Changes in external/TrackCovariance/SolTrack.h [170a11d:ebf40fd] in git
- File:
-
- 1 edited
Legend:
- Unmodified
- Added
- Removed
-
external/TrackCovariance/SolTrack.h
r170a11d rebf40fd 1 // 1 2 #ifndef G__SOLTRK_H 2 3 #define G__SOLTRK_H 3 4 // 4 5 #include <TMath.h> 5 6 #include <TVector3.h> 6 7 #include <TMatrixDSym.h> 7 8 class SolGeom; 9 8 #include "SolGeom.h" 9 #include "TrkUtil.h" 10 #include <TGraph.h> 11 // 12 // 10 13 // Class to store track information 11 14 // Assumes that the geometry has been initialized 12 class SolTrack{ 13 // Track handling class 14 // Assume tracks originate from (0,0) for the time being 15 // 16 class SolTrack: public TrkUtil 17 { 18 // 19 // Track handling class 20 // Assume tracks originate from (0,0) for the time being 21 // 15 22 private: 16 Int_t fNl; // Actual number of layers 17 SolGeom *fG; // Geometry 18 Double_t fp[3]; // px, py, pz momentum 19 Double_t fx[3]; // x, y, z track origin 20 Double_t fpar[5]; // D, phi0, C, z0, cot(theta) 21 22 TMatrixDSym fCov; // Full covariance matrix 23 23 Int_t fNl; // Actual number of layers 24 SolGeom *fG; // Geometry 25 Double_t fp[3]; // px, py, pz momentum 26 Double_t fx[3]; // x, y, z track origin 27 Double_t fpar[5]; // D, phi0, C, z0, cot(theta) 28 // 29 TMatrixDSym fCov; // Full covariance matrix 30 // 31 // 24 32 public: 25 // Constructors 26 SolTrack(Double_t *x, Double_t *p, SolGeom *G); 33 // 34 // Constructors 35 SolTrack(Double_t *x, Double_t *p, SolGeom *G); 27 36 SolTrack(TVector3 x, TVector3 p, SolGeom* G); 28 SolTrack(Double_t D, Double_t phi0, Double_t C, Double_t z0, Double_t ct, SolGeom *G); 29 // Destructor 30 ~SolTrack(); 31 // Accessors 32 // Position (at minimum approach) 33 Double_t x() { return fx[0]; } 34 Double_t y() { return fx[1]; } 35 Double_t z() { return fx[2]; } 36 // Momentum (at minimum approach) 37 Double_t px() { return fp[0]; } 38 Double_t py() { return fp[1]; } 39 Double_t pz() { return fp[2]; } 40 Double_t pt() { return TMath::Sqrt(fp[0] * fp[0] + fp[1] * fp[1]); } 41 Double_t p() { return TMath::Sqrt(fp[0] * fp[0] + fp[1] * fp[1] + fp[2] * fp[2]); } 42 // Track parameters 43 Double_t D() { return fpar[0]; } 44 Double_t phi0() { return fpar[1]; } 45 Double_t C() { return fpar[2]; } 46 Double_t z0() { return fpar[3]; } 47 Double_t ct() { return fpar[4]; } 48 // Covariance 49 TMatrixDSym Cov() { return fCov; } 50 // Track parameter covariance calculation 51 void CovCalc(Bool_t Res, Bool_t MS); 52 // Parameter errors 53 Double_t s_D() { return TMath::Sqrt(fCov(0, 0)); } 54 Double_t s_phi0() { return TMath::Sqrt(fCov(1, 1)); } 55 Double_t s_C() { return TMath::Sqrt(fCov(2, 2)); } 56 Double_t s_pt() { return 2 * s_C()*pt() / (0.2998*fG->B()); } // Dpt/pt 57 Double_t s_z0() { return TMath::Sqrt(fCov(3, 3)); } 58 Double_t s_ct() { return TMath::Sqrt(fCov(4, 4)); } 59 // Track hit management 60 Int_t nHit(); 61 Int_t nmHit(); 62 Bool_t HitLayer(Int_t Layer, Double_t &R, Double_t &phi, Double_t &zz); 63 Int_t HitList(Int_t *&ihh, Double_t *&rhh, Double_t *&zhh); 64 Int_t HitListXYZ(Int_t *&ihh, Double_t *&Xh, Double_t *&Yh, Double_t *&Zh); 65 66 // Make normalized matrix positive definite 67 TMatrixDSym MakePosDef(TMatrixDSym NormMat); 37 SolTrack(Double_t D, Double_t phi0, Double_t C, Double_t z0, Double_t ct, SolGeom *G); 38 // Destructor 39 ~SolTrack(); 40 // Accessors 41 // Position (at minimum approach) 42 Double_t x() { return fx[0]; } 43 Double_t y() { return fx[1]; } 44 Double_t z() { return fx[2]; } 45 // Momentum (at minimum approach) 46 Double_t px() { return fp[0]; } 47 Double_t py() { return fp[1]; } 48 Double_t pz() { return fp[2]; } 49 Double_t pt() { return TMath::Sqrt(fp[0] * fp[0] + fp[1] * fp[1]); } 50 Double_t p() { return TMath::Sqrt(fp[0] * fp[0] + fp[1] * fp[1] + fp[2] * fp[2]); } 51 // Track parameters 52 Double_t D() { return fpar[0]; } 53 Double_t phi0() { return fpar[1]; } 54 Double_t C() { return fpar[2]; } 55 Double_t z0() { return fpar[3]; } 56 Double_t ct() { return fpar[4]; } 57 // Covariance 58 TMatrixDSym Cov() { return fCov; } 59 // Track parameter covariance calculation 60 void CovCalc(Bool_t Res, Bool_t MS); 61 // Parameter errors 62 Double_t s_D() { return TMath::Sqrt(fCov(0, 0)); } 63 Double_t s_phi0() { return TMath::Sqrt(fCov(1, 1)); } 64 Double_t s_C() { return TMath::Sqrt(fCov(2, 2)); } 65 Double_t s_pt() { return 2 * s_C()*pt() / (0.2998*fG->B()); } // Dpt/pt 66 Double_t s_z0() { return TMath::Sqrt(fCov(3, 3)); } 67 Double_t s_ct() { return TMath::Sqrt(fCov(4, 4)); } 68 // 69 // Track hit management 70 Int_t nHit(); 71 Int_t nmHit(); 72 Bool_t HitLayer(Int_t Layer, Double_t &R, Double_t &phi, Double_t &zz); 73 Int_t HitList(Int_t *&ihh, Double_t *&rhh, Double_t *&zhh); 74 Int_t HitListXYZ(Int_t *&ihh, Double_t *&Xh, Double_t *&Yh, Double_t *&Zh); 75 // 76 // Track graph 77 TGraph *TrkPlot(); // Graph with R-z plot of track trajectory 78 // 79 // Make normalized matrix positive definite 80 TMatrixDSym MakePosDef(TMatrixDSym NormMat); 68 81 }; 82 // 69 83 #endif
Note:
See TracChangeset
for help on using the changeset viewer.