TEcnaNumbering Class Reference

#include <TEcnaNumbering.h>

Inheritance diagram for TEcnaNumbering:

Public Member Functions
void	BuildBarrelCrysTable ()
void	BuildEndcapCrysTable ()
void	BuildEndcapSCTable ()
Int_t	Get0SMEchaFrom1SMTowAnd0TowEcha (const Int_t &, const Int_t &)
Int_t	Get0StexEchaFrom1StexStinAnd0StinEcha (const Int_t &, const Int_t &)
Int_t	Get0TowEchaFrom0SMEcha (const Int_t &)
Int_t	Get0TowEchaFrom1SMCrys (const Int_t &)
Int_t	Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha (const Int_t &, const Int_t &, const TString &)
Int_t	Get1DeeSCEcnaFrom0DeeEcha (const Int_t &)
Int_t	Get1DeeSCEcnaFrom1DeeCrys (const Int_t &, const TString &)
Int_t	Get1DeeSCEcnaFromDeeSCCons (const Int_t &, const Int_t &)
Int_t	Get1SCEchaFrom0DeeEcha (const Int_t &)
Int_t	Get1SCEchaFrom1DeeCrys (const Int_t &, const TString &)
Int_t	Get1SMCrysFrom1SMTowAnd0TowEcha (const Int_t &, const Int_t &)
Int_t	Get1SMTowFrom0SMEcha (const Int_t &)
Int_t	Get1SMTowFrom1SMCrys (const Int_t &)
Int_t	Get1StexCrysFrom1StexStinAnd0StinEcha (const Int_t &, const Int_t &, const Int_t &)
Int_t	Get1StexStinFrom0StexEcha (const Int_t &)
Int_t	GetDeeDirIndex (const TString &)
TString	GetDeeDirViewedFromIP (const Int_t &)
TString	GetDeeHalfEndcap (const Int_t &)
Int_t	GetDeeSCConsFrom1DeeSCEcna (const Int_t &, const Int_t &)
Int_t	GetDeeSCConsFrom1DeeSCEcna (const Int_t &, const Int_t &, const Int_t &)
Int_t	GetDSFrom1DeeSCEcna (const Int_t &, const Int_t &)
Int_t	GetDSFromFED (const Int_t &)
Int_t	GetDSSCFrom1DeeSCEcna (const Int_t &, const Int_t &)
Int_t	GetDSSCFrom1DeeSCEcna (const Int_t &, const Int_t &, const Int_t &)
TString	GetEEDeeEndcap (const Int_t &)
TString	GetEEDeeType (const Int_t &)
Double_t	GetEta (const Int_t &, const Int_t &, const Int_t &)
Double_t	GetEtaMax (const Int_t &, const Int_t &)
Double_t	GetEtaMin (const Int_t &, const Int_t &)
Int_t	GetHashedNumberFromIEtaAndIPhi (const Int_t &, const Int_t &)
Int_t	GetIEtaFromHashed (const Int_t &, const Int_t &)
Double_t	GetIEtaMax (const Int_t &)
Double_t	GetIEtaMax (const Int_t &, const Int_t &)
Double_t	GetIEtaMin (const Int_t &)
Double_t	GetIEtaMin (const Int_t &, const Int_t &)
Double_t	GetIHocoMax (const Int_t &, const Int_t &)
Double_t	GetIHocoMin (const Int_t &, const Int_t &)
Double_t	GetIIXMax ()
Double_t	GetIIXMax (const Int_t &)
Double_t	GetIIXMin ()
Double_t	GetIIXMin (const Int_t &)
Int_t	GetIPhiFromHashed (const Int_t &)
Int_t	GetIXCrysInDee (const Int_t &, const Int_t &, const Int_t &)
Int_t	GetIXCrysInSC (const Int_t &, const Int_t &, const Int_t &)
Int_t	GetIXSCInDee (const Int_t &)
Double_t	GetJIYMax (const Int_t &)
Double_t	GetJIYMax (const Int_t &, const Int_t &)
Double_t	GetJIYMin (const Int_t &)
Double_t	GetJIYMin (const Int_t &, const Int_t &)
Double_t	GetJPhiMax (const Int_t &)
Double_t	GetJPhiMax (const Int_t &, const Int_t &)
Double_t	GetJPhiMin (const Int_t &)
Double_t	GetJPhiMin (const Int_t &, const Int_t &)
Double_t	GetJVecoMax (const Int_t &, const Int_t &)
Double_t	GetJVecoMin (const Int_t &, const Int_t &)
Int_t	GetJYCrysInDee (const Int_t &, const Int_t &, const Int_t &)
Int_t	GetJYCrysInSC (const Int_t &, const Int_t &, const Int_t &)
TString	GetJYDirectionEB (const Int_t &)
TString	GetJYDirectionEE (const Int_t &)
Int_t	GetJYSCInDee (const Int_t &)
Int_t	GetMaxSCInDS (const Int_t &)
Double_t	GetPhi (const Int_t &, const Int_t &, const Int_t &)
Double_t	GetPhiInSM (const Int_t &, const Int_t &, const Int_t &)
Double_t	GetPhiMax (const Int_t &)
Double_t	GetPhiMax (const Int_t &, const Int_t &)
Double_t	GetPhiMin (const Int_t &)
Double_t	GetPhiMin (const Int_t &, const Int_t &)
TString	GetSCQuadFrom1DeeSCEcna (const Int_t &)
Int_t	GetSCQuadTypeIndex (const TString &, const TString &)
TString	GetSCType (const Int_t &)
Double_t	GetSMCentralPhi (const Int_t &)
Int_t	GetSMFromFED (const Int_t &)
TString	GetSMHalfBarrel (const Int_t &)
TString	GetStexHalfStas (const Int_t &)
TString	GetStinLvrbType (const Int_t &)
TString	GetTowerLvrbType (const Int_t &)
Double_t	GetVecoMax (const Int_t &, const Int_t &)
Double_t	GetVecoMin (const Int_t &, const Int_t &)
TString	GetXDirectionEB (const Int_t &)
TString	GetXDirectionEE (const Int_t &)
TString	GetYDirectionEB (const Int_t &)
TString	GetYDirectionEE (const Int_t &)
Int_t	MaxCrysInStinEcna (const Int_t &, const Int_t &, const TString &)
Int_t	PlusMinusSMNumber (const Int_t &)
void	SetEcalSubDetector (const TString &)
void	SetEcalSubDetector (const TString &, const TEcnaParEcal *)
Int_t	StexEchaForCons (const Int_t &, const Int_t &)
	TEcnaNumbering ()
	TEcnaNumbering (const TString &, const TEcnaParEcal *)
	TEcnaNumbering (TEcnaObject *, const TString &)
	~TEcnaNumbering () override

Protected Member Functions
void	Init ()

Private Attributes
Int_t	fCdelete
Int_t	fCnew
TString	fCodeChNumberingITP1Bot
TString	fCodeChNumberingITP2Top
TString	fCodeChNumberingLvrbBot
TString	fCodeChNumberingLvrbTop
TEcnaParEcal *	fEcal
Int_t	fFlagPrint
TString	fFlagSubDet
Int_t	fgMaxCar
Int_t *	fT1d_DeeSCCons
Int_t *	fT1d_DS
Int_t *	fT1d_DSSC
Int_t *	fT1d_ich_IX
Int_t *	fT1d_jch_JY
Int_t *	fT1d_RecovDeeSC
Int_t *	fT1dDeeCrys
Int_t *	fT1dDeeSC
Int_t *	fT1dSCEcha
Int_t *	fT1dSMCrys
Int_t *	fT1dSMTow
Int_t *	fT1dTowEcha
Int_t **	fT2d_DeeSCCons
Int_t **	fT2d_DS
Int_t **	fT2d_DSSC
Int_t **	fT2d_ich_IX
Int_t **	fT2d_jch_JY
Int_t **	fT2d_RecovDeeSC
Int_t **	fT2dDeeCrys
Int_t **	fT2dDeeSC
Int_t **	fT2dSCEcha
Int_t **	fT2dSMCrys
Int_t ***	fT3dDeeCrys
TString	fTTBELL

Detailed Description

---

TEcnaNumbering.h Update: 05/10/2012 Author: B.Fabbro (berna.nosp@m.rd.f.nosp@m.abbro.nosp@m.@cea.nosp@m..fr) DSM/IRFU/SPP CEA-Saclay Copyright: Those valid for CEA sofware

ECNA web page: http://cms-fabbro.web.cern.ch/cms-fabbro/

cna_new/Correlated_Noise_Analysis/ECNA_main_page.htm

Definition at line 23 of file TEcnaNumbering.h.

Constructor & Destructor Documentation

TEcnaNumbering() [1/3]

TEcnaNumbering::TEcnaNumbering

(

)

Definition at line 34 of file TEcnaNumbering.cc.

                               {
  // Constructor without argument: call to method Init()
 
  //  std::cout << "[Info Management] CLASS: TEcnaNumbering.    CREATE OBJECT: this = " << this << std::endl;
 
  Init();
}

References Init().

TEcnaNumbering() [2/3]

TEcnaNumbering::TEcnaNumbering	(	TEcnaObject *	pObjectManager,
		const TString &	SubDet
	)

Definition at line 42 of file TEcnaNumbering.cc.

                                                                                 {
  // Constructor with argument: call to methods Init() and SetEcalSubDetector(const TString&)
 
  // std::cout << "[Info Management] CLASS: TEcnaNumbering.    CREATE OBJECT: this = " << this << std::endl;
 
  Init();
  Long_t i_this = (Long_t)this;
  pObjectManager->RegisterPointer("TEcnaNumbering", i_this);
 
  //............................ fEcal  => to be changed in fParEcal
  fEcal = nullptr;
  Long_t iParEcal = pObjectManager->GetPointerValue("TEcnaParEcal");
  if (iParEcal == 0) {
    fEcal = new TEcnaParEcal(pObjectManager, SubDet.Data()); /*fCnew++*/
  } else {
    fEcal = (TEcnaParEcal*)iParEcal;
  }
 
  SetEcalSubDetector(SubDet.Data());
}

References fEcal, TEcnaObject::GetPointerValue(), Init(), TEcnaObject::RegisterPointer(), SetEcalSubDetector(), and ntupleEnum::SubDet.

TEcnaNumbering() [3/3]

TEcnaNumbering::TEcnaNumbering	(	const TString &	SubDet,
		const TEcnaParEcal *	pEcal
	)

Definition at line 63 of file TEcnaNumbering.cc.

                                                                               {
  // Constructor with argument: call to methods Init() and SetEcalSubDetector(const TString&)
 
  // std::cout << "[Info Management] CLASS: TEcnaNumbering.    CREATE OBJECT: this = " << this << std::endl;
 
  Init();
  SetEcalSubDetector(SubDet.Data(), pEcal);
}

References Init(), SetEcalSubDetector(), and ntupleEnum::SubDet.

~TEcnaNumbering()

TEcnaNumbering::~TEcnaNumbering ( )

override

Definition at line 73 of file TEcnaNumbering.cc.

                                {
  //destructor
 
  //if (fEcal   != 0){delete fEcal;   fCdelete++;}
 
  //....................... Barrel
  if (fT2dSMCrys != nullptr) {
    delete[] fT2dSMCrys;
    fCdelete++;
  }
  if (fT1dSMCrys != nullptr) {
    delete[] fT1dSMCrys;
    fCdelete++;
  }
  if (fT1dSMTow != nullptr) {
    delete[] fT1dSMTow;
    fCdelete++;
  }
  if (fT1dTowEcha != nullptr) {
    delete[] fT1dTowEcha;
    fCdelete++;
  }
 
  //....................... Endcap
  if (fT3dDeeCrys != nullptr) {
    delete[] fT3dDeeCrys;
    fCdelete++;
  }
  if (fT2dDeeCrys != nullptr) {
    delete[] fT2dDeeCrys;
    fCdelete++;
  }
  if (fT1dDeeCrys != nullptr) {
    delete[] fT1dDeeCrys;
    fCdelete++;
  }
  if (fT2dDeeSC != nullptr) {
    delete[] fT2dDeeSC;
    fCdelete++;
  }
  if (fT1dDeeSC != nullptr) {
    delete[] fT1dDeeSC;
    fCdelete++;
  }
  if (fT2dSCEcha != nullptr) {
    delete[] fT2dSCEcha;
    fCdelete++;
  }
  if (fT1dSCEcha != nullptr) {
    delete[] fT1dSCEcha;
    fCdelete++;
  }
  if (fT2d_jch_JY != nullptr) {
    delete[] fT2d_jch_JY;
    fCdelete++;
  }
  if (fT1d_jch_JY != nullptr) {
    delete[] fT1d_jch_JY;
    fCdelete++;
  }
  if (fT2d_ich_IX != nullptr) {
    delete[] fT2d_ich_IX;
    fCdelete++;
  }
  if (fT1d_ich_IX != nullptr) {
    delete[] fT1d_ich_IX;
    fCdelete++;
  }
  if (fT2d_DS != nullptr) {
    delete[] fT2d_DS;
    fCdelete++;
  }
  if (fT1d_DS != nullptr) {
    delete[] fT1d_DS;
    fCdelete++;
  }
  if (fT2d_DSSC != nullptr) {
    delete[] fT2d_DSSC;
    fCdelete++;
  }
  if (fT1d_DSSC != nullptr) {
    delete[] fT1d_DSSC;
    fCdelete++;
  }
  if (fT2d_DeeSCCons != nullptr) {
    delete[] fT2d_DeeSCCons;
    fCdelete++;
  }
  if (fT1d_DeeSCCons != nullptr) {
    delete[] fT1d_DeeSCCons;
    fCdelete++;
  }
  if (fT2d_RecovDeeSC != nullptr) {
    delete[] fT2d_RecovDeeSC;
    fCdelete++;
  }
  if (fT1d_RecovDeeSC != nullptr) {
    delete[] fT1d_RecovDeeSC;
    fCdelete++;
  }
 
  // std::cout << "[Info Management] CLASS: TEcnaNumbering.    DESTROY OBJECT: this = " << this << std::endl;
}

References fCdelete, fT1d_DeeSCCons, fT1d_DS, fT1d_DSSC, fT1d_ich_IX, fT1d_jch_JY, fT1d_RecovDeeSC, fT1dDeeCrys, fT1dDeeSC, fT1dSCEcha, fT1dSMCrys, fT1dSMTow, fT1dTowEcha, fT2d_DeeSCCons, fT2d_DS, fT2d_DSSC, fT2d_ich_IX, fT2d_jch_JY, fT2d_RecovDeeSC, fT2dDeeCrys, fT2dDeeSC, fT2dSCEcha, fT2dSMCrys, and fT3dDeeCrys.

Member Function Documentation

BuildBarrelCrysTable()

void TEcnaNumbering::BuildBarrelCrysTable

(

)

Definition at line 273 of file TEcnaNumbering.cc.

                                          {
  // Build the correspondance table: SMCrys <-> (SMTow, TowEcha) for the ECAL BARREL
  //
  //  From CMS Internal Note  "CMS ECAL Barrel channel numbering"
  //
  //       Name      Number                     Reference set   Range        Comment
  //
  //       SMTow  : Tower number               in SuperModule  [1,68]      (phi,eta) progression
  //       SMCrys : Crystal number             in SuperModule  [1,1700]    (phi,eta) progression
  //       SMEcha : Electronic channel number  in SuperModule  [0,1699]    S shape data reading order
  //
  //       TowEcha: Electronic channel number  in Tower        [0,24]      S shape data reading order
  //
  //
  //   fill the 2D array:  fT2dSMCrys[n_SMTow][n_TowEcha]
  //
  //   and the 1d arrays:  fT1dSMTow[i_SMCrys] and fT1dTowEcha[i_SMCrys]
  //
  //-----------------------------------------------------------------------------------------------------
 
  if (fT2dSMCrys == nullptr) {
    Int_t MaxSMTow = fEcal->MaxTowInSM();
    Int_t MaxTowEcha = fEcal->MaxCrysInTow();
    Int_t MaxSMCrys = fEcal->MaxCrysInSM();
 
    //................... Allocation and Init CrysNumbersTable
 
    fT2dSMCrys = new Int_t*[MaxSMTow];
    fCnew++;
    fT1dSMCrys = new Int_t[MaxSMTow * MaxTowEcha];
    fCnew++;
    for (Int_t i_SMTow = 0; i_SMTow < MaxSMTow; i_SMTow++) {
      fT2dSMCrys[i_SMTow] = &fT1dSMCrys[0] + i_SMTow * MaxTowEcha;
    }
    for (Int_t i = 0; i < MaxSMTow; i++) {
      for (Int_t j = 0; j < MaxTowEcha; j++) {
        fT2dSMCrys[i][j] = 0;
      }
    }
 
    fT1dSMTow = new Int_t[MaxSMCrys];
    fCnew++;
    for (Int_t i = 0; i < MaxSMCrys; i++) {
      fT1dSMTow[i] = 0;
    }
 
    fT1dTowEcha = new Int_t[MaxSMCrys];
    fCnew++;
    for (Int_t i = 0; i < MaxSMCrys; i++) {
      fT1dTowEcha[i] = 0;
    }
 
    //........................ Build table
    Int_t m2 = (Int_t)2;
    Int_t m26 = (Int_t)26;
 
    //      Int_t jch_type[2][26];
    Int_t** jch_type = new Int_t*[m2];
    fCnew++;
    Int_t* jch_type_d1 = new Int_t[m2 * m26];
    fCnew++;
    for (Int_t i_m2 = 0; i_m2 < m2; i_m2++) {
      jch_type[i_m2] = &jch_type_d1[0] + i_m2 * m26;
    }
 
    for (Int_t k = 25; k >= 21; k--) {
      jch_type[0][k] = 25 - k;
    }  //  k = 25,24,23,22,21 -> jch_type[0][k] = 0,1,2,3,4
    for (Int_t k = 16; k <= 20; k++) {
      jch_type[0][k] = k - 16;
    }  //  k = 16,17,18,19,20 -> jch_type[0][k] = 0,1,2,3,4
    for (Int_t k = 15; k >= 11; k--) {
      jch_type[0][k] = 15 - k;
    }  //  k = 15,14,12,13,11 -> jch_type[0][k] = 0,1,2,3,4
    for (Int_t k = 6; k <= 10; k++) {
      jch_type[0][k] = k - 6;
    }  //  k =  6, 7, 8, 9,10 -> jch_type[0][k] = 0,1,2,3,4
    for (Int_t k = 5; k >= 1; k--) {
      jch_type[0][k] = 5 - k;
    }  //  k =  5, 4, 3, 2, 1 -> jch_type[0][k] = 0,1,2,3,4
 
    for (Int_t k = 1; k <= 5; k++) {
      jch_type[1][k] = k - 1;
    }  //  k =  1, 2, 3, 4, 5 -> jch_type[1][k] = 0,1,2,3,4
    for (Int_t k = 10; k >= 6; k--) {
      jch_type[1][k] = 10 - k;
    }  //  k = 10, 9, 8, 7, 6 -> jch_type[1][k] = 0,1,2,3,4
    for (Int_t k = 11; k <= 15; k++) {
      jch_type[1][k] = k - 11;
    }  //  k = 11,12,13,14,15 -> jch_type[1][k] = 0,1,2,3,4
    for (Int_t k = 20; k >= 16; k--) {
      jch_type[1][k] = 20 - k;
    }  //  k = 20,19,18,17,16 -> jch_type[1][k] = 0,1,2,3,4
    for (Int_t k = 21; k <= 25; k++) {
      jch_type[1][k] = k - 21;
    }  //  k = 21,22,23,24,25 -> jch_type[1][k] = 0,1,2,3,4
 
    //      Int_t ich_type[2][26];
    Int_t** ich_type = new Int_t*[m2];
    fCnew++;
    Int_t* ich_type_d1 = new Int_t[m2 * m26];
    fCnew++;
    for (Int_t i_m2 = 0; i_m2 < m2; i_m2++) {
      ich_type[i_m2] = &ich_type_d1[0] + i_m2 * m26;
    }
 
    for (Int_t k = 25; k >= 21; k--) {
      ich_type[0][k] = 0;
    }  //  k = 25,24,23,22,21 -> ich_type[0][k] = 0
    for (Int_t k = 16; k <= 20; k++) {
      ich_type[0][k] = 1;
    }  //  k = 16,17,18,19,20 -> ich_type[0][k] = 1
    for (Int_t k = 15; k >= 11; k--) {
      ich_type[0][k] = 2;
    }  //  k = 15,14,12,13,11 -> ich_type[0][k] = 2
    for (Int_t k = 6; k <= 10; k++) {
      ich_type[0][k] = 3;
    }  //  k =  6, 7, 8, 9,10 -> ich_type[0][k] = 3
    for (Int_t k = 5; k >= 1; k--) {
      ich_type[0][k] = 4;
    }  //  k =  5, 4, 3, 2, 1 -> ich_type[0][k] = 4
 
    for (Int_t k = 1; k <= 5; k++) {
      ich_type[1][k] = 0;
    }  //  k =  1, 2, 3, 4, 5 -> ich_type[1][k] = 0
    for (Int_t k = 10; k >= 6; k--) {
      ich_type[1][k] = 1;
    }  //  k = 10, 9, 8, 7, 6 -> ich_type[1][k] = 1
    for (Int_t k = 11; k <= 15; k++) {
      ich_type[1][k] = 2;
    }  //  k = 11,12,13,14,15 -> ich_type[1][k] = 2
    for (Int_t k = 20; k >= 16; k--) {
      ich_type[1][k] = 3;
    }  //  k = 20,19,18,17,16 -> ich_type[1][k] = 3
    for (Int_t k = 21; k <= 25; k++) {
      ich_type[1][k] = 4;
    }  //  k = 21,22,23,24,25 -> ich_type[1][k] = 4
 
    //     Int_t type[17]={0,0,0,1,1, 0,0,1,1, 0,0,1,1, 0,0,1,1};
    Int_t m17 = 17;
    Int_t* type = new Int_t[m17];
    fCnew++;
 
    //  0 -> LVRB at the bottom, 1 -> LVRB at the top
    type[0] = 0;  // M1
    type[1] = 0;
    type[2] = 0;
    type[3] = 1;
    type[4] = 1;
 
    type[5] = 0;  // M2
    type[6] = 0;
    type[7] = 1;
    type[8] = 1;
 
    type[9] = 0;  // M3
    type[10] = 0;
    type[11] = 1;
    type[12] = 1;
 
    type[13] = 0;  // M4
    type[14] = 0;
    type[15] = 1;
    type[16] = 1;
 
    for (Int_t tow = 0; tow < MaxSMTow; tow++)  //  tow  = 0 to 67   (MaxSMTow = 68)
    {
      for (Int_t ic = 1; ic <= MaxTowEcha; ic++)  //  ic   = 1 to 25   (MaxTowEcha = 25)
      {
        Int_t jtow = tow % 4;  //  jtow = 0,1,2,3
        Int_t itow = tow / 4;  //  itow = 0 to 16
 
        Int_t icrys = itow * 5 + ich_type[type[itow]][ic];  //  type[0->16] = 0,1 ,
                                                            //  ich_type[0->1][1->25] = 0,1,2,3,4
                                                            //  icrys = 0 to 84  (=> eta)
 
        Int_t jcrys = jtow * 5 + jch_type[type[itow]][ic];  //  type[0->16] = 0,1 ,
                                                            //  jch_type[0->1][1->25] = 0,1,2,3,4
                                                            //  jcrys = 0 to 19  (=> phi)
 
        Int_t n1SMCrys = icrys * 20 + jcrys + 1;  //  n1SMCrys = 1 to 1700
 
        fT2dSMCrys[tow][ic - 1] = n1SMCrys;  // fT2dSMCrys[]  : range = [1,1700]
        fT1dSMTow[n1SMCrys - 1] = tow + 1;   // fT1dSMTow[]   : range = [1,68]
        fT1dTowEcha[n1SMCrys - 1] = ic - 1;  // fT1dTowEcha[] : range = [0,24]
      }
    }
    // std::cout << "#TEcnaNumbering::TBuildBarrelCrysTable()> Crys Table Building done" << std::endl;
 
    delete[] jch_type;
    fCdelete++;
    delete[] jch_type_d1;
    fCdelete++;
    delete[] ich_type;
    fCdelete++;
    delete[] ich_type_d1;
    fCdelete++;
    delete[] type;
    fCdelete++;
  } else {
    // std::cout << "#TEcnaNumbering::TBuildBarrelCrysTable()> No Building of Crys Table since it is already done." << std::endl;
  }
}

References fCdelete, fCnew, fEcal, fT1dSMCrys, fT1dSMTow, fT1dTowEcha, fT2dSMCrys, mps_fire::i, dqmiolumiharvest::j, dqmdumpme::k, TEcnaParEcal::MaxCrysInSM(), TEcnaParEcal::MaxCrysInTow(), and TEcnaParEcal::MaxTowInSM().

Referenced by Get1SMCrysFrom1SMTowAnd0TowEcha(), and SetEcalSubDetector().

BuildEndcapCrysTable()

void TEcnaNumbering::BuildEndcapCrysTable

(

)

Definition at line 1156 of file TEcnaNumbering.cc.

                                          {
  // Build the correspondance table: DeeCrys <-> (DeeSC, SCEcha) for the ECAL ENDCAP
  //
  //  From CMS Internal Note  "CMS ECAL Endcap channel numbering"
  //
  //       Name      Number                     Reference set  Range          Comment
  //
  //       DeeSC   : Super-Crystal (SC) number    in Dee      [1,200]   (IY,IX) progression
  //       DeeCrys : Crystal number               in Dee      [1,5000]  (IY,IX) progression
  //       DeeEcha : Electronic channel number    in Dee      [0,4999]  Crystal numbering for construction
  //
  //       SCEcha  : Electronic channel number    in SC       [1,25]    Crystal numbering for construction
  //
  //
  //   fill the 3D array:  fT3dDeeCrys[n_DeeSC][n_SCEcha][2]
  //
  //   and the 2d arrays:  fT2dDeeSC[n_DeeCrys][2] and fT2dSCEcha[n_DeeCrys][2]
  //
  //------------------------------------------------------------------------------------------------------
 
  if (fT3dDeeCrys == nullptr) {
    Int_t MaxDeeSC = fEcal->MaxSCEcnaInDee();  // fEcal->MaxSCEcnaInDee() = 200
    Int_t MaxSCEcha = fEcal->MaxCrysInSC();
    Int_t MaxDeeCrys = fEcal->MaxCrysEcnaInDee();
 
    Int_t MaxDirections = 2;  //  (2 directions: left and right)
 
    //................... Allocation and Init CrysNumbersTable
    fT3dDeeCrys = new Int_t**[MaxDeeSC];
    fCnew++;
    fT2dDeeCrys = new Int_t*[MaxDeeSC * MaxSCEcha];
    fCnew++;
    fT1dDeeCrys = new Int_t[MaxDeeSC * MaxSCEcha * MaxDirections];
    fCnew++;
 
    for (Int_t i_DeeSC = 0; i_DeeSC < MaxDeeSC; i_DeeSC++) {
      fT3dDeeCrys[i_DeeSC] = &fT2dDeeCrys[0] + i_DeeSC * MaxSCEcha;
      for (Int_t i_SCEcha = 0; i_SCEcha < MaxSCEcha; i_SCEcha++) {
        fT2dDeeCrys[i_DeeSC * MaxSCEcha + i_SCEcha] =
            &fT1dDeeCrys[0] + (i_DeeSC * MaxSCEcha + i_SCEcha) * MaxDirections;
      }
    }
    for (Int_t i = 0; i < MaxDeeSC; i++) {
      for (Int_t j = 0; j < MaxSCEcha; j++) {
        for (Int_t k = 0; k < MaxDirections; k++) {
          fT3dDeeCrys[i][j][k] = 0;
        }
      }
    }
 
    fT2dDeeSC = new Int_t*[MaxDeeCrys];
    fCnew++;
    fT1dDeeSC = new Int_t[MaxDeeCrys * MaxDirections];
    fCnew++;
    for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxDeeCrys; i_DeeCrys++) {
      fT2dDeeSC[i_DeeCrys] = &fT1dDeeSC[0] + i_DeeCrys * MaxDirections;
    }
    for (Int_t i = 0; i < MaxDeeCrys; i++) {
      for (Int_t j = 0; j < MaxDirections; j++) {
        fT2dDeeSC[i][j] = 0;
      }
    }
 
    fT2dSCEcha = new Int_t*[MaxDeeCrys];
    fCnew++;
    fT1dSCEcha = new Int_t[MaxDeeCrys * MaxDirections];
    fCnew++;
    for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxDeeCrys; i_DeeCrys++) {
      fT2dSCEcha[i_DeeCrys] = &fT1dSCEcha[0] + i_DeeCrys * MaxDirections;
    }
    for (Int_t i = 0; i < MaxDeeCrys; i++) {
      for (Int_t j = 0; j < MaxDirections; j++) {
        fT2dSCEcha[i][j] = 0;
      }
    }
 
    //................................ Build table
    Int_t MaxTyp = (Int_t)4;
    Int_t MaxCrysP1 = (Int_t)(fEcal->MaxCrysInSC() + 1);
 
    //      Int_t fT2d_jch_JY[type][Echa+1]:  JY in the SC as a function of type and Echa+1
    fT2d_jch_JY = new Int_t*[MaxTyp];
    fCnew++;
    fT1d_jch_JY = new Int_t[MaxTyp * MaxCrysP1];
    fCnew++;
    for (Int_t i_MaxTyp = 0; i_MaxTyp < MaxTyp; i_MaxTyp++) {
      fT2d_jch_JY[i_MaxTyp] = &fT1d_jch_JY[0] + i_MaxTyp * MaxCrysP1;
    }
 
    // type: 0=(top/right), 1=(top/left), 2=(bottom/left), 3=(bottom/right),
 
    //................. top/right
    for (Int_t k = 5; k >= 1; k--) {
      fT2d_jch_JY[0][k] = 4;
    }  //  k =  5, 4, 3, 2, 1 -> fT2d_jch_JY[0][k] = 4
    for (Int_t k = 10; k >= 6; k--) {
      fT2d_jch_JY[0][k] = 3;
    }  //  k = 10, 9, 8, 7, 6 -> fT2d_jch_JY[0][k] = 3
    for (Int_t k = 15; k >= 11; k--) {
      fT2d_jch_JY[0][k] = 2;
    }  //  k = 15,14,13,12,11 -> fT2d_jch_JY[0][k] = 2
    for (Int_t k = 20; k >= 16; k--) {
      fT2d_jch_JY[0][k] = 1;
    }  //  k = 20,19,18,17,16 -> fT2d_jch_JY[0][k] = 1
    for (Int_t k = 25; k >= 21; k--) {
      fT2d_jch_JY[0][k] = 0;
    }  //  k = 25,24,23,22,21 -> fT2d_jch_JY[0][k] = 0
    //................. top/left
    for (Int_t k = 5; k >= 1; k--) {
      fT2d_jch_JY[1][k] = 5 - k;
    }  //  k =  5, 4, 3, 2, 1 -> fT2d_jch_JY[1][k] = 0,1,2,3,4
    for (Int_t k = 10; k >= 6; k--) {
      fT2d_jch_JY[1][k] = 10 - k;
    }  //  k = 10, 9, 8, 7, 6 -> fT2d_jch_JY[1][k] = 0,1,2,3,4
    for (Int_t k = 15; k >= 11; k--) {
      fT2d_jch_JY[1][k] = 15 - k;
    }  //  k = 15,14,13,12,11 -> fT2d_jch_JY[1][k] = 0,1,2,3,4
    for (Int_t k = 20; k >= 16; k--) {
      fT2d_jch_JY[1][k] = 20 - k;
    }  //  k = 20,19,18,17,16 -> fT2d_jch_JY[1][k] = 0,1,2,3,4
    for (Int_t k = 25; k >= 21; k--) {
      fT2d_jch_JY[1][k] = 25 - k;
    }  //  k = 25,24,23,22,21 -> fT2d_jch_JY[1][k] = 0,1,2,3,4
    //................. bottom/left
    for (Int_t k = 1; k <= 5; k++) {
      fT2d_jch_JY[2][k] = 0;
    }  //  k =  1, 2, 3, 4, 5 -> fT2d_jch_JY[2][k] = 0
    for (Int_t k = 6; k <= 10; k++) {
      fT2d_jch_JY[2][k] = 1;
    }  //  k =  6, 7, 8, 9,10 -> fT2d_jch_JY[2][k] = 1
    for (Int_t k = 11; k <= 15; k++) {
      fT2d_jch_JY[2][k] = 2;
    }  //  k = 11,12,13,14,15 -> fT2d_jch_JY[2][k] = 2
    for (Int_t k = 16; k <= 20; k++) {
      fT2d_jch_JY[2][k] = 3;
    }  //  k = 16,17,18,19,20 -> fT2d_jch_JY[2][k] = 3
    for (Int_t k = 21; k <= 25; k++) {
      fT2d_jch_JY[2][k] = 4;
    }  //  k = 21,22,23,24,25 -> fT2d_jch_JY[2][k] = 4
    //................. bottom/right
    for (Int_t k = 1; k <= 5; k++) {
      fT2d_jch_JY[3][k] = k - 1;
    }  //  k =  1, 2, 3, 4, 5 -> fT2d_jch_JY[3][k] = 0,1,2,3,4
    for (Int_t k = 6; k <= 10; k++) {
      fT2d_jch_JY[3][k] = k - 6;
    }  //  k =  6, 7, 8, 9,10 -> fT2d_jch_JY[3][k] = 0,1,2,3,4
    for (Int_t k = 11; k <= 15; k++) {
      fT2d_jch_JY[3][k] = k - 11;
    }  //  k = 11,12,13,14,15 -> fT2d_jch_JY[3][k] = 0,1,2,3,4
    for (Int_t k = 16; k <= 20; k++) {
      fT2d_jch_JY[3][k] = k - 16;
    }  //  k = 16,17,18,19,20 -> fT2d_jch_JY[3][k] = 0,1,2,3,4
    for (Int_t k = 21; k <= 25; k++) {
      fT2d_jch_JY[3][k] = k - 21;
    }  //  k = 21,22,23,24,25 -> fT2d_jch_JY[3][k] = 0,1,2,3,4
 
    //      Int_t fT2d_ich_IX[type][Echa+1]:  IX in the SC as a function of type and Echa+1
    fT2d_ich_IX = new Int_t*[MaxTyp];
    fCnew++;
    fT1d_ich_IX = new Int_t[MaxTyp * MaxCrysP1];
    fCnew++;
    for (Int_t i_MaxTyp = 0; i_MaxTyp < MaxTyp; i_MaxTyp++) {
      fT2d_ich_IX[i_MaxTyp] = &fT1d_ich_IX[0] + i_MaxTyp * MaxCrysP1;
    }
 
    //................. top/right
    for (Int_t k = 5; k >= 1; k--) {
      fT2d_ich_IX[0][k] = 5 - k;
    }  //  k =  5, 4, 3, 2, 1 -> fT2d_ich_IX[0][k] = 0,1,2,3,4
    for (Int_t k = 10; k >= 6; k--) {
      fT2d_ich_IX[0][k] = 10 - k;
    }  //  k = 10, 9, 8, 7, 6 -> fT2d_ich_IX[0][k] = 0,1,2,3,4
    for (Int_t k = 15; k >= 11; k--) {
      fT2d_ich_IX[0][k] = 15 - k;
    }  //  k = 15,14,13,12,11 -> fT2d_ich_IX[0][k] = 0,1,2,3,4
    for (Int_t k = 20; k >= 16; k--) {
      fT2d_ich_IX[0][k] = 20 - k;
    }  //  k = 20,19,18,17,16 -> fT2d_ich_IX[0][k] = 0,1,2,3,4
    for (Int_t k = 25; k >= 21; k--) {
      fT2d_ich_IX[0][k] = 25 - k;
    }  //  k = 25,24,23,22,21 -> fT2d_ich_IX[0][k] = 0,1,2,3,4
    //................. top/left
    for (Int_t k = 5; k >= 1; k--) {
      fT2d_ich_IX[1][k] = 4;
    }  //  k =  5, 4, 3, 2, 1 -> fT2d_ich_IX[1][k] = 4
    for (Int_t k = 10; k >= 6; k--) {
      fT2d_ich_IX[1][k] = 3;
    }  //  k = 10, 9, 8, 7, 6 -> fT2d_ich_IX[1][k] = 3
    for (Int_t k = 15; k >= 11; k--) {
      fT2d_ich_IX[1][k] = 2;
    }  //  k = 15,14,13,12,11 -> fT2d_ich_IX[1][k] = 2
    for (Int_t k = 20; k >= 16; k--) {
      fT2d_ich_IX[1][k] = 1;
    }  //  k = 20,19,18,17,16 -> fT2d_ich_IX[1][k] = 1
    for (Int_t k = 25; k >= 21; k--) {
      fT2d_ich_IX[1][k] = 0;
    }  //  k = 25,24,23,22,21 -> fT2d_ich_IX[1][k] = 0
    //................. bottom/left
    for (Int_t k = 1; k <= 5; k++) {
      fT2d_ich_IX[2][k] = 5 - k;
    }  //  k =  1, 2, 3, 4, 5 -> fT2d_ich_IX[2][k] = 0,1,2,3,4
    for (Int_t k = 6; k <= 10; k++) {
      fT2d_ich_IX[2][k] = 10 - k;
    }  //  k =  6, 7, 8, 9,10 -> fT2d_ich_IX[2][k] = 0,1,2,3,4
    for (Int_t k = 11; k <= 15; k++) {
      fT2d_ich_IX[2][k] = 15 - k;
    }  //  k = 11,12,13,14,15 -> fT2d_ich_IX[2][k] = 0,1,2,3,4
    for (Int_t k = 16; k <= 20; k++) {
      fT2d_ich_IX[2][k] = 20 - k;
    }  //  k = 16,17,18,19,20 -> fT2d_ich_IX[2][k] = 0,1,2,3,4
    for (Int_t k = 21; k <= 25; k++) {
      fT2d_ich_IX[2][k] = 25 - k;
    }  //  k = 21,22,23,24,25 -> fT2d_ich_IX[2][k] = 0,1,2,3,4
    //................. bottom/right
    for (Int_t k = 1; k <= 5; k++) {
      fT2d_ich_IX[3][k] = 4;
    }  //  k =  1, 2, 3, 4, 5 -> fT2d_ich_IX[3][k] = 4
    for (Int_t k = 6; k <= 10; k++) {
      fT2d_ich_IX[3][k] = 3;
    }  //  k =  6, 7, 8, 9,10 -> fT2d_ich_IX[3][k] = 3
    for (Int_t k = 11; k <= 15; k++) {
      fT2d_ich_IX[3][k] = 2;
    }  //  k = 11,12,13,14,15 -> fT2d_ich_IX[3][k] = 2
    for (Int_t k = 16; k <= 20; k++) {
      fT2d_ich_IX[3][k] = 1;
    }  //  k = 16,17,18,19,20 -> fT2d_ich_IX[3][k] = 1
    for (Int_t k = 21; k <= 25; k++) {
      fT2d_ich_IX[3][k] = 0;
    }  //  k = 21,22,23,24,25 -> fT2d_ich_IX[3][k] = 0
 
    //............................................ type
    Int_t Nb_DeeSC_JY = fEcal->MaxSCIYInDee();
    Int_t** type = new Int_t*[Nb_DeeSC_JY];
    fCnew++;
    Int_t* type_d1 = new Int_t[Nb_DeeSC_JY * MaxDirections];
    fCnew++;
    for (Int_t i_DeeSC_JY = 0; i_DeeSC_JY < Nb_DeeSC_JY; i_DeeSC_JY++) {
      type[i_DeeSC_JY] = &type_d1[0] + i_DeeSC_JY * MaxDirections;
    }
 
    //  bottom = (0,9), top  = (10,19)
    //  right  = 0    , left = 1
    //  type = Quadrant number - 1
 
    type[10][0] = 0;  // Q1 top right
    type[11][0] = 0;
    type[12][0] = 0;
    type[13][0] = 0;
    type[14][0] = 0;
    type[15][0] = 0;
    type[16][0] = 0;
    type[17][0] = 0;
    type[18][0] = 0;
    type[19][0] = 0;
 
    type[10][1] = 1;  // Q2 top left
    type[11][1] = 1;
    type[12][1] = 1;
    type[13][1] = 1;
    type[14][1] = 1;
    type[15][1] = 1;
    type[16][1] = 1;
    type[17][1] = 1;
    type[18][1] = 1;
    type[19][1] = 1;
 
    type[0][1] = 2;  // Q3 : bottom left
    type[1][1] = 2;
    type[2][1] = 2;
    type[3][1] = 2;
    type[4][1] = 2;
    type[5][1] = 2;
    type[6][1] = 2;
    type[7][1] = 2;
    type[8][1] = 2;
    type[9][1] = 2;
 
    type[0][0] = 3;  // Q4 : bottom right
    type[1][0] = 3;
    type[2][0] = 3;
    type[3][0] = 3;
    type[4][0] = 3;
    type[5][0] = 3;
    type[6][0] = 3;
    type[7][0] = 3;
    type[8][0] = 3;
    type[9][0] = 3;
 
    Int_t Nb_SCCrys_IX = fEcal->MaxCrysIXInSC();
    Int_t Nb_SCCrys_JY = fEcal->MaxCrysIYInSC();
 
    for (Int_t kSC = 0; kSC < MaxDeeSC; kSC++)  //  kSC  = 0 to 199   (MaxDeeSC = 200)
    {
      for (Int_t n_Echa = 1; n_Echa <= MaxSCEcha; n_Echa++)  //  n_Echa   = 1 to 25    (MaxSCEcha = 25)
      {
        for (Int_t idir = 0; idir < 2; idir++) {
          Int_t ikSC = kSC / Nb_DeeSC_JY;  //  ikSC = 0 to 9
          Int_t jkSC = kSC % Nb_DeeSC_JY;  //  jkSC = 0,1,2,..,19
 
          Int_t icrys = ikSC * Nb_SCCrys_IX + fT2d_ich_IX[type[jkSC][idir]][n_Echa];
          //  type[0->9][1->2] = 0,1,2,3
          //  fT2d_ich_IX[0->3][1->25] = 0,1,2,3,4
          //  icrys = 0 to 49  (=> IX)
 
          Int_t jcrys = jkSC * Nb_SCCrys_JY + fT2d_jch_JY[type[jkSC][idir]][n_Echa];
          //  type[0->9][1->2] = 0,1,2,3
          //  fT2d_jch_JY[0->3][1->25] = 0,1,2,3,4
          //  jcrys = 0 to 99  (=> IY)
 
          Int_t n_DeeCrys = icrys * Nb_DeeSC_JY * Nb_SCCrys_JY + jcrys + 1;  //  n_DeeCrys = 1 to 5000
 
          fT3dDeeCrys[kSC][n_Echa - 1][idir] = n_DeeCrys;  // fT3dDeeCrys[][][] : range = [1,5000]
          fT2dDeeSC[n_DeeCrys - 1][idir] = kSC + 1;        // fT2dDeeSC[][]     : range = [1,200]
          fT2dSCEcha[n_DeeCrys - 1][idir] = n_Echa;        // fT2dSCEcha[][]    : range = [1,25]
        }
      }
    }
    // std::cout << "#TEcnaNumbering::TBuildEndcapCrysTable()> Crys Table Building done" << std::endl;
 
    delete[] type;
    fCdelete++;
    delete[] type_d1;
    fCdelete++;
  } else {
    // std::cout << "#TEcnaNumbering::TBuildEndcapCrysTable()> No Building of Crys Table since it is already done " << std::endl;
  }
}

References fCdelete, fCnew, fEcal, fT1d_ich_IX, fT1d_jch_JY, fT1dDeeCrys, fT1dDeeSC, fT1dSCEcha, fT2d_ich_IX, fT2d_jch_JY, fT2dDeeCrys, fT2dDeeSC, fT2dSCEcha, fT3dDeeCrys, mps_fire::i, dqmiolumiharvest::j, dqmdumpme::k, TEcnaParEcal::MaxCrysEcnaInDee(), TEcnaParEcal::MaxCrysInSC(), TEcnaParEcal::MaxCrysIXInSC(), TEcnaParEcal::MaxCrysIYInSC(), TEcnaParEcal::MaxSCEcnaInDee(), and TEcnaParEcal::MaxSCIYInDee().

Referenced by Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), and SetEcalSubDetector().

BuildEndcapSCTable()

void TEcnaNumbering::BuildEndcapSCTable

(

)

Definition at line 1484 of file TEcnaNumbering.cc.

                                        {
  // Build the correspondance table: (Dee, DeeSC) <-> (DS , DSSC) for the ECAL ENDCAP
  //
  //  From CMS Internal Note  "CMS ECAL Endcap channel numbering"
  //
  //       Name       Number                     Reference set    Range     Comment
  //
  //       Dee      : Dee number                                  [1,4]
  //       DeeSC    : Super-Crystal (SC) number  in Dee           [1,200]   (IY,IX) progression
  //       DS       : Data Sector number         in EE + or -     [1,9]     (IY,IX) progression
  //       DSSC     : Super-Crystal (SC) number  in Data Sector   [1,32]    Crystal numbering in data sector
  //       DeeSCCons: Super-Crystal (SC) number  for construction [1,297]
  //
  //   fill the 2d arrays:  fT2d_DS[4][200], fT2d_DSSC[4][200] and fT2d_DeeSCCons[4][200]
  //
  //------------------------------------------------------------------------------------------------------
 
  //.................. Allocations and Init
  Int_t MaxEEDee = fEcal->MaxDeeInEE();
  Int_t MaxDeeSC = fEcal->MaxSCEcnaInDee();
  Int_t MaxEESCForCons = 2 * fEcal->MaxSCForConsInDee();
 
  fT2d_DS = new Int_t*[MaxEEDee];
  fCnew++;  // = DS[Dee - 1, CNA_SCInDee - 1]
  fT1d_DS = new Int_t[MaxEEDee * MaxDeeSC];
  fCnew++;
  for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxEEDee; i_DeeCrys++) {
    fT2d_DS[i_DeeCrys] = &fT1d_DS[0] + i_DeeCrys * MaxDeeSC;
  }
  for (Int_t i = 0; i < MaxEEDee; i++) {
    for (Int_t j = 0; j < MaxDeeSC; j++) {
      fT2d_DS[i][j] = 0;
    }
  }
 
  fT2d_DSSC = new Int_t*[MaxEEDee];
  fCnew++;  // = SCInDS[Dee - 1, CNA_SCInDee - 1]
  fT1d_DSSC = new Int_t[MaxEEDee * MaxDeeSC];
  fCnew++;
  for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxEEDee; i_DeeCrys++) {
    fT2d_DSSC[i_DeeCrys] = &fT1d_DSSC[0] + i_DeeCrys * MaxDeeSC;
  }
  for (Int_t i = 0; i < MaxEEDee; i++) {
    for (Int_t j = 0; j < MaxDeeSC; j++) {
      fT2d_DSSC[i][j] = 0;
    }
  }
 
  fT2d_DeeSCCons = new Int_t*[MaxEEDee];
  fCnew++;  // = SCConsInDee[Dee - 1, CNA_SCInDee - 1]
  fT1d_DeeSCCons = new Int_t[MaxEEDee * MaxDeeSC];
  fCnew++;
  for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxEEDee; i_DeeCrys++) {
    fT2d_DeeSCCons[i_DeeCrys] = &fT1d_DeeSCCons[0] + i_DeeCrys * MaxDeeSC;
  }
  for (Int_t i = 0; i < MaxEEDee; i++) {
    for (Int_t j = 0; j < MaxDeeSC; j++) {
      fT2d_DeeSCCons[i][j] = 0;
    }
  }
 
  fT2d_RecovDeeSC = new Int_t*[MaxEEDee];
  fCnew++;  // = CNA_SCInDee[Dee - 1, SCConsInDee - 1]
  fT1d_RecovDeeSC = new Int_t[MaxEEDee * MaxEESCForCons];
  fCnew++;
  for (Int_t i_DeeCrys = 0; i_DeeCrys < MaxEEDee; i_DeeCrys++) {
    fT2d_RecovDeeSC[i_DeeCrys] = &fT1d_RecovDeeSC[0] + i_DeeCrys * MaxEESCForCons;
  }
  for (Int_t i = 0; i < MaxEEDee; i++) {
    for (Int_t j = 0; j < MaxEESCForCons; j++) {
      fT2d_RecovDeeSC[i][j] = 0;
    }
  }
 
  //.............................. Data sector (DS) numbers: fT2d_DS[][]
  //                               isc = ECNA numbers
 
  Int_t ids = 0;
 
  //........... (D1,S1)=(D2,S9)=(D3,S9)=(D4,S1)
  for (Int_t dee = 1; dee <= 4; dee++) {
    if (dee == 1 || dee == 4) {
      ids = 1;
    }
    if (dee == 2 || dee == 3) {
      ids = 9;
    }
    for (Int_t isc = 13; isc <= 20; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 33; isc <= 40; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 54; isc <= 60; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 75; isc <= 79; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 96; isc <= 99; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 118; isc <= 119; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
  }
  //........... (D1,S2)=(D2,S8)=(D3,S8)=(D4,S2)
  for (Int_t dee = 1; dee <= 4; dee++) {
    if (dee == 1 || dee == 4) {
      ids = 2;
    }
    if (dee == 2 || dee == 3) {
      ids = 8;
    }
    for (Int_t isc = 32; isc <= 32; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 51; isc <= 53; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 72; isc <= 74; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 92; isc <= 95; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 112; isc <= 117; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 132; isc <= 138; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 152; isc <= 157; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 173; isc <= 176; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 193; isc <= 193; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
  }
  //........... (D1,S3)=(D2,S7)=(D3,S7)=(D4,S3)
  for (Int_t dee = 1; dee <= 4; dee++) {
    if (dee == 1 || dee == 4) {
      ids = 3;
    }
    if (dee == 2 || dee == 3) {
      ids = 7;
    }
    for (Int_t isc = 50; isc <= 50; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 69; isc <= 71; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 88; isc <= 91; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 108; isc <= 111; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 127; isc <= 131; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 147; isc <= 151; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 166; isc <= 172; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 188; isc <= 192; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
  }
  //........... (D1,S4)=(D2,S6)=(D3,S6)=(D4,S4)
  for (Int_t dee = 1; dee <= 4; dee++) {
    if (dee == 1 || dee == 4) {
      ids = 4;
    }
    if (dee == 2 || dee == 3) {
      ids = 6;
    }
    for (Int_t isc = 27; isc <= 29; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 44; isc <= 49; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 62; isc <= 68; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 82; isc <= 87; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 102; isc <= 107; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 123; isc <= 126; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 144; isc <= 146; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
    for (Int_t isc = 165; isc <= 165; isc++)
      fT2d_DS[dee - 1][isc - 1] = ids;
  }
  //........... (D1,S5)=(D2,S5)=(D3,S5)=(D4,S5)
  for (Int_t dee = 1; dee <= 4; dee++) {
    for (Int_t isc = 1; isc <= 8; isc++)
      fT2d_DS[dee - 1][isc - 1] = 5;
    for (Int_t isc = 21; isc <= 26; isc++)
      fT2d_DS[dee - 1][isc - 1] = 5;
    for (Int_t isc = 41; isc <= 43; isc++)
      fT2d_DS[dee - 1][isc - 1] = 5;
  }
 
  //............................................ SC numbers in Data Sectors: fT2d_DSSC[][]
  //                                             fT2d_DSSC[dee-1][SC ECNA number - 1] = SC number in DS;
  for (Int_t dee = 1; dee <= 4; dee++) {
    for (Int_t isc = 1; isc <= MaxDeeSC; isc++) {
      fT2d_DSSC[dee - 1][isc - 1] = -1;
    }
    //.......................................... S1 (D1,D4), S9 (D2,D3) ; 33 SC's
    fT2d_DSSC[dee - 1][13 - 1] = 12;
    fT2d_DSSC[dee - 1][14 - 1] = 11;
    fT2d_DSSC[dee - 1][15 - 1] = 10;
    fT2d_DSSC[dee - 1][16 - 1] = 9;
    fT2d_DSSC[dee - 1][17 - 1] = 4;
    fT2d_DSSC[dee - 1][18 - 1] = 3;
    fT2d_DSSC[dee - 1][19 - 1] = 2;
    fT2d_DSSC[dee - 1][20 - 1] = 1;
 
    fT2d_DSSC[dee - 1][33 - 1] = 16;
    fT2d_DSSC[dee - 1][34 - 1] = 15;
    fT2d_DSSC[dee - 1][35 - 1] = 14;
    fT2d_DSSC[dee - 1][36 - 1] = 13;
    fT2d_DSSC[dee - 1][37 - 1] = 8;
    fT2d_DSSC[dee - 1][38 - 1] = 7;
    fT2d_DSSC[dee - 1][39 - 1] = 6;
    fT2d_DSSC[dee - 1][40 - 1] = 5;
 
    fT2d_DSSC[dee - 1][54 - 1] = 33;
    fT2d_DSSC[dee - 1][55 - 1] = 31;
    fT2d_DSSC[dee - 1][56 - 1] = 27;
    fT2d_DSSC[dee - 1][57 - 1] = 24;
    fT2d_DSSC[dee - 1][58 - 1] = 20;
    fT2d_DSSC[dee - 1][59 - 1] = 17;
    fT2d_DSSC[dee - 1][60 - 1] = 30;  //  (182a, 33a for construction)
 
    fT2d_DSSC[dee - 1][75 - 1] = 32;
    fT2d_DSSC[dee - 1][76 - 1] = 28;
    fT2d_DSSC[dee - 1][77 - 1] = 25;
    fT2d_DSSC[dee - 1][78 - 1] = 21;
    fT2d_DSSC[dee - 1][79 - 1] = 18;
 
    fT2d_DSSC[dee - 1][96 - 1] = 29;
    fT2d_DSSC[dee - 1][97 - 1] = 26;
    fT2d_DSSC[dee - 1][98 - 1] = 22;
    fT2d_DSSC[dee - 1][99 - 1] = 19;
 
    fT2d_DSSC[dee - 1][118 - 1] = 23;
    fT2d_DSSC[dee - 1][119 - 1] = 30;  //  (182b, 33b for construction)
 
    //.......................................... S2 (D1,D4), S8(D2,D3) ; 32 SC's
    fT2d_DSSC[dee - 1][32 - 1] = 25;  // also 3;  // ( (207c, 58c) also (178c, 29c) for construction)
 
    fT2d_DSSC[dee - 1][51 - 1] = 32;
    fT2d_DSSC[dee - 1][52 - 1] = 26;
    fT2d_DSSC[dee - 1][53 - 1] = 18;
 
    fT2d_DSSC[dee - 1][72 - 1] = 27;
    fT2d_DSSC[dee - 1][73 - 1] = 19;
    fT2d_DSSC[dee - 1][74 - 1] = 12;
 
    fT2d_DSSC[dee - 1][92 - 1] = 28;
    fT2d_DSSC[dee - 1][93 - 1] = 20;
    fT2d_DSSC[dee - 1][94 - 1] = 13;
    fT2d_DSSC[dee - 1][95 - 1] = 7;
 
    fT2d_DSSC[dee - 1][112 - 1] = 29;
    fT2d_DSSC[dee - 1][113 - 1] = 21;
    fT2d_DSSC[dee - 1][114 - 1] = 14;
    fT2d_DSSC[dee - 1][115 - 1] = 8;
    fT2d_DSSC[dee - 1][116 - 1] = 4;
    fT2d_DSSC[dee - 1][117 - 1] = 1;
 
    fT2d_DSSC[dee - 1][132 - 1] = 30;
    fT2d_DSSC[dee - 1][133 - 1] = 22;
    fT2d_DSSC[dee - 1][134 - 1] = 15;
    fT2d_DSSC[dee - 1][135 - 1] = 9;
    fT2d_DSSC[dee - 1][136 - 1] = 5;
    fT2d_DSSC[dee - 1][137 - 1] = 2;
    fT2d_DSSC[dee - 1][138 - 1] = 3;  // (178a, 29a for construction)
 
    fT2d_DSSC[dee - 1][152 - 1] = 31;
    fT2d_DSSC[dee - 1][153 - 1] = 23;
    fT2d_DSSC[dee - 1][154 - 1] = 16;
    fT2d_DSSC[dee - 1][155 - 1] = 10;
    fT2d_DSSC[dee - 1][156 - 1] = 6;
    fT2d_DSSC[dee - 1][157 - 1] = 3;  // (178b, 29b for construction)
 
    fT2d_DSSC[dee - 1][173 - 1] = 24;
    fT2d_DSSC[dee - 1][174 - 1] = 17;
    fT2d_DSSC[dee - 1][175 - 1] = 11;
    fT2d_DSSC[dee - 1][176 - 1] = 25;  // (207a, 58a for construction)
 
    fT2d_DSSC[dee - 1][193 - 1] = 25;  // (207b, 58b for construction)
 
    //.......................................... S3 (D1,D4), S7 (D2,D3)  ; 34 SC's
    fT2d_DSSC[dee - 1][50 - 1] = 10;
 
    fT2d_DSSC[dee - 1][69 - 1] = 18;
    fT2d_DSSC[dee - 1][70 - 1] = 11;
    fT2d_DSSC[dee - 1][71 - 1] = 3;
 
    fT2d_DSSC[dee - 1][88 - 1] = 25;
    fT2d_DSSC[dee - 1][89 - 1] = 19;
    fT2d_DSSC[dee - 1][90 - 1] = 12;
    fT2d_DSSC[dee - 1][91 - 1] = 4;
 
    fT2d_DSSC[dee - 1][108 - 1] = 26;
    fT2d_DSSC[dee - 1][109 - 1] = 20;
    fT2d_DSSC[dee - 1][110 - 1] = 13;
    fT2d_DSSC[dee - 1][111 - 1] = 5;
 
    fT2d_DSSC[dee - 1][127 - 1] = 31;
    fT2d_DSSC[dee - 1][128 - 1] = 27;
    fT2d_DSSC[dee - 1][129 - 1] = 21;
    fT2d_DSSC[dee - 1][130 - 1] = 14;
    fT2d_DSSC[dee - 1][131 - 1] = 6;
 
    fT2d_DSSC[dee - 1][147 - 1] = 32;
    fT2d_DSSC[dee - 1][148 - 1] = 28;
    fT2d_DSSC[dee - 1][149 - 1] = 22;
    fT2d_DSSC[dee - 1][150 - 1] = 15;
    fT2d_DSSC[dee - 1][151 - 1] = 7;
 
    fT2d_DSSC[dee - 1][166 - 1] = 33;
    fT2d_DSSC[dee - 1][167 - 1] = 30;
    fT2d_DSSC[dee - 1][168 - 1] = 29;
    fT2d_DSSC[dee - 1][169 - 1] = 23;
    fT2d_DSSC[dee - 1][170 - 1] = 16;
    fT2d_DSSC[dee - 1][171 - 1] = 8;
    fT2d_DSSC[dee - 1][172 - 1] = 1;
 
    fT2d_DSSC[dee - 1][188 - 1] = 34;  // (298a, 149a for construction)
    fT2d_DSSC[dee - 1][189 - 1] = 24;
    fT2d_DSSC[dee - 1][190 - 1] = 17;
    fT2d_DSSC[dee - 1][191 - 1] = 9;
    fT2d_DSSC[dee - 1][192 - 1] = 2;
 
    //.......................................... S4 (D1,D4), S6 (D2,D3) ; 33 SC's
    fT2d_DSSC[dee - 1][27 - 1] = 33;
    fT2d_DSSC[dee - 1][28 - 1] = 32;
    fT2d_DSSC[dee - 1][29 - 1] = 14;  // also 21;  //  ( (261a, 112a) also (268a, 119a) for construction)
 
    fT2d_DSSC[dee - 1][44 - 1] = 22;
    fT2d_DSSC[dee - 1][45 - 1] = 15;
    fT2d_DSSC[dee - 1][46 - 1] = 8;
    fT2d_DSSC[dee - 1][47 - 1] = 4;
    fT2d_DSSC[dee - 1][48 - 1] = 2;
    fT2d_DSSC[dee - 1][49 - 1] = 1;
 
    fT2d_DSSC[dee - 1][62 - 1] = 29;
    fT2d_DSSC[dee - 1][63 - 1] = 28;
    fT2d_DSSC[dee - 1][64 - 1] = 23;
    fT2d_DSSC[dee - 1][65 - 1] = 16;
    fT2d_DSSC[dee - 1][66 - 1] = 9;
    fT2d_DSSC[dee - 1][67 - 1] = 5;
    fT2d_DSSC[dee - 1][68 - 1] = 3;
 
    fT2d_DSSC[dee - 1][82 - 1] = 31;
    fT2d_DSSC[dee - 1][83 - 1] = 30;
    fT2d_DSSC[dee - 1][84 - 1] = 24;
    fT2d_DSSC[dee - 1][85 - 1] = 17;
    fT2d_DSSC[dee - 1][86 - 1] = 10;
    fT2d_DSSC[dee - 1][87 - 1] = 6;
 
    fT2d_DSSC[dee - 1][102 - 1] = 21;  //   (268c, 119c for construction)
    fT2d_DSSC[dee - 1][103 - 1] = 27;
    fT2d_DSSC[dee - 1][104 - 1] = 25;
    fT2d_DSSC[dee - 1][105 - 1] = 18;
    fT2d_DSSC[dee - 1][106 - 1] = 11;
    fT2d_DSSC[dee - 1][107 - 1] = 7;
 
    fT2d_DSSC[dee - 1][123 - 1] = 21;  //   (268b, 119b for construction)
    fT2d_DSSC[dee - 1][124 - 1] = 26;
    fT2d_DSSC[dee - 1][125 - 1] = 19;
    fT2d_DSSC[dee - 1][126 - 1] = 12;
 
    fT2d_DSSC[dee - 1][144 - 1] = 14;  //   (261c, 112c for construction)
    fT2d_DSSC[dee - 1][145 - 1] = 20;
    fT2d_DSSC[dee - 1][146 - 1] = 13;
 
    fT2d_DSSC[dee - 1][165 - 1] = 14;  //   (261b, 112b for construction)
 
    //.......................................... S5   (2*17 = 34 SC's)
    if (dee == 1 || dee == 3) {
      fT2d_DSSC[dee - 1][1 - 1] = 34;
      fT2d_DSSC[dee - 1][2 - 1] = 33;
      fT2d_DSSC[dee - 1][3 - 1] = 32;
      fT2d_DSSC[dee - 1][4 - 1] = 31;
      fT2d_DSSC[dee - 1][5 - 1] = 26;
      fT2d_DSSC[dee - 1][6 - 1] = 25;
      fT2d_DSSC[dee - 1][7 - 1] = 24;
      fT2d_DSSC[dee - 1][8 - 1] = 23;
 
      fT2d_DSSC[dee - 1][21 - 1] = 30;
      fT2d_DSSC[dee - 1][22 - 1] = 29;
      fT2d_DSSC[dee - 1][23 - 1] = 28;
      fT2d_DSSC[dee - 1][24 - 1] = 27;
      fT2d_DSSC[dee - 1][25 - 1] = 22;
      fT2d_DSSC[dee - 1][26 - 1] = 21;
 
      fT2d_DSSC[dee - 1][41 - 1] = 20;  //   (281a for construction)
      fT2d_DSSC[dee - 1][42 - 1] = 19;
      fT2d_DSSC[dee - 1][43 - 1] = 18;
    }
 
    if (dee == 2 || dee == 4) {
      fT2d_DSSC[dee - 1][1 - 1] = 17;
      fT2d_DSSC[dee - 1][2 - 1] = 16;
      fT2d_DSSC[dee - 1][3 - 1] = 15;
      fT2d_DSSC[dee - 1][4 - 1] = 14;
      fT2d_DSSC[dee - 1][5 - 1] = 9;
      fT2d_DSSC[dee - 1][6 - 1] = 8;
      fT2d_DSSC[dee - 1][7 - 1] = 7;
      fT2d_DSSC[dee - 1][8 - 1] = 6;
 
      fT2d_DSSC[dee - 1][21 - 1] = 13;
      fT2d_DSSC[dee - 1][22 - 1] = 12;
      fT2d_DSSC[dee - 1][23 - 1] = 11;
      fT2d_DSSC[dee - 1][24 - 1] = 10;
      fT2d_DSSC[dee - 1][25 - 1] = 5;
      fT2d_DSSC[dee - 1][26 - 1] = 4;
 
      fT2d_DSSC[dee - 1][41 - 1] = 3;  //   (132a for construction)
      fT2d_DSSC[dee - 1][42 - 1] = 2;
      fT2d_DSSC[dee - 1][43 - 1] = 1;
    }
  }
  //............................... Numbers for construction: fT2d_DeeSCCons[][]
  //                                fT2d_DeeSCCons[dee-1][SC ECNA number - 1] = SC number for construction;
 
  //............................... init to -1
  for (Int_t dee = 1; dee <= 4; dee++) {
    for (Int_t isc = 1; isc <= MaxDeeSC; isc++) {
      fT2d_DeeSCCons[dee - 1][isc - 1] = -1;
    }
  }
 
  for (Int_t i_dee_type = 1; i_dee_type <= 2; i_dee_type++) {
    Int_t dee = -1;
    if (i_dee_type == 1) {
      dee = 1;
    }
    if (i_dee_type == 2) {
      dee = 3;
    }
 
    //.......................................... (D1,S1 or D3,S9) AND (D2,S9 or D4,S1)
    //  number in comment = fT2d_DSSC[dee-1][SC ECNA nb - 1] (= SC number in DS)
    fT2d_DeeSCCons[dee - 1][13 - 1] = 161;
    fT2d_DeeSCCons[dee][13 - 1] = 12;  // 12;
    fT2d_DeeSCCons[dee - 1][14 - 1] = 160;
    fT2d_DeeSCCons[dee][14 - 1] = 11;  // 11;
    fT2d_DeeSCCons[dee - 1][15 - 1] = 159;
    fT2d_DeeSCCons[dee][15 - 1] = 10;  // 10;
    fT2d_DeeSCCons[dee - 1][16 - 1] = 158;
    fT2d_DeeSCCons[dee][16 - 1] = 9;  //  9;
    fT2d_DeeSCCons[dee - 1][17 - 1] = 153;
    fT2d_DeeSCCons[dee][17 - 1] = 4;  //  4;
    fT2d_DeeSCCons[dee - 1][18 - 1] = 152;
    fT2d_DeeSCCons[dee][18 - 1] = 3;  //  3;
    fT2d_DeeSCCons[dee - 1][19 - 1] = 151;
    fT2d_DeeSCCons[dee][19 - 1] = 2;  //  2;
    fT2d_DeeSCCons[dee - 1][20 - 1] = 150;
    fT2d_DeeSCCons[dee][20 - 1] = 1;  //  1;
 
    fT2d_DeeSCCons[dee - 1][33 - 1] = 165;
    fT2d_DeeSCCons[dee][33 - 1] = 16;  // 16;
    fT2d_DeeSCCons[dee - 1][34 - 1] = 164;
    fT2d_DeeSCCons[dee][34 - 1] = 15;  // 15;
    fT2d_DeeSCCons[dee - 1][35 - 1] = 163;
    fT2d_DeeSCCons[dee][35 - 1] = 14;  // 14;
    fT2d_DeeSCCons[dee - 1][36 - 1] = 162;
    fT2d_DeeSCCons[dee][36 - 1] = 13;  // 13;
    fT2d_DeeSCCons[dee - 1][37 - 1] = 157;
    fT2d_DeeSCCons[dee][37 - 1] = 8;  //  8;
    fT2d_DeeSCCons[dee - 1][38 - 1] = 156;
    fT2d_DeeSCCons[dee][38 - 1] = 7;  //  7;
    fT2d_DeeSCCons[dee - 1][39 - 1] = 155;
    fT2d_DeeSCCons[dee][39 - 1] = 6;  //  6;
    fT2d_DeeSCCons[dee - 1][40 - 1] = 154;
    fT2d_DeeSCCons[dee][40 - 1] = 5;  //  5;
 
    fT2d_DeeSCCons[dee - 1][54 - 1] = 193;
    fT2d_DeeSCCons[dee][54 - 1] = 44;  // 33;
    fT2d_DeeSCCons[dee - 1][55 - 1] = 186;
    fT2d_DeeSCCons[dee][55 - 1] = 37;  // 31;
    fT2d_DeeSCCons[dee - 1][56 - 1] = 179;
    fT2d_DeeSCCons[dee][56 - 1] = 30;  // 27;
    fT2d_DeeSCCons[dee - 1][57 - 1] = 173;
    fT2d_DeeSCCons[dee][57 - 1] = 24;  // 24;
    fT2d_DeeSCCons[dee - 1][58 - 1] = 169;
    fT2d_DeeSCCons[dee][58 - 1] = 20;  // 20;
    fT2d_DeeSCCons[dee - 1][59 - 1] = 166;
    fT2d_DeeSCCons[dee][59 - 1] = 17;  // 17;
    fT2d_DeeSCCons[dee - 1][60 - 1] = 182;
    fT2d_DeeSCCons[dee][60 - 1] = 33;  // 30;    // 182a ;  33a;
 
    fT2d_DeeSCCons[dee - 1][75 - 1] = 187;
    fT2d_DeeSCCons[dee][75 - 1] = 38;  // 32;
    fT2d_DeeSCCons[dee - 1][76 - 1] = 180;
    fT2d_DeeSCCons[dee][76 - 1] = 31;  // 28;
    fT2d_DeeSCCons[dee - 1][77 - 1] = 174;
    fT2d_DeeSCCons[dee][77 - 1] = 25;  // 25;
    fT2d_DeeSCCons[dee - 1][78 - 1] = 170;
    fT2d_DeeSCCons[dee][78 - 1] = 21;  // 21;
    fT2d_DeeSCCons[dee - 1][79 - 1] = 167;
    fT2d_DeeSCCons[dee][79 - 1] = 18;  // 18;
 
    fT2d_DeeSCCons[dee - 1][96 - 1] = 181;
    fT2d_DeeSCCons[dee][96 - 1] = 32;  // 29;
    fT2d_DeeSCCons[dee - 1][97 - 1] = 175;
    fT2d_DeeSCCons[dee][97 - 1] = 26;  // 26;
    fT2d_DeeSCCons[dee - 1][98 - 1] = 171;
    fT2d_DeeSCCons[dee][98 - 1] = 22;  // 22;
    fT2d_DeeSCCons[dee - 1][99 - 1] = 168;
    fT2d_DeeSCCons[dee][99 - 1] = 19;  // 19;
 
    fT2d_DeeSCCons[dee - 1][118 - 1] = 172;
    fT2d_DeeSCCons[dee][118 - 1] = 23;  // 23;
    fT2d_DeeSCCons[dee - 1][119 - 1] = 182;
    fT2d_DeeSCCons[dee][119 - 1] = 33;  // 30;    // 182b ;  33b;
 
    //.......................................... (D1,S2 or D3,S8) AND (D2,S8 or D4,S2)
    fT2d_DeeSCCons[dee - 1][32 - 1] = 178;
    fT2d_DeeSCCons[dee][32 - 1] = 29;  // 25-3;   // 178c-207c ; 29c-58c;
 
    fT2d_DeeSCCons[dee - 1][51 - 1] = 216;
    fT2d_DeeSCCons[dee][51 - 1] = 67;  // 32;
    fT2d_DeeSCCons[dee - 1][52 - 1] = 208;
    fT2d_DeeSCCons[dee][52 - 1] = 59;  // 26;
    fT2d_DeeSCCons[dee - 1][53 - 1] = 200;
    fT2d_DeeSCCons[dee][53 - 1] = 51;  // 18;
 
    fT2d_DeeSCCons[dee - 1][72 - 1] = 209;
    fT2d_DeeSCCons[dee][72 - 1] = 60;  // 27;
    fT2d_DeeSCCons[dee - 1][73 - 1] = 201;
    fT2d_DeeSCCons[dee][73 - 1] = 52;  // 19;
    fT2d_DeeSCCons[dee - 1][74 - 1] = 194;
    fT2d_DeeSCCons[dee][74 - 1] = 45;  // 12;
 
    fT2d_DeeSCCons[dee - 1][92 - 1] = 210;
    fT2d_DeeSCCons[dee][92 - 1] = 61;  // 28;
    fT2d_DeeSCCons[dee - 1][93 - 1] = 202;
    fT2d_DeeSCCons[dee][93 - 1] = 53;  // 20;
    fT2d_DeeSCCons[dee - 1][94 - 1] = 195;
    fT2d_DeeSCCons[dee][94 - 1] = 46;  // 13;
    fT2d_DeeSCCons[dee - 1][95 - 1] = 188;
    fT2d_DeeSCCons[dee][95 - 1] = 39;  //  7;
 
    fT2d_DeeSCCons[dee - 1][112 - 1] = 211;
    fT2d_DeeSCCons[dee][112 - 1] = 62;  // 29;
    fT2d_DeeSCCons[dee - 1][113 - 1] = 203;
    fT2d_DeeSCCons[dee][113 - 1] = 54;  // 21;
    fT2d_DeeSCCons[dee - 1][114 - 1] = 196;
    fT2d_DeeSCCons[dee][114 - 1] = 47;  // 14;
    fT2d_DeeSCCons[dee - 1][115 - 1] = 189;
    fT2d_DeeSCCons[dee][115 - 1] = 40;  //  8;
    fT2d_DeeSCCons[dee - 1][116 - 1] = 183;
    fT2d_DeeSCCons[dee][116 - 1] = 34;  //  4;
    fT2d_DeeSCCons[dee - 1][117 - 1] = 176;
    fT2d_DeeSCCons[dee][117 - 1] = 27;  //  1;
 
    fT2d_DeeSCCons[dee - 1][132 - 1] = 212;
    fT2d_DeeSCCons[dee][132 - 1] = 63;  // 30;
    fT2d_DeeSCCons[dee - 1][133 - 1] = 204;
    fT2d_DeeSCCons[dee][133 - 1] = 55;  // 22;
    fT2d_DeeSCCons[dee - 1][134 - 1] = 197;
    fT2d_DeeSCCons[dee][134 - 1] = 48;  // 15;
    fT2d_DeeSCCons[dee - 1][135 - 1] = 190;
    fT2d_DeeSCCons[dee][135 - 1] = 41;  //  9;
    fT2d_DeeSCCons[dee - 1][136 - 1] = 184;
    fT2d_DeeSCCons[dee][136 - 1] = 35;  //  5;
    fT2d_DeeSCCons[dee - 1][137 - 1] = 177;
    fT2d_DeeSCCons[dee][137 - 1] = 28;  //  2;
    fT2d_DeeSCCons[dee - 1][138 - 1] = 178;
    fT2d_DeeSCCons[dee][138 - 1] = 29;  //  3; //  178a ;  29a;
 
    fT2d_DeeSCCons[dee - 1][152 - 1] = 213;
    fT2d_DeeSCCons[dee][152 - 1] = 64;  // 31;
    fT2d_DeeSCCons[dee - 1][153 - 1] = 205;
    fT2d_DeeSCCons[dee][153 - 1] = 56;  // 23;
    fT2d_DeeSCCons[dee - 1][154 - 1] = 198;
    fT2d_DeeSCCons[dee][154 - 1] = 49;  // 16;
    fT2d_DeeSCCons[dee - 1][155 - 1] = 191;
    fT2d_DeeSCCons[dee][155 - 1] = 42;  // 10;
    fT2d_DeeSCCons[dee - 1][156 - 1] = 185;
    fT2d_DeeSCCons[dee][156 - 1] = 36;  //  6;
    fT2d_DeeSCCons[dee - 1][157 - 1] = 178;
    fT2d_DeeSCCons[dee][157 - 1] = 29;  //  3; //  178b ;  29b;
 
    fT2d_DeeSCCons[dee - 1][173 - 1] = 206;
    fT2d_DeeSCCons[dee][173 - 1] = 57;  // 24;
    fT2d_DeeSCCons[dee - 1][174 - 1] = 199;
    fT2d_DeeSCCons[dee][174 - 1] = 50;  // 17;
    fT2d_DeeSCCons[dee - 1][175 - 1] = 192;
    fT2d_DeeSCCons[dee][175 - 1] = 43;  // 11;
    fT2d_DeeSCCons[dee - 1][176 - 1] = 207;
    fT2d_DeeSCCons[dee][176 - 1] = 58;  // 25; //  58a ;  207a;
 
    fT2d_DeeSCCons[dee - 1][193 - 1] = 207;
    fT2d_DeeSCCons[dee][193 - 1] = 58;  // 25; //  58b ;  207b;
 
    //.......................................... (D1,S3 or D3,S7) AND  (D2,S7 or D4,S3)
    fT2d_DeeSCCons[dee - 1][50 - 1] = 224;
    fT2d_DeeSCCons[dee][50 - 1] = 75;  // 10;
 
    fT2d_DeeSCCons[dee - 1][69 - 1] = 233;
    fT2d_DeeSCCons[dee][69 - 1] = 84;  // 18;
    fT2d_DeeSCCons[dee - 1][70 - 1] = 225;
    fT2d_DeeSCCons[dee][70 - 1] = 76;  // 11;
    fT2d_DeeSCCons[dee - 1][71 - 1] = 217;
    fT2d_DeeSCCons[dee][71 - 1] = 68;  //  3;
 
    fT2d_DeeSCCons[dee - 1][88 - 1] = 242;
    fT2d_DeeSCCons[dee][88 - 1] = 93;  // 25;
    fT2d_DeeSCCons[dee - 1][89 - 1] = 234;
    fT2d_DeeSCCons[dee][89 - 1] = 85;  // 19;
    fT2d_DeeSCCons[dee - 1][90 - 1] = 226;
    fT2d_DeeSCCons[dee][90 - 1] = 77;  // 12;
    fT2d_DeeSCCons[dee - 1][91 - 1] = 218;
    fT2d_DeeSCCons[dee][91 - 1] = 69;  //  4;
 
    fT2d_DeeSCCons[dee - 1][108 - 1] = 243;
    fT2d_DeeSCCons[dee][108 - 1] = 94;  // 26;
    fT2d_DeeSCCons[dee - 1][109 - 1] = 235;
    fT2d_DeeSCCons[dee][109 - 1] = 86;  // 20;
    fT2d_DeeSCCons[dee - 1][110 - 1] = 227;
    fT2d_DeeSCCons[dee][110 - 1] = 78;  // 13;
    fT2d_DeeSCCons[dee - 1][111 - 1] = 219;
    fT2d_DeeSCCons[dee][111 - 1] = 70;  //  5;
 
    fT2d_DeeSCCons[dee - 1][127 - 1] = 252;
    fT2d_DeeSCCons[dee][127 - 1] = 103;  // 31;
    fT2d_DeeSCCons[dee - 1][128 - 1] = 244;
    fT2d_DeeSCCons[dee][128 - 1] = 95;  // 27;
    fT2d_DeeSCCons[dee - 1][129 - 1] = 236;
    fT2d_DeeSCCons[dee][129 - 1] = 87;  // 21;
    fT2d_DeeSCCons[dee - 1][130 - 1] = 228;
    fT2d_DeeSCCons[dee][130 - 1] = 79;  // 14;
    fT2d_DeeSCCons[dee - 1][131 - 1] = 220;
    fT2d_DeeSCCons[dee][131 - 1] = 71;  //  6;
 
    fT2d_DeeSCCons[dee - 1][147 - 1] = 253;
    fT2d_DeeSCCons[dee][147 - 1] = 104;  // 32;
    fT2d_DeeSCCons[dee - 1][148 - 1] = 245;
    fT2d_DeeSCCons[dee][148 - 1] = 96;  // 28;
    fT2d_DeeSCCons[dee - 1][149 - 1] = 237;
    fT2d_DeeSCCons[dee][149 - 1] = 88;  // 22;
    fT2d_DeeSCCons[dee - 1][150 - 1] = 229;
    fT2d_DeeSCCons[dee][150 - 1] = 80;  // 15;
    fT2d_DeeSCCons[dee - 1][151 - 1] = 221;
    fT2d_DeeSCCons[dee][151 - 1] = 72;  //  7;
 
    fT2d_DeeSCCons[dee - 1][166 - 1] = 254;
    fT2d_DeeSCCons[dee][166 - 1] = 105;  // 33;
    fT2d_DeeSCCons[dee - 1][167 - 1] = 247;
    fT2d_DeeSCCons[dee][167 - 1] = 98;  // 30;
    fT2d_DeeSCCons[dee - 1][168 - 1] = 246;
    fT2d_DeeSCCons[dee][168 - 1] = 97;  // 29;
    fT2d_DeeSCCons[dee - 1][169 - 1] = 238;
    fT2d_DeeSCCons[dee][169 - 1] = 89;  // 23;
    fT2d_DeeSCCons[dee - 1][170 - 1] = 230;
    fT2d_DeeSCCons[dee][170 - 1] = 81;  // 16;
    fT2d_DeeSCCons[dee - 1][171 - 1] = 222;
    fT2d_DeeSCCons[dee][171 - 1] = 73;  //  8;
    fT2d_DeeSCCons[dee - 1][172 - 1] = 214;
    fT2d_DeeSCCons[dee][172 - 1] = 65;  //  1;
 
    fT2d_DeeSCCons[dee - 1][188 - 1] = 298;
    fT2d_DeeSCCons[dee][188 - 1] = 149;  // 24; //  298a ;  149a;
    fT2d_DeeSCCons[dee - 1][189 - 1] = 239;
    fT2d_DeeSCCons[dee][189 - 1] = 90;  // 24;
    fT2d_DeeSCCons[dee - 1][190 - 1] = 231;
    fT2d_DeeSCCons[dee][190 - 1] = 82;  // 17;
    fT2d_DeeSCCons[dee - 1][191 - 1] = 223;
    fT2d_DeeSCCons[dee][191 - 1] = 74;  //  9;
    fT2d_DeeSCCons[dee - 1][192 - 1] = 215;
    fT2d_DeeSCCons[dee][192 - 1] = 66;  //  2;
 
    //.......................................... (D1,S4 or D3,S6) AND  (D2,S6 or D4,S4)
    fT2d_DeeSCCons[dee - 1][29 - 1] = 261;
    fT2d_DeeSCCons[dee][29 - 1] = 112;  // 14-21;   // 261a-268a ; 112a-119a;
    fT2d_DeeSCCons[dee - 1][27 - 1] = 283;
    fT2d_DeeSCCons[dee][27 - 1] = 134;  // 33;
    fT2d_DeeSCCons[dee - 1][28 - 1] = 282;
    fT2d_DeeSCCons[dee][28 - 1] = 133;  // 32;
 
    fT2d_DeeSCCons[dee - 1][44 - 1] = 269;
    fT2d_DeeSCCons[dee][44 - 1] = 120;  // 22;
    fT2d_DeeSCCons[dee - 1][45 - 1] = 262;
    fT2d_DeeSCCons[dee][45 - 1] = 113;  // 15;
    fT2d_DeeSCCons[dee - 1][46 - 1] = 255;
    fT2d_DeeSCCons[dee][46 - 1] = 106;  //  8;
    fT2d_DeeSCCons[dee - 1][47 - 1] = 248;
    fT2d_DeeSCCons[dee][47 - 1] = 99;  //  4;
    fT2d_DeeSCCons[dee - 1][48 - 1] = 240;
    fT2d_DeeSCCons[dee][48 - 1] = 91;  //  2;
    fT2d_DeeSCCons[dee - 1][49 - 1] = 232;
    fT2d_DeeSCCons[dee][49 - 1] = 83;  //  1;
 
    fT2d_DeeSCCons[dee - 1][62 - 1] = 276;
    fT2d_DeeSCCons[dee][62 - 1] = 127;  // 29;
    fT2d_DeeSCCons[dee - 1][63 - 1] = 275;
    fT2d_DeeSCCons[dee][63 - 1] = 126;  // 28;
    fT2d_DeeSCCons[dee - 1][64 - 1] = 270;
    fT2d_DeeSCCons[dee][64 - 1] = 121;  // 23;
    fT2d_DeeSCCons[dee - 1][65 - 1] = 263;
    fT2d_DeeSCCons[dee][65 - 1] = 114;  // 16;
    fT2d_DeeSCCons[dee - 1][66 - 1] = 256;
    fT2d_DeeSCCons[dee][66 - 1] = 107;  //  9;
    fT2d_DeeSCCons[dee - 1][67 - 1] = 249;
    fT2d_DeeSCCons[dee][67 - 1] = 100;  //  5;
    fT2d_DeeSCCons[dee - 1][68 - 1] = 241;
    fT2d_DeeSCCons[dee][68 - 1] = 92;  //  3;
 
    fT2d_DeeSCCons[dee - 1][82 - 1] = 278;
    fT2d_DeeSCCons[dee][82 - 1] = 129;  // 31;
    fT2d_DeeSCCons[dee - 1][83 - 1] = 277;
    fT2d_DeeSCCons[dee][83 - 1] = 128;  // 30;
    fT2d_DeeSCCons[dee - 1][84 - 1] = 271;
    fT2d_DeeSCCons[dee][84 - 1] = 122;  // 24;
    fT2d_DeeSCCons[dee - 1][85 - 1] = 264;
    fT2d_DeeSCCons[dee][85 - 1] = 115;  // 17;
    fT2d_DeeSCCons[dee - 1][86 - 1] = 257;
    fT2d_DeeSCCons[dee][86 - 1] = 108;  // 10;
    fT2d_DeeSCCons[dee - 1][87 - 1] = 250;
    fT2d_DeeSCCons[dee][87 - 1] = 101;  //  6;
 
    fT2d_DeeSCCons[dee - 1][102 - 1] = 268;
    fT2d_DeeSCCons[dee][102 - 1] = 119;  // 21; //  268c ;  119c;
    fT2d_DeeSCCons[dee - 1][103 - 1] = 274;
    fT2d_DeeSCCons[dee][103 - 1] = 125;  // 27;
    fT2d_DeeSCCons[dee - 1][104 - 1] = 272;
    fT2d_DeeSCCons[dee][104 - 1] = 123;  // 25;
    fT2d_DeeSCCons[dee - 1][105 - 1] = 265;
    fT2d_DeeSCCons[dee][105 - 1] = 116;  // 18;
    fT2d_DeeSCCons[dee - 1][106 - 1] = 258;
    fT2d_DeeSCCons[dee][106 - 1] = 109;  // 11;
    fT2d_DeeSCCons[dee - 1][107 - 1] = 251;
    fT2d_DeeSCCons[dee][107 - 1] = 102;  //  7;
 
    fT2d_DeeSCCons[dee - 1][123 - 1] = 268;
    fT2d_DeeSCCons[dee][123 - 1] = 119;  // 27; //  268b ;  119b;
    fT2d_DeeSCCons[dee - 1][124 - 1] = 273;
    fT2d_DeeSCCons[dee][124 - 1] = 124;  // 26;
    fT2d_DeeSCCons[dee - 1][125 - 1] = 266;
    fT2d_DeeSCCons[dee][125 - 1] = 117;  // 19;
    fT2d_DeeSCCons[dee - 1][126 - 1] = 259;
    fT2d_DeeSCCons[dee][126 - 1] = 110;  // 12;
 
    fT2d_DeeSCCons[dee - 1][144 - 1] = 261;
    fT2d_DeeSCCons[dee][144 - 1] = 112;  // 27; //  261c ;  112c;
    fT2d_DeeSCCons[dee - 1][145 - 1] = 267;
    fT2d_DeeSCCons[dee][145 - 1] = 118;  // 20;
    fT2d_DeeSCCons[dee - 1][146 - 1] = 260;
    fT2d_DeeSCCons[dee][146 - 1] = 111;  // 13;
 
    fT2d_DeeSCCons[dee - 1][165 - 1] = 261;
    fT2d_DeeSCCons[dee][165 - 1] = 112;  // 27; //  261b ;  112b;
 
    //.......................................... D1 or D3, right half of S5
    fT2d_DeeSCCons[dee - 1][1 - 1] = 297;  // 34;
    fT2d_DeeSCCons[dee - 1][2 - 1] = 296;  // 33;
    fT2d_DeeSCCons[dee - 1][3 - 1] = 295;  // 32;
    fT2d_DeeSCCons[dee - 1][4 - 1] = 294;  // 31;
    fT2d_DeeSCCons[dee - 1][5 - 1] = 289;  // 26;
    fT2d_DeeSCCons[dee - 1][6 - 1] = 288;  // 25;
    fT2d_DeeSCCons[dee - 1][7 - 1] = 287;  // 24;
    fT2d_DeeSCCons[dee - 1][8 - 1] = 286;  // 23;
 
    fT2d_DeeSCCons[dee - 1][21 - 1] = 293;  // 30;
    fT2d_DeeSCCons[dee - 1][22 - 1] = 292;  // 29;
    fT2d_DeeSCCons[dee - 1][23 - 1] = 291;  // 28;
    fT2d_DeeSCCons[dee - 1][24 - 1] = 290;  // 27;
    fT2d_DeeSCCons[dee - 1][25 - 1] = 285;  // 22;
    fT2d_DeeSCCons[dee - 1][26 - 1] = 284;  // 21;
 
    fT2d_DeeSCCons[dee - 1][41 - 1] = 281;  // 20; //  281a
    fT2d_DeeSCCons[dee - 1][42 - 1] = 280;  // 19;
    fT2d_DeeSCCons[dee - 1][43 - 1] = 279;  // 18;
 
    //.......................................... D2 or D4, left half of S5
    fT2d_DeeSCCons[dee][1 - 1] = 148;  // 17;
    fT2d_DeeSCCons[dee][2 - 1] = 147;  // 16;
    fT2d_DeeSCCons[dee][3 - 1] = 146;  // 15;
    fT2d_DeeSCCons[dee][4 - 1] = 145;  // 14;
    fT2d_DeeSCCons[dee][5 - 1] = 140;  //  9;
    fT2d_DeeSCCons[dee][6 - 1] = 139;  //  8;
    fT2d_DeeSCCons[dee][7 - 1] = 138;  //  7;
    fT2d_DeeSCCons[dee][8 - 1] = 137;  //  6;
 
    fT2d_DeeSCCons[dee][21 - 1] = 144;  // 13;
    fT2d_DeeSCCons[dee][22 - 1] = 143;  // 12;
    fT2d_DeeSCCons[dee][23 - 1] = 142;  // 11;
    fT2d_DeeSCCons[dee][24 - 1] = 141;  // 10;
    fT2d_DeeSCCons[dee][25 - 1] = 136;  //  5;
    fT2d_DeeSCCons[dee][26 - 1] = 135;  //  4;
 
    fT2d_DeeSCCons[dee][41 - 1] = 132;  // 3; //  132a
    fT2d_DeeSCCons[dee][42 - 1] = 131;  // 2;
    fT2d_DeeSCCons[dee][43 - 1] = 130;  // 1;
  }
 
  //........................ ECNA numbers from numbers for constructions: fT2d_RecovDeeSC[][]
 
  for (Int_t i0EEDee = 0; i0EEDee < MaxEEDee; i0EEDee++) {
    for (Int_t i_ecna = 0; i_ecna < MaxDeeSC; i_ecna++) {
      //....... test to avoid the -1 init value in 2nd index of array fT2d_RecovDeeSC[][]
      //        (part of the matrix without real SC counterpart)
      if (fT2d_DeeSCCons[i0EEDee][i_ecna] >= 0 && fT2d_DeeSCCons[i0EEDee][i_ecna] <= MaxEESCForCons) {
        fT2d_RecovDeeSC[i0EEDee][fT2d_DeeSCCons[i0EEDee][i_ecna] - 1] = i_ecna + 1;
      }
    }
  }
}

References fCnew, fEcal, fT1d_DeeSCCons, fT1d_DS, fT1d_DSSC, fT1d_RecovDeeSC, fT2d_DeeSCCons, fT2d_DS, fT2d_DSSC, fT2d_RecovDeeSC, mps_fire::i, dqmiolumiharvest::j, TEcnaParEcal::MaxDeeInEE(), TEcnaParEcal::MaxSCEcnaInDee(), and TEcnaParEcal::MaxSCForConsInDee().

Referenced by SetEcalSubDetector().

Get0SMEchaFrom1SMTowAnd0TowEcha()

Int_t TEcnaNumbering::Get0SMEchaFrom1SMTowAnd0TowEcha	(	const Int_t &	n1SMTow,
		const Int_t &	i0TowEcha
	)

Definition at line 570 of file TEcnaNumbering.cc.

                                                                                                  {
  //get tower number from electronic channel number in SM
 
  Int_t i0SMEcha = (n1SMTow - 1) * fEcal->MaxCrysInTow() + i0TowEcha;
 
  return i0SMEcha;
}

References fEcal, and TEcnaParEcal::MaxCrysInTow().

Referenced by TEcnaHistos::TowerCrystalNumbering().

Get0StexEchaFrom1StexStinAnd0StinEcha()

Int_t TEcnaNumbering::Get0StexEchaFrom1StexStinAnd0StinEcha	(	const Int_t &	n1StexStin,
		const Int_t &	i0StinEcha
	)

Definition at line 2970 of file TEcnaNumbering.cc.

                                                                                                            {
  // Electronic Channel number in Stex from Stin number in Stex
  // and from Electronic Channel number in Stin
 
  Int_t StexEcha = (Int_t)(-1.);
 
  if (n1StexStin > 0 && n1StexStin <= fEcal->MaxStinEcnaInStex() && i0StinEcha >= 0 &&
      i0StinEcha < fEcal->MaxCrysInStin()) {
    StexEcha = (n1StexStin - 1) * fEcal->MaxCrysInStin() + i0StinEcha;
  } else {
    std::cout << "!TEcnaNumbering::Get0StexEchaFrom1StexStinAnd0StinEcha *** ERROR ***> VALUE"
              << " OUT OF RANGE. Forced to -1. Argument values: n1StexStin = " << n1StexStin
              << ", channel = " << i0StinEcha << fTTBELL << std::endl;
  }
  return StexEcha;
}

References gather_cfg::cout, fEcal, fTTBELL, and TEcnaParEcal::MaxCrysInStin().

Referenced by TEcnaRun::AverageHighFrequencyNoise(), TEcnaRun::AverageLowFrequencyNoise(), TEcnaRun::AverageMeanCorrelationsBetweenSamples(), TEcnaRun::AveragePedestals(), TEcnaRun::AverageSigmaOfCorrelationsBetweenSamples(), TEcnaRun::AverageTotalNoise(), TEcnaRead::ReadAverageNumberOfEvents(), TEcnaRead::ReadCorrelationsBetweenSamples(), TEcnaRead::ReadCovariancesBetweenSamples(), TEcnaRead::ReadNumberOfEvents(), TEcnaRead::ReadRelevantCorrelationsBetweenSamples(), TEcnaRead::ReadSampleAdcValues(), TEcnaRead::ReadSampleMeans(), TEcnaRead::ReadSampleSigmas(), and TEcnaHistos::ViewHistime().

Get0TowEchaFrom0SMEcha()

Int_t TEcnaNumbering::Get0TowEchaFrom0SMEcha

(

const Int_t &

i0SMEcha

)

Definition at line 553 of file TEcnaNumbering.cc.

                                                                  {
  //get electronic channel number in tower from electronic channel number in SM
 
  Int_t n1SMTow = i0SMEcha / fEcal->MaxCrysInTow() + 1;
  Int_t i0TowEcha = i0SMEcha - fEcal->MaxCrysInTow() * (n1SMTow - 1);
 
  return i0TowEcha;  // range = [0,24]
}

References fEcal, and TEcnaParEcal::MaxCrysInTow().

Referenced by TEcnaWrite::fT2dWriteAscii(), and TEcnaWrite::WriteAsciiHisto().

Get0TowEchaFrom1SMCrys()

Int_t TEcnaNumbering::Get0TowEchaFrom1SMCrys

(

const Int_t &

n1SMCrys

)

Definition at line 516 of file TEcnaNumbering.cc.

                                                                  {
  // get Electronic Channel number in Tower from Crystal number in SuperModule
 
  Int_t i0TowEcha = -1;
 
  if (n1SMCrys >= 1 && n1SMCrys <= fEcal->MaxCrysInSM()) {
    i0TowEcha = fT1dTowEcha[n1SMCrys - 1];
  } else {
    i0TowEcha = -2;
    std::cout << "!TEcnaNumbering::Get0TowEchaFrom1SMCrys(...)> Crystal number in SM out of range."
              << " n1SMCrys = " << n1SMCrys << fTTBELL << std::endl;
  }
  return i0TowEcha;  // range = [0,24]
}

References gather_cfg::cout, fT1dTowEcha, and fTTBELL.

Referenced by EcnaAnalyzer::analyze().

Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha()

Int_t TEcnaNumbering::Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha	(	const Int_t &	n1DeeSCEcna,
		const Int_t &	i0SCEcha,
		const TString &	sDeeDir
	)

Definition at line 2292 of file TEcnaNumbering.cc.

                                                                                  {
  //get crystal number in Dee from SC number in Dee
  // and from Electronic Channel number in super-crystal
 
  Int_t n1DeeCrys = 0;
  Int_t i0DeeDir = GetDeeDirIndex(sDeeDir);
 
  if (fT3dDeeCrys == nullptr) {
    BuildEndcapCrysTable();
  }
 
  if ((n1DeeSCEcna >= 1) && (n1DeeSCEcna <= fEcal->MaxSCEcnaInDee())) {
    if (i0SCEcha >= 0 && i0SCEcha < fEcal->MaxCrysInSC()) {
      n1DeeCrys = fT3dDeeCrys[n1DeeSCEcna - 1][i0SCEcha][i0DeeDir];
    } else {
      n1DeeCrys = -2;  // Electronic Cnannel in Super-Crystal out of range
      std::cout << "!TEcnaNumbering::Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(...)> Electronic Channel in SuperCrystal = "
                << i0SCEcha + 1 << ". Out of range (range = [1," << fEcal->MaxCrysInSC() << "])" << fTTBELL
                << std::endl;
    }
  } else {
    n1DeeCrys = -3;  // Super-Crystal number in Dee out of range
    std::cout << "!TEcnaNumbering::Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(...)> Super-Crystal number in Dee out of range."
              << " n1DeeSCEcna = " << n1DeeSCEcna << fTTBELL << std::endl;
  }
 
  return n1DeeCrys;  // Range = [1,5000]
}

References BuildEndcapCrysTable(), gather_cfg::cout, fEcal, fT3dDeeCrys, fTTBELL, GetDeeDirIndex(), and TEcnaParEcal::MaxCrysInSC().

Referenced by Get1StexCrysFrom1StexStinAnd0StinEcha().

Get1DeeSCEcnaFrom0DeeEcha()

Int_t TEcnaNumbering::Get1DeeSCEcnaFrom0DeeEcha

(

const Int_t &

i0DeeEcha

)

Definition at line 2377 of file TEcnaNumbering.cc.

                                                                      {
  //get super-crystal number from electronic channel number in Dee
 
  Int_t n1DeeSC = i0DeeEcha / fEcal->MaxCrysInSC() + 1;
 
  return n1DeeSC;  //  range = [1,200]
}

References fEcal, and TEcnaParEcal::MaxCrysInSC().

Referenced by Get1StexStinFrom0StexEcha(), and TEcnaWrite::WriteAsciiHisto().

Get1DeeSCEcnaFrom1DeeCrys()

Int_t TEcnaNumbering::Get1DeeSCEcnaFrom1DeeCrys	(	const Int_t &	n1DeeCrys,
		const TString &	sDeeDir
	)

Definition at line 2345 of file TEcnaNumbering.cc.

                                                                                              {
  // get Super-Crystal number in Dee from Crystal number in Dee
 
  Int_t n1DeeSCEcna = 0;
  Int_t iDeeDir = GetDeeDirIndex(sDeeDir);
 
  if (n1DeeCrys >= 1 && n1DeeCrys <= fEcal->MaxCrysEcnaInDee()) {
    n1DeeSCEcna = fT2dDeeSC[n1DeeCrys - 1][iDeeDir];
  } else {
    n1DeeSCEcna = -1;
    std::cout << "!TEcnaNumbering::Get1DeeSCEcnaFrom1DeeCrys(...)> Crystal number in Dee out of range."
              << " n1DeeCrys = " << n1DeeCrys << "(max = " << fEcal->MaxCrysEcnaInDee() << ")" << fTTBELL << std::endl;
  }
  return n1DeeSCEcna;  // range = [1,200]
}

References gather_cfg::cout, fEcal, fT2dDeeSC, fTTBELL, GetDeeDirIndex(), and TEcnaParEcal::MaxCrysEcnaInDee().

Referenced by EcnaAnalyzer::analyze().

Get1DeeSCEcnaFromDeeSCCons()

Int_t TEcnaNumbering::Get1DeeSCEcnaFromDeeSCCons	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSCCons
	)

Definition at line 2517 of file TEcnaNumbering.cc.

                                                                                                 {
  // Get SC Ecna number in Dee from SC number for Construction in Dee
 
  Int_t dee_sc_ecna = -1;
 
  if (n1DeeNumber > 0 && n1DeeNumber <= fEcal->MaxDeeInEE()) {
    Int_t off_set_cons = 0;
    if (n1DeeNumber == 1 || n1DeeNumber == 3) {
      off_set_cons = fEcal->MaxSCForConsInDee();
    }
 
    if (DeeSCCons > off_set_cons && DeeSCCons <= fEcal->MaxSCForConsInDee() + off_set_cons) {
      dee_sc_ecna = fT2d_RecovDeeSC[n1DeeNumber - 1][DeeSCCons - 1];
    } else {
      std::cout << "!TEcnaNumbering::Get1DeeSCEcnaFromDeeSCCons(...)> DeeSCCons = " << DeeSCCons
                << ". Out of range ( range = [ " << off_set_cons + 1 << "," << fEcal->MaxSCForConsInDee() + off_set_cons
                << "] )" << fTTBELL << std::endl;
    }
  } else {
    if (n1DeeNumber != 0) {
      std::cout << "!TEcnaNumbering::Get1DeeSCEcnaFromDeeSCCons(...)> n1DeeNumber = " << n1DeeNumber
                << ". Out of range ( range = [1," << fEcal->MaxDeeInEE() << "] )" << fTTBELL << std::endl;
    } else {
      std::cout << "TEcnaNumbering::Get1DeeSCEcnaFromDeeSCCons(...)> Dee = " << n1DeeNumber
                << ". Out of range (range = [1," << fEcal->MaxDeeInEE() << "])" << fTTBELL << std::endl;
    }
  }
  return dee_sc_ecna;
}

References gather_cfg::cout, fEcal, fT2d_RecovDeeSC, fTTBELL, TEcnaParEcal::MaxDeeInEE(), and TEcnaParEcal::MaxSCForConsInDee().

Referenced by TEcnaGui::DoButtonStinA(), TEcnaGui::DoButtonStinB(), TEcnaHistos::EvSamplesXtals(), TEcnaGui::InitKeys(), TEcnaHistos::PlotMatrix(), TEcnaHistos::SCCrystalNumbering(), TEcnaHistos::SigmaSamplesXtals(), TEcnaHistos::ViewStin(), TEcnaHistos::XtalSamplesEv(), and TEcnaHistos::XtalSamplesSigma().

Get1SCEchaFrom0DeeEcha()

Int_t TEcnaNumbering::Get1SCEchaFrom0DeeEcha

(

const Int_t &

i0DeeEcha

)

Definition at line 2368 of file TEcnaNumbering.cc.

                                                                   {
  //get electronic channel number in super-crystal from electronic channel number in Dee
 
  Int_t i0DeeSC = i0DeeEcha / fEcal->MaxCrysInSC();
  Int_t n1SCEcha = i0DeeEcha - fEcal->MaxCrysInSC() * i0DeeSC + 1;
 
  return n1SCEcha;  //  range = [1,25]
}

References fEcal, and TEcnaParEcal::MaxCrysInSC().

Referenced by TEcnaWrite::fT2dWriteAscii(), TEcnaHistos::ViewHisto(), and TEcnaWrite::WriteAsciiHisto().

Get1SCEchaFrom1DeeCrys()

Int_t TEcnaNumbering::Get1SCEchaFrom1DeeCrys	(	const Int_t &	n1DeeCrys,
		const TString &	sDeeDir
	)

Definition at line 2329 of file TEcnaNumbering.cc.

                                                                                           {
  // get Electronic Channel number in Super-Crystal from Crystal ECNA number in Dee
 
  Int_t n1SCEcha = -1;
  Int_t iDeeDir = GetDeeDirIndex(sDeeDir);
 
  if (n1DeeCrys >= 1 && n1DeeCrys <= fEcal->MaxCrysEcnaInDee()) {
    n1SCEcha = fT2dSCEcha[n1DeeCrys - 1][iDeeDir];
  } else {
    n1SCEcha = -2;
    std::cout << "!TEcnaNumbering::Get1SCEchaFrom1DeeCrys(...)> Crystal number in Dee out of range."
              << " n1DeeCrys = " << n1DeeCrys << "(max = " << fEcal->MaxCrysEcnaInDee() << ")" << fTTBELL << std::endl;
  }
  return n1SCEcha;  // range = [1,25]
}

References gather_cfg::cout, fEcal, fT2dSCEcha, fTTBELL, GetDeeDirIndex(), and TEcnaParEcal::MaxCrysEcnaInDee().

Referenced by EcnaAnalyzer::analyze().

Get1SMCrysFrom1SMTowAnd0TowEcha()

Int_t TEcnaNumbering::Get1SMCrysFrom1SMTowAnd0TowEcha	(	const Int_t &	n1SMTow,
		const Int_t &	i0TowEcha
	)

Definition at line 483 of file TEcnaNumbering.cc.

                                                                                                  {
  //get crystal number in SM from tower number in SM
  // and from Electronic Channel number in tower
 
  Int_t n1SMCrys = 0;
 
  if (fT2dSMCrys == nullptr) {
    BuildBarrelCrysTable();
  }
 
  if (n1SMTow >= 1 && n1SMTow <= fEcal->MaxTowInSM()) {
    if (i0TowEcha >= 0 && i0TowEcha < fEcal->MaxCrysInTow()) {
      n1SMCrys = fT2dSMCrys[n1SMTow - 1][i0TowEcha];
    } else {
      n1SMCrys = -2;  // Electronic Cnannel in Tower out of range
      std::cout << "!TEcnaNumbering::Get1SMCrysFrom1SMTowAnd0TowEcha(...)> Electronic Channel in Tower out of range."
                << " i0TowEcha = " << i0TowEcha << "(n1SMTow = " << n1SMTow << ")" << fTTBELL << std::endl;
    }
  } else {
    n1SMCrys = -3;  // Tower number in SM out of range
    std::cout << "!TEcnaNumbering::Get1SMCrysFrom1SMTowAnd0TowEcha(...)> Tower number in SM out of range."
              << " n1SMTow = " << n1SMTow << "(i0TowEcha = " << i0TowEcha << ")" << fTTBELL << std::endl;
  }
 
  return n1SMCrys;  // Range = [1,1700]
}

References BuildBarrelCrysTable(), gather_cfg::cout, fT2dSMCrys, and fTTBELL.

Referenced by Get1StexCrysFrom1StexStinAnd0StinEcha(), TEcnaHistos::TowerCrystalNumbering(), and TEcnaWrite::WriteAsciiHisto().

Get1SMTowFrom0SMEcha()

Int_t TEcnaNumbering::Get1SMTowFrom0SMEcha

(

const Int_t &

i0SMEcha

)

Definition at line 562 of file TEcnaNumbering.cc.

                                                                {
  //get tower number from electronic channel number in SM
 
  Int_t n1SMTow = i0SMEcha / fEcal->MaxCrysInTow() + 1;
 
  return n1SMTow;  // range = [1,68]
}

References fEcal, and TEcnaParEcal::MaxCrysInTow().

Referenced by Get1StexStinFrom0StexEcha(), and TEcnaWrite::WriteAsciiHisto().

Get1SMTowFrom1SMCrys()

Int_t TEcnaNumbering::Get1SMTowFrom1SMCrys

(

const Int_t &

n1SMCrys

)

Definition at line 531 of file TEcnaNumbering.cc.

                                                                {
  // get Tower number in SM (range [1,68]) from Crystal number in SuperModule (range [1,1700])
 
  Int_t n1SMtox = 0;
 
  if (n1SMCrys >= 1 && n1SMCrys <= fEcal->MaxCrysInSM()) {
    n1SMtox = fT1dSMTow[n1SMCrys - 1];
  } else {
    n1SMtox = -1;
    std::cout << "!TEcnaNumbering::Get1SMTowFrom1SMCrys(...)> Crystal number in SM out of range."
              << " n1SMCrys = " << n1SMCrys << fTTBELL << std::endl;
  }
  return n1SMtox;  // range = [1,68]
}

References gather_cfg::cout, fT1dSMTow, and fTTBELL.

Referenced by EcnaAnalyzer::analyze().

Get1StexCrysFrom1StexStinAnd0StinEcha()

Int_t TEcnaNumbering::Get1StexCrysFrom1StexStinAnd0StinEcha	(	const Int_t &	n1StexStin,
		const Int_t &	i0StinEcha,
		const Int_t &	StexNumber
	)

Definition at line 2986 of file TEcnaNumbering.cc.

                                                                                     {
  // Crystal number in Stex from Stin number in Stex
  // and from Electronic Channel number in Stin (for the StexNumber_th Stex)
  // argument StexNumber used only in "EE" case
 
  Int_t n1StexCrys = (Int_t)0;
  if (fFlagSubDet == "EB") {
    n1StexCrys = Get1SMCrysFrom1SMTowAnd0TowEcha(n1StexStin, i0StinEcha);
  }
  if (fFlagSubDet == "EE") {
    TString sDeeDir = GetDeeDirViewedFromIP(StexNumber);
    n1StexCrys = Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(n1StexStin, i0StinEcha, sDeeDir);
  }
 
  return n1StexCrys;
}

References fFlagSubDet, Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), Get1SMCrysFrom1SMTowAnd0TowEcha(), and GetDeeDirViewedFromIP().

Referenced by TEcnaHistos::GetXCrysInStex(), TEcnaHistos::GetYCrysInStex(), TEcnaHistos::HistimePlot(), TEcnaHistos::HistoPlot(), TEcnaHistos::SetAllPavesViewHisto(), and TEcnaHistos::SetAllPavesViewMatrix().

Get1StexStinFrom0StexEcha()

Int_t TEcnaNumbering::Get1StexStinFrom0StexEcha

(

const Int_t &

i0StexEcha

)

Definition at line 2957 of file TEcnaNumbering.cc.

                                                                       {
  Int_t n1StexStin = 0;
 
  if (fFlagSubDet == "EB") {
    n1StexStin = Get1SMTowFrom0SMEcha(i0StexEcha);
  }
  if (fFlagSubDet == "EE") {
    n1StexStin = Get1DeeSCEcnaFrom0DeeEcha(i0StexEcha);
  }
 
  return n1StexStin;
}

References fFlagSubDet, Get1DeeSCEcnaFrom0DeeEcha(), and Get1SMTowFrom0SMEcha().

Referenced by StexEchaForCons().

GetDeeDirIndex()

Int_t TEcnaNumbering::GetDeeDirIndex

(

const TString &

sDeeDir

)

Definition at line 2712 of file TEcnaNumbering.cc.

                                                           {
  //gives the index of the direction (left,right) of the IX axis of the Dee
  // looking from the interaction point (right = 0, left = 1)
 
  Int_t iDeeDir = 0;  // => default
  if (sDeeDir == "right") {
    iDeeDir = 0;
  }
  if (sDeeDir == "left") {
    iDeeDir = 1;
  }
  return iDeeDir;
}

Referenced by Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), Get1DeeSCEcnaFrom1DeeCrys(), and Get1SCEchaFrom1DeeCrys().

GetDeeDirViewedFromIP()

TString TEcnaNumbering::GetDeeDirViewedFromIP

(

const Int_t &

n1DeeNumber

)

Definition at line 2699 of file TEcnaNumbering.cc.

                                                                      {
  //gives the direction (left/right) of the IX axis of the Dee
  // looking from the interaction point
 
  TString sDeeDir = "right";  // => default
  if ((n1DeeNumber == 1) || (n1DeeNumber == 3)) {
    sDeeDir = "right";
  }
  if ((n1DeeNumber == 2) || (n1DeeNumber == 4)) {
    sDeeDir = "left";
  }
  return sDeeDir;
}

Referenced by EcnaAnalyzer::analyze(), TEcnaWrite::fT2dWriteAscii(), Get1StexCrysFrom1StexStinAnd0StinEcha(), GetIXCrysInSC(), GetJYCrysInSC(), TEcnaHistos::GetXCrysInStex(), TEcnaHistos::GetXSampInStin(), TEcnaHistos::GetXStinInStas(), TEcnaHistos::ModifiedSCEchaForNotConnectedSCs(), TEcnaHistos::SCCrystalNumbering(), TEcnaHistos::SetAllPavesViewMatrix(), TEcnaHistos::ViewDeeSCNumberingPad(), and TEcnaHistos::ViewHisto().

GetDeeHalfEndcap()

TString TEcnaNumbering::GetDeeHalfEndcap

(

const Int_t &

n1DeeNumber

)

Definition at line 2884 of file TEcnaNumbering.cc.

                                                                 {
  //gives the half-endcap of the Dee ("EE+" or "EE-")
 
  TString type = "EE-";  // => default value
 
  if (n1DeeNumber == 1 || n1DeeNumber == 2) {
    type = "EE+";
  }
  if (n1DeeNumber == 3 || n1DeeNumber == 4) {
    type = "EE-";
  }
 
  return type;
}

Referenced by GetStexHalfStas().

GetDeeSCConsFrom1DeeSCEcna() [1/2]

Int_t TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna
	)

Definition at line 2464 of file TEcnaNumbering.cc.

                                                                                                   {
  // Get SC number for Construction in Dee from SC ECNA number in Dee
 
  Int_t dee_sc_cons = -1;
 
  if (n1DeeNumber > 0 && n1DeeNumber <= fEcal->MaxDeeInEE()) {
    if (n1DeeSCEcna > 0 && n1DeeSCEcna <= fEcal->MaxSCEcnaInDee()) {
      dee_sc_cons = fT2d_DeeSCCons[n1DeeNumber - 1][n1DeeSCEcna - 1];
    } else {
      std::cout << "!TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna(...)> *** WARNING *** n1DeeSCEcna = " << n1DeeSCEcna
                << ". Out of range ( range = [1," << fEcal->MaxSCEcnaInDee() << "] ). Nb for const. forced to "
                << fT2d_DeeSCCons[n1DeeNumber - 1][19] << "." << std::endl;
      dee_sc_cons = fT2d_DeeSCCons[n1DeeNumber - 1][19];
    }
  } else {
    if (n1DeeNumber != 0) {
      std::cout << "!TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna(...)> n1DeeNumber = " << n1DeeNumber
                << ". Out of range ( range = [1," << fEcal->MaxDeeInEE() << "] )" << fTTBELL << std::endl;
    } else {
      std::cout << "TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna(...)> Dee = " << n1DeeNumber
                << ". Out of range (range = [1," << fEcal->MaxDeeInEE() << "])" << fTTBELL << std::endl;
    }
  }
  return dee_sc_cons;
}

References gather_cfg::cout, fEcal, fT2d_DeeSCCons, fTTBELL, TEcnaParEcal::MaxDeeInEE(), and TEcnaParEcal::MaxSCEcnaInDee().

Referenced by TEcnaGui::DialogBox(), TEcnaGui::DoButtonStex(), GetDeeSCConsFrom1DeeSCEcna(), TEcnaHistos::GetOkViewHisto(), TEcnaRun::GetSampleAdcValues(), TEcnaGui::HandleMenu(), TEcnaHistos::HistimePlot(), TEcnaHistos::HistoPlot(), MaxCrysInStinEcna(), TEcnaParHistos::SetPaveSC(), TEcnaHistos::ViewDeeSCNumberingPad(), TEcnaHistos::ViewHisto(), TEcnaHistos::ViewMatrix(), TEcnaHistos::ViewStin(), TEcnaGui::ViewStinCrystalNumbering(), TEcnaWrite::WriteAsciiCorrelationsBetweenSamples(), TEcnaWrite::WriteAsciiCovariancesBetweenSamples(), and TEcnaWrite::WriteAsciiHisto().

GetDeeSCConsFrom1DeeSCEcna() [2/2]

Int_t TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna,
		const Int_t &	n1SCEcha
	)

Definition at line 2490 of file TEcnaNumbering.cc.

                                                                        {
  //.......... Get the correct SC number (for cons) for the unconnected SC's (inner border)
  Int_t dee_sc_cons = GetDeeSCConsFrom1DeeSCEcna(n1DeeNumber, n1DeeSCEcna);
 
  if (n1DeeSCEcna == 29 || n1DeeSCEcna == 32) {
    if (n1SCEcha == 11) {
      if (dee_sc_cons == 261) {
        dee_sc_cons = 268;
      }  // 261<=>14/BR
      if (dee_sc_cons == 112) {
        dee_sc_cons = 119;
      }  // 112<=>14/BL
    }
    if (n1SCEcha == 1 || n1SCEcha == 2 || n1SCEcha == 3 || n1SCEcha == 6 || n1SCEcha == 7) {
      if (dee_sc_cons == 178) {
        dee_sc_cons = 207;
      }  // 178<=>3/TR
      if (dee_sc_cons == 29) {
        dee_sc_cons = 58;
      }  //  29<=>3/TL
    }
  }
  return dee_sc_cons;
}

References GetDeeSCConsFrom1DeeSCEcna().

GetDSFrom1DeeSCEcna()

Int_t TEcnaNumbering::GetDSFrom1DeeSCEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna
	)

Definition at line 2396 of file TEcnaNumbering.cc.

                                                                                            {
  // Get Data Sector number from SC ECNA number in Dee
 
  Int_t data_sector = -1;
 
  if (n1DeeNumber > 0 && n1DeeNumber <= fEcal->MaxDeeInEE()) {
    if (n1DeeSCEcna > 0 && n1DeeSCEcna <= fEcal->MaxSCEcnaInDee()) {
      data_sector = fT2d_DS[n1DeeNumber - 1][n1DeeSCEcna - 1];
    } else {
      std::cout << "!TEcnaNumbering::GetDSFrom1DeeSCEcna(...)> n1DeeSCEcna = " << n1DeeSCEcna
                << ". Out of range ( range = [1," << fEcal->MaxSCEcnaInDee() << "] )" << fTTBELL << std::endl;
    }
  } else {
    if (n1DeeNumber != 0) {
      std::cout << "!TEcnaNumbering::GetDSFrom1DeeSCEcna(...)> n1DeeNumber = " << n1DeeNumber
                << ". Out of range ( range = [1," << fEcal->MaxDeeInEE() << "] )" << fTTBELL << std::endl;
    } else {
      std::cout << "TEcnaNumbering::GetDSFrom1DeeSCEcna(...)> Dee = " << n1DeeNumber << ". Out of range (range = [1,"
                << fEcal->MaxDeeInEE() << "])" << fTTBELL << std::endl;
    }
  }
  return data_sector;
}

References gather_cfg::cout, fEcal, fT2d_DS, fTTBELL, TEcnaParEcal::MaxDeeInEE(), and TEcnaParEcal::MaxSCEcnaInDee().

Referenced by TEcnaParHistos::SetPaveSC(), TEcnaHistos::ViewHisto(), and TEcnaWrite::WriteAsciiHisto().

GetDSFromFED()

Int_t TEcnaNumbering::GetDSFromFED

(

const Int_t &

FEDNumber

)

Definition at line 3104 of file TEcnaNumbering.cc.

                                                         {
  Int_t EEDSNumber = 0;  // DS = Data Sector
 
  if (FEDNumber >= 600 && FEDNumber <= 609) {
    EEDSNumber = FEDNumber - 599;
  }
  if (FEDNumber >= 646 && FEDNumber <= 655) {
    EEDSNumber = FEDNumber - 645;
  }
 
  return EEDSNumber;
}

GetDSSCFrom1DeeSCEcna() [1/2]

Int_t TEcnaNumbering::GetDSSCFrom1DeeSCEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna
	)

Definition at line 2439 of file TEcnaNumbering.cc.

                                                                                              {
  // Get SC number in Data Sector from SC Ecna number in Dee
 
  Int_t ds_sc = -1;
 
  if (n1DeeNumber > 0 && n1DeeNumber <= fEcal->MaxDeeInEE()) {
    if (n1DeeSCEcna > 0 && n1DeeSCEcna <= fEcal->MaxSCEcnaInDee()) {
      ds_sc = fT2d_DSSC[n1DeeNumber - 1][n1DeeSCEcna - 1];  // 25 (not 3) or 14 (not 21) if n1DeeSCEcna = 32 or 29
                                                            // 25 and 14 => 5 Xtals,  3 and 21 => 1 Xtal
    } else {
      std::cout << "!TEcnaNumbering::GetDSSCFrom1DeeSCEcna(...)> n1DeeSCEcna = " << n1DeeSCEcna
                << ". Out of range ( range = [1," << fEcal->MaxSCEcnaInDee() << "] )" << fTTBELL << std::endl;
    }
  } else {
    if (n1DeeNumber != 0) {
      std::cout << "!TEcnaNumbering::GetDSSCFrom1DeeSCEcna(...)> n1DeeNumber = " << n1DeeNumber
                << ". Out of range ( range = [1," << fEcal->MaxDeeInEE() << "] )" << fTTBELL << std::endl;
    } else {
      std::cout << "TEcnaNumbering::GetDSSCFrom1DeeSCEcna(...)> Dee = " << n1DeeNumber << ". Out of range (range = [1,"
                << fEcal->MaxDeeInEE() << "])" << fTTBELL << std::endl;
    }
  }
  return ds_sc;
}

References gather_cfg::cout, fEcal, fT2d_DSSC, fTTBELL, TEcnaParEcal::MaxDeeInEE(), and TEcnaParEcal::MaxSCEcnaInDee().

GetDSSCFrom1DeeSCEcna() [2/2]

Int_t TEcnaNumbering::GetDSSCFrom1DeeSCEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna,
		const Int_t &	n1SCEcha
	)

Definition at line 2420 of file TEcnaNumbering.cc.

                                                                                                                     {
  //.......... Get the correct SC number for the unconnected SC's (inner border)
  Int_t ds_sc = GetDSSCFrom1DeeSCEcna(n1DeeNumber, n1DeeSCEcna);
 
  if (n1DeeSCEcna == 29 || n1DeeSCEcna == 32) {
    if (n1SCEcha == 11) {
      if (ds_sc == 14) {
        ds_sc = 21;
      }  // 14 <=> 261/BR OR 112/BL
    }
    if (n1SCEcha == 1 || n1SCEcha == 2 || n1SCEcha == 3 || n1SCEcha == 6 || n1SCEcha == 7) {
      if (ds_sc == 3) {
        ds_sc = 25;
      }  // 3 <=> 178/TR OR 29/TL
    }
  }
  return ds_sc;
}

Referenced by TEcnaParHistos::SetPaveSC(), TEcnaHistos::ViewDeeSCNumberingPad(), TEcnaHistos::ViewHisto(), and TEcnaWrite::WriteAsciiHisto().

GetEEDeeEndcap()

TString TEcnaNumbering::GetEEDeeEndcap

(

const Int_t &

n1DeeNumber

)

Definition at line 2668 of file TEcnaNumbering.cc.

                                                               {
  //gives the Endcap (EE+ or EE-) of the Dee (H. Heath, CMS NOTE 2006/027)
 
  TString eetype = "EE+";  // => default
  if (n1DeeNumber == 1 || n1DeeNumber == 2) {
    eetype = "EE+";
  }
  if (n1DeeNumber == 3 || n1DeeNumber == 4) {
    eetype = "EE-";
  }
  return eetype;
}

Referenced by TEcnaHistos::SCCrystalNumbering(), and TEcnaHistos::ViewDeeSCNumberingPad().

GetEEDeeType()

TString TEcnaNumbering::GetEEDeeType

(

const Int_t &

n1DeeNumber

)

Definition at line 2680 of file TEcnaNumbering.cc.

                                                             {
  //gives the EE +/- and Forward/Near of the Dee (H. Heath, CMS NOTE 2006/027)
 
  TString type = "EE+F";  // => default
  if (n1DeeNumber == 1) {
    type = "EE+F";
  }
  if (n1DeeNumber == 2) {
    type = "EE+N";
  }
  if (n1DeeNumber == 3) {
    type = "EE-N";
  }
  if (n1DeeNumber == 4) {
    type = "EE-F";
  }
  return type;
}

Referenced by TEcnaHistos::DeeSCNumbering(), GetXDirectionEE(), GetYDirectionEE(), TEcnaHistos::SCCrystalNumbering(), TEcnaHistos::SetEcalSubDetector(), TEcnaParHistos::SetPaveStex(), and TEcnaHistos::ViewMatrix().

GetEta()

Double_t TEcnaNumbering::GetEta	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow,
		const Int_t &	i0TowEcha
	)

Definition at line 648 of file TEcnaNumbering.cc.

                                                                                                 {
  //Gives Eta for a given (n1EBSM, n1SMTow, i0TowEcha)
 
  Double_t eta = (Double_t)0.;
 
  Int_t max_crys_eta_in_tower = fEcal->MaxCrysEtaInTow();
  Int_t max_tow_eta_in_sm = fEcal->MaxTowEtaInSM();
  Int_t max_sm_in_barrel = fEcal->MaxSMInEB();
 
  if (n1EBSM >= 1 && n1EBSM <= max_sm_in_barrel) {
    for (Int_t i_sm_tow_eta = 0; i_sm_tow_eta < max_tow_eta_in_sm; i_sm_tow_eta++) {
      Int_t i_crys_eta_min = (Int_t)(1 + i_sm_tow_eta * (max_crys_eta_in_tower - 1));
      Int_t i_crys_eta_max = (Int_t)((i_sm_tow_eta + 1) * (max_crys_eta_in_tower - 1));
      Int_t i_crys_eta = (Int_t)(i_sm_tow_eta * max_crys_eta_in_tower);
      // = 0,..,16 -> last xtal in eta for the previous tower
      Double_t d_echa_eta = (Double_t)(i0TowEcha / max_crys_eta_in_tower);  // = 0,1,2,3,4
 
      if (n1SMTow >= i_crys_eta_min && n1SMTow <= i_crys_eta_max) {
        if (GetTowerLvrbType(n1SMTow) == fCodeChNumberingLvrbTop) {
          eta = (Double_t)(i_crys_eta) + d_echa_eta + 1;
        }
        if (GetTowerLvrbType(n1SMTow) == fCodeChNumberingLvrbBot) {
          eta = (Double_t)(i_crys_eta + max_crys_eta_in_tower) - d_echa_eta;
        }
      }
    }
    if (GetSMHalfBarrel(n1EBSM) == "EB-") {
      eta = -eta;
    }
  } else {
    std::cout << "TEcnaNumbering::GetEta(...)> SM = " << n1EBSM << ". Out of range (range = [1," << fEcal->MaxSMInEB()
              << "])" << fTTBELL << std::endl;
  }
  return eta;
}

References gather_cfg::cout, PVValHelper::eta, fCodeChNumberingLvrbBot, fCodeChNumberingLvrbTop, fEcal, fTTBELL, GetSMHalfBarrel(), GetTowerLvrbType(), TEcnaParEcal::MaxCrysEtaInTow(), TEcnaParEcal::MaxSMInEB(), and TEcnaParEcal::MaxTowEtaInSM().

Referenced by TEcnaHistos::TowerCrystalNumbering(), TEcnaHistos::ViewSMTowerNumberingPad(), and TEcnaWrite::WriteAsciiHisto().

GetEtaMax()

Double_t TEcnaNumbering::GetEtaMax	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 709 of file TEcnaNumbering.cc.

                                                                            {
  //Gives EtaMax for a given Tower
 
  Int_t max_tow_eta_in_sm = fEcal->MaxTowEtaInSM();
  Int_t max_crys_eta_in_tower = fEcal->MaxCrysEtaInTow();
 
  Double_t eta_max = (max_crys_eta_in_tower - 1);
 
  for (Int_t i_sm_tow_eta = 0; i_sm_tow_eta < max_tow_eta_in_sm; i_sm_tow_eta++) {
    Int_t i_crys_eta_min = (Int_t)(1 + i_sm_tow_eta * (max_crys_eta_in_tower - 1));
    Int_t i_crys_eta_max = (Int_t)((i_sm_tow_eta + 1) * (max_crys_eta_in_tower - 1));
    Int_t i_crys_eta = (Int_t)(i_sm_tow_eta * max_crys_eta_in_tower);
 
    if (n1SMTow >= i_crys_eta_min && n1SMTow <= i_crys_eta_max) {
      if (GetSMHalfBarrel(n1EBSM) == "EB+") {
        eta_max = (Double_t)(i_crys_eta + max_crys_eta_in_tower);
      }
      if (GetSMHalfBarrel(n1EBSM) == "EB-") {
        eta_max = -(Double_t)i_crys_eta;
      }
    }
  }
 
  return eta_max;
}

References egammaIdentification::eta_max, fEcal, GetSMHalfBarrel(), TEcnaParEcal::MaxCrysEtaInTow(), and TEcnaParEcal::MaxTowEtaInSM().

Referenced by GetIEtaMax().

GetEtaMin()

Double_t TEcnaNumbering::GetEtaMin	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 684 of file TEcnaNumbering.cc.

                                                                            {
  //Gives EtaMin for a given Tower
 
  Int_t max_tow_eta_in_sm = fEcal->MaxTowEtaInSM();
  Int_t max_crys_eta_in_tower = fEcal->MaxCrysEtaInTow();
 
  Double_t eta_min = (Double_t)0.;
 
  for (Int_t i_sm_tow_eta = 0; i_sm_tow_eta < max_tow_eta_in_sm; i_sm_tow_eta++) {
    Int_t i_crys_eta_min = (Int_t)(1 + i_sm_tow_eta * (max_crys_eta_in_tower - 1));
    Int_t i_crys_eta_max = (Int_t)((i_sm_tow_eta + 1) * (max_crys_eta_in_tower - 1));
    Int_t i_crys_eta = (Int_t)(i_sm_tow_eta * max_crys_eta_in_tower);
 
    if (n1SMTow >= i_crys_eta_min && n1SMTow <= i_crys_eta_max) {
      if (GetSMHalfBarrel(n1EBSM) == "EB+") {
        eta_min = (Double_t)i_crys_eta;
      }
      if (GetSMHalfBarrel(n1EBSM) == "EB-") {
        eta_min = -(Double_t)(i_crys_eta + max_crys_eta_in_tower);
      }
    }
  }
  return eta_min;
}

References egammaIdentification::eta_min, fEcal, GetSMHalfBarrel(), TEcnaParEcal::MaxCrysEtaInTow(), and TEcnaParEcal::MaxTowEtaInSM().

Referenced by GetIEtaMin().

GetHashedNumberFromIEtaAndIPhi()

Int_t TEcnaNumbering::GetHashedNumberFromIEtaAndIPhi	(	const Int_t &	IEta,
		const Int_t &	IPhi
	)

Definition at line 582 of file TEcnaNumbering.cc.

                                                                                         {
  Int_t Hashed = 0;
 
  if (IEta > 0) {
    Hashed = (85 + IEta - 1) * 360 + IPhi - 1;
  }
  if (IEta < 0) {
    Hashed = (85 + IEta) * 360 + IPhi - 1;
  }
 
  return Hashed;
}

Referenced by TEcnaHistos::TowerCrystalNumbering().

GetIEtaFromHashed()

Int_t TEcnaNumbering::GetIEtaFromHashed	(	const Int_t &	Hashed,
		const Int_t &	SMNumber
	)

Definition at line 595 of file TEcnaNumbering.cc.

                                                                                  {
  Int_t IEta = 0;
 
  if (GetSMHalfBarrel(SMNumber) == "EB+") {
    IEta = Hashed / 360 - 85 + 1;
  }
  if (GetSMHalfBarrel(SMNumber) == "EB-") {
    IEta = 85 + Hashed / 360;
  }
 
  return IEta;
}

References GetSMHalfBarrel().

GetIEtaMax() [1/2]

Double_t TEcnaNumbering::GetIEtaMax

(

const Int_t &

n1EBSM

)

Definition at line 783 of file TEcnaNumbering.cc.

                                                       {
  //Gives IEtaMax for a given (n1EBSM)
 
  Double_t i_eta_max = (Int_t)0.;
 
  Int_t n1SMTowPlus = (Int_t)fEcal->MaxTowInSM();
  Int_t n1SMTowMinus = (Int_t)1;
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    i_eta_max = (Double_t)GetIEtaMax(n1EBSM, n1SMTowPlus);
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    i_eta_max = (Double_t)GetIEtaMax(n1EBSM, n1SMTowMinus);
  }
 
  return i_eta_max;
}

References fEcal, GetIEtaMax(), GetSMHalfBarrel(), and TEcnaParEcal::MaxTowInSM().

GetIEtaMax() [2/2]

Double_t TEcnaNumbering::GetIEtaMax	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 750 of file TEcnaNumbering.cc.

                                                                             {
  //Gives IEtaMax for a given (n1EBSM, n1SMTow)
 
  Double_t i_eta_max = (Int_t)0.;
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    i_eta_max = (Double_t)GetEtaMax(n1EBSM, n1SMTow) + (Double_t)0.5;
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    i_eta_max = (Double_t)GetEtaMax(n1EBSM, n1SMTow) - (Double_t)0.5;
  }
 
  return i_eta_max;
}

References GetEtaMax(), and GetSMHalfBarrel().

Referenced by GetIEtaMax(), GetIHocoMax(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetIEtaMin() [1/2]

Double_t TEcnaNumbering::GetIEtaMin

(

const Int_t &

n1EBSM

)

Definition at line 765 of file TEcnaNumbering.cc.

                                                       {
  //Gives IEtaMin for a given (n1EBSM)
 
  Double_t i_eta_min = (Int_t)0.;
 
  Int_t n1SMTowPlus = (Int_t)1;
  Int_t n1SMTowMinus = (Int_t)fEcal->MaxTowInSM();
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    i_eta_min = (Double_t)GetIEtaMin(n1EBSM, n1SMTowPlus);
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    i_eta_min = (Double_t)GetIEtaMin(n1EBSM, n1SMTowMinus);
  }
 
  return i_eta_min;
}

References fEcal, GetIEtaMin(), GetSMHalfBarrel(), and TEcnaParEcal::MaxTowInSM().

GetIEtaMin() [2/2]

Double_t TEcnaNumbering::GetIEtaMin	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 735 of file TEcnaNumbering.cc.

                                                                             {
  //Gives IEtaMin for a given (n1EBSM, n1SMTow)
 
  Double_t i_eta_min = (Int_t)0.;
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    i_eta_min = (Double_t)GetEtaMin(n1EBSM, n1SMTow) + (Double_t)0.5;
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    i_eta_min = (Double_t)GetEtaMin(n1EBSM, n1SMTow) - (Double_t)0.5;
  }
 
  return i_eta_min;
}

References GetEtaMin(), and GetSMHalfBarrel().

Referenced by GetIEtaMin(), GetIHocoMin(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetIHocoMax()

Double_t TEcnaNumbering::GetIHocoMax	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3021 of file TEcnaNumbering.cc.

                                                                             {
  Double_t IHocoMax = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    IHocoMax = GetIEtaMax(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    IHocoMax = GetIIXMax(StexStin);
  }
  return IHocoMax;
}

References fFlagSubDet, GetIEtaMax(), and GetIIXMax().

GetIHocoMin()

Double_t TEcnaNumbering::GetIHocoMin	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3010 of file TEcnaNumbering.cc.

                                                                             {
  Double_t IHocoMin = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    IHocoMin = GetIEtaMin(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    IHocoMin = GetIIXMin(StexStin);
  }
  return IHocoMin;
}

References fFlagSubDet, GetIEtaMin(), and GetIIXMin().

GetIIXMax() [1/2]

Double_t TEcnaNumbering::GetIIXMax

(

)

Definition at line 2829 of file TEcnaNumbering.cc.

                                   {
  //Gives IIXMax for Dee , unit = Super-crystal
 
  Double_t i_IX_max = (Int_t)fEcal->MaxSCIXInDee();
  return i_IX_max;
}

References fEcal, and TEcnaParEcal::MaxSCIXInDee().

Referenced by GetIHocoMax().

GetIIXMax() [2/2]

Double_t TEcnaNumbering::GetIIXMax

(

const Int_t &

DeeSC

)

Definition at line 2815 of file TEcnaNumbering.cc.

                                                     {
  //Gives IIXMax for a given DeeSC , unit = crystal
 
  Double_t IX_max = ((Double_t)((DeeSC - 1) / fEcal->MaxSCIYInDee()) + 1.) * fEcal->MaxCrysIXInSC();
  return IX_max;
}

References fEcal, TEcnaParEcal::MaxCrysIXInSC(), and TEcnaParEcal::MaxSCIYInDee().

Referenced by TEcnaHistos::EEGridAxis(), and TEcnaHistos::ViewSCGrid().

GetIIXMin() [1/2]

Double_t TEcnaNumbering::GetIIXMin

(

)

Definition at line 2822 of file TEcnaNumbering.cc.

                                   {
  //Gives IIXMin for Dee , unit = Super-crystal
 
  Double_t i_IX_min = (Int_t)1.;
  return i_IX_min;
}

Referenced by GetIHocoMin().

GetIIXMin() [2/2]

Double_t TEcnaNumbering::GetIIXMin

(

const Int_t &

DeeSC

)

Definition at line 2808 of file TEcnaNumbering.cc.

                                                     {
  //Gives IIXMin for a given DeeSC , unit = crystal
 
  Double_t IX_min = (Double_t)((DeeSC - 1) / fEcal->MaxSCIYInDee()) * fEcal->MaxCrysIXInSC() + 1.;
  return IX_min;
}

References fEcal, TEcnaParEcal::MaxCrysIXInSC(), and TEcnaParEcal::MaxSCIYInDee().

Referenced by TEcnaHistos::EEGridAxis(), and TEcnaHistos::ViewSCGrid().

GetIPhiFromHashed()

Int_t TEcnaNumbering::GetIPhiFromHashed

(

const Int_t &

Hashed

)

Definition at line 608 of file TEcnaNumbering.cc.

                                                           {
  Int_t IPhi = Hashed % 360 + 1;
 
  return IPhi;
}

GetIXCrysInDee()

Int_t TEcnaNumbering::GetIXCrysInDee	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC,
		const Int_t &	i0SCEcha
	)

Definition at line 2750 of file TEcnaNumbering.cc.

                                                                                                        {
  //Gives Crys IX in Dee for a given (n1DeeNumber, DeeSC, i0SCEcha)
 
  Int_t IXCrysInDee = (GetIXSCInDee(DeeSC) - 1) * fEcal->MaxCrysIXInSC() + GetIXCrysInSC(n1DeeNumber, DeeSC, i0SCEcha);
  return IXCrysInDee;  // possible values: 1,2,...,49,50
}

References fEcal, GetIXCrysInSC(), GetIXSCInDee(), and TEcnaParEcal::MaxCrysIXInSC().

Referenced by TEcnaHistos::GetXCrysInStex(), and TEcnaWrite::WriteAsciiHisto().

GetIXCrysInSC()

Int_t TEcnaNumbering::GetIXCrysInSC	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC,
		const Int_t &	i0SCEcha
	)

Definition at line 2733 of file TEcnaNumbering.cc.

                                                                                                       {
  //Gives Crys IX in SC for a given (n1DeeNumber, DeeSC, i0SCEcha)
 
  TString SCQuadType = GetSCQuadFrom1DeeSCEcna(DeeSC);
  TString sDeeDir = GetDeeDirViewedFromIP(n1DeeNumber);
  Int_t type_index = GetSCQuadTypeIndex(SCQuadType, sDeeDir);
  Int_t IXCrysInSC = fT2d_ich_IX[type_index][i0SCEcha + 1] + 1;
  return IXCrysInSC;  // possible values: 1,2,3,4,5
}

References fT2d_ich_IX, GetDeeDirViewedFromIP(), GetSCQuadFrom1DeeSCEcna(), and GetSCQuadTypeIndex().

Referenced by GetIXCrysInDee(), and TEcnaHistos::GetXSampInStin().

GetIXSCInDee()

Int_t TEcnaNumbering::GetIXSCInDee

(

const Int_t &

DeeSC

)

Definition at line 2743 of file TEcnaNumbering.cc.

                                                     {
  //Gives SC IX in Dee for a given (DeeSC)
 
  Int_t IXSCInDee = (DeeSC - 1) / fEcal->MaxSCIYInDee() + 1;
  return IXSCInDee;  //  possible values: 1,2,...,9,10
}

References fEcal, and TEcnaParEcal::MaxSCIYInDee().

Referenced by GetIXCrysInDee().

GetJIYMax() [1/2]

Double_t TEcnaNumbering::GetJIYMax

(

const Int_t &

n1DeeNumber

)

Definition at line 2876 of file TEcnaNumbering.cc.

                                                           {
  //Gives JIYMax for a given Dee
 
  Double_t j_IY_max = (Double_t)fEcal->MaxSCIYInDee();
 
  return j_IY_max;
}

References fEcal, and TEcnaParEcal::MaxSCIYInDee().

GetJIYMax() [2/2]

Double_t TEcnaNumbering::GetJIYMax	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC
	)

Definition at line 2854 of file TEcnaNumbering.cc.

                                                                               {
  //Gives JIYMax for a given Super-Crystal
 
  Double_t IY_DeeSC = DeeSC % fEcal->MaxSCIYInDee();
  if (IY_DeeSC == 0) {
    IY_DeeSC = fEcal->MaxSCIYInDee();
  }
 
  Double_t j_IY_max = IY_DeeSC * fEcal->MaxCrysIYInSC();
 
  return j_IY_max;
}

References fEcal, TEcnaParEcal::MaxCrysIYInSC(), and TEcnaParEcal::MaxSCIYInDee().

Referenced by TEcnaHistos::EEGridAxis(), GetJVecoMax(), GetVecoMax(), and TEcnaHistos::ViewSCGrid().

GetJIYMin() [1/2]

Double_t TEcnaNumbering::GetJIYMin

(

const Int_t &

n1DeeNumber

)

Definition at line 2868 of file TEcnaNumbering.cc.

                                                           {
  //Gives JIYMin for a given Dee
 
  Double_t j_IY_min = (Double_t)1.;
 
  return j_IY_min;
}

GetJIYMin() [2/2]

Double_t TEcnaNumbering::GetJIYMin	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC
	)

Definition at line 2841 of file TEcnaNumbering.cc.

                                                                               {
  //Gives JIYMin for a given Super-Crystal
 
  Double_t IY_DeeSC = DeeSC % fEcal->MaxSCIYInDee();
  if (IY_DeeSC == 0.) {
    IY_DeeSC = fEcal->MaxSCIYInDee();
  }
 
  Double_t j_IY_min = (IY_DeeSC - 1) * fEcal->MaxCrysIYInSC() + 1.;
 
  return j_IY_min;
}

References fEcal, TEcnaParEcal::MaxCrysIYInSC(), and TEcnaParEcal::MaxSCIYInDee().

Referenced by TEcnaHistos::EEGridAxis(), GetJVecoMin(), GetVecoMin(), and TEcnaHistos::ViewSCGrid().

GetJPhiMax() [1/2]

Double_t TEcnaNumbering::GetJPhiMax

(

const Int_t &

n1EBSM

)

Definition at line 1066 of file TEcnaNumbering.cc.

                                                       {
  //Gives JPhiMax for a given SuperModule
 
  Double_t j_phi_max = (Double_t)20. + (Double_t)0.5;
 
  return j_phi_max;
}

GetJPhiMax() [2/2]

Double_t TEcnaNumbering::GetJPhiMax	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 1034 of file TEcnaNumbering.cc.

                                                                             {
  //Gives JPhiMax for a given Tower
 
  Double_t j_phi_max = (Double_t)20.;
  Int_t max_crys_phi_in_tower = fEcal->MaxCrysPhiInTow();
  Int_t rest_temp = (Int_t)(n1SMTow % (max_crys_phi_in_tower - 1));
 
  if (rest_temp == 1) {
    j_phi_max = (Double_t)5. + (Double_t)0.5;
  }
  if (rest_temp == 2) {
    j_phi_max = (Double_t)10. + (Double_t)0.5;
  }
  if (rest_temp == 3) {
    j_phi_max = (Double_t)15. + (Double_t)0.5;
  }
  if (rest_temp == 0) {
    j_phi_max = (Double_t)20. + (Double_t)0.5;
  }
 
  return j_phi_max;
}

References fEcal, and TEcnaParEcal::MaxCrysPhiInTow().

Referenced by GetJVecoMax(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetJPhiMin() [1/2]

Double_t TEcnaNumbering::GetJPhiMin

(

const Int_t &

n1EBSM

)

Definition at line 1058 of file TEcnaNumbering.cc.

                                                       {
  //Gives JPhiMin for a given SuperModule
 
  Double_t j_phi_min = (Double_t)1. - (Double_t)0.5;
 
  return j_phi_min;
}

GetJPhiMin() [2/2]

Double_t TEcnaNumbering::GetJPhiMin	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 1011 of file TEcnaNumbering.cc.

                                                                             {
  //Gives JPhiMin for a given Tower
 
  Double_t j_phi_min = (Double_t)1.;
  Int_t max_crys_phi_in_tower = fEcal->MaxCrysPhiInTow();
  Int_t rest_temp = (Int_t)(n1SMTow % (max_crys_phi_in_tower - 1));
 
  if (rest_temp == 1) {
    j_phi_min = (Double_t)1. - (Double_t)0.5;
  }
  if (rest_temp == 2) {
    j_phi_min = (Double_t)6. - (Double_t)0.5;
  }
  if (rest_temp == 3) {
    j_phi_min = (Double_t)11. - (Double_t)0.5;
  }
  if (rest_temp == 0) {
    j_phi_min = (Double_t)16. - (Double_t)0.5;
  }
 
  return j_phi_min;
}

References fEcal, and TEcnaParEcal::MaxCrysPhiInTow().

Referenced by GetJVecoMin(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetJVecoMax()

Double_t TEcnaNumbering::GetJVecoMax	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3064 of file TEcnaNumbering.cc.

                                                                             {
  Double_t JVecoMax = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    JVecoMax = GetJPhiMax(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    JVecoMax = GetJIYMax(Stex, StexStin);
  }  // not used
  return JVecoMax;
}

References fFlagSubDet, GetJIYMax(), and GetJPhiMax().

GetJVecoMin()

Double_t TEcnaNumbering::GetJVecoMin	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3054 of file TEcnaNumbering.cc.

                                                                             {
  Double_t JVecoMin = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    JVecoMin = GetJPhiMin(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    JVecoMin = GetJIYMin(Stex, StexStin);
  }  // not used
  return JVecoMin;
}

References fFlagSubDet, GetJIYMin(), and GetJPhiMin().

GetJYCrysInDee()

Int_t TEcnaNumbering::GetJYCrysInDee	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC,
		const Int_t &	i0SCEcha
	)

Definition at line 2774 of file TEcnaNumbering.cc.

                                                                                                        {
  //Gives Crys JY in Dee for a given (n1DeeNumber, DeeSC, i0SCEcha)
 
  Int_t JYCrysInDee = (GetJYSCInDee(DeeSC) - 1) * fEcal->MaxCrysIYInSC() + GetJYCrysInSC(n1DeeNumber, DeeSC, i0SCEcha);
  return JYCrysInDee;  // possible values: 1,2,...,99,100
}

References fEcal, GetJYCrysInSC(), GetJYSCInDee(), and TEcnaParEcal::MaxCrysIYInSC().

Referenced by TEcnaHistos::GetYCrysInStex(), and TEcnaWrite::WriteAsciiHisto().

GetJYCrysInSC()

Int_t TEcnaNumbering::GetJYCrysInSC	(	const Int_t &	n1DeeNumber,
		const Int_t &	DeeSC,
		const Int_t &	i0SCEcha
	)

Definition at line 2757 of file TEcnaNumbering.cc.

                                                                                                       {
  //Gives Crys JY in SC  for a given (n1DeeNumber, DeeSC, i0SCEcha)
 
  TString SCQuadType = GetSCQuadFrom1DeeSCEcna(DeeSC);
  TString sDeeDir = GetDeeDirViewedFromIP(n1DeeNumber);
  Int_t type_index = GetSCQuadTypeIndex(SCQuadType, sDeeDir);
  Int_t JYCrysInSC = fT2d_jch_JY[type_index][i0SCEcha + 1] + 1;
  return JYCrysInSC;  // possible values: 1,2,3,4,5
}

References fT2d_jch_JY, GetDeeDirViewedFromIP(), GetSCQuadFrom1DeeSCEcna(), and GetSCQuadTypeIndex().

Referenced by GetJYCrysInDee(), and TEcnaHistos::GetYSampInStin().

GetJYDirectionEB()

TString TEcnaNumbering::GetJYDirectionEB

(

const Int_t &

SMNumber

)

Definition at line 1108 of file TEcnaNumbering.cc.

                                                              {
  TString jydirection = "-x";  // DEFAULT
 
  if (GetSMHalfBarrel(SMNumber) == "EB+") {
    jydirection = "x";
  }
  if (GetSMHalfBarrel(SMNumber) == "EB-") {
    jydirection = "-x";
  }
 
  return jydirection;
}

References GetSMHalfBarrel().

Referenced by TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetJYDirectionEE()

TString TEcnaNumbering::GetJYDirectionEE

(

const Int_t &

n1DeeNumber

)

Definition at line 2936 of file TEcnaNumbering.cc.

                                                                 {
  TString jydirection = "x";  // ALWAYS IN THIS CASE
  return jydirection;
}

Referenced by TEcnaHistos::ViewSCGrid().

GetJYSCInDee()

Int_t TEcnaNumbering::GetJYSCInDee

(

const Int_t &

DeeSC

)

Definition at line 2767 of file TEcnaNumbering.cc.

                                                     {
  //Gives SC JY in Dee for a given (n1DeeNumber, DeeSC, i0SCEcha)
 
  Int_t JYSCInDee = (DeeSC - 1) % fEcal->MaxSCIYInDee() + 1;
  return JYSCInDee;  //  possible values: 1,2,...,19,20
}

References fEcal, and TEcnaParEcal::MaxSCIYInDee().

Referenced by GetJYCrysInDee().

GetMaxSCInDS()

Int_t TEcnaNumbering::GetMaxSCInDS

(

const Int_t &

DeeDS

)

Definition at line 2781 of file TEcnaNumbering.cc.

                                                     {
  // Gives the number of SC's in Data Sector DeeDS
 
  Int_t nb_of_sc = -1;
  if (DeeDS == 1 || DeeDS == 9) {
    nb_of_sc = 33;
  }
  if (DeeDS == 2 || DeeDS == 8) {
    nb_of_sc = 32;
  }
  if (DeeDS == 3 || DeeDS == 7) {
    nb_of_sc = 34;
  }
  if (DeeDS == 4 || DeeDS == 6) {
    nb_of_sc = 33;
  }
  if (DeeDS == 5) {
    nb_of_sc = 34;
  }
  return nb_of_sc;
}

Referenced by TEcnaHistos::GetDSOffset(), TEcnaHistos::HistoPlot(), and TEcnaHistos::ViewHisto().

GetPhi()

Double_t TEcnaNumbering::GetPhi	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow,
		const Int_t &	i0TowEcha
	)

Definition at line 893 of file TEcnaNumbering.cc.

                                                                                                 {
  //Gives Phi for a given (n1EBSM, n1SMTow, i0TowEcha)
 
  Double_t phi = (Double_t)0.;
 
  if (n1EBSM >= 1 && n1EBSM <= fEcal->MaxSMInEB()) {
    Double_t phiInSM = GetPhiInSM(n1EBSM, n1SMTow, i0TowEcha);
    Double_t phi_start = GetSMCentralPhi(n1EBSM);
 
    phi = 20 - phiInSM + phi_start - (Double_t)10.;
  } else {
    std::cout << "TEcnaNumbering::GetPhi(...)> SM = " << n1EBSM << ". Out of range (range = [1," << fEcal->MaxSMInEB()
              << "])" << fTTBELL << std::endl;
  }
  return phi;
}

References gather_cfg::cout, fEcal, fTTBELL, GetPhiInSM(), GetSMCentralPhi(), TEcnaParEcal::MaxSMInEB(), and phi.

Referenced by TEcnaHistos::TowerCrystalNumbering(), and TEcnaHistos::ViewSMTowerNumberingPad().

GetPhiInSM()

Double_t TEcnaNumbering::GetPhiInSM	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow,
		const Int_t &	i0TowEcha
	)

Definition at line 822 of file TEcnaNumbering.cc.

                                                                                                     {
  //Gives Phi for a given (n1EBSM, n1SMTow, i0TowEcha)
 
  Double_t phi_in_SM = (Double_t)0.;
 
  Int_t rest_temp = (Int_t)(n1SMTow % (fEcal->MaxCrysPhiInTow() - 1));  // "Phi" of the tower = 1,2,3,0
 
  if (n1EBSM >= 1 && n1EBSM <= fEcal->MaxSMInEB()) {
    if (rest_temp == 1) {
      phi_in_SM = (Double_t)15.;
    }
    if (rest_temp == 2) {
      phi_in_SM = (Double_t)10.;
    }
    if (rest_temp == 3) {
      phi_in_SM = (Double_t)5.;
    }
    if (rest_temp == 0) {
      phi_in_SM = (Double_t)0.;
    }
 
    if (GetTowerLvrbType(n1SMTow) == fCodeChNumberingLvrbTop) {
      if (i0TowEcha == 4 || i0TowEcha == 5 || i0TowEcha == 14 || i0TowEcha == 15 || i0TowEcha == 24) {
        phi_in_SM = phi_in_SM + 0;
      }
 
      if (i0TowEcha == 3 || i0TowEcha == 6 || i0TowEcha == 13 || i0TowEcha == 16 || i0TowEcha == 23) {
        phi_in_SM = phi_in_SM + 1;
      }
 
      if (i0TowEcha == 2 || i0TowEcha == 7 || i0TowEcha == 12 || i0TowEcha == 17 || i0TowEcha == 22) {
        phi_in_SM = phi_in_SM + 2;
      }
 
      if (i0TowEcha == 1 || i0TowEcha == 8 || i0TowEcha == 11 || i0TowEcha == 18 || i0TowEcha == 21) {
        phi_in_SM = phi_in_SM + 3;
      }
 
      if (i0TowEcha == 0 || i0TowEcha == 9 || i0TowEcha == 10 || i0TowEcha == 19 || i0TowEcha == 20) {
        phi_in_SM = phi_in_SM + 4;
      }
    }
    if (GetTowerLvrbType(n1SMTow) == fCodeChNumberingLvrbBot) {
      if (i0TowEcha == 20 || i0TowEcha == 19 || i0TowEcha == 10 || i0TowEcha == 9 || i0TowEcha == 0) {
        phi_in_SM = phi_in_SM + 0;
      }
 
      if (i0TowEcha == 21 || i0TowEcha == 18 || i0TowEcha == 11 || i0TowEcha == 8 || i0TowEcha == 1) {
        phi_in_SM = phi_in_SM + 1;
      }
 
      if (i0TowEcha == 22 || i0TowEcha == 17 || i0TowEcha == 12 || i0TowEcha == 7 || i0TowEcha == 2) {
        phi_in_SM = phi_in_SM + 2;
      }
 
      if (i0TowEcha == 23 || i0TowEcha == 16 || i0TowEcha == 13 || i0TowEcha == 6 || i0TowEcha == 3) {
        phi_in_SM = phi_in_SM + 3;
      }
 
      if (i0TowEcha == 24 || i0TowEcha == 15 || i0TowEcha == 14 || i0TowEcha == 5 || i0TowEcha == 4) {
        phi_in_SM = phi_in_SM + 4;
      }
    }
  } else {
    std::cout << "TEcnaNumbering::GetPhiInSM(...)> SM = " << n1EBSM << ". Out of range (range = [1,"
              << fEcal->MaxSMInEB() << "])" << fTTBELL << std::endl;
  }
  phi_in_SM = 20 - phi_in_SM;
  return phi_in_SM;
}

References gather_cfg::cout, fCodeChNumberingLvrbBot, fCodeChNumberingLvrbTop, fEcal, fTTBELL, GetTowerLvrbType(), TEcnaParEcal::MaxCrysPhiInTow(), and TEcnaParEcal::MaxSMInEB().

Referenced by GetPhi(), and TEcnaWrite::WriteAsciiHisto().

GetPhiMax() [1/2]

Double_t TEcnaNumbering::GetPhiMax

(

const Int_t &

n1EBSM

)

Definition at line 1003 of file TEcnaNumbering.cc.

                                                      {
  //Gives PhiMax for a given SuperModule
 
  Double_t phi_max = GetSMCentralPhi(n1EBSM) + (Double_t)10.;
 
  return phi_max;
}

References GetSMCentralPhi().

GetPhiMax() [2/2]

Double_t TEcnaNumbering::GetPhiMax	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 952 of file TEcnaNumbering.cc.

                                                                            {
  //Gives PhiMax for a given Tower
 
  Int_t max_crys_phi_in_tower = fEcal->MaxCrysPhiInTow();
 
  Double_t phi_max = (Double_t)20.;  // DEFAULT
  Double_t phi_start = GetSMCentralPhi(n1EBSM);
 
  Int_t rest_temp = (Int_t)(n1SMTow % (max_crys_phi_in_tower - 1));
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    if (rest_temp == 1) {
      phi_max = phi_start + (Double_t)10.;
    }
    if (rest_temp == 2) {
      phi_max = phi_start + (Double_t)5.;
    }
    if (rest_temp == 3) {
      phi_max = phi_start - (Double_t)0.;
    }
    if (rest_temp == 0) {
      phi_max = phi_start - (Double_t)5.;
    }
  }
 
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    if (rest_temp == 0) {
      phi_max = phi_start + (Double_t)10.;
    }
    if (rest_temp == 3) {
      phi_max = phi_start + (Double_t)5.;
    }
    if (rest_temp == 2) {
      phi_max = phi_start - (Double_t)0.;
    }
    if (rest_temp == 1) {
      phi_max = phi_start - (Double_t)5.;
    }
  }
 
  return phi_max;
}

References fEcal, GetSMCentralPhi(), GetSMHalfBarrel(), and TEcnaParEcal::MaxCrysPhiInTow().

Referenced by GetVecoMax(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetPhiMin() [1/2]

Double_t TEcnaNumbering::GetPhiMin

(

const Int_t &

n1EBSM

)

Definition at line 995 of file TEcnaNumbering.cc.

                                                      {
  //Gives PhiMin for a given SuperModule
 
  Double_t phi_min = GetSMCentralPhi(n1EBSM) - (Double_t)10.;
 
  return phi_min;
}

References GetSMCentralPhi().

GetPhiMin() [2/2]

Double_t TEcnaNumbering::GetPhiMin	(	const Int_t &	n1EBSM,
		const Int_t &	n1SMTow
	)

Definition at line 911 of file TEcnaNumbering.cc.

                                                                            {
  //Gives PhiMin for a given Tower
 
  Int_t max_crys_phi_in_tower = fEcal->MaxCrysPhiInTow();
 
  Double_t phi_min = (Double_t)0.;  // DEFAULT
  Double_t phi_start = GetSMCentralPhi(n1EBSM);
 
  Int_t rest_temp = (Int_t)(n1SMTow % (max_crys_phi_in_tower - 1));
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    if (rest_temp == 1) {
      phi_min = phi_start + (Double_t)5.;
    }
    if (rest_temp == 2) {
      phi_min = phi_start + (Double_t)0.;
    }
    if (rest_temp == 3) {
      phi_min = phi_start - (Double_t)5.;
    }
    if (rest_temp == 0) {
      phi_min = phi_start - (Double_t)10.;
    }
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    if (rest_temp == 0) {
      phi_min = phi_start + (Double_t)5.;
    }
    if (rest_temp == 3) {
      phi_min = phi_start + (Double_t)0.;
    }
    if (rest_temp == 2) {
      phi_min = phi_start - (Double_t)5.;
    }
    if (rest_temp == 1) {
      phi_min = phi_start - (Double_t)10.;
    }
  }
  return phi_min;
}

References fEcal, GetSMCentralPhi(), GetSMHalfBarrel(), and TEcnaParEcal::MaxCrysPhiInTow().

Referenced by GetVecoMin(), TEcnaHistos::ViewSMGrid(), TEcnaHistos::ViewSMTowerNumberingPad(), and TEcnaHistos::ViewTowerGrid().

GetSCQuadFrom1DeeSCEcna()

TString TEcnaNumbering::GetSCQuadFrom1DeeSCEcna

(

const Int_t &

n1DeeSCEcna

)

Definition at line 2606 of file TEcnaNumbering.cc.

                                                                        {
  //gives the quadrant type ("top" or "bottom") from the SC number in Dee
 
  TString SCQuad = "top";  // => default value
 
  if (n1DeeSCEcna >= 1 && n1DeeSCEcna <= 10) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 21 && n1DeeSCEcna <= 30) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 41 && n1DeeSCEcna <= 50) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 61 && n1DeeSCEcna <= 70) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 81 && n1DeeSCEcna <= 90) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 101 && n1DeeSCEcna <= 110) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 121 && n1DeeSCEcna <= 130) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 141 && n1DeeSCEcna <= 150) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 161 && n1DeeSCEcna <= 170) {
    SCQuad = "bottom";
  }
  if (n1DeeSCEcna >= 181 && n1DeeSCEcna <= 190) {
    SCQuad = "bottom";
  }
 
  return SCQuad;
}

Referenced by GetIXCrysInSC(), GetJYCrysInSC(), TEcnaHistos::ModifiedSCEchaForNotConnectedSCs(), TEcnaHistos::SCCrystalNumbering(), TEcnaParHistos::SetPaveSC(), TEcnaHistos::ViewDeeSCNumberingPad(), and TEcnaHistos::ViewMatrix().

GetSCQuadTypeIndex()

Int_t TEcnaNumbering::GetSCQuadTypeIndex	(	const TString &	SCQuadType,
		const TString &	sDeeDir
	)

Definition at line 2644 of file TEcnaNumbering.cc.

                                                                                          {
  //gives the index of the SC quadrant type (top/right, top/left, bottom/left, bottom/right)
  // = quadrant number - 1
 
  Int_t itype = 0;  // => default
  if (SCQuadType == "top" && sDeeDir == "right") {
    itype = 0;
  }
  if (SCQuadType == "top" && sDeeDir == "left") {
    itype = 1;
  }
  if (SCQuadType == "bottom" && sDeeDir == "left") {
    itype = 2;
  }
  if (SCQuadType == "bottom" && sDeeDir == "right") {
    itype = 3;
  }
  return itype;
}

Referenced by GetIXCrysInSC(), and GetJYCrysInSC().

GetSCType()

TString TEcnaNumbering::GetSCType

(

const Int_t &

nb_for_cons

)

Definition at line 2547 of file TEcnaNumbering.cc.

                                                          {
  // gives the special not connected SC's
 
  TString SCType = "Connected";  // => default type
 
  if (nb_for_cons == 182 || nb_for_cons == 33) {
    SCType = "NotConnected";
  }  // (D1,S1) (D3,S9) || (D2,S9) (D4,S1)
 
  if (nb_for_cons == 178 || nb_for_cons == 29) {
    SCType = "NotConnected";
  }  // (D1,S2) (D3,S8) || (D2,S8) (D4,S2)
  if (nb_for_cons == 207 || nb_for_cons == 58) {
    SCType = "NotConnected";
  }
 
  if (nb_for_cons == 298 || nb_for_cons == 149) {
    SCType = "NotConnected";
  }  // (D1,S3) (D3,S7) || (D2,S7) (D4,S3)
 
  if (nb_for_cons == 261 || nb_for_cons == 112) {
    SCType = "NotConnected";
  }  // (D1,S4) (D3,S6) || (D2,S6) (D4,S4)
  if (nb_for_cons == 268 || nb_for_cons == 119) {
    SCType = "NotConnected";
  }
 
  if (nb_for_cons == 281 || nb_for_cons == 132) {
    SCType = "NotConnected";
  }  // (D1,S5) (D3,S5) || (D2,S5) (D4,S5)
 
  if (nb_for_cons == 161 || nb_for_cons == 12) {
    SCType = "NotComplete";
  }  // (D1,S1) (D3,S9) || (D2,S9) (D4,S1)
  if (nb_for_cons == 216 || nb_for_cons == 67) {
    SCType = "NotComplete";
  }  // (D1,S2) (D3,S8) || (D2,S8) (D4,S2)
  if (nb_for_cons == 224 || nb_for_cons == 75) {
    SCType = "NotComplete";
  }  // (D1,S3) (D3,S7) || (D2,S7) (D4,S3)
  if (nb_for_cons == 286 || nb_for_cons == 137) {
    SCType = "NotComplete";
  }  // (D1,S5) (D3,S5) || (D2,S5) (D4,S5)
 
  return SCType;
}

Referenced by TEcnaHistos::ViewHisto().

GetSMCentralPhi()

Double_t TEcnaNumbering::GetSMCentralPhi

(

const Int_t &

n1EBSM

)

Definition at line 807 of file TEcnaNumbering.cc.

                                                            {
  //Gives the central phi value of the SuperModule
 
  Double_t central_phi = (Double_t)10.;  //  DEFAULT = SM1
 
  if (GetSMHalfBarrel(n1EBSM) == "EB+") {
    central_phi = 10. + (Double_t)20. * (n1EBSM - 1);
  }
  if (GetSMHalfBarrel(n1EBSM) == "EB-") {
    central_phi = 10. + (Double_t)20. * (n1EBSM - 19);
  }
 
  return central_phi;
}

References GetSMHalfBarrel().

Referenced by GetPhi(), GetPhiMax(), and GetPhiMin().

GetSMFromFED()

Int_t TEcnaNumbering::GetSMFromFED

(

const Int_t &

FEDNumber

)

Definition at line 3096 of file TEcnaNumbering.cc.

                                                         {
  Int_t EBSMNumber = 0;  // SM = Super Module
  if (FEDNumber >= 610 && FEDNumber <= 645) {
    EBSMNumber = FEDNumber - 609;
  }
  return EBSMNumber;
}

GetSMHalfBarrel()

TString TEcnaNumbering::GetSMHalfBarrel

(

const Int_t &

SMNumber

)

Definition at line 1122 of file TEcnaNumbering.cc.

                                                             {
  //gives the half-barrel of the SM ("EB+" or "EB-")
 
  TString type = "EB-";  // => default value
 
  if (SMNumber >= 1 && SMNumber <= fEcal->MaxSMInEBPlus()) {
    type = "EB+";
  }
  if (SMNumber > fEcal->MaxSMInEBPlus() && SMNumber <= fEcal->MaxSMInEB()) {
    type = "EB-";
  }
 
  return type;
}

References fEcal, TEcnaParEcal::MaxSMInEB(), and TEcnaParEcal::MaxSMInEBPlus().

Referenced by GetEta(), GetEtaMax(), GetEtaMin(), GetIEtaFromHashed(), GetIEtaMax(), GetIEtaMin(), GetJYDirectionEB(), GetPhiMax(), GetPhiMin(), GetSMCentralPhi(), GetStexHalfStas(), GetXDirectionEB(), GetYDirectionEB(), TEcnaHistos::SetEcalSubDetector(), TEcnaParHistos::SetPaveLVRB(), TEcnaParHistos::SetPaveStex(), TEcnaHistos::SMTowerNumbering(), TEcnaHistos::TowerCrystalNumbering(), TEcnaHistos::ViewMatrix(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewSMTowerNumberingPad().

GetStexHalfStas()

TString TEcnaNumbering::GetStexHalfStas

(

const Int_t &

SMNumber

)

Definition at line 3079 of file TEcnaNumbering.cc.

                                                             {
  TString half_stas = "EB? EE?";
 
  if (fFlagSubDet == "EB") {
    half_stas = GetSMHalfBarrel(SMNumber);
  }
  if (fFlagSubDet == "EE") {
    half_stas = GetDeeHalfEndcap(SMNumber);
  }
 
  return half_stas;
}

References fFlagSubDet, GetDeeHalfEndcap(), and GetSMHalfBarrel().

Referenced by TEcnaHistos::GetXCrysInStex(), TEcnaHistos::GetXSampInStin(), TEcnaHistos::GetXStinInStas(), TEcnaHistos::GetYCrysInStex(), TEcnaHistos::GetYSampInStin(), TEcnaHistos::GetYStinInStas(), and TEcnaHistos::StexHocoVecoLHFCorcc().

GetStinLvrbType()

TString TEcnaNumbering::GetStinLvrbType

(

const Int_t &

n1SMTow

)

Definition at line 618 of file TEcnaNumbering.cc.

                                                            {
  TString lvrb_type = GetTowerLvrbType(n1SMTow);
  return lvrb_type;
}

References GetTowerLvrbType().

Referenced by TEcnaHistos::GetXSampInStin(), and TEcnaHistos::GetYSampInStin().

GetTowerLvrbType()

TString TEcnaNumbering::GetTowerLvrbType

(

const Int_t &

n1SMTow

)

Definition at line 622 of file TEcnaNumbering.cc.

                                                             {
  //gives the LVRB type of the crystal numbering of tower
 
  TString type = fCodeChNumberingLvrbTop;  // => default value
 
  if (n1SMTow >= 1 && n1SMTow <= 12) {
    type = fCodeChNumberingLvrbBot;
  }
  if (n1SMTow >= 21 && n1SMTow <= 28) {
    type = fCodeChNumberingLvrbBot;
  }
  if (n1SMTow >= 37 && n1SMTow <= 44) {
    type = fCodeChNumberingLvrbBot;
  }
  if (n1SMTow >= 53 && n1SMTow <= 60) {
    type = fCodeChNumberingLvrbBot;
  }
 
  return type;
}

References fCodeChNumberingLvrbBot, and fCodeChNumberingLvrbTop.

Referenced by GetEta(), GetPhiInSM(), GetStinLvrbType(), TEcnaParHistos::SetPaveLVRB(), TEcnaHistos::TowerCrystalNumbering(), and TEcnaHistos::ViewSMTowerNumberingPad().

GetVecoMax()

Double_t TEcnaNumbering::GetVecoMax	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3043 of file TEcnaNumbering.cc.

                                                                            {
  Double_t IVecoMax = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    IVecoMax = GetPhiMax(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    IVecoMax = GetJIYMax(Stex, StexStin);
  }
  return IVecoMax;
}

References fFlagSubDet, GetJIYMax(), and GetPhiMax().

GetVecoMin()

Double_t TEcnaNumbering::GetVecoMin	(	const Int_t &	Stex,
		const Int_t &	StexStin
	)

Definition at line 3032 of file TEcnaNumbering.cc.

                                                                            {
  Double_t IVecoMin = (Double_t)0.;
  if (fFlagSubDet == "EB") {
    IVecoMin = GetPhiMin(Stex, StexStin);
  }
  if (fFlagSubDet == "EE") {
    IVecoMin = GetJIYMin(Stex, StexStin);
  }
  return IVecoMin;
}

References fFlagSubDet, GetJIYMin(), and GetPhiMin().

GetXDirectionEB()

TString TEcnaNumbering::GetXDirectionEB

(

const Int_t &

SMNumber

)

Definition at line 1081 of file TEcnaNumbering.cc.

                                                             {
  TString xdirection = "x";  // DEFAULT
 
  if (GetSMHalfBarrel(SMNumber) == "EB+") {
    xdirection = "x";
  }
  if (GetSMHalfBarrel(SMNumber) == "EB-") {
    xdirection = "x";
  }
 
  return xdirection;
}

References GetSMHalfBarrel().

Referenced by TEcnaHistos::ViewEBGrid(), TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetXDirectionEE()

TString TEcnaNumbering::GetXDirectionEE

(

const Int_t &

n1DeeNumber

)

Definition at line 2903 of file TEcnaNumbering.cc.

                                                                {
  TString xdirection = "x";  // DEFAULT
 
  if (GetEEDeeType(n1DeeNumber) == "EE+F") {
    xdirection = "-x";
  }  //  Dee 1
  if (GetEEDeeType(n1DeeNumber) == "EE+N") {
    xdirection = "-x";
  }  //  Dee 2
  if (GetEEDeeType(n1DeeNumber) == "EE-N") {
    xdirection = "x";
  }  //  Dee 3
  if (GetEEDeeType(n1DeeNumber) == "EE-F") {
    xdirection = "x";
  }  //  Dee 4
 
  return xdirection;
}

References GetEEDeeType().

Referenced by TEcnaHistos::ViewSCGrid().

GetYDirectionEB()

TString TEcnaNumbering::GetYDirectionEB

(

const Int_t &

SMNumber

)

Definition at line 1094 of file TEcnaNumbering.cc.

                                                             {
  TString ydirection = "-x";  // DEFAULT
 
  if (GetSMHalfBarrel(SMNumber) == "EB+") {
    ydirection = "-x";
  }
  if (GetSMHalfBarrel(SMNumber) == "EB-") {
    ydirection = "-x";
  }
 
  return ydirection;
}

References GetSMHalfBarrel().

Referenced by TEcnaHistos::ViewSMGrid(), and TEcnaHistos::ViewTowerGrid().

GetYDirectionEE()

TString TEcnaNumbering::GetYDirectionEE

(

const Int_t &

n1DeeNumber

)

Definition at line 2922 of file TEcnaNumbering.cc.

                                                                {
  TString ydirection = "-x";  // DEFAULT
 
  if (GetEEDeeType(n1DeeNumber) == "endcap+") {
    ydirection = "-x";
  }
  if (GetEEDeeType(n1DeeNumber) == "endcap-") {
    ydirection = "-x";
  }
 
  return ydirection;
}

References GetEEDeeType().

Init()

void TEcnaNumbering::Init ( void  )

protected

Definition at line 177 of file TEcnaNumbering.cc.

                          {
  //Set default values and build crystal numbering table
 
  //.............................. Initialisations
  fTTBELL = '\007';
  fgMaxCar = (Int_t)512;
 
  //....................... Barrel
  fT2dSMCrys = nullptr;
  fT1dSMCrys = nullptr;
  fT1dSMTow = nullptr;
  fT1dTowEcha = nullptr;
 
  fCodeChNumberingLvrbBot = "bottom";
  fCodeChNumberingLvrbTop = "top";
 
  //....................... Endcap
  fT3dDeeCrys = nullptr;
  fT2dDeeCrys = nullptr;
  fT1dDeeCrys = nullptr;
  fT2dDeeSC = nullptr;
  fT1dDeeSC = nullptr;
  fT2dSCEcha = nullptr;
  fT1dSCEcha = nullptr;
  fT2d_jch_JY = nullptr;
  fT1d_jch_JY = nullptr;
  fT2d_ich_IX = nullptr;
  fT1d_ich_IX = nullptr;
  fT2d_DS = nullptr;
  fT1d_DS = nullptr;
  fT2d_DSSC = nullptr;
  fT1d_DSSC = nullptr;
  fT2d_DeeSCCons = nullptr;
  fT1d_DeeSCCons = nullptr;
  fT2d_RecovDeeSC = nullptr;
  fT1d_RecovDeeSC = nullptr;
 
  fCodeChNumberingITP1Bot = "bottom";  // ==> Type 1 Interface plate  IPT1 (a faire)
  fCodeChNumberingITP2Top = "top";     // ==> Type 2 Interface plate  IPT2 (a faire)
 
  //------------------ Init pointers on the CNA objects
  fEcal = nullptr;
}

References fCodeChNumberingITP1Bot, fCodeChNumberingITP2Top, fCodeChNumberingLvrbBot, fCodeChNumberingLvrbTop, fEcal, fgMaxCar, fT1d_DeeSCCons, fT1d_DS, fT1d_DSSC, fT1d_ich_IX, fT1d_jch_JY, fT1d_RecovDeeSC, fT1dDeeCrys, fT1dDeeSC, fT1dSCEcha, fT1dSMCrys, fT1dSMTow, fT1dTowEcha, fT2d_DeeSCCons, fT2d_DS, fT2d_DSSC, fT2d_ich_IX, fT2d_jch_JY, fT2d_RecovDeeSC, fT2dDeeCrys, fT2dDeeSC, fT2dSCEcha, fT2dSMCrys, fT3dDeeCrys, and fTTBELL.

Referenced by TEcnaNumbering().

MaxCrysInStinEcna()

Int_t TEcnaNumbering::MaxCrysInStinEcna	(	const Int_t &	n1DeeNumber,
		const Int_t &	n1DeeSCEcna,
		const TString &	s_option
	)

Definition at line 3118 of file TEcnaNumbering.cc.

                                                                                                                   {
  // Number of Xtals in "Ecna SC" for not complete and not connected SC's.
  // Also valid for all connected and complete SC's and for towers of EB
 
  Int_t max_crys = fEcal->MaxCrysInStin();  // valid for EB and for connected and complete SC's of EE
 
  // Number of Xtals in SC for not complete and not connected SC's
 
  if (fFlagSubDet == "EE") {
    Int_t n_for_cons = GetDeeSCConsFrom1DeeSCEcna(n1DeeNumber, n1DeeSCEcna);
 
    //............ not complete SC's (inner border)
    if (n_for_cons == 12 || n_for_cons == 67 || n_for_cons == 75 || n_for_cons == 137 || n_for_cons == 161 ||
        n_for_cons == 216 || n_for_cons == 224 || n_for_cons == 286) {
      max_crys = 20;
    }
 
    //............ not connected SC's
    if ((n_for_cons == 182 || n_for_cons == 33) && (n1DeeSCEcna == 60 || n1DeeSCEcna == 119)) {
      max_crys = 10;
    }
 
    if ((n_for_cons == 178 || n_for_cons == 29) && (n1DeeSCEcna == 138 || n1DeeSCEcna == 157)) {
      max_crys = 10;
    }
    if ((n_for_cons == 207 || n_for_cons == 58) && (n1DeeSCEcna == 176 || n1DeeSCEcna == 193)) {
      max_crys = 10;
    }
 
    if ((n_for_cons == 298 || n_for_cons == 149) && (n1DeeSCEcna == 188)) {
      max_crys = 10;
    }
 
    if ((n_for_cons == 261 || n_for_cons == 112) && (n1DeeSCEcna == 144 || n1DeeSCEcna == 165)) {
      max_crys = 10;
    }
    if ((n_for_cons == 268 || n_for_cons == 119) && (n1DeeSCEcna == 102 || n1DeeSCEcna == 123)) {
      max_crys = 10;
    }
 
    if ((n_for_cons == 281 || n_for_cons == 132) && (n1DeeSCEcna == 41)) {
      max_crys = 10;
    }
 
    //............. not connected and mixed Ecna SC's
    if (s_option == "TEcnaRun" || s_option == "TEcnaRead") {
      if (s_option == "TEcnaRun") {
        // special translation of Xtal 11 of SCEcna 29 and 32 to respectively Xtal 11 of SCEcna 10 and 11
        if (n1DeeSCEcna == 29 || n1DeeSCEcna == 32) {
          max_crys = 5;
        }
        if (n1DeeSCEcna == 10 || n1DeeSCEcna == 11) {
          max_crys = 1;
        }
      }
      if (s_option == "TEcnaRead") {
        //if( n1DeeSCEcna == 29 || n1DeeSCEcna == 32 ){max_crys = 6;}
        if (n1DeeSCEcna == 29 || n1DeeSCEcna == 32) {
          max_crys = 5;
        }
        if (n1DeeSCEcna == 10 || n1DeeSCEcna == 11) {
          max_crys = 1;
        }
      }
    } else {
      std::cout << "!TEcnaNumbering::MaxCrysInStinEcna(...)> " << s_option << ": unknown option." << fTTBELL
                << std::endl;
    }
  }
  return max_crys;
}

References gather_cfg::cout, fEcal, fFlagSubDet, fTTBELL, GetDeeSCConsFrom1DeeSCEcna(), and TEcnaParEcal::MaxCrysInStin().

Referenced by TEcnaRun::AverageHighFrequencyNoise(), TEcnaRun::AverageLowFrequencyNoise(), TEcnaRun::AverageMeanCorrelationsBetweenSamples(), TEcnaRun::AveragePedestals(), TEcnaRun::AverageSigmaOfCorrelationsBetweenSamples(), TEcnaRun::AverageTotalNoise(), and TEcnaRead::ReadAverageNumberOfEvents().

PlusMinusSMNumber()

Int_t TEcnaNumbering::PlusMinusSMNumber

(

const Int_t &

PlusSMNumber

)

Definition at line 1137 of file TEcnaNumbering.cc.

                                                                 {
  Int_t PMSMNumber = PlusSMNumber;
  if (PlusSMNumber > fEcal->MaxSMPhiInEB()) {
    PMSMNumber = -PlusSMNumber + fEcal->MaxSMPhiInEB();
  }
  return PMSMNumber;
}

References fEcal, and TEcnaParEcal::MaxSMPhiInEB().

Referenced by TEcnaWrite::NumberOfEventsAnalysis().

SetEcalSubDetector() [1/2]

void TEcnaNumbering::SetEcalSubDetector

(

const TString &

SubDet

)

Definition at line 246 of file TEcnaNumbering.cc.

                                                             {
  //Set the current subdetector flag and the current subdetector parameters
 
  Int_t MaxCar = fgMaxCar;
  fFlagSubDet.Resize(MaxCar);
  fFlagSubDet = fEcal->GetEcalSubDetector();  // fFlagSubDet = "EB" or "EE"
 
  if (fFlagSubDet == "EB") {
    BuildBarrelCrysTable();
  }
  if (fFlagSubDet == "EE") {
    BuildEndcapCrysTable();
    BuildEndcapSCTable();
  }
}

References BuildBarrelCrysTable(), BuildEndcapCrysTable(), BuildEndcapSCTable(), fEcal, fFlagSubDet, fgMaxCar, and TEcnaParEcal::GetEcalSubDetector().

Referenced by TEcnaNumbering().

SetEcalSubDetector() [2/2]

void TEcnaNumbering::SetEcalSubDetector	(	const TString &	SubDet,
		const TEcnaParEcal *	pEcal
	)

Definition at line 222 of file TEcnaNumbering.cc.

                                                                                        {
  //Set the current subdetector flag and the current subdetector parameters
 
  fEcal = nullptr;
  if (pEcal == nullptr) {
    fEcal = new TEcnaParEcal(SubDet.Data()); /*fCnew++*/
    ;
  } else {
    fEcal = (TEcnaParEcal*)pEcal;
  }
 
  Int_t MaxCar = fgMaxCar;
  fFlagSubDet.Resize(MaxCar);
  fFlagSubDet = fEcal->GetEcalSubDetector();  // fFlagSubDet = "EB" or "EE"
 
  if (fFlagSubDet == "EB") {
    BuildBarrelCrysTable();
  }
  if (fFlagSubDet == "EE") {
    BuildEndcapCrysTable();
    BuildEndcapSCTable();
  }
}

References BuildBarrelCrysTable(), BuildEndcapCrysTable(), BuildEndcapSCTable(), fEcal, fFlagSubDet, fgMaxCar, TEcnaParEcal::GetEcalSubDetector(), and ntupleEnum::SubDet.

StexEchaForCons()

Int_t TEcnaNumbering::StexEchaForCons	(	const Int_t &	n1DeeNumber,
		const Int_t &	i0StexEcha
	)

Definition at line 2594 of file TEcnaNumbering.cc.

                                                                                       {
  Int_t n1StexStin = Get1StexStinFrom0StexEcha(i0StexEcha);
  return fT2d_DeeSCCons[n1DeeNumber - 1][n1StexStin - 1];
}

References fT2d_DeeSCCons, and Get1StexStinFrom0StexEcha().

Referenced by TEcnaRun::HighFrequencyCorrelationsBetweenChannels(), TEcnaRun::HighFrequencyCovariancesBetweenChannels(), TEcnaRun::LowFrequencyCorrelationsBetweenChannels(), and TEcnaRun::LowFrequencyCovariancesBetweenChannels().

Member Data Documentation

fCdelete

Int_t TEcnaNumbering::fCdelete

private

Definition at line 27 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), BuildEndcapCrysTable(), and ~TEcnaNumbering().

fCnew

Int_t TEcnaNumbering::fCnew

private

Definition at line 26 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), BuildEndcapCrysTable(), and BuildEndcapSCTable().

fCodeChNumberingITP1Bot

TString TEcnaNumbering::fCodeChNumberingITP1Bot

private

Definition at line 64 of file TEcnaNumbering.h.

Referenced by Init().

fCodeChNumberingITP2Top

TString TEcnaNumbering::fCodeChNumberingITP2Top

private

Definition at line 65 of file TEcnaNumbering.h.

Referenced by Init().

fCodeChNumberingLvrbBot

TString TEcnaNumbering::fCodeChNumberingLvrbBot

private

Definition at line 43 of file TEcnaNumbering.h.

Referenced by GetEta(), GetPhiInSM(), GetTowerLvrbType(), and Init().

fCodeChNumberingLvrbTop

TString TEcnaNumbering::fCodeChNumberingLvrbTop

private

Definition at line 44 of file TEcnaNumbering.h.

Referenced by GetEta(), GetPhiInSM(), GetTowerLvrbType(), and Init().

fEcal

TEcnaParEcal* TEcnaNumbering::fEcal

private

Definition at line 34 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), BuildEndcapCrysTable(), BuildEndcapSCTable(), Get0SMEchaFrom1SMTowAnd0TowEcha(), Get0StexEchaFrom1StexStinAnd0StinEcha(), Get0TowEchaFrom0SMEcha(), Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), Get1DeeSCEcnaFrom0DeeEcha(), Get1DeeSCEcnaFrom1DeeCrys(), Get1DeeSCEcnaFromDeeSCCons(), Get1SCEchaFrom0DeeEcha(), Get1SCEchaFrom1DeeCrys(), Get1SMTowFrom0SMEcha(), GetDeeSCConsFrom1DeeSCEcna(), GetDSFrom1DeeSCEcna(), GetDSSCFrom1DeeSCEcna(), GetEta(), GetEtaMax(), GetEtaMin(), GetIEtaMax(), GetIEtaMin(), GetIIXMax(), GetIIXMin(), GetIXCrysInDee(), GetIXSCInDee(), GetJIYMax(), GetJIYMin(), GetJPhiMax(), GetJPhiMin(), GetJYCrysInDee(), GetJYSCInDee(), GetPhi(), GetPhiInSM(), GetPhiMax(), GetPhiMin(), GetSMHalfBarrel(), Init(), MaxCrysInStinEcna(), PlusMinusSMNumber(), SetEcalSubDetector(), and TEcnaNumbering().

fFlagPrint

Int_t TEcnaNumbering::fFlagPrint

private

Definition at line 32 of file TEcnaNumbering.h.

fFlagSubDet

TString TEcnaNumbering::fFlagSubDet

private

Definition at line 31 of file TEcnaNumbering.h.

Referenced by Get1StexCrysFrom1StexStinAnd0StinEcha(), Get1StexStinFrom0StexEcha(), GetIHocoMax(), GetIHocoMin(), GetJVecoMax(), GetJVecoMin(), GetStexHalfStas(), GetVecoMax(), GetVecoMin(), MaxCrysInStinEcna(), and SetEcalSubDetector().

fgMaxCar

Int_t TEcnaNumbering::fgMaxCar

private

Definition at line 25 of file TEcnaNumbering.h.

Referenced by Init(), and SetEcalSubDetector().

fT1d_DeeSCCons

Int_t* TEcnaNumbering::fT1d_DeeSCCons

private

Definition at line 74 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), Init(), and ~TEcnaNumbering().

fT1d_DS

Int_t* TEcnaNumbering::fT1d_DS

private

Definition at line 68 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), Init(), and ~TEcnaNumbering().

fT1d_DSSC

Int_t* TEcnaNumbering::fT1d_DSSC

private

Definition at line 71 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), Init(), and ~TEcnaNumbering().

fT1d_ich_IX

Int_t* TEcnaNumbering::fT1d_ich_IX

private

Definition at line 62 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT1d_jch_JY

Int_t* TEcnaNumbering::fT1d_jch_JY

private

Definition at line 59 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT1d_RecovDeeSC

Int_t* TEcnaNumbering::fT1d_RecovDeeSC

private

Definition at line 77 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), Init(), and ~TEcnaNumbering().

fT1dDeeCrys

Int_t* TEcnaNumbering::fT1dDeeCrys

private

Definition at line 50 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT1dDeeSC

Int_t* TEcnaNumbering::fT1dDeeSC

private

Definition at line 53 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT1dSCEcha

Int_t* TEcnaNumbering::fT1dSCEcha

private

Definition at line 56 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT1dSMCrys

Int_t* TEcnaNumbering::fT1dSMCrys

private

Definition at line 39 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), Init(), and ~TEcnaNumbering().

fT1dSMTow

Int_t* TEcnaNumbering::fT1dSMTow

private

Definition at line 40 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), Get1SMTowFrom1SMCrys(), Init(), and ~TEcnaNumbering().

fT1dTowEcha

Int_t* TEcnaNumbering::fT1dTowEcha

private

Definition at line 41 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), Get0TowEchaFrom1SMCrys(), Init(), and ~TEcnaNumbering().

fT2d_DeeSCCons

Int_t** TEcnaNumbering::fT2d_DeeSCCons

private

Definition at line 73 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), GetDeeSCConsFrom1DeeSCEcna(), Init(), StexEchaForCons(), and ~TEcnaNumbering().

fT2d_DS

Int_t** TEcnaNumbering::fT2d_DS

private

Definition at line 67 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), GetDSFrom1DeeSCEcna(), Init(), and ~TEcnaNumbering().

fT2d_DSSC

Int_t** TEcnaNumbering::fT2d_DSSC

private

Definition at line 70 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), GetDSSCFrom1DeeSCEcna(), Init(), and ~TEcnaNumbering().

fT2d_ich_IX

Int_t** TEcnaNumbering::fT2d_ich_IX

private

Definition at line 61 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), GetIXCrysInSC(), Init(), and ~TEcnaNumbering().

fT2d_jch_JY

Int_t** TEcnaNumbering::fT2d_jch_JY

private

Definition at line 58 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), GetJYCrysInSC(), Init(), and ~TEcnaNumbering().

fT2d_RecovDeeSC

Int_t** TEcnaNumbering::fT2d_RecovDeeSC

private

Definition at line 76 of file TEcnaNumbering.h.

Referenced by BuildEndcapSCTable(), Get1DeeSCEcnaFromDeeSCCons(), Init(), and ~TEcnaNumbering().

fT2dDeeCrys

Int_t** TEcnaNumbering::fT2dDeeCrys

private

Definition at line 49 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Init(), and ~TEcnaNumbering().

fT2dDeeSC

Int_t** TEcnaNumbering::fT2dDeeSC

private

Definition at line 52 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Get1DeeSCEcnaFrom1DeeCrys(), Init(), and ~TEcnaNumbering().

fT2dSCEcha

Int_t** TEcnaNumbering::fT2dSCEcha

private

Definition at line 55 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Get1SCEchaFrom1DeeCrys(), Init(), and ~TEcnaNumbering().

fT2dSMCrys

Int_t** TEcnaNumbering::fT2dSMCrys

private

Definition at line 38 of file TEcnaNumbering.h.

Referenced by BuildBarrelCrysTable(), Get1SMCrysFrom1SMTowAnd0TowEcha(), Init(), and ~TEcnaNumbering().

fT3dDeeCrys

Int_t*** TEcnaNumbering::fT3dDeeCrys

private

Definition at line 48 of file TEcnaNumbering.h.

Referenced by BuildEndcapCrysTable(), Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), Init(), and ~TEcnaNumbering().

fTTBELL

TString TEcnaNumbering::fTTBELL

private

Definition at line 29 of file TEcnaNumbering.h.

Referenced by Get0StexEchaFrom1StexStinAnd0StinEcha(), Get0TowEchaFrom1SMCrys(), Get1DeeCrysFrom1DeeSCEcnaAnd0SCEcha(), Get1DeeSCEcnaFrom1DeeCrys(), Get1DeeSCEcnaFromDeeSCCons(), Get1SCEchaFrom1DeeCrys(), Get1SMCrysFrom1SMTowAnd0TowEcha(), Get1SMTowFrom1SMCrys(), GetDeeSCConsFrom1DeeSCEcna(), GetDSFrom1DeeSCEcna(), GetDSSCFrom1DeeSCEcna(), GetEta(), GetPhi(), GetPhiInSM(), Init(), and MaxCrysInStinEcna().