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#include <TrkLevel1.h> |
#include <TrkLevel1.h> |
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// z-coordinate of track state-vector reference-plane |
// z-coordinate of track state-vector reference-plane |
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#define ZINI 23.5 |
#define ZINI 23.5 ///< z-coordinate of track state-vector reference-plane. |
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// (mechanical) z-coordinate of the tracker planes |
// (mechanical) z-coordinate of the tracker planes |
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#define ZTRK6 -22.22 |
#define ZTRK6 -22.22 |
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#define ZTRK5 -13.31 |
#define ZTRK5 -13.31 |
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Trajectory(); |
Trajectory(); |
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Trajectory(int n); |
Trajectory(int n); |
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Trajectory(int n, float* pz); |
Trajectory(int n, float* pz); |
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~Trajectory(){Delete();}; |
~Trajectory(){Delete();} |
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void Dump(); |
void Dump(); |
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void Delete(); |
void Delete(); |
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int DoTrack(float* al, float zini); |
int DoTrack(float* al, float zini); |
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int DoTrack(float* al){ return DoTrack(al,23.5); }; |
int DoTrack(float* al){ return DoTrack(al,23.5); } |
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int DoTrack2(float* al, float zini); |
int DoTrack2(float* al, float zini); |
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int DoTrack2(float* al){ return DoTrack2(al,23.5); }; |
int DoTrack2(float* al){ return DoTrack2(al,23.5); } |
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float GetLength(){float l=0; for(int i=0; i<npoint;i++)l=l+tl[i]; return l;}; |
float GetLength(){float l=0; for(int i=0; i<npoint;i++)l=l+tl[i]; return l;} |
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float GetLength(int,int); |
float GetLength(int,int); |
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ClassDef(Trajectory,3); |
ClassDef(Trajectory,3); |
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int seqno; ///<stored track sequential number |
int seqno; ///<stored track sequential number |
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int image; ///<sequential number of track-image |
int image; ///<sequential number of track-image |
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float al[5]; ///<TRACK STATE VECTOR |
/*! @brief Track state vector. |
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* |
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* This is the track state vector on reference plane defined by #ZINI. |
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* al[0]: X coordinate [cm] |
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* al[1]: Y coordinate [cm] |
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* al[2]: sin theta (altitude; theta = 0 is normal incidence) |
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* al[3]: phi (azimuth; phi = 0 is negative X axis) |
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* al[4]: deflection (with sign) [1/GV] |
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* |
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*/ |
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float al[5]; |
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float coval[5][5]; ///<covariance matrix |
float coval[5][5]; ///<covariance matrix |
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int xgood[6]; ///<cluster id for x-view (0 = view not included in the fit) |
int xgood[6]; ///<cluster id for x-view (0 = view not included in the fit) |
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int ygood[6]; ///<cluster id for y-view (0 = view not included in the fit) |
int ygood[6]; ///<cluster id for y-view (0 = view not included in the fit) |
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TrkTrack(); |
TrkTrack(); |
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TrkTrack(const TrkTrack&); |
TrkTrack(const TrkTrack&); |
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~TrkTrack(){ Delete(); }; |
~TrkTrack(){ Delete(); } |
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void Dump(); |
void Dump(); |
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void Clear(); |
void Clear(); |
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void Clear(Option_t *option){Clear();}; |
void Clear(Option_t *option){Clear();} |
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void Delete(); |
void Delete(); |
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void Copy(TrkTrack&); |
void Copy(TrkTrack&); |
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// void Set(); |
// void Set(); |
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Bool_t HasImage(){return !(image==-1);} ///< Returns true if the track has an image |
Bool_t HasImage(){return !(image==-1);} ///< Returns true if the track has an image |
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int DoTrack(Trajectory* t); ///< Evaluates the trajectory in the apparatus. |
int DoTrack(Trajectory* t); ///< Evaluates the trajectory in the apparatus. |
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int DoTrack2(Trajectory* t); ///< Evaluates the trajectory in the apparatus. |
int DoTrack2(Trajectory* t); ///< Evaluates the trajectory in the apparatus. |
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float BdL(){return 0;}; ///< Evaluates the integral of B*dL along the track. |
float BdL(){return 0;} ///< Evaluates the integral of B*dL along the track. |
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Int_t GetNX(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)XGood(i); return n;}; |
Int_t GetNX(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)XGood(i); return n;} |
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Int_t GetNY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)YGood(i); return n;}; |
Int_t GetNY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)YGood(i); return n;} |
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Int_t GetNXY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)YGood(i)*XGood(i); return n;}; |
Int_t GetNXY(){Int_t n=0; for(Int_t i=0; i<6; i++)n+=(Int_t)YGood(i)*XGood(i); return n;} |
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Int_t GetNtot(){return GetNX()+GetNY();}; |
Int_t GetNtot(){return GetNX()+GetNY();} |
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Float_t GetRigidity(); |
Float_t GetRigidity(); |
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Float_t GetDeflection(); |
Float_t GetDeflection(); |
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Bool_t IsSaturated(int,int); |
Bool_t IsSaturated(int,int); |
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void SetGood(int *xg, int *yg); |
void SetGood(int *xg, int *yg); |
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void LoadField(TString s); |
void LoadField(TString s); |
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void Fit(double pfixed, int& fail, int iprint, int froml1); |
void Fit(double pfixed, int& fail, int iprint, int froml1); |
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void Fit(double pfixed, int& fail, int iprint){ Fit(pfixed,fail,iprint,0); }; |
void Fit(double pfixed, int& fail, int iprint){ Fit(pfixed,fail,iprint,0); } |
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void FitReset(); |
void FitReset(); |
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void SetTrackingMode(int trackmode); |
void SetTrackingMode(int trackmode); |
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void SetPrecisionFactor(double fact); |
void SetPrecisionFactor(double fact); |
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void SetDeltaB(int id, double db); |
void SetDeltaB(int id, double db); |
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Bool_t IsInsideCavity(float); |
Bool_t IsInsideCavity(float); |
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Bool_t IsInsideCavity(){ return IsInsideCavity(0.); }; |
Bool_t IsInsideCavity(){ return IsInsideCavity(0.); } |
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Bool_t IsInsideAcceptance(float); |
Bool_t IsInsideAcceptance(float); |
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Bool_t IsInsideAcceptance(){ return IsInsideAcceptance(0.); }; |
Bool_t IsInsideAcceptance(){ return IsInsideAcceptance(0.); } |
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Bool_t IsInsideGFSurface(const char*,float); |
Bool_t IsInsideGFSurface(const char*,float); |
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Bool_t IsInsideGFSurface(const char* surf){ return IsInsideGFSurface(surf,0.); }; |
Bool_t IsInsideGFSurface(const char* surf){ return IsInsideGFSurface(surf,0.); } |
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Bool_t EvaluateClusterPositions(); |
Bool_t EvaluateClusterPositions(); |
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void FillMiniStruct(cMini2track&); |
void FillMiniStruct(cMini2track&); |
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void SetFromMiniStruct(cMini2track*); |
void SetFromMiniStruct(cMini2track*); |
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void FillMiniStruct(){ extern cMini2track track_; FillMiniStruct(track_); }; |
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void SetFromMiniStruct(){extern cMini2track track_; SetFromMiniStruct(&track_);}; |
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Int_t GetClusterX_ID(int ip); |
Int_t GetClusterX_ID(int ip); |
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Int_t GetClusterY_ID(int ip); |
Int_t GetClusterY_ID(int ip); |
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Int_t GetLadder(int ip); |
Int_t GetLadder(int ip); |
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Int_t GetSensor(int ip); |
Int_t GetSensor(int ip); |
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Bool_t XGood(int ip){ return GetClusterX_ID(ip)!=-1; }; |
Bool_t XGood(int ip){ return GetClusterX_ID(ip)!=-1; } |
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Bool_t YGood(int ip){ return GetClusterY_ID(ip)!=-1; }; |
Bool_t YGood(int ip){ return GetClusterY_ID(ip)!=-1; } |
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void ResetXGood(int ip){ xgood[ip]=0; }; |
void ResetXGood(int ip){ xgood[ip]=0; } |
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void ResetYGood(int ip){ ygood[ip]=0; }; |
void ResetYGood(int ip){ ygood[ip]=0; } |
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/* void SetXGood(int ip, int clid, int is); */ |
/* void SetXGood(int ip, int clid, int is); */ |
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/* void SetYGood(int ip, int clid, int is); */ |
/* void SetYGood(int ip, int clid, int is); */ |
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void SetXGood(int ip, int clid, int il, int is, bool bad); |
void SetXGood(int ip, int clid, int il, int is, bool bad); |
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void SetYGood(int ip, int clid, int il, int is, bool bad); |
void SetYGood(int ip, int clid, int il, int is, bool bad); |
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void SetXGood(int ip, int clid, int il, int is){ SetXGood(ip,clid,il,is,false); }; |
void SetXGood(int ip, int clid, int il, int is){ SetXGood(ip,clid,il,is,false); } |
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void SetYGood(int ip, int clid, int il, int is){ SetYGood(ip,clid,il,is,false); }; |
void SetYGood(int ip, int clid, int il, int is){ SetYGood(ip,clid,il,is,false); } |
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Bool_t BadClusterX(int ip){ return IsBad(ip,0); }; |
Bool_t BadClusterX(int ip){ return IsBad(ip,0); } |
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Bool_t BadClusterY(int ip){ return IsBad(ip,1); }; |
Bool_t BadClusterY(int ip){ return IsBad(ip,1); } |
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Bool_t SaturatedClusterX(int ip){ return IsSaturated(ip,0); }; |
Bool_t SaturatedClusterX(int ip){ return IsSaturated(ip,0); } |
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Bool_t SaturatedClusterY(int ip){ return IsSaturated(ip,1); }; |
Bool_t SaturatedClusterY(int ip){ return IsSaturated(ip,1); } |
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Int_t GetClusterX_Multiplicity(int ip){ return (Int_t)(multmaxx[ip]/10000); }; |
Int_t GetClusterX_Multiplicity(int ip){ return (Int_t)(multmaxx[ip]/10000); } |
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Int_t GetClusterY_Multiplicity(int ip){ return (Int_t)(multmaxy[ip]/10000); }; |
Int_t GetClusterY_Multiplicity(int ip){ return (Int_t)(multmaxy[ip]/10000); } |
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Int_t GetClusterX_MaxStrip(int ip){ return (Int_t)(multmaxx[ip]%10000); }; |
Int_t GetClusterX_MaxStrip(int ip){ return (Int_t)(multmaxx[ip]%10000); } |
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Int_t GetClusterY_MaxStrip(int ip){ return (Int_t)(multmaxy[ip]%10000); }; |
Int_t GetClusterY_MaxStrip(int ip){ return (Int_t)(multmaxy[ip]%10000); } |
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Float_t GetClusterX_Seed(int ip){ return seedx[ip]; }; |
Float_t GetClusterX_Seed(int ip){ return seedx[ip]; } |
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Float_t GetClusterY_Seed(int ip){ return seedy[ip]; }; |
Float_t GetClusterY_Seed(int ip){ return seedy[ip]; } |
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/* Float_t GetClusterX_oordinatePU(int ip); */ |
/* Float_t GetClusterX_oordinatePU(int ip); */ |
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/* Float_t GetClusterY_CoordinatePU(int ip); */ |
/* Float_t GetClusterY_CoordinatePU(int ip); */ |
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Int_t GetNColumns(); |
Int_t GetNColumns(); |
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Float_t GetDEDX_max(int ip, int iv); |
Float_t GetDEDX_max(int ip, int iv); |
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Float_t GetDEDX_max(int iv){ return GetDEDX_max(-1,iv); }; |
Float_t GetDEDX_max(int iv){ return GetDEDX_max(-1,iv); } |
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Float_t GetDEDX_max(){ return GetDEDX_max(-1,-1); }; |
Float_t GetDEDX_max(){ return GetDEDX_max(-1,-1); } |
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Float_t GetDEDX_min(int ip, int iv); |
Float_t GetDEDX_min(int ip, int iv); |
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Float_t GetDEDX_min(int iv){ return GetDEDX_min(-1,iv); }; |
Float_t GetDEDX_min(int iv){ return GetDEDX_min(-1,iv); } |
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Float_t GetDEDX_min(){ return GetDEDX_min(-1,-1); }; |
Float_t GetDEDX_min(){ return GetDEDX_min(-1,-1); } |
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Float_t GetResidual_max(int ip, int iv); |
Float_t GetResidual_max(int ip, int iv); |
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Float_t GetResidual_max(int iv){ return GetResidual_max(-1,iv); }; |
Float_t GetResidual_max(int iv){ return GetResidual_max(-1,iv); } |
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Float_t GetResidual_max(){ return GetResidual_max(-1,-1); }; |
Float_t GetResidual_max(){ return GetResidual_max(-1,-1); } |
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Float_t GetResidual_av(int ip, int iv); |
Float_t GetResidual_av(int ip, int iv); |
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Float_t GetResidual_av(int iv){ return GetResidual_av(-1,iv); }; |
Float_t GetResidual_av(int iv){ return GetResidual_av(-1,iv); } |
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Float_t GetResidual_av(){ return GetResidual_av(-1,-1); }; |
Float_t GetResidual_av(){ return GetResidual_av(-1,-1); } |
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Int_t GetClusterX_Multiplicity_max(); |
Int_t GetClusterX_Multiplicity_max(); |
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Int_t GetClusterX_Multiplicity_min(); |
Int_t GetClusterX_Multiplicity_min(); |
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Float_t GetClusterX_Seed_min(); |
Float_t GetClusterX_Seed_min(); |
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Float_t GetClusterY_Seed_min(); |
Float_t GetClusterY_Seed_min(); |
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TrkTrack* GetTrkTrack(){return this;}; |
TrkTrack* GetTrkTrack(){return this;} |
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friend class TrkLevel2; |
friend class TrkLevel2; |
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TrkSinglet(); |
TrkSinglet(); |
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TrkSinglet(const TrkSinglet&); |
TrkSinglet(const TrkSinglet&); |
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~TrkSinglet(){Delete();}; |
~TrkSinglet(){Delete();} |
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void Dump(); |
void Dump(); |
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void Clear(); |
void Clear(); |
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void Clear(Option_t *option){Clear();}; |
void Clear(Option_t *option){Clear();} |
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void Delete(){Clear();}; |
void Delete(){Clear();}; |
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Float_t GetSignal(){return fabs(sgnl);} |
Float_t GetSignal(){return fabs(sgnl);} |
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Bool_t IsSaturated(){return (sgnl<0); }; |
Bool_t IsSaturated(){return (sgnl<0); } |
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Bool_t IsBad() { return multmax<=0; }; |
Bool_t IsBad() { return multmax<=0; } |
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Int_t GetCluster_Multiplicity(){ return (Int_t)(abs(multmax)/10000); }; |
Int_t GetCluster_Multiplicity(){ return (Int_t)(abs(multmax)/10000); } |
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Int_t GetCluster_MaxStrip() { return (Int_t)(abs(multmax)%10000); }; |
Int_t GetCluster_MaxStrip() { return (Int_t)(abs(multmax)%10000); } |
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friend class TrkLevel2; |
friend class TrkLevel2; |
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TrkLevel2(); |
TrkLevel2(); |
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// TrkLevel2(cTrkLevel2 *); |
// TrkLevel2(cTrkLevel2 *); |
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~TrkLevel2(){Delete();}; |
~TrkLevel2(){Delete();} |
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void Clear(); |
void Clear(); |
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void Clear(Option_t *option){Clear();}; |
void Clear(Option_t *option){Clear();} |
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void Delete(); |
void Delete(); |
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void Set(); |
void Set(); |
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int UnpackError(){ for(int i=0; i<12; i++)if(!StatusCheck(i,0x12))return 1; return 0;}; |
int UnpackError(){ for(int i=0; i<12; i++)if(!StatusCheck(i,0x12))return 1; return 0;} |
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int ntrk() {return Track->GetEntries();} ///< number of stored track |
int ntrk() {return Track->GetEntries();} ///< number of stored track |
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int nclsx(){return SingletX->GetEntries();} ///< number of x singlets |
int nclsx(){return SingletX->GetEntries();} ///< number of x singlets |
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void Dump(); |
void Dump(); |
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void SetFromLevel2Struct(cTrkLevel2 *, TrkLevel1 *); |
void SetFromLevel2Struct(cTrkLevel2 *, TrkLevel1 *); |
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void SetFromLevel2Struct(cTrkLevel2 *s2){ SetFromLevel2Struct(s2, NULL); }; |
void SetFromLevel2Struct(cTrkLevel2 *s2){ SetFromLevel2Struct(s2, NULL); } |
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void SetFromLevel2Struct(TrkLevel1 *l1) { SetFromLevel2Struct(&level2event_, l1); }; |
void SetFromLevel2Struct(TrkLevel1 *l1) { SetFromLevel2Struct(&level2event_, l1); } |
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void SetFromLevel2Struct() { SetFromLevel2Struct(&level2event_); }; |
void SetFromLevel2Struct() { SetFromLevel2Struct(&level2event_); } |
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void GetLevel2Struct(cTrkLevel2 *) const; |
void GetLevel2Struct(cTrkLevel2 *) const; |
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void LoadField(TString); |
void LoadField(TString); |
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float GetBX(float* v){return TrkParams::GetBX(v);};///< Bx (kGauss) |
float GetBX(float* v){return TrkParams::GetBX(v);} ///< Bx (kGauss) |
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float GetBY(float* v){return TrkParams::GetBY(v);};///< By (kGauss) |
float GetBY(float* v){return TrkParams::GetBY(v);} ///< By (kGauss) |
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float GetBZ(float* v){return TrkParams::GetBZ(v);};///< Bz (kGauss) |
float GetBZ(float* v){return TrkParams::GetBZ(v);} ///< Bz (kGauss) |
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Float_t GetZTrk(Int_t); |
Float_t GetZTrk(Int_t); |
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Float_t GetXTrkLeft(){return XMAGNLOW;}; |
Float_t GetXTrkLeft(){return XMAGNLOW;} |
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Float_t GetXTrkRight(){return XMAGNHIGH;}; |
Float_t GetXTrkRight(){return XMAGNHIGH;} |
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Float_t GetYTrkLeft(){return YMAGNLOW;}; |
Float_t GetYTrkLeft(){return YMAGNLOW;} |
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Float_t GetYTrkRight(){return YMAGNHIGH;}; |
Float_t GetYTrkRight(){return YMAGNHIGH;} |
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Bool_t IsMaskedVK(int,int); |
Bool_t IsMaskedVK(int,int); |
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Bool_t GetVKMask(int,int); |
Bool_t GetVKMask(int,int); |
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TrkSinglet *GetSingletY(int); |
TrkSinglet *GetSingletY(int); |
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TrkTrack *GetStoredTrack(int i); |
TrkTrack *GetStoredTrack(int i); |
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Int_t GetSeqNo(Int_t i) {return (((TrkTrack *)Track->At(i))->seqno);}; ///< Returns track sequential number |
Int_t GetSeqNo(Int_t i) {return (((TrkTrack *)Track->At(i))->seqno);} ///< Returns track sequential number |
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TRefArray *GetTracks_NFitSorted(); |
TRefArray *GetTracks_NFitSorted(); |
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TRefArray *GetTracks(){return this->GetTracks_NFitSorted();}; |
TRefArray *GetTracks(){return this->GetTracks_NFitSorted();} |
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Int_t GetNTracks(); |
Int_t GetNTracks(); |
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TrkTrack* GetTrack(int i); |
TrkTrack* GetTrack(int i); |
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TrkTrack* GetTrackImage(int i); |
TrkTrack* GetTrackImage(int i); |
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TrkLevel2* GetTrkLevel2(){return this;} |
TrkLevel2* GetTrkLevel2(){return this;} |
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TClonesArray* GetTrackArray(){return Track;};///< returns pointer to the track array |
TClonesArray* GetTrackArray(){return Track;}///< returns pointer to the track array |
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void StatusDump(int view); |
void StatusDump(int view); |
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Bool_t StatusCheck(int view, int flagmask); |
Bool_t StatusCheck(int view, int flagmask); |