AliMagF();
AliMagF(const char *name, const char *title, Int_t integ,
Float_t factor = 1., Float_t fmax = 10.);
+ AliMagF(const AliMagF& maps);
virtual ~AliMagF() {}
- virtual void Field(Float_t *x, Float_t *b) const;
- virtual Int_t Type() const {return fType;}
+ AliMagF& operator=(const AliMagF& rhs);
+ virtual void Field(Float_t *x, Float_t *b) const;
+ virtual void GetTPCInt(Float_t *xyz, Float_t *b) const;
+ virtual void GetTPCIntCyl(Float_t *rphiz, Float_t *b) const;
+ virtual Int_t Type() const {return fType;}
virtual Float_t Max() const {return fMax;}
- virtual Int_t Map() const {return fMap;}
- virtual Int_t Integ() const {return fInteg;}
+ virtual Int_t Map() const {return fMap;}
+ virtual Int_t Integ() const {return fInteg;}
+ virtual Int_t PrecInteg() const {return fPrecInteg;}
virtual Float_t Factor() const {return fFactor;}
- virtual void ReadField() {}
- virtual void SetDebug(Int_t level=0) {fDebug=level;}
+ virtual void ReadField() {}
virtual Float_t SolenoidField() const {return 2.;}
- virtual Int_t GetDebug() const {return fDebug;}
-
-protected:
- Int_t fMap; // Field Map identifier
- Int_t fType; // Mag Field type
- Int_t fInteg; // Integration method as indicated in Geant
- Float_t fFactor; // Multiplicative factor
- Float_t fMax; // Max Field as indicated in Geant
- Int_t fDebug; // Debug flag
-
- ClassDef(AliMagF,1) //Base class for all Alice MagField
+ virtual void SetPrecInteg(Int_t integ);
+ virtual void SetReadField(Bool_t flag = kTRUE) {fReadField = flag;}
+ protected:
+ Int_t fMap; // Field Map identifier
+ Int_t fType; // Mag Field type
+ Int_t fInteg; // Default integration method as indicated in Geant
+ Int_t fPrecInteg; // Alternative integration method, e.g. for higher precision
+ Float_t fFactor; // Multiplicative factor
+ Float_t fMax; // Max Field as indicated in Geant
+ Bool_t fReadField; // Flag for reading the field from file (if available)
+ ClassDef(AliMagF,5) //Base class for all Alice MagField
};
#endif