// --- AliRoot header files ---
#include "AliPHOSDigit.h"
-#include "AliPHOSRecPoint.h"
+#include "AliPHOSEmcRecPoint.h"
+#include "AliPHOSGeometry.h"
-class AliPHOSCpvRecPoint : public AliPHOSRecPoint {
+class AliPHOSCpvRecPoint : public AliPHOSEmcRecPoint {
public:
- AliPHOSCpvRecPoint(){
- // default ctor
- fEnergyList = 0;
- } ;
- AliPHOSCpvRecPoint(Float_t W0, Float_t LocMaxCut) ;
+ AliPHOSCpvRecPoint() ;
+ AliPHOSCpvRecPoint(const char * opt) ;
AliPHOSCpvRecPoint(const AliPHOSCpvRecPoint & rp) {
// cpy ctor requested by Coding Convention
// but not yet needed
virtual ~AliPHOSCpvRecPoint() ;
- virtual void AddDigit(AliPHOSDigit & digit, Float_t Energy) ; // add a digit to the digits list
- Int_t Compare(TObject * obj) ; // method for sorting
-
- Float_t GetDelta (){
- // gets the fDelta data member
- return fDelta ; }
- Float_t GetDispersion() ; // computes the dispersion of the shower
- void GetElipsAxis(Float_t * lambda) ; // computes the axis of shower ellipsoide
- Float_t * GetEnergiesList(){
- // gets the list of energies makink this recpoint
- return fEnergyList ;}
- virtual void ExecuteEvent(Int_t event, Int_t px, Int_t py) ;
- Float_t GetLocMaxCut () {
- // gets the cut of the local maximum search
- return fLocMaxCut ; }
- Float_t GetLogWeightCut (){
- // gets the logarythmic weight for the center of gravity calculation
- return fW0 ; }
- Float_t GetMaximalEnergy(void) ; // get the highest energy in the cluster
- Int_t GetMaximumMultiplicity() {
- // gets the maximum number of digits allowed
- return fMaxDigit ; }
- Int_t GetMultiplicity(void) const {
- // gets the number of digits making this recpoint
- return fMulDigit ; }
- Int_t GetMultiplicityAtLevel(const Float_t level) ; // computes multiplicity of digits with energy above relative level
- Int_t GetNumberOfLocalMax(Int_t * maxAt, Float_t * maxAtEnergy) ; // searches for the local maxima
-
- Float_t GetTotalEnergy(void) const {
- // gets the total amplitude of this recpoint (in EMC RecPoint Amp = Energy)
- return fAmp ; }
- void GetLocalPosition(TVector3 &Lpos) ; // computes the position in the PHOS module
- void GetClusterLengths(Int_t &lengX, Int_t &lengZ); // cluster lengths along x and z
- Bool_t IsCPV(void) {
- // true if the recpoint is in CPV
- return kTRUE ; }
- Bool_t IsSortable() const {
- // says that emcrecpoints are sortable objects
- return kTRUE ; }
- void Print(Option_t * opt = "void") ;
+ Int_t Compare(const TObject * obj) const; // method for sorting
+ void EvalAll(Float_t logWeight,TClonesArray * digits) ;
+ void EvalLocalPosition(Float_t logWeight,TClonesArray * digits ) ;
+ void EvalClusterLengths(TClonesArray * digits) ;
+
+ virtual void ExecuteEvent(Int_t event, Int_t px, Int_t py) const ;
+
+ void GetClusterLengths(Int_t &lengX, Int_t &lengZ) const {lengX = fLengX ;lengZ = fLengZ ;}
+ Bool_t IsEmc(void) const {return kFALSE ; } // tells that this is not a EMC
+ Bool_t IsCPV(void) const {return kTRUE ; } // true if the recpoint is in CPV
+ Bool_t IsSortable() const { return kTRUE ; } // tells that this is a sortable object
+ void Print(Option_t * opt = "void") ;
AliPHOSCpvRecPoint & operator = (const AliPHOSCpvRecPoint & rvalue) {
// assignement operator requested by coding convention but not needed
return *this ;
}
- private:
+ protected:
- Bool_t AreNeighbours(AliPHOSDigit * digit1, AliPHOSDigit * digit2 ) ;
+ Bool_t AreNeighbours(AliPHOSDigit * digit1, AliPHOSDigit * digit2 ) const ;
- Float_t fDelta ; // parameter used to sort the clusters
- Float_t *fEnergyList ; //[fMulDigit] energy of digits
- Float_t fLocMaxCut ; // minimum energy difference to distinguish two maxima
- Float_t fW0 ; // logarithmic weight factor for center of gravity calculation
Int_t fLengX ; // cluster length along x
Int_t fLengZ ; // cluster length along z