[u/mrichter/AliRoot.git] / EVE / EveDet / AliEveITSDigitsInfo.cxx

// $Id$
// Main authors: Matevz Tadel & Alja Mrak-Tadel: 2006, 2007

/**************************************************************************
 * Copyright(c) 1998-2008, ALICE Experiment at CERN, all rights reserved. *
 * See http://aliceinfo.cern.ch/Offline/AliRoot/License.html for          *
 * full copyright notice.                                                 *
 **************************************************************************/

#include "AliEveITSDigitsInfo.h"
#include <EveBase/AliEveEventManager.h>

#include <AliITS.h>
#include <AliITSInitGeometry.h>
#include <AliITSgeomTGeo.h>
#include <AliITSsegmentationSPD.h>
#include <AliITSsegmentationSDD.h>
#include <AliITSsegmentationSSD.h>
#include <AliITSDDLModuleMapSDD.h>

#include <AliITSCalibrationSPD.h>
#include <AliITSCalibrationSDD.h>
#include <AliITSCalibrationSSD.h>
#include <AliITSdigit.h>
#include <AliITSdigitSPD.h>

#include <AliCDBEntry.h>
#include <AliCDBManager.h>

#include <AliRawReader.h>
#include <AliITSRawStreamSPD.h>
#include <AliITSRawStreamSDD.h>
#include <AliITSRawStreamSDDCompressed.h>
#include <AliITSRawStreamSSD.h>

#include <TGeoMatrix.h>
#include <TEveTrans.h>

#include <TMath.h>
#include <TVector3.h>

//==============================================================================
//==============================================================================
// AliEveITSModuleSelection
//==============================================================================

//______________________________________________________________________________
//
// Helper for selecting a range of ITS modules by type, layer, phi and
// theta. Taken as an argument to AliEveITSDigitsInfo::GetModuleIDs().

ClassImp(AliEveITSModuleSelection)

AliEveITSModuleSelection::AliEveITSModuleSelection():
  fType(-1),
  fLayer(-1),
  fMinPhi(-TMath::Pi()),
  fMaxPhi(TMath::Pi()),
  fMinTheta(-TMath::Pi()),
  fMaxTheta(TMath::Pi())
{
  // Constructor.
}


//==============================================================================
//==============================================================================
// AliEveITSDigitsInfo
//==============================================================================

//______________________________________________________________________________
//
// Stores ITS geometry information and event-data in format suitable
// for visualization.

ClassImp(AliEveITSDigitsInfo)

AliITSDDLModuleMapSDD *AliEveITSDigitsInfo::fgDDLMapSDD  = 0;
TObjArray             *AliEveITSDigitsInfo::fgDeadModSPD = 0;
TObjArray             *AliEveITSDigitsInfo::fgDeadModSDD = 0;
TObjArray             *AliEveITSDigitsInfo::fgDeadModSSD = 0;

/******************************************************************************/

AliEveITSDigitsInfo::AliEveITSDigitsInfo() :
  TObject(),
  TEveRefCnt(),
  fTree       (0),
  fSegSPD     (0), fSegSDD     (0), fSegSSD     (0),
  fSPDMinVal  (0), fSSDMinVal  (0), fSDDMinVal  (0),
  fSPDMaxVal  (0), fSSDMaxVal  (0), fSDDMaxVal  (0),
  fSPDHighLim (0), fSDDHighLim (0), fSSDHighLim (0),
  fSPDmap     (),  fSDDmap     (),  fSSDmap     ()
{
  // Default constructor.

  InitInternals();
}

void AliEveITSDigitsInfo::InitInternals()
{
  // Initialize internal geometry structures, in particular the
  // module-id to transformation-matrix mapping and segmentation
  // classes and data-structures.

  static const TEveException kEH("AliEveITSDigitsInfo::InitInternals ");

  AliEveEventManager::AssertGeometry();

  SetITSSegmentation();

  // create tables for scaling
  fSPDMinVal = 0;
  fSDDMinVal = 5;
  fSSDMinVal = 2;

  fSPDMaxVal = 1;
  fSDDMaxVal = 80;
  fSSDMaxVal = 100;

  fSPDHighLim = 1;
  fSDDHighLim = 512;
  fSSDHighLim = 1024;

  // lowest scale factor refers to unscaled ITS module
  fSPDScaleX[0] = 1;
  fSPDScaleZ[0] = 1;
  fSDDScaleX[0] = 1;
  fSDDScaleZ[0] = 1;
  fSSDScale [0] = 1;

  // spd lowest resolution
  Int_t nx = 8; // fSegSPD->Npx()/8; // 32
  Int_t nz = 6; // fSegSPD->Npz()/2; // 128
  fSPDScaleX[1] = Int_t(nx);
  fSPDScaleZ[1] = Int_t(nz);
  fSPDScaleX[2] = Int_t(nx*2);
  fSPDScaleZ[2] = Int_t(nz*2);
  fSPDScaleX[3] = Int_t(nx*3);
  fSPDScaleZ[3] = Int_t(nz*3);
  fSPDScaleX[4] = Int_t(nx*4);
  fSPDScaleZ[4] = Int_t(nz*4);

  fSDDScaleX[1] = 2;
  fSDDScaleZ[1] = 2;
  fSDDScaleX[2] = 8;
  fSDDScaleZ[2] = 8;
  fSDDScaleX[3] = 16;
  fSDDScaleZ[3] = 16;
  fSDDScaleX[4] = 25;
  fSDDScaleZ[4] = 25;

  fSSDScale[1] = 3;
  fSSDScale[2] = 9;
  fSSDScale[3] = 20;
  fSSDScale[4] = 30;

  if (fgDDLMapSDD == 0)
  {
    fgDDLMapSDD = new AliITSDDLModuleMapSDD();
    AliCDBManager *man = AliCDBManager::Instance();
    Bool_t cacheStatus = man->GetCacheFlag();
    AliCDBEntry   *ddlMapSDD = man->Get("ITS/Calib/DDLMapSDD");

    if (!ddlMapSDD)
    {
      AliWarning("SDD DDL map file retrieval from OCDB failed! - Use default DDL map");
    }
    else
    {
      AliITSDDLModuleMapSDD *ddlsdd = (AliITSDDLModuleMapSDD*)ddlMapSDD->GetObject();
      if (!ddlsdd)
      {
	AliWarning("SDD DDL map object not found in OCDB file! - Use default DDL map");
      }
      else
      {
	if (!cacheStatus)
	  ddlMapSDD->SetObject(0);
	ddlMapSDD->SetOwner(kTRUE);
	fgDDLMapSDD->SetDDLMap(ddlsdd);
      }
    }

    if (!cacheStatus)
      delete ddlMapSDD;
  }

  if (fgDeadModSPD == 0)
  {
    AliCDBManager *cdb = AliCDBManager::Instance();

    AliCDBEntry *deadSPD = cdb->Get("ITS/Calib/SPDDead");

    if (!deadSPD)
    {
      AliWarning("SPD Calibration object retrieval failed!");
    }
    else
    {
      fgDeadModSPD = (TObjArray*)deadSPD->GetObject();
      fgDeadModSPD->SetOwner(kTRUE);
    }
  }

  // if (fgDeadModSDD == 0)
  // {
  //   AliCDBManager *cdb = AliCDBManager::Instance();

  //   AliCDBEntry *deadSDD = cdb->Get("ITS/Calib/SDDDead");

  //   if (!deadSDD)
  //   {
  //     AliWarning("SDD Calibration object retrieval failed!");
  //   }
  //   else
  //   {
  //     fgDeadModSDD = (TObjArray*)deadSDD->GetObject();
  //     fgDeadModSDD->SetOwner(kTRUE);
  //   }
  // }

  // if (fgDeadModSSD == 0)
  // {
  //   AliCDBManager *cdb = AliCDBManager::Instance();

  //   AliCDBEntry *deadSSD = cdb->Get("ITS/Calib/SSDDead");

  //   if (!deadSSD)
  //   {
  //     AliWarning("SSD Calibration object retrieval failed!");
  //   }
  //   else
  //   {
  //     fgDeadModSSD = (TObjArray*)deadSSD->GetObject();
  //     fgDeadModSSD->SetOwner(kTRUE);
  //   }
  // }
}

/******************************************************************************/

AliEveITSDigitsInfo::~AliEveITSDigitsInfo()
{
  // Destructor.
  // Deletes the data-maps.
  // The tree, if it was passed into the object, is not touched.

  std::map<Int_t, TClonesArray*>::iterator j;
  for (j = fSPDmap.begin(); j != fSPDmap.end(); ++j)
    delete j->second;
  for (j = fSDDmap.begin(); j != fSDDmap.end(); ++j)
    delete j->second;
  for (j = fSSDmap.begin(); j != fSSDmap.end(); ++j)
    delete j->second;

  delete fSegSPD; delete fSegSDD; delete fSegSSD;
}

/******************************************************************************/

void AliEveITSDigitsInfo::SetTree(TTree* tree)
{
  // Set digit-tree to be used for digit retrieval. Data is loaded on
  // demand.

  fTree = tree;
}

void AliEveITSDigitsInfo::ReadRaw(AliRawReader* raw, Int_t mode)
{
  // Read raw-data into internal structures. AliITSdigit is used to
  // store raw-adata for all sub-detectors.

  if ((mode & 1) || (mode & 2))
  {
    AliITSRawStreamSPD inputSPD(raw);
    TClonesArray* digits = 0;
    while (inputSPD.Next())
    {
      Int_t module = inputSPD.GetModuleID();
      Int_t column = inputSPD.GetColumn();
      Int_t row    = inputSPD.GetRow();

      if (inputSPD.IsNewModule())
      {
	digits = fSPDmap[module];
	if (digits == 0)
	  fSPDmap[module] = digits = new TClonesArray("AliITSdigit", 16);
      }

      AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
      d->SetCoord1(column);
      d->SetCoord2(row);
      d->SetSignal(1);

      // printf("SPD: %d %d %d\n",module,column,row);
    }
    raw->Reset();
  }

  if ((mode & 4) || (mode & 8))
  {
    AliITSRawStream* inputSDD = AliITSRawStreamSDD::CreateRawStreamSDD(raw);
    inputSDD->SetDDLModuleMap(fgDDLMapSDD);
    TClonesArray* digits = 0;
    while (inputSDD->Next())
    {
      Int_t module = inputSDD->GetModuleID();

      digits = fSDDmap[module];
      if (digits == 0)
	fSDDmap[module] = digits = new TClonesArray("AliITSdigit", 0);      

      if (inputSDD->IsCompletedModule()==kFALSE && inputSDD->IsCompletedDDL()==kFALSE)
      {
	Int_t anode  = inputSDD->GetCoord1()+inputSDD->GetChannel()*AliITSsegmentationSDD::GetNAnodesPerHybrid();
	Int_t time   = inputSDD->GetCoord2();
	Int_t signal = inputSDD->GetSignal();
	AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
	d->SetCoord1(anode);
	d->SetCoord2(time);
	d->SetSignal(signal);
      }
      // printf("SDD: %d %d %d %d\n",module,anode,time,signal);
    }
    delete inputSDD;
    raw->Reset();
  }

  if ((mode & 16) || (mode & 32))
  {
    AliITSRawStreamSSD input(raw);
    TClonesArray* digits = 0;
    while (input.Next())
    {
      Int_t module  = input.GetModuleID();
      Int_t side    = input.GetSideFlag();
      Int_t strip   = input.GetStrip();
      Int_t signal  = input.GetSignal();

      // !!!! IsNewModule() is false in the beginning of the stream, so we also
      // !!!! check for digits == 0. Should be fixed in SSD stream.
      if (input.IsNewModule() || digits == 0)
      {
	digits = fSSDmap[module];
	if (digits == 0)
	  fSSDmap[module] = digits = new TClonesArray("AliITSdigit", 0);
      }

      AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
      d->SetCoord1(side);
      d->SetCoord2(strip);
      d->SetSignal(signal);

      // printf("SSD: %d %d %d %d\n",module,side,strip,signal);
    }
    raw->Reset();
  }
}

/******************************************************************************/

void AliEveITSDigitsInfo::SetITSSegmentation()
{
  // Create the segmentation objects and fill internal
  // data-structures.

  // SPD
  fSegSPD = new AliITSsegmentationSPD("TGeo");

  Float_t fNzSPD = 160;
  Float_t fHlSPD = 3.48;
  Float_t fZ1pitchSPD = 0.0425, fZ2pitchSPD = 0.0625;

  fSPDZCoord[0] = fZ1pitchSPD - fHlSPD;
  for (Int_t m=1; m<fNzSPD; m++)
  {
    Float_t dz = fZ1pitchSPD;
    if (m==31 || m==32 || m==63 || m==64 || m==95 || m==96 || m==127 || m==128)
    {
      dz = fZ2pitchSPD;
    }
    fSPDZCoord[m] = fSPDZCoord[m-1] + dz;
  }

  for (Int_t m=0; m<fNzSPD; m++)
  {
    Float_t dz = fZ1pitchSPD;
    if (m==31 || m==32 || m==63 || m==64 || m==95 || m==96 || m==127 || m==128)
    {
      dz = fZ2pitchSPD;
    }
    fSPDZCoord[m] -= dz;
  }

  // SDD
  fSegSDD = new AliITSsegmentationSDD("TGeo");
  // !!!! Set default drift speed, eventually need to get it from CDB.
  fSegSDD->SetDriftSpeed(7.3);

  // SSD
  fSegSSD = new AliITSsegmentationSSD("TGeo");
}

/******************************************************************************/

TClonesArray* AliEveITSDigitsInfo::GetDigits(Int_t mod, Int_t subdet) const
{
  // Return TClonesArray of digits for specified module and sub-detector-id.

  switch(subdet)
  {
    case 0:
    {
      std::map<Int_t, TClonesArray*>::iterator i = fSPDmap.find(mod);
      if (i != fSPDmap.end())
      {
	return i->second;
      }
      else if (fTree)
      {
	TClonesArray *digitsSPD = 0;
	TBranch *br = fTree->GetBranch("ITSDigitsSPD");
	br->SetAddress(&digitsSPD);
	br->GetEntry(mod);
	fSPDmap[mod] = digitsSPD;
	return digitsSPD;
      }
      break;
    }

    case 1:
    {
      std::map<Int_t, TClonesArray*>::iterator i = fSDDmap.find(mod);
      if (i != fSDDmap.end())
      {
	return i->second;
      }
      else if (fTree)
      {
	TClonesArray *digitsSDD = 0;
	TBranch *br = fTree->GetBranch("ITSDigitsSDD");
	br->SetAddress(&digitsSDD);
	br->GetEntry(mod);
	fSDDmap[mod] = digitsSDD;
	return digitsSDD;
      }
      break;
    }

    case 2:
    {
      std::map<Int_t, TClonesArray*>::iterator i = fSSDmap.find(mod);
      if (i != fSSDmap.end())
      {
	return i->second;
      }
      else if (fTree)
      {
	TClonesArray *digitsSSD = 0;
	TBranch *br = fTree->GetBranch("ITSDigitsSSD");
	br->SetAddress(&digitsSSD);
	br->GetEntry(mod);
	fSSDmap[mod] = digitsSSD;
	return digitsSSD;
      }
      break;
    }
  }

  return 0;
}

/******************************************************************************/

void AliEveITSDigitsInfo::GetModuleIDs(AliEveITSModuleSelection* sel,
				       std::vector<UInt_t>& ids) const
{
  // Fill the id-vector with ids of modules that satisfy conditions
  // given by the AliEveITSModuleSelection object.

  Int_t idx0 = 0, idx1 = 0;
  switch(sel->GetType())
  {
    case 0:
      idx0 = 0;
      idx1 = AliITSgeomTGeo::GetModuleIndex(3, 1, 1) - 1;
      break;
    case 1:
      idx0 = AliITSgeomTGeo::GetModuleIndex(3, 1, 1);
      idx1 = AliITSgeomTGeo::GetModuleIndex(5, 1, 1) - 1;
      break;
    case 2:
      idx0 = AliITSgeomTGeo::GetModuleIndex(5, 1, 1);
      idx1 = AliITSgeomTGeo::GetNModules() - 1;
      break;
    default:
      idx1 = 0;
      idx1 = AliITSgeomTGeo::GetNModules() - 1;
      break;
  }

  TVector3  v;
  TEveTrans mx;
  Int_t     lay, lad, det;
  for (Int_t id = idx0; id < idx1; ++id)
  {
    AliITSgeomTGeo::GetModuleId(id, lay, lad, det);
    if (sel->GetLayer() == lay || sel->GetLayer() == -1)
    {
      // check data from matrix
      mx.SetFrom(*AliITSgeomTGeo::GetMatrix(id));
      mx.GetPos(v);
      if (v.Phi()   <= sel->GetMaxPhi()   && v.Phi()   >= sel->GetMinPhi()   &&
	  v.Theta() <= sel->GetMaxTheta() && v.Theta() >= sel->GetMinTheta())
      {
	ids.push_back(id);
      }
    }
  }
}

/******************************************************************************/

Bool_t AliEveITSDigitsInfo::HasData(Int_t module, Int_t det_id) const
{
  // Return true if given module has data.

  TClonesArray *digits = GetDigits(module, det_id);
  return digits && digits->GetEntriesFast() > 0;
}

Bool_t AliEveITSDigitsInfo::IsDead (Int_t module, Int_t det_id) const
{
  // Return true if given module is dead.
  // Only implemented for SPD.

  if (det_id == 0 && fgDeadModSPD)
    return ((AliITSCalibrationSPD*) fgDeadModSPD->At(module))->IsBad();
  if (det_id == 1 && fgDeadModSDD)
    return ((AliITSCalibrationSDD*) fgDeadModSDD->At(module))->IsBad();
  if (det_id == 2 && fgDeadModSSD)
    return ((AliITSCalibrationSSD*) fgDeadModSSD->At(module))->IsBad();
  return kFALSE;
}

/******************************************************************************/

void AliEveITSDigitsInfo::Print(Option_t* ) const
{
  // Print information about stored geometry and segmentation.

  printf("*********************************************************\n");
  printf("SPD module dimension (%f,%f)\n",           fSegSPD->Dx()*0.0001, fSegSPD->Dz()*0.0001);
  printf("SPD first,last module: %d, %d\n",
	 AliITSgeomTGeo::GetModuleIndex(1,1,1), 
	 AliITSgeomTGeo::GetModuleIndex(3,1,1) - 1);
  printf("SPD num cells per module (x::%d,z::%d)\n", fSegSPD->Npx(), fSegSPD->Npz());
  Int_t iz = 0, ix = 0;
  printf("SPD dimesion of (%d,%d) in pixel(%f,%f)\n",   ix, iz, fSegSPD->Dpx(ix), fSegSPD->Dpz(iz));
  iz = 32;
  printf("SPD dimesion of pixel (%d,%d) are (%f,%f)\n", ix, iz, fSegSPD->Dpx(ix)*0.001, fSegSPD->Dpz(iz)*0.001);

  printf("*********************************************************\n");
  printf("SDD module dimension (%f,%f)\n",           fSegSDD->Dx()*0.0001, fSegSDD->Dz()*0.0001);
  printf("SDD first,last module: %d, %d\n",
	 AliITSgeomTGeo::GetModuleIndex(3,1,1),
	 AliITSgeomTGeo::GetModuleIndex(5,1,1) - 1);
  printf("SDD num cells per module (x::%d,z::%d)\n", fSegSDD->Npx(), fSegSDD->Npz());
  printf("SDD dimesion of pixel are (%f,%f)\n",      fSegSDD->Dpx(1)*0.001, fSegSDD->Dpz(1)*0.001);

  Float_t ap, an;
  printf("*********************************************************\n");
  printf("SSD module dimension (%f,%f)\n",  fSegSSD->Dx()*0.0001, fSegSSD->Dz()*0.0001);
  printf("SSD first, last module: %d, %d\n",
	 AliITSgeomTGeo::GetModuleIndex(5,1,1),
	 AliITSgeomTGeo::GetNModules() - 1);
  printf("SSD strips in module %d\n",       fSegSSD->Npx());
  printf("SSD strip sizes are (%f,%f)\n",   fSegSSD->Dpx(1), fSegSSD->Dpz(1));
  fSegSSD->SetLayer(5);  fSegSSD->Angles(ap,an);
  printf("SSD layer 5 stereoP %f stereoN %f angle\n", ap, an);
  fSegSSD->SetLayer(6);  fSegSSD->Angles(ap,an);
  printf("SSD layer 6 stereoP %f stereoN %f angle\n", ap, an);
}


/*
  printf("num cells %d,%d scaled %d,%d \n",fSegSPD->Npz(),fSegSPD->Npx(),Nz,Nx);
  printf("%d digits in AliEveITSModule %d\n",ne, module);
  Float_t zn = i*(3.48*2)/Nz - 3.48 ;
  Float_t xo =  -fSegSPD->Dx()*0.00005 + fSegSPD->Dpx(0)*od->GetCoord2()*0.0001;
  Float_t xn =  -fSegSPD->Dx()*0.00005 + j*0.0001*fSegSPD->Dx()/Nx;
  Float_t dpx = 0.0001*fSegSPD->Dx()/Nx;
  Float_t dpz = 3.48*2/Nz;
  printf("Z::original (%3f) scaled (%3f, %3f) \n", zo, zn-dpz/2, zn+dpz/2);
  printf("X::original (%3f) scaled (%3f, %3f) \n", xo, xn-dpx/2, xn+dpx/2);
  printf("%d,%d maped to %d,%d \n", od->GetCoord1(), od->GetCoord2(), i,j );
*/
Commit	Line	Data
d810d0de	1	// $Id$
	2	// Main authors: Matevz Tadel & Alja Mrak-Tadel: 2006, 2007
	3
	4	/**************************************************************************
	5	* Copyright(c) 1998-2008, ALICE Experiment at CERN, all rights reserved. *
	6	* See http://aliceinfo.cern.ch/Offline/AliRoot/License.html for *
51346b82	7	* full copyright notice. *
d810d0de	8	**************************************************************************/
5a5a1232	9
0879c50b	10	#include "AliEveITSDigitsInfo.h"
0879c50b	11	#include <EveBase/AliEveEventManager.h>
5a5a1232	12
0879c50b	13	#include <AliITS.h>
0879c50b	14	#include <AliITSInitGeometry.h>
12f6a2f3	15	#include <AliITSgeomTGeo.h>
0879c50b	16	#include <AliITSsegmentationSPD.h>
	17	#include <AliITSsegmentationSDD.h>
	18	#include <AliITSsegmentationSSD.h>
	19	#include <AliITSDDLModuleMapSDD.h>
	20
fe6798e0	21	#include <AliITSCalibrationSPD.h>
105fb267	22	#include <AliITSCalibrationSDD.h>
105fb267	23	#include <AliITSCalibrationSSD.h>
5a5a1232	24	#include <AliITSdigit.h>
	25	#include <AliITSdigitSPD.h>
	26
0879c50b	27	#include <AliCDBEntry.h>
	28	#include <AliCDBManager.h>
	29
b3bc5327	30	#include <AliRawReader.h>
	31	#include <AliITSRawStreamSPD.h>
	32	#include <AliITSRawStreamSDD.h>
74917814	33	#include <AliITSRawStreamSDDCompressed.h>
b3bc5327	34	#include <AliITSRawStreamSSD.h>
d810d0de	35
12f6a2f3	36	#include <TGeoMatrix.h>
a15e6d7d	37	#include <TEveTrans.h>
a15e6d7d	38
0879c50b	39	#include <TMath.h>
	40	#include <TVector3.h>
	41
a15e6d7d	42	//==============================================================================
	43	//==============================================================================
	44	// AliEveITSModuleSelection
	45	//==============================================================================
	46
54f770b4	47	//______________________________________________________________________________
	48	//
	49	// Helper for selecting a range of ITS modules by type, layer, phi and
	50	// theta. Taken as an argument to AliEveITSDigitsInfo::GetModuleIDs().
3d598e88	51
d810d0de	52	ClassImp(AliEveITSModuleSelection)
3d598e88	53
d810d0de	54	AliEveITSModuleSelection::AliEveITSModuleSelection():
3d598e88	55	fType(-1),
3d598e88	56	fLayer(-1),
32e219c2	57	fMinPhi(-TMath::Pi()),
	58	fMaxPhi(TMath::Pi()),
	59	fMinTheta(-TMath::Pi()),
	60	fMaxTheta(TMath::Pi())
54f770b4	61	{
	62	// Constructor.
	63	}
	64
b3bc5327	65
a15e6d7d	66	//==============================================================================
	67	//==============================================================================
	68	// AliEveITSDigitsInfo
	69	//==============================================================================
	70
54f770b4	71	//______________________________________________________________________________
	72	//
	73	// Stores ITS geometry information and event-data in format suitable
	74	// for visualization.
3d598e88	75
d810d0de	76	ClassImp(AliEveITSDigitsInfo)
5a5a1232	77
fe6798e0	78	AliITSDDLModuleMapSDD *AliEveITSDigitsInfo::fgDDLMapSDD = 0;
fe6798e0	79	TObjArray *AliEveITSDigitsInfo::fgDeadModSPD = 0;
105fb267	80	TObjArray *AliEveITSDigitsInfo::fgDeadModSDD = 0;
105fb267	81	TObjArray *AliEveITSDigitsInfo::fgDeadModSSD = 0;
4516a822	82
57ffa5fb	83	/******************************************************************************/
5a5a1232	84
d810d0de	85	AliEveITSDigitsInfo::AliEveITSDigitsInfo() :
265ecb21	86	TObject(),
84aff7a4	87	TEveRefCnt(),
9af86b69	88	fTree (0),
fd31e9de	89	fSegSPD (0), fSegSDD (0), fSegSSD (0),
c76ea574	90	fSPDMinVal (0), fSSDMinVal (0), fSDDMinVal (0),
c76ea574	91	fSPDMaxVal (0), fSSDMaxVal (0), fSDDMaxVal (0),
9af86b69	92	fSPDHighLim (0), fSDDHighLim (0), fSSDHighLim (0),
9af86b69	93	fSPDmap (), fSDDmap (), fSSDmap ()
5a5a1232	94	{
54f770b4	95	// Default constructor.
54f770b4	96
b3bc5327	97	InitInternals();
5a5a1232	98	}
5a5a1232	99
d810d0de	100	void AliEveITSDigitsInfo::InitInternals()
5a5a1232	101	{
54f770b4	102	// Initialize internal geometry structures, in particular the
	103	// module-id to transformation-matrix mapping and segmentation
	104	// classes and data-structures.
	105
a15e6d7d	106	static const TEveException kEH("AliEveITSDigitsInfo::InitInternals ");
5a5a1232	107
0879c50b	108	AliEveEventManager::AssertGeometry();
5a5a1232	109
5a5a1232	110	SetITSSegmentation();
d4b6a94c	111
5a5a1232	112	// create tables for scaling
d4b6a94c	113	fSPDMinVal = 0;
	114	fSDDMinVal = 5;
	115	fSSDMinVal = 2;
	116
	117	fSPDMaxVal = 1;
	118	fSDDMaxVal = 80;
	119	fSSDMaxVal = 100;
	120
32e219c2	121	fSPDHighLim = 1;
	122	fSDDHighLim = 512;
	123	fSSDHighLim = 1024;
d4b6a94c	124
d54c094e	125	// lowest scale factor refers to unscaled ITS module
	126	fSPDScaleX[0] = 1;
	127	fSPDScaleZ[0] = 1;
	128	fSDDScaleX[0] = 1;
	129	fSDDScaleZ[0] = 1;
	130	fSSDScale [0] = 1;
d4b6a94c	131
b3bc5327	132	// spd lowest resolution
5a5a1232	133	Int_t nx = 8; // fSegSPD->Npx()/8; // 32
5a5a1232	134	Int_t nz = 6; // fSegSPD->Npz()/2; // 128
51346b82	135	fSPDScaleX[1] = Int_t(nx);
	136	fSPDScaleZ[1] = Int_t(nz);
	137	fSPDScaleX[2] = Int_t(nx*2);
	138	fSPDScaleZ[2] = Int_t(nz*2);
	139	fSPDScaleX[3] = Int_t(nx*3);
	140	fSPDScaleZ[3] = Int_t(nz*3);
	141	fSPDScaleX[4] = Int_t(nx*4);
	142	fSPDScaleZ[4] = Int_t(nz*4);
5a5a1232	143
5a5a1232	144	fSDDScaleX[1] = 2;
	145	fSDDScaleZ[1] = 2;
	146	fSDDScaleX[2] = 8;
	147	fSDDScaleZ[2] = 8;
	148	fSDDScaleX[3] = 16;
	149	fSDDScaleZ[3] = 16;
	150	fSDDScaleX[4] = 25;
	151	fSDDScaleZ[4] = 25;
	152
	153	fSSDScale[1] = 3;
	154	fSSDScale[2] = 9;
	155	fSSDScale[3] = 20;
	156	fSSDScale[4] = 30;
4516a822	157
	158	if (fgDDLMapSDD == 0)
	159	{
	160	fgDDLMapSDD = new AliITSDDLModuleMapSDD();
	161	AliCDBManager *man = AliCDBManager::Instance();
	162	Bool_t cacheStatus = man->GetCacheFlag();
	163	AliCDBEntry *ddlMapSDD = man->Get("ITS/Calib/DDLMapSDD");
	164
	165	if (!ddlMapSDD)
	166	{
	167	AliWarning("SDD DDL map file retrieval from OCDB failed! - Use default DDL map");
	168	}
	169	else
	170	{
	171	AliITSDDLModuleMapSDD ddlsdd = (AliITSDDLModuleMapSDD)ddlMapSDD->GetObject();
	172	if (!ddlsdd)
	173	{
	174	AliWarning("SDD DDL map object not found in OCDB file! - Use default DDL map");
	175	}
	176	else
	177	{
	178	if (!cacheStatus)
	179	ddlMapSDD->SetObject(0);
	180	ddlMapSDD->SetOwner(kTRUE);
	181	fgDDLMapSDD->SetDDLMap(ddlsdd);
	182	}
0879c50b	183	}
4516a822	184
	185	if (!cacheStatus)
	186	delete ddlMapSDD;
0879c50b	187	}
fe6798e0	188
	189	if (fgDeadModSPD == 0)
	190	{
	191	AliCDBManager *cdb = AliCDBManager::Instance();
	192
	193	AliCDBEntry *deadSPD = cdb->Get("ITS/Calib/SPDDead");
	194
	195	if (!deadSPD)
	196	{
	197	AliWarning("SPD Calibration object retrieval failed!");
	198	}
	199	else
	200	{
	201	fgDeadModSPD = (TObjArray*)deadSPD->GetObject();
	202	fgDeadModSPD->SetOwner(kTRUE);
	203	}
	204	}
105fb267	205
98c4d14c	206	// if (fgDeadModSDD == 0)
	207	// {
	208	// AliCDBManager *cdb = AliCDBManager::Instance();
	209
	210	// AliCDBEntry *deadSDD = cdb->Get("ITS/Calib/SDDDead");
	211
	212	// if (!deadSDD)
	213	// {
	214	// AliWarning("SDD Calibration object retrieval failed!");
	215	// }
	216	// else
	217	// {
	218	// fgDeadModSDD = (TObjArray*)deadSDD->GetObject();
	219	// fgDeadModSDD->SetOwner(kTRUE);
	220	// }
	221	// }
	222
	223	// if (fgDeadModSSD == 0)
	224	// {
	225	// AliCDBManager *cdb = AliCDBManager::Instance();
	226
	227	// AliCDBEntry *deadSSD = cdb->Get("ITS/Calib/SSDDead");
	228
	229	// if (!deadSSD)
	230	// {
	231	// AliWarning("SSD Calibration object retrieval failed!");
	232	// }
	233	// else
	234	// {
	235	// fgDeadModSSD = (TObjArray*)deadSSD->GetObject();
	236	// fgDeadModSSD->SetOwner(kTRUE);
	237	// }
	238	// }
5a5a1232	239	}
5a5a1232	240
57ffa5fb	241	/******************************************************************************/
5a5a1232	242
4516a822	243	AliEveITSDigitsInfo::~AliEveITSDigitsInfo()
b3bc5327	244	{
54f770b4	245	// Destructor.
2452f391	246	// Deletes the data-maps.
2452f391	247	// The tree, if it was passed into the object, is not touched.
54f770b4	248
fd31e9de	249	std::map<Int_t, TClonesArray*>::iterator j;
0879c50b	250	for (j = fSPDmap.begin(); j != fSPDmap.end(); ++j)
b3bc5327	251	delete j->second;
0879c50b	252	for (j = fSDDmap.begin(); j != fSDDmap.end(); ++j)
b3bc5327	253	delete j->second;
0879c50b	254	for (j = fSSDmap.begin(); j != fSSDmap.end(); ++j)
b3bc5327	255	delete j->second;
4516a822	256
51346b82	257	delete fSegSPD; delete fSegSDD; delete fSegSSD;
b3bc5327	258	}
b3bc5327	259
57ffa5fb	260	/******************************************************************************/
b3bc5327	261
d810d0de	262	void AliEveITSDigitsInfo::SetTree(TTree* tree)
b3bc5327	263	{
	264	// Set digit-tree to be used for digit retrieval. Data is loaded on
	265	// demand.
	266
	267	fTree = tree;
	268	}
	269
d810d0de	270	void AliEveITSDigitsInfo::ReadRaw(AliRawReader* raw, Int_t mode)
b3bc5327	271	{
	272	// Read raw-data into internal structures. AliITSdigit is used to
	273	// store raw-adata for all sub-detectors.
	274
0879c50b	275	if ((mode & 1) \|\| (mode & 2))
0879c50b	276	{
b3bc5327	277	AliITSRawStreamSPD inputSPD(raw);
b3bc5327	278	TClonesArray* digits = 0;
b3bc5327	279	while (inputSPD.Next())
	280	{
	281	Int_t module = inputSPD.GetModuleID();
	282	Int_t column = inputSPD.GetColumn();
	283	Int_t row = inputSPD.GetRow();
51346b82	284
b3bc5327	285	if (inputSPD.IsNewModule())
b3bc5327	286	{
f8495fba	287	digits = fSPDmap[module];
	288	if (digits == 0)
	289	fSPDmap[module] = digits = new TClonesArray("AliITSdigit", 16);
b3bc5327	290	}
b3bc5327	291
f8495fba	292	AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
b3bc5327	293	d->SetCoord1(column);
	294	d->SetCoord2(row);
	295	d->SetSignal(1);
b3bc5327	296
	297	// printf("SPD: %d %d %d\n",module,column,row);
	298	}
b3bc5327	299	raw->Reset();
	300	}
	301
0879c50b	302	if ((mode & 4) \|\| (mode & 8))
0879c50b	303	{
4516a822	304	AliITSRawStream* inputSDD = AliITSRawStreamSDD::CreateRawStreamSDD(raw);
4516a822	305	inputSDD->SetDDLModuleMap(fgDDLMapSDD);
b3bc5327	306	TClonesArray* digits = 0;
74917814	307	while (inputSDD->Next())
b3bc5327	308	{
74917814	309	Int_t module = inputSDD->GetModuleID();
b3bc5327	310
74917814	311	digits = fSDDmap[module];
	312	if (digits == 0)
	313	fSDDmap[module] = digits = new TClonesArray("AliITSdigit", 0);
b3bc5327	314
74917814	315	if (inputSDD->IsCompletedModule()==kFALSE && inputSDD->IsCompletedDDL()==kFALSE)
cb35cec3	316	{
74917814	317	Int_t anode = inputSDD->GetCoord1()+inputSDD->GetChannel()*AliITSsegmentationSDD::GetNAnodesPerHybrid();
	318	Int_t time = inputSDD->GetCoord2();
	319	Int_t signal = inputSDD->GetSignal();
cb35cec3	320	AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
	321	d->SetCoord1(anode);
	322	d->SetCoord2(time);
	323	d->SetSignal(signal);
	324	}
b3bc5327	325	// printf("SDD: %d %d %d %d\n",module,anode,time,signal);
b3bc5327	326	}
74917814	327	delete inputSDD;
b3bc5327	328	raw->Reset();
	329	}
	330
0879c50b	331	if ((mode & 16) \|\| (mode & 32))
0879c50b	332	{
b3bc5327	333	AliITSRawStreamSSD input(raw);
b3bc5327	334	TClonesArray* digits = 0;
b3bc5327	335	while (input.Next())
	336	{
	337	Int_t module = input.GetModuleID();
	338	Int_t side = input.GetSideFlag();
	339	Int_t strip = input.GetStrip();
	340	Int_t signal = input.GetSignal();
	341
20807c14	342	// !!!! IsNewModule() is false in the beginning of the stream, so we also
	343	// !!!! check for digits == 0. Should be fixed in SSD stream.
	344	if (input.IsNewModule() \|\| digits == 0)
b3bc5327	345	{
f8495fba	346	digits = fSSDmap[module];
	347	if (digits == 0)
	348	fSSDmap[module] = digits = new TClonesArray("AliITSdigit", 0);
b3bc5327	349	}
b3bc5327	350
f8495fba	351	AliITSdigit* d = new ((*digits)[digits->GetEntriesFast()]) AliITSdigit();
b3bc5327	352	d->SetCoord1(side);
	353	d->SetCoord2(strip);
	354	d->SetSignal(signal);
b3bc5327	355
	356	// printf("SSD: %d %d %d %d\n",module,side,strip,signal);
	357	}
b3bc5327	358	raw->Reset();
	359	}
	360	}
	361
57ffa5fb	362	/******************************************************************************/
b3bc5327	363
d810d0de	364	void AliEveITSDigitsInfo::SetITSSegmentation()
5a5a1232	365	{
54f770b4	366	// Create the segmentation objects and fill internal
	367	// data-structures.
	368
5a5a1232	369	// SPD
c93f2d9b	370	fSegSPD = new AliITSsegmentationSPD("TGeo");
54f770b4	371
4516a822	372	Float_t fNzSPD = 160;
	373	Float_t fHlSPD = 3.48;
	374	Float_t fZ1pitchSPD = 0.0425, fZ2pitchSPD = 0.0625;
5a5a1232	375
8cc1d3b4	376	fSPDZCoord[0] = fZ1pitchSPD - fHlSPD;
4516a822	377	for (Int_t m=1; m<fNzSPD; m++)
	378	{
	379	Float_t dz = fZ1pitchSPD;
	380	if (m==31 \|\| m==32 \|\| m==63 \|\| m==64 \|\| m==95 \|\| m==96 \|\| m==127 \|\| m==128)
	381	{
	382	dz = fZ2pitchSPD;
	383	}
	384	fSPDZCoord[m] = fSPDZCoord[m-1] + dz;
5a5a1232	385	}
51346b82	386
4516a822	387	for (Int_t m=0; m<fNzSPD; m++)
	388	{
	389	Float_t dz = fZ1pitchSPD;
	390	if (m==31 \|\| m==32 \|\| m==63 \|\| m==64 \|\| m==95 \|\| m==96 \|\| m==127 \|\| m==128)
	391	{
	392	dz = fZ2pitchSPD;
	393	}
	394	fSPDZCoord[m] -= dz;
5a5a1232	395	}
51346b82	396
5a5a1232	397	// SDD
c93f2d9b	398	fSegSDD = new AliITSsegmentationSDD("TGeo");
0879c50b	399	// !!!! Set default drift speed, eventually need to get it from CDB.
0879c50b	400	fSegSDD->SetDriftSpeed(7.3);
5a5a1232	401
5a5a1232	402	// SSD
c93f2d9b	403	fSegSSD = new AliITSsegmentationSSD("TGeo");
5a5a1232	404	}
5a5a1232	405
57ffa5fb	406	/******************************************************************************/
5a5a1232	407
fe6798e0	408	TClonesArray* AliEveITSDigitsInfo::GetDigits(Int_t mod, Int_t subdet) const
5a5a1232	409	{
54f770b4	410	// Return TClonesArray of digits for specified module and sub-detector-id.
	411
	412	switch(subdet)
	413	{
	414	case 0:
	415	{
fd31e9de	416	std::map<Int_t, TClonesArray*>::iterator i = fSPDmap.find(mod);
4516a822	417	if (i != fSPDmap.end())
4516a822	418	{
6ddaaee3	419	return i->second;
6ddaaee3	420	}
4516a822	421	else if (fTree)
	422	{
	423	TClonesArray *digitsSPD = 0;
	424	TBranch *br = fTree->GetBranch("ITSDigitsSPD");
	425	br->SetAddress(&digitsSPD);
	426	br->GetEntry(mod);
	427	fSPDmap[mod] = digitsSPD;
	428	return digitsSPD;
	429	}
6ddaaee3	430	break;
5a5a1232	431	}
4516a822	432
54f770b4	433	case 1:
54f770b4	434	{
fd31e9de	435	std::map<Int_t, TClonesArray*>::iterator i = fSDDmap.find(mod);
4516a822	436	if (i != fSDDmap.end())
4516a822	437	{
6ddaaee3	438	return i->second;
6ddaaee3	439	}
4516a822	440	else if (fTree)
	441	{
	442	TClonesArray *digitsSDD = 0;
	443	TBranch *br = fTree->GetBranch("ITSDigitsSDD");
	444	br->SetAddress(&digitsSDD);
	445	br->GetEntry(mod);
	446	fSDDmap[mod] = digitsSDD;
	447	return digitsSDD;
	448	}
6ddaaee3	449	break;
5a5a1232	450	}
4516a822	451
54f770b4	452	case 2:
54f770b4	453	{
fd31e9de	454	std::map<Int_t, TClonesArray*>::iterator i = fSSDmap.find(mod);
4516a822	455	if (i != fSSDmap.end())
4516a822	456	{
6ddaaee3	457	return i->second;
6ddaaee3	458	}
4516a822	459	else if (fTree)
	460	{
	461	TClonesArray *digitsSSD = 0;
	462	TBranch *br = fTree->GetBranch("ITSDigitsSSD");
	463	br->SetAddress(&digitsSSD);
	464	br->GetEntry(mod);
	465	fSSDmap[mod] = digitsSSD;
	466	return digitsSSD;
	467	}
6ddaaee3	468	break;
5a5a1232	469	}
54f770b4	470	}
4516a822	471
03ecfe88	472	return 0;
5a5a1232	473	}
5a5a1232	474
57ffa5fb	475	/******************************************************************************/
54f770b4	476
54f770b4	477	void AliEveITSDigitsInfo::GetModuleIDs(AliEveITSModuleSelection* sel,
fe6798e0	478	std::vector<UInt_t>& ids) const
3d598e88	479	{
54f770b4	480	// Fill the id-vector with ids of modules that satisfy conditions
	481	// given by the AliEveITSModuleSelection object.
	482
3d598e88	483	Int_t idx0 = 0, idx1 = 0;
51346b82	484	switch(sel->GetType())
3d598e88	485	{
	486	case 0:
	487	idx0 = 0;
12f6a2f3	488	idx1 = AliITSgeomTGeo::GetModuleIndex(3, 1, 1) - 1;
3d598e88	489	break;
3d598e88	490	case 1:
12f6a2f3	491	idx0 = AliITSgeomTGeo::GetModuleIndex(3, 1, 1);
12f6a2f3	492	idx1 = AliITSgeomTGeo::GetModuleIndex(5, 1, 1) - 1;
3d598e88	493	break;
3d598e88	494	case 2:
12f6a2f3	495	idx0 = AliITSgeomTGeo::GetModuleIndex(5, 1, 1);
12f6a2f3	496	idx1 = AliITSgeomTGeo::GetNModules() - 1;
3d598e88	497	break;
	498	default:
	499	idx1 = 0;
12f6a2f3	500	idx1 = AliITSgeomTGeo::GetNModules() - 1;
54f770b4	501	break;
3d598e88	502	}
3d598e88	503
12f6a2f3	504	TVector3 v;
84aff7a4	505	TEveTrans mx;
12f6a2f3	506	Int_t lay, lad, det;
12f6a2f3	507	for (Int_t id = idx0; id < idx1; ++id)
54f770b4	508	{
12f6a2f3	509	AliITSgeomTGeo::GetModuleId(id, lay, lad, det);
51346b82	510	if (sel->GetLayer() == lay \|\| sel->GetLayer() == -1)
3d598e88	511	{
3d598e88	512	// check data from matrix
12f6a2f3	513	mx.SetFrom(*AliITSgeomTGeo::GetMatrix(id));
3d598e88	514	mx.GetPos(v);
51346b82	515	if (v.Phi() <= sel->GetMaxPhi() && v.Phi() >= sel->GetMinPhi() &&
51346b82	516	v.Theta() <= sel->GetMaxTheta() && v.Theta() >= sel->GetMinTheta())
54f770b4	517	{
3d598e88	518	ids.push_back(id);
54f770b4	519	}
3d598e88	520	}
	521	}
	522	}
5a5a1232	523
57ffa5fb	524	/******************************************************************************/
5a5a1232	525
fe6798e0	526	Bool_t AliEveITSDigitsInfo::HasData(Int_t module, Int_t det_id) const
	527	{
	528	// Return true if given module has data.
	529
	530	TClonesArray *digits = GetDigits(module, det_id);
	531	return digits && digits->GetEntriesFast() > 0;
	532	}
	533
	534	Bool_t AliEveITSDigitsInfo::IsDead (Int_t module, Int_t det_id) const
	535	{
	536	// Return true if given module is dead.
	537	// Only implemented for SPD.
	538
	539	if (det_id == 0 && fgDeadModSPD)
	540	return ((AliITSCalibrationSPD*) fgDeadModSPD->At(module))->IsBad();
105fb267	541	if (det_id == 1 && fgDeadModSDD)
	542	return ((AliITSCalibrationSDD*) fgDeadModSDD->At(module))->IsBad();
	543	if (det_id == 2 && fgDeadModSSD)
	544	return ((AliITSCalibrationSSD*) fgDeadModSSD->At(module))->IsBad();
fe6798e0	545	return kFALSE;
	546	}
	547
	548	/******************************************************************************/
	549
d810d0de	550	void AliEveITSDigitsInfo::Print(Option_t* ) const
5a5a1232	551	{
54f770b4	552	// Print information about stored geometry and segmentation.
54f770b4	553
5a5a1232	554	printf("*********************************************************\n");
54f770b4	555	printf("SPD module dimension (%f,%f)\n", fSegSPD->Dx()0.0001, fSegSPD->Dz()0.0001);
12f6a2f3	556	printf("SPD first,last module: %d, %d\n",
	557	AliITSgeomTGeo::GetModuleIndex(1,1,1),
	558	AliITSgeomTGeo::GetModuleIndex(3,1,1) - 1);
54f770b4	559	printf("SPD num cells per module (x::%d,z::%d)\n", fSegSPD->Npx(), fSegSPD->Npz());
	560	Int_t iz = 0, ix = 0;
	561	printf("SPD dimesion of (%d,%d) in pixel(%f,%f)\n", ix, iz, fSegSPD->Dpx(ix), fSegSPD->Dpz(iz));
5a5a1232	562	iz = 32;
54f770b4	563	printf("SPD dimesion of pixel (%d,%d) are (%f,%f)\n", ix, iz, fSegSPD->Dpx(ix)0.001, fSegSPD->Dpz(iz)0.001);
51346b82	564
5a5a1232	565	printf("*********************************************************\n");
54f770b4	566	printf("SDD module dimension (%f,%f)\n", fSegSDD->Dx()0.0001, fSegSDD->Dz()0.0001);
12f6a2f3	567	printf("SDD first,last module: %d, %d\n",
	568	AliITSgeomTGeo::GetModuleIndex(3,1,1),
	569	AliITSgeomTGeo::GetModuleIndex(5,1,1) - 1);
54f770b4	570	printf("SDD num cells per module (x::%d,z::%d)\n", fSegSDD->Npx(), fSegSDD->Npz());
	571	printf("SDD dimesion of pixel are (%f,%f)\n", fSegSDD->Dpx(1)0.001, fSegSDD->Dpz(1)0.001);
	572
	573	Float_t ap, an;
5a5a1232	574	printf("*********************************************************\n");
54f770b4	575	printf("SSD module dimension (%f,%f)\n", fSegSSD->Dx()0.0001, fSegSSD->Dz()0.0001);
12f6a2f3	576	printf("SSD first, last module: %d, %d\n",
	577	AliITSgeomTGeo::GetModuleIndex(5,1,1),
	578	AliITSgeomTGeo::GetNModules() - 1);
54f770b4	579	printf("SSD strips in module %d\n", fSegSSD->Npx());
	580	printf("SSD strip sizes are (%f,%f)\n", fSegSSD->Dpx(1), fSegSSD->Dpz(1));
	581	fSegSSD->SetLayer(5); fSegSSD->Angles(ap,an);
51346b82	582	printf("SSD layer 5 stereoP %f stereoN %f angle\n", ap, an);
5a5a1232	583	fSegSSD->SetLayer(6); fSegSSD->Angles(ap,an);
51346b82	584	printf("SSD layer 6 stereoP %f stereoN %f angle\n", ap, an);
5a5a1232	585	}
	586
	587
	588	/*
	589	printf("num cells %d,%d scaled %d,%d \n",fSegSPD->Npz(),fSegSPD->Npx(),Nz,Nx);
d810d0de	590	printf("%d digits in AliEveITSModule %d\n",ne, module);
5a5a1232	591	Float_t zn = i(3.482)/Nz - 3.48 ;
	592	Float_t xo = -fSegSPD->Dx()0.00005 + fSegSPD->Dpx(0)od->GetCoord2()*0.0001;
	593	Float_t xn = -fSegSPD->Dx()0.00005 + j0.0001*fSegSPD->Dx()/Nx;
	594	Float_t dpx = 0.0001*fSegSPD->Dx()/Nx;
	595	Float_t dpz = 3.48*2/Nz;
	596	printf("Z::original (%3f) scaled (%3f, %3f) \n", zo, zn-dpz/2, zn+dpz/2);
	597	printf("X::original (%3f) scaled (%3f, %3f) \n", xo, xn-dpx/2, xn+dpx/2);
	598	printf("%d,%d maped to %d,%d \n", od->GetCoord1(), od->GetCoord2(), i,j );
51346b82	599	*/