Minor changes

[u/mrichter/AliRoot.git] / TOF / AliTOFv0.cxx

diff --git a/TOF/AliTOFv0.cxx b/TOF/AliTOFv0.cxx
index c91564a80bf0d7b6df89cb2debccdf8fb23d57e1..105c8da1eb5f174d2a79ac10a4a96ed504d707d2 100644 (file)
--- a/TOF/AliTOFv0.cxx
+++ b/TOF/AliTOFv0.cxx
@@ -13,78 +13,48 @@
  * provided "as is" without express or implied warranty.                  *
  **************************************************************************/
 
-/*
-$Log$
-Revision 1.17  2000/10/02 21:28:17  fca
-Removal of useless dependecies via forward declarations
-
-Revision 1.16  2000/05/10 16:52:18  vicinanz
-New TOF version with holes for PHOS/RICH
-
-Revision 1.14.2.1  2000/05/10 09:37:16  vicinanz
-New version with Holes for PHOS/RICH
-
-Revision 1.14  1999/11/05 22:39:06  fca
-New hits structure
-
-Revision 1.13  1999/11/02 11:26:39  fca
-added stdlib.h for exit
-
-Revision 1.12  1999/11/01 20:41:57  fca
-Added protections against using the wrong version of FRAME
-
-Revision 1.11  1999/10/22 08:04:14  fca
-Correct improper use of negative parameters
-
-Revision 1.10  1999/10/16 19:30:06  fca
-Corrected Rotation Matrix and CVS log
-
-Revision 1.9  1999/10/15 15:35:20  fca
-New version for frame1099 with and without holes
-
-Revision 1.8  1999/09/29 09:24:33  fca
-Introduction of the Copyright and cvs Log
-
-*/
+/* $Id$ */
 
 ///////////////////////////////////////////////////////////////////////////////
 //                                                                           //
-//  Time Of Flight: design of C.Williams                FCA                  //
-//  This class contains the functions for version 1 of the Time Of Flight    //
+//  This class contains the functions for version 0 of the Time Of Flight    //
 //  detector.                                                                //
-//
-//  VERSION WITH 5 MODULES AND TILTED STRIPS 
-//  
-//   FULL COVERAGE VERSION
-//
-//   Authors:
-//
-//   Alessio Seganti
-//   Domenico Vicinanza
-//
-//   University of Salerno - Italy
-//
-//
-//Begin_Html
-/*
-<img src="picts/AliTOFv0Class.gif">
-*/
-//End_Html
+//                                                                           //
+//  VERSION WITH 5 MODULES AND TILTED STRIPS                                 //
+//  NO HITS DEFINED BY DEFAULT FOR THIS VERSION                              //
+//   FULL COVERAGE VERSION                                                   //
+//                                                                           //
+//   Authors:                                                                //
+//                                                                           //
+//   Alessio Seganti                                                         //
+//   Domenico Vicinanza                                                      //
+//                                                                           //
+//   University of Salerno - Italy                                           //
+//                                                                           //
+//   Fabrizio Pierella                                                       //
+//   University of Bologna - Italy                                           //
+//                                                                           //
+//                                                                           //
+//Begin_Html                                                                 //
+/*                                                                           //
+<img src="picts/AliTOFv0Class.gif">                                          //
+*/                                                                           //
+//End_Html                                                                   //
 //                                                                           //
 ///////////////////////////////////////////////////////////////////////////////
 
-#include <iostream.h>
+#include <Riostream.h>
 #include <stdlib.h>
 
-#include "AliTOFv0.h"
-#include "TBRIK.h"
-#include "TGeometry.h"
-#include "TNode.h"
-#include "TObject.h"
 #include <TLorentzVector.h>
+#include <TObject.h>
+#include <TVirtualMC.h>
+
+#include "AliConst.h"
 #include "AliRun.h"
+#include "AliTOFv0.h"
+#include "AliTOFConstants.h" // AdC
 #include "AliMC.h"
-#include "AliConst.h"
  
 ClassImp(AliTOFv0)
  
@@ -94,110 +64,28 @@ AliTOFv0::AliTOFv0()
   //
   // Default constructor
   //
-
-  //
-  // Check that FRAME is there otherwise we have no place where to
-  // put TOF
-  AliModule* FRAME=gAlice->GetModule("FRAME");
-  if(!FRAME) {
-    Error("Ctor","TOF needs FRAME to be present\n");
-    exit(1);
-  } else
-    if(FRAME->IsVersion()!=1) {
-      Error("Ctor","FRAME version 1 needed with this version of TOF\n");
-      exit(1);
-    }
- 
-
 }
  
 //_____________________________________________________________________________
 AliTOFv0::AliTOFv0(const char *name, const char *title)
-       : AliTOF(name,title)
+        : AliTOF(name,title)
 {
   //
   // Standard constructor
   //
-}
- 
-//_____________________________________________________________________________
-void AliTOFv0::BuildGeometry()
-{
-  // Build TOF ROOT geometry for the ALICE event viewver
   //
-  TNode *Node, *Top;
-  const int kColorTOF  = 27;
-
-  // Find top TNODE
-  Top = gAlice->GetGeometry()->GetNode("alice");
-
-  // Position the different copies
-  const Float_t rTof  =(fRmax+fRmin)/2;
-  const Float_t hTof  = fRmax-fRmin;
-  const Int_t   fNTof = 18;
-  const Float_t kPi   = TMath::Pi();
-  const Float_t angle = 2*kPi/fNTof;
-  Float_t ang;
-
-  // Define TOF basic volume
-  
-  char NodeName0[6], NodeName1[6], NodeName2[6]; 
-  char NodeName3[6], NodeName4[6], RotMatNum[6];
-
-  new TBRIK("S_TOF_C","TOF box","void",
-            120*0.5,hTof*0.5,fZlenC*0.5);
-  new TBRIK("S_TOF_B","TOF box","void",
-            120*0.5,hTof*0.5,fZlenB*0.5);
-  new TBRIK("S_TOF_A","TOF box","void",
-            120*0.5,hTof*0.5,fZlenA*0.5);
-
-  for (Int_t NodeNum=1;NodeNum<19;NodeNum++){
-     
-      if (NodeNum<10) {
-           sprintf(RotMatNum,"rot50%i",NodeNum);
-           sprintf(NodeName0,"FTO00%i",NodeNum);
-           sprintf(NodeName1,"FTO10%i",NodeNum);
-           sprintf(NodeName2,"FTO20%i",NodeNum);
-           sprintf(NodeName3,"FTO30%i",NodeNum);
-           sprintf(NodeName4,"FTO40%i",NodeNum);
-      }
-      if (NodeNum>9) {
-           sprintf(RotMatNum,"rot5%i",NodeNum);
-           sprintf(NodeName0,"FTO0%i",NodeNum);
-           sprintf(NodeName1,"FTO1%i",NodeNum);
-           sprintf(NodeName2,"FTO2%i",NodeNum);
-           sprintf(NodeName3,"FTO3%i",NodeNum);
-           sprintf(NodeName4,"FTO4%i",NodeNum);
-      }
+  // Check that FRAME is there otherwise we have no place where to
+  // put TOF
+  AliModule* frame=gAlice->GetModule("FRAME");
+  if(!frame) {
+    Error("Ctor","TOF needs FRAME to be present\n");
+    exit(1);
+  } else
+    if(frame->IsVersion()!=1) {
+      Error("Ctor","FRAME version 1 needed with this version of TOF\n");
+      exit(1);
+    }
  
-      new TRotMatrix(RotMatNum,RotMatNum,90,-20*NodeNum,90,90-20*NodeNum,0,0);
-      ang = (4.5-NodeNum) * angle;
-
-      Top->cd();
-      Node = new TNode(NodeName0,NodeName0,"S_TOF_C",rTof*TMath::Cos(ang),rTof*TMath::Sin(ang),299.15,RotMatNum);
-      Node->SetLineColor(kColorTOF);
-      fNodes->Add(Node); 
-
-      Top->cd(); 
-      Node = new TNode(NodeName1,NodeName1,"S_TOF_C",rTof*TMath::Cos(ang),rTof*TMath::Sin(ang),-299.15,RotMatNum);
-      Node->SetLineColor(kColorTOF);
-      fNodes->Add(Node); 
-
-      Top->cd();
-      Node = new TNode(NodeName2,NodeName2,"S_TOF_B",rTof*TMath::Cos(ang),rTof*TMath::Sin(ang),146.45,RotMatNum);
-      Node->SetLineColor(kColorTOF);
-      fNodes->Add(Node); 
-
-      Top->cd();
-      Node = new TNode(NodeName3,NodeName3,"S_TOF_B",rTof*TMath::Cos(ang),rTof*TMath::Sin(ang),-146.45,RotMatNum);
-      Node->SetLineColor(kColorTOF);
-      fNodes->Add(Node); 
-
-      Top->cd();
-      Node = new TNode(NodeName4,NodeName4,"S_TOF_A",rTof*TMath::Cos(ang),rTof*TMath::Sin(ang),0.,RotMatNum);
-      Node->SetLineColor(kColorTOF);
-      fNodes->Add(Node); 
-  }
 }
 
 //_____________________________________________________________________________
@@ -226,12 +114,13 @@ void AliTOFv0::TOFpc(Float_t xtof, Float_t ytof, Float_t zlenC,
   // xFLT, yFLT, zFLT - sizes of TOF modules (large)
   
   Float_t  ycoor, zcoor;
-  Float_t par[10];
-  Int_t *idtmed = fIdtmed->GetArray()-499;
-  Int_t idrotm[100];
-  Int_t nrot = 0;
+  Float_t  par[3];
+  Int_t    *idtmed = fIdtmed->GetArray()-499;
+  Int_t    idrotm[100];
+  Int_t    nrot = 0;
+  Float_t  hTof = fRmax-fRmin;
   
-  Float_t Radius = fRmin+2.;//cm
+  Float_t radius = fRmin+2.;//cm
 
   par[0] =  xtof * 0.5;
   par[1] =  ytof * 0.5;
@@ -249,8 +138,8 @@ void AliTOFv0::TOFpc(Float_t xtof, Float_t ytof, Float_t zlenC,
    Float_t zcor2 = ztof0 - zlenC - zlenB*0.5;
    Float_t zcor3 = 0.;
 
-   AliMatrix(idrotm[0], 90., 0., 0., 0., 90, -90.);
-   AliMatrix(idrotm[1], 90., 180., 0., 0., 90, 90.);
+   AliMatrix(idrotm[0], 90.,  0., 0., 0., 90,-90.);
+   AliMatrix(idrotm[1], 90.,180., 0., 0., 90, 90.);
    gMC->Gspos("FTOC", 1, "BTO1", 0,  zcor1, 0, idrotm[0], "ONLY");
    gMC->Gspos("FTOC", 2, "BTO1", 0, -zcor1, 0, idrotm[1], "ONLY");
    gMC->Gspos("FTOC", 1, "BTO2", 0,  zcor1, 0, idrotm[0], "ONLY");
@@ -270,305 +159,428 @@ void AliTOFv0::TOFpc(Float_t xtof, Float_t ytof, Float_t zlenC,
    gMC->Gspos("FTOA", 0, "BTO3", 0, zcor3,  0, idrotm[0], "ONLY");
 
   Float_t db = 0.5;//cm
-  Float_t xFLT, yFLT, zFLTA, zFLTB, zFLTC;
+  Float_t xFLT, xFST, yFLT, zFLTA, zFLTB, zFLTC;
 
-  xFLT = 122.0;//cm
+  xFLT = fStripLn;
   yFLT = ytof;
-  zFLTA = zlenA - db*0.5;
-  zFLTB = zlenB - db*0.5;
-  zFLTC = zlenC - db*0.5;
+  zFLTA = zlenA;
+  zFLTB = zlenB;
+  zFLTC = zlenC;
+
+  xFST = xFLT-fDeadBndX*2;//cm
 
 // Sizes of MRPC pads
 
   Float_t yPad = 0.505;//cm 
   
-// Large not sensitive volumes with CO2 
+// Large not sensitive volumes with Insensitive Freon
   par[0] = xFLT*0.5;
   par[1] = yFLT*0.5;
-
+  
   cout <<"************************* TOF geometry **************************"<<endl;
-
+ 
   par[2] = (zFLTA *0.5);
-  gMC->Gsvolu("FLTA", "BOX ", idtmed[506], par, 3); // CO2
+  gMC->Gsvolu("FLTA", "BOX ", idtmed[512], par, 3); // Insensitive Freon
   gMC->Gspos ("FLTA", 0, "FTOA", 0., 0., 0., 0, "ONLY");
 
   par[2] = (zFLTB * 0.5);
-  gMC->Gsvolu("FLTB", "BOX ", idtmed[506], par, 3); // CO2
+  gMC->Gsvolu("FLTB", "BOX ", idtmed[512], par, 3); // Insensitive Freon
   gMC->Gspos ("FLTB", 0, "FTOB", 0., 0., 0., 0, "ONLY");
 
-  par[2] = (zFLTC * 0.5); 
-  gMC->Gsvolu("FLTC", "BOX ", idtmed[506], par, 3); // CO2
+  par[2] = (zFLTC * 0.5);
+  gMC->Gsvolu("FLTC", "BOX ", idtmed[512], par, 3); // Insensitive Freon
   gMC->Gspos ("FLTC", 0, "FTOC", 0., 0., 0., 0, "ONLY");
-
-////////// Layers before detector ////////////////////
-
-// MYlar layer in front 1.0 mm thick at the beginning
-  par[0] = -1;
+ 
+////////// Layers of Aluminum before and after detector //////////
+////////// Aluminum Box for Modules (2.0 mm thickness)  /////////
+////////// lateral walls not simulated
+  par[0] = xFLT*0.5;
   par[1] = 0.1;//cm
-  par[2] = -1;
   ycoor = -yFLT/2 + par[1];
-  gMC->Gsvolu("FMYA", "BOX ", idtmed[508], par, 3); // Alluminium
-  gMC->Gspos ("FMYA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
-  gMC->Gsvolu("FMYB", "BOX ", idtmed[508], par, 3); // Alluminium
-  gMC->Gspos ("FMYB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
-  gMC->Gsvolu("FMYC", "BOX ", idtmed[508], par, 3); // Alluminium 
-  gMC->Gspos ("FMYC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
-
-// honeycomb (special Polyethilene Layer of 1cm)
-  ycoor = ycoor + par[1];
-  par[0] = -1;
-  par[1] = 0.5;//cm
-  par[2] = -1;
-  ycoor = ycoor + par[1];
-  gMC->Gsvolu("FPLA", "BOX ", idtmed[503], par, 3); // Hony
-  gMC->Gspos ("FPLA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
-  gMC->Gsvolu("FPLB", "BOX ", idtmed[503], par, 3); // Hony
-  gMC->Gspos ("FPLB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
-  gMC->Gsvolu("FPLC", "BOX ", idtmed[503], par, 3); // Hony
-  gMC->Gspos ("FPLC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
-
+  par[2] = (zFLTA *0.5);
+  gMC->Gsvolu("FALA", "BOX ", idtmed[508], par, 3); // Alluminium
+  gMC->Gspos ("FALA", 1, "FLTA", 0., ycoor, 0., 0, "ONLY");
+  gMC->Gspos ("FALA", 2, "FLTA", 0.,-ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTB *0.5);
+  gMC->Gsvolu("FALB", "BOX ", idtmed[508], par, 3); // Alluminium 
+  gMC->Gspos ("FALB", 1, "FLTB", 0., ycoor, 0., 0, "ONLY");
+  gMC->Gspos ("FALB", 2, "FLTB", 0.,-ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTC *0.5);
+  gMC->Gsvolu("FALC", "BOX ", idtmed[508], par, 3); // Alluminium
+  gMC->Gspos ("FALC", 1, "FLTC", 0., ycoor, 0., 0, "ONLY");
+  gMC->Gspos ("FALC", 2, "FLTC", 0.,-ycoor, 0., 0, "ONLY");
+  
 ///////////////// Detector itself //////////////////////
-
-  const Float_t  StripWidth = 10.0;//cm
-  const Float_t  DeadBound  =  1.5;//cm non-sensitive between the pad edge 
-                                   //and the boundary of the strip
-  const Int_t    nx   = 48;        // number of pads along x
-  const Int_t    nz   =  2;        // number of pads along z
-  const Float_t  Space=  5.5;      //cm distance from the front plate of the box
-
-  Float_t zSenStrip;
-  zSenStrip = StripWidth-2*DeadBound;//cm
-
-  par[0] = xFLT/2;
-  par[1] = yPad/2; 
-  par[2] = StripWidth/2.;
+  const Float_t  kdeadBound  =  fDeadBndZ; //cm non-sensitive between the pad edge 
+                                          //and the boundary of the strip
+  const Int_t    knx    = fNpadX;          // number of pads along x
+  const Int_t    knz    = fNpadZ;          // number of pads along z
+  const Float_t  kspace = fSpace;            //cm distance from the front plate of the box
+
+  Float_t zSenStrip  = fZpad*fNpadZ;//cm
+  Float_t stripWidth = zSenStrip + 2*kdeadBound;
+  par[0] = xFLT*0.5;
+  par[1] = yPad*0.5; 
+  par[2] = stripWidth*0.5;
   
-  // glass layer of detector STRip
-  gMC->Gsvolu("FSTR","BOX",idtmed[514],par,3);
-
-  // Non-Sesitive Freon boundaries
-  par[0] =  xFLT*0.5;
-  par[1] =  0.110*0.5;//cm
-  par[2] = -1;
-  gMC->Gsvolu("FNSF","BOX",idtmed[512],par,3);
-  gMC->Gspos ("FNSF",0,"FSTR",0.,0.,0.,0,"ONLY");
-
-  // MYlar for Internal non-sesitive boundaries
-  par[1] = 0.025;//cm
-  gMC->Gsvolu("FMYI","BOX",idtmed[510],par,3); 
-  gMC->Gspos ("FMYI",0,"FNSF",0.,0.,0.,0,"ONLY");
-
-  // MYlar eXternal layers
-  par[1] = 0.035*0.5;//cm
-  ycoor = -yPad*0.5+par[1];
-  gMC->Gsvolu("FMYX","BOX",idtmed[510],par,3);
-  gMC->Gspos ("FMYX",1,"FSTR",0.,ycoor,0.,0,"ONLY");
-  gMC->Gspos ("FMYX",2,"FSTR",0.,-ycoor,0.,0,"ONLY");
-  ycoor += par[1];
- 
-  // GRaphyte Layers
-  par[1] = 0.003*0.5;
-  ycoor += par[1];
-  gMC->Gsvolu("FGRL","BOX",idtmed[502],par,3);
-  gMC->Gspos ("FGRL",1,"FSTR",0.,ycoor,0.,0,"ONLY");
-  gMC->Gspos ("FGRL",2,"FSTR",0.,-ycoor,0.,0,"ONLY");
+// new description for strip volume -double stack strip-
+// -- all constants are expressed in cm
+// heigth of different layers
+  const Float_t khhony = 1.      ;   // heigth of HONY  Layer
+  const Float_t khpcby = 0.15    ;   // heigth of PCB   Layer
+  const Float_t khmyly = 0.035   ;   // heigth of MYLAR Layer
+  const Float_t khgraphy = 0.02  ;   // heigth of GRAPHITE Layer
+  const Float_t khglasseiy = 0.17;   // 0.6 Ext. Glass + 1.1 i.e. (Int. Glass/2) (mm)
+  const Float_t khsensmy = 0.11  ;   // heigth of Sensitive Freon Mixture
+  const Float_t kwsensmz = 2*3.5 ;   // cm
+  const Float_t klsensmx = 48*2.5;   // cm
+  const Float_t kwpadz = 3.5;   // cm z dimension of the FPAD volume
+  const Float_t klpadx = 2.5;   // cm x dimension of the FPAD volume
+  
+  // heigth of the FSTR Volume (the strip volume)
+  const Float_t khstripy = 2*khhony+3*khpcby+4*(khmyly+khgraphy+khglasseiy)+2*khsensmy;
+  // width  of the FSTR Volume (the strip volume)
+  const Float_t kwstripz = 10.;
+  // length of the FSTR Volume (the strip volume)
+  const Float_t klstripx = 122.;
+  
+  Float_t parfp[3]={klstripx*0.5,khstripy*0.5,kwstripz*0.5};
+// coordinates of the strip center in the strip reference frame; used for positioning
+// internal strip volumes
+  Float_t posfp[3]={0.,0.,0.};   
 
-  // freon sensitive layer (Chlorine-Fluorine-Carbon)
-  par[0] = -1;
-  par[1] =  0.110*0.5;
-  par[2] = zSenStrip*0.5;
-  gMC->Gsvolu("FCFC","BOX",idtmed[513],par,3);
-  gMC->Gspos ("FCFC",0,"FNSF",0.,0.,0.,0,"ONLY");
   
-  // Pad definition x & z
-  gMC->Gsdvn("FLZ","FCFC", nz, 3); 
-  gMC->Gsdvn("FLX","FLZ" , nx, 1); 
+  // FSTR volume definition and filling this volume with non sensitive Gas Mixture
+  gMC->Gsvolu("FSTR","BOX",idtmed[512],parfp,3);
+  //-- HONY Layer definition
+//  parfp[0] = -1;
+  parfp[1] = khhony*0.5;
+//  parfp[2] = -1;
+  gMC->Gsvolu("FHON","BOX",idtmed[503],parfp,3);
+  // positioning 2 HONY Layers on FSTR volume
+
+  posfp[1]=-khstripy*0.5+parfp[1];
+  gMC->Gspos("FHON",1,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FHON",2,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+
+  //-- PCB Layer definition 
+  parfp[1] = khpcby*0.5;
+  gMC->Gsvolu("FPCB","BOX",idtmed[504],parfp,3);
+  // positioning 2 PCB Layers on FSTR volume
+  posfp[1]=-khstripy*0.5+khhony+parfp[1];
+  gMC->Gspos("FPCB",1,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FPCB",2,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+  // positioning the central PCB layer
+  gMC->Gspos("FPCB",3,"FSTR",0.,0.,0.,0,"ONLY");
+
+
+
+  //-- MYLAR Layer definition
+  parfp[1] = khmyly*0.5;
+  gMC->Gsvolu("FMYL","BOX",idtmed[511],parfp,3);
+  // positioning 2 MYLAR Layers on FSTR volume
+  posfp[1] = -khstripy*0.5+khhony+khpcby+parfp[1]; 
+  gMC->Gspos("FMYL",1,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FMYL",2,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+  // adding further 2 MYLAR Layers on FSTR volume
+  posfp[1] = khpcby*0.5+parfp[1];
+  gMC->Gspos("FMYL",3,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FMYL",4,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+
+
+  //-- Graphite Layer definition
+  parfp[1] = khgraphy*0.5;
+  gMC->Gsvolu("FGRP","BOX",idtmed[502],parfp,3);
+  // positioning 2 Graphite Layers on FSTR volume
+  posfp[1] = -khstripy*0.5+khhony+khpcby+khmyly+parfp[1];
+  gMC->Gspos("FGRP",1,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FGRP",2,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+  // adding further 2 Graphite Layers on FSTR volume
+  posfp[1] = khpcby*0.5+khmyly+parfp[1];
+  gMC->Gspos("FGRP",3,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FGRP",4,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+ 
 
-  // MRPC PAD itself 
-  par[0] = -1;
-  par[1] = -1; 
-  par[2] = -1;
-  gMC->Gsvolu("FPAD", "BOX ", idtmed[513], par, 3);
-  gMC->Gspos ("FPAD", 0, "FLX", 0., 0., 0., 0, "ONLY");
+  //-- Glass (EXT. +Semi INT.) Layer definition
+  parfp[1] = khglasseiy*0.5;
+  gMC->Gsvolu("FGLA","BOX",idtmed[514],parfp,3);
+  // positioning 2 Glass Layers on FSTR volume
+  posfp[1] = -khstripy*0.5+khhony+khpcby+khmyly+khgraphy+parfp[1];
+  gMC->Gspos("FGLA",1,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FGLA",2,"FSTR",0.,-posfp[1],0.,0,"ONLY");
+  // adding further 2 Glass Layers on FSTR volume
+  posfp[1] = khpcby*0.5+khmyly+khgraphy+parfp[1];
+  gMC->Gspos("FGLA",3,"FSTR",0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FGLA",4,"FSTR",0.,-posfp[1],0.,0,"ONLY");
 
+  
+  //-- Sensitive Mixture Layer definition
+  parfp[0] = klsensmx*0.5;
+  parfp[1] = khsensmy*0.5;
+  parfp[2] = kwsensmz*0.5;
+  gMC->Gsvolu("FSEN","BOX",idtmed[513],parfp,3);
+  gMC->Gsvolu("FNSE","BOX",idtmed[512],parfp,3);
+  // positioning 2 gas Layers on FSTR volume
+  // the upper is insensitive freon
+  // while the remaining is sensitive
+  posfp[1] = khpcby*0.5+khmyly+khgraphy+khglasseiy+parfp[1];
+  gMC->Gspos("FNSE",0,"FSTR", 0., posfp[1],0.,0,"ONLY");
+  gMC->Gspos("FSEN",0,"FSTR", 0.,-posfp[1],0.,0,"ONLY");
+
+  // dividing FSEN along z in knz=2 and along x in knx=48
+  gMC->Gsdvn("FSEZ","FSEN",knz,3);
+  gMC->Gsdvn("FSEX","FSEZ",knx,1);
+  
+  // FPAD volume definition
+  parfp[0] = klpadx*0.5;    
+  parfp[1] = khsensmy*0.5;
+  parfp[2] = kwpadz*0.5;
+  gMC->Gsvolu("FPAD","BOX",idtmed[513],parfp,3);
+  // positioning the FPAD volumes on previous divisions
+  gMC->Gspos("FPAD",0,"FSEX",0.,0.,0.,0,"ONLY");
+  
 ////  Positioning the Strips  (FSTR) in the FLT volumes  /////
 
   // Plate A (Central) 
   
   Float_t t = zFLTC+zFLTB+zFLTA*0.5+ 2*db;//Half Width of Barrel
 
-  Float_t Gap  =  4.; //cm  distance between the strip axis
+  Float_t gap  = fGapA+0.5; //cm  updated distance between the strip axis
   Float_t zpos = 0;
   Float_t ang  = 0;
-  Float_t last;
-  Int_t i=1,j=1;
+  Int_t j=1; // AdC
   nrot  = 0;
   zcoor = 0;
-  ycoor = -14.5 + Space ; //2 cm over front plate
+  ycoor = -14.5 + kspace ; //2 cm over front plate
 
   AliMatrix (idrotm[0],  90.,  0.,90.,90.,0., 90.);   
-  gMC->Gspos("FSTR",j,"FLTA",0.,ycoor, 0.,idrotm[0],"ONLY");
-  zcoor -= zSenStrip;
 
-  j++;
-  Int_t UpDown = -1; // UpDown=-1 -> Upper strip
-                     // UpDown=+1 -> Lower strip
+  Int_t centerLoc= (Int_t)(fNStripA/2.) + 1; // AdC
+
+  //gMC->Gspos("FSTR",j,"FLTA",0.,ycoor, 0.,idrotm[0],"ONLY");
+  gMC->Gspos("FSTR",centerLoc,"FLTA",0.,ycoor, 0.,idrotm[0],"ONLY"); // AdC
+  if(fDebug>=1) {
+    printf("%s: %f,  St. %2i, Pl.3 ",ClassName(),ang*kRaddeg,j); // AdC
+    printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+  }
+  zcoor -= zSenStrip;
+  //j++; // AdC
+  Int_t upDown = -1; // upDown=-1 -> Upper strip
+                     // upDown=+1 -> Lower strip
   do{
-     ang = atan(zcoor/Radius);
+     ang = atan(zcoor/radius);
      ang *= kRaddeg;
      AliMatrix (idrotm[nrot],  90.,  0.,90.-ang,90.,-ang, 90.);   
      AliMatrix (idrotm[nrot+1],90.,180.,90.+ang,90., ang, 90.);
      ang /= kRaddeg;
-     ycoor = -14.5+ Space; //2 cm over front plate
-     ycoor += (1-(UpDown+1)/2)*Gap;
-     gMC->Gspos("FSTR",j  ,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY");
-     gMC->Gspos("FSTR",j+1,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY");
-     j += 2;
-     UpDown*= -1; // Alternate strips 
-     zcoor = zcoor-(zSenStrip/2)/TMath::Cos(ang)-
-             UpDown*Gap*TMath::Tan(ang)-
-            (zSenStrip/2)/TMath::Cos(ang);
-  } while (zcoor-(StripWidth/2)*TMath::Cos(ang)>-t+zFLTC+zFLTB+db*2);
+     ycoor = -14.5+ kspace; //2 cm over front plate
+     ycoor += (1-(upDown+1)/2)*gap;
+     //gMC->Gspos("FSTR",j  ,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY");
+     //gMC->Gspos("FSTR",j+1,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY");
+    gMC->Gspos("FSTR",centerLoc-j,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY"); // AdC
+    gMC->Gspos("FSTR",centerLoc+j,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY"); // AdC
+    if(fDebug>=1) {
+      printf("%s: %f,  St. %2i, Pl.3 ",ClassName(),ang*kRaddeg,j); // AdC
+      printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+    }
+    //j += 2; // AdC
+    upDown*= -1; // Alternate strips 
+    zcoor = zcoor-(zSenStrip/2)/TMath::Cos(ang)-
+      upDown*gap*TMath::Tan(ang)-
+      (zSenStrip/2)/TMath::Cos(ang);
+  } while (zcoor-(stripWidth/2)*TMath::Cos(ang)>-t+zFLTC+zFLTB+db*2);
   
-  zcoor = zcoor+(zSenStrip/2)/TMath::Cos(ang)-
-          UpDown*Gap*TMath::Tan(ang)+
-          (zSenStrip/2)/TMath::Cos(ang);
-         
-  Gap = 6.;
+  zcoor = zcoor+(zSenStrip/2)/TMath::Cos(ang)+
+    upDown*gap*TMath::Tan(ang)+
+    (zSenStrip/2)/TMath::Cos(ang);
+  
+  gap = fGapB;
   zcoor = zcoor-(zSenStrip/2)/TMath::Cos(ang)-
-          UpDown*Gap*TMath::Tan(ang)-
-          (zSenStrip/2)/TMath::Cos(ang);
-
-  ang = atan(zcoor/Radius);
+    upDown*gap*TMath::Tan(ang)-
+    (zSenStrip/2)/TMath::Cos(ang);
+  
+  ang = atan(zcoor/radius);
   ang *= kRaddeg;
   AliMatrix (idrotm[nrot],  90.,  0.,90.-ang,90.,-ang, 90.);   
   AliMatrix (idrotm[nrot+1],90.,180.,90.+ang,90., ang, 90.);
   ang /= kRaddeg;
          
-  ycoor = -14.5+ Space; //2 cm over front plate
-  ycoor += (1-(UpDown+1)/2)*Gap;
-  gMC->Gspos("FSTR",j  ,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY");
-  gMC->Gspos("FSTR",j+1,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY");
-  
-  ycoor = -29./2.+ Space;//2 cm over front plate
+  ycoor = -14.5+ kspace; //2 cm over front plate
+  ycoor += (1-(upDown+1)/2)*gap;
+  //gMC->Gspos("FSTR",j  ,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY");
+  //gMC->Gspos("FSTR",j+1,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY");
+  gMC->Gspos("FSTR",centerLoc-j,"FLTA",0.,ycoor, zcoor,idrotm[nrot],  "ONLY"); // AdC
+  gMC->Gspos("FSTR",centerLoc+j,"FLTA",0.,ycoor,-zcoor,idrotm[nrot+1],"ONLY"); // AdC
+  if(fDebug>=1) {
+    printf("%s: %f,  St. %2i, Pl.3 ",ClassName(),ang*kRaddeg,j); // AdC
+    printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+  }
+  ycoor = -hTof/2.+ kspace;//2 cm over front plate
 
   // Plate  B
 
   nrot = 0;
-  i=1;
-  UpDown *= -1;
+  Int_t i=1; // AdC
+  upDown = 1;
+  Float_t deadRegion = 1.0;//cm
   
   zpos = zcoor - (zSenStrip/2)/TMath::Cos(ang)-
-         UpDown*Gap*TMath::Tan(ang)-
-        (zSenStrip/2)/TMath::Cos(ang)-0.5/TMath::Cos(ang);
+         upDown*gap*TMath::Tan(ang)-
+        (zSenStrip/2)/TMath::Cos(ang)-
+        deadRegion/TMath::Cos(ang);
 
-  ang = atan(zpos/Radius);
+  ang = atan(zpos/radius);
   ang *= kRaddeg;
   AliMatrix (idrotm[nrot], 90., 0., 90.-ang,90.,ang, 270.);
   ang /= kRaddeg;
-  ycoor = -29.*0.5+ Space ; //2 cm over front plate
-  ycoor += (1-(UpDown+1)/2)*Gap;
+  ycoor = -hTof*0.5+ kspace ; //2 cm over front plate
+  ycoor += (1-(upDown+1)/2)*gap;
   zcoor = zpos+(zFLTA*0.5+zFLTB*0.5+db); // Moves to the system of the modulus FLTB
   gMC->Gspos("FSTR",i, "FLTB", 0., ycoor, zcoor,idrotm[nrot], "ONLY");
+  if(fDebug>=1) {   
+    printf("%s: %f,  St. %2i, Pl.4 ",ClassName(),ang*kRaddeg,i); 
+    printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+  }
   i++;
-  UpDown*=-1;
+  upDown*=-1;
 
   do {
      zpos = zpos - (zSenStrip/2)/TMath::Cos(ang)-
-            UpDown*Gap*TMath::Tan(ang)-
+            upDown*gap*TMath::Tan(ang)-
            (zSenStrip/2)/TMath::Cos(ang);
-     ang = atan(zpos/Radius);
+     ang = atan(zpos/radius);
      ang *= kRaddeg;
      AliMatrix (idrotm[nrot], 90., 0., 90.-ang,90.,ang, 270.);
      ang /= kRaddeg;
-     ycoor = -29.*0.5+ Space ; //2 cm over front plate
-     ycoor += (1-(UpDown+1)/2)*Gap;
+     Float_t deltaSpaceinB=-0.5; // [cm] to avoid overlaps with the end of freon frame
+     Float_t deltaGapinB=0.5;    // [cm] to avoid overlaps in between initial strips
+     ycoor = -hTof*0.5+ kspace+deltaSpaceinB ; //2 cm over front plate
+     ycoor += (1-(upDown+1)/2)*(gap+deltaGapinB);
      zcoor = zpos+(zFLTA*0.5+zFLTB*0.5+db); // Moves to the system of the modulus FLTB
      gMC->Gspos("FSTR",i, "FLTB", 0., ycoor, zcoor,idrotm[nrot], "ONLY");
-     UpDown*=-1;
+     if(fDebug>=1) {   
+       printf("%s: %f,  St. %2i, Pl.4 ",ClassName(),ang*kRaddeg,i); 
+       printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+     }
+     upDown*=-1;
      i++;
-  } while (TMath::Abs(ang*kRaddeg)<22.5);//till we reach a tilting angle of 22.5 degrees
+  } while (TMath::Abs(ang*kRaddeg)<22.5);
+  //till we reach a tilting angle of 22.5 degrees
 
-  ycoor = -29.*0.5+ Space ; //2 cm over front plate
+  ycoor = -hTof*0.5+ kspace ; //2 cm over front plate
+  zpos = zpos - zSenStrip/TMath::Cos(ang);
+  // this avoid overlaps in between outer strips in plate B
+  Float_t deltaMovingUp=0.8;    // [cm]
+  Float_t deltaMovingDown=-0.5; // [cm]
 
   do {
-     i++;
-     ang = atan(zpos/Radius);
+     ang = atan(zpos/radius);
      ang *= kRaddeg;
      AliMatrix (idrotm[nrot], 90., 0., 90.-ang,90.,ang, 270.);
      ang /= kRaddeg;
      zcoor = zpos+(zFLTB/2+zFLTA/2+db);
-     gMC->Gspos("FSTR",i, "FLTB", 0., ycoor, zcoor,idrotm[nrot], "ONLY");
+     gMC->Gspos("FSTR",i, "FLTB", 0., ycoor+deltaMovingDown+deltaMovingUp, zcoor,idrotm[nrot], "ONLY");
+     deltaMovingUp+=0.8; // update delta moving toward the end of the plate
      zpos = zpos - zSenStrip/TMath::Cos(ang);
-     last = StripWidth*TMath::Cos(ang)/2.;
-  }  while (zpos>-t+zFLTC+db);
-
+     if(fDebug>=1) {
+       printf("%s: %f,  St. %2i, Pl.4 ",ClassName(),ang*kRaddeg,i);
+       printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+     }
+     i++;
+  }  while (zpos-stripWidth*0.5/TMath::Cos(ang)>-t+zFLTC+db);
+  
   // Plate  C
+  
+  zpos = zpos + zSenStrip/TMath::Cos(ang);
 
-  zpos = zpos - (zSenStrip/2)/TMath::Cos(ang)-
-         Gap*TMath::Tan(ang)-
+  zpos = zpos - (zSenStrip/2)/TMath::Cos(ang)+
+         gap*TMath::Tan(ang)-
         (zSenStrip/2)/TMath::Cos(ang);
 
   nrot = 0;
   i=0;
-  ycoor= -29.*0.5+Space+Gap;
+  Float_t deltaGap=-2.5; // [cm] update distance from strip center and plate
+  ycoor= -hTof*0.5+kspace+gap+deltaGap;
 
   do {
      i++;
-     ang = atan(zpos/Radius);
+     ang = atan(zpos/radius);
      ang *= kRaddeg;
      AliMatrix (idrotm[nrot], 90., 0., 90.-ang,90.,ang, 270.);
      ang /= kRaddeg;
      zcoor = zpos+(zFLTC*0.5+zFLTB+zFLTA*0.5+db*2);
      gMC->Gspos("FSTR",i, "FLTC", 0., ycoor, zcoor,idrotm[nrot], "ONLY");
+     if(fDebug>=1) {
+       printf("%s: %f,  St. %2i, Pl.5 ",ClassName(),ang*kRaddeg,i);
+       printf("y = %f,  z = %f, zpos = %f \n",ycoor,zcoor,zpos);
+     }
      zpos = zpos - zSenStrip/TMath::Cos(ang);
-     last = StripWidth*TMath::Cos(ang)*0.5;
-  }  while (zpos>-t+last);
-
+  }  while (zpos-stripWidth*TMath::Cos(ang)*0.5>-t);
 
-////////// Layers after detector /////////////////
 
-// honeycomb (Polyethilene) Layer after (3cm)
+////////// Layers after strips /////////////////
+// honeycomb (Polyethilene) Layer after (1.2cm)
 
-  Float_t OverSpace = 15.30;//cm
+  Float_t overSpace = fOverSpc;//cm
 
-  par[0] = -1;
+  par[0] = xFLT*0.5;
   par[1] = 0.6;
-  par[2] = -1;
-  ycoor = -yFLT/2 + OverSpace + par[1];
+  par[2] = (zFLTA *0.5);
+  ycoor = -yFLT/2 + overSpace + par[1];
   gMC->Gsvolu("FPEA", "BOX ", idtmed[503], par, 3); // Hony
   gMC->Gspos ("FPEA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTB *0.5);
   gMC->Gsvolu("FPEB", "BOX ", idtmed[503], par, 3); // Hony
   gMC->Gspos ("FPEB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTC *0.5);
   gMC->Gsvolu("FPEC", "BOX ", idtmed[503], par, 3); // Hony
   gMC->Gspos ("FPEC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
 
 // Electronics (Cu) after
   ycoor += par[1];
-  par[0] = -1;
+  par[0] = xFLT*0.5;
   par[1] = 1.43*0.05*0.5; // 5% of X0
-  par[2] = -1;
+  par[2] = (zFLTA *0.5);
   ycoor += par[1];
   gMC->Gsvolu("FECA", "BOX ", idtmed[501], par, 3); // Cu
   gMC->Gspos ("FECA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTB *0.5);
   gMC->Gsvolu("FECB", "BOX ", idtmed[501], par, 3); // Cu
   gMC->Gspos ("FECB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTC *0.5);
   gMC->Gsvolu("FECC", "BOX ", idtmed[501], par, 3); // Cu
   gMC->Gspos ("FECC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
 
 // cooling WAter after
   ycoor += par[1];
-  par[0] = -1;
+  par[0] = xFLT*0.5;
   par[1] = 36.1*0.02*0.5; // 2% of X0
-  par[2] = -1;
+  par[2] = (zFLTA *0.5);
   ycoor += par[1];
   gMC->Gsvolu("FWAA", "BOX ", idtmed[515], par, 3); // Water
   gMC->Gspos ("FWAA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTB *0.5);
   gMC->Gsvolu("FWAB", "BOX ", idtmed[515], par, 3); // Water
   gMC->Gspos ("FWAB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTC *0.5);
   gMC->Gsvolu("FWAC", "BOX ", idtmed[515], par, 3); // Water
   gMC->Gspos ("FWAC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
 
+// frame of Air
+  ycoor += par[1];
+  par[0] = xFLT*0.5;
+  par[1] = (yFLT/2-ycoor-0.2)*0.5; // Aluminum layer considered (0.2 cm)
+  par[2] = (zFLTA *0.5);
+  ycoor += par[1];
+  gMC->Gsvolu("FAIA", "BOX ", idtmed[500], par, 3); // Air
+  gMC->Gspos ("FAIA", 0, "FLTA", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTB *0.5);
+  gMC->Gsvolu("FAIB", "BOX ", idtmed[500], par, 3); // Air
+  gMC->Gspos ("FAIB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
+  par[2] = (zFLTC *0.5);
+  gMC->Gsvolu("FAIC", "BOX ", idtmed[500], par, 3); // Air
+  gMC->Gspos ("FAIC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
+/* fp
 //Back Plate honycomb (2cm)
   par[0] = -1;
   par[1] = 2 *0.5;
@@ -580,13 +592,14 @@ void AliTOFv0::TOFpc(Float_t xtof, Float_t ytof, Float_t zlenC,
   gMC->Gspos ("FBPB", 0, "FLTB", 0., ycoor, 0., 0, "ONLY");
   gMC->Gsvolu("FBPC", "BOX ", idtmed[503], par, 3); // Hony
   gMC->Gspos ("FBPC", 0, "FLTC", 0., ycoor, 0., 0, "ONLY");
+fp */
 }
 
 //_____________________________________________________________________________
-void AliTOFv0::DrawModule()
+void AliTOFv0::DrawModule() const
 {
   //
-  // Draw a shaded view of the Time Of Flight version 1
+  // Draw a shaded view of the Time Of Flight version 0
   //
   // Set everything unseen
   gMC->Gsatt("*", "seen", -1);
@@ -630,6 +643,191 @@ void AliTOFv0::DrawModule()
   gMC->Gdman(18, 4, "MAN");
   gMC->Gdopt("hide","off");
 }
+//_____________________________________________________________________________
+void AliTOFv0::DrawDetectorModules()
+{
+//
+// Draw a shaded view of the TOF detector version 0
+//
+ 
+//Set ALIC mother transparent
+ gMC->Gsatt("ALIC","SEEN",0);
+
+//
+//Set volumes visible
+// 
+//=====> Level 1
+  // Level 1 for TOF volumes
+  gMC->Gsatt("B077","seen",0);
+ 
+ 
+//==========> Level 2
+  // Level 2
+  gMC->Gsatt("B076","seen",-1); // all B076 sub-levels skipped -
+  gMC->Gsatt("B071","seen",0);
+  gMC->Gsatt("B074","seen",0);
+  gMC->Gsatt("B075","seen",0);
+  gMC->Gsatt("B080","seen",0); // B080 does not has sub-level                
+
+
+  // Level 2 of B071
+  gMC->Gsatt("B063","seen",-1); // all B063 sub-levels skipped   -
+  gMC->Gsatt("B065","seen",-1); // all B065 sub-levels skipped   -
+  gMC->Gsatt("B067","seen",-1); // all B067 sub-levels skipped   -
+  gMC->Gsatt("B069","seen",-1); // all B069 sub-levels skipped   -
+  gMC->Gsatt("B056","seen",0);  // B056 does not has sub-levels  -
+  gMC->Gsatt("B059","seen",-1); // all B059 sub-levels skipped   -
+  gMC->Gsatt("B072","seen",-1); // all B072 sub-levels skipped   -
+  gMC->Gsatt("BTR1","seen",0);  // BTR1 do not have sub-levels   -
+  gMC->Gsatt("BTO1","seen",0);
+
+ 
+  // Level 2 of B074
+  gMC->Gsatt("BTR2","seen",0); // BTR2 does not has sub-levels -
+  gMC->Gsatt("BTO2","seen",0);
+
+  // Level 2 of B075
+  gMC->Gsatt("BTR3","seen",0); // BTR3 do not have sub-levels -
+  gMC->Gsatt("BTO3","seen",0);
+
+// ==================> Level 3
+  // Level 3 of B071 / Level 2 of BTO1
+  gMC->Gsatt("FTOC","seen",-2);
+  gMC->Gsatt("FTOB","seen",-2);
+  gMC->Gsatt("FTOA","seen",-2);
+ 
+  // Level 3 of B074 / Level 2 of BTO2
+  // -> cfr previous settings
+ 
+  // Level 3 of B075 / Level 2 of BTO3
+  // -> cfr previous settings
+
+  gMC->Gdopt("hide","on");
+  gMC->Gdopt("shad","on");
+  gMC->Gsatt("*", "fill", 5);
+  gMC->SetClipBox(".");
+  gMC->SetClipBox("*", 0, 1000, 0, 1000, 0, 1000);
+  gMC->DefaultRange();
+  gMC->Gdraw("alic", 45, 40, 0, 10, 10, .015, .015);
+  gMC->Gdhead(1111,"TOF detector V1");
+  gMC->Gdman(18, 4, "MAN");
+  gMC->Gdopt("hide","off");
+}                                 
+
+//_____________________________________________________________________________
+void AliTOFv0::DrawDetectorStrips()
+{
+//
+// Draw a shaded view of the TOF strips for version 0
+//
+ 
+//Set ALIC mother transparent
+ gMC->Gsatt("ALIC","SEEN",0);
+
+//
+//Set volumes visible 
+//=====> Level 1
+  // Level 1 for TOF volumes
+  gMC->Gsatt("B077","seen",0);
+  
+//==========> Level 2
+  // Level 2
+  gMC->Gsatt("B076","seen",-1); // all B076 sub-levels skipped -
+  gMC->Gsatt("B071","seen",0);
+  gMC->Gsatt("B074","seen",0);
+  gMC->Gsatt("B075","seen",0);
+  gMC->Gsatt("B080","seen",0); // B080 does not has sub-level
+
+  // Level 2 of B071
+  gMC->Gsatt("B063","seen",-1); // all B063 sub-levels skipped   -
+  gMC->Gsatt("B065","seen",-1); // all B065 sub-levels skipped   -
+  gMC->Gsatt("B067","seen",-1); // all B067 sub-levels skipped   -
+  gMC->Gsatt("B069","seen",-1); // all B069 sub-levels skipped   -
+  gMC->Gsatt("B056","seen",0);  // B056 does not has sub-levels  -
+  gMC->Gsatt("B059","seen",-1); // all B059 sub-levels skipped   -
+  gMC->Gsatt("B072","seen",-1); // all B072 sub-levels skipped   -
+  gMC->Gsatt("BTR1","seen",0);  // BTR1 do not have sub-levels   -
+  gMC->Gsatt("BTO1","seen",0);
+
+// ==================> Level 3
+  // Level 3 of B071 / Level 2 of BTO1
+  gMC->Gsatt("FTOC","seen",0);
+  gMC->Gsatt("FTOB","seen",0);
+  gMC->Gsatt("FTOA","seen",0);
+ 
+  // Level 3 of B074 / Level 2 of BTO2
+  // -> cfr previous settings
+ 
+  // Level 3 of B075 / Level 2 of BTO3
+  // -> cfr previous settings
+
+
+// ==========================> Level 4
+  // Level 4 of B071 / Level 3 of BTO1 / Level 2 of FTOC
+  gMC->Gsatt("FLTC","seen",0);
+  // Level 4 of B071 / Level 3 of BTO1 / Level 2 of FTOB
+  gMC->Gsatt("FLTB","seen",0);
+  // Level 4 of B071 / Level 3 of BTO1 / Level 2 of FTOA
+  gMC->Gsatt("FLTA","seen",0);
+ 
+  // Level 4 of B074 / Level 3 of BTO2 / Level 2 of FTOC
+  // -> cfr previous settings
+  // Level 4 of B074 / Level 3 of BTO2 / Level 2 of FTOB
+  // -> cfr previous settings
+ 
+  // Level 4 of B075 / Level 3 of BTO3 / Level 2 of FTOC
+  // -> cfr previous settings
+
+//======================================> Level 5
+  // Level 5 of B071 / Level 4 of BTO1 / Level 3 of FTOC / Level 2 of FLTC
+  gMC->Gsatt("FALC","seen",0); // no children for FALC
+  gMC->Gsatt("FSTR","seen",-2);
+  gMC->Gsatt("FPEC","seen",0); // no children for FPEC
+  gMC->Gsatt("FECC","seen",0); // no children for FECC
+  gMC->Gsatt("FWAC","seen",0); // no children for FWAC
+  gMC->Gsatt("FAIC","seen",0); // no children for FAIC
+
+  // Level 5 of B071 / Level 4 of BTO1 / Level 3 of FTOB / Level 2 of FLTB
+  gMC->Gsatt("FALB","seen",0); // no children for FALB
+//-->  gMC->Gsatt("FSTR","seen",-2);
+
+
+  // -> cfr previous settings
+  gMC->Gsatt("FPEB","seen",0); // no children for FPEB
+  gMC->Gsatt("FECB","seen",0); // no children for FECB
+  gMC->Gsatt("FWAB","seen",0); // no children for FWAB
+  gMC->Gsatt("FAIB","seen",0); // no children for FAIB
+ 
+  // Level 5 of B071 / Level 4 of BTO1 / Level 3 of FTOA / Level 2 of FLTA
+  gMC->Gsatt("FALA","seen",0); // no children for FALB
+//-->  gMC->Gsatt("FSTR","seen",-2);
+  // -> cfr previous settings
+  gMC->Gsatt("FPEA","seen",0); // no children for FPEA
+  gMC->Gsatt("FECA","seen",0); // no children for FECA
+  gMC->Gsatt("FWAA","seen",0); // no children for FWAA
+  gMC->Gsatt("FAIA","seen",0); // no children for FAIA
+
+  // Level 2 of B074
+  gMC->Gsatt("BTR2","seen",0); // BTR2 does not has sub-levels -
+  gMC->Gsatt("BTO2","seen",0);
+
+  // Level 2 of B075
+  gMC->Gsatt("BTR3","seen",0); // BTR3 do not have sub-levels -
+  gMC->Gsatt("BTO3","seen",0);
+
+// for others Level 5, cfr. previous settings
+
+  gMC->Gdopt("hide","on");
+  gMC->Gdopt("shad","on");
+  gMC->Gsatt("*", "fill", 5);
+  gMC->SetClipBox(".");
+  gMC->SetClipBox("*", 0, 1000, 0, 1000, 0, 1000);
+  gMC->DefaultRange();
+  gMC->Gdraw("alic", 45, 40, 0, 10, 10, .015, .015);
+  gMC->Gdhead(1111,"TOF Strips V1");
+  gMC->Gdman(18, 4, "MAN");
+  gMC->Gdopt("hide","off");
+}
 
 //_____________________________________________________________________________
 void AliTOFv0::CreateMaterials()
@@ -650,7 +848,7 @@ void AliTOFv0::Init()
         "  TOF  "
         "**************************************\n");
   printf("\n   Version 0 of TOF initialing, "
-             "symmetric TOF\n");
+             "symmetric TOF - Full Coverage version\n");
 
   AliTOF::Init();
 
@@ -661,9 +859,11 @@ void AliTOFv0::Init()
   fIdFLTB = gMC->VolId("FLTB");
   fIdFLTC = gMC->VolId("FLTC");
 
-  printf("**************************************"
-        "  TOF  "
-        "**************************************\n");
+  if(fDebug) {
+    printf("%s: **************************************"
+          "  TOF  "
+          "**************************************\n",ClassName());
+  }
 }
  
 //_____________________________________________________________________________
@@ -672,72 +872,102 @@ void AliTOFv0::StepManager()
   //
   // Procedure called at each step in the Time Of Flight
   //
-  Float_t hits[8],rho,phi,phid,z;
-  Int_t   sector, plate, pad_x, pad_z, strip;
-  Int_t   copy, pad_z_id, pad_x_id, strip_id, i;
-  Int_t   vol[4];
-  Int_t   *idtmed = fIdtmed->GetArray()-499;
   TLorentzVector mom, pos;
+  Float_t xm[3],pm[3],xpad[3],ppad[3];
+  Float_t hits[13],phi,phid,z;
+  Int_t   vol[5];
+  Int_t   sector, plate, padx, padz, strip;
+  Int_t   copy, padzid, padxid, stripid, i;
+  Int_t   *idtmed = fIdtmed->GetArray()-499;
+  Float_t incidenceAngle;
   
-  
-  if(gMC->GetMedium()==idtmed[513] && 
+  if(gMC->CurrentMedium()==idtmed[513] && 
      gMC->IsTrackEntering() && gMC->TrackCharge()
      && gMC->CurrentVolID(copy)==fIdSens) 
   {    
-// getting information about hit volumes
+    // getting information about hit volumes
     
-    pad_z_id=gMC->CurrentVolOffID(2,copy);
-    pad_z=copy;  
+    padzid=gMC->CurrentVolOffID(2,copy);
+    padz=copy;  
     
-    pad_x_id=gMC->CurrentVolOffID(1,copy);
-    pad_x=copy;  
+    padxid=gMC->CurrentVolOffID(1,copy);
+    padx=copy;  
     
-    strip_id=gMC->CurrentVolOffID(5,copy);
+    stripid=gMC->CurrentVolOffID(4,copy);
     strip=copy;  
 
-    pad_z = (strip-1)*2+pad_z;
-
     gMC->TrackPosition(pos);
     gMC->TrackMomentum(mom);
 
-    rho = sqrt(pos[0]*pos[0]+pos[1]*pos[1]);
-    phi = TMath::ACos(pos[0]/rho);
-    Float_t as = TMath::ASin(pos[1]/rho);
-    if (as<0) phi = 2*3.141592654-phi;
+//    Double_t NormPos=1./pos.Rho();
+    Double_t normMom=1./mom.Rho();
+
+//  getting the cohordinates in pad ref system
+    xm[0] = (Float_t)pos.X();
+    xm[1] = (Float_t)pos.Y();
+    xm[2] = (Float_t)pos.Z();
+
+    pm[0] = (Float_t)mom.X()*normMom;
+    pm[1] = (Float_t)mom.Y()*normMom;
+    pm[2] = (Float_t)mom.Z()*normMom;
+ 
+    gMC->Gmtod(xm,xpad,1);
+    gMC->Gmtod(pm,ppad,2);
+
+    incidenceAngle = TMath::ACos(ppad[1])*kRaddeg;
 
     z = pos[2];
-   
-    plate = 0;
-    Float_t limA = fZlenA*0.5;
-    Float_t limB = fZlenB+limA;
-    
-    if (TMath::Abs(z)<=limA) plate = 3;
-    if (z<= limB && z> limA) plate = 2;
-    if (z>=-limB && z<-limA) plate = 4;
-    if (z> limB)             plate = 1;
-    if (z<-limB)             plate = 5;
 
-    if (plate==3)  pad_z -= 2;
+    plate = 0;   
+    if (TMath::Abs(z) <=  fZlenA*0.5)  plate = 2; //3; // AdC
+    if (z < (fZlenA*0.5+fZlenB) && 
+        z >  fZlenA*0.5)               plate = 1; //4; // AdC
+    if (z >-(fZlenA*0.5+fZlenB) &&
+        z < -fZlenA*0.5)               plate = 3; //2; // AdC
+    if (z > (fZlenA*0.5+fZlenB))       plate = 0; //5; // AdC
+    if (z <-(fZlenA*0.5+fZlenB))       plate = 4; //1; // AdC
+
+    if (plate==0) strip=AliTOFConstants::fgkNStripC-strip; // AdC
+    else if (plate==1) strip=AliTOFConstants::fgkNStripB-strip; // AdC
+    else strip--; // AdC
 
-    phid   = phi*kRaddeg;
+    if (z<=0.) padx=AliTOFConstants::fgkNpadX-padx; // AdC
+    else padx--; // AdC
+
+    if (plate==3 || plate==4) padz=AliTOFConstants::fgkNpadZ-padz; // AdC
+    else padz--; // AdC
+
+    phi = pos.Phi();
+    if (phi>=0.) phid = phi*kRaddeg; //+180.; // AdC
+    else phid = phi*kRaddeg + 360.; // AdC
     sector = Int_t (phid/20.);
-    sector++;
+    //sector++;  // AdC
 
-    Double_t ptot = mom.Rho();
-    Double_t norm = 1/ptot;
     for(i=0;i<3;++i) {
       hits[i]   = pos[i];
-      hits[i+3] = mom[i]*norm;
+      hits[i+3] = pm[i];
     }
-    hits[6] = ptot;
+
+    hits[6] = mom.Rho();
     hits[7] = pos[3];
+    hits[8] = xpad[0];
+    hits[9] = xpad[1];
+    hits[10]= xpad[2];
+    hits[11]= incidenceAngle;
+    hits[12]= gMC->Edep();
     
-    vol[0] = sector;
-    vol[1] = plate;
-    vol[2] = pad_x;
-    vol[3] = pad_z;
-    
-    Int_t track = gAlice->CurrentTrack();
-    AliTOF::AddHit(track,vol, hits);
+    vol[0]= sector;
+    vol[1]= plate;
+    vol[2]= strip;
+    vol[3]= padx;
+    vol[4]= padz;
+
+    AddHit(gAlice->GetMCApp()->GetCurrentTrackNumber(),vol, hits);
   }
 }
+
+
+
+
+
+