Double_t Phi0(){return fPhi0;}// Return starting phi value
Double_t DPhi(){return fDphi;}// Return delta phi value
Double_t ZAt(Int_t i) // Return Z coordiante
- {if(i<0||i>=fNz) return NAN;else return fZ[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fZ[i];}
Double_t *Z(){return fZ;} // Returns array of z values
Double_t *Rmin() {return fRmin;} // Returm arrau of rmin values
Double_t *Rmax() {return fRmax;} // Returm arrau of rmax values
Double_t Rmin(Int_t i) // Return Inner radius value
- {if(i<0||i>=fNz) return NAN;else return fRmin[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fRmin[i];}
Double_t Rmax(Int_t i) // Return Outer radius value
- {if(i<0||i>=fNz) return NAN;else return fRmax[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fRmax[i];}
// Setters
Double_t& P0() // Returns the address of fPhi0
{return fPhi0;}
Double_t *Rmin() {return fRmin;} // Returm arrau of rmin values
Double_t *Rmax() {return fRmax;} // Returm arrau of rmax values
Double_t ZAt(Int_t i) // Return Z coordiante
- {if(i<0||i>=fNz) return NAN;else return fZ[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fZ[i];}
Double_t Rmin(Int_t i) // Return Inner radius value
- {if(i<0||i>=fNz) return NAN;else return fRmin[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fRmin[i];}
Double_t Rmax(Int_t i) // Return Outer radius value
- {if(i<0||i>=fNz) return NAN;else return fRmax[i];}
+ {/*if(i<0||i>=fNz) return NAN;else*/ return fRmax[i];}
// Setters
void Nphi(Int_t i) {fNphi = i;} // Sets fNphi
Double_t& P0() // Returns the address of fPhi0