/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ // $Id$ // $MpId: AliMpSectorSegmentation.h,v 1.15 2006/05/24 13:58:21 ivana Exp $ /// \ingroup sector /// \class AliMpSectorSegmentation /// \brief A segmentation of the sector. /// /// Provides methods related to pads: \n /// conversion between pad indices, pad location, pad position; /// finding pad neighbour. /// /// \author David Guez, Ivana Hrivnacova; IPN Orsay #ifndef ALI_MP_SECTOR_SEGMENTATION_H #define ALI_MP_SECTOR_SEGMENTATION_H #include "AliMpVSegmentation.h" #include "AliMpPad.h" #include class AliMpSector; class AliMpMotifPosition; class AliMpVPadIterator; class AliMpArea; class AliMpSectorSegmentation : public AliMpVSegmentation { public: AliMpSectorSegmentation(const AliMpSector* sector, Bool_t own = false); AliMpSectorSegmentation(); virtual ~AliMpSectorSegmentation(); // factory methods virtual AliMpVPadIterator* CreateIterator(const AliMpArea& area) const; virtual AliMpVPadIterator* CreateIterator() const; virtual Int_t GetNeighbours(const AliMpPad& pad, TObjArray& neighbours, Bool_t includeSelf = kFALSE, Bool_t includeVoid = kFALSE) const; // methods virtual AliMpPad PadByLocation(Int_t manuId, Int_t manuChannel, Bool_t warning = kTRUE) const; virtual AliMpPad PadByIndices (Int_t ix, Int_t iy, Bool_t warning = kTRUE) const; virtual AliMpPad PadByPosition(Double_t x, Double_t y, Bool_t warning = kTRUE) const; virtual AliMpPad PadByDirection(Double_t startx, Double_t starty, Double_t distance) const; virtual Bool_t HasPadByIndices(Int_t ix, Int_t iy) const; virtual Bool_t HasPadByLocation(Int_t manuId, Int_t manuChannel) const; virtual Int_t MaxPadIndexX() const; virtual Int_t MaxPadIndexY() const; virtual Int_t NofPads() const; virtual void GetAllElectronicCardIDs(TArrayI& ecn) const; virtual Int_t GetNofElectronicCards() const; virtual Bool_t HasMotifPosition(Int_t motifPositionID) const; virtual AliMpMotifPosition* MotifPosition(Int_t manuId) const; virtual AliMp::PlaneType PlaneType() const; virtual AliMp::StationType StationType() const; virtual Double_t GetDimensionX() const; virtual Double_t GetDimensionY() const; virtual Double_t GetPositionX() const; virtual Double_t GetPositionY() const; virtual void Print(Option_t* opt="") const; Double_t GetMinPadDimensionX() const; Double_t GetMinPadDimensionY() const; Bool_t CircleTest(Int_t ix, Int_t iy) const; const AliMpSector* GetSector() const; private: /// Not implemented AliMpSectorSegmentation(const AliMpSectorSegmentation& right); /// Not implemented AliMpSectorSegmentation& operator = (const AliMpSectorSegmentation& right); // methods AliMpMotifPosition* FindMotifPosition(Int_t ix, Int_t iy) const; virtual AliMpPad PadByXDirection(Double_t startx, Double_t starty, Double_t maxX) const; virtual AliMpPad PadByYDirection(Double_t startx, Double_t starty, Double_t maxY) const; // data members const AliMpSector* fkSector; ///< Sector Bool_t fIsOwner; ///< Sector ownership AliMpPad* fPadBuffer; ///< The pad buffer Int_t fMaxIndexInX; ///< maximum pad index in x Int_t fMaxIndexInY; ///< maximum pad index in y ClassDef(AliMpSectorSegmentation,3) // Segmentation }; // inline functions /// Return the sector inline const AliMpSector* AliMpSectorSegmentation::GetSector() const { return fkSector; } /// Return station type inline AliMp::StationType AliMpSectorSegmentation::StationType() const { return AliMp::kStation12; } #endif //ALI_MP_SECTOR_SEGMENTATION_H