Load pythia libraries.

[u/mrichter/AliRoot.git] / FMD / AliFMDv1.h

diff --git a/FMD/AliFMDv1.h b/FMD/AliFMDv1.h
index 951e3b50da0a6e8056d0b34a1300a0ac8bd34fb0..89d51c3bf36ced6476460c88eebf3d23e2ed8ea6 100644 (file)
--- a/FMD/AliFMDv1.h
+++ b/FMD/AliFMDv1.h
@@ -7,11 +7,18 @@
  *
  * See cxx source for full Copyright notice                               
  */
-
+/** @file    AliFMDv1.h
+    @author  Christian Holm Christensen <cholm@nbi.dk>
+    @date    Mon Mar 27 12:48:51 2006
+    @brief   Concrete implementation of FMD detector driver - detailed
+    version 
+*/
 //____________________________________________________________________
 //
 //  Manager class for the FMD - Detailed version. 
-//
+//  Implements the full geometry, 
+//  And does stepping
+// 
 #ifndef ALIFMD_H 
 # include "AliFMD.h"
 #endif
@@ -20,25 +27,117 @@
 #endif
  
 //____________________________________________________________________
+/** @brief Forward Multiplicity Detector based on Silicon wafers. 
+
+    This class contains the base procedures for the Forward
+    Multiplicity detector Detector consists of 3 sub-detectors FMD1,
+    FMD2, and FMD3, each of which has 1 or 2 rings of silicon sensors.
+                                                           
+    This class contains the detailed version of the FMD - that is,
+    hits are produced during simulation. 
+    @ingroup FMD_sim
+*/
 class AliFMDv1 : public AliFMD 
 {
 public:
-  AliFMDv1() { fDetailed = kTRUE; }
+  /** CTOR */
+  AliFMDv1()
+    : AliFMD(),
+      fCurrentDeltaE(0),
+      fCurrentV(),
+      fCurrentP(),
+      fCurrentPdg(0) { fDetailed = kTRUE; }
+  /** CTOR 
+      @param name Name 
+      @param title Title */
   AliFMDv1(const char *name, const char *title="Detailed geometry") 
-    : AliFMD(name, title) 
-  { fDetailed = kTRUE; }
+    : AliFMD(name, title),
+      fCurrentDeltaE(0),
+      fCurrentV(),
+      fCurrentP(),
+      fCurrentPdg(0) { fDetailed = kTRUE; }
+  /** DTOR */
   virtual ~AliFMDv1() {}
 
   // Required member functions 
+  /** Get version number 
+      @return always 1 */
   virtual Int_t  IsVersion() const {return 1;}
+  /** Member function that is executed each time a hit is made in the 
+      FMD.  None-charged particles are ignored.   Dead tracks  are
+      ignored.  
+      
+      The procedure is as follows: 
+      - IF NOT track is alive THEN RETURN ENDIF
+      - IF NOT particle is charged THEN RETURN ENDIF
+      - IF NOT volume name is "STRI" or "STRO" THEN RETURN ENDIF 
+      - Get strip number (volume copy # minus 1)
+      - Get phi division number (mother volume copy #)
+      - Get module number (grand-mother volume copy #)
+      - section # = 2 * module # + phi division # - 1
+      - Get ring Id from volume name 
+      - Get detector # from grand-grand-grand-mother volume name 
+      - Get pointer to sub-detector object. 
+      - Get track position 
+      - IF track is entering volume AND track is inside real shape THEN
+      -   Reset energy deposited 
+      -   Get track momentum 
+      -   Get particle ID # 
+      - ENDIF
+      - IF track is inside volume AND inside real shape THEN 
+      -   Update energy deposited 
+      - ENDIF 
+      - IF track is inside real shape AND (track is leaving volume,
+           or it died, or it is stopped  THEN
+      -   Create a hit 
+      - ENDIF 
+  */
   virtual void   StepManager();
 protected:
-  Double_t   fCurrentDeltaE;        // The current accumelated energy loss
+  /** Translate VMC coordinates to detector coordinates
+      @param v        On output, Current position
+      @param detector On output, detector #
+      @param ring     On output, ring id
+      @param sector   On output, sector #
+      @param strip    On output, strip #
+      @return @c true on success */
+  Bool_t VMC2FMD(TLorentzVector& v, UShort_t& detector,
+                Char_t& ring, UShort_t& sector, UShort_t& strip) const;
+  /** Translate VMC coordinates to detector coordinates
+      @param copy     Volume copy number 
+      @param v        On output, Current position
+      @param detector On output, detector #
+      @param ring     On output, ring id
+      @param sector   On output, sector #
+      @param strip    On output, strip #
+      @return @c true on success */
+  Bool_t VMC2FMD(Int_t copy, TLorentzVector& v,
+                UShort_t& detector, Char_t& ring,
+                UShort_t& sector, UShort_t& strip) const;
+  /** Check if hit is bad.  A hit is bad if 
+      @f[
+      \Delta E > |Q|^2 p / m > 1 
+      @f]
+      holds, where @f$ \Delta E@f$ is the energy loss in this step, 
+      @f$ Q@f$ is the particle charge, @f$ p@f$ is the track momentum,
+      and @f$ m@f$ is the particle mass.   If a track is marked as
+      bad, it's kept in a cache, and can be printed at the end of the
+      event. 
+      @param trackno Track number 
+      @param pdg     PDG particle type ID
+      @param absQ    Absolute value of particle charge
+      @param p       Track momentum
+      @param edep    Energy loss in this step.
+      @return @c true if hit is `bad' */
+  Bool_t CheckHit(Int_t trackno, Int_t pdg, Float_t absQ, 
+                 const TLorentzVector& p, Float_t edep) const;
+
+  Double_t       fCurrentDeltaE;    // The current accumulated energy loss
   TLorentzVector fCurrentV;         // Current production vertex 
   TLorentzVector fCurrentP;         // Current momentum vector 
   Int_t          fCurrentPdg;       // Current PDG code 
   
-  ClassDef(AliFMDv1,4)  // Detailed FMD geometry
+  ClassDef(AliFMDv1,5)  // Detailed FMD geometry
 };
 
 #endif