Added TRD hits.

[u/mrichter/AliRoot.git] / MUON / AliMUONConstants.h

diff --git a/MUON/AliMUONConstants.h b/MUON/AliMUONConstants.h
index 602a67208b575a536f421b16968c29d00e1f6548..2710dc2f661c426a498bd5f7c4caff479cf9dd04 100644 (file)
--- a/MUON/AliMUONConstants.h
+++ b/MUON/AliMUONConstants.h
@@ -5,55 +5,114 @@
 
 /* $Id$*/
 // Revision of includes 07/05/2004
+//
+/// \ingroup base
+/// \class AliMUONConstants
+/// \brief MUON global constants
 
 #include <TObject.h>
 
 class AliMUONConstants : public TObject {
  public:
-    // return number of chambers
+    /// Return number of chambers
     static Int_t    NCh() {return fgNCh;}
-    // return number of tracking chambers
+    /// Return number of tracking chambers
     static Int_t    NTrackingCh() {return fgNTrackingCh;}
-    // return number of trigger chambers
+    /// Return number of tracking stations
+    static Int_t    NTrackingSt() {return fgNTrackingSt;}
+    /// Return number of trigger chambers
     static Int_t    NTriggerCh() {return fgNTriggerCh;}
-    // return number of trigger circuits
+    /// Return number of trigger circuits
     static Int_t    NTriggerCircuit() {return fgNTriggerCircuit;}
-    // return position of chamber i
+    /// Return number of detection element
+    static Int_t    NDetElem() {return fgNDetElem;}
+    /// Return number of geometry modules
+    static Int_t    NGeomModules() {return fgNGeomModules;}
+    /// Return position of chamber i
     static Float_t  DefaultChamberZ(Int_t i) {return fgDefaultChamberZ[i];}
-    // return pointer to array of positions
-    static Float_t* DefaultChamberZ() {return fgDefaultChamberZ;}
-    // return chamber i inner diameter
-    static Float_t  Dmin(Int_t i) {return fgDmin[i];}
-    // return chamber i outer diameter
-    static Float_t  Dmax(Int_t i) {return fgDmax[i];}
-    // return maximum zoom for event display
-    static Int_t    MaxZoom() {return fgMaxZoom;}
-    // return half-distance between two half-chambers
-    static Float_t    DzCh() {return fgDzCh;}
-    // return half-distance between two slats
-    static Float_t    DzSlat() {return fgDzSlat;}
+    /// Return ratio between trigger chambers
+    static Float_t  DefaultRatioTriggerChamber(Int_t i) {return fgDefaultRatioTriggerChamber[i];}
+    /// Return Inclination with respect the vertical axis of stations 345
+    static Float_t  St345Inclination()       {return fgSt345inclination;}
+    /// Return pointer to array of positions
+    static Float_t* DefaultChamberZ()        {return fgDefaultChamberZ;}
+    /// Return chamber i inner diameter
+    static Float_t  Dmin(Int_t i)            {return fgDmin[i];}
+    /// Return chamber i inner radius
+    static Float_t  Rmin(Int_t i)            {return Dmin(i)/2.0;}
+    /// Return chamber i outer diameter
+    static Float_t  Dmax(Int_t i)            {return fgDmax[i];}
+    /// Return chamber i outer radius
+    static Float_t  Rmax(Int_t i)            {return Dmax(i)/2.0;}
+    /// Return maximum zoom for event display
+    static Int_t    MaxZoom()                {return fgMaxZoom;}
+    /// Return half-distance between two half-chambers
+    static Float_t  DzCh()                   {return fgDzCh;}
+    /// Return half-distance between two slats
+    static Float_t  DzSlat()                 {return fgDzSlat;}
+    /// Return chamber number according z position of hit.
     static  Int_t ChamberNumber(Float_t z); 
-
+    /// Return SqrtKx3 for Slat
+    static Float_t SqrtKx3()                 {return fgSqrtKx3;}
+    /// Return SqrtKy3 for Slat
+    static Float_t SqrtKy3()                 {return fgSqrtKy3;}
+    /// Return SqrtKx3 for Station 1 & 2
+    static Float_t SqrtKx3St1()              {return fgSqrtKx3St1;}
+    /// Return SqrtKy3 for Station 1 & 2
+    static Float_t SqrtKy3St1()              {return fgSqrtKy3St1;}
+    /// Return charge correlation (needed for response and for cluster finder !?)
+    static Float_t ChargeCorrel()            {return fgChargeCorrel;}
+    /// Return charge correlation for Station 1 & 2 (needed for response and for cluster finder !?)
+    static Float_t ChargeCorrelSt1()         {return fgChargeCorrelSt1;}
+    /// Return wire pitch
+    static Float_t Pitch()    {return fgPitch;}
+    /// Return wire pitch for Station 1 & 2
+    static Float_t PitchSt1() {return fgPitchSt1;}
+    /// Return chamber thickness in X0
+    static Double_t DefaultChamberThicknessInX0() {return fgDefaultChamberThicknessInX0;}
+    /// Return Trigger ToF Limit (75 ns)
+    static Float_t TriggerTofLimit() {return fgkTriggerTofLimit;}
+ 
  protected:
+    /// Default constructor
     AliMUONConstants() : TObject() {}
+    /// Destructor
     virtual ~AliMUONConstants(){}
 
  private:
-    static Int_t  fgNCh;                //  Number of Chambers    
-    static Int_t  fgNTrackingCh;        //  Number of Tracking Chambers
-    static Int_t  fgNTriggerCh;         //  Number of Trigger Chambers
-    static Int_t  fgNTriggerCircuit;    //  Number of Trigger Circuits
-//
-    static Float_t  fgDefaultChamberZ[14];    // ! Z-positions of chambers
-    static Float_t  fgDmin[7];                // ! inner diameter
-    static Float_t  fgDmax[7];                // ! outer diameter
+    static Int_t  fgNCh;                ///<  Number of Chambers    
+    static Int_t  fgNTrackingCh;        ///<  Number of Tracking Chambers
+    static Int_t  fgNTrackingSt;        ///<  Number of Tracking Stations
+    static Int_t  fgNTriggerCh;         ///<  Number of Trigger Chambers
+    static Int_t  fgNTriggerCircuit;    ///<  Number of Trigger Circuits
+    static Int_t  fgNDetElem;           ///<  Number of Detection Elements.
+    static Int_t  fgNGeomModules;       ///<  Number of Geometry modules   
 
-    static Float_t  fgDzCh;             // half-distance between two half-chambers 
-    static Float_t  fgDzSlat;           // half-distance between two slat on the same chamber
+    static Float_t  fgDefaultChamberZ[14];    //!< Z-positions of chambers
+    static Float_t  fgDefaultRatioTriggerChamber[4]; ///< Ratio between trigger chambers
+    static Float_t  fgSt345inclination;       //!< Inclination with respect the vertical axis of stations 345
+    static Float_t  fgDmin[7];                //!< Inner diameter
+    static Float_t  fgDmax[7];                //!< Outer diameter
 
-//
-    static Int_t    fgMaxZoom;                // Maximum Zoom for event display
-    ClassDef(AliMUONConstants, 0)             // MUON global constants 
+    static Float_t  fgDzCh;             ///< Half-distance between two half-chambers 
+    static Float_t  fgDzSlat;           ///< Half-distance between two slat on the same chamber
+    static Float_t  fgSqrtKx3;          ///< SqrtKx3 for St2 & Slat
+    static Float_t  fgSqrtKy3;          ///< SqrtKy3 for St2 & Slat
+    static Float_t  fgSqrtKx3St1;       ///< SqrtKx3 for Station 1 
+    static Float_t  fgSqrtKy3St1;       ///< SqrtKy3 for Station 1 
+ 
+    static Float_t  fgChargeCorrel;      ///< Charge correlation for St2 & Slats
+    static Float_t  fgChargeCorrelSt1;   ///< Charge correlation for Station 1
+
+    static Float_t  fgPitch;             ///< Wire pitch for St2 & Slats
+    static Float_t  fgPitchSt1;          ///< Wire pitch for Station 1
+
+    static Double_t  fgDefaultChamberThicknessInX0; ///< default chamber thickness in X0 for reconstruction
+    
+    static Int_t    fgMaxZoom;           ///< Maximum Zoom for event display
+    static Float_t fgkTriggerTofLimit;   ///< Particle above this threshold are discarded in trigger algorithm
+    
+    ClassDef(AliMUONConstants, 0) // MUON global constants 
 };
        
 #endif