StepManager and CreateMaterials removed (inherited from AliRICH) (J. Barbosa)

diff --git a/RICH/AliRICHv3.cxx b/RICH/AliRICHv3.cxx
index 6e6e07de66ca52adaae0a7e7dd91f2ed0c8171d2..cf6de68c537a136bad31e82cbab685ed90f76492 100644 (file)
--- a/RICH/AliRICHv3.cxx
+++ b/RICH/AliRICHv3.cxx
@@ -77,245 +77,6 @@ AliRICHv3::~AliRICHv3()
    delete GetChamber(0)->GetSegmentationModel();
 }//AliRICHv3::dtor()
 
-void AliRICHv3::CreateMaterials()
-{
-// Provides material definition for simulation (currently GEANT)    
-   if(IsDebugStart()) cout<<ClassName()<<"::CreateMaterials()>\n";
-   
-   Int_t   isxfld = gAlice->Field()->Integ();
-   Float_t sxmgmx = gAlice->Field()->Max();
-   Int_t i;
-    
-
-    //Photons energy intervals
-    Float_t ppckov[26];
-    for (i=0;i<26;i++) 
-    {
-       ppckov[i] = (Float_t(i)*0.1+5.5)*1e-9;
-       //printf ("Energy intervals: %e\n",ppckov[i]);
-    }
-    
-    
-    //Refraction index for quarz
-    Float_t rIndexQuarz[26];
-    Float_t  e1= 10.666;
-    Float_t  e2= 18.125;
-    Float_t  f1= 46.411;
-    Float_t  f2= 228.71;
-    for (i=0;i<26;i++)
-    {
-       Float_t ene=ppckov[i]*1e9;
-       Float_t a=f1/(e1*e1 - ene*ene);
-       Float_t b=f2/(e2*e2 - ene*ene);
-       rIndexQuarz[i] = TMath::Sqrt(1. + a + b );
-       //printf ("rIndexQuarz: %e\n",rIndexQuarz[i]);
-    } 
-    
-    //Refraction index for opaque quarz, methane and grid
-    Float_t rIndexOpaqueQuarz[26];
-    Float_t rIndexMethane[26];
-    Float_t rIndexGrid[26];
-    for (i=0;i<26;i++)
-    {
-       rIndexOpaqueQuarz[i]=1;
-       rIndexMethane[i]=1.000444;
-       rIndexGrid[i]=1;
-       //printf ("rIndexOpaqueQuarz , etc: %e, %e, %e\n",rIndexOpaqueQuarz[i], rIndexMethane[i], rIndexGrid[i]=1);
-    } 
-    
-    //Absorption index for freon
-    Float_t abscoFreon[26] = {179.0987, 179.0987, 179.0987, 179.0987, 179.0987,  179.0987, 179.0987, 179.0987, 
-                              179.0987, 142.9206, 56.64957, 25.58622, 13.95293, 12.03905, 10.42953, 8.804196, 
-                              7.069031, 4.461292, 2.028366, 1.293013, .577267,   .40746,  .334964, 0., 0., 0.};
-    
-
-    Float_t abscoQuarz [26] = {105.8, 65.52, 48.58, 42.85, 35.79, 31.262, 28.598, 27.527, 25.007, 22.815, 21.004,
-                               19.266, 17.525, 15.878, 14.177, 11.719, 9.282, 6.62, 4.0925, 2.601, 1.149, .667, .3627,
-                               .192, .1497, .10857};
-    
-    //Absorption index for methane
-    Float_t abscoMethane[26];
-    for (i=0;i<26;i++) 
-    {
-       abscoMethane[i]=AbsoCH4(ppckov[i]*1e9); 
-       //printf("abscoMethane: %e for energy: %e\n", abscoMethane[i],ppckov[i]*1e9);
-    }
-    
-    //Absorption index for opaque quarz, csi and grid, efficiency for all and grid
-    Float_t abscoOpaqueQuarz[26];
-    Float_t abscoCsI[26];
-    Float_t abscoGrid[26];
-    Float_t efficAll[26];
-    Float_t efficGrid[26];
-    for (i=0;i<26;i++)
-    { 
-       abscoOpaqueQuarz[i]=1e-5; 
-       abscoCsI[i]=1e-4; 
-       abscoGrid[i]=1e-4; 
-       efficAll[i]=1; 
-       efficGrid[i]=1;
-    } 
-    
-    //Efficiency for csi 
-    
-    Float_t efficCsI[26] = {0.000199999995, 0.000600000028, 0.000699999975, 0.00499999989, 0.00749999983, 0.010125,
-                            0.0242999997, 0.0405000001, 0.0688500032, 0.105299994, 0.121500008, 0.141749993, 0.157949999,
-                            0.162, 0.166050002, 0.167669997, 0.174299985, 0.176789999, 0.179279998, 0.182599992, 0.18592,
-                            0.187579989, 0.189239994, 0.190899998, 0.207499996, 0.215799987};
-       
-    
-
-    //FRESNEL LOSS CORRECTION FOR PERPENDICULAR INCIDENCE AND
-    //UNPOLARIZED PHOTONS
-
-    for (i=0;i<26;i++)
-    {
-       efficCsI[i] = efficCsI[i]/(1.-Fresnel(ppckov[i]*1e9,1.,0)); 
-    }
-       
-    
-    Float_t afre[2], agri, amet[2], aqua[2], ahon, zfre[2], zgri, zhon, 
-    zmet[2], zqua[2];
-    Int_t nlmatfre;
-    Float_t densquao;
-    Int_t nlmatmet, nlmatqua;
-    Float_t wmatquao[2], rIndexFreon[26];
-    Float_t aquao[2], epsil, stmin, zquao[2];
-    Int_t nlmatquao;
-    Float_t radlal, densal, tmaxfd, deemax, stemax;
-    Float_t aal, zal, radlgri, densfre, radlhon, densgri, denshon,densqua, densmet, wmatfre[2], wmatmet[2], wmatqua[2];
-    
-    Int_t *idtmed = fIdtmed->GetArray()-999;
-    
-    // --- Photon energy (GeV) 
-    // --- Refraction indexes 
-    for (i = 0; i < 26; ++i) {
-      rIndexFreon[i] = ppckov[i] * .0172 * 1e9 + 1.177;
-      //rIndexFreon[i] = 1;
-       //printf ("rIndexFreon: %e \n efficCsI: %e for energy: %e\n",rIndexFreon[i], efficCsI[i], ppckov[i]);
-    }
-            
-    // --- Detection efficiencies (quantum efficiency for CsI) 
-    // --- Define parameters for honeycomb. 
-    //     Used carbon of equivalent rad. lenght 
-    
-    ahon    = 12.01;
-    zhon    = 6.;
-    denshon = 0.1;
-    radlhon = 18.8;
-    
-    // --- Parameters to include in GSMIXT, relative to Quarz (SiO2) 
-    
-    aqua[0]    = 28.09;
-    aqua[1]    = 16.;
-    zqua[0]    = 14.;
-    zqua[1]    = 8.;
-    densqua    = 2.64;
-    nlmatqua   = -2;
-    wmatqua[0] = 1.;
-    wmatqua[1] = 2.;
-    
-    // --- Parameters to include in GSMIXT, relative to opaque Quarz (SiO2) 
-    
-    aquao[0]    = 28.09;
-    aquao[1]    = 16.;
-    zquao[0]    = 14.;
-    zquao[1]    = 8.;
-    densquao    = 2.64;
-    nlmatquao   = -2;
-    wmatquao[0] = 1.;
-    wmatquao[1] = 2.;
-    
-    // --- Parameters to include in GSMIXT, relative to Freon (C6F14) 
-    
-    afre[0]    = 12.;
-    afre[1]    = 19.;
-    zfre[0]    = 6.;
-    zfre[1]    = 9.;
-    densfre    = 1.7;
-    nlmatfre   = -2;
-    wmatfre[0] = 6.;
-    wmatfre[1] = 14.;
-    
-    // --- Parameters to include in GSMIXT, relative to methane (CH4) 
-    
-    amet[0]    = 12.01;
-    amet[1]    = 1.;
-    zmet[0]    = 6.;
-    zmet[1]    = 1.;
-    densmet    = 7.17e-4;
-    nlmatmet   = -2;
-    wmatmet[0] = 1.;
-    wmatmet[1] = 4.;
-    
-    // --- Parameters to include in GSMIXT, relative to anode grid (Cu) 
-  
-    agri    = 63.54;
-    zgri    = 29.;
-    densgri = 8.96;
-    radlgri = 1.43;
-    
-    // --- Parameters to include in GSMATE related to aluminium sheet 
-    
-    aal    = 26.98;
-    zal    = 13.;
-    densal = 2.7;
-    radlal = 8.9;
-
-    // --- Glass parameters
-
-    Float_t aglass[5]={12.01, 28.09, 16.,   10.8,  23.};
-    Float_t zglass[5]={ 6.,   14.,    8.,    5.,   11.};
-    Float_t wglass[5]={ 0.5,  0.105, 0.355, 0.03,  0.01};
-    Float_t dglass=1.74;
-
-    
-    AliMaterial(1, "Air     $", 14.61, 7.3, .001205, 30420., 67500);
-    AliMaterial(6, "HON", ahon, zhon, denshon, radlhon, 0);
-    AliMaterial(16, "CSI", ahon, zhon, denshon, radlhon, 0);
-    AliMixture(20, "QUA", aqua, zqua, densqua, nlmatqua, wmatqua);
-    AliMixture(21, "QUAO", aquao, zquao, densquao, nlmatquao, wmatquao);
-    AliMixture(30, "FRE", afre, zfre, densfre, nlmatfre, wmatfre);
-    AliMixture(40, "MET", amet, zmet, densmet, nlmatmet, wmatmet);
-    AliMixture(41, "METG", amet, zmet, densmet, nlmatmet, wmatmet);
-    AliMaterial(11, "GRI", agri, zgri, densgri, radlgri, 0);
-    AliMaterial(50, "ALUM", aal, zal, densal, radlal, 0);
-    AliMixture(32, "GLASS",aglass, zglass, dglass, 5, wglass);
-    AliMaterial(31, "COPPER$",   63.54,    29.,   8.96,  1.4, 0.);
-    
-    tmaxfd = -10.;
-    stemax = -.1;
-    deemax = -.2;
-    epsil  = .001;
-    stmin  = -.001;
-    
-    AliMedium(1, "DEFAULT MEDIUM AIR$", 1, 0, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(2, "HONEYCOMB$", 6, 0, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(3, "QUARZO$", 20, 1, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(4, "FREON$", 30, 1, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(5, "METANO$", 40, 1, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(6, "CSI$", 16, 1, isxfld, sxmgmx,tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(7, "GRIGLIA$", 11, 0, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(8, "QUARZOO$", 21, 1, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(9, "GAP$", 41, 1, isxfld, sxmgmx,tmaxfd, .1, -deemax, epsil, -stmin);
-    AliMedium(10, "ALUMINUM$", 50, 1, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(11, "GLASS", 32, 0, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    AliMedium(12, "PCB_COPPER", 31, 0, isxfld, sxmgmx, tmaxfd, stemax, deemax, epsil, stmin);
-    
-
-    gMC->SetCerenkov(idtmed[1000], 26, ppckov, abscoMethane, efficAll, rIndexMethane);
-    gMC->SetCerenkov(idtmed[1001], 26, ppckov, abscoMethane, efficAll, rIndexMethane);
-    gMC->SetCerenkov(idtmed[1002], 26, ppckov, abscoQuarz, efficAll,rIndexQuarz);
-    gMC->SetCerenkov(idtmed[1003], 26, ppckov, abscoFreon, efficAll,rIndexFreon);
-    gMC->SetCerenkov(idtmed[1004], 26, ppckov, abscoMethane, efficAll, rIndexMethane);
-    gMC->SetCerenkov(idtmed[1005], 26, ppckov, abscoCsI, efficCsI, rIndexMethane);
-    gMC->SetCerenkov(idtmed[1006], 26, ppckov, abscoGrid, efficGrid, rIndexGrid);
-    gMC->SetCerenkov(idtmed[1007], 26, ppckov, abscoOpaqueQuarz, efficAll, rIndexOpaqueQuarz);
-    gMC->SetCerenkov(idtmed[1008], 26, ppckov, abscoMethane, efficAll, rIndexMethane);
-    gMC->SetCerenkov(idtmed[1009], 26, ppckov, abscoGrid, efficGrid, rIndexGrid);
-    gMC->SetCerenkov(idtmed[1010], 26, ppckov, abscoOpaqueQuarz, efficAll, rIndexOpaqueQuarz);
-}//AliRICHv3::CreateMaterials()
-
 
 void AliRICHv3::CreateGeometry()
 {
@@ -786,6 +547,7 @@ void AliRICHv3::Init()
 }
 
 
+
 void AliRICHv3::BuildGeometry()    
 {                                      
 // Provides geometry structure for event display (ROOT TNode tree)
@@ -990,515 +752,6 @@ void AliRICHv3::BuildGeometry()
     
 }//AliRICHv3::BuildGeometry()
 
-void AliRICHv3::StepManager()
-{
-// The active Step Manager is realised currently in AliRICHv3 for debug
-// leaving StepManager in AliRICH intact. To be removed in future. 
-
-    Int_t          copy, id;
-    static Int_t   idvol;
-    static Int_t   vol[2];
-    Int_t          ipart;
-    static Float_t hits[22];
-    static Float_t ckovData[19];
-    TLorentzVector position;
-    TLorentzVector momentum;
-    Float_t        pos[3];
-    Float_t        mom[4];
-    Float_t        localPos[3];
-    Float_t        localMom[4];
-    Float_t        localTheta,localPhi;
-    Float_t        theta,phi;
-    Float_t        destep, step;
-    Double_t       ranf[2];
-    Int_t          nPads;
-    Float_t        coscerenkov;
-    static Float_t eloss, xhit, yhit, tlength;
-    const  Float_t kBig=1.e10;
-       
-    TClonesArray &lhits = *fHits;
-    TParticle *current = (TParticle*)(*gAlice->Particles())[gAlice->CurrentTrack()];
-
- //if (current->Energy()>1)
-   //{
-        
-    // Only gas gap inside chamber
-    // Tag chambers and record hits when track enters 
-    
-    idvol=-1;
-    id=gMC->CurrentVolID(copy);
-    Float_t cherenkovLoss=0;
-    //gAlice->KeepTrack(gAlice->CurrentTrack());
-    
-    gMC->TrackPosition(position);
-    pos[0]=position(0);
-    pos[1]=position(1);
-    pos[2]=position(2);
-    //bzero((char *)ckovData,sizeof(ckovData)*19);
-    ckovData[1] = pos[0];                 // X-position for hit
-    ckovData[2] = pos[1];                 // Y-position for hit
-    ckovData[3] = pos[2];                 // Z-position for hit
-    ckovData[6] = 0;                      // dummy track length
-    //ckovData[11] = gAlice->CurrentTrack();
-    
-    //printf("\n+++++++++++\nTrack: %d\n++++++++++++\n",gAlice->CurrentTrack());
-
-    //AliRICH *RICH = (AliRICH *) gAlice->GetDetector("RICH"); 
-    
-    /********************Store production parameters for Cerenkov photons************************/ 
-//is it a Cerenkov photon? 
-    if (gMC->TrackPid() == 50000050) { 
-
-      //if (gMC->VolId("GAP ")==gMC->CurrentVolID(copy))
-        //{                    
-         Float_t ckovEnergy = current->Energy();
-         //energy interval for tracking
-         if  (ckovEnergy > 5.6e-09 && ckovEnergy < 7.8e-09 )       
-           //if (ckovEnergy > 0)
-           {
-             if (gMC->IsTrackEntering()){        //is track entering?
-               //printf("Track entered (1)\n");
-               if (gMC->VolId("FRE1")==gMC->CurrentVolID(copy) || gMC->VolId("FRE2")==gMC->CurrentVolID(copy))
-                 {                                                          //is it in freo?
-                   if (gMC->IsNewTrack()){                          //is it the first step?
-                     //printf("I'm in!\n");
-                     Int_t mother = current->GetFirstMother(); 
-                     
-                     //printf("Second Mother:%d\n",current->GetSecondMother());
-                     
-                     ckovData[10] = mother;
-                     ckovData[11] = gAlice->CurrentTrack();
-                     ckovData[12] = 1;             //Media where photon was produced 1->Freon, 2->Quarz
-                     //printf("Produced in FREO\n");
-                     fCkovNumber++;
-                     fFreonProd=1;
-                     //printf("Index: %d\n",fCkovNumber);
-                   }    //first step question
-                 }        //freo question
-               
-               if (gMC->IsNewTrack()){                                  //is it first step?
-                 if (gMC->VolId("QUAR")==gMC->CurrentVolID(copy))             //is it in quarz?
-                   {
-                     ckovData[12] = 2;
-                     //printf("Produced in QUAR\n");
-                   }    //quarz question
-               }        //first step question
-               
-               //printf("Before %d\n",fFreonProd);
-             }   //track entering question
-             
-             if (ckovData[12] == 1)                                        //was it produced in Freon?
-               //if (fFreonProd == 1)
-               {
-                 if (gMC->IsTrackEntering()){                                     //is track entering?
-                   //printf("Track entered (2)\n");
-                   //printf("Current volume (should be META): %s\n",gMC->CurrentVolName());
-                   //printf("VolId: %d, CurrentVolID: %d\n",gMC->VolId("META"),gMC->CurrentVolID(copy));
-                   if (gMC->VolId("META")==gMC->CurrentVolID(copy))                //is it in gap?      
-                     {
-                       //printf("Got in META\n");
-                       gMC->TrackMomentum(momentum);
-                       mom[0]=momentum(0);
-                       mom[1]=momentum(1);
-                       mom[2]=momentum(2);
-                       mom[3]=momentum(3);
-                       // Z-position for hit
-                       
-                       
-                       /**************** Photons lost in second grid have to be calculated by hand************/ 
-                       
-                       Float_t cophi = TMath::Cos(TMath::ATan2(mom[0], mom[1]));
-                       Float_t t = (1. - .025 / cophi) * (1. - .05 /  cophi);
-                       //gMC->Rndm(ranf, 1);
-                       gMC->GetRandom()->RndmArray(1,ranf);
-                       //printf("grid calculation:%f\n",t);
-                       if (ranf[0] > t) {
-                         gMC->StopTrack();
-                         ckovData[13] = 5;
-                         AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                         //printf("Added One (1)!\n");
-                         //printf("Lost one in grid\n");
-                       }
-                       /**********************************************************************************/
-                     }    //gap
-                   
-                   //printf("Current volume (should be CSI) (1): %s\n",gMC->CurrentVolName());
-                   //printf("VolId: %d, CurrentVolID: %d\n",gMC->VolId("CSI "),gMC->CurrentVolID(copy));
-                   if (gMC->VolId("CSI ")==gMC->CurrentVolID(copy))             //is it in csi?      
-                     {
-                       //printf("Got in CSI\n");
-                       gMC->TrackMomentum(momentum);
-                       mom[0]=momentum(0);
-                       mom[1]=momentum(1);
-                       mom[2]=momentum(2);
-                       mom[3]=momentum(3);
-                       
-                       /********* Photons lost by Fresnel reflection have to be calculated by hand********/ 
-                       /***********************Cerenkov phtons (always polarised)*************************/
-                       
-                       Float_t cophi = TMath::Cos(TMath::ATan2(mom[0], mom[1]));
-                       Float_t t = Fresnel(ckovEnergy*1e9,cophi,1);
-                       //gMC->Rndm(ranf, 1);
-                       gMC->GetRandom()->RndmArray(1,ranf);
-                       if (ranf[0] < t) {
-                         gMC->StopTrack();
-                         ckovData[13] = 6;
-                         AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                         //printf("Added One (2)!\n");
-                         //printf("Lost by Fresnel\n");
-                       }
-                       /**********************************************************************************/
-                     }
-                 } //track entering?
-                 
-                 
-                 /********************Evaluation of losses************************/
-                 /******************still in the old fashion**********************/
-                 
-                 TArrayI procs;
-                 Int_t i1 = gMC->StepProcesses(procs);            //number of physics mechanisms acting on the particle
-                 for (Int_t i = 0; i < i1; ++i) {
-                   //        Reflection loss 
-                   if (procs[i] == kPLightReflection) {        //was it reflected
-                     ckovData[13]=10;
-                     if (gMC->VolId("FRE1")==gMC->CurrentVolID(copy) || gMC->VolId("FRE2")==gMC->CurrentVolID(copy)) 
-                       ckovData[13]=1;
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("QUAR")) 
-                       ckovData[13]=2;
-                     //gMC->StopTrack();
-                     //AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                   } //reflection question
-                    
-                   //        Absorption loss 
-                   else if (procs[i] == kPLightAbsorption) {              //was it absorbed?
-                     //printf("Got in absorption\n");
-                     ckovData[13]=20;
-                     if (gMC->VolId("FRE1")==gMC->CurrentVolID(copy) || gMC->VolId("FRE2")==gMC->CurrentVolID(copy)) 
-                       ckovData[13]=11;
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("QUAR")) 
-                       ckovData[13]=12;
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("META")) 
-                       ckovData[13]=13;
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("GAP ")) 
-                       ckovData[13]=13;
-                     
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("SRIC")) 
-                       ckovData[13]=15;
-                     
-                     //        CsI inefficiency 
-                     if (gMC->CurrentVolID(copy) == gMC->VolId("CSI ")) {
-                       ckovData[13]=16;
-                     }
-                     gMC->StopTrack();
-                     AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                     //printf("Added One (3)!\n");
-                     //printf("Added cerenkov %d\n",fCkovNumber);
-                   } //absorption question 
-                   
-                   
-                   //        Photon goes out of tracking scope 
-                   else if (procs[i] == kPStop) {                 //is it below energy treshold?
-                     ckovData[13]=21;
-                     gMC->StopTrack();
-                     AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                     //printf("Added One (4)!\n");
-                   }   // energy treshold question         
-                 }  //number of mechanisms cycle
-                 /**********************End of evaluation************************/
-               } //freon production question
-           } //energy interval question
-       //}//inside the proximity gap question
-    } //cerenkov photon question
-      
-    /**************************************End of Production Parameters Storing*********************/ 
-    
-    
-    /*******************************Treat photons that hit the CsI (Ckovs and Feedbacks)************/ 
-    
-    if (gMC->TrackPid() == 50000050 || gMC->TrackPid() == 50000051) {
-      //printf("Cerenkov\n");
-      
-      //if (gMC->TrackPid() == 50000051)
-       //printf("Tracking a feedback\n");
-      
-      if (gMC->VolId("CSI ")==gMC->CurrentVolID(copy))
-       {
-         //printf("Current volume (should be CSI) (2): %s\n",gMC->CurrentVolName());
-         //printf("VolId: %d, CurrentVolID: %d\n",gMC->VolId("CSI "),gMC->CurrentVolID(copy));
-         //printf("Got in CSI\n");
-         //printf("Tracking a %d\n",gMC->TrackPid());
-         if (gMC->Edep() > 0.){
-               gMC->TrackPosition(position);
-               gMC->TrackMomentum(momentum);
-               pos[0]=position(0);
-               pos[1]=position(1);
-               pos[2]=position(2);
-               mom[0]=momentum(0);
-               mom[1]=momentum(1);
-               mom[2]=momentum(2);
-               mom[3]=momentum(3);
-               Double_t tc = mom[0]*mom[0]+mom[1]*mom[1];
-               Double_t rt = TMath::Sqrt(tc);
-               theta   = Float_t(TMath::ATan2(rt,Double_t(mom[2])))*kRaddeg;
-               phi     = Float_t(TMath::ATan2(Double_t(mom[1]),Double_t(mom[0])))*kRaddeg;
-               gMC->Gmtod(pos,localPos,1);                                                                    
-               gMC->Gmtod(mom,localMom,2);
-               
-               gMC->CurrentVolOffID(2,copy);
-               vol[0]=copy;
-               idvol=vol[0]-1;
-
-               //Int_t sector=((AliRICHChamber*) (*fChambers)[idvol])
-                       //->Sector(localPos[0], localPos[2]);
-               //printf("Sector:%d\n",sector);
-
-               /*if (gMC->TrackPid() == 50000051){
-                 fFeedbacks++;
-                 printf("Feedbacks:%d\n",fFeedbacks);
-               }*/     
-               
-        //PH           ((AliRICHChamber*) (*fChambers)[idvol])
-               ((AliRICHChamber*)fChambers->At(idvol))
-                   ->SigGenInit(localPos[0], localPos[2], localPos[1]);
-               if(idvol<kNCH) {        
-                   ckovData[0] = gMC->TrackPid();        // particle type
-                   ckovData[1] = pos[0];                 // X-position for hit
-                   ckovData[2] = pos[1];                 // Y-position for hit
-                   ckovData[3] = pos[2];                 // Z-position for hit
-                   ckovData[4] = theta;                      // theta angle of incidence
-                   ckovData[5] = phi;                      // phi angle of incidence 
-                   ckovData[8] = (Float_t) fNSDigits;      // first sdigit
-                   ckovData[9] = -1;                       // last pad hit
-                   ckovData[13] = 4;                       // photon was detected
-                   ckovData[14] = mom[0];
-                   ckovData[15] = mom[1];
-                   ckovData[16] = mom[2];
-                   
-                   destep = gMC->Edep();
-                   gMC->SetMaxStep(kBig);
-                   cherenkovLoss  += destep;
-                   ckovData[7]=cherenkovLoss;
-                   
-                   nPads = Hits2SDigits(localPos[0],localPos[2],cherenkovLoss,idvol,kCerenkov);
-                                   
-                   if (fNSDigits > (Int_t)ckovData[8]) {
-                       ckovData[8]= ckovData[8]+1;
-                       ckovData[9]= (Float_t) fNSDigits;
-                   }
-
-                   //printf("Cerenkov loss: %f\n", cherenkovLoss);
-
-                   ckovData[17] = nPads;
-                   //printf("nPads:%d",nPads);
-                   
-                   //TClonesArray *Hits = RICH->Hits();
-                   AliRICHHit *mipHit =  (AliRICHHit*) (fHits->UncheckedAt(0));
-                   if (mipHit)
-                     {
-                       mom[0] = current->Px();
-                       mom[1] = current->Py();
-                       mom[2] = current->Pz();
-                       Float_t mipPx = mipHit->MomX();
-                       Float_t mipPy = mipHit->MomY();
-                       Float_t mipPz = mipHit->MomZ();
-                       
-                       Float_t r = mom[0]*mom[0] + mom[1]*mom[1] + mom[2]*mom[2];
-                       Float_t rt = TMath::Sqrt(r);
-                       Float_t mipR = mipPx*mipPx + mipPy*mipPy + mipPz*mipPz; 
-                       Float_t mipRt = TMath::Sqrt(mipR);
-                       if ((rt*mipRt) > 0)
-                         {
-                           coscerenkov = (mom[0]*mipPx + mom[1]*mipPy + mom[2]*mipPz)/(rt*mipRt);
-                         }
-                       else
-                         {
-                           coscerenkov = 0;
-                         }
-                       Float_t cherenkov = TMath::ACos(coscerenkov);
-                       ckovData[18]=cherenkov;
-                     }
-                   //if (sector != -1)
-                   //{
-                   AddHit(gAlice->CurrentTrack(),vol,ckovData);
-                   AddCerenkov(gAlice->CurrentTrack(),vol,ckovData);
-                   //printf("Added One (5)!\n");
-                   //}
-               }
-           }
-       }
-    }
-    
-    /***********************************************End of photon hits*********************************************/
-    
-
-    /**********************************************Charged particles treatment*************************************/
-
-    else if (gMC->TrackCharge())
-    //else if (1 == 1)
-      {
-//If MIP
-       /*if (gMC->IsTrackEntering())
-         {                
-           hits[13]=20;//is track entering?
-         }*/
-       if (gMC->VolId("FRE1")==gMC->CurrentVolID(copy) || gMC->VolId("FRE2")==gMC->CurrentVolID(copy))
-         {
-           gMC->TrackMomentum(momentum);
-           mom[0]=momentum(0);
-           mom[1]=momentum(1);
-           mom[2]=momentum(2);
-           mom[3]=momentum(3);
-           hits [19] = mom[0];
-           hits [20] = mom[1];
-           hits [21] = mom[2];
-           fFreonProd=1;
-         }
-
-       if (gMC->VolId("GAP ")== gMC->CurrentVolID(copy)) {
-// Get current particle id (ipart), track position (pos)  and momentum (mom)
-           
-           gMC->CurrentVolOffID(3,copy);
-           vol[0]=copy;
-           idvol=vol[0]-1;
-
-           //Int_t sector=((AliRICHChamber*) (*fChambers)[idvol])
-                       //->Sector(localPos[0], localPos[2]);
-           //printf("Sector:%d\n",sector);
-           
-           gMC->TrackPosition(position);
-           gMC->TrackMomentum(momentum);
-           pos[0]=position(0);
-           pos[1]=position(1);
-           pos[2]=position(2);
-           mom[0]=momentum(0);
-           mom[1]=momentum(1);
-           mom[2]=momentum(2);
-           mom[3]=momentum(3);
-           gMC->Gmtod(pos,localPos,1);                                                                    
-           gMC->Gmtod(mom,localMom,2);
-           
-           ipart  = gMC->TrackPid();
-           //
-           // momentum loss and steplength in last step
-           destep = gMC->Edep();
-           step   = gMC->TrackStep();
-  
-           //
-           // record hits when track enters ...
-           if( gMC->IsTrackEntering()) {
-//             gMC->SetMaxStep(fMaxStepGas);
-               Double_t tc = mom[0]*mom[0]+mom[1]*mom[1];
-               Double_t rt = TMath::Sqrt(tc);
-               theta   = Float_t(TMath::ATan2(rt,Double_t(mom[2])))*kRaddeg;
-               phi     = Float_t(TMath::ATan2(Double_t(mom[1]),Double_t(mom[0])))*kRaddeg;
-               
-
-               Double_t localTc = localMom[0]*localMom[0]+localMom[2]*localMom[2];
-               Double_t localRt = TMath::Sqrt(localTc);
-               localTheta   = Float_t(TMath::ATan2(localRt,Double_t(localMom[1])))*kRaddeg;                       
-               localPhi     = Float_t(TMath::ATan2(Double_t(localMom[2]),Double_t(localMom[0])))*kRaddeg;    
-               
-               hits[0] = Float_t(ipart);         // particle type
-               hits[1] = localPos[0];                 // X-position for hit
-               hits[2] = localPos[1];                 // Y-position for hit
-               hits[3] = localPos[2];                 // Z-position for hit
-               hits[4] = localTheta;                  // theta angle of incidence
-               hits[5] = localPhi;                    // phi angle of incidence 
-               hits[8] = (Float_t) fNSDigits;    // first sdigit
-               hits[9] = -1;                     // last pad hit
-               hits[13] = fFreonProd;           // did id hit the freon?
-               hits[14] = mom[0];
-               hits[15] = mom[1];
-               hits[16] = mom[2];
-               hits[18] = 0;               // dummy cerenkov angle
-
-               tlength = 0;
-               eloss   = 0;
-               fFreonProd = 0;
-       
-               Chamber(idvol).LocaltoGlobal(localPos,hits+1);
-          
-               
-               //To make chamber coordinates x-y had to pass localPos[0], localPos[2]
-               xhit    = localPos[0];
-               yhit    = localPos[2];
-               // Only if not trigger chamber
-               if(idvol<kNCH) {
-                   //
-                   //  Initialize hit position (cursor) in the segmentation model 
-          //PH             ((AliRICHChamber*) (*fChambers)[idvol])
-                   ((AliRICHChamber*)fChambers->At(idvol))
-                       ->SigGenInit(localPos[0], localPos[2], localPos[1]);
-               }
-           }
-           
-           // 
-           // Calculate the charge induced on a pad (disintegration) in case 
-           //
-           // Mip left chamber ...
-           if( gMC->IsTrackExiting() || gMC->IsTrackStop() || gMC->IsTrackDisappeared()){
-               gMC->SetMaxStep(kBig);
-               eloss   += destep;
-               tlength += step;
-               
-                               
-               // Only if not trigger chamber
-               if(idvol<kNCH) {
-                 if (eloss > 0) 
-                   {
-                     if(gMC->TrackPid() == kNeutron)
-                       printf("\n\n\n\n\n Neutron Making Pad Hit!!! \n\n\n\n");
-                     nPads = Hits2SDigits(xhit,yhit,eloss,idvol,kMip);
-                     hits[17] = nPads;
-                     //printf("nPads:%d",nPads);
-                   }
-               }
-               
-               hits[6]=tlength;
-               hits[7]=eloss;
-               if (fNSDigits > (Int_t)hits[8]) {
-                   hits[8]= hits[8]+1;
-                   hits[9]= (Float_t) fNSDigits;
-               }
-               
-               //if(sector !=-1)
-               new(lhits[fNhits++]) AliRICHHit(fIshunt,gAlice->CurrentTrack(),vol,hits);
-               eloss = 0; 
-               //
-               // Check additional signal generation conditions 
-               // defined by the segmentation
-               // model (boundary crossing conditions) 
-           } else if 
-          //PH         (((AliRICHChamber*) (*fChambers)[idvol])
-               (((AliRICHChamber*)fChambers->At(idvol))
-                ->SigGenCond(localPos[0], localPos[2], localPos[1]))
-           {
-          //PH         ((AliRICHChamber*) (*fChambers)[idvol])
-               ((AliRICHChamber*)fChambers->At(idvol))
-                   ->SigGenInit(localPos[0], localPos[2], localPos[1]);
-               if (eloss > 0) 
-                 {
-                   if(gMC->TrackPid() == kNeutron)
-                     printf("\n\n\n\n\n Neutron Making Pad Hit!!! \n\n\n\n");
-                   nPads = Hits2SDigits(xhit,yhit,eloss,idvol,kMip);
-                   hits[17] = nPads;
-                   //printf("Npads:%d",NPads);
-                 }
-               xhit     = localPos[0];
-               yhit     = localPos[2]; 
-               eloss    = destep;
-               tlength += step ;
-               //
-               // nothing special  happened, add up energy loss
-           } else {        
-               eloss   += destep;
-               tlength += step ;
-           }
-       }
-      }
-    /*************************************************End of MIP treatment**************************************/
-   //}
-}// void AliRICHv3::StepManager()
 
 Double_t* AliRICHv3::RotateXY(const Double_t* r, Double_t a)
 {
@@ -1524,4 +777,3 @@ Double_t* AliRICHv3::RotateXY(const Double_t* r, Double_t a)
     }
     return rr;
 }
-

diff --git a/RICH/AliRICHv3.h b/RICH/AliRICHv3.h
index 20c83bf57e9b3868c21850a36fc40569ca37eb24..d507618c99440673943bb6f85f469673ab051832 100644 (file)
--- a/RICH/AliRICHv3.h
+++ b/RICH/AliRICHv3.h
@@ -17,15 +17,14 @@ public:
    
    virtual Int_t  IsVersion()                     const {return 3;}
       
-   virtual void   CreateMaterials(); // Provides material definition for simulation (currently GEANT)   
    virtual void   CreateGeometry();  // Provides geometry structure for simulation (currently GEANT volumes tree)
    virtual void   BuildGeometry();   // Provides geometry structure for event display (ROOT TNode tree)
    virtual void   Init();            // Makes nothing for a while
-   virtual void   StepManager();     // Processes the particle transport 
-       
+          
 private:
-   Double_t* RotateXY(const Double_t* r, Double_t a);
-   
+
+   Double_t* RotateXY(const Double_t* r, Double_t a);   //Rotation in the X-Y plane in G3 notation
+
     ClassDef(AliRICHv3,1)  //RICH full version, configurable with azimuthal rotation   
 };// class AliRICHv3