#ifndef MARS_MGeomPix #define MARS_MGeomPix #ifndef MARS_MParContainer #include "MParContainer.h" #endif class MGeomCam; class MGeomPix : public MParContainer { private: static const Float_t gsTan60; // tan(60/kRad2Deg); enum { kIsInOutermostRing = BIT(22), kIsInOuterRing = BIT(23), kUserBits = 0x1fc000 // 14-21 are allowed }; Float_t fX; // [mm] the x coordinate of the center Float_t fY; // [mm] the y coordinate of the center Float_t fD; // [mm] the d coordinate of the pixel (dist between two parallel sides) Float_t fA; // [mm^2] Area of the pixel Byte_t fNumNeighbors; // number of valid neighbors Short_t fNeighbors[6]; // the IDs of the pixel next to it (we are assuming an hexagonal geometry) UInt_t fSector; // Number of sector the pixels corresponds to UInt_t fAidx; // Area index of the pixel public: MGeomPix(Float_t x=0, Float_t y=0, Float_t d=0, UInt_t s=0, UInt_t aidx=0); void Print(Option_t *opt=NULL) const; void Set(Float_t x, Float_t y, Float_t d, UInt_t s=0, UInt_t aidx=0) { fX=x; fY=y; fD=d; fA=d*d*gsTan60/2; fSector=s; fAidx=aidx; } void SetNeighbors(Short_t i0=-1, Short_t i1=-1, Short_t i2=-1, Short_t i3=-1, Short_t i4=-1, Short_t i5=-1); void CheckOuterRing(const MGeomCam &cam); Float_t GetX() const { return fX; } Float_t GetY() const { return fY; } Float_t GetD() const { return fD; } UInt_t GetSector() const { return fSector; } Float_t GetA() const { return fA; /*fD*fD*gsTan60/2;*/ } Int_t GetAidx() const { return fAidx; } Byte_t GetNumNeighbors() const { return fNumNeighbors; } Short_t GetNeighbor(Byte_t i) const { return fNeighbors[i]; } Bool_t IsInOutermostRing() const { return TestBit(kIsInOutermostRing); } Bool_t IsInOuterRing() const { return TestBit(kIsInOuterRing); } /* // // These function are for future usage. They are not virtual in // root by now. // void SetBit(UInt_t f, Bool_t set) { set ? TObject::SetBit(f) : TObject::ResetBit(f); } void SetBit(UInt_t f) { TObject::SetBit(f & kUserBits); } void ResetBit(UInt_t f) { TObject::ResetBit(f & kUserBits); } void InvertBit(UInt_t f) { TObject InvertBit(f & kUserBits); } */ ClassDef(MGeomPix, 3) // Geometry class describing the geometry of one pixel }; #endif