- void EmcModuleCoverage(Int_t m, Double_t & tm, Double_t & tM, Double_t & pm,
- Double_t & pM, Option_t * opt = Radian() ) const ;
- // calculates the angular coverage in theta and phi of a EMC module
- void EmcXtalCoverage(Double_t & theta, Double_t & phi, Option_t * opt = Radian() ) const ;
- // calculates the angular coverage in theta and phi of a
- // single crystal in a EMC module
- void ImpactOnEmc(Double_t theta, Double_t phi, Int_t & ModuleNumber,
- Double_t & z, Double_t & x) const ;
- void ImpactOnEmc(const TVector3& vec, Int_t & ModuleNumber,
- Double_t & z, Double_t & x) const ;
- void ImpactOnEmc(const TParticle& p, Int_t & ModuleNumber,
- Double_t & z, Double_t & x) const ;
- // calculates the impact coordinates of a neutral particle
- // emitted in direction theta and phi in ALICE
+// void EmcModuleCoverage(Int_t m, Double_t & tm, Double_t & tM, Double_t & pm,
+// Double_t & pM, Option_t * opt = Radian() ) const ;
+// // calculates the angular coverage in theta and phi of a EMC module
+// void EmcXtalCoverage(Double_t & theta, Double_t & phi, Option_t * opt = Radian() ) const ;
+// // calculates the angular coverage in theta and phi of a
+// // single crystal in a EMC module
+
+ void ImpactOnEmc(Double_t * vtx, Double_t theta, Double_t phi,
+ Int_t & ModuleNumber, Double_t & z, Double_t & x) const ;
+// void ImpactOnEmc(const TVector3& vec, Int_t & ModuleNumber,
+// Double_t & z, Double_t & x) const ;
+// void ImpactOnEmc(const TParticle& p, Int_t & ModuleNumber,
+// Double_t & z, Double_t & x) const ;
+// // calculates the impact coordinates of a neutral particle
+// // emitted in direction theta and phi in ALICE