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1 | #ifndef ALIMAGF_H | |
2 | #define ALIMAGF_H | |
3 | /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
4 | * See cxx source for full Copyright notice */ | |
5 | ||
6 | // | |
7 | // Interface between the TVirtualMagField and AliMagWrapCheb: wrapper to | |
8 | // the set of magnetic field data + Tosca parameterization by | |
9 | // Chebyshev polynomials | |
10 | // | |
11 | // Author: ruben.shahoyan@cern.ch | |
12 | // | |
13 | ||
14 | //#include <TGeoGlobalMagField.h> | |
15 | #include <TVirtualMagField.h> | |
16 | class AliMagWrapCheb; | |
17 | ||
18 | class AliMagF : public TVirtualMagField | |
19 | { | |
20 | public: | |
21 | enum BMap_t {k2kG, k5kG, k5kGUniform}; | |
22 | enum BeamType_t {kBeamTypeAA, kBeamTypepp, kNoBeamField}; | |
23 | enum PolarityConvention_t {kConvLHC,kConvDCS2008,kConvMap2005}; | |
24 | // | |
25 | AliMagF(); | |
26 | AliMagF(const char *name, const char* title, Int_t integ, | |
27 | Double_t factorSol=1., Double_t factorDip=1., | |
28 | Double_t fmax=15, BMap_t maptype = k5kG, | |
29 | const char* path="$(ALICE_ROOT)/data/maps/mfchebKGI_sym.root", | |
30 | BeamType_t btype=kBeamTypepp, Double_t benergy=7000.); | |
31 | AliMagF(const AliMagF& src); | |
32 | AliMagF& operator=(const AliMagF& src); | |
33 | virtual ~AliMagF(); | |
34 | // | |
35 | virtual void Field(const Double_t *x, Double_t *b); | |
36 | void GetTPCInt(const Double_t *xyz, Double_t *b) const; | |
37 | void GetTPCIntCyl(const Double_t *rphiz, Double_t *b) const; | |
38 | Double_t GetBz(const Double_t *xyz) const; | |
39 | // | |
40 | AliMagWrapCheb* GetMeasuredMap() const {return fMeasuredMap;} | |
41 | // | |
42 | // former AliMagF methods or their aliases | |
43 | void SetFactorSol(Float_t fc=1.); | |
44 | void SetFactorDip(Float_t fc=1.); | |
45 | Double_t GetFactorSol() const; | |
46 | Double_t GetFactorDip() const; | |
47 | Double_t Factor() const {return GetFactorSol();} | |
48 | Bool_t IsUniform() const {return fMapType == k5kGUniform;} | |
49 | // | |
50 | void MachineField(const Double_t *x, Double_t *b) const; | |
51 | BMap_t GetMapType() const {return fMapType;} | |
52 | BeamType_t GetBeamType() const {return fBeamType;} | |
53 | Double_t GetBeamEnergy() const {return fBeamEnergy;} | |
54 | Double_t Max() const {return fMax;} | |
55 | Int_t Integ() const {return fInteg;} | |
56 | Int_t PrecInteg() const {return fPrecInteg;} | |
57 | Double_t SolenoidField() const {return fFactorSol*fSolenoid;} | |
58 | // | |
59 | Char_t* GetDataFileName() const {return (Char_t*)fParNames.GetName();} | |
60 | Char_t* GetParamName() const {return (Char_t*)fParNames.GetTitle();} | |
61 | void SetDataFileName(const Char_t* nm) {fParNames.SetName(nm);} | |
62 | void SetParamName(const Char_t* nm) {fParNames.SetTitle(nm);} | |
63 | // | |
64 | Bool_t LoadParameterization(); | |
65 | static Int_t GetPolarityConvention() {return Int_t(fgkPolarityConvention);} | |
66 | // | |
67 | protected: | |
68 | // not supposed to be changed during the run, set only at the initialization via constructor | |
69 | void InitMachineField(BeamType_t btype, Double_t benergy); | |
70 | void SetBeamType(BeamType_t type) {fBeamType = type;} | |
71 | void SetBeamEnergy(Float_t energy) {fBeamEnergy = energy;} | |
72 | // | |
73 | protected: | |
74 | AliMagWrapCheb* fMeasuredMap; //! Measured part of the field map | |
75 | BMap_t fMapType; // field map type | |
76 | Double_t fSolenoid; // Solenoid field setting | |
77 | BeamType_t fBeamType; // Beam type: A-A (fBeamType=0) or p-p (fBeamType=1) | |
78 | Double_t fBeamEnergy; // Beam energy in GeV | |
79 | // | |
80 | Int_t fInteg; // Default integration method as indicated in Geant | |
81 | Int_t fPrecInteg; // Alternative integration method, e.g. for higher precision | |
82 | Double_t fFactorSol; // Multiplicative factor for solenoid | |
83 | Double_t fFactorDip; // Multiplicative factor for dipole | |
84 | Double_t fMax; // Max Field as indicated in Geant | |
85 | Bool_t fDipoleOFF; // Dipole ON/OFF flag | |
86 | // | |
87 | Double_t fQuadGradient; // Gradient field for inner triplet quadrupoles | |
88 | Double_t fDipoleField; // Field value for D1 and D2 dipoles | |
89 | Double_t fCCorrField; // Side C 2nd compensator field | |
90 | Double_t fACorr1Field; // Side A 1st compensator field | |
91 | Double_t fACorr2Field; // Side A 2nd compensator field | |
92 | // | |
93 | TNamed fParNames; // file and parameterization loadad | |
94 | // | |
95 | static const Double_t fgkSol2DipZ; // conventional Z of transition from L3 to Dipole field | |
96 | static const UShort_t fgkPolarityConvention; // convention for the mapping of the curr.sign on main component sign | |
97 | // | |
98 | ClassDef(AliMagF, 2) // Class for all Alice MagField wrapper for measured data + Tosca parameterization | |
99 | }; | |
100 | ||
101 | ||
102 | #endif |