fTransform = transformer;
}
+ /// Set flag for Magnetic field On/Off
+ void SetBFieldOn(Bool_t bBFieldOn) {
+ fBFieldOn = bBFieldOn;
+ }
void FixStation(Int_t iSt);
+ void FixHalfSpectrometer(Bool_t *bStOnOff, Bool_t *bSpecLROnOff);
void AllowVariations(Bool_t *bStOnOff);
void SetNonLinear(Bool_t *bStOnOff, Bool_t *bVarXYT);
void AddConstraints(Bool_t *bStOnOff, Bool_t *bVarXYT);
- void AddConstraints(Bool_t *bStOnOff, Bool_t *bVarXYT, Bool_t *bDetTLBR);
+ void AddConstraints(Bool_t *bStOnOff, Bool_t *bVarXYT, Bool_t *bDetTLBR, Bool_t *bSpecLROnOff);
void ResetConstraints();
void FixParameter(Int_t param, Double_t value);
AliMUONAlignment& operator = (const AliMUONAlignment& right);
void Init(Int_t nGlobal, Int_t nLocal, Int_t nStdDev);
- void ConstrainT(Int_t lDetElem, Int_t lCh, Double_t *lConstraintT, Int_t iVar);
- void ConstrainL(Int_t lDetElem, Int_t lCh, Double_t *lConstraintL, Int_t iVar);
- void ConstrainB(Int_t lDetElem, Int_t lCh, Double_t *lConstraintB, Int_t iVar);
- void ConstrainR(Int_t lDetElem, Int_t lCh, Double_t *lConstraintR, Int_t iVar);
+ void ConstrainT(Int_t lDetElem, Int_t lCh, Double_t *lConstraintT, Int_t iVar, Double_t lWeight=1.0);
+ void ConstrainL(Int_t lDetElem, Int_t lCh, Double_t *lConstraintL, Int_t iVar, Double_t lWeight=1.0);
+ void ConstrainB(Int_t lDetElem, Int_t lCh, Double_t *lConstraintB, Int_t iVar, Double_t lWeight=1.0);
+ void ConstrainR(Int_t lDetElem, Int_t lCh, Double_t *lConstraintR, Int_t iVar, Double_t lWeight=1.0);
void FillDetElemData();
void FillRecPointData();
void FillTrackParamData();
Double_t fConstraintXT[468]; ///< Array for constraint equation X Top half
Double_t fConstraintYT[468]; ///< Array for constraint equation Y Top half
Double_t fConstraintPT[468]; ///< Array for constraint equation P Top half
+ Double_t fConstraintXZT[468]; ///< Array for constraint equation X vs Z Top half
+ Double_t fConstraintYZT[468]; ///< Array for constraint equation Y vs Z Top half
+ Double_t fConstraintPZT[468]; ///< Array for constraint equation P vs Z Top half
+ Double_t fConstraintXYT[468]; ///< Array for constraint equation X vs Y Top half
+ Double_t fConstraintYYT[468]; ///< Array for constraint equation Y vs Y Top half
+ Double_t fConstraintPYT[468]; ///< Array for constraint equation P vs Y Top half
Double_t fConstraintXB[468]; ///< Array for constraint equation X Bottom half
Double_t fConstraintYB[468]; ///< Array for constraint equation Y Bottom half
Double_t fConstraintPB[468]; ///< Array for constraint equation P Bottom half
+ Double_t fConstraintXZB[468]; ///< Array for constraint equation X vs Z Bottom half
+ Double_t fConstraintYZB[468]; ///< Array for constraint equation Y vs Z Bottom half
+ Double_t fConstraintPZB[468]; ///< Array for constraint equation P vs Z Bottom half
+ Double_t fConstraintXYB[468]; ///< Array for constraint equation X vs Y Bottom half
+ Double_t fConstraintYYB[468]; ///< Array for constraint equation Y vs Y Bottom half
+ Double_t fConstraintPYB[468]; ///< Array for constraint equation P vs Y Bottom half
Double_t fConstraintXR[468]; ///< Array for constraint equation X Right half
Double_t fConstraintYR[468]; ///< Array for constraint equation Y Right half
Double_t fConstraintPR[468]; ///< Array for constraint equation P Right half
+ Double_t fConstraintXZR[468]; ///< Array for constraint equation X vs Z Right half
+ Double_t fConstraintYZR[468]; ///< Array for constraint equation Y vs Z Right half
+ Double_t fConstraintPZR[468]; ///< Array for constraint equation P vs Z Right half
+ Double_t fConstraintXYR[468]; ///< Array for constraint equation X vs Y Right half
+ Double_t fConstraintYYR[468]; ///< Array for constraint equation Y vs Y Right half
+ Double_t fConstraintPYR[468]; ///< Array for constraint equation P vs Y Right half
Double_t fConstraintXL[468]; ///< Array for constraint equation X Left half
Double_t fConstraintYL[468]; ///< Array for constraint equation Y Left half
Double_t fConstraintPL[468]; ///< Array for constraint equation P Left half
+ Double_t fConstraintXZL[468]; ///< Array for constraint equation X vs Z Left half
+ Double_t fConstraintYZL[468]; ///< Array for constraint equation Y vs Z Left half
+ Double_t fConstraintPZL[468]; ///< Array for constraint equation P vs Z Left half
+ Double_t fConstraintXYL[468]; ///< Array for constraint equation X vs Y Left half
+ Double_t fConstraintYYL[468]; ///< Array for constraint equation Y vs Y Left half
+ Double_t fConstraintPYL[468]; ///< Array for constraint equation P vs Y Left half
Double_t fConstraintX3[468]; ///< Array for constraint equation St3 X
Double_t fConstraintY3[468]; ///< Array for constraint equation St3 Y
Double_t fConstraintX4[468]; ///< Array for constraint equation St4 X
static Int_t fgNSt; ///< Number tracking stations
static Int_t fgNCh; ///< Number tracking chambers
+ static Int_t fgNTrkMod; ///< Number of tracking modules (4 ch + 6*2 half-ch)
static Int_t fgNParCh; ///< Number of degrees of freedom per chamber
static Int_t fgNDetElem; ///< Total number of detection elements
static Int_t fgNDetElemCh[10]; ///< Number of detection elements per chamber
static Int_t fgSNDetElemCh[10];///< Sum of detection elements up to this chamber (inc)
-ClassDef(AliMUONAlignment, 0)};
+ClassDef(AliMUONAlignment, 0) //Class for alignment of muon spectrometer
+};
#endif