dd67 | 1335 | fPtChi2Gold->Fill(fVariables->At(0),fVariables->At(21)); |
1336 | fPtChi2GGC->Fill(fVariables->At(0),fVariables->At(22)); | |
1337 | ||
1338 | fPtChi2GoldPhi->Fill(fVariables->At(0),fVariables->At(21),fVariables->At(1)); | |
1339 | fPtChi2GGCPhi->Fill(fVariables->At(0),fVariables->At(22),fVariables->At(1)); | |
1340 | ||
1341 | fChi2GoldChi2GGC->Fill(fVariables->At(21),fVariables->At(22)); | |
1342 | ||
a5e0d236 | 1343 | fPtNCrossedRowsFit->Fill(fVariables->At(0),fVariables->At(23)); |
a337a5a9 | 1344 | fPtNCrossedRowsFitPhi->Fill(fVariables->At(0),fVariables->At(23),fVariables->At(1)); |
b8f6bad5 | 1345 | fPtNCrossedRowsNClusFFitPhi->Fill(fVariables->At(0),fVariables->At(24),fVariables->At(1)); |
a337a5a9 | 1346 | fNCrossedRowsNCrossedRowsFit->Fill(fVariables->At(11),fVariables->At(23)); |
a5e0d236 | 1347 | |
a337a5a9 | 1348 | fNClustersNCrossedRows->Fill(fVariables->At(5),fVariables->At(11)); |
1349 | fNClustersNCrossedRowsFit->Fill(fVariables->At(5),fVariables->At(23)); | |
dae7dd67 | 1350 | |
b8f6bad5 | 1351 | fPtRelUncertainty1PtNCrossedRows->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(11)); |
1352 | fPtRelUncertainty1PtNCrossedRowsFit->Fill(fVariables->At(0),fVariables->At(0)*TMath::Sqrt(fVariables->At(17)),fVariables->At(23)); | |
1353 | ||
d756027f | 1354 | } |
1355 | ||
1356 | //________________________________________________________________________ | |
1357 | Bool_t AliPWG4HighPtTrackQA::PythiaInfoFromFile(const char* currFile,Float_t &fXsec,Float_t &fTrials){ | |
1358 | // | |
1359 | // get the cross section and the trails either from pyxsec.root or from pysec_hists.root | |
1360 | // This is to called in Notify and should provide the path to the AOD/ESD file | |
1361 | // Copied from AliAnalysisTaskJetSpectrum2 | |
1362 | // | |
1363 | ||
1364 | TString file(currFile); | |
1365 | fXsec = 0; | |
1366 | fTrials = 1; | |
1367 | ||
1368 | if(file.Contains("root_archive.zip#")){ | |
1369 | Ssiz_t pos1 = file.Index("root_archive",12,TString::kExact); | |
1370 | Ssiz_t pos = file.Index("#",1,pos1,TString::kExact); | |
1371 | file.Replace(pos+1,20,""); | |
1372 | } | |
1373 | else { | |
1374 | // not an archive take the basename.... | |
1375 | file.ReplaceAll(gSystem->BaseName(file.Data()),""); | |
1376 | } | |
1377 | // Printf("%s",file.Data()); | |
1378 | ||
1379 | ||
1380 | TFile *fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec.root")); // problem that we cannot really test the existance of a file in a archive so we have to lvie with open error message from root | |
1381 | if(!fxsec){ | |
1382 | // next trial fetch the histgram file | |
1383 | fxsec = TFile::Open(Form("%s%s",file.Data(),"pyxsec_hists.root")); | |
1384 | if(!fxsec){ | |
1385 | // not a severe condition but inciate that we have no information | |
1386 | return kFALSE; | |
1387 | } | |
1388 | else{ | |
1389 | // find the tlist we want to be independtent of the name so use the Tkey | |
1390 | TKey* key = (TKey*)fxsec->GetListOfKeys()->At(0); | |
1391 | if(!key){ | |
1392 | fxsec->Close(); | |
1393 | return kFALSE; | |
1394 | } | |
1395 | TList *list = dynamic_cast<TList*>(key->ReadObj()); | |
1396 | if(!list){ | |
1397 | fxsec->Close(); | |
1398 | return kFALSE; | |
1399 | } | |
1400 | fXsec = ((TProfile*)list->FindObject("h1Xsec"))->GetBinContent(1); | |
1401 | fTrials = ((TH1F*)list->FindObject("h1Trials"))->GetBinContent(1); | |
1402 | fxsec->Close(); | |
1403 | } | |
1404 | } // no tree pyxsec.root | |
1405 | else { | |
1406 | TTree *xtree = (TTree*)fxsec->Get("Xsection"); | |
1407 | if(!xtree){ | |
1408 | fxsec->Close(); | |
1409 | return kFALSE; | |
1410 | } | |
1411 | UInt_t ntrials = 0; | |
1412 | Double_t xsection = 0; | |
1413 | xtree->SetBranchAddress("xsection",&xsection); | |
1414 | xtree->SetBranchAddress("ntrials",&ntrials); | |
1415 | xtree->GetEntry(0); | |
1416 | fTrials = ntrials; | |
1417 | fXsec = xsection; | |
1418 | fxsec->Close(); | |
1419 | } | |
1420 | return kTRUE; | |
1421 | } | |
1422 | //________________________________________________________________________ | |
1423 | Bool_t AliPWG4HighPtTrackQA::Notify() | |
1424 | { | |
1425 | // | |
1426 | // Implemented Notify() to read the cross sections | |
1427 | // and number of trials from pyxsec.root | |
1428 | // Copied from AliAnalysisTaskJetSpectrum2 | |
1429 | // | |
1430 | ||
1431 | TTree *tree = AliAnalysisManager::GetAnalysisManager()->GetTree(); | |
1432 | Float_t xsection = 0; | |
1433 | Float_t ftrials = 1; | |
1434 | ||
1435 | fAvgTrials = 1; | |
1436 | if(tree){ | |
1437 | TFile *curfile = tree->GetCurrentFile(); | |
1438 | if (!curfile) { | |
1439 | Error("Notify","No current file"); | |
1440 | return kFALSE; | |
1441 | } | |
1442 | if(!fh1Xsec||!fh1Trials){ | |
1443 | // Printf("%s%d No Histogram fh1Xsec",(char*)__FILE__,__LINE__); | |
1444 | return kFALSE; | |
1445 | } | |
1446 | PythiaInfoFromFile(curfile->GetName(),xsection,ftrials); | |
1447 | fh1Xsec->Fill("<#sigma>",xsection); | |
1448 | // construct a poor man average trials | |
1449 | Float_t nEntries = (Float_t)tree->GetTree()->GetEntries(); | |
1450 | if(ftrials>=nEntries && nEntries>0.)fAvgTrials = ftrials/nEntries; | |
1451 | } | |
1452 | return kTRUE; | |
1453 | } | |
1454 | ||
1455 | //________________________________________________________________________ | |
006b2a30 | 1456 | AliGenPythiaEventHeader* AliPWG4HighPtTrackQA::GetPythiaEventHeader(const AliMCEvent *mcEvent){ |
d756027f | 1457 | |
1458 | if(!mcEvent)return 0; | |
1459 | AliGenEventHeader* genHeader = mcEvent->GenEventHeader(); | |
1460 | AliGenPythiaEventHeader* pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(genHeader); | |
1461 | if(!pythiaGenHeader){ | |
1462 | // cocktail ?? | |
1463 | AliGenCocktailEventHeader* genCocktailHeader = dynamic_cast<AliGenCocktailEventHeader*>(genHeader); | |
1464 | ||
1465 | if (!genCocktailHeader) { | |
1466 | // AliWarningGeneral(Form(" %s:%d",(char*)__FILE__,__LINE__),"Unknown header type (not Pythia or Cocktail)"); | |
1467 | // AliWarning(Form("%s %d: Unknown header type (not Pythia or Cocktail)",(char*)__FILE__,__LINE__)); | |
1468 | return 0; | |
1469 | } | |
1470 | TList* headerList = genCocktailHeader->GetHeaders(); | |
1471 | for (Int_t i=0; i<headerList->GetEntries(); i++) { | |
1472 | pythiaGenHeader = dynamic_cast<AliGenPythiaEventHeader*>(headerList->At(i)); | |
1473 | if (pythiaGenHeader) | |
1474 | break; | |
1475 | } | |
1476 | if(!pythiaGenHeader){ | |
1477 | AliWarningGeneral(Form(" %s:%d",(char*)__FILE__,__LINE__),"Pythia event header not found"); | |
1478 | return 0; | |
1479 | } | |
1480 | } | |
1481 | return pythiaGenHeader; | |
1482 | ||
1483 | } | |
1484 | ||
1485 | //_______________________________________________________________________ | |
006b2a30 | 1486 | Float_t AliPWG4HighPtTrackQA::GetTPCClusterInfo(const AliAODTrack *tr,Int_t nNeighbours/*=3*/, Int_t type/*=0*/, Int_t row0, Int_t row1) const |
d756027f | 1487 | { |
1488 | //MV: copied from AliESDtrack since method is not available in AliAODTrack | |
1489 | ||
1490 | // | |
1491 | // TPC cluster information | |
1492 | // type 0: get fraction of found/findable clusters with neighbourhood definition | |
1493 | // 1: findable clusters with neighbourhood definition | |
1494 | // 2: found clusters | |
1495 | // | |
1496 | // definition of findable clusters: | |
1497 | // a cluster is defined as findable if there is another cluster | |
1498 | // within +- nNeighbours pad rows. The idea is to overcome threshold | |
1499 | // effects with a very simple algorithm. | |
1500 | // | |
1501 | ||
1502 | TBits fTPCClusterMap = tr->GetTPCClusterMap(); | |
1503 | if (type==2) return fTPCClusterMap.CountBits(); | |
1504 | ||
1505 | Int_t found=0; | |
1506 | Int_t findable=0; | |
1507 | Int_t last=-nNeighbours; | |
1508 | ||
1509 | for (Int_t i=row0; i<row1; ++i){ | |
1510 | //look to current row | |
1511 | if (fTPCClusterMap[i]) { | |
1512 | last=i; | |
1513 | ++found; | |
1514 | ++findable; | |
1515 | continue; | |
1516 | } | |
1517 | //look to nNeighbours before | |
1518 | if ((i-last)<=nNeighbours) { | |
1519 | ++findable; | |
1520 | continue; | |
1521 | } | |
1522 | //look to nNeighbours after | |
1523 | for (Int_t j=i+1; j<i+1+nNeighbours; ++j){ | |
1524 | if (fTPCClusterMap[j]){ | |
1525 | ++findable; | |
1526 | break; | |
1527 | } | |
1528 | } | |
1529 | } | |
1530 | if (type==1) return findable; | |
1531 | ||
1532 | if (type==0){ | |
1533 | Float_t fraction=0; | |
1534 | if (findable>0) | |
1535 | fraction=(Float_t)found/(Float_t)findable; | |
1536 | else | |
1537 | fraction=0; | |
1538 | return fraction; | |
1539 | } | |
1540 | return 0; // undefined type - default value | |
1541 | } | |
1542 | ||
a5e0d236 | 1543 | //_______________________________________________________________________ |
006b2a30 | 1544 | Float_t AliPWG4HighPtTrackQA::GetTPCClusterInfoFitMap(const AliESDtrack *tr,Int_t nNeighbours/*=3*/, Int_t type/*=0*/, Int_t row0, Int_t row1) const |
a5e0d236 | 1545 | { |
1546 | // | |
1547 | // TPC cluster information from fit map | |
1548 | // type 0: get fraction of found/findable clusters with neighbourhood definition | |
1549 | // 1: findable clusters with neighbourhood definition | |
1550 | // 2: found clusters | |
1551 | // | |
1552 | // definition of findable clusters: | |
1553 | // a cluster is defined as findable if there is another cluster | |
1554 | // within +- nNeighbours pad rows. The idea is to overcome threshold | |
1555 | // effects with a very simple algorithm. | |
1556 | // | |
1557 | ||
1558 | TBits fTPCFitMap = tr->GetTPCFitMap(); | |
1559 | if (type==2) return fTPCFitMap.CountBits(); | |
1560 | ||
1561 | Int_t found=0; | |
1562 | Int_t findable=0; | |
1563 | Int_t last=-nNeighbours; | |
1564 | ||
1565 | for (Int_t i=row0; i<row1; ++i){ | |
1566 | //look to current row | |
1567 | if (fTPCFitMap[i]) { | |
1568 | last=i; | |
1569 | ++found; | |
1570 | ++findable; | |
1571 | continue; | |
1572 | } | |
1573 | //look to nNeighbours before | |
1574 | if ((i-last)<=nNeighbours) { | |
1575 | ++findable; | |
1576 | continue; | |
1577 | } | |
1578 | //look to nNeighbours after | |
1579 | for (Int_t j=i+1; j<i+1+nNeighbours; ++j){ | |
1580 | if (fTPCFitMap[j]){ | |
1581 | ++findable; | |
1582 | break; | |
1583 | } | |
1584 | } | |
1585 | } | |
1586 | if (type==1) return findable; | |
1587 | ||
1588 | if (type==0){ | |
1589 | Float_t fraction=0; | |
1590 | if (findable>0) | |
1591 | fraction=(Float_t)found/(Float_t)findable; | |
1592 | else | |
1593 | fraction=0; | |
1594 | return fraction; | |
1595 | } | |
1596 | return 0; // undefined type - default value | |
1597 | } | |
1598 | ||
05cb235d | 1599 | //_______________________________________________________________________ |
006b2a30 | 1600 | Int_t AliPWG4HighPtTrackQA::GetTrackLengthTPC(const AliESDtrack *track) const { |
05cb235d | 1601 | // |
c3ff0a6e | 1602 | // returns distance between 1st and last hit in TPC |
1603 | // distance given in number of padrows | |
1604 | // | |
1605 | ||
1606 | TBits fTPCClusterMap = track->GetTPCClusterMap(); | |
1607 | int firstHit = 0; | |
1608 | int lastHit = 0; | |
1609 | ||
1610 | for(int i=0; i<=159; i++) { | |
1611 | if(fTPCClusterMap[i]>0) firstHit = i; | |
1612 | } | |
1613 | for(int i=159; i>=0; i--) { | |
1614 | if(fTPCClusterMap[i]>0) lastHit = i; | |
1615 | } | |
1616 | ||
1617 | Int_t trackLength = lastHit - firstHit; | |
1618 | ||
1619 | return trackLength; | |
1620 | } | |
1621 | ||
1622 | //_______________________________________________________________________ | |
006b2a30 | 1623 | Int_t AliPWG4HighPtTrackQA::GetTrackLengthTPC(const AliAODTrack *track) const { |
c3ff0a6e | 1624 | // |
1625 | // returns distance between 1st and last hit in TPC | |
05cb235d | 1626 | // distance given in number of padrows |
1627 | // | |
1628 | ||
1629 | TBits fTPCClusterMap = track->GetTPCClusterMap(); | |
1630 | int firstHit = 0; | |
1631 | int lastHit = 0; | |
1632 | ||
c3ff0a6e | 1633 | for(int i=0; i<=159; i++) { |
1634 | if(fTPCClusterMap[i]>0) firstHit = i; | |
05cb235d | 1635 | } |
1636 | for(int i=159; i>=0; i--) { | |
c3ff0a6e | 1637 | if(fTPCClusterMap[i]>0) lastHit = i; |
05cb235d | 1638 | } |
1639 | ||
c3ff0a6e | 1640 | Int_t trackLength = lastHit - firstHit; |
1641 | ||
1642 | return trackLength; | |
05cb235d | 1643 | } |
1644 | ||
dae7dd67 | 1645 | //_______________________________________________________________________ |
42881dab | 1646 | Float_t AliPWG4HighPtTrackQA::GetGoldenChi2(AliESDtrack *origtrack) { |
dae7dd67 | 1647 | // |
1648 | // Return chi2 between global and TPC constrained track | |
42881dab | 1649 | // track should be the global unconstrained track |
dae7dd67 | 1650 | // |
1651 | ||
1652 | Float_t chi2Gold = 0.; | |
1653 | ||
dae7dd67 | 1654 | AliESDtrack *tpcTrack = 0x0; |
42881dab | 1655 | tpcTrack = AliESDtrackCuts::GetTPCOnlyTrack(fESD,origtrack->GetID()); |
dae7dd67 | 1656 | if(tpcTrack) { |
1657 | AliExternalTrackParam exParam; | |
1658 | Bool_t relate = tpcTrack->RelateToVertexTPC(fVtx,fESD->GetMagneticField(),kVeryBig,&exParam); | |
1659 | if( relate ) { | |
1660 | tpcTrack->Set(exParam.GetX(),exParam.GetAlpha(),exParam.GetParameter(),exParam.GetCovariance()); | |
1661 | // Double_t pTPC[2],covTPC[3]; tpcTrack->PropagateToDCA(fVtx, fESD->GetMagneticField(), 10000, pTPC, covTPC); | |
1662 | } | |
1663 | ||
42881dab | 1664 | tpcTrack->Propagate(origtrack->GetAlpha(), origtrack->GetX(), fESD->GetMagneticField()); |
1665 | chi2Gold = (Float_t)origtrack->GetPredictedChi2(tpcTrack); | |
dae7dd67 | 1666 | } |
1667 | ||
1668 | if(tpcTrack) delete tpcTrack; | |
1669 | ||
1670 | return chi2Gold; | |
1671 | ||
1672 | } | |
1673 | ||
1674 | //_______________________________________________________________________ | |
42881dab | 1675 | Float_t AliPWG4HighPtTrackQA::GetGGCChi2(AliESDtrack *origtrack) { |
dae7dd67 | 1676 | // |
1677 | // Return chi2 between global and global constrained track | |
42881dab | 1678 | // track should be the global unconstrained track |
dae7dd67 | 1679 | // |
1680 | ||
1681 | Float_t chi2GGC = 0.; | |
1682 | ||
42881dab | 1683 | AliESDtrack *esdtrackC = new AliESDtrack(*origtrack); |
1684 | if(esdtrackC) { | |
c49eda44 | 1685 | if(origtrack->GetConstrainedParam()) { |
1686 | esdtrackC->Set(origtrack->GetConstrainedParam()->GetX(),origtrack->GetConstrainedParam()->GetAlpha(),origtrack->GetConstrainedParam()->GetParameter(),origtrack->GetConstrainedParam()->GetCovariance()); | |
1687 | chi2GGC = (Float_t)origtrack->GetPredictedChi2(esdtrackC); | |
1688 | } | |
42881dab | 1689 | delete esdtrackC; |
dae7dd67 | 1690 | } |
42881dab | 1691 | |
dae7dd67 | 1692 | return chi2GGC; |
1693 | ||
1694 | } | |
1695 | ||
d756027f | 1696 | //________________________________________________________________________ |
1697 | void AliPWG4HighPtTrackQA::Terminate(Option_t *) | |
1698 | { | |
1699 | // The Terminate() function is the last function to be called during | |
1700 | // a query. It always runs on the client, it can be used to present | |
1701 | // the results graphically or save the results to file. | |
1702 | ||
1703 | } | |
1704 | ||
1705 | #endif |