1 #ifndef ALIPHOSGEOMETRY_H
2 #define ALIPHOSGEOMETRY_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
8 //_________________________________________________________________________
9 // Geometry class for PHOS : singleton
10 // PHOS consists of the electromagnetic calorimeter (EMCA)
11 // and a charged particle veto either in the Subatech's version (PPSD)
12 // or in the IHEP's one (CPV).
13 // The EMCA/PPSD/CPV modules are parametrized so that any configuration
14 // can be easily implemented
15 // The title is used to identify the version of CPV used.
17 //*-- Author: Yves Schutz (SUBATECH)
19 // --- ROOT system ---
21 // --- AliRoot header files ---
23 #include "AliPHOSGeoUtils.h"
24 #include "AliPHOSEMCAGeometry.h"
25 #include "AliPHOSCPVGeometry.h"
26 #include "AliPHOSSupportGeometry.h"
27 #include <TMatrixFfwd.h>
30 class AliPHOSRecPoint;
33 class AliPHOSGeometry : public AliPHOSGeoUtils {
38 AliPHOSGeometry(const AliPHOSGeometry & geom) ;
40 virtual ~AliPHOSGeometry(void) ;
41 static AliPHOSGeometry * GetInstance(const Text_t* name, const Text_t* title="") ;
42 static AliPHOSGeometry * GetInstance() ;
44 virtual void GetGlobal(const AliRecPoint* RecPoint, TVector3 & gpos, TMatrixF & /* gmat */) const
45 {GetGlobal(RecPoint,gpos); }
46 virtual void GetGlobal(const AliRecPoint* RecPoint, TVector3 & gpos) const ;
47 virtual void GetGlobalPHOS(const AliPHOSRecPoint* RecPoint, TVector3 & gpos) const ;
48 virtual void GetGlobalPHOS(const AliPHOSRecPoint* RecPoint, TVector3 & gpos, TMatrixF & /* gmat */) const
49 {GetGlobalPHOS(RecPoint,gpos); }
51 AliPHOSGeometry & operator = (const AliPHOSGeometry & /*rvalue*/) {
52 Fatal("operator =", "not implemented") ;
57 Bool_t IsInitialized(void) const { return fgInit ; }
59 // Return general PHOS parameters
60 Int_t GetNModules(void) const { return fNModules ; }
61 Float_t GetPHOSAngle(Int_t index) const { return fPHOSAngle[index-1] ; }
62 Float_t* GetPHOSParams(void) { return fPHOSParams;} //Half-sizes of PHOS trapecoid
63 Float_t GetIPtoUpperCPVsurface(void) const { return fIPtoUpperCPVsurface ; }
64 Float_t GetOuterBoxSize(Int_t index) const { return 2.*fPHOSParams[index]; }
65 Float_t GetCrystalSize(Int_t index) const { return fGeometryEMCA->GetCrystalSize(index) ; }
66 Float_t GetCellStep(void) const { return 2.*fGeometryEMCA->GetAirCellHalfSize()[0];}
68 Float_t GetModuleCenter(Int_t module, Int_t axis) const {
69 return fModuleCenter[module][axis];}
70 Float_t GetModuleAngle(Int_t module, Int_t axis, Int_t angle) const {
71 return fModuleAngle[module][axis][angle];}
74 // Return ideal EMCA geometry parameters
76 AliPHOSEMCAGeometry * GetEMCAGeometry() const {return fGeometryEMCA ;}
77 Float_t GetIPtoCrystalSurface(void) const { return fGeometryEMCA->GetIPtoCrystalSurface() ; }
78 Float_t GetIPtoOuterCoverDistance(void) const { return fGeometryEMCA->GetIPtoOuterCoverDistance() ; }
79 Int_t GetNPhi(void) const { return fGeometryEMCA->GetNPhi() ; }
80 Int_t GetNZ(void) const { return fGeometryEMCA->GetNZ() ; }
81 Int_t GetNCristalsInModule(void) const { return fGeometryEMCA->GetNPhi() * fGeometryEMCA->GetNZ() ; }
83 // Return ideal CPV geometry parameters
84 Int_t GetNumberOfCPVLayers(void) const { return fGeometryCPV ->GetNumberOfCPVLayers(); }
85 Float_t GetCPVActiveSize(Int_t index) const { return fGeometryCPV->GetCPVActiveSize(index); }
86 Int_t GetNumberOfCPVChipsPhi(void) const { return fGeometryCPV->GetNumberOfCPVChipsPhi(); }
87 Int_t GetNumberOfCPVChipsZ(void) const { return fGeometryCPV->GetNumberOfCPVChipsZ(); }
88 Int_t GetNumberOfCPVPadsPhi(void) const { return fGeometryCPV->GetNumberOfCPVPadsPhi(); }
89 Int_t GetNumberOfCPVPadsZ(void) const { return fGeometryCPV->GetNumberOfCPVPadsZ(); }
90 Float_t GetPadSizePhi(void) const { return fGeometryCPV->GetCPVPadSizePhi(); }
91 Float_t GetPadSizeZ(void) const { return fGeometryCPV->GetCPVPadSizeZ(); }
92 Float_t GetGassiplexChipSize(Int_t index) const { return fGeometryCPV->GetGassiplexChipSize(index); }
93 Float_t GetCPVGasThickness(void) const { return fGeometryCPV->GetCPVGasThickness(); }
94 Float_t GetCPVTextoliteThickness(void) const { return fGeometryCPV->GetCPVTextoliteThickness(); }
95 Float_t GetCPVCuNiFoilThickness(void) const { return fGeometryCPV->GetCPVCuNiFoilThickness(); }
96 Float_t GetFTPosition(Int_t index) const { return fGeometryCPV->GetFTPosition(index); }
97 Float_t GetCPVFrameSize(Int_t index) const { return fGeometryCPV->GetCPVFrameSize(index); }
98 Float_t GetCPVBoxSize(Int_t index) const { return fGeometryCPV ->GetCPVBoxSize(index); }
99 Float_t GetIPtoCPVDistance(void) const { return GetIPtoOuterCoverDistance() -
100 GetCPVBoxSize(1) - 1.0; }
103 // Return real CPV geometry parameters
104 void GetModuleCenter(TVector3& center, const char *det, Int_t module) const;
106 // Return PHOS' support geometry parameters
108 Float_t GetRailOuterSize(Int_t index) const { return fGeometrySUPP->GetRailOuterSize(index); }
109 Float_t GetRailPart1 (Int_t index) const { return fGeometrySUPP->GetRailPart1 (index); }
110 Float_t GetRailPart2 (Int_t index) const { return fGeometrySUPP->GetRailPart2 (index); }
111 Float_t GetRailPart3 (Int_t index) const { return fGeometrySUPP->GetRailPart3 (index); }
112 Float_t GetRailPos (Int_t index) const { return fGeometrySUPP->GetRailPos (index); }
113 Float_t GetRailLength (void) const { return fGeometrySUPP->GetRailLength (); }
114 Float_t GetDistanceBetwRails(void) const { return fGeometrySUPP->GetDistanceBetwRails(); }
115 Float_t GetRailsDistanceFromIP(void) const { return fGeometrySUPP->GetRailsDistanceFromIP();}
116 Float_t GetRailRoadSize (Int_t index) const { return fGeometrySUPP->GetRailRoadSize (index); }
117 Float_t GetCradleWallThickness(void) const { return fGeometrySUPP->GetCradleWallThickness();}
118 Float_t GetCradleWall (Int_t index) const { return fGeometrySUPP->GetCradleWall (index); }
119 Float_t GetCradleWheel (Int_t index) const { return fGeometrySUPP->GetCradleWheel (index); }
120 void Init(void) ; // steering method for PHOS and PPSD/CPV
125 AliPHOSGeometry(const Text_t* name, const Text_t* title="") ;
127 void SetPHOSAngles(); // calculates the PHOS modules PHI angle
130 Float_t fAngle ; // Position angles between modules
131 Float_t *fPHOSAngle ; //[fNModules] Position angles of modules
132 Float_t fPHOSParams[4] ; // Half-sizes of PHOS trapecoid
133 Float_t fIPtoUpperCPVsurface; // Minimal distance from IP to PHOS
134 Float_t fCrystalShift ; //Distance from crystal center to front surface
135 Float_t fCryCellShift ; //Distance from crystal center to front surface
136 TObjArray *fRotMatrixArray ; // Liste of rotation matrices (one per phos module)
137 Float_t fModuleCenter[5][3]; // xyz-position of the module center
138 Float_t fModuleAngle[5][3][2]; // polar and azymuth angles for 3 axes of modules
141 static AliPHOSGeometry * fgGeom ; // pointer to the unique instance of the singleton
142 static Bool_t fgInit ; // Tells if geometry has been succesfully set up
144 ClassDef(AliPHOSGeometry,3) // PHOS geometry class
148 #endif // AliPHOSGEOMETRY_H