#ifndef UEVENT_H #define UEVENT_H // C++ headers #include // ROOT headers #include "TObject.h" #include "TLorentzVector.h" // Forward declarations class TString; class TClonesArray; //_________________ class UEvent : public TObject { public: /// Default constructor UEvent(); /// Copy constructor UEvent(const UEvent& right); /// Default destructor virtual ~UEvent(); /// Print event information void print(Option_t* option = ""); // // Getters // /// Return event number Int_t eventNr() const { return fEventNr; } /// Return imparct parameter (fm) Double_t b() const { return (Double_t)fB; } /// Return impact parameter (fm) Double_t impact() const { return (Double_t)fB; } /// Return reaction plane angle Double_t phi() const { return (Double_t)fPhi; } /// Return number of event steps Int_t numberOfSteps() const { return (Int_t)fNes; } /// Return time step (stamp) number Int_t stepNumber() const { return (Int_t)fStepNr; } /// Return time of the step (stamp) Double_t stepT() const { return (Double_t)fStepT; } /// Return time of the step (stamp) Double_t stepTime() const { return stepT(); } /// Return comment void comment(TString& comment) const { comment = fComment; } // // Setters // /// Set all event parameters void setParameters(const Int_t& eventNr, const Double_t& b, const Double_t& phi, const Int_t& nes, const Int_t& stepNr, const Double_t& stepT, const char* comment = ""); /// Set event number void setEventNr(const Int_t& eventNr) { fEventNr = (UInt_t)eventNr; } /// Set impact parameter void setB(const Double_t& b) { fB = (Float_t)b; } /// Set impact parameter void setImpact(const Double_t& impact) { setB( impact ); } /// Set reaction plane angle void setPhi(const Double_t& phi) { fPhi = (Float_t)phi; } /// Set number of steps void setNumberOfSteps(const Int_t& nes) { fNes = ( ( nes > std::numeric_limits::max() ) ? std::numeric_limits::max() : (UShort_t)nes ); } /// Set number of steps void setNes(const Int_t& nes) { fNes = ( ( nes > std::numeric_limits::max() ) ? std::numeric_limits::max() : (UShort_t)nes ); } /// Set the current step number void setStepNr(const Int_t& stepNr) { fStepNr = ( ( stepNr > std::numeric_limits::max() ) ? std::numeric_limits::max() : (UShort_t)stepNr ); } /// Set time of the current step void setStepT(const Double_t& stepT) { fStepT = (Float_t)stepT; } /// Set time of the current step void setStepTime(const Double_t& time) { setStepT( time ); } /// Set comment void setComment(const char* comment) { fComment = comment; } void clear(); void removeAt(Int_t i); private: /// Event number UInt_t fEventNr; /// Impact parameter (fm) Float_t fB; /// Reaction plane angle Float_t fPhi; /// Number of event steps UShort_t fNes; // Event step number UShort_t fStepNr; /// Event step time Float_t fStepT; /// Generator-specific information TString fComment; ClassDef(UEvent, 5); }; #endif