1 #ifndef AliAnalysisTaskJetFlowMC_H
2 #define AliAnalysisTaskJetFlowMC_H
10 #include "AliAnalysisTaskSE.h"
11 // forward declarations
16 class AliAnalysisTaskJetFlowMC : public AliAnalysisTaskSE
20 enum detectorType {kVZEROA, kVZEROC, kVZEROComb}; // detector that was used
21 // constructors, destructor
22 AliAnalysisTaskJetFlowMC();
23 AliAnalysisTaskJetFlowMC(const char *name);
24 virtual ~AliAnalysisTaskJetFlowMC();
25 // mirror image of PickTrackMaker
26 void UserCreateOutputObjects();
27 TH1F* BookTH1F(const char* name, const char* x, Int_t bins, Double_t min, Double_t max, Int_t c = -1, Bool_t append = kTRUE);
28 TH2F* BookTH2F(const char* name, const char* x, const char* y, Int_t binsx, Double_t minx, Double_t maxx, Int_t binsy, Double_t miny, Double_t maxy, Int_t c = -1, Bool_t append = kTRUE);
30 void UserExec(Option_t *option);
31 void SetDebugMode(Bool_t d) {fDebug = d;}
32 void SetTracksInName(const char *name) { fTracksInName = name; }
33 void SetTracksOutName(const char *name) { fTracksOutName = name; }
35 void SetCentralityClasses(TArrayI* c) { fCentralityClasses = c; }
36 void SetReferenceDetector(detectorType type) { fDetectorType = type; }
37 void SetDifferentialV2(TF1* v2, Int_t c = 0) { fFuncDiffV2[c] = v2; }
38 void SetDifferentialV3(TF1* v3, Int_t c = 0) { fFuncDiffV3[c] = v3; }
39 void SetDifferentialV2(TH1* v2, Int_t c = 0) { fHistDiffV2[c] = v2; }
40 void SetDifferentialV3(TH1* v3, Int_t c = 0) { fHistDiffV3[c] = v3; }
41 void SetIntegratedV2(TH1* v2) { fHistIntV2 = v2; }
42 void SetIntegratedV3(TH1* v3) { fHistIntV3 = v3; }
43 void SetTrackSpectrum(TF1* ts) { fTrackSpectrum = ts; }
44 void SetSingleFragmentationJetSpectrum(TF1* js) { fJetSpectrumSF = js; }
45 void SetNoOfSFJets(Int_t n) { fNoOfSFJets = n; }
47 void V2AfterBurner(Double_t& phi, Double_t& eta, Double_t& pt) const;
48 void V3AfterBurner(Double_t& phi, Double_t& eta, Double_t& pt) const;
49 void InjectSingleFragmentationJetSpectrum(Int_t nacc);
50 void CalculateEventPlane();
51 // inlined helper calculations
52 Double_t GetTrackPt() const { return fTrackSpectrum->GetRandom();}
53 /* inline */ Double_t GetV2(Double_t pt) const {
54 return (fFuncDiffV2[fCenBin]) ? fFuncDiffV2[fCenBin]->Eval(pt) :
55 fHistDiffV2[fCenBin]->GetBinContent(fHistDiffV2[fCenBin]->GetXaxis()->FindBin(pt));
57 /* inline */ Double_t GetV3(Double_t pt) const {
58 return (fFuncDiffV3[fCenBin]) ? fFuncDiffV3[fCenBin]->Eval(pt) :
59 fHistDiffV3[fCenBin]->GetBinContent(fHistDiffV3[fCenBin]->GetXaxis()->FindBin(pt));
61 /* inline */ void GetFlowFluctuation(Double_t& vn) const {
62 vn += TMath::Sqrt(2*(vn*.25)*(vn*.25))*TMath::ErfInverse(2*(gRandom->Uniform(0, fFlowFluctuations))-1);
64 /* inline */ Double_t PhaseShift(Double_t x) const {
65 while (x>=TMath::TwoPi())x-=TMath::TwoPi();
66 while (x<0.)x+=TMath::TwoPi();
68 /* inline */ Double_t PhaseShift(Double_t x, Double_t n) const {
70 if(TMath::Nint(n)==2) while (x>TMath::Pi()) x-=TMath::Pi();
71 if(TMath::Nint(n)==3) {
72 if(x>2.*TMath::TwoPi()/n) x = TMath::TwoPi() - x;
73 if(x>TMath::TwoPi()/n) x = TMath::TwoPi()-(x+TMath::TwoPi()/n);
76 /* inline */ void SampleVnFromTF1(Double_t &phi) const {
77 phi = (fFuncVn) ? fFuncVn->GetRandom(0., TMath::TwoPi()) : 0; }
78 /* inline */ void FillHistogramsOriginalData(Double_t& pt, Double_t& eta, Double_t& phi) const {
79 fHistOriginalSpectrum[fCenBin]->Fill(pt); fHistOriginalEtaPhi[fCenBin]->Fill(eta, phi);
80 fHistOriginalDeltaPhi[fCenBin]->Fill(PhaseShift(phi-fPsi2, 2));
82 /* inline */ void FillHistogramsToyData(Double_t& pt, Double_t& eta, Double_t& phi, Double_t& vn) const {
83 fHistToySpectrum[fCenBin]->Fill(pt); fHistToyEtaPhi[fCenBin]->Fill(eta, phi);
84 fHistToyDeltaPhi[fCenBin]->Fill(PhaseShift(phi-fPsi2, 2)); fHistToyVn[fCenBin]->Fill(pt, vn);
86 void Terminate(Option_t* option);
87 void PrintInfo() const;
89 TString fTracksOutName; // name of output track array
90 TString fTracksInName; // name of input track array
91 TClonesArray *fTracksIn; //!track array in
92 TClonesArray *fTracksOut; //!track array out
93 Int_t fCenBin; //! centrality bin
94 TArrayI* fCentralityClasses; // centrality classes (max 10)
95 TF1* fFuncVn; //! vn function
96 TList* fOutputList; // output list
97 TF1* fTrackSpectrum; // track pt spectrum
98 TF1* fJetSpectrumSF; // single fragmentation spectrum of jets
99 Int_t fNoOfSFJets; // number of single fragmentation jets that will be added
100 TF1* fFuncDiffV2[10]; // differential v2 of charged tracks
101 TF1* fFuncDiffV3[10]; // differential v3 of charged tracks
102 TH1* fHistDiffV2[10]; // differential v2 of charged tracks
103 TH1* fHistDiffV3[10]; // differential v3 of charged tracks
104 TH1* fHistIntV2; // integrated v2 of charged tracks
105 TH1* fHistIntV3; // integrated v3 of charged tracks
106 Float_t fFlowFluctuations; // introduce gaussian flow fluctuations of this magnitude
107 Int_t fMaxNumberOfIterations; // max number of iterations for afterburner
108 Double_t fPsi2; //! 2nd order event plane orientation
109 Double_t fPsi3; //! 3rd order event plane orientation
110 Double_t fPrecisionPhi; // afterburner precision
111 detectorType fDetectorType; // type of detector from which the EP is taken
113 TH1F* fHistOriginalSpectrum[10]; //! original pt spectrum of accepted tracks
114 TH2F* fHistOriginalEtaPhi[10]; //! original eta phi spectrum of accepted tracks
115 TH1F* fHistToySpectrum[10]; //! spectrum of toy (generated) tracks
116 TH2F* fHistToyEtaPhi[10]; //! eta phi spectrum of toy (generated) tracks
117 TH1F* fHistOriginalDeltaPhi[10]; //! original delta phi spectrum
118 TH1F* fHistToyDeltaPhi[10]; //! delta phi spectrum of toy (generated) tracks
119 TH2F* fHistToyVn[10]; //! generated differential vn values (should equal the differential spectrum)
120 TH1F* fHistSFJetSpectrum; //! spectrum of generated sf jets
121 TH2F* fHistSFJetEtaPhi; //! eta phi of generated sf jets
123 AliAnalysisTaskJetFlowMC(const AliAnalysisTaskJetFlowMC&); // not implemented
124 AliAnalysisTaskJetFlowMC &operator=(const AliAnalysisTaskJetFlowMC&); // not implemented
126 ClassDef(AliAnalysisTaskJetFlowMC, 1); // Task to generate toy mc PicoTracks based on real events