AliMUONTriggerSegmentation();
virtual ~AliMUONTriggerSegmentation();
- virtual Float_t Distance2AndOffset(Int_t /*iX*/, Int_t /*iY*/, Float_t /*X*/, Float_t /*Y*/, Int_t * /*dummy*/) {return 0.;} // Distance between 1 pad and a position
- virtual Float_t Dpx() const {return 0.;} // Pad size in x
- virtual Float_t Dpy() const {return 0.;} // Pad size in y
+ virtual Float_t Distance2AndOffset(Int_t /*iX*/, Int_t /*iY*/, Float_t /*X*/, Float_t /*Y*/, Int_t * /*dummy*/) {return 0.;} ///< Distance between 1 pad and a position
+ virtual Float_t Dpx() const {return 0.;} ///< Pad size in x
+ virtual Float_t Dpy() const {return 0.;} ///< Pad size in y
virtual Float_t Dpx(Int_t isec) const; // Pad size in x by Sector
virtual Float_t Dpy(Int_t isec) const; // Pad size in y by Sector
- virtual void Draw(const char */*opt*/ = "") {} // Not implemented
- virtual void FirstPad(Float_t /*xhit*/, Float_t /*yhit*/, Float_t /*dx*/, Float_t /*dy*/){}
- virtual void FirstPad(Float_t /*xhit*/, Float_t /*yhit*/, Float_t /*zhit*/, Float_t /*dx*/, Float_t /*dy*/) {}
+ virtual void Draw(const char */*opt*/ = "") {} ///< Not implemented
+ virtual void FirstPad(Float_t /*xhit*/, Float_t /*yhit*/, Float_t /*dx*/, Float_t /*dy*/){} ///< Not implemented
+ virtual void FirstPad(Float_t /*xhit*/, Float_t /*yhit*/, Float_t /*zhit*/, Float_t /*dx*/, Float_t /*dy*/) {} ///< Not implemented
- virtual Bool_t HasPad(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/) { return true; }
+ virtual Bool_t HasPad(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/) { return true; } ///< Not implemented
virtual Bool_t HasPad(Int_t ix, Int_t iy);
- virtual AliMUONGeometryDirection GetDirection() { return kDirUndefined; }
- virtual const AliMpVSegmentation* GetMpSegmentation() const { return 0; }
+ virtual AliMUONGeometryDirection GetDirection() { return kDirUndefined; } ///< Not implemented
+ virtual const AliMpVSegmentation* GetMpSegmentation() const { return 0; } ///< Not implemented
- virtual Float_t GetAnod(Float_t /*xhit*/) const {return 0; } // Anod wire coordinate closest to xhit
+ virtual Float_t GetAnod(Float_t /*xhit*/) const {return 0; } ///< Anod wire coordinate closest to xhit
virtual void GetPadI(Float_t x ,Float_t y ,Int_t &ix,Int_t &iy); // Transform from pad to real coordinates
virtual void GetPadI(Float_t x, Float_t y , Float_t z, Int_t &ix, Int_t &iy);
virtual void GetPadC(Int_t ix, Int_t iy, Float_t &x, Float_t &y);
+ /// Returns real coordinates (x,y,z) for given pad coordinates (ix,iy)
virtual void GetPadC(Int_t ix, Int_t iy, Float_t &x, Float_t &y, Float_t &z) {z=0; GetPadC(ix, iy, x , y);}
virtual void GetPadLoc2Glo(Int_t ixLoc, Int_t iyLoc, Int_t &ixGlo, Int_t &iyGlo);
virtual void GetPadGlo2Loc(Int_t ixLoc, Int_t iyLoc, Int_t &ixGlo, Int_t &iyGlo);
virtual void IntegrationLimits(Float_t& x1, Float_t& x2, Float_t& y1, Float_t& y2); //Current integration limits
- virtual Int_t ISector() {return fSector;} // Current Pad during Integration (current sector)
- virtual Int_t Ix() {return fIx;} // x-coordinate
- virtual Int_t Iy() {return fIy;} // y-coordinate
+ virtual Int_t ISector() {return fSector;} ///< Current Pad during Integration (current sector)
+ virtual Int_t Ix() {return fIx;} ///< x-coordinate
+ virtual Int_t Iy() {return fIy;} ///< y-coordinate
// virtual Int_t MorePads(); // Condition
- virtual Int_t MorePads(){return 0;}; // Condition
+ virtual Int_t MorePads(){return 0;}; ///< Condition
virtual void Neighbours(Int_t iX, Int_t iY, Int_t* Nlist, Int_t Xlist[10], Int_t Ylist[10]); // Get next neighbours
- virtual void NextPad(){} // Stepper
+ virtual void NextPad(){} ///< Stepper
- virtual Int_t Npx() const {return fNpx;} // Maximum number of Pads in x
- virtual Int_t Npy() const {return fNpy;} // Maximum number of Pads in y
+ virtual Int_t Npx() const {return fNpx;} ///< Maximum number of Pads in x
+ virtual Int_t Npy() const {return fNpy;} ///< Maximum number of Pads in y
- virtual void SetDAnod(Float_t /*D*/) {/*fWireD = D*/;}; // Anod pitch
+ virtual void SetDAnod(Float_t /*D*/) {/*fWireD = D*/;}; ///< Anod pitch
virtual Int_t Sector(Int_t ix, Int_t iy); // Calculate sector from pad coordinates
virtual void SetHit(Float_t xhit, Float_t yhit); // Set hit position
virtual void SetHit(Float_t xhit, Float_t yhit, Float_t zhit);
- virtual void SetId(Int_t id) {fId=id;} // Setting detection element
- virtual void SetPad(Int_t ix, Int_t iy); // Set pad position
- virtual void SetPadDivision(Int_t /*ndiv[4]*/){} // Set Slat Segmentation Parameters
- virtual void SetPadSize(Float_t /*p1*/, Float_t /*p2*/){;}; // Pad size Dx*Dy
- virtual void SetPcbBoards(Int_t /*n[4]*/){} // Set Segmentation Zones (PCB Boards)
+ virtual void SetId(Int_t id) {fId=id;} ///< Setting detection element
+ virtual void SetPad(Int_t ix, Int_t iy); // Set pad position
+ virtual void SetPadDivision(Int_t /*ndiv[4]*/){} ///< Set Slat Segmentation Parameters
+ virtual void SetPadSize(Float_t /*p1*/, Float_t /*p2*/){;}; ///< Pad size Dx*Dy
+ virtual void SetPcbBoards(Int_t /*n[4]*/){} ///< Set Segmentation Zones (PCB Boards)
// add to St345SlatSegmentation
virtual void SetLineNumber(Int_t iLineNumber);
virtual Int_t ModuleColNum(Int_t ixGlo);
// add to St345SlatSegmentation
// The following function could be obsolet for this class, but they are pure virtual in AliSegmentation
- virtual void GetNParallelAndOffset(Int_t /*iX*/, Int_t /*iY*/, Int_t */*Nparallel*/, Int_t */*Offset*/){};
- virtual Int_t SigGenCond(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/){return 0;} ; // Signal Generation Condition during Stepping
- virtual void SigGenInit(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/){}; // Initialise signal gneration at coord (x,y,z)
- virtual void GiveTestPoints(Int_t &/*n*/, Float_t * /*x*/, Float_t */*y*/) const{}; // Test points for auto calibration
- virtual void SetCorrFunc(Int_t /*dum*/, TF1* /*func*/){}; // Function for systematic corrections, Set the correction function
- virtual TF1* CorrFunc(Int_t) const {return 0x0;} // Get the correction Function
+ virtual void GetNParallelAndOffset(Int_t /*iX*/, Int_t /*iY*/, Int_t */*Nparallel*/, Int_t */*Offset*/){};///< Not implemented
+ virtual Int_t SigGenCond(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/){return 0;} ; ///< Signal Generation Condition during Stepping
+ virtual void SigGenInit(Float_t /*x*/, Float_t /*y*/, Float_t /*z*/){}; ///< Initialise signal gneration at coord (x,y,z)
+ virtual void GiveTestPoints(Int_t &/*n*/, Float_t * /*x*/, Float_t */*y*/) const{}; ///< Test points for auto calibration
+ virtual void SetCorrFunc(Int_t /*dum*/, TF1* /*func*/){}; ///< Function for systematic corrections, Set the correction function
+ virtual TF1* CorrFunc(Int_t) const {return 0x0;} ///< Get the correction Function
virtual Int_t Sector(Float_t /*x*/, Float_t /*y*/) {return 1;}
- virtual void Init(Int_t /*detectionElementId*/){} // Initialisation
+ virtual void Init(Int_t /*detectionElementId*/){} ///< Initialisation
virtual void Init(Int_t detectionElementId,
Int_t nStrip[7],
Float_t stripYsize[7],
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