When Pt is bad defined (ex. no field), the multiple scattering effect is calculated...

[u/mrichter/AliRoot.git] / FMD / AliFMDGeometryBuilder.h

#ifndef ALIFMDGEOMETRYBUILDER_H
#define ALIFMDGEOMETRYBUILDER_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights
 * reserved. 
 *
 * Latest changes by Christian Holm Christensen <cholm@nbi.dk>
 *
 * See cxx source for full Copyright notice                               
 */
// Builder of FMD geometry. 
// This class takes care of actually building the geometry using the 
// TGeo classes.  Various parameters are fecthed from the
// AliFMDGeometry manager.  
/** @file    AliFMDGeometryBuilder.h
    @author  Christian Holm Christensen <cholm@nbi.dk>
    @date    Mon Mar 27 12:41:17 2006
    @brief   Class to build the FMD geometry 
*/
#ifndef ROOT_TTask
# include <TTask.h>
#endif
#ifndef ROOT_TArrayI
# include <TArrayI.h>
#endif
class TGeoVolume;
class TGeoMedium;
class TGeoShape;
class AliFMD;
class AliFMDRing;
class AliFMDDetector;
class AliFMD1;
class AliFMD2;
class AliFMD3;

//____________________________________________________________________
/** @class AliFMDGeometryBuilder 
    @brief Builder of FMD geometry. 
    This class takes care of actually building the geometry using the
    @b TGeo classes.  Various parameters are fecthed from the
    AliFMDGeometry manager. 
    @ingroup FMD_sim
 */
class AliFMDGeometryBuilder : public TTask
{
public:
  /** CTOR */
  AliFMDGeometryBuilder();
  /** CTOR 
      @param detailed Whether to make a detailed geometry. */
  AliFMDGeometryBuilder(Bool_t detailed);
  virtual ~AliFMDGeometryBuilder() {}
  /** Register */
  virtual void Exec(Option_t* option="");
  /** @param use Wheher to assemblies in the geometry definition */
  virtual void UseAssembly(Bool_t use=kTRUE) { fUseAssembly = use; }
  /** Whether to make a detailed geometry or not. 
      @param use If true, make a detailed geometry */
  virtual void SetDetailed(Bool_t use) { fDetailed = use; }
  /** @return Sector offset in volume tree  */
  Int_t GetSectorOff() const { return fSectorOff; }
    /** @return Module offset in volume tree */
  Int_t GetModuleOff() const { return fModuleOff; }
    /** @return Ring offset in the volume tree  */
  Int_t GetRingOff() const { return fRingOff; }
    /** @return Detector offfset in the volume tree  */
  Int_t GetDetectorOff() const { return fDetectorOff; }
protected:
  /** Copy CTOR */
  AliFMDGeometryBuilder(const AliFMDGeometryBuilder& o) 
    : TTask(o),
      fActiveId(o.fActiveId),
      fDetailed(o.fDetailed),
      fUseAssembly(o.fUseAssembly),
      fSectorOff(o.fSectorOff),
      fModuleOff(o.fModuleOff),
      fRingOff(o.fRingOff),
      fDetectorOff(o.fDetectorOff),
      fSi(o.fSi),
      fC(o.fC),
      fAl(o.fAl),
      fPCB(o.fPCB),
      fChip(o.fChip),
      fAir(o.fAir),
      fPlastic(o.fPlastic),
      fCopper(o.fCopper), 
      fSteel(o.fSteel)
  {}
  /** 
   * Assignment operator 
   *
   * @return Reference to this object
   */  
  AliFMDGeometryBuilder& operator=(const AliFMDGeometryBuilder&){return *this;}

  /** 
   * Make a polygonic extrusion shape based on verticies passed in @a
   * verticies 
   * 
   * @param verticies List of verticies
   * @param thick     Thickness
   * 
   * @return newly allocated polygonic extrusion shape
   */
  virtual TGeoShape* MakeXTRU(const TObjArray& verticies, Double_t thick) const;
  
  /** 
   * Make a ring volume 
   * 
   * @param r Ring geometry 
   *
   * @return  Ring volume 
   */
  virtual TGeoVolume* RingGeometry(AliFMDRing* r);

  /** 
   * Make a honey comb shape from passed parameters.
   *
   * @param id       Detector identifier (1,2, or 3)
   * @param ring     Ring identifier ('I' or 'O')
   * @param r1       Inner radius
   * @param r2       Outer radius
   * @param w        width 
   * @param t        Thickness of material 
   * @param c        Clearing from horizontal. 
   *
   * @return Pointer to newly allocated composite shape. 
   */ 
  virtual TGeoShape* HoneycombShape(Int_t id, Char_t ring,
                                    double r1, double r2, 
                                    double w, double t, double c=0.3);
  /** 
   * Get the tension box volume
   * 
   * 
   * @return 
   */
  virtual TGeoVolume* TensionBox();
  /** Make a detector volume 
      @param d Detector geometry 
      @param motherTop Mother volume (detector volume)
      @param motherBot Mother volume (detector volume)
      @param zmother Z position of mother 
      @param innerTop Inner ring volume 
      @param innerBot Inner ring volume 
      @param outerTop Outer ring volume 
      @param outerBot Outer ring volume 
      @return  Detector volume */
  virtual TGeoVolume* DetectorGeometry(AliFMDDetector* d, 
                                       TGeoVolume* motherTop, 
                                       TGeoVolume* motherBot, 
                                       Double_t    zmother, 
                                       TGeoVolume* innerTop, 
                                       TGeoVolume* innerBot, 
                                       TGeoVolume* outerTop=0,
                                       TGeoVolume* outerBot=0);
  /** Make FMD1 volume 
      @param d Detector geometry 
      @param innerTop Inner ring volume 
      @param innerBot Inner ring volume 
      @return FMD1 volume  */
  virtual TGeoVolume* FMD1Geometry(AliFMD1* d, 
                                   TGeoVolume* innerTop,
                                   TGeoVolume* innerBot);
  /** 
   * Make FMD2 volume 
   *
   * @param d Detector geometry 
   * @param innerTop Inner ring volume 
   * @param innerBot Inner ring volume 
   * @param outerTop Outer ring volume 
   * @param outerBot Outer ring volume 
   *
   * @return FMD2 volume  
   */
  virtual TGeoVolume* FMD2Geometry(AliFMD2* d, 
                                   TGeoVolume* innerTop, 
                                   TGeoVolume* innerBot, 
                                   TGeoVolume* outerTop,
                                   TGeoVolume* outerBot);
  /**
   * Make FMD3 volume 
   *
   * @param d Detector geometry 
   * @param innerTop Inner ring volume 
   * @param innerBot Inner ring volume 
   * @param outerTop Outer ring volume 
   * @param outerBot Outer ring volume 
   *
   * @return FMD3 volume  
   */
  virtual TGeoVolume* FMD3Geometry(AliFMD3* d, 
                                   TGeoVolume* innerTop, 
                                   TGeoVolume* innerBot, 
                                   TGeoVolume* outerTop,
                                   TGeoVolume* outerBot);


  TArrayI     fActiveId;      //! Active volume ID's
  Bool_t      fDetailed;      // Whether to make a detailed simulation 
  Bool_t      fUseAssembly;   // Assembly volumes
  Int_t       fSectorOff;     // Sector offset in volume tree 
  Int_t       fModuleOff;     // Module offset in volume tree
  Int_t       fRingOff;       // Ring offset in the volume tree 
  Int_t       fDetectorOff;   // Detector offfset in the volume tree 

  TGeoMedium* fSi;       //! Si Medium
  TGeoMedium* fC;        //! C Medium
  TGeoMedium* fAl;       //! Al Medium
  TGeoMedium* fPCB;      //! PCB Medium
  TGeoMedium* fChip;     //! Chip Medium
  TGeoMedium* fAir;      //! Air Medium
  TGeoMedium* fPlastic;  //! Plastic Medium
  TGeoMedium* fCopper;   //! Copper Medium
  TGeoMedium* fSteel;    //! Steel Medium

  static const Char_t* fgkActiveName;   // Name of Active volumes
  static const Char_t* fgkSectorName;   // Name of Sector volumes
  static const Char_t* fgkStripName;    // Name of Strip volumes
  static const Char_t* fgkSensorName;   // Name of Sensor volumes
  static const Char_t* fgkPCBName;      // Name of PCB volumes
  static const Char_t* fgkCuName;       // Name of copper volumes
  static const Char_t* fgkChipName;     // Name of chip volumes
  static const Char_t* fgkLongLegName;  // Name of LongLeg volumes
  static const Char_t* fgkShortLegName; // Name of ShortLeg volumes
  static const Char_t* fgkFrontVName;   // Name of Front volumes
  static const Char_t* fgkBackVName;    // Name of Back volumes
  static const Char_t* fgkRingTopName;  // Name of Top ring volumes
  static const Char_t* fgkRingBotName;  // Name of Bottom ring volumes
  static const Char_t* fgkHCName;       // Name of Honeycomb volumes
  static const Char_t* fgkIHCName;      // Name of Inner honeycomb volumes
  static const Char_t* fgkNoseName;     // Name of Nose volumes
  static const Char_t* fgkBackName;     // Name of Back volumes
  static const Char_t* fgkTopName;      // Name of Back volumes
  static const Char_t* fgkBeamName;     // Name of Beam volumes
  static const Char_t* fgkFlangeName;   // Name of Flange volumes
  static const Char_t* fgkFMDDCuName;   // Name of FMDD copper volumes
  static const Char_t* fgkFMDDPCBName;  // Name of FMDD PCB volumes 
  static const Char_t* fgkFMDDChipName; // Name of FMDD chip volumes
  static const Char_t* fgkFMDDName;     // Name of FMDD volumes
  static const Char_t* fgkFMDName;      // Name of Half FMD volumes

  ClassDef(AliFMDGeometryBuilder,1)
};

#endif
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