[u/mrichter/AliRoot.git] / PHOS / AliPHOSEMCAGeometry.h

#ifndef ALIPHOSEMCAGEOMETRY_H
#define ALIPHOSEMCAGEOMETRY_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */

//_________________________________________________________________________
// Geometry class  for PHOS : EMCA (Electromagnetic Calirometer)
// Its data members provide geometry parametrization of EMCA
// which can be changed in the constructor only.
// Author:   Yves Schutz (Subatech)
// Modified: Yuri Kharlov (IHEP, Protvino)
// 15 September 2000

// --- ROOT system ---
#include "TObject.h"
class TObjArray ;

// --- AliRoot header files ---

class AliPHOSEMCAGeometry : public TObject {

public: 

  AliPHOSEMCAGeometry();
  //Compiler-generated copy ctor and copy-assignment operator _ARE_ OK.

  virtual ~AliPHOSEMCAGeometry(void) {}

  const Float_t * GetStripHalfSize()          const {return fStripHalfSize ;         }
  Float_t   GetStripWallWidthOut()      const {return fStripWallWidthOut ;     }
  const Float_t * GetAirCellHalfSize()        const {return fAirCellHalfSize ;       }
  const Float_t * GetWrappedHalfSize()        const {return fWrappedHalfSize ;       }
  Float_t   GetAirGapLed()              const {return fAirGapLed ;             }
  const Float_t * GetCrystalHalfSize()        const {return fCrystalHalfSize ;       }
  const Float_t * GetSupportPlateHalfSize()   const {return fSupportPlateHalfSize ;  }
  const Float_t * GetSupportPlateInHalfSize() const {return fSupportPlateInHalfSize ;}
  Float_t   GetSupportPlateThickness()  const { return fSupportPlateThickness ;}    

  const Float_t * GetPreampHalfSize()         const {return fPreampHalfSize ;        }
  const Float_t * GetAPDHalfSize()            const {return fPinDiodeHalfSize ;      }
  const Float_t * GetOuterThermoParams()      const {return  fOuterThermoParams ;    }
  const Float_t * GetCoolerHalfSize()         const {return fCoolerHalfSize ;        }
  const Float_t * GetAirGapHalfSize()         const {return fAirGapHalfSize;         }
  const Float_t * GetInnerThermoHalfSize()    const {return  fInnerThermoHalfSize ;  }
  const Float_t * GetAlCoverParams()          const {return fAlCoverParams ;         }
  const Float_t * GetFiberGlassHalfSize()     const {return fFiberGlassHalfSize ;    }
  const Float_t * GetWarmAlCoverHalfSize()    const {return fWarmAlCoverHalfSize ;   }
  const Float_t * GetWarmThermoHalfSize()     const {return fWarmThermoHalfSize ;    }
  const Float_t * GetTSupport1HalfSize()      const {return fTSupport1HalfSize ;     }
  const Float_t * GetTSupport2HalfSize()      const {return fTSupport2HalfSize ;     }
  const Float_t * GetTCables1HalfSize()       const {return fTCables1HalfSize ;      }
  const Float_t * GetTCables2HalfSize()       const {return fTCables2HalfSize ;      }
  Float_t   GetTSupportDist()           const {return fTSupportDist ;          }
  const Float_t * GetFrameXHalfSize()         const {return fFrameXHalfSize ;        }
  const Float_t * GetFrameZHalfSize()         const {return fFrameZHalfSize ;        }
  const Float_t * GetFrameXPosition()         const {return fFrameXPosition ;        }
  const Float_t * GetFrameZPosition()         const {return fFrameZPosition ;        }
  const Float_t * GetFGupXHalfSize()          const {return fFGupXHalfSize ;         }
  const Float_t * GetFGupXPosition()          const {return fFGupXPosition ;         }
  const Float_t * GetFGupZHalfSize()          const {return fFGupZHalfSize ;         }
  const Float_t * GetFGupZPosition()          const {return fFGupZPosition ;         }
  const Float_t * GetFGlowXHalfSize()         const {return fFGlowXHalfSize ;        }
  const Float_t * GetFGlowXPosition()         const {return fFGlowXPosition ;        }
  const Float_t * GetFGlowZHalfSize()         const {return fFGlowZHalfSize ;        }
  const Float_t * GetFGlowZPosition()         const {return fFGlowZPosition ;        }
  const Float_t * GetFEEAirHalfSize()         const {return fFEEAirHalfSize ;        }
  const Float_t * GetFEEAirPosition()         const {return fFEEAirPosition ;        }
  const Float_t * GetEMCParams()              const {return fEMCParams ;             }

  Float_t    GetIPtoCrystalSurface()     const {return fIPtoCrystalSurface ;   }
  Float_t    GetIPtoOuterCoverDistance() const {return fIPtoOuterCoverDistance;}
  Float_t    GetCrystalSize(Int_t index) const {return 2.*fCrystalHalfSize[index] ; }

  Int_t     GetNCellsXInStrip() const { return fNCellsXInStrip;}
  Int_t     GetNCellsZInStrip() const { return fNCellsZInStrip;}
  Int_t     GetNStripX()        const { return fNStripX ;      }
  Int_t     GetNStripZ()        const { return fNStripZ ;      }
  Int_t     GetNTSuppots()      const { return fNTSupports;    }
  Int_t     GetNPhi()           const { return fNPhi ;         }
  Int_t     GetNZ()             const { return fNZ ;           }
 
private:

  Float_t fStripHalfSize[3]   ;        // Strip unit size/2
  Float_t fAirCellHalfSize[3] ;        // geometry parameter
  Float_t fWrappedHalfSize[3] ;        // geometry parameter
  Float_t fSupportPlateHalfSize[3] ;   // geometry parameter
  Float_t fSupportPlateInHalfSize[3] ; // geometry parameter
  Float_t fCrystalHalfSize[3] ;        // crystal size/2
  Float_t fAirGapLed ;                 // geometry parameter
  Float_t fStripWallWidthOut ;         // Side to another strip  
  Float_t fStripWallWidthIn ;          // geometry parameter
  Float_t fTyvecThickness ;            // geometry parameter
  Float_t fTSupport1HalfSize[3] ;      // geometry parameter
  Float_t fTSupport2HalfSize[3] ;      // geometry parameter
  Float_t fPreampHalfSize[3] ;         // geometry parameter
  Float_t fPinDiodeHalfSize[3] ;       // Size of the PIN Diode 

  Float_t fOuterThermoParams[4] ;      // geometry parameter
  Float_t fCoolerHalfSize[3] ;         // geometry parameter
  Float_t fAirGapHalfSize[3] ;         // geometry parameter
  Float_t fInnerThermoHalfSize[3] ;    // geometry parameter
  Float_t fAlCoverParams[4] ;          // geometry parameter
  Float_t fFiberGlassHalfSize[3] ;     // geometry parameter

  Float_t fInnerThermoWidthX ;         // geometry parameter
  Float_t fInnerThermoWidthY ;         // geometry parameter
  Float_t fInnerThermoWidthZ ;         // geometry parameter
  Float_t fAirGapWidthX ;              // geometry parameter
  Float_t fAirGapWidthY ;              // geometry parameter
  Float_t fAirGapWidthZ ;              // geometry parameter
  Float_t fCoolerWidthX ;              // geometry parameter
  Float_t fCoolerWidthY ;              // geometry parameter
  Float_t fCoolerWidthZ ;              // geometry parameter
  Float_t fAlCoverThickness ;          // geometry parameter
  Float_t fOuterThermoWidthXUp ;       // geometry parameter
  Float_t fOuterThermoWidthXLow;       // geometry parameter
  Float_t fOuterThermoWidthY ;         // geometry parameter
  Float_t fOuterThermoWidthZ ;         // geometry parameter
  Float_t fAlFrontCoverX  ;            // geometry parameter
  Float_t fAlFrontCoverZ  ;            // geometry parameter
  Float_t fFiberGlassSup2X ;           // geometry parameter
  Float_t fFiberGlassSup1X ;           // geometry parameter
  Float_t fFrameHeight ;               // geometry parameter
  Float_t fFrameThickness ;            // geometry parameter
  Float_t fAirSpaceFeeX ;              // geometry parameter
  Float_t fAirSpaceFeeZ ;              // geometry parameter
  Float_t fAirSpaceFeeY ;              // geometry parameter
  Float_t fTCables2HalfSize[3] ;       // geometry parameter
  Float_t fTCables1HalfSize[3] ;       // geometry parameter
  Float_t fWarmUpperThickness ;        // geometry parameter
  Float_t fWarmBottomThickness ;       // geometry parameter
  Float_t fWarmAlCoverWidthX ;         // geometry parameter
  Float_t fWarmAlCoverWidthY ;         // geometry parameter
  Float_t fWarmAlCoverWidthZ ;         // geometry parameter
  Float_t fWarmAlCoverHalfSize[3] ;    // geometry parameter
  Float_t fWarmThermoHalfSize[3] ;     // geometry parameter
  Float_t fFiberGlassSup1Y ;           // geometry parameter
  Float_t fFiberGlassSup2Y ;           // geometry parameter
  Float_t fTSupportDist ;              // geometry parameter
  Float_t fTSupport1Thickness ;        // geometry parameter
  Float_t fTSupport2Thickness ;        // geometry parameter
  Float_t fTSupport1Width ;            // geometry parameter
  Float_t fTSupport2Width ;            // geometry parameter
  Float_t fFrameXHalfSize[3] ;         // geometry parameter
  Float_t fFrameZHalfSize[3] ;         // geometry parameter
  Float_t fFrameXPosition[3] ;         // geometry parameter
  Float_t fFrameZPosition[3] ;         // geometry parameter
  Float_t fFGupXHalfSize[3] ;          // geometry parameter
  Float_t fFGupXPosition[3] ;          // geometry parameter
  Float_t fFGupZHalfSize[3] ;          // geometry parameter
  Float_t fFGupZPosition[3] ;          // geometry parameter
  Float_t fFGlowXHalfSize[3] ;         // geometry parameter
  Float_t fFGlowXPosition[3] ;         // geometry parameter
  Float_t fFGlowZHalfSize[3] ;         // geometry parameter
  Float_t fFGlowZPosition[3] ;         // geometry parameter
  Float_t fFEEAirHalfSize[3] ;         // geometry parameter
  Float_t fFEEAirPosition[3] ;         // geometry parameter
  Float_t fEMCParams[4] ;              // geometry parameter
  Float_t fIPtoOuterCoverDistance ;    // Distances from interaction point to outer cover 
  Float_t fIPtoCrystalSurface ;        // Distances from interaction point to Xtal surface

  Float_t fSupportPlateThickness ;     // Thickness of the Aluminium support plate for Strip   

  Int_t  fNCellsXInStrip ;             // Number of cells in a strip unit in X
  Int_t  fNCellsZInStrip ;             // Number of cells in a strip unit in Z
  Int_t  fNStripX ;                    // Number of strip units in X
  Int_t  fNStripZ ;                    // Number of strip units in Z
  Int_t  fNTSupports ;                 // geometry parameter
  Int_t  fNPhi ;                       // Number of crystal units in X (phi) direction
  Int_t  fNZ ;                         // Number of crystal units in Z direction
  ClassDef(AliPHOSEMCAGeometry,1)      // EMCA geometry class 

} ;

#endif // AliPHOSEMCAGEOMETRY_H
Commit	Line	Data
2f2c3b32	1	#ifndef ALIPHOSEMCAGEOMETRY_H
	2	#define ALIPHOSEMCAGEOMETRY_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	//_________________________________________________________________________
	9	// Geometry class for PHOS : EMCA (Electromagnetic Calirometer)
a3dfe79c	10	// Its data members provide geometry parametrization of EMCA
	11	// which can be changed in the constructor only.
	12	// Author: Yves Schutz (Subatech)
	13	// Modified: Yuri Kharlov (IHEP, Protvino)
	14	// 15 September 2000
	15
2f2c3b32	16	// --- ROOT system ---
468794ea	17	#include "TObject.h"
468794ea	18	class TObjArray ;
2f2c3b32	19
	20	// --- AliRoot header files ---
	21
	22	class AliPHOSEMCAGeometry : public TObject {
	23
	24	public:
88cb7938	25
a8c47ab6	26	AliPHOSEMCAGeometry();
3663622c	27	//Compiler-generated copy ctor and copy-assignment operator _ARE_ OK.
2f2c3b32	28
3663622c	29	virtual ~AliPHOSEMCAGeometry(void) {}
85218d13	30
a2bb6de5	31	const Float_t * GetStripHalfSize() const {return fStripHalfSize ; }
	32	Float_t GetStripWallWidthOut() const {return fStripWallWidthOut ; }
	33	const Float_t * GetAirCellHalfSize() const {return fAirCellHalfSize ; }
	34	const Float_t * GetWrappedHalfSize() const {return fWrappedHalfSize ; }
	35	Float_t GetAirGapLed() const {return fAirGapLed ; }
	36	const Float_t * GetCrystalHalfSize() const {return fCrystalHalfSize ; }
	37	const Float_t * GetSupportPlateHalfSize() const {return fSupportPlateHalfSize ; }
	38	const Float_t * GetSupportPlateInHalfSize() const {return fSupportPlateInHalfSize ;}
	39	Float_t GetSupportPlateThickness() const { return fSupportPlateThickness ;}
	40
	41	const Float_t * GetPreampHalfSize() const {return fPreampHalfSize ; }
	42	const Float_t * GetAPDHalfSize() const {return fPinDiodeHalfSize ; }
	43	const Float_t * GetOuterThermoParams() const {return fOuterThermoParams ; }
	44	const Float_t * GetCoolerHalfSize() const {return fCoolerHalfSize ; }
	45	const Float_t * GetAirGapHalfSize() const {return fAirGapHalfSize; }
	46	const Float_t * GetInnerThermoHalfSize() const {return fInnerThermoHalfSize ; }
	47	const Float_t * GetAlCoverParams() const {return fAlCoverParams ; }
	48	const Float_t * GetFiberGlassHalfSize() const {return fFiberGlassHalfSize ; }
	49	const Float_t * GetWarmAlCoverHalfSize() const {return fWarmAlCoverHalfSize ; }
	50	const Float_t * GetWarmThermoHalfSize() const {return fWarmThermoHalfSize ; }
	51	const Float_t * GetTSupport1HalfSize() const {return fTSupport1HalfSize ; }
	52	const Float_t * GetTSupport2HalfSize() const {return fTSupport2HalfSize ; }
	53	const Float_t * GetTCables1HalfSize() const {return fTCables1HalfSize ; }
	54	const Float_t * GetTCables2HalfSize() const {return fTCables2HalfSize ; }
	55	Float_t GetTSupportDist() const {return fTSupportDist ; }
	56	const Float_t * GetFrameXHalfSize() const {return fFrameXHalfSize ; }
	57	const Float_t * GetFrameZHalfSize() const {return fFrameZHalfSize ; }
	58	const Float_t * GetFrameXPosition() const {return fFrameXPosition ; }
	59	const Float_t * GetFrameZPosition() const {return fFrameZPosition ; }
	60	const Float_t * GetFGupXHalfSize() const {return fFGupXHalfSize ; }
	61	const Float_t * GetFGupXPosition() const {return fFGupXPosition ; }
	62	const Float_t * GetFGupZHalfSize() const {return fFGupZHalfSize ; }
	63	const Float_t * GetFGupZPosition() const {return fFGupZPosition ; }
	64	const Float_t * GetFGlowXHalfSize() const {return fFGlowXHalfSize ; }
	65	const Float_t * GetFGlowXPosition() const {return fFGlowXPosition ; }
	66	const Float_t * GetFGlowZHalfSize() const {return fFGlowZHalfSize ; }
	67	const Float_t * GetFGlowZPosition() const {return fFGlowZPosition ; }
	68	const Float_t * GetFEEAirHalfSize() const {return fFEEAirHalfSize ; }
	69	const Float_t * GetFEEAirPosition() const {return fFEEAirPosition ; }
	70	const Float_t * GetEMCParams() const {return fEMCParams ; }
	71
	72	Float_t GetIPtoCrystalSurface() const {return fIPtoCrystalSurface ; }
	73	Float_t GetIPtoOuterCoverDistance() const {return fIPtoOuterCoverDistance;}
	74	Float_t GetCrystalSize(Int_t index) const {return 2.*fCrystalHalfSize[index] ; }
85218d13	75
331c963c	76	Int_t GetNCellsXInStrip() const { return fNCellsXInStrip;}
331c963c	77	Int_t GetNCellsZInStrip() const { return fNCellsZInStrip;}
a2bb6de5	78	Int_t GetNStripX() const { return fNStripX ; }
	79	Int_t GetNStripZ() const { return fNStripZ ; }
	80	Int_t GetNTSuppots() const { return fNTSupports; }
	81	Int_t GetNPhi() const { return fNPhi ; }
	82	Int_t GetNZ() const { return fNZ ; }
2f2c3b32	83
	84	private:
	85
89308175	86	Float_t fStripHalfSize[3] ; // Strip unit size/2
07ca2d72	87	Float_t fAirCellHalfSize[3] ; // geometry parameter
89308175	88	Float_t fWrappedHalfSize[3] ; // geometry parameter
	89	Float_t fSupportPlateHalfSize[3] ; // geometry parameter
	90	Float_t fSupportPlateInHalfSize[3] ; // geometry parameter
	91	Float_t fCrystalHalfSize[3] ; // crystal size/2
	92	Float_t fAirGapLed ; // geometry parameter
	93	Float_t fStripWallWidthOut ; // Side to another strip
	94	Float_t fStripWallWidthIn ; // geometry parameter
	95	Float_t fTyvecThickness ; // geometry parameter
	96	Float_t fTSupport1HalfSize[3] ; // geometry parameter
	97	Float_t fTSupport2HalfSize[3] ; // geometry parameter
	98	Float_t fPreampHalfSize[3] ; // geometry parameter
	99	Float_t fPinDiodeHalfSize[3] ; // Size of the PIN Diode
	100
	101	Float_t fOuterThermoParams[4] ; // geometry parameter
	102	Float_t fCoolerHalfSize[3] ; // geometry parameter
	103	Float_t fAirGapHalfSize[3] ; // geometry parameter
	104	Float_t fInnerThermoHalfSize[3] ; // geometry parameter
	105	Float_t fAlCoverParams[4] ; // geometry parameter
	106	Float_t fFiberGlassHalfSize[3] ; // geometry parameter
	107
89308175	108	Float_t fInnerThermoWidthX ; // geometry parameter
	109	Float_t fInnerThermoWidthY ; // geometry parameter
	110	Float_t fInnerThermoWidthZ ; // geometry parameter
	111	Float_t fAirGapWidthX ; // geometry parameter
	112	Float_t fAirGapWidthY ; // geometry parameter
	113	Float_t fAirGapWidthZ ; // geometry parameter
	114	Float_t fCoolerWidthX ; // geometry parameter
	115	Float_t fCoolerWidthY ; // geometry parameter
	116	Float_t fCoolerWidthZ ; // geometry parameter
	117	Float_t fAlCoverThickness ; // geometry parameter
	118	Float_t fOuterThermoWidthXUp ; // geometry parameter
	119	Float_t fOuterThermoWidthXLow; // geometry parameter
	120	Float_t fOuterThermoWidthY ; // geometry parameter
	121	Float_t fOuterThermoWidthZ ; // geometry parameter
	122	Float_t fAlFrontCoverX ; // geometry parameter
	123	Float_t fAlFrontCoverZ ; // geometry parameter
	124	Float_t fFiberGlassSup2X ; // geometry parameter
	125	Float_t fFiberGlassSup1X ; // geometry parameter
	126	Float_t fFrameHeight ; // geometry parameter
	127	Float_t fFrameThickness ; // geometry parameter
	128	Float_t fAirSpaceFeeX ; // geometry parameter
	129	Float_t fAirSpaceFeeZ ; // geometry parameter
	130	Float_t fAirSpaceFeeY ; // geometry parameter
	131	Float_t fTCables2HalfSize[3] ; // geometry parameter
	132	Float_t fTCables1HalfSize[3] ; // geometry parameter
	133	Float_t fWarmUpperThickness ; // geometry parameter
	134	Float_t fWarmBottomThickness ; // geometry parameter
	135	Float_t fWarmAlCoverWidthX ; // geometry parameter
	136	Float_t fWarmAlCoverWidthY ; // geometry parameter
	137	Float_t fWarmAlCoverWidthZ ; // geometry parameter
	138	Float_t fWarmAlCoverHalfSize[3] ; // geometry parameter
	139	Float_t fWarmThermoHalfSize[3] ; // geometry parameter
	140	Float_t fFiberGlassSup1Y ; // geometry parameter
	141	Float_t fFiberGlassSup2Y ; // geometry parameter
	142	Float_t fTSupportDist ; // geometry parameter
	143	Float_t fTSupport1Thickness ; // geometry parameter
	144	Float_t fTSupport2Thickness ; // geometry parameter
	145	Float_t fTSupport1Width ; // geometry parameter
	146	Float_t fTSupport2Width ; // geometry parameter
	147	Float_t fFrameXHalfSize[3] ; // geometry parameter
	148	Float_t fFrameZHalfSize[3] ; // geometry parameter
	149	Float_t fFrameXPosition[3] ; // geometry parameter
	150	Float_t fFrameZPosition[3] ; // geometry parameter
	151	Float_t fFGupXHalfSize[3] ; // geometry parameter
	152	Float_t fFGupXPosition[3] ; // geometry parameter
	153	Float_t fFGupZHalfSize[3] ; // geometry parameter
	154	Float_t fFGupZPosition[3] ; // geometry parameter
	155	Float_t fFGlowXHalfSize[3] ; // geometry parameter
	156	Float_t fFGlowXPosition[3] ; // geometry parameter
	157	Float_t fFGlowZHalfSize[3] ; // geometry parameter
	158	Float_t fFGlowZPosition[3] ; // geometry parameter
	159	Float_t fFEEAirHalfSize[3] ; // geometry parameter
	160	Float_t fFEEAirPosition[3] ; // geometry parameter
	161	Float_t fEMCParams[4] ; // geometry parameter
a2bb6de5	162	Float_t fIPtoOuterCoverDistance ; // Distances from interaction point to outer cover
a2bb6de5	163	Float_t fIPtoCrystalSurface ; // Distances from interaction point to Xtal surface
88cb7938	164
a2bb6de5	165	Float_t fSupportPlateThickness ; // Thickness of the Aluminium support plate for Strip
88cb7938	166
a2bb6de5	167	Int_t fNCellsXInStrip ; // Number of cells in a strip unit in X
a2bb6de5	168	Int_t fNCellsZInStrip ; // Number of cells in a strip unit in Z
89308175	169	Int_t fNStripX ; // Number of strip units in X
	170	Int_t fNStripZ ; // Number of strip units in Z
	171	Int_t fNTSupports ; // geometry parameter
	172	Int_t fNPhi ; // Number of crystal units in X (phi) direction
	173	Int_t fNZ ; // Number of crystal units in Z direction
a2bb6de5	174	ClassDef(AliPHOSEMCAGeometry,1) // EMCA geometry class
2f2c3b32	175
	176	} ;
	177
	178	#endif // AliPHOSEMCAGEOMETRY_H