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b67ec6f7 | 1 | #ifndef ALIANALYSISTASKCHECKPERFORMANCECASCADE_H |
2 | #define ALIANALYSISTASKCHECKPERFORMANCECASCADE_H | |
3 | ||
4 | /* See cxx source for full Copyright notice */ | |
5 | ||
7e504402 | 6 | // //----------------------------------------------------------------- |
7 | // // AliAnalysisTaskCheckPerformanceCascade class | |
8 | // // This task is for a performance study of cascade identification. | |
9 | // // It works with MC info and ESD. | |
10 | // // Use with AOD tree = under development | |
11 | // // Origin : A.Maire Mar2009, antonin.maire@ires.in2p3.fr | |
12 | // // Modified : A.Maire Jan2010, antonin.maire@ires.in2p3.fr | |
13 | // //----------------------------------------------------------------- | |
b67ec6f7 | 14 | |
15 | class TList; | |
16 | class TH1F; | |
17 | class TH2F; | |
18 | class AliESDEvent; | |
7e504402 | 19 | class AliESDpid; |
c525f360 | 20 | class AliESDtrackCuts; |
7e504402 | 21 | class AliCFContainer; |
b67ec6f7 | 22 | |
23 | #include "AliAnalysisTaskSE.h" | |
24 | ||
25 | class AliAnalysisTaskCheckPerformanceCascade : public AliAnalysisTaskSE { | |
26 | public: | |
27 | ||
28 | AliAnalysisTaskCheckPerformanceCascade(); | |
29 | AliAnalysisTaskCheckPerformanceCascade(const char *name ); | |
9d670198 | 30 | virtual ~AliAnalysisTaskCheckPerformanceCascade(); |
b67ec6f7 | 31 | |
32 | //virtual void ConnectInputData(Option_t *); | |
33 | virtual void UserCreateOutputObjects(); | |
34 | virtual void UserExec(Option_t *option); | |
7e504402 | 35 | virtual Int_t DoESDTrackWithTPCrefitMultiplicity(const AliESDEvent *lESDevent); |
b67ec6f7 | 36 | virtual void Terminate(Option_t *); |
37 | ||
38 | void SetDebugLevelCascade(Int_t lDebugCascade = 0) {fDebugCascade = lDebugCascade;} | |
39 | void SetCollidingSystems (Short_t collidingSystems = 0) {fCollidingSystems = collidingSystems;} | |
b67ec6f7 | 40 | |
c525f360 | 41 | void SetAnalysisType (const char* analysisType = "ESD") { fAnalysisType = analysisType;} |
42 | void SetTriggerMaskType (const char* triggerMaskType = "kMB") { fTriggerMaskType = triggerMaskType;} | |
43 | ||
44 | void SetRelaunchV0CascVertexers (Bool_t rerunV0CascVertexers = 0 ) { fkRerunV0CascVertexers = rerunV0CascVertexers; } | |
45 | void SetQualityCutZprimVtxPos (Bool_t qualityCutZprimVtxPos = kTRUE) { fkQualityCutZprimVtxPos = qualityCutZprimVtxPos; } | |
46 | void SetRejectEventPileUp (Bool_t rejectPileUp = kTRUE) { fkRejectEventPileUp = rejectPileUp; } | |
47 | void SetQualityCutNoTPConlyPrimVtx (Bool_t qualityCutNoTPConlyPrimVtx = kTRUE) { fkQualityCutNoTPConlyPrimVtx = qualityCutNoTPConlyPrimVtx;} | |
48 | void SetQualityCutTPCrefit (Bool_t qualityCutTPCrefit = kTRUE) { fkQualityCutTPCrefit = qualityCutTPCrefit; } | |
49 | void SetQualityCut80TPCcls (Bool_t qualityCut80TPCcls = kTRUE) { fkQualityCut80TPCcls = qualityCut80TPCcls; } | |
50 | void SetAlephParamFor1PadTPCCluster(Bool_t onePadTPCCluster = kTRUE) { fkIsDataRecoWith1PadTPCCluster = onePadTPCCluster ; } | |
51 | void SetExtraSelections (Bool_t extraSelections = 0 ) { fkExtraSelections = extraSelections; } | |
9d670198 | 52 | |
b67ec6f7 | 53 | private: |
9d670198 | 54 | // Note : In ROOT, "//!" means "do not stream the data from Master node to Worker node" ... |
55 | // your data member object is created on the worker nodes and streaming is not needed. | |
56 | // http://root.cern.ch/download/doc/11InputOutput.pdf, page 14 | |
57 | ||
7e504402 | 58 | Int_t fDebugCascade; // Denug Flag for this task devoted to cascade |
59 | TString fAnalysisType; // "ESD" or "AOD" analysis type | |
c525f360 | 60 | TString fTriggerMaskType; // type of trigger to use in UserExec : AliVEvent::kMB or kHighMult ? |
7e504402 | 61 | Short_t fCollidingSystems; // 0 = pp collisions or 1 = AA collisions |
62 | ||
c525f360 | 63 | AliESDpid *fESDpid; // Tool data member to manage the TPC Bethe-Bloch info |
64 | AliESDtrackCuts *fESDtrackCuts; // ESD track cuts used for primary track definition | |
9d670198 | 65 | //TPaveText *fPaveTextBookKeeping; // TString to store all the relevant info necessary for book keeping (v0 cuts, cascade cuts, quality cuts, ...) |
66 | ||
67 | Bool_t fkRerunV0CascVertexers; // Boolean : kTRUE = relaunch both V0 + Cascade vertexers | |
68 | Bool_t fkQualityCutZprimVtxPos; // Boolean : kTRUE = cut on the prim.vtx z-position | |
c525f360 | 69 | Bool_t fkRejectEventPileUp; // Boolean : kTRUE = enable the rejection of events tagged as pile-up by SPD (AliESDEvent::IsPileupFromSPD) |
9d670198 | 70 | Bool_t fkQualityCutNoTPConlyPrimVtx; // Boolean : kTRUE = prim vtx should be SPD or Tracking vertex |
71 | Bool_t fkQualityCutTPCrefit; // Boolean : kTRUE = ask for TPCrefit for the 3 daughter tracks | |
72 | Bool_t fkQualityCut80TPCcls; // Boolean : kTRUE = ask for 80 TPC clusters for each daughter track | |
c525f360 | 73 | Bool_t fkIsDataRecoWith1PadTPCCluster; // Boolean : kTRUE = data reconstructed with the "one pad cluster" algo in TPC (important for the ALEPH param for TPC PID) |
9d670198 | 74 | Bool_t fkExtraSelections; // Boolean : kTRUE = apply tighter selections, before starting the analysis |
75 | ||
76 | Double_t fAlephParameters[5]; // Array to store the 5 param values for the TPC Bethe-Bloch parametrisation | |
77 | Double_t fV0Sels[7]; // Array to store the 7 values for the different selections V0 related (if fkRerunV0CascVertexers) | |
78 | Double_t fCascSels[8]; // Array to store the 8 values for the different selections Casc. related (if fkRerunV0CascVertexers) | |
79 | ||
b67ec6f7 | 80 | |
81 | TList *fListHistCascade; //! List of Cascade histograms | |
82 | // - Histos | |
c525f360 | 83 | TH1F *fHistMCTrackMultiplicity; //! MC Track multiplicity (gen. primaries) |
84 | // - Resolution of the multiplicity estimator | |
a786bd57 | 85 | TH2F *f2dHistRecoPrimTrckMultVsMCMult; //! resolution of the multiplicity estimator (based on primary tracks) |
86 | TH2F *f2dHistRecoEstimateMultVsMCMult; //! resolution of the multiplicity estimator (based on ESDEvent::EstimateMultiplicity) | |
b67ec6f7 | 87 | |
88 | ||
89 | // proton | |
90 | TH1F *fHistEtaGenProton; //! MC Pseudo-rapidity of any generated p+ (no cuts in acceptance) | |
91 | TH1F *fHistEtaGenAntiProton; //! MC Pseudo-rapidity of any generated p+ (no cuts in acceptance) | |
92 | ||
93 | // Part 1 - Generated cascades | |
94 | ||
95 | //-------------- | |
96 | // Xi- | |
97 | TH1F *fHistEtaGenCascXiMinus; //! MC Pseudo-rapidity of any generated Xi- (no cuts in acceptance) | |
ff0753e1 | 98 | TH2F *f2dHistGenPtVsGenYGenXiMinus; //! MC Pt Vs MC Y of generated Xi- |
99 | ||
b67ec6f7 | 100 | // - Histos planned for Xi- emitted within the acceptance (cuts in theta + pt of daughters) |
101 | // = findable cascades | |
102 | TH1F *fHistThetaGenCascXiMinus; //! MC Theta angle of the generated Xi- | |
ff0753e1 | 103 | TH2F *f2dHistGenPtVsGenYFdblXiMinus; //! MC Pt Vs MC y of the findable Xi- |
b67ec6f7 | 104 | |
105 | TH1F *fHistThetaLambdaXiMinus; //! MC Theta angle of the Lambda daughter of the generated Xi- | |
db71a168 | 106 | TH1F *fHistThetaBachXiMinus; //! MC Theta angle of the Bachelor (pi-) |
b67ec6f7 | 107 | |
108 | TH1F *fHistThetaMesDghterXiMinus; //! MC Theta angle of the mesonic V0 daughter in the generated cascade, pi- | |
109 | TH1F *fHistThetaBarDghterXiMinus; //! MC Theta angle of the baryonic V0 daughter in the generated cascade, p+ | |
110 | ||
db71a168 | 111 | TH1F *fHistPtBachXiMinus; //! MC Pt of the Bachelor (pi-) (Control Plot) |
b67ec6f7 | 112 | TH1F *fHistPtMesDghterXiMinus; //! MC Pt of the meson daughter of the 'Lambda0', pi- (Control Plot) |
113 | TH1F *fHistPtBarDghterXiMinus; //! MC Pt of the baryon daughter of the 'Lambda0', p+ (Control Plot) | |
114 | ||
115 | ||
116 | ||
117 | //-------------- | |
118 | // Xi+ | |
119 | TH1F *fHistEtaGenCascXiPlus; //! MC Pseudo-rapidity of any generated Xi+ (no cuts in acceptance) | |
ff0753e1 | 120 | TH2F *f2dHistGenPtVsGenYGenXiPlus; //! MC Pt Vs MC Y of generated Xi+ |
121 | ||
b67ec6f7 | 122 | // - Histos planned for Xi+ emitted within the acceptance (cuts in theta + pt of daughters) |
123 | TH1F *fHistThetaGenCascXiPlus; //! MC Theta angle of the generated Xi+ | |
ff0753e1 | 124 | TH2F *f2dHistGenPtVsGenYFdblXiPlus; //! MC Pt Vs MC y of the findable Xi+ |
b67ec6f7 | 125 | |
126 | TH1F *fHistThetaLambdaXiPlus; //! MC Theta angle of the anti-Lambda daughter of the generated Xi+ | |
db71a168 | 127 | TH1F *fHistThetaBachXiPlus; //! MC Theta angle of the Bachelor (pi+) |
b67ec6f7 | 128 | |
129 | TH1F *fHistThetaMesDghterXiPlus; //! MC Theta angle of the mesonic V0 daughter in the generated cascade, pi+ | |
130 | TH1F *fHistThetaBarDghterXiPlus; //! MC Theta angle of the baryonic V0 daughter in the generated cascade, p- | |
131 | ||
db71a168 | 132 | TH1F *fHistPtBachXiPlus; //! MC Pt of the Bachelor (pi+) (Control Plot) |
b67ec6f7 | 133 | TH1F *fHistPtMesDghterXiPlus; //! MC Pt of the meson daughter of the 'Lambda0', pi+ (Control Plot) |
134 | TH1F *fHistPtBarDghterXiPlus; //! MC Pt of the baryon daughter of the 'Lambda0', p- (Control Plot) | |
135 | ||
136 | ||
137 | ||
138 | //-------------- | |
139 | // Omega- | |
db71a168 | 140 | TH1F *fHistEtaGenCascOmegaMinus; //! MC Pseudo-rapidity of any generated Omega- (no cuts in acceptance) |
ff0753e1 | 141 | TH2F *f2dHistGenPtVsGenYGenOmegaMinus; //! MC Pt Vs MC Y of generated Omega- |
b67ec6f7 | 142 | |
143 | // - Histos planned for Omega- emitted within the acceptance (cuts in theta + pt of daughters) | |
144 | TH1F *fHistThetaGenCascOmegaMinus; //! MC Theta angle of the generated Omega- | |
ff0753e1 | 145 | TH2F *f2dHistGenPtVsGenYFdblOmegaMinus; //! MC Pt Vs MC y of the findable Omega- |
b67ec6f7 | 146 | |
147 | TH1F *fHistThetaLambdaOmegaMinus; //! MC Theta angle of the Lambda daughter of the generated Omega- | |
148 | TH1F *fHistThetaBachOmegaMinus; //! MC Theta angle of the Bachelor (K-) | |
149 | ||
db71a168 | 150 | TH1F *fHistThetaMesDghterOmegaMinus; //! MC Theta angle of the mesonic V0 daughter in the generated cascade, pi- |
151 | TH1F *fHistThetaBarDghterOmegaMinus; //! MC Theta angle of the baryonic V0 daughter in the generated cascade, p+ | |
b67ec6f7 | 152 | |
153 | TH1F *fHistPtBachOmegaMinus; //! MC Pt of the Bachelor (K-) (Control Plot) | |
154 | TH1F *fHistPtMesDghterOmegaMinus; //! MC Pt of the meson daughter of the 'Lambda0', pi- (Control Plot) | |
155 | TH1F *fHistPtBarDghterOmegaMinus; //! MC Pt of the baryon daughter of the 'Lambda0', p+ (Control Plot) | |
156 | ||
157 | ||
158 | ||
159 | //-------------- | |
160 | // Omega+ | |
161 | TH1F *fHistEtaGenCascOmegaPlus; //! MC Pseudo-rapidity of any generated Omega+ (no cuts in acceptance) | |
ff0753e1 | 162 | TH2F *f2dHistGenPtVsGenYGenOmegaPlus; //! MC Pt Vs MC Y of generated Omega+ |
b67ec6f7 | 163 | |
b67ec6f7 | 164 | // - Histos planned for Omega+ emitted within the acceptance (cuts in theta + pt of daughters) |
165 | TH1F *fHistThetaGenCascOmegaPlus; //! MC Theta angle of the generated Omega+ | |
ff0753e1 | 166 | TH2F *f2dHistGenPtVsGenYFdblOmegaPlus; //! MC Pt Vs MC y of the findable Omega+ |
b67ec6f7 | 167 | |
168 | TH1F *fHistThetaLambdaOmegaPlus; //! MC Theta angle of the anti-Lambda daughter of the generated Omega+ | |
169 | TH1F *fHistThetaBachOmegaPlus; //! MC Theta angle of the Bachelor (K+) | |
170 | ||
db71a168 | 171 | TH1F *fHistThetaMesDghterOmegaPlus; //! MC Theta angle of the mesonic V0 daughter in the generated cascade, pi+ |
172 | TH1F *fHistThetaBarDghterOmegaPlus; //! MC Theta angle of the baryonic V0 daughter in the generated cascade, p- | |
b67ec6f7 | 173 | |
174 | TH1F *fHistPtBachOmegaPlus; //! MC Pt of the Bachelor (K+) (Control Plot) | |
175 | TH1F *fHistPtMesDghterOmegaPlus; //! MC Pt of the meson daughter of the 'Lambda0', pi+ (Control Plot) | |
176 | TH1F *fHistPtBarDghterOmegaPlus; //! MC Pt of the baryon daughter of the 'Lambda0', p- (Control Plot) | |
177 | ||
178 | ||
179 | ||
180 | // Part 2 - Any reconstructed cascades + reconstructed cascades associated with MC | |
ff0753e1 | 181 | // 2.1 - Effective mass and PID |
b67ec6f7 | 182 | // - Effective mass histos for all the cascade candidates |
183 | TH1F *fHistMassXiMinus; //! reconstructed cascade effective mass, under Xi- hyp. | |
184 | TH1F *fHistMassXiPlus; //! reconstructed cascade effective mass, under Xi+ hyp. | |
185 | TH1F *fHistMassOmegaMinus; //! reconstructed cascade effective mass, under Omega- hyp. | |
186 | TH1F *fHistMassOmegaPlus; //! reconstructed cascade effective mass, under Omega+ hyp. | |
187 | ||
f87cd3db | 188 | // - Effective mass histos with reconstruction combined PID |
189 | TH1F *fHistMassWithCombPIDXiMinus; //! reconstructed Xi- effective mass, with bach. comb PID | |
190 | TH1F *fHistMassWithCombPIDXiPlus; //! reconstructed Xi+ effective mass, with bach. comb PID | |
191 | TH1F *fHistMassWithCombPIDOmegaMinus; //! reconstructed Omega- effective mass, with bach. comb PID | |
192 | TH1F *fHistMassWithCombPIDOmegaPlus; //! reconstructed Omega+ effective mass, with bach. comb PID | |
f870ac91 | 193 | |
194 | // - PID Probability versus MC Pt(bachelor track) | |
195 | TH2F *f2dHistPIDprobaKaonVsMCPtBach; //! Comb. PID probability for the bach. to be a Kaon Vs MC pt(bach) | |
196 | TH2F *f2dHistPIDprobaPionVsMCPtBach; //! Comb. PID probability for the bach. to be a Pion Vs MC pt(bach) | |
f87cd3db | 197 | |
198 | // - Effective mass histos with perfect MC PID | |
199 | TH1F *fHistMassWithMcPIDXiMinus; //! reconstructed Xi- effective mass, with MC bach. PID | |
200 | TH1F *fHistMassWithMcPIDXiPlus; //! reconstructed Xi+ effective mass, with MC bach. PID | |
201 | TH1F *fHistMassWithMcPIDOmegaMinus; //! reconstructed Omega- effective mass, with MC bach. PID | |
202 | TH1F *fHistMassWithMcPIDOmegaPlus; //! reconstructed Omega+ effective mass, with MC bach. PID | |
203 | ||
204 | ||
ff0753e1 | 205 | // 2.2 - Associated candidates |
f870ac91 | 206 | // - Effective mass histos for the cascade candidates associated with MC, without PID info |
b67ec6f7 | 207 | TH1F *fHistAsMCMassXiMinus; //! reconstr. cascade effective mass, under Xi- hyp. for Associated cand. |
208 | TH1F *fHistAsMCMassXiPlus; //! reconstr. cascade effective mass, under Xi+ hyp. for Associated cand. | |
209 | TH1F *fHistAsMCMassOmegaMinus; //! reconstr. cascade effective mass, under Omega- hyp. for Associated cand. | |
210 | TH1F *fHistAsMCMassOmegaPlus; //! reconstr. cascade effective mass, under Omega+ hyp. for Associated cand. | |
211 | ||
ff0753e1 | 212 | // - Generated Pt Vs generated Y of the cascade candidates associated with MC |
213 | // + having the proper maximum proba of combined PID for the bachelor | |
214 | TH2F *f2dHistAsMCandCombPIDGenPtVsGenYXiMinus; //! Pt(gen) Vs Y(gen) from the MC Xi- associated with Reco cand + with PID info | |
215 | TH2F *f2dHistAsMCandCombPIDGenPtVsGenYXiPlus; //! Pt(gen) Vs Y(gen) from the MC Xi+ associated with Reco cand + with PID info | |
216 | TH2F *f2dHistAsMCandCombPIDGenPtVsGenYOmegaMinus; //! Pt(gen) Vs Y(gen) from the MC Omega- associated with Reco cand + with PID info | |
217 | TH2F *f2dHistAsMCandCombPIDGenPtVsGenYOmegaPlus; //! Pt(gen) Vs Y(gen) from the MC Omega+ associated with Reco cand + with PID info | |
218 | ||
219 | // - Generated Pt Vs generated Y, for the cascade candidates associated with MC, without PID info | |
220 | TH2F *f2dHistAsMCGenPtVsGenYXiMinus; //! gen. Pt Vs gen. Rap. from the MC Xi- associated with a reconstr. cascade | |
221 | TH2F *f2dHistAsMCGenPtVsGenYXiPlus; //! gen. Pt Vs gen. Rap. from the MC Xi+ associated with a reconstr. cascade | |
222 | TH2F *f2dHistAsMCGenPtVsGenYOmegaMinus; //! gen. Pt Vs gen. Rap. from the MC Omega- associated with a reconstr. cascade | |
223 | TH2F *f2dHistAsMCGenPtVsGenYOmegaPlus; //! gen. Pt Vs gen. Rap. from the MC Omega+ associated with a reconstr. cascade | |
b67ec6f7 | 224 | |
f870ac91 | 225 | // - Generated Eta of the the cascade candidates associated with MC, without PID info |
b67ec6f7 | 226 | TH1F *fHistAsMCGenEtaXiMinus; //! generated Eta from the MC Xi- associated with a reconstr. cascade |
227 | TH1F *fHistAsMCGenEtaXiPlus; //! generated Eta from the MC Xi+ associated with a reconstr. cascade | |
228 | TH1F *fHistAsMCGenEtaOmegaMinus; //! generated Eta from the MC Omega- associated with a reconstr. cascade | |
229 | TH1F *fHistAsMCGenEtaOmegaPlus; //! generated Eta from the MC Omega+ associated with a reconstr. cascade | |
230 | ||
231 | // - Resolution in Pt as function of generated Pt | |
232 | TH2F *f2dHistAsMCResPtXiMinus; //! resolution in Pt as function of gen. Pt, for Xi- | |
233 | TH2F *f2dHistAsMCResPtXiPlus; //! resolution in Pt as function of gen. Pt, for Xi- | |
234 | TH2F *f2dHistAsMCResPtOmegaMinus; //! resolution in Pt as function of gen. Pt, for Omega- | |
235 | TH2F *f2dHistAsMCResPtOmegaPlus; //! resolution in Pt as function of gen. Pt, for Omega+ | |
236 | ||
237 | // - Resolution in R(2D) as function of generated R | |
ff0753e1 | 238 | TH2F *f2dHistAsMCResRXiMinus; //! resolution in transv. R = f(transv. gen. R), for Xi- |
239 | TH2F *f2dHistAsMCResRXiPlus; //! resolution in transv. R = f(transv. gen. R), for Xi+ | |
240 | TH2F *f2dHistAsMCResROmegaMinus; //! resolution in transv. R = f(transv. gen. R), for Omega- | |
241 | TH2F *f2dHistAsMCResROmegaPlus; //! resolution in transv. R = f(transv. gen. R), for Omega+ | |
7e504402 | 242 | |
c525f360 | 243 | // - Resolution in phi as function of generated Pt |
244 | TH2F *f2dHistAsMCResPhiXiMinus; //! resolution in azimuth Phi = f(gen. Pt), for Xi- | |
245 | TH2F *f2dHistAsMCResPhiXiPlus; //! resolution in azimuth Phi = f(gen. Pt), for Xi+ | |
246 | TH2F *f2dHistAsMCResPhiOmegaMinus; //! resolution in azimuth Phi = f(gen. Pt), for Omega- | |
247 | TH2F *f2dHistAsMCResPhiOmegaPlus; //! resolution in azimuth Phi = f(gen. Pt), for Omega+ | |
248 | ||
a786bd57 | 249 | // - Correlation in Pt between the cascade and its (anti)proton daughter |
250 | TH2F *f2dHistAsMCPtProtonVsPtXiMinus; //! Pt(p) Vs Pt(XiMinus), for a associated-to-reco cascade | |
251 | TH2F *f2dHistAsMCPtAntiProtonVsPtXiPlus; //! Pt(anti-p) Vs Pt(XiPlus), for a associated-to-reco cascade | |
252 | TH2F *f2dHistAsMCPtProtonVsPtOmegaMinus; //! Pt(p) Vs Pt(OmegaMinus), for a associated-to-reco cascade | |
253 | TH2F *f2dHistAsMCPtAntiProtonVsPtOmegaPlus; //! Pt(anti-p) Vs Pt(OmegaPlus), for a associated-to-reco cascade | |
254 | ||
255 | ||
c525f360 | 256 | |
7e504402 | 257 | // - Compilation of all PID plots (3D = casc. transv. momemtum Vs Casc Eff mass Vs Y), stored into an AliCFContainer |
258 | AliCFContainer *fCFContCascadePIDAsXiMinus; //! for Xi- : Container to store any 3D histos with the different PID flavours | |
259 | AliCFContainer *fCFContCascadePIDAsXiPlus; //! for Xi+ : Container to store any 3D histos with the different PID flavours | |
260 | AliCFContainer *fCFContCascadePIDAsOmegaMinus; //! for Omega-: Container to store any 3D histos with the different PID flavours | |
261 | AliCFContainer *fCFContCascadePIDAsOmegaPlus; //! for Omega+: Container to store any 3D histos with the different PID flavours | |
262 | ||
9d670198 | 263 | // - Towards the optimisation of topological selections/ systematics (on associated candidates) |
264 | AliCFContainer *fCFContAsCascadeCuts; //! Container meant to store all the relevant distributions corresponding to the cut variables | |
b67ec6f7 | 265 | |
266 | AliAnalysisTaskCheckPerformanceCascade(const AliAnalysisTaskCheckPerformanceCascade&); // not implemented | |
267 | AliAnalysisTaskCheckPerformanceCascade& operator=(const AliAnalysisTaskCheckPerformanceCascade&); // not implemented | |
268 | ||
a786bd57 | 269 | ClassDef(AliAnalysisTaskCheckPerformanceCascade, 6); |
b67ec6f7 | 270 | }; |
271 | ||
272 | #endif |