#ifndef ALIGENPARAM_H #define ALIGENPARAM_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id$ */ // // Class to generate particles from using parametrized pT and y distributions. // Distributions are obtained from pointer to object of type AliGenLib. // (For example AliGenMUONlib) // // andreas.morsch@cern.ch // #include "AliGenMC.h" class AliPythia; class TParticle; class AliGenLib; class TF1; typedef enum { kAnalog, kNonAnalog} Weighting_t; //------------------------------------------------------------- class AliGenParam : public AliGenMC { public: AliGenParam(); AliGenParam(Int_t npart, const AliGenLib * Library, Int_t param, const char* tname = 0); AliGenParam(Int_t npart, Int_t param, const char* tname = 0, const char* name = 0); AliGenParam(Int_t npart, Int_t param, Double_t (*PtPara)(const Double_t*, const Double_t*), Double_t (*YPara )(const Double_t*, const Double_t*), Double_t (*V2Para)(const Double_t*, const Double_t*), Int_t (*IpPara)(TRandom*) ); virtual ~AliGenParam(); virtual void GenerateN(Int_t ntimes); virtual void Generate(); virtual void Init(); // select particle type virtual void SetParam(Int_t param) {fParam = param;} //Setting the flag for Background transportation while using SetForceDecay() void SetSelectAll(Bool_t selectall) {fSelectAll = selectall;} // force decay type virtual void SetWeighting(Weighting_t flag = kAnalog) {fAnalog = flag;} virtual void SetDeltaPt(Float_t delta=0.01) {fDeltaPt = delta;} virtual void SetDecayer(AliDecayer* decayer) {fDecayer = decayer;} virtual void SetForceGammaConversion(Bool_t force=kTRUE) {fForceConv = force;} virtual void SetKeepParent(Bool_t keep=kTRUE){fKeepParent= keep;} //Store parent even if it does not have childs within cuts virtual void SetKeepIfOneChildSelected(Bool_t keep=kTRUE){fKeepIfOneChildSelected = keep;} //Accept parent and child even if other children are not within cut. virtual void Draw(const char * opt); TF1 * GetPt() { return fPtPara;} TF1 * GetY() {return fYPara;} Float_t GetRelativeArea(Float_t ptMin, Float_t ptMax, Float_t yMin, Float_t yMax, Float_t phiMin, Float_t phiMax); static TVector3 OrthogonalVector(TVector3 &inVec); static void RotateVector(Double_t *pin, Double_t *pout, Double_t costheta, Double_t sintheta, Double_t cosphi, Double_t sinphi); static double ScreenFunction1(double d); static double ScreenFunction2(double d); double RandomEnergyFraction(double Z, double E); double RandomPolarAngle(); double RandomMass(Double_t mh); Int_t VirtualGammaPairProduction(TClonesArray *particles, Int_t nPart); Int_t ForceGammaConversion(TClonesArray *particles, Int_t nPart); protected: Double_t (*fPtParaFunc)(const Double_t*, const Double_t*); //! Pointer to Pt parametrisation function Double_t (*fYParaFunc )(const Double_t*, const Double_t*); //! Pointer to Y parametrisation function Int_t (*fIpParaFunc )(TRandom*); //! Pointer to particle type parametrisation function Double_t (*fV2ParaFunc )(const Double_t*, const Double_t*);//! Pointer to V2 parametrisation function TF1* fPtPara; // Transverse momentum parameterisation TF1* fYPara; // Rapidity parameterisation TF1* fV2Para; // v2 parametrization TF1* fdNdPhi; // Phi distribution depending on v2 Int_t fParam; // Parameterisation type Float_t fdNdy0; // central multiplicity per event Float_t fYWgt; // Y-weight Float_t fPtWgt; // Pt-weight Float_t fBias; // Biasing factor Int_t fTrials; // Number of trials Float_t fDeltaPt; // pT sampling in steps of fDeltaPt Bool_t fSelectAll; // Flag for transportation of Background while using SetForceDecay() AliDecayer *fDecayer; // ! Pointer to pythia object for decays Bool_t fForceConv; // Bool_t fKeepParent; // Store parent even if it does not have childs within cuts Bool_t fKeepIfOneChildSelected; //Accept parent and child even if other children are not within cut. private: AliGenParam(const AliGenParam &Param); AliGenParam & operator=(const AliGenParam & rhs); ClassDef(AliGenParam, 2) // Generator using parameterised pt- and y-distribution }; #endif