[ff9fb2d9] | 1 | #ifndef G__SOLGEOM_H
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| 2 | #define G__SOLGEOM_H
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| 3 |
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[4cc778e] | 4 | #include <Rtypes.h>
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[ff9fb2d9] | 5 | #include <TString.h>
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| 6 |
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| 7 | // Class to create geometry for solenoid geometry
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| 8 |
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| 9 | class SolGeom{
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| 10 | //
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| 11 | // Units are m
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| 12 | //
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| 13 | private:
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| 14 | const Int_t fNlMax = 200; // Maximum number of layers
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| 15 |
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| 16 | // B field
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| 17 | Double_t fB; // B field in Tesla
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| 18 |
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| 19 | // Barrel layer properties
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| 20 | Int_t fNlay; // Total number of layers
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| 21 | Int_t fBlay; // Number of barrel layers
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| 22 | Int_t fFlay; // Number of forward/backward layers
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| 23 | Int_t fNm; // Nr. measurement layers
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| 24 | Int_t *ftyLay; // Layer type 1 = R (barrel) or 2 = z (forward/backward)
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| 25 | TString *fLyLabl; // Layer label
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| 26 | // Barrel: PIPE, VTXLOW, VTXHIGH, DCHCANI, DCH, DCHCANO, BSILWRP, MAG, BPRESH
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| 27 | // Fw/Bw: VTXDSK, DCHWALL, FSILWRP, FRAD, FPRESH
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| 28 | Double_t *fxMin; // Minimum dimension z for barrel or R for forward
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| 29 | Double_t *fxMax; // Maximum dimension z for barrel or R for forward
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| 30 | Double_t *frPos; // R/z location of layer
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| 31 | Double_t *fthLay; // Thickness (meters)
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| 32 | Double_t *frlLay; // Radiation length (meters)
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| 33 | Int_t *fnmLay; // Number of measurements in layers (1D or 2D)
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| 34 | Double_t *fstLayU; // Stereo angle (rad) - 0(pi/2) = axial(z) layer - Upper side
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| 35 | Double_t *fstLayL; // Stereo angle (rad) - 0(pi/2) = axial(z) layer - Lower side
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| 36 | Double_t *fsgLayU; // Resolution Upper side (meters) - 0 = no measurement
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| 37 | Double_t *fsgLayL; // Resolution Lower side (meters) - 0 = no measurement
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| 38 | Bool_t *fflLay; // measurement flag = T, scattering only = F
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| 39 |
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| 40 | public:
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| 41 | SolGeom();
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| 42 | ~SolGeom();
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| 43 |
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| 44 | void Read(const char *data);
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| 45 |
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| 46 | Double_t B() { return fB; }
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| 47 | Int_t Nl() { return fNlay; }
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| 48 | Int_t Nm() { return fNm; }
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| 49 | Int_t NBl() { return fBlay; }
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| 50 | TString lLabl(Int_t nlayer) { return fLyLabl[nlayer]; }
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| 51 | Int_t lTyp(Int_t nlayer) { return ftyLay[nlayer]; }
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| 52 | Double_t lxMin(Int_t nlayer) { return fxMin[nlayer]; }
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| 53 | Double_t lxMax(Int_t nlayer) { return fxMax[nlayer]; }
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| 54 | Double_t lPos(Int_t nlayer) { return frPos[nlayer]; }
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| 55 | Double_t lTh(Int_t nlayer) { return fthLay[nlayer]; }
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| 56 | Double_t lX0(Int_t nlayer) { return frlLay[nlayer]; }
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| 57 | Int_t lND(Int_t nlayer) { return fnmLay[nlayer]; }
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| 58 | Double_t lStU(Int_t nlayer) { return fstLayU[nlayer]; }
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| 59 | Double_t lStL(Int_t nlayer) { return fstLayL[nlayer]; }
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| 60 | Double_t lSgU(Int_t nlayer) { return fsgLayU[nlayer]; }
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| 61 | Double_t lSgL(Int_t nlayer) { return fsgLayL[nlayer]; }
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| 62 | Bool_t isMeasure(Int_t nlayer) { return fflLay[nlayer]; }
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| 63 | };
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| 64 |
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| 65 | #endif
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