/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
* See cxx source for full Copyright notice */
-/* $Id$ */
-
-
-// Author: ruben.shahoyan@cern.ch 20/03/2007
//
-///////////////////////////////////////////////////////////////////////////////////
-// //
-// Wrapper for the set of mag.field parameterizations by Chebyshev polinomials //
-// To obtain the field in cartesian coordinates/components use //
-// Field(float* xyz, float* bxyz); //
-// For cylindrical coordinates/components: //
-// FieldCyl(float* rphiz, float* brphiz) //
-// //
-// For the moment only the solenoid part is parameterized in the volume defined //
-// by R<500, -550<Z<550 cm //
-// //
-// The region R<423 cm, -343.3<Z<481.3 for 30kA and -343.3<Z<481.3 for 12kA //
-// is parameterized using measured data while outside the Tosca calculation //
-// is used (matched to data on the boundary of the measurements) //
-// //
-// If the querried point is outside the validity region no the return values //
-// for the field components are set to 0. //
-// //
-///////////////////////////////////////////////////////////////////////////////////
+// Interface between the AliMagWrapCheb and AliMagF: set of magnetic field data + Tosca
+// parameterization by Chebyshev polynomials
+//
+// Author: ruben.shahoyan@cern.ch
+//
+#include "AliMagFC.h"
+class AliMagWrapCheb;
-#include <TSystem.h>
-#include <TNamed.h>
-#include "AliCheb3D.h"
-class AliMagFCheb: public TNamed
+class AliMagFCheb : public AliMagFC
{
- public:
- AliMagFCheb();
- AliMagFCheb(const char* inputFile);
- AliMagFCheb(const AliMagFCheb &cheb);
- AliMagFCheb& operator= (const AliMagFCheb &cheb) {
- // Assignment operator
- cheb.Copy(*this);
- return *this;
- }
-
- ~AliMagFCheb();
- //
- void AddParamSol(AliCheb3D* param);
- void AddParamDip(AliCheb3D* param);
- void BuildTableSol();
- //
- Int_t GetNParamsSol() const {return fNParamsSol;}
- Int_t GetNSegZSol() const {return fNSegZSol;}
- Int_t GetNSegRSol(int iz) const {return iz<fNParamsSol ? fNSegRSol[iz]:0;}
- Int_t GetSegIDSol(int iz,int ir) const {return iz<fNParamsSol&&ir<fNSegRSol[iz] ? fSegZIdSol[iz]+ir:-1;}
- //
- Float_t GetMinZSol() const {return fMinZSol;}
- Float_t GetMaxZSol() const {return fMaxZSol;}
- Float_t GetMaxRSol() const {return fMaxRSol;}
- AliCheb3D* GetParamSol(Int_t ipar) const {return (AliCheb3D*)fParamsSol->UncheckedAt(ipar);}
- AliCheb3D* GetParamDip(Int_t ipar) const {return (AliCheb3D*)fParamsDip->UncheckedAt(ipar);}
- //
- void LoadData(const char* inpfile);
- //
- virtual void Print(Option_t * = "") const;
- //
- virtual void Field(Float_t *xyz, Float_t *b) const;
- virtual void FieldCyl(Float_t *rphiz, Float_t *b) const;
- //
- //
-#ifdef _INC_CREATION_ALICHEB3D_ // see AliCheb3D.h for explanation
- void SaveData(const char* outfile) const;
-#endif
+public:
+ enum constants {k2kG, k4kG, k5kG};
+ AliMagFCheb();
+ AliMagFCheb(const char *name, const char *title, Int_t integ,
+ Float_t factor=1, Float_t fmax=15, Int_t map = k2kG,
+ Bool_t dipoleON = kTRUE,
+ const char* path="$(ALICE_ROOT)/data/maps/mfchebKGI_sym.root");
+ AliMagFCheb(const AliMagFCheb& maps);
+ AliMagFCheb& operator=(const AliMagFCheb& maps);
+ virtual ~AliMagFCheb();
+ //
+ virtual void Field(const Float_t *x, Float_t *b) const;
+ virtual void Field(const Double_t *x, Double_t *b) const;
+ virtual void GetTPCInt(const Float_t *xyz, Float_t *b) const;
+ virtual void GetTPCIntCyl(const Float_t *rphiz, Float_t *b) const;
+ //
+ AliMagWrapCheb* GetMeasuredMap() const {return fMeasuredMap;}
+ void SetMeasuredMap(AliMagWrapCheb* parm);
+ virtual Float_t SolenoidField() const {return -Factor()*fSolenoid;}
//
protected:
- void Init0();
- virtual void FieldCylSol(Float_t *rphiz, Float_t *b) const;
- private:
- void Copy (TObject &cheb) const;
- //
- protected:
- //
- Int_t fNParamsSol; // Total number of parameterization pieces for Sol
- Int_t fNSegZSol; // Number of segments is Z
- //
- Int_t fNParamsDip; // Total number of parameterization pieces for dipole
- //
- Float_t* fSegZSol; //[fNSegZSol] upper boundaries of Z segments
- Float_t* fSegRSol; //[fNParamsSol] upper boundaries of R segments
- //
- Int_t* fNSegRSol; //[fNSegZSol] number of R segments for each Z segment
- Int_t* fSegZIdSol; //[fNSegZSol] Id of the first R segment of each Z segment in the fSegRSol...
- //
- Float_t fMinZSol; // Min Z of Sol parameterization (in CYL. coordinates)
- Float_t fMaxZSol; // Max Z of Sol parameterization (in CYL. coordinates)
- Float_t fMaxRSol; // Max R of Sol parameterization (in CYL. coordinates)
- //
- TObjArray* fParamsSol; // Parameterization pieces for Solenoid field
- TObjArray* fParamsDip; // Parameterization pieces for Dipole field
- //
- ClassDef(AliMagFCheb,1) // Wrapper class for the set of Chebishev parameterizations of Alice mag.field
- //
- };
-
+ AliMagWrapCheb* fMeasuredMap; // Measured part of the field map
+ Float_t fSolenoid; // Solenoid field setting
+ //
+ ClassDef(AliMagFCheb, 2) // Class for all Alice MagField wrapper for measured data + Tosca parameterization
+};
-//__________________________________________________________________________________________
-inline void AliMagFCheb::FieldCyl(Float_t *rphiz, Float_t *b) const
-{
- // compute field in Cylindircal coordinates
- if (rphiz[2]<GetMinZSol() || rphiz[2]>GetMaxZSol() || rphiz[0]>GetMaxRSol()) {for (int i=3;i--;) b[i]=0; return;}
- FieldCylSol(rphiz,b);
-}
#endif
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff