-// return Inclination with respect the vertical axis of stations 345
- static Float_t St345Inclination() {return fgSt345inclination;}
- // return pointer to array of positions
- static Float_t* DefaultChamberZ() {return fgDefaultChamberZ;}
- // return chamber i inner diameter
- static Float_t Dmin(Int_t i) {return fgDmin[i];}
- // return chamber i inner radius
- static Float_t Rmin(Int_t i) {return Dmin(i)/2.0;}
- // return chamber i outer diameter
- static Float_t Dmax(Int_t i) {return fgDmax[i];}
- // return chamber i outer radius
- static Float_t Rmax(Int_t i) {return Dmax(i)/2.0;}
- // return maximum zoom for event display
- static Int_t MaxZoom() {return fgMaxZoom;}
- // return half-distance between two half-chambers
- static Float_t DzCh() {return fgDzCh;}
- // return half-distance between two slats
- static Float_t DzSlat() {return fgDzSlat;}
+ /// Return Inclination with respect the vertical axis of stations 345
+ static Float_t St345Inclination() {return fgSt345inclination;}
+ /// Return pointer to array of positions
+ static Float_t* DefaultChamberZ() {return fgDefaultChamberZ;}
+ /// Return chamber i inner diameter
+ static Float_t Dmin(Int_t i) {return fgDmin[i];}
+ /// Return chamber i inner radius
+ static Float_t Rmin(Int_t i) {return Dmin(i)/2.0;}
+ /// Return chamber i outer diameter
+ static Float_t Dmax(Int_t i) {return fgDmax[i];}
+ /// Return chamber i outer radius
+ static Float_t Rmax(Int_t i) {return Dmax(i)/2.0;}
+ /// Return maximum zoom for event display
+ static Int_t MaxZoom() {return fgMaxZoom;}
+ /// Return half-distance between two half-chambers
+ static Float_t DzCh() {return fgDzCh;}
+ /// Return half-distance between two slats
+ static Float_t DzSlat() {return fgDzSlat;}
+ /// Return chamber number according z position of hit.