/// \ingroup rec
/// \class AliMUONClusterFinderAZ
/// \brief Cluster finder in MUON arm of ALICE
+///
+/// \author Alexander Zinchenko, JINR Dubna
class TH2D;
class TClonesArray;
class TMinuit;
-#include "TMatrixDfwd.h"
class AliMUONVGeometryDESegmentation;
class AliMUONPixel;
class AliMUONClusterDrawAZ;
#include "AliMUONClusterFinderVS.h"
+#include "TMatrixDfwd.h"
class AliMUONClusterFinderAZ : public AliMUONClusterFinderVS
{
Int_t GetNPads(Int_t cath) const { return fnPads[cath]; }
Int_t GetIJ(Int_t indx, Int_t iPad) const { return fPadIJ[indx][iPad]; }
Float_t GetXyq(Int_t indx, Int_t iPad) const { return fXyq[indx][iPad]; }
- Float_t GetZpad() { return fZpad; }
+ Float_t GetZpad() const { return fZpad; }
Bool_t GetUsed(Int_t cath, Int_t dig) const { return fUsed[cath][dig]; }
void SetUsed(Int_t cath, Int_t dig) { fUsed[cath][dig] = kTRUE; } // mark used digits
void SetUnused(Int_t cath, Int_t dig) { fUsed[cath][dig] = kFALSE; } // unmark digits
void SetReco(Int_t iReco) { fReco = iReco; } // set reco flag
void SetStart(Int_t iCath, Int_t iPad) { fCathBeg = iCath; fPadBeg[0] = fPadBeg[1] = 0; fPadBeg[fCathBeg] = iPad; } // start
-protected:
- AliMUONClusterFinderAZ(const AliMUONClusterFinderAZ& rhs);
- AliMUONClusterFinderAZ& operator=(const AliMUONClusterFinderAZ& rhs);
-
- private:
+private:
// Some constants
- static const Int_t fgkDim = 10000; // array size
- static const Double_t fgkCouplMin; // threshold on coupling
- static const Double_t fgkZeroSuppression; // average zero suppression value
- static const Double_t fgkSaturation; // average saturation level
-
- static AliMUONClusterFinderAZ* fgClusterFinder; // the ClusterFinderAZ instance
-
- Int_t fnPads[2]; // ! number of pads in the cluster on 2 cathodes
- Float_t fXyq[7][fgkDim]; // ! pad information
- Int_t fPadIJ[4][fgkDim]; // ! pad information
- AliMUONVGeometryDESegmentation *fSegmentation[2]; // ! new segmentation
- Float_t fZpad; // ! z-coordinate of the hit
- Int_t fNpar; // ! number of fit parameters
- Double_t fQtot; // ! total cluster charge
- Int_t fReco; // ! !=0 if run reco with writing of reconstructed clusters
- Int_t fCathBeg; // ! starting cathode (for combined cluster / track reco)
- Int_t fPadBeg[2]; // ! starting pads (for combined cluster / track reco)
-
- static TMinuit* fgMinuit; // ! Fitter
- Bool_t fUsed[2][fgkDim]; // ! flags for used pads
- AliMUONClusterDrawAZ *fDraw; // ! drawing object
- TObjArray* fPixArray; // ! collection of pixels
- Int_t fnCoupled; // ! number of coupled clusters in precluster
- Int_t fDebug; // ! debug level
+ static const Int_t fgkDim = 10000; ///< array size
+ static const Double_t fgkCouplMin; ///< threshold on coupling
+ static const Double_t fgkZeroSuppression; ///< average zero suppression value
+ static const Double_t fgkSaturation; ///< average saturation level
+
+ static AliMUONClusterFinderAZ* fgClusterFinder; ///< the ClusterFinderAZ instance
+
+ Int_t fnPads[2]; //!< number of pads in the cluster on 2 cathodes
+ Float_t fXyq[7][fgkDim]; //!< pad information
+ Int_t fPadIJ[4][fgkDim]; //!< pad information
+ AliMUONVGeometryDESegmentation *fSegmentation[2]; //!< new segmentation
+ Float_t fZpad; //!< z-coordinate of the hit
+ Int_t fNpar; //!< number of fit parameters
+ Double_t fQtot; //!< total cluster charge
+ Int_t fReco; //!< !=0 if run reco with writing of reconstructed clusters
+ Int_t fCathBeg; //!< starting cathode (for combined cluster / track reco)
+ Int_t fPadBeg[2]; //!< starting pads (for combined cluster / track reco)
+
+ static TMinuit* fgMinuit; //!< Fitter
+ Bool_t fUsed[2][fgkDim]; //!< flags for used pads
+ AliMUONClusterDrawAZ *fDraw; //!< drawing object
+ TObjArray* fPixArray; //!< collection of pixels
+ Int_t fnCoupled; //!< number of coupled clusters in precluster
+ Int_t fDebug; //!< debug level
// Functions
+ AliMUONClusterFinderAZ(const AliMUONClusterFinderAZ& rhs);
+ AliMUONClusterFinderAZ& operator=(const AliMUONClusterFinderAZ& rhs);
void AddPad(Int_t cath, Int_t digit); // add a pad to the cluster
Bool_t Overlap(Int_t cath, AliMUONDigit *dig); // check if the pad from one cathode overlaps with a pad in the cluster on the other cathode
Bool_t Overlap(Float_t *xy1, Int_t iPad, Float_t *xy12, Int_t iSkip); // check if pads xy1 and iPad overlap and return overlap area