[u/mrichter/AliRoot.git] / EMCAL / AliEMCALv2.cxx

/**************************************************************************
 * Copyright(c) 1998-2004, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/* $Id$ */

//_________________________________________________________________________
//*-- Implementation version v2 of EMCAL Manager class; SHASHLYK version
//*-- An object of this class does not produce digits
//*-- It is the one to use if you do want to produce outputs in TREEH 
//*--                  
//*-- Author : Alexei Pavlinov (WSU)

// This Class not stores information on all particles prior to EMCAL entry - in order to facilitate analysis.
// This is done by setting fIShunt =2, and flagging all parents of particles entering the EMCAL.

#include <cassert>
// --- ROOT system ---
#include <TBrowser.h>
#include <TClonesArray.h>
#include <TH2.h>
#include <TParticle.h>
#include <TROOT.h>
#include <TVirtualMC.h>

// --- Standard library ---

// --- AliRoot header files ---
#include "AliEMCALv2.h"
#include "AliEMCALHit.h"
#include "AliEMCALGeometry.h"
#include "AliRun.h"
#include "AliHeader.h"
#include "AliMC.h"
#include "AliStack.h"
#include "AliTrackReference.h"
// for TRD1 case only; May 31,2006

ClassImp(AliEMCALv2)

//______________________________________________________________________
AliEMCALv2::AliEMCALv2()
  : AliEMCALv1()
{
  // ctor
}

//______________________________________________________________________
AliEMCALv2::AliEMCALv2(const char *name, const char *title)
  : AliEMCALv1(name,title)
{
    // Standard Creator.

    //fHits= new TClonesArray("AliEMCALHit",1000); //Already done in ctor of v1
    gAlice->GetMCApp()->AddHitList(fHits);

    fNhits    = 0;
    fIshunt   = 2; // All hits are associated with particles entering the calorimeter
    fTimeCut  = 30e-09;

    fGeometry = GetGeometry(); 
}

//______________________________________________________________________
AliEMCALv2::~AliEMCALv2(){
    // dtor

  //Already done in dtor of v1
//  if ( fHits ) {
//    fHits->Clear();
//    delete fHits;
//    fHits = 0;
//  }
}

//______________________________________________________________________
void AliEMCALv2::AddHit(Int_t shunt, Int_t primary, Int_t tracknumber, Int_t iparent, Float_t ienergy, 
			Int_t id, Float_t * hits,Float_t * p){
    // Add a hit to the hit list.
    // An EMCAL hit is the sum of all hits in a tower section
    //   originating from the same entering particle 
    static Int_t hitCounter;
    static AliEMCALHit *newHit, *curHit;
    static Bool_t deja ;
  
    deja = kFALSE;

    newHit = new AliEMCALHit(shunt, primary, tracknumber, iparent, ienergy, id, hits, p);
    for ( hitCounter = fNhits-1; hitCounter >= 0 && !deja; hitCounter-- ) {
	curHit = (AliEMCALHit*) (*fHits)[hitCounter];
	// We add hits with the same tracknumber, while GEANT treats
	// primaries succesively
	if(curHit->GetPrimary() != primary) 
	  break;
	if( *curHit == *newHit ) {
	    *curHit = *curHit + *newHit;
	    deja = kTRUE;
	    //            break; // 30-aug-04 by PAI 
	} // end if
    } // end for hitCounter
    
    if ( !deja ) {
	new((*fHits)[fNhits]) AliEMCALHit(*newHit);
	fNhits++;
    }
    //    printf(" fNhits %i \n", fNhits); 
    delete newHit;
}

//______________________________________________________________________
void AliEMCALv2::StepManager(void){
  // Accumulates hits as long as the track stays in a tower

  // position wrt MRS and energy deposited
  static Float_t        xyzte[5]={0.,0.,0.,0.,0.};// position wrt MRS, time and energy deposited
  static Float_t        pmom[4]={0.,0.,0.,0.};
  static TLorentzVector pos;  // Lorentz vector of the track current position.
  static TLorentzVector mom;  // Lorentz vector of the track current momentum.
  static Float_t ienergy = 0; // part->Energy();
  static TString curVolName="";
  static int supModuleNumber=-1, moduleNumber=-1, yNumber=-1, xNumber=-1, absid=-1;
  static int keyGeom=1;  //real TRD1 geometry
  static const char *vn = "SCMX"; // Apr 13, 2006 - only TRD1 case now
  static int nSMOP[7]={1,3,5,7,9,11}; // 30-mar-05
  static int nSMON[7]={2,4,6,8,10,12};
  static Float_t depositedEnergy=0.0; 

  if(keyGeom == 0) {
    keyGeom = 2;
    if(gMC->VolId("PBMO")==0 || gMC->VolId("WSUC")==1) {
      vn      = "SCMX";   // old TRD2(TRD1) or WSUC
      keyGeom = 1;
    }    
    printf("AliEMCALv2::StepManager():  keyGeom %i : Sensetive volume %s \n", 
    keyGeom, vn); 
    if(gMC->VolId("WSUC")==1) printf(" WSUC - cosmic ray stand geometry \n");
  }
  Int_t tracknumber =  gAlice->GetMCApp()->GetCurrentTrackNumber();
  Int_t parent=0;
  TParticle* part=0;

  curVolName = gMC->CurrentVolName();
  if(curVolName.Contains(vn) || curVolName.Contains("SCX")) { // We are in a scintillator layer; SCX for 3X3
    
    if( ((depositedEnergy = gMC->Edep()) > 0.)  && (gMC->TrackTime() < fTimeCut)){// Track is inside a scintillator and deposits some energy
      //       Info("StepManager "," entry %i DE %f",++ientry, depositedEnergy); // for testing
       if (fCurPrimary==-1) 
	fCurPrimary=gAlice->GetMCApp()->GetPrimary(tracknumber);

      if (fCurParent==-1 || tracknumber != fCurTrack) {
	// Check parentage
	parent=tracknumber;

	if (fCurParent != -1) {
	  while (parent != fCurParent && parent != -1) {
	    //TParticle *part=gAlice->GetMCApp()->Particle(parent);
	    part=gAlice->GetMCApp()->Particle(parent);
	    parent=part->GetFirstMother();
	  }
	}
	if (fCurParent==-1 || parent==-1) {
	  //Int_t parent=tracknumber;
	  //TParticle *part=gAlice->GetMCApp()->Particle(parent);
	  parent=tracknumber;
	  part=gAlice->GetMCApp()->Particle(parent);
	  while (parent != -1 && fGeometry->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) {
	    parent=part->GetFirstMother();
	    if (parent!=-1) 
	      part=gAlice->GetMCApp()->Particle(parent);
	  } 
	  fCurParent=parent;
	  if (fCurParent==-1)
	    Error("StepManager","Cannot find parent");
	  else {
	    //TParticle *part=gAlice->GetMCApp()->Particle(fCurParent);
	    part=gAlice->GetMCApp()->Particle(fCurParent);
	    ienergy = part->Energy(); 

	    //Add reference to parent in TR tree. 	
	    AddTrackReference(tracknumber, AliTrackReference::kEMCAL);

	  }
	  while (parent != -1) {
	    part=gAlice->GetMCApp()->Particle(parent);
	    part->SetBit(kKeepBit);
	    parent=part->GetFirstMother();
	  }
	}
	fCurTrack=tracknumber;
      }    
      gMC->TrackPosition(pos);
      xyzte[0] = pos[0];
      xyzte[1] = pos[1];
      xyzte[2] = pos[2];
      xyzte[3] = gMC->TrackTime() ;       
      
      gMC->TrackMomentum(mom);
      pmom[0] = mom[0];
      pmom[1] = mom[1];
      pmom[2] = mom[2];
      pmom[3] = mom[3];
      
      //      if(ientry%200 > 0) return; // testing
      supModuleNumber = moduleNumber = yNumber = xNumber = absid = 0;
      if(keyGeom >= 1) { // TRD1 case now
        gMC->CurrentVolOffID(4, supModuleNumber);
        gMC->CurrentVolOffID(3, moduleNumber);
        gMC->CurrentVolOffID(1, yNumber);
        gMC->CurrentVolOffID(0, xNumber); // really x number now
        if(strcmp(gMC->CurrentVolOffName(4),"SM10")==0) supModuleNumber += 10; // 13-oct-05
	// Nov 10,2006
        if(strcmp(gMC->CurrentVolOffName(0),vn) != 0) { // 3X3 case
          if     (strcmp(gMC->CurrentVolOffName(0),"SCX1")==0) xNumber=1;
          else if(strcmp(gMC->CurrentVolOffName(0),"SCX2")==0) xNumber=2;
          else if(strcmp(gMC->CurrentVolOffName(0),"SCX3")==0) xNumber=3;
          else Fatal("StepManager()", "Wrong name of sensitive volume in 3X3 case : %s ", gMC->CurrentVolOffName(0));
	}
      } else {
        gMC->CurrentVolOffID(5, supModuleNumber);
        gMC->CurrentVolOffID(4, moduleNumber);
        gMC->CurrentVolOffID(1, yNumber);
        gMC->CurrentVolOffID(0, xNumber);
        if     (strcmp(gMC->CurrentVolOffName(5),"SMOP")==0) supModuleNumber = nSMOP[supModuleNumber-1];
        else if(strcmp(gMC->CurrentVolOffName(5),"SMON")==0) supModuleNumber = nSMON[supModuleNumber-1];
        else   assert(0); // something wrong
      }
		
      // Due to problem with index ordering conventions the calcultation of absid is no more like this:	
      //absid = fGeometry->GetAbsCellId(smNumber, moduleNumber-1, yNumber-1, xNumber-1);
      
      //Swap A side in Phi and C side in Eta due to wrong indexing.
      Int_t iphi = -1;
      Int_t ieta = -1;
      Int_t smNumber = supModuleNumber-1;
      Int_t smType   = 1;
      fGeometry->GetCellPhiEtaIndexInSModule(smNumber,moduleNumber-1,yNumber-1,xNumber-1, iphi, ieta);
      if (smNumber%2 == 0) {
	ieta = ((fGeometry->GetCentersOfCellsEtaDir()).GetSize()-1)-ieta;// 47-ieta, revert the ordering on A side in order to keep convention.
      }
      else {  
	if(smNumber >= 10) smType = 2 ; //half supermodule
	iphi= ((fGeometry->GetCentersOfCellsPhiDir()).GetSize()/smType-1)-iphi;//23-iphi, revert the ordering on C side in order to keep convention.
      }
      
      //Once we know the indexes, calculate the absolute ID
      absid = fGeometry->GetAbsCellIdFromCellIndexes(smNumber, iphi, ieta);
      
      if (absid < 0) {
        printf(" supModuleNumber %i : moduleNumber %i : yNumber %i : xNumber %i \n",
	       supModuleNumber, moduleNumber, yNumber, xNumber); 
	Fatal("StepManager()", "Wrong id : %i ", absid) ; 
      }

      Float_t lightYield =  depositedEnergy ;
      // Apply Birk's law (copied from G3BIRK)

      if (gMC->TrackCharge()!=0) { // Check
	  Float_t birkC1Mod = 0;
	if (fBirkC0==1){ // Apply correction for higher charge states
	  if (TMath::Abs(gMC->TrackCharge())>=2) birkC1Mod = fBirkC1*7.2/12.6;
	  else                                   birkC1Mod = fBirkC1;
	}

	Float_t dedxcm=0.;
	if (gMC->TrackStep()>0)  dedxcm=1000.*gMC->Edep()/gMC->TrackStep();
	else                     dedxcm=0;
	lightYield=lightYield/(1.+birkC1Mod*dedxcm+fBirkC2*dedxcm*dedxcm);
      } 

      // use sampling fraction to get original energy --HG
      //      xyzte[4] = lightYield * fGeometry->GetSampling();
      xyzte[4] = lightYield; // 15-dec-04
        
      if (gDebug == -2) 
      printf("#sm %2i #m %3i #x %1i #z %1i -> absid %i : xyzte[4] = %f\n",
      supModuleNumber,moduleNumber,yNumber,xNumber,absid, xyzte[4]);

      AddHit(fIshunt, fCurPrimary,tracknumber, fCurParent, ienergy, absid,  xyzte, pmom);
    } // there is deposited energy
  }
}
Commit	Line	Data
1963b290	1	/**************************************************************************
	2	* Copyright(c) 1998-2004, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16	/* $Id$ */
	17
	18	//_________________________________________________________________________
d87bd045	19	//*-- Implementation version v2 of EMCAL Manager class; SHASHLYK version
1963b290	20	//*-- An object of this class does not produce digits
	21	//*-- It is the one to use if you do want to produce outputs in TREEH
	22	//*--
3d841a9f	23	//*-- Author : Alexei Pavlinov (WSU)
d87bd045	24
1963b290	25	// This Class not stores information on all particles prior to EMCAL entry - in order to facilitate analysis.
	26	// This is done by setting fIShunt =2, and flagging all parents of particles entering the EMCAL.
	27
7dd95fbf	28	#include <cassert>
1963b290	29	// --- ROOT system ---
cde6a23d	30	#include <TBrowser.h>
7ca4655f	31	#include <TClonesArray.h>
cde6a23d	32	#include <TH2.h>
7ca4655f	33	#include <TParticle.h>
a1e17193	34	#include <TROOT.h>
7ca4655f	35	#include <TVirtualMC.h>
1963b290	36
	37	// --- Standard library ---
	38
	39	// --- AliRoot header files ---
	40	#include "AliEMCALv2.h"
	41	#include "AliEMCALHit.h"
	42	#include "AliEMCALGeometry.h"
	43	#include "AliRun.h"
	44	#include "AliHeader.h"
	45	#include "AliMC.h"
5bf6eb16	46	#include "AliStack.h"
6c62c273	47	#include "AliTrackReference.h"
dc7da436	48	// for TRD1 case only; May 31,2006
1963b290	49
	50	ClassImp(AliEMCALv2)
	51
1963b290	52	//______________________________________________________________________
18a21c7c	53	AliEMCALv2::AliEMCALv2()
ab6a174f	54	: AliEMCALv1()
18a21c7c	55	{
1963b290	56	// ctor
1963b290	57	}
	58
	59	//______________________________________________________________________
18a21c7c	60	AliEMCALv2::AliEMCALv2(const char name, const char title)
ab6a174f	61	: AliEMCALv1(name,title)
18a21c7c	62	{
1963b290	63	// Standard Creator.
1963b290	64
96d5ea0d	65	//fHits= new TClonesArray("AliEMCALHit",1000); //Already done in ctor of v1
1963b290	66	gAlice->GetMCApp()->AddHitList(fHits);
	67
	68	fNhits = 0;
	69	fIshunt = 2; // All hits are associated with particles entering the calorimeter
	70	fTimeCut = 30e-09;
	71
	72	fGeometry = GetGeometry();
1963b290	73	}
	74
	75	//______________________________________________________________________
	76	AliEMCALv2::~AliEMCALv2(){
	77	// dtor
	78
96d5ea0d	79	//Already done in dtor of v1
	80	// if ( fHits ) {
	81	// fHits->Clear();
	82	// delete fHits;
	83	// fHits = 0;
	84	// }
1963b290	85	}
	86
	87	//______________________________________________________________________
	88	void AliEMCALv2::AddHit(Int_t shunt, Int_t primary, Int_t tracknumber, Int_t iparent, Float_t ienergy,
	89	Int_t id, Float_t * hits,Float_t * p){
	90	// Add a hit to the hit list.
	91	// An EMCAL hit is the sum of all hits in a tower section
	92	// originating from the same entering particle
80b68f94	93	static Int_t hitCounter;
	94	static AliEMCALHit newHit, curHit;
	95	static Bool_t deja ;
	96
	97	deja = kFALSE;
1963b290	98
	99	newHit = new AliEMCALHit(shunt, primary, tracknumber, iparent, ienergy, id, hits, p);
	100	for ( hitCounter = fNhits-1; hitCounter >= 0 && !deja; hitCounter-- ) {
	101	curHit = (AliEMCALHit) (fHits)[hitCounter];
	102	// We add hits with the same tracknumber, while GEANT treats
	103	// primaries succesively
	104	if(curHit->GetPrimary() != primary)
	105	break;
	106	if( curHit == newHit ) {
	107	curHit = curHit + *newHit;
	108	deja = kTRUE;
	109	// break; // 30-aug-04 by PAI
	110	} // end if
	111	} // end for hitCounter
	112
	113	if ( !deja ) {
	114	new((fHits)[fNhits]) AliEMCALHit(newHit);
	115	fNhits++;
	116	}
	117	// printf(" fNhits %i \n", fNhits);
	118	delete newHit;
	119	}
d297ef6e	120
1963b290	121	//______________________________________________________________________
	122	void AliEMCALv2::StepManager(void){
	123	// Accumulates hits as long as the track stays in a tower
	124
	125	// position wrt MRS and energy deposited
	126	static Float_t xyzte[5]={0.,0.,0.,0.,0.};// position wrt MRS, time and energy deposited
	127	static Float_t pmom[4]={0.,0.,0.,0.};
d25f2c54	128	static TLorentzVector pos; // Lorentz vector of the track current position.
	129	static TLorentzVector mom; // Lorentz vector of the track current momentum.
	130	static Float_t ienergy = 0; // part->Energy();
53e430a3	131	static TString curVolName="";
53e430a3	132	static int supModuleNumber=-1, moduleNumber=-1, yNumber=-1, xNumber=-1, absid=-1;
d297ef6e	133	static int keyGeom=1; //real TRD1 geometry
a6e0ebfe	134	static const char *vn = "SCMX"; // Apr 13, 2006 - only TRD1 case now
1963b290	135	static int nSMOP[7]={1,3,5,7,9,11}; // 30-mar-05
	136	static int nSMON[7]={2,4,6,8,10,12};
	137	static Float_t depositedEnergy=0.0;
	138
	139	if(keyGeom == 0) {
	140	keyGeom = 2;
	141	if(gMC->VolId("PBMO")==0 \|\| gMC->VolId("WSUC")==1) {
	142	vn = "SCMX"; // old TRD2(TRD1) or WSUC
	143	keyGeom = 1;
	144	}
	145	printf("AliEMCALv2::StepManager(): keyGeom %i : Sensetive volume %s \n",
	146	keyGeom, vn);
	147	if(gMC->VolId("WSUC")==1) printf(" WSUC - cosmic ray stand geometry \n");
	148	}
	149	Int_t tracknumber = gAlice->GetMCApp()->GetCurrentTrackNumber();
53e430a3	150	Int_t parent=0;
53e430a3	151	TParticle* part=0;
1963b290	152
1963b290	153	curVolName = gMC->CurrentVolName();
1d46d1f6	154	if(curVolName.Contains(vn) \|\| curVolName.Contains("SCX")) { // We are in a scintillator layer; SCX for 3X3
1963b290	155
	156	if( ((depositedEnergy = gMC->Edep()) > 0.) && (gMC->TrackTime() < fTimeCut)){// Track is inside a scintillator and deposits some energy
	157	// Info("StepManager "," entry %i DE %f",++ientry, depositedEnergy); // for testing
	158	if (fCurPrimary==-1)
	159	fCurPrimary=gAlice->GetMCApp()->GetPrimary(tracknumber);
	160
	161	if (fCurParent==-1 \|\| tracknumber != fCurTrack) {
	162	// Check parentage
e63c78ba	163	parent=tracknumber;
6c62c273	164
1963b290	165	if (fCurParent != -1) {
1963b290	166	while (parent != fCurParent && parent != -1) {
e63c78ba	167	//TParticle *part=gAlice->GetMCApp()->Particle(parent);
e63c78ba	168	part=gAlice->GetMCApp()->Particle(parent);
1963b290	169	parent=part->GetFirstMother();
	170	}
	171	}
	172	if (fCurParent==-1 \|\| parent==-1) {
e63c78ba	173	//Int_t parent=tracknumber;
	174	//TParticle *part=gAlice->GetMCApp()->Particle(parent);
	175	parent=tracknumber;
	176	part=gAlice->GetMCApp()->Particle(parent);
1963b290	177	while (parent != -1 && fGeometry->IsInEMCAL(part->Vx(),part->Vy(),part->Vz())) {
	178	parent=part->GetFirstMother();
	179	if (parent!=-1)
	180	part=gAlice->GetMCApp()->Particle(parent);
	181	}
	182	fCurParent=parent;
	183	if (fCurParent==-1)
	184	Error("StepManager","Cannot find parent");
	185	else {
e63c78ba	186	//TParticle *part=gAlice->GetMCApp()->Particle(fCurParent);
e63c78ba	187	part=gAlice->GetMCApp()->Particle(fCurParent);
1963b290	188	ienergy = part->Energy();
6c62c273	189
	190	//Add reference to parent in TR tree.
	191	AddTrackReference(tracknumber, AliTrackReference::kEMCAL);
	192
1963b290	193	}
	194	while (parent != -1) {
	195	part=gAlice->GetMCApp()->Particle(parent);
	196	part->SetBit(kKeepBit);
	197	parent=part->GetFirstMother();
	198	}
	199	}
	200	fCurTrack=tracknumber;
	201	}
	202	gMC->TrackPosition(pos);
	203	xyzte[0] = pos[0];
	204	xyzte[1] = pos[1];
	205	xyzte[2] = pos[2];
	206	xyzte[3] = gMC->TrackTime() ;
	207
	208	gMC->TrackMomentum(mom);
	209	pmom[0] = mom[0];
	210	pmom[1] = mom[1];
	211	pmom[2] = mom[2];
	212	pmom[3] = mom[3];
	213
	214	// if(ientry%200 > 0) return; // testing
	215	supModuleNumber = moduleNumber = yNumber = xNumber = absid = 0;
d25f2c54	216	if(keyGeom >= 1) { // TRD1 case now
1963b290	217	gMC->CurrentVolOffID(4, supModuleNumber);
	218	gMC->CurrentVolOffID(3, moduleNumber);
	219	gMC->CurrentVolOffID(1, yNumber);
	220	gMC->CurrentVolOffID(0, xNumber); // really x number now
d87bd045	221	if(strcmp(gMC->CurrentVolOffName(4),"SM10")==0) supModuleNumber += 10; // 13-oct-05
1d46d1f6	222	// Nov 10,2006
d25f2c54	223	if(strcmp(gMC->CurrentVolOffName(0),vn) != 0) { // 3X3 case
	224	if (strcmp(gMC->CurrentVolOffName(0),"SCX1")==0) xNumber=1;
	225	else if(strcmp(gMC->CurrentVolOffName(0),"SCX2")==0) xNumber=2;
	226	else if(strcmp(gMC->CurrentVolOffName(0),"SCX3")==0) xNumber=3;
6c62c273	227	else Fatal("StepManager()", "Wrong name of sensitive volume in 3X3 case : %s ", gMC->CurrentVolOffName(0));
1d46d1f6	228	}
1963b290	229	} else {
	230	gMC->CurrentVolOffID(5, supModuleNumber);
	231	gMC->CurrentVolOffID(4, moduleNumber);
	232	gMC->CurrentVolOffID(1, yNumber);
d87bd045	233	gMC->CurrentVolOffID(0, xNumber);
d87bd045	234	if (strcmp(gMC->CurrentVolOffName(5),"SMOP")==0) supModuleNumber = nSMOP[supModuleNumber-1];
1963b290	235	else if(strcmp(gMC->CurrentVolOffName(5),"SMON")==0) supModuleNumber = nSMON[supModuleNumber-1];
	236	else assert(0); // something wrong
	237	}
c694fff1	238
	239	// Due to problem with index ordering conventions the calcultation of absid is no more like this:
	240	//absid = fGeometry->GetAbsCellId(smNumber, moduleNumber-1, yNumber-1, xNumber-1);
	241
	242	//Swap A side in Phi and C side in Eta due to wrong indexing.
	243	Int_t iphi = -1;
	244	Int_t ieta = -1;
	245	Int_t smNumber = supModuleNumber-1;
	246	Int_t smType = 1;
	247	fGeometry->GetCellPhiEtaIndexInSModule(smNumber,moduleNumber-1,yNumber-1,xNumber-1, iphi, ieta);
	248	if (smNumber%2 == 0) {
	249	ieta = ((fGeometry->GetCentersOfCellsEtaDir()).GetSize()-1)-ieta;// 47-ieta, revert the ordering on A side in order to keep convention.
	250	}
	251	else {
	252	if(smNumber >= 10) smType = 2 ; //half supermodule
	253	iphi= ((fGeometry->GetCentersOfCellsPhiDir()).GetSize()/smType-1)-iphi;//23-iphi, revert the ordering on C side in order to keep convention.
	254	}
	255
	256	//Once we know the indexes, calculate the absolute ID
	257	absid = fGeometry->GetAbsCellIdFromCellIndexes(smNumber, iphi, ieta);
	258
1d46d1f6	259	if (absid < 0) {
1d46d1f6	260	printf(" supModuleNumber %i : moduleNumber %i : yNumber %i : xNumber %i \n",
c694fff1	261	supModuleNumber, moduleNumber, yNumber, xNumber);
1d46d1f6	262	Fatal("StepManager()", "Wrong id : %i ", absid) ;
1d46d1f6	263	}
1963b290	264
	265	Float_t lightYield = depositedEnergy ;
	266	// Apply Birk's law (copied from G3BIRK)
	267
	268	if (gMC->TrackCharge()!=0) { // Check
cde6a23d	269	Float_t birkC1Mod = 0;
1963b290	270	if (fBirkC0==1){ // Apply correction for higher charge states
cde6a23d	271	if (TMath::Abs(gMC->TrackCharge())>=2) birkC1Mod = fBirkC1*7.2/12.6;
cde6a23d	272	else birkC1Mod = fBirkC1;
1963b290	273	}
1963b290	274
53e430a3	275	Float_t dedxcm=0.;
1963b290	276	if (gMC->TrackStep()>0) dedxcm=1000.*gMC->Edep()/gMC->TrackStep();
1963b290	277	else dedxcm=0;
cde6a23d	278	lightYield=lightYield/(1.+birkC1Moddedxcm+fBirkC2dedxcm*dedxcm);
1963b290	279	}
	280
	281	// use sampling fraction to get original energy --HG
	282	// xyzte[4] = lightYield * fGeometry->GetSampling();
	283	xyzte[4] = lightYield; // 15-dec-04
	284
	285	if (gDebug == -2)
	286	printf("#sm %2i #m %3i #x %1i #z %1i -> absid %i : xyzte[4] = %f\n",
	287	supModuleNumber,moduleNumber,yNumber,xNumber,absid, xyzte[4]);
	288
	289	AddHit(fIshunt, fCurPrimary,tracknumber, fCurParent, ienergy, absid, xyzte, pmom);
	290	} // there is deposited energy
	291	}
	292	}