]>
Commit | Line | Data |
---|---|---|
a65a7e70 | 1 | #ifndef ALIANALYSISTASKTOYMODEL_CXX |
2 | #define ALIANALYSISTASKTOYMODEL_CXX | |
3 | ||
4 | // Analysis task for a simple toy model, currently used for the | |
5 | // balance function | |
6 | // Authors: Panos Christakoglou@nikhef.nl | |
7 | ||
8 | class TList; | |
9 | class TH1F; | |
10 | class TH2F; | |
11 | class TH3F; | |
12 | class TF1; | |
13 | ||
14 | class AliBalancePsi; | |
15 | class AliEventPoolManager; | |
16 | ||
17 | class AliAnalysisTaskToyModel : public TObject { | |
18 | public: | |
19 | AliAnalysisTaskToyModel(); | |
20 | virtual ~AliAnalysisTaskToyModel(); | |
21 | ||
22 | virtual void Init(); | |
23 | virtual void CreateOutputObjects(); | |
24 | virtual void Run(Int_t nEvents); | |
25 | virtual void FinishOutput(); | |
26 | ||
27 | void SetDebugFlag() {fUseDebug = kTRUE;} | |
28 | ||
29 | void SetAnalysisObject(AliBalancePsi *const analysis) { | |
30 | fBalance = analysis; | |
31 | } | |
32 | void SetShufflingObject(AliBalancePsi *const analysisShuffled) { | |
33 | fRunShuffling = kTRUE; | |
34 | fShuffledBalance = analysisShuffled; | |
35 | } | |
36 | void SetMixingObject(AliBalancePsi *const analysisMixed) { | |
37 | fRunMixing = kTRUE; | |
38 | fMixedBalance = analysisMixed; | |
39 | } | |
40 | ||
41 | //============Toy model: List of setters============// | |
42 | void SetTotalMultiplicity(Double_t mean, Double_t sigma) { | |
43 | fTotalMultiplicityMean = mean; | |
44 | fTotalMultiplicitySigma = sigma;} | |
45 | void SetNetCharge(Double_t mean, Double_t sigma) { | |
46 | fNetChargeMean = mean; | |
47 | fNetChargeSigma = sigma;} | |
48 | ||
49 | //Acceptance | |
50 | void SetKinematicsCutsMC(Double_t ptmin, Double_t ptmax, | |
51 | Double_t etamin, Double_t etamax){ | |
52 | fPtMin = ptmin; fPtMax = ptmax; | |
53 | fEtaMin = etamin; fEtaMax = etamax; | |
54 | } | |
55 | ||
56 | //Acceptance filter | |
57 | void SetAcceptanceParameterization(TF1 *parameterization) { | |
58 | fUseAcceptanceParameterization = kTRUE; | |
59 | fAcceptanceParameterization = parameterization;} | |
60 | ||
61 | //Acceptance - simulate detector effects/inefficiencies | |
62 | void SimulateDetectorEffects() {fSimulateDetectorEffects = kTRUE;} | |
63 | void SetNumberOfInefficientSectorsInPhi(Int_t numberOfInefficientSectors) { | |
64 | fNumberOfInefficientSectors = numberOfInefficientSectors; | |
65 | fInefficiencyFactorInPhi = 0.5;} | |
66 | void SetInefficiencyFactor(Double_t gInefficiencyFactorInPhi) { | |
67 | fInefficiencyFactorInPhi = gInefficiencyFactorInPhi;} | |
68 | void SetNumberOfDeadSectorsInPhi(Int_t numberOfDeadSectors) { | |
69 | fNumberOfDeadSectors = numberOfDeadSectors;} | |
70 | void EnableEfficiencyDropNearEtaEdges() { | |
71 | fEfficiencyDropNearEtaEdges = kTRUE;} | |
72 | ||
73 | //All charges | |
74 | void SetSpectraTemperatureForAllCharges(Double_t temperature) { | |
75 | fUseAllCharges = kTRUE; | |
76 | fTemperatureAllCharges = temperature;} | |
77 | void SetDirectedFlowForAllCharges(Double_t v1) { | |
78 | fUseAllCharges = kTRUE; | |
79 | fDirectedFlowAllCharges = v1;} | |
80 | void SetEllipticFlowForAllCharges(Double_t v2) { | |
81 | fUseAllCharges = kTRUE; | |
82 | fEllipticFlowAllCharges = v2;} | |
83 | void SetTriangularFlowForAllCharges(Double_t v3) { | |
84 | fUseAllCharges = kTRUE; | |
85 | fTriangularFlowAllCharges = v3;} | |
86 | void SetQuandrangularFlowForAllCharges(Double_t v4) { | |
87 | fUseAllCharges = kTRUE; | |
88 | fQuandrangularFlowAllCharges = v4;} | |
89 | void SetPentangularFlowForAllCharges(Double_t v5) { | |
90 | fUseAllCharges = kTRUE; | |
91 | fPentangularFlowAllCharges = v5;} | |
92 | ||
93 | //Pions | |
94 | void SetPionPercentage(Double_t percentage) { | |
95 | fPionPercentage = percentage;} | |
96 | void SetSpectraTemperatureForPions(Double_t temperature) { | |
97 | fTemperaturePions = temperature;} | |
98 | void SetDirectedFlowForPions(Double_t v1) { | |
99 | fDirectedFlowPions = v1;} | |
100 | void SetEllipticFlowForPions(Double_t v2) { | |
101 | fEllipticFlowPions = v2;} | |
102 | void SetTriangularFlowForPions(Double_t v3) { | |
103 | fTriangularFlowPions = v3;} | |
104 | void SetQuandrangularFlowForPions(Double_t v4) { | |
105 | fQuandrangularFlowPions = v4;} | |
106 | void SetPentangularFlowForPions(Double_t v5) { | |
107 | fPentangularFlowPions = v5;} | |
108 | ||
109 | //Kaons | |
110 | void SetKaonPercentage(Double_t percentage) { | |
111 | fKaonPercentage = percentage;} | |
112 | void SetSpectraTemperatureForKaons(Double_t temperature) { | |
113 | fTemperatureKaons = temperature;} | |
114 | void SetDirectedFlowForKaons(Double_t v1) { | |
115 | fDirectedFlowKaons = v1;} | |
116 | void SetEllipticFlowForKaons(Double_t v2) { | |
117 | fEllipticFlowKaons = v2;} | |
118 | void SetTriangularFlowForKaons(Double_t v3) { | |
119 | fTriangularFlowKaons = v3;} | |
120 | void SetQuandrangularFlowForKaons(Double_t v4) { | |
121 | fQuandrangularFlowKaons = v4;} | |
122 | void SetPentangularFlowForKaons(Double_t v5) { | |
123 | fPentangularFlowKaons = v5;} | |
124 | ||
125 | //Protons | |
126 | void SetProtonPercentage(Double_t percentage) { | |
127 | fProtonPercentage = percentage;} | |
128 | void SetSpectraTemperatureForProtons(Double_t temperature) { | |
129 | fTemperatureProtons = temperature;} | |
130 | void SetDirectedFlowForProtons(Double_t v1) { | |
131 | fDirectedFlowProtons = v1;} | |
132 | void SetEllipticFlowForProtons(Double_t v2) { | |
133 | fEllipticFlowProtons = v2;} | |
134 | void SetTriangularFlowForProtons(Double_t v3) { | |
135 | fTriangularFlowProtons = v3;} | |
136 | void SetQuandrangularFlowForProtons(Double_t v4) { | |
137 | fQuandrangularFlowProtons = v4;} | |
138 | void SetPentangularFlowForProtons(Double_t v5) { | |
139 | fPentangularFlowProtons = v5;} | |
140 | ||
141 | //Dynamical correlations | |
142 | void SetCorrelationPercentage(Double_t percentage) { | |
143 | fUseDynamicalCorrelations = kTRUE; | |
144 | fDynamicalCorrelationsPercentage = percentage; | |
145 | } | |
146 | ||
147 | //Jet-like structures | |
148 | void SetUseJets() {fUseJets = kTRUE;} | |
149 | //============Toy model: List of setters============// | |
150 | ||
151 | private: | |
152 | void SetupEfficiencyMatrix(); | |
153 | ||
154 | Bool_t fUseDebug; //Debug flag | |
155 | ||
156 | AliBalancePsi *fBalance; //BF object | |
157 | Bool_t fRunShuffling;//run shuffling or not | |
158 | AliBalancePsi *fShuffledBalance; //BF object (shuffled) | |
159 | Bool_t fRunMixing;//run mixing or not | |
160 | AliBalancePsi *fMixedBalance; //BF object (mixed) | |
161 | AliEventPoolManager* fPoolMgr; //! event pool manager | |
162 | TList *fList; //fList object | |
163 | TList *fListBF; //fList object | |
164 | TList *fListBFS; //fList object (shuffling) | |
165 | TList *fListBFM; //fList object (mixing) | |
166 | ||
167 | TH1F *fHistEventStats; //event stats | |
168 | TH1F *fHistNumberOfAcceptedParticles; //number of accepted particles | |
169 | TH1F *fHistReactionPlane; //reaction plane angle | |
170 | TH1F *fHistEtaTotal; //pseudo-rapidity (full phase space) | |
171 | TH1F *fHistEta; //pseudo-rapidity (acceptance) | |
172 | TH2F *fHistEtaPhiPos; //eta-phi pos | |
173 | TH2F *fHistEtaPhiNeg; //eta-phi neg | |
174 | TH1F *fHistRapidity; //rapidity (acceptance) | |
175 | TH1F *fHistRapidityPions; //rapidity (acceptance) | |
176 | TH1F *fHistRapidityKaons; //rapidity (acceptance) | |
177 | TH1F *fHistRapidityProtons; //rapidity (acceptance) | |
178 | TH1F *fHistPhi; //phi (acceptance) | |
179 | TH1F *fHistPhiPions; //phi (acceptance) | |
180 | TH1F *fHistPhiKaons; //phi (acceptance) | |
181 | TH1F *fHistPhiProtons; //phi (acceptance) | |
182 | TH1F *fHistPt; //pt (acceptance) | |
183 | TH1F *fHistPtPions; //pt (acceptance) | |
184 | TH1F *fHistPtKaons; //pt (acceptance) | |
185 | TH1F *fHistPtProtons; //pt (acceptance) | |
186 | ||
187 | //Toy model input | |
188 | Double_t fTotalMultiplicityMean; //mean for the total multiplicity | |
189 | Double_t fTotalMultiplicitySigma; //sigma for the total multiplicity | |
190 | Double_t fNetChargeMean; //mean for the net charge | |
191 | Double_t fNetChargeSigma; //sigma for the net charge | |
192 | Double_t fPtMin; //pt min for acceptance | |
193 | Double_t fPtMax; //pt max for acceptance | |
194 | Double_t fEtaMin; //eta min for acceptance | |
195 | Double_t fEtaMax; //eta max for acceptance | |
196 | ||
197 | //Acceptance parameterization | |
198 | Bool_t fUseAcceptanceParameterization; //flag acceptance parameterization | |
199 | TF1 *fAcceptanceParameterization; //acceptance parameterization | |
200 | ||
201 | //Simulate detector effects | |
202 | Bool_t fSimulateDetectorEffects;//simulate detector effects in pT | |
203 | Int_t fNumberOfInefficientSectors;//inefficient secotrs in phi | |
204 | Double_t fInefficiencyFactorInPhi;//efficiency factor < 1 | |
205 | Int_t fNumberOfDeadSectors;//number of dead sectors | |
206 | Bool_t fEfficiencyDropNearEtaEdges;//efficiency drop in eta edges | |
207 | TH3F *fEfficiencyMatrix; //efficiency matrix in eta-pt-phi | |
208 | ||
209 | //Kinematics | |
210 | Bool_t fUseAllCharges; //use all charges | |
211 | Double_t fParticleMass; //particle mass | |
212 | TF1 *fPtSpectraAllCharges; //spectra for all charges | |
213 | Double_t fTemperatureAllCharges; //temperature for pt spectra | |
214 | Double_t fReactionPlane; //reaction plane angle | |
215 | TF1 *fAzimuthalAngleAllCharges; //azimuthal angle | |
216 | Double_t fDirectedFlowAllCharges; //directed flow value | |
217 | Double_t fEllipticFlowAllCharges; //elliptic flow value | |
218 | Double_t fTriangularFlowAllCharges; //triangular flow value | |
219 | Double_t fQuandrangularFlowAllCharges; //quadrangular flow value | |
220 | Double_t fPentangularFlowAllCharges; //pentangular flow value | |
221 | ||
222 | Double_t fPionPercentage; //percentage of pions | |
223 | Double_t fPionMass; //pion mass | |
224 | TF1 *fPtSpectraPions; //spectra for pions | |
225 | Double_t fTemperaturePions; //temperature for pt spectra | |
226 | TF1 *fAzimuthalAnglePions; //azimuthal angle for pions | |
227 | Double_t fDirectedFlowPions; //directed flow value | |
228 | Double_t fEllipticFlowPions; //elliptic flow value | |
229 | Double_t fTriangularFlowPions; //triangular flow value | |
230 | Double_t fQuandrangularFlowPions; //quadrangular flow value | |
231 | Double_t fPentangularFlowPions; //pentangular flow value | |
232 | ||
233 | Double_t fKaonPercentage; //percentage of kaons | |
234 | Double_t fKaonMass; //kaon mass | |
235 | TF1 *fPtSpectraKaons; //spectra for kaons | |
236 | Double_t fTemperatureKaons; //temperature for pt spectra | |
237 | TF1 *fAzimuthalAngleKaons; //azimuthal angle for kaons | |
238 | Double_t fDirectedFlowKaons; //directed flow value | |
239 | Double_t fEllipticFlowKaons; //elliptic flow value | |
240 | Double_t fTriangularFlowKaons; //triangular flow value | |
241 | Double_t fQuandrangularFlowKaons; //quadrangular flow value | |
242 | Double_t fPentangularFlowKaons; //pentangular flow value | |
243 | ||
244 | Double_t fProtonPercentage; //percentage of protons | |
245 | Double_t fProtonMass; //proton mass | |
246 | TF1 *fPtSpectraProtons; //spectra for protons | |
247 | Double_t fTemperatureProtons; //temperature for pt spectra | |
248 | TF1 *fAzimuthalAngleProtons; //azimuthal angle for protons | |
249 | Double_t fDirectedFlowProtons; //directed flow value | |
250 | Double_t fEllipticFlowProtons; //elliptic flow value | |
251 | Double_t fTriangularFlowProtons; //triangular flow value | |
252 | Double_t fQuandrangularFlowProtons; //quadrangular flow value | |
253 | Double_t fPentangularFlowProtons; //pentangular flow value | |
254 | ||
255 | Bool_t fUseDynamicalCorrelations; //Usage of dynamical correlations | |
256 | Double_t fDynamicalCorrelationsPercentage; //Percentage of correlations | |
257 | ||
258 | Bool_t fUseJets;//Usage of jet-like structures | |
259 | TF1 *fPtAssoc;//pt of associated | |
260 | ||
261 | AliAnalysisTaskToyModel(const AliAnalysisTaskToyModel&); // not implemented | |
262 | AliAnalysisTaskToyModel& operator=(const AliAnalysisTaskToyModel&); // not implemented | |
263 | ||
264 | ClassDef(AliAnalysisTaskToyModel, 1); // example of analysis | |
265 | }; | |
266 | ||
267 | #endif |