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Public Member Functions | Public Attributes | Private Member Functions | Private Attributes

TEcnaWrite Class Reference

#include <TEcnaWrite.h>

List of all members.

Public Member Functions

void fMakeResultsFileName ()
void fMakeResultsFileName (const Int_t &)
TString GetAnalysisName ()
TString GetAsciiFileName ()
Int_t GetFirstReqEvtNumber ()
Int_t GetNbOfSamples ()
Int_t GetReqNbOfEvts ()
TString GetRootFileName ()
TString GetRootFileNameShort ()
Int_t GetRunNumber ()
Int_t GetStexNumber ()
void Init ()
Int_t NumberOfEventsAnalysis (Int_t **, const Int_t &, const Int_t &, const Int_t &)
Int_t NumberOfEventsAnalysis (Int_t *, const Int_t &, const Int_t &, const Int_t &)
void RegisterFileParameters (const TString, const Int_t &, const Int_t &, const Int_t &, const Int_t &, const Int_t &, const Int_t &, const TString, const TString, const time_t, const time_t)
void RegisterFileParameters (const TString, const Int_t &, const Int_t &, const Int_t &, const Int_t &, const Int_t &, const Int_t &)
void SetEcalSubDetector (const TString)
void SetEcalSubDetector (const TString, const TEcnaParEcal *, const TEcnaNumbering *)
 TEcnaWrite ()
 TEcnaWrite (TEcnaObject *, const TString)
 TEcnaWrite (const TString, const TEcnaParPaths *, const TEcnaParCout *, const TEcnaParEcal *, const TEcnaNumbering *)
void WriteAsciiCorrelationsBetweenSamples (const Int_t &, const Int_t &, const Int_t &, const TMatrixD &)
void WriteAsciiCovariancesBetweenSamples (const Int_t &, const Int_t &, const Int_t &, const TMatrixD &)
void WriteAsciiHisto (const TString, const Int_t &, const TVectorD &)
virtual ~TEcnaWrite ()

Public Attributes

TString fAnaType
TString fAsciiFileName
TString fAsciiFileNameShort
Int_t fFirstReqEvtNumber
Int_t fLastReqEvtNumber
Int_t fNbOfSamples
TString fPathForAsciiFiles
Int_t fReqNbOfEvts
TString fRootFileName
TString fRootFileNameShort
Int_t fRunNumber
TString fStartDate
time_t fStartTime
TString fStexName
Int_t fStexNumber
TString fStinName
TString fStopDate
time_t fStopTime

Private Member Functions

void fAsciiFileWriteHeader (const Int_t &)
void fT2dWriteAscii (const Int_t &, const Int_t &, const Int_t &, const Int_t &, const TMatrixD &)

Private Attributes

Int_t fCdelete
Int_t fCdeleteRoot
Int_t fCnaCommand
Int_t fCnaError
TEcnaParCoutfCnaParCout
TEcnaParPathsfCnaParPaths
Int_t fCnew
Int_t fCnewRoot
Int_t fCodeAdcEvt
Int_t fCodeAvMeanCorss
Int_t fCodeAvPed
Int_t fCodeAvSigCorss
Int_t fCodeAvTno
Int_t fCodeCorCss
Int_t fCodeCovCss
Int_t fCodeHeaderAscii
Int_t fCodeHFccMoStins
Int_t fCodeHfCor
Int_t fCodeHfCov
Int_t fCodeHfn
Int_t fCodeLFccMoStins
Int_t fCodeLfCor
Int_t fCodeLfCov
Int_t fCodeLfn
Int_t fCodeMeanCorss
Int_t fCodeMSp
Int_t fCodeNbOfEvts
Int_t fCodePed
Int_t fCodePrintAllComments
Int_t fCodePrintComments
Int_t fCodePrintNoComment
Int_t fCodePrintWarnings
Int_t fCodeRoot
Int_t fCodeSigCorss
Int_t fCodeSSp
Int_t fCodeTno
TEcnaParEcalfEcal
TEcnaNumberingfEcalNumbering
ofstream fFcout_f
Int_t fFlagPrint
TString fFlagSubDet
Int_t fgMaxCar
Double_t * fjustap_1d_cc
Double_t * fjustap_1d_ev
Double_t * fjustap_1d_ss
Double_t * fjustap_1d_var
Double_t ** fjustap_2d_cc
Double_t ** fjustap_2d_ev
Double_t ** fjustap_2d_ss
Double_t ** fjustap_2d_var
Int_t fNbChanByLine
Int_t fNbSampByLine
Int_t fSectChanSizeX
Int_t fSectChanSizeY
Int_t fSectSampSizeX
Int_t fSectSampSizeY
Int_t fStexStinUser
Int_t fStinEchaUser
TString fTTBELL
Int_t fUserSamp

Detailed Description

----------------------------------------------------------- TEcnaWrite.h Update: 06/04/2011 Authors: B.Fabbro (bernard.fabbro@cea.fr), FX Gentit DSM/IRFU/SPP CEA-Saclay Copyright: Those valid for CEA sofware

ECNA web page: https://cms-fabbro.web.cern.ch/cms-fabbro/ cna_new/Correlated_Noise_Analysis/ECNA_cna_1.htm -----------------------------------------------------------

Definition at line 34 of file TEcnaWrite.h.


Constructor & Destructor Documentation

TEcnaWrite::TEcnaWrite ( )

Definition at line 34 of file TEcnaWrite.cc.

References Init().

{

 // cout << "[Info Management] CLASS: TEcnaWrite.         CREATE OBJECT: this = " << this << endl;

  Init();
}
TEcnaWrite::TEcnaWrite ( TEcnaObject pObjectManager,
const TString  SubDet 
)

Definition at line 42 of file TEcnaWrite.cc.

References fCnaParCout, fCnaParPaths, fEcal, fEcalNumbering, TEcnaParPaths::GetPathForResultsAsciiFiles(), TEcnaParPaths::GetPathForResultsRootFiles(), TEcnaObject::GetPointerValue(), Init(), TEcnaObject::RegisterPointer(), and SetEcalSubDetector().

{
 // cout << "[Info Management] CLASS: TEcnaWrite.         CREATE OBJECT: this = " << this << endl;

  Init();
  Long_t i_this = (Long_t)this;
  pObjectManager->RegisterPointer("TEcnaWrite", i_this);

  //............................ fCnaParCout
  fCnaParCout = 0;
  Long_t iCnaParCout = pObjectManager->GetPointerValue("TEcnaParCout");
  if( iCnaParCout == 0 )
    {fCnaParCout = new TEcnaParCout(pObjectManager); /*fCnew++*/}
  else
    {fCnaParCout = (TEcnaParCout*)iCnaParCout;}

  //............................ fCnaParPaths
  fCnaParPaths = 0;
  Long_t iCnaParPaths = pObjectManager->GetPointerValue("TEcnaParPaths");
  if( iCnaParPaths == 0 )
    {fCnaParPaths = new TEcnaParPaths(pObjectManager); /*fCnew++*/}
  else
    {fCnaParPaths = (TEcnaParPaths*)iCnaParPaths;}

  //fCfgResultsRootFilePath    = fCnaParPaths->ResultsRootFilePath();
  //fCfgHistoryRunListFilePath = fCnaParPaths->HistoryRunListFilePath();

  fCnaParPaths->GetPathForResultsRootFiles();
  fCnaParPaths->GetPathForResultsAsciiFiles();

  //............................ fEcal  => should be changed in fParEcal
  fEcal = 0;
  Long_t iParEcal = pObjectManager->GetPointerValue("TEcnaParEcal");
  if( iParEcal == 0 )
    {fEcal = new TEcnaParEcal(pObjectManager, SubDet.Data()); /*fCnew++*/}
  else
    {fEcal = (TEcnaParEcal*)iParEcal;}

  //............................ fEcalNumbering
  fEcalNumbering = 0;
  Long_t iEcalNumbering = pObjectManager->GetPointerValue("TEcnaNumbering");
  if( iEcalNumbering == 0 )
    {fEcalNumbering = new TEcnaNumbering(pObjectManager, SubDet.Data()); /*fCnew++*/}
  else
    {fEcalNumbering = (TEcnaNumbering*)iEcalNumbering;}

  SetEcalSubDetector(SubDet.Data());
}
TEcnaWrite::TEcnaWrite ( const TString  SubDet,
const TEcnaParPaths pCnaParPaths,
const TEcnaParCout pCnaParCout,
const TEcnaParEcal pEcal,
const TEcnaNumbering pEcalNumbering 
)

Definition at line 91 of file TEcnaWrite.cc.

References fCnaParCout, fCnaParPaths, fEcal, fEcalNumbering, TEcnaParPaths::GetPathForResultsAsciiFiles(), TEcnaParPaths::GetPathForResultsRootFiles(), Init(), and SetEcalSubDetector().

{

 // cout << "[Info Management] CLASS: TEcnaWrite.         CREATE OBJECT: this = " << this << endl;

  Init();

  //----------------------------- Object management
  fCnaParPaths = 0;
  if( pCnaParPaths == 0 )
    {fCnaParPaths = new TEcnaParPaths();  /*fCnew++*/ ;}
  else
    {fCnaParPaths = (TEcnaParPaths*)pCnaParPaths;}

  //................. Get paths from ECNA directory
  fCnaParPaths->GetPathForResultsRootFiles();
  fCnaParPaths->GetPathForResultsAsciiFiles();

  fCnaParCout  = 0;
  if( pCnaParCout == 0 )
    {fCnaParCout  = new TEcnaParCout();   /*fCnew++*/;}
  else
    {fCnaParCout = (TEcnaParCout*)pCnaParCout;}

  fEcal = 0;
  if( pEcal == 0 )
    {fEcal = new TEcnaParEcal(SubDet.Data());  /*fCnew++*/;}
  else
    {fEcal = (TEcnaParEcal*)pEcal;}

  fEcalNumbering = 0;
  if( pEcalNumbering == 0 )
    {fEcalNumbering = new TEcnaNumbering(SubDet.Data(), fEcal);  /*fCnew++*/;}
  else
    {fEcalNumbering = (TEcnaNumbering*)pEcalNumbering;}

  SetEcalSubDetector(SubDet.Data(), fEcal, fEcalNumbering);
}
virtual TEcnaWrite::~TEcnaWrite ( ) [virtual]

Member Function Documentation

void TEcnaWrite::fAsciiFileWriteHeader ( const Int_t &  i_code) [private]

Definition at line 1050 of file TEcnaWrite.cc.

References fAnaType, fAsciiFileName, fCodeHeaderAscii, fFcout_f, fFirstReqEvtNumber, fFlagSubDet, fLastReqEvtNumber, fNbOfSamples, fReqNbOfEvts, fRunNumber, fStartDate, fStexNumber, and fStopDate.

Referenced by WriteAsciiCorrelationsBetweenSamples(), WriteAsciiCovariancesBetweenSamples(), and WriteAsciiHisto().

{
//Ascii results file header writing  (private). Called by the WriteAscii...() methods
  
  //-----------------------------------------------
  //
  //     opening of the ASCII results file
  //     and writing of its header
  //
  //-----------------------------------------------

  if(fAsciiFileName.BeginsWith("$HOME"))
    {
      fAsciiFileName.Remove(0,5);
      TString EndOfAsciiFileName = fAsciiFileName;
      const Text_t *t_file_nohome = (const Text_t *)EndOfAsciiFileName.Data(); //  const Text_t* -> EndOfAsciiFileName
      // ( /scratch0/cna/... )
      TString home_path = gSystem->Getenv("HOME");
      fAsciiFileName = home_path;             // fAsciiFileName = absolute HOME path ( /afs/cern.ch/u/USER )
      fAsciiFileName.Append(t_file_nohome);   // Append  (const Text_t* -> EndOfAsciiFileName) to fAsciiFileName
      // ( /afs/cern.ch/u/USER/scratch0/cna/... )
    }

  fFcout_f.open(fAsciiFileName.Data());

  fFcout_f << "*** File: " << fAsciiFileName
           << " *** " << endl << endl;
  fFcout_f << "*Analysis name                : " << fAnaType       << endl;
  fFcout_f << "*First-Last samples           : 1 - " << fNbOfSamples   << endl; 
  fFcout_f << "*Run number                   : " << fRunNumber     << endl;
  fFcout_f << "*First requested event number : " << fFirstReqEvtNumber << endl;
  fFcout_f << "*Last  requested event number : " << fLastReqEvtNumber << endl;
  fFcout_f << "*Requested number of events   : " << fReqNbOfEvts << endl;
  if( fFlagSubDet == "EB" )
    {fFcout_f << "*SuperModule number           : " << fStexNumber   << endl;}
  if( fFlagSubDet == "EE" )
    {fFcout_f << "*Dee number                   : " << fStexNumber   << endl;}
  fFcout_f << "*Date first requested event   : " << fStartDate;
  fFcout_f << "*Date last requested event    : " << fStopDate      << endl;
  fFcout_f << endl;

  //========================================================================= 
  //   closing of the results file if i_code = fCodeHeaderAscii only.
  //   closing is done in the fT1dWriteAscii() and fT2dWriteAscii() methods
  //   except for i_code = fCodeHeaderAscii
  //=========================================================================
  if(i_code == fCodeHeaderAscii){fFcout_f.close();}
}
void TEcnaWrite::fMakeResultsFileName ( )
void TEcnaWrite::fMakeResultsFileName ( const Int_t &  i_code)

Definition at line 640 of file TEcnaWrite.cc.

References TEcnaParPaths::AppendResultsAsciiFilePath(), TEcnaParPaths::AppendResultsRootFilePath(), TEcnaParPaths::BeginningOfResultsAsciiFilePath(), TEcnaParPaths::BeginningOfResultsRootFilePath(), gather_cfg::cout, fAnaType, fAsciiFileName, fAsciiFileNameShort, fCdelete, fCnaParPaths, fCnew, fCodeAvMeanCorss, fCodeAvPed, fCodeAvSigCorss, fCodeAvTno, fCodeCorCss, fCodeCovCss, fCodeHeaderAscii, fCodeHfn, fCodeLfCor, fCodeLfCov, fCodeLfn, fCodeMeanCorss, fCodeMSp, fCodeNbOfEvts, fCodePed, fCodeRoot, fCodeSigCorss, fCodeSSp, fCodeTno, fFirstReqEvtNumber, fFlagSubDet, fgMaxCar, fLastReqEvtNumber, fNbOfSamples, fReqNbOfEvts, fRootFileName, fRootFileNameShort, fRunNumber, fStexName, fStexNumber, fStexStinUser, fStinEchaUser, fStinName, fTTBELL, i, TEcnaParPaths::ResultsAsciiFilePath(), TEcnaParPaths::ResultsRootFilePath(), TEcnaParPaths::SetResultsAsciiFilePath(), TEcnaParPaths::SetResultsRootFilePath(), TEcnaParPaths::TruncateResultsAsciiFilePath(), and TEcnaParPaths::TruncateResultsRootFilePath().

{
//Results filename making  (private)
  
  //----------------------------------------------------------------------
  //
  //     Making of the name of the result file from the parameters set
  //     by call to RegisterFileParameters(...)
  //
  //     Put the names in the following class attributes:
  //
  //     fRootFileName,  fRootFileNameShort,
  //     fAsciiFileName, fAsciiFileNameShort
  //
  //     (Short means: without the directory path)
  //
  //     set indications (run number, type of quantity, ...)
  //     and add the extension ".ascii" or ".root"
  //     
  //     ROOT:  only one ROOT file:  i_code = fCodeRoot.
  //                                          All the types of quantities
  //
  //     ASCII: several ASCII files: i_code = code for one type of quantity
  //            each i_code which is not equal to fCodeRoot is also implicitly
  //            a code "fCodeAscii" (this last attribute is not in the class)
  //     
  //----------------------------------------------------------------------

  char* f_in       = new char[fgMaxCar];                 fCnew++;
  char* f_in_short = new char[fgMaxCar];                 fCnew++;

  Int_t MaxCar = fgMaxCar;
  fStexName.Resize(MaxCar); 
  fStexName  = "SM or Dee?";

  MaxCar = fgMaxCar;
  fStinName.Resize(MaxCar); 
  fStinName  = "tower or SC?";

  if( fFlagSubDet == "EB" ){fStexName = "SM";  fStinName = "tower";}
  if( fFlagSubDet == "EE" ){fStexName = "Dee"; fStinName = "SC";}

  //  switch (i_code){  

  //===================================  R O O T  =========================  (fMakeResultsFileName)
  TString sPointInterrog = "?";
  TString sDollarHome    = "$HOME";

  if (i_code == fCodeRoot)
    {
      if( fCnaParPaths->ResultsRootFilePath().Data() == sPointInterrog.Data() )
        {
          cout << "!TEcnaWrite::fMakeResultsFileName>  * * * W A R N I N G * * * " << endl << endl
               << "    Path for results .root file not defined. Default option will be used here:" << endl
               << "    your results files will be written in your HOME directory." << endl << endl
               << "    In order to write the .root results file in a specific directory," << endl
               << "    you have to create a file named path_results_root in a subdirectory named ECNA" << endl
               << "    previously created in your home directory." << endl 
               << "    This file must have only one line containing the path of the directory" << endl 
               << "    where must be the .root result files." << endl
               << endl;

          TString home_path = gSystem->Getenv("HOME");
          fCnaParPaths->SetResultsRootFilePath(home_path.Data());  
        }

      if( fCnaParPaths->BeginningOfResultsRootFilePath().Data() == sDollarHome.Data() )
        {
          fCnaParPaths->TruncateResultsRootFilePath(0,5);
          const Text_t *t_file_nohome = (const Text_t *)fCnaParPaths->ResultsRootFilePath().Data(); //  /scratch0/cna/...
          
          TString home_path = gSystem->Getenv("HOME");
          fCnaParPaths->SetResultsRootFilePath(home_path.Data());   //  /afs/cern.ch/u/USER
          fCnaParPaths->AppendResultsRootFilePath(t_file_nohome);   //  /afs/cern.ch/u/USER/scratch0/cna/...
        }

      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d",
              fCnaParPaths->ResultsRootFilePath().Data(), fAnaType.Data(), fNbOfSamples,
              fRunNumber, fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d",
              fAnaType.Data(), fNbOfSamples,
              fRunNumber, fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }

  //===================================  A S C I I  ====================  (fMakeResultsFileName)
  //fCnaParPaths->GetPathForResultsAsciiFiles();
  if (i_code != fCodeRoot)
    {
      if (i_code == fCodeHeaderAscii)
        {
          if( fCnaParPaths->ResultsAsciiFilePath().Data() == sPointInterrog.Data() )
            {
              cout << "!TEcnaWrite::fMakeResultsFileName>  * * * W A R N I N G * * * " << endl << endl
                   << "    Path for results .ascii file not defined. Default option will be used here:" << endl
                   << "    your results files will be written in your HOME directory." << endl << endl
                   << "    In order to write the .ascii results file in a specific directory," << endl
                   << "    you have to create a file named path_results_ascii in a subdirectory named ECNA" << endl
                   << "    previously created in your home directory." << endl 
                   << "    This file must have only one line containing the path of the directory" << endl 
                   << "    where must be the .ascii result files." << endl
                   << endl;
              
              TString home_path = gSystem->Getenv("HOME");
              fCnaParPaths->SetResultsAsciiFilePath(home_path.Data());  
            } 
          
          if( fCnaParPaths->BeginningOfResultsAsciiFilePath().Data() == sDollarHome.Data() )
            {
              fCnaParPaths->TruncateResultsAsciiFilePath(0,5);
              const Text_t *t_file_nohome = (const Text_t *)fCnaParPaths->ResultsAsciiFilePath().Data(); // /scratch0/cna/...
              
              TString home_path = gSystem->Getenv("HOME");
              fCnaParPaths->SetResultsAsciiFilePath(home_path.Data());   //  /afs/cern.ch/u/USER
              fCnaParPaths->AppendResultsAsciiFilePath(t_file_nohome);   //  /afs/cern.ch/u/USER/scratch0/cna/...
            }
        }

      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_header",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_header",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }

  //--------------------------------------------------------------  (fMakeResultsFileName)
  if (i_code == fCodeNbOfEvts)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_NbOfEvents",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_NbOfEvents",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }

  if (i_code == fCodePed)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_Pedestals",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_Pedestals",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    } 

  if (i_code == fCodeTno)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_TotalNoise",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_TotalNoise",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    } 

  if (i_code == fCodeLfn)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_LFNoise",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_LFNoise",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    } 

  if (i_code == fCodeHfn)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_HFNoise",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_HFNoise",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }

  if (i_code == fCodeMeanCorss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_MeanCorss",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_MeanCorss",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }

  if (i_code == fCodeSigCorss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_SigmaCorss",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_SigmaCorss",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    } 

  if (i_code ==  fCodeCovCss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_Covss_%s%d_Channel_%d",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber,
              fStinName.Data(), fStexStinUser, fStinEchaUser);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_Covss_%s%d_Channel_%d",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber,
              fStinName.Data(), fStexStinUser, fStinEchaUser);
    }
  
  if (i_code == fCodeCorCss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_Corss_%s%d_Channel_%d",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber,
              fStinName.Data(), fStexStinUser, fStinEchaUser);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_Corss_%s%d_Channel_%d",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber,
              fStinName.Data(), fStexStinUser, fStinEchaUser);
    }

  //------- (not used yet)
#define OCOD
#ifndef OCOD
  if (i_code == fCodeMSp)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_SampleMeans",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_SampleMeans",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }
  
  if (i_code == fCodeSSp)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_SampleSigmas",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_SampleSigmas",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }
  
  if( i_code == fCodeAvTno)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageTotalNoise_c%d",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageTotalNoise_c%d",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
    }
  
  if(  i_code == fCodeLfCov)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_LF_cov",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_LF_cov",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }
  
  if ( i_code == fCodeLfCor)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_LF_cor",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_LF_cor",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }
  
  if (i_code == fCodeAvPed)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_AveragePedestals",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_AveragePedestals",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber);
    }
  
  if (i_code == fCodeAvMeanCorss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageMeanCorss%d",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageMeanCorss%d",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
    }

  if (i_code == fCodeAvSigCorss)
    {
      sprintf(f_in, "%s/%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageSigmaCorss%d",
              fCnaParPaths->ResultsAsciiFilePath().Data(), fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
      sprintf(f_in_short, "%s_S1_%d_R%d_%d_%d_%d_%s%d_AverageSigmaCorss%d",
              fAnaType.Data(), fNbOfSamples, fRunNumber,
              fFirstReqEvtNumber, fLastReqEvtNumber, fReqNbOfEvts, fStexName.Data(), fStexNumber, fStinEchaUser);
    } 
#endif // OCOD

  //----------------------------------------------------------- (fMakeResultsFileName)

  // default:
  //    cout << "*TEcnaWrite::fMakeResultsFileName(const Int_t&  i_code)> "
  //     << "wrong header code , i_code = " << i_code << endl; 
  //  }

  //======================================= f_name
  
  char* f_name = new char[fgMaxCar];                   fCnew++;
  
  for (Int_t i = 0 ; i < fgMaxCar ; i++){f_name[i] = '\0';}
  
  Int_t ii = 0;
  for (Int_t i = 0 ; i < fgMaxCar ; i++)
    {
      if ( f_in[i] != '\0' ){f_name[i] = f_in[i]; ii++;}
      else {break;}  // va directement a if ( ii+5 < fgMaxCar ) puis... f_name[ii] = '.';
    }
 
  if ( ii+5 < fgMaxCar )
    {
      //.......... writing of the file extension (.root or .ascii)  (fMakeResultsFileName)
      
      //------------------------------------------- extension .ascii
      if ( i_code != fCodeRoot  || i_code == fCodeNbOfEvts )
        {
          f_name[ii] = '.';   f_name[ii+1] = 'a';
          f_name[ii+2] = 's'; f_name[ii+3] = 'c';
          f_name[ii+4] = 'i'; f_name[ii+5] = 'i';
          
          fAsciiFileName = f_name;
        }
      //------------------------------------------- extension .root
      if ( i_code == fCodeRoot )
        {
          f_name[ii] = '.';   f_name[ii+1] = 'r';
          f_name[ii+2] = 'o'; f_name[ii+3] = 'o';  f_name[ii+4] = 't';
          
          fRootFileName = f_name;
        }
    }
  else
    {
      cout << "*TEcnaWrite::fMakeResultsFileName(...)> Name too long (for f_name)."
           << " No room enough for the extension. (ii = " << ii << ")"
           << fTTBELL << endl; 
    }


  //====================================== f_name_short  (fMakeResultsFileName)
  
  char* f_name_short = new char[fgMaxCar];          fCnew++;

  for (Int_t i = 0 ; i < fgMaxCar ; i++){f_name_short[i] = '\0';}
  
  ii = 0;
  for (Int_t i = 0 ; i < fgMaxCar ; i++)
    {
      if ( f_in_short[i] != '\0' ){f_name_short[i] = f_in_short[i]; ii++;}
      else {break;}  // va directement a f_name_short[ii] = '.';
    }
 
  if ( ii+5 < fgMaxCar )
    {
      //.......... writing of the file extension (.root or .ascii)
      
      //-------------------------------------------extension .ascii
      if ( i_code != fCodeRoot || i_code == fCodeNbOfEvts )
        {
          f_name_short[ii] = '.';   f_name_short[ii+1] = 'a';
          f_name_short[ii+2] = 's'; f_name_short[ii+3] = 'c';
          f_name_short[ii+4] = 'i'; f_name_short[ii+5] = 'i';
          
          fAsciiFileNameShort = f_name_short;
        }
      
      //-------------------------------------------- extension .root
      if ( i_code == fCodeRoot )
        {
          f_name_short[ii] = '.';   f_name_short[ii+1] = 'r';
          f_name_short[ii+2] = 'o'; f_name_short[ii+3] = 'o';  f_name_short[ii+4] = 't';
          
          fRootFileNameShort = f_name_short;
        }
    }
  else
    {
      cout << "*TEcnaWrite::fMakeResultsFileName(...)> Name too long (for f_name_short)."
           << " No room enough for the extension. (ii = " << ii << ")"
           << fTTBELL  << endl; 
    }
    delete [] f_name;        f_name       = 0;         fCdelete++;
    delete [] f_name_short;  f_name_short = 0;         fCdelete++;

    delete [] f_in;          f_in       = 0;           fCdelete++;
    delete [] f_in_short;    f_in_short = 0;           fCdelete++;

}  // end of fMakeResultsFileName
void TEcnaWrite::fT2dWriteAscii ( const Int_t &  i_code,
const Int_t &  i_pasx_arg,
const Int_t &  i_pasy_arg,
const Int_t &  MatSize,
const TMatrixD &  read_matrix 
) [private]

Definition at line 1468 of file TEcnaWrite.cc.

References gather_cfg::cout, fAsciiFileName, fCnew, fCodeAvMeanCorss, fCodeAvSigCorss, fCodeCorCss, fCodeCovCss, fCodeHfCor, fCodeHfCov, fCodeLfCor, fCodeLfCov, fCodePrintNoComment, fEcal, fEcalNumbering, fFcout_f, fFlagPrint, fFlagSubDet, fjustap_1d_cc, fjustap_1d_ss, fjustap_2d_cc, fjustap_2d_ss, fSectChanSizeX, fSectSampSizeX, fStexNumber, fStexStinUser, fStinEchaUser, fStinName, fUserSamp, TEcnaNumbering::Get0TowEchaFrom0SMEcha(), TEcnaNumbering::Get1SCEchaFrom0DeeEcha(), TEcnaNumbering::GetDeeDirViewedFromIP(), i, j, TEcnaParEcal::MaxCrysEcnaInStex(), and TEcnaParEcal::MaxSampADC().

Referenced by WriteAsciiCorrelationsBetweenSamples(), and WriteAsciiCovariancesBetweenSamples().

{
//Writing of a matrix by sectors (private)

  Int_t i_pasx = i_pasx_arg;           // taille secteur en x
  Int_t i_pasy = i_pasy_arg;           // taille secteur en y
  
  //------------ formatage des nombres en faisant appel a la classe ios
  
  fFcout_f << setiosflags(ios::showpoint | ios::uppercase);
  fFcout_f.setf(ios::dec, ios::basefield);
  fFcout_f.setf(ios::fixed, ios::floatfield);
  fFcout_f.setf(ios::left, ios::adjustfield);
  fFcout_f.setf(ios::right, ios::adjustfield);
  fFcout_f << setprecision(3) << setw(6);
  
  cout << setiosflags(ios::showpoint | ios::uppercase);
  cout.setf(ios::dec, ios::basefield);
  cout.setf(ios::fixed, ios::floatfield);
  cout.setf(ios::left, ios::adjustfield);
  cout.setf(ios::right, ios::adjustfield);
  cout << setprecision(3) << setw(6);  

  //--------------------- fin du formatage standard C++ -------------------

  //-----------------------------------------------------------------------
  //  Reservation dynamique d'un array Double_t** de dimensions
  //  les multiples de 5 juste au-dessus des dimensions de l'array 2D
  //  a ecrire ( array de dimensions
  //  (fEcal->MaxSampADC(),fEcal->MaxSampADC())
  //  (fEcal->MaxCrysEcnaInStex(),fEcal->MaxCrysEcnaInStex()) )
  //-----------------------------------------------------------------------
  // Determination des tailles multiples de fSectChanSizeX ou fSectSampSizeX

#define NOUC
#ifndef NOUC

  //*************** channels *************
  Int_t justap_chan = 0;
  
  if( fEcal->MaxCrysEcnaInStex()%fSectChanSizeX == 0 )
    {justap_chan = fEcal->MaxCrysEcnaInStex();}
  else
    {justap_chan=((fEcal->MaxCrysEcnaInStex()/fSectChanSizeX)+1)*fSectChanSizeX;}
  
  //....................... Allocation fjustap_2d_cc

  if ( i_code == fCodeHfCov || i_code == fCodeHfCor||
       i_code == fCodeLfCov || i_code == fCodeLfCor ){
    if(fjustap_2d_cc == 0)
      {
        //................... Allocation
        fjustap_2d_cc = new Double_t*[justap_chan];              fCnew++;  
        fjustap_1d_cc = new  Double_t[justap_chan*justap_chan];  fCnew++;  
        for(Int_t i = 0 ; i < justap_chan ; i++){
          fjustap_2d_cc[i] = &fjustap_1d_cc[0] + i*justap_chan;}
      }

     //............................... Transfert des valeurs dans fjustap_2d_cc  (=init)
    for(Int_t i = 0; i < fEcal->MaxCrysEcnaInStex(); i++){
      for(Int_t j = 0; j < fEcal->MaxCrysEcnaInStex(); j++){
        if ( i_code == fCodeHfCov ){
          fjustap_2d_cc[i][j] = read_matrix(i,j);}
        if ( i_code == fCodeHfCor ){
          fjustap_2d_cc[i][j] = read_matrix(i,j);}
        if ( i_code == fCodeLfCov ){
          fjustap_2d_cc[i][j] = read_matrix(i,j);}
        if ( i_code == fCodeLfCor ){
          fjustap_2d_cc[i][j] = read_matrix(i,j);}
      }
    }

    //.......................... mise a zero du reste de la matrice (=init)
    for(Int_t i = fEcal->MaxCrysEcnaInStex(); i < justap_chan; i++){
      for(Int_t j = fEcal->MaxCrysEcnaInStex(); j < justap_chan; j++){
        fjustap_2d_cc[i][j] = (Double_t)0.;}}
  }

#endif //NOUC

  //************************************ Samples ***************************
  Int_t justap_samp = 0;
  
  if ( fEcal->MaxSampADC()%fSectSampSizeX == 0 ){
    justap_samp = fEcal->MaxSampADC();}
  else{
    justap_samp=((fEcal->MaxSampADC()/fSectSampSizeX)+1)*fSectSampSizeX;}

  //....................... allocation fjustap_2d_ss

  if (i_code == fCodeCovCss      || i_code == fCodeCorCss ||
      i_code == fCodeAvMeanCorss || i_code == fCodeAvSigCorss){
    if(fjustap_2d_ss == 0)
      {
        //................... Allocation
        fjustap_2d_ss = new Double_t*[justap_samp];              fCnew++;  
        fjustap_1d_ss = new  Double_t[justap_samp*justap_samp];  fCnew++;  
        for(Int_t i = 0 ; i < justap_samp ; i++){
          fjustap_2d_ss[i] = &fjustap_1d_ss[0] + i*justap_samp;}
      }

  //.............................. Transfert des valeurs dans fjustap_2d_ss (=init)
  for(Int_t i = 0; i < fEcal->MaxSampADC(); i++){
    for(Int_t j = 0; j < fEcal->MaxSampADC(); j++){
      if( i_code == fCodeCovCss ){
        fjustap_2d_ss[i][j] = read_matrix(i,j);}
      if( i_code == fCodeCorCss ){
        fjustap_2d_ss[i][j] = read_matrix(i,j);}
      if( i_code == fCodeAvMeanCorss ){
        fjustap_2d_ss[i][j] = read_matrix(i,j);}
      if( i_code == fCodeAvSigCorss ){
        fjustap_2d_ss[i][j] = read_matrix(i,j);}
    }
  }

  //.......................... mise a zero du reste de la matrice (=init)
  for(Int_t i = fEcal->MaxSampADC(); i < justap_samp; i++){
    for(Int_t j = fEcal->MaxSampADC(); j < justap_samp; j++){
      fjustap_2d_ss[i][j] = (Double_t)0.;}}
  }

  //..................... impressions + initialisations selon i_code
  
  Int_t isx_max = 0;    
  Int_t isy_max = 0;

#define COCC
#ifndef COCC
  if(i_code == fCodeHfCov)
    {
      fFcout_f << "Covariance matrix between channels "
               << "for sample number " << fUserSamp;
      isx_max = justap_chan;
      isy_max = justap_chan;
    }
  if(i_code == fCodeHfCor)
    {
      fFcout_f << "*Correlation matrix between channels "
               << "for sample number " << fUserSamp;
      isx_max = justap_chan;
      isy_max = justap_chan;
    }
  
  if(i_code == fCodeLfCov)
    {
      fFcout_f << "Covariance matrix between channels "
               << "averaged on the samples ";
      isx_max = justap_chan;
      isy_max = justap_chan;
    }
  if(i_code == fCodeLfCor)
    {
      fFcout_f << "Correlation matrix between channels "
               << "averaged on the samples ";
      isx_max = justap_chan;
      isy_max = justap_chan;
    }
#endif // COCC

  Int_t n1StexStin = 0; 
  Int_t i0StinEcha = 0;
  Int_t n1StinEcha = 0;
  
  if( fFlagSubDet == "EB")
    {
      n1StexStin = fStexStinUser;
      i0StinEcha = fEcalNumbering->Get0TowEchaFrom0SMEcha(fStinEchaUser);
    }
  if( fFlagSubDet == "EE")
    {
      n1StexStin = fStexStinUser;
      Int_t fStinEchaUser_m = fStinEchaUser-1;
      n1StinEcha = fEcalNumbering->Get1SCEchaFrom0DeeEcha(fStinEchaUser_m);
      
      TString sDeeDir = fEcalNumbering->GetDeeDirViewedFromIP(fStexNumber);
    }
  
  if(i_code == fCodeCovCss)
    {
      if( fFlagSubDet == "EB")
        {
          fFcout_f << "Covariance matrix between samples "
                   << "for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << i0StinEcha << ")";
        }
      if( fFlagSubDet == "EE")
        {
          fFcout_f << "Covariance matrix between samples "
                   << "for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << n1StinEcha << ")";
        }
      isx_max = justap_samp;
      isy_max = justap_samp;
    }
  if(i_code == fCodeCorCss)
    {
      if( fFlagSubDet == "EB")
        {
          fFcout_f << "Correlation matrix between samples "
                   << "for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << i0StinEcha << ")"; 
        }
      if( fFlagSubDet == "EE")
        {
          fFcout_f << "Correlation matrix between samples "
                   << "for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << n1StinEcha << ")"; 
        }
      isx_max = justap_samp;
      isy_max = justap_samp;
    }
 
  if(i_code == fCodeAvMeanCorss)
    {
      if( fFlagSubDet == "EB")
        {
          fFcout_f << "Correction factors to the covariances "
                   << "between samples for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << i0StinEcha << ")";
        }
      if( fFlagSubDet == "EE")
        {
          fFcout_f << "Correction factors to the covariances "
                   << "between samples for channel number " << fStinEchaUser
                   << " (" << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << n1StinEcha << ")";
        }
      isx_max = justap_samp;
      isy_max = justap_samp;
    }
  
  if(i_code == fCodeAvSigCorss)
    {
      if( fFlagSubDet == "EB")
        {
          fFcout_f << "Correction factors to the correlations "
                   << "between samples for channel number " << fStinEchaUser
                   << " ( " << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << i0StinEcha << ")";
        }
      if( fFlagSubDet == "EE")
        {
          fFcout_f << "Correction factors to the correlations "
                   << "between samples for channel number " << fStinEchaUser
                   << " ( " << fStinName << ": " << n1StexStin
                   << " , channel in " << fStinName << ": " << n1StinEcha << ")";
        }
      isx_max = justap_samp;
      isy_max = justap_samp;
    }
  
  fFcout_f << endl;

  //............... Calcul des nombres de secteurs selon x
  //                i_pasx  = taille secteur en x 
  //                isx_max = taille de la matrice en x
  //                n_sctx  = nombre de secteurs en x
  //
  if(i_pasx > isx_max){i_pasx = isx_max;}  
  Int_t n_sctx;
  Int_t max_verix; 
  n_sctx = isx_max/i_pasx;
  max_verix = n_sctx*i_pasx; 
  if(max_verix < isx_max){ n_sctx++;}

  //............... Calcul des nombres de secteurs selon y
  //                i_pasy  = taille secteur en y
  //                isy_max = taille de la matrice en y
  //                n_scty  = nombre de secteurs en x
  //
  if(i_pasy > isy_max){i_pasy = isy_max;} 
  Int_t n_scty;
  Int_t max_veriy; 
  n_scty = isy_max/i_pasy;
  max_veriy = n_scty*i_pasy; 
  if(max_veriy < isy_max){ n_scty++;}

#define NBSC
#ifndef NBSC
  //................ Ecriture de la taille et du nombre des secteurs
  if( i_code == fCodeCovCss      || i_code == fCodeCorCss ||
      i_code == fCodeAvMeanCorss || i_code == fCodeAvSigCorss)
    {
      fFcout_f << "sector size = " << fSectSampSizeX 
               << " , number of sectors = " << n_sctx << " x " << n_scty
               <<endl;
    }
 if( i_code == fCodeHfCov || i_code == fCodeHfCor ||
     i_code == fCodeLfCov || i_code == fCodeLfCor )
    {
      fFcout_f << "sector size = " << fSectChanSizeX 
               << " , number of sectors = " << n_sctx << " x " << n_scty
               << endl;
    }
#endif // NBSC

  fFcout_f << endl;

  //............... impression matrice par secteurs i_pas x i_pas  
  //........................... boucles pour display des secteurs 
  Int_t   ix_inf = -i_pasx;
  
  for(Int_t nsx = 0 ; nsx < n_sctx ; nsx++)
    { 
      //......................... calcul limites secteur
      ix_inf = ix_inf + i_pasx;
      Int_t   ix_sup = ix_inf + i_pasx; 
      
      Int_t   iy_inf = -i_pasy;
      
      for(Int_t nsy = 0 ; nsy < n_scty ; nsy++)
        {       
          iy_inf = iy_inf + i_pasy;          
          Int_t   iy_sup = iy_inf + i_pasy;
          
          //......................... display du secteur (nsx,nsy)
          
          if(i_code == fCodeHfCov || i_code == fCodeCovCss ||
             i_code == fCodeAvMeanCorss || i_code == fCodeAvSigCorss )
            {fFcout_f << "        ";}
          if(i_code == fCodeHfCor || i_code == fCodeCorCss)
            {fFcout_f << "      ";}
          
          for (Int_t iy_c = iy_inf ; iy_c < iy_sup ; iy_c++)
            {
              if(i_code == fCodeHfCov || i_code == fCodeLfCov || i_code == fCodeCovCss ||
                 i_code == fCodeAvMeanCorss ||
                 i_code == fCodeAvSigCorss)
                {fFcout_f.width(8);}
              if(i_code == fCodeHfCor || i_code == fCodeLfCor || i_code == fCodeCorCss)
                {fFcout_f.width(6);}
              fFcout_f << iy_c << "  ";
            }     
          fFcout_f << endl << endl;
          
          for (Int_t ix_c = ix_inf ; ix_c < ix_sup ; ix_c++)
            { 
              if(i_code == fCodeHfCov|| i_code == fCodeLfCov || i_code == fCodeCovCss ||
                 i_code == fCodeAvMeanCorss ||
                 i_code == fCodeAvSigCorss)
                {fFcout_f.width(8);}
              if(i_code == fCodeHfCor || i_code == fCodeLfCor || i_code == fCodeCorCss)
                {fFcout_f.width(6);}
              fFcout_f << ix_c << "   ";
              
              for (Int_t iy_c = iy_inf ; iy_c < iy_sup ; iy_c++)
                {
                  if(i_code == fCodeHfCov  ||
                     i_code == fCodeLfCov  ||
                     i_code == fCodeCovCss ||
                     i_code == fCodeAvMeanCorss || 
                     i_code == fCodeAvSigCorss ){
                    fFcout_f.width(8);}

                  if(i_code == fCodeHfCor || i_code == fCodeLfCor ||  i_code == fCodeCorCss){
                    fFcout_f.width(6);}
                  
                  if( i_code == fCodeHfCov ||  i_code == fCodeLfCov || i_code == fCodeHfCor){
                    fFcout_f << fjustap_2d_cc[ix_c][iy_c] << "  ";}
                  
                  if ( i_code == fCodeCovCss ||
                       i_code == fCodeCorCss ||
                       i_code == fCodeAvMeanCorss ||
                       i_code == fCodeAvSigCorss )
                    {
                      fFcout_f << fjustap_2d_ss[ix_c][iy_c] << "  ";
                    }
                }
              fFcout_f << endl;
            }
          fFcout_f << endl;
        }
    }

  //........... closing of the results file
  
  fFcout_f.close();
  
  if(fFlagPrint != fCodePrintNoComment)
    {
      cout << "*TEcnaWrite::fT2dWriteAscii(....)> INFO: "
           << "matrix has been written in file: " << endl
           << "            " << fAsciiFileName.Data() << endl;
    }
  
}// end of TEcnaWrite::fT2dWriteAscii
TString TEcnaWrite::GetAnalysisName ( )

Definition at line 386 of file TEcnaWrite.cc.

References fAnaType.

{return fAnaType;}
TString TEcnaWrite::GetAsciiFileName ( )

Definition at line 383 of file TEcnaWrite.cc.

References fAsciiFileName.

Referenced by TEcnaHistos::WriteHistoAscii(), and TEcnaHistos::WriteMatrixAscii().

{return fAsciiFileName;}
Int_t TEcnaWrite::GetFirstReqEvtNumber ( )

Definition at line 389 of file TEcnaWrite.cc.

References fFirstReqEvtNumber.

Int_t TEcnaWrite::GetNbOfSamples ( )

Definition at line 387 of file TEcnaWrite.cc.

References fNbOfSamples.

{return fNbOfSamples;}
Int_t TEcnaWrite::GetReqNbOfEvts ( )

Definition at line 390 of file TEcnaWrite.cc.

References fReqNbOfEvts.

{return fReqNbOfEvts;}
TString TEcnaWrite::GetRootFileName ( )
TString TEcnaWrite::GetRootFileNameShort ( )
Int_t TEcnaWrite::GetRunNumber ( )

Definition at line 388 of file TEcnaWrite.cc.

References fRunNumber.

{return fRunNumber;}
Int_t TEcnaWrite::GetStexNumber ( )

Definition at line 391 of file TEcnaWrite.cc.

References fStexNumber.

{return fStexNumber;}
void TEcnaWrite::Init ( void  )

Definition at line 134 of file TEcnaWrite.cc.

References fCnaParCout, fCodeCorCss, fCodeCovCss, fCodeHeaderAscii, fCodeHfn, fCodeLfn, fCodeMeanCorss, fCodeNbOfEvts, fCodePed, fCodePrintAllComments, fCodeRoot, fCodeSigCorss, fCodeTno, fgMaxCar, fjustap_1d_cc, fjustap_1d_ev, fjustap_1d_ss, fjustap_1d_var, fjustap_2d_cc, fjustap_2d_ev, fjustap_2d_ss, fjustap_2d_var, fStexStinUser, fStinEchaUser, fTTBELL, fUserSamp, and TEcnaParCout::GetCodePrint().

Referenced by TEcnaWrite().

{
  //----------------------------- Parameters values
  fTTBELL = '\007';

  fgMaxCar = (Int_t)512;              // max number of characters in TStrings
  fCodeHeaderAscii =  0;
  fCodeRoot        =  1;

  //------------------------------------------- Codes
  //................. presently used codes
  fCodeNbOfEvts    = 101;
  fCodePed         = 102;
  fCodeTno         = 103;
  fCodeLfn         = 104;
  fCodeHfn         = 105;
  fCodeMeanCorss   = 106;
  fCodeSigCorss    = 107;

  fCodeCovCss      = 201;
  fCodeCorCss      = 202;

  //................. not yet used codes 
  //fCodeAdcEvt      =  3;
  //fCodeMSp         =  4;  
  //fCodeSSp         =  5;

  //fCodeAvPed       = 17;
  //fCodeAvTno       =  6;
  //fCodeAvMeanCorss = 18;
  //fCodeAvSigCorss  = 19;

  //fCodeLfCov       = 11;
  //fCodeLfCor       = 12;
  //fCodeHfCov       =  9;
  //fCodeHfCor       = 10;

  //fCodeLFccMoStins = 13;
  //fCodeHFccMoStins = 14;
  
  //----------------------------------------

  fUserSamp     = 0;
  fStexStinUser = 0;
  fStinEchaUser = 0;

  fjustap_2d_ev  = 0;
  fjustap_1d_ev  = 0;

  fjustap_2d_var = 0;
  fjustap_1d_var = 0;

  fjustap_2d_cc  = 0;
  fjustap_1d_cc  = 0;

  fjustap_2d_ss  = 0;
  fjustap_1d_ss  = 0;

  fCodePrintAllComments = fCnaParCout->GetCodePrint("AllComments");

}
Int_t TEcnaWrite::NumberOfEventsAnalysis ( Int_t *  ArrayNbOfEvts,
const Int_t &  MaxArray,
const Int_t &  NbOfReqEvts,
const Int_t &  StexNumber 
)

Definition at line 407 of file TEcnaWrite.cc.

References gather_cfg::cout, TEcnaParEcal::EmptyChannelsInDeeMatrixIncompleteSCIncluded(), fCodePrintAllComments, fEcal, fEcalNumbering, fFlagPrint, fRootFileName, TEcnaParEcal::MaxCrysEcnaInDee(), TEcnaParEcal::MaxCrysInSM(), and TEcnaNumbering::PlusMinusSMNumber().

{
  //  CHECK THE NUMBER OF FOUND EVENTS, return rNumberOfEvents (NumberOfEvents())
  //  (number used to compute the average values over the events)
  //
  //  1D array: called by TEcnaRead object

  Int_t rNumberOfEvents = 0;
  Int_t PresentNumber   = 0;
  Int_t EmptyChannel    = 0;
  Int_t DifferentMinusValue = 0;
  Int_t DifferentPlusValue  = 0;

  //........................................................ i_SSoSE = StexStin or StinEcha
  for(Int_t i_SSoSE=0; i_SSoSE<MaxArray; i_SSoSE++)
    {
      Int_t NbOfEvts = ArrayNbOfEvts[i_SSoSE];

      if( NbOfEvts > 0 )
        {
          if( PresentNumber == 0 )   // first channel
            {
              PresentNumber = NbOfEvts;
            }
          else                      // current channel
            {
              if( NbOfEvts > PresentNumber )   // warning
                { 
                  PresentNumber = NbOfEvts;
                  DifferentPlusValue++;
                }
              if( NbOfEvts < PresentNumber )   // warning
                {
                  DifferentMinusValue++;
                }
            }
        }
      else
        {
          EmptyChannel++;
        }
    }

  rNumberOfEvents = PresentNumber;

  if( EmptyChannel > 0 )
    {
      if( MaxArray == fEcal->MaxCrysInSM() )  // (EB)
        {
          cout << "!TEcnaWrite::NumberOfEventsAnalysis()> *** WARNING *** "
               << EmptyChannel << " empty channels detected in SM " << StexNumber
               << " (EB " << fEcalNumbering->PlusMinusSMNumber(StexNumber) << ")" << endl;
        }
      if( MaxArray == fEcal->MaxCrysEcnaInDee() )  // (EE)
        {
          EmptyChannel -= fEcal->EmptyChannelsInDeeMatrixIncompleteSCIncluded();
          if( EmptyChannel > 0 )
            {
              cout << "!TEcnaWrite::NumberOfEventsAnalysis()> *** WARNING *** "
                   << EmptyChannel << " empty channels detected in Dee " << StexNumber << endl;
            }
        }
    }

  if( DifferentMinusValue > 0 || DifferentPlusValue > 0 )
    {
      cout << "!TEcnaWrite::NumberOfEventsAnalysis()> " << endl;

      if( MaxArray == fEcal->MaxCrysInSM() )  // (EB)
        {
          cout << "************** W A R N I N G  :  NUMBER OF EVENTS NOT CONSTANT FOR SM " << StexNumber
               << " (EB " << fEcalNumbering->PlusMinusSMNumber(StexNumber) << ")  *********************";
        }

      if( MaxArray == fEcal->MaxCrysEcnaInDee() )  // (EE)
        {
          cout << "****************** W A R N I N G  :  NUMBER OF EVENTS NOT CONSTANT FOR Dee " << StexNumber
               << " **************************";
        }

      cout << endl
           << "  Result ROOT file: " << fRootFileName << endl
           << "  The number of events is not the same for all the non-empty channels." << endl     
           << "  The maximum number (" << rNumberOfEvents << ") is considered as the number of events for calculations "
           << endl      
           << "  of pedestals, noises and correlations." << endl
           << "  Number of channels with 0 < nb of evts < " << rNumberOfEvents << " : " << DifferentMinusValue
           << endl
        // << "  Number of channels with nb of evts > " << rNumberOfEvents << " = " << DifferentPlusValue  << endl
           << "  Number of empty channels : " << EmptyChannel << endl
           << "  Some values of pedestals, noises and correlations may be wrong for channels" << endl
           << "  with number of events different from " << rNumberOfEvents << "." << endl
           << "  Please, check the histogram 'Numbers of events'." << endl
           << "*******************************************************************************************************"
           << endl;
    }
  else
    {
      if(fFlagPrint == fCodePrintAllComments)
        {
          if( rNumberOfEvents < NbOfReqEvts )
            {
              cout << "*TEcnaWrite::NumberOfEventsAnalysis()> *** INFO *** Number of events found in data = "
                   << rNumberOfEvents << ": less than number of requested events ( = " << NbOfReqEvts << ")" << endl;
            }
        }
    }
  return rNumberOfEvents;  
}
Int_t TEcnaWrite::NumberOfEventsAnalysis ( Int_t **  T2d_NbOfEvts,
const Int_t &  MaxCrysEcnaInStex,
const Int_t &  MaxNbOfSamples,
const Int_t &  NbOfReqEvts 
)

Definition at line 519 of file TEcnaWrite.cc.

References gather_cfg::cout, fCodePrintAllComments, fFlagPrint, and fRootFileName.

Referenced by TEcnaRead::GetNumberOfEvents(), and TEcnaRun::GetReadyToCompute().

{
  //  CHECK OF THE NUMBER OF FOUND EVENTS, return rNumberOfEvents (NumberOfEvents())
  //       (number used to compute the average values over the events)
  //
  //  2D array: called by TEcnaRun object

  Int_t rNumberOfEvents = 0;
  Int_t PresentNumber   = 0;
  Int_t DifferentMinusValue  = 0;
  Int_t DifferentPlusValue  = 0;

  for(Int_t i0StexEcha = 0 ; i0StexEcha < MaxCrysEcnaInStex ; i0StexEcha++)
    {
      for(Int_t i_samp = 0 ; i_samp < MaxNbOfSamples ; i_samp++)
        {
          Int_t NbOfEvts = T2d_NbOfEvts[i0StexEcha][i_samp];

          if( NbOfEvts > 0 )
            {
              if( PresentNumber == 0 )
                {
                  PresentNumber = NbOfEvts;
                }
              else
                {
                  if( NbOfEvts > PresentNumber )
                    { 
                      PresentNumber = NbOfEvts;
                      DifferentPlusValue++;
                    }
                  if( NbOfEvts < PresentNumber )
                    {
                      DifferentMinusValue++;
                    }
                }
            }
        }
    }
  //.............................................................  (NumberOfEvents())
  rNumberOfEvents = PresentNumber;

  if( DifferentMinusValue > 0 || DifferentPlusValue > 0 )
    {
      cout << "!TEcnaWrite::NumberOfEventsAnalysis()> " << endl
           << "****************** W A R N I N G  :  NUMBER OF EVENTS NOT CONSTANT !  *********************************"
           << endl
           << "  Result ROOT file: " << fRootFileName << endl
           << "  The number of events is not the same for all the non-empty channels" << endl      
           << "  The maximum number (" << rNumberOfEvents << ") is considered as the number of events " << endl 
           << "  for calculations of pedestals, noises and correlations." << endl
           << "  Number of channels with 0 < nb of evts < " << rNumberOfEvents << " : " << DifferentMinusValue << endl
        // << "  Number of channels with nb of evts > " << rNumberOfEvents << " : " << DifferentPlusValue  << endl
        // << "  Number of empty channels : " << EmptyChannel << endl
           << "  Some values of pedestals, noises and correlations may be wrong for channels" << endl
           << "  with number of events different from " << rNumberOfEvents << "." << endl
           << "  Please, check the histogram 'Numbers of events'." << endl
           << "*******************************************************************************************************"
           << endl;
    }
  else
    {
      if(fFlagPrint == fCodePrintAllComments)
        {
          if( rNumberOfEvents < NbOfReqEvts )
            {
              cout << "*TEcnaWrite::NumberOfEventsAnalysis()> *** INFO *** Number of events found in data = "
                   << rNumberOfEvents << ": less than number of requested events ( = " << NbOfReqEvts << ")" << endl;
            }
        }
    }
  return rNumberOfEvents;  
  
}//----- ( end of NumberOfEvents(...) ) ----------------
void TEcnaWrite::RegisterFileParameters ( const TString  ArgAnaType,
const Int_t &  ArgNbOfSamples,
const Int_t &  ArgRunNumber,
const Int_t &  ArgFirstReqEvtNumber,
const Int_t &  ArgLastReqEvtNumber,
const Int_t &  ArgReqNbOfEvts,
const Int_t &  ArgStexNumber,
const TString  ArgStartDate,
const TString  ArgStopDate,
const time_t  ArgStartTime,
const time_t  ArgStopTime 
)

Definition at line 609 of file TEcnaWrite.cc.

References fAnaType, fFirstReqEvtNumber, fLastReqEvtNumber, fNbOfSamples, fReqNbOfEvts, fRunNumber, fStartDate, fStartTime, fStexNumber, fStopDate, and fStopTime.

Referenced by TEcnaRead::FileParameters(), TEcnaRun::GetReadyToCompute(), TEcnaHistos::WriteHistoAscii(), TEcnaHistos::WriteMatrixAscii(), and TEcnaRun::WriteNewRootFile().

{
  fAnaType           = ArgAnaType;
  fNbOfSamples       = ArgNbOfSamples;
  fRunNumber         = ArgRunNumber;
  fFirstReqEvtNumber = ArgFirstReqEvtNumber;
  fLastReqEvtNumber  = ArgLastReqEvtNumber;
  fReqNbOfEvts       = ArgReqNbOfEvts;
  fStexNumber        = ArgStexNumber;
  fStartDate         = ArgStartDate;

  fStopDate          = ArgStopDate;
  fStartTime         = ArgStartTime;
  fStopTime          = ArgStopTime;
}
void TEcnaWrite::RegisterFileParameters ( const TString  ArgAnaType,
const Int_t &  ArgNbOfSamples,
const Int_t &  ArgRunNumber,
const Int_t &  ArgFirstReqEvtNumber,
const Int_t &  ArgLastReqEvtNumber,
const Int_t &  ArgReqNbOfEvts,
const Int_t &  ArgStexNumber 
)

Definition at line 595 of file TEcnaWrite.cc.

References fAnaType, fFirstReqEvtNumber, fLastReqEvtNumber, fNbOfSamples, fReqNbOfEvts, fRunNumber, and fStexNumber.

{
  fAnaType           = ArgAnaType;
  fNbOfSamples       = ArgNbOfSamples;
  fRunNumber         = ArgRunNumber;
  fFirstReqEvtNumber = ArgFirstReqEvtNumber;
  fLastReqEvtNumber  = ArgLastReqEvtNumber;
  fReqNbOfEvts       = ArgReqNbOfEvts;
  fStexNumber        = ArgStexNumber;
}
void TEcnaWrite::SetEcalSubDetector ( const TString  SubDet)

Definition at line 203 of file TEcnaWrite.cc.

References fEcal, fFlagSubDet, fgMaxCar, fNbChanByLine, fNbSampByLine, fSectChanSizeX, fSectChanSizeY, fSectSampSizeX, fSectSampSizeY, TEcnaParEcal::GetEcalSubDetector(), TEcnaParEcal::MaxCrysHocoInStin(), TEcnaParEcal::MaxCrysVecoInStin(), and TEcnaParEcal::MaxSampADC().

Referenced by TEcnaWrite().

{
 // Set Subdetector (EB or EE)

  Int_t MaxCar = fgMaxCar;
  fFlagSubDet.Resize(MaxCar);
  fFlagSubDet = fEcal->GetEcalSubDetector();

  //........................................................................
  //
  //             (for ASCII files writing methods only) ...
  //
  //                DEFINITION OF THE SECTOR SIZES
  //       FOR THE CORRELATION AND COVARIANCE MATRICES DISPLAY
  //
  //            MUST BE A DIVISOR OF THE TOTAL NUMBER.
  //            ======================================
  //
  //     Examples:
  //      
  //      (1)    25 channels => size = 25 or 5 (divisors of 25)
  //
  //             25 => matrix = 1 x 1 sector  of size (25 x 25)
  //                          = (1 x 1) x (25 x 25) = 1 x 625 = 625 
  //              5 => matrix = 5 x 5 sectors of size (5 x 5)
  //                          = (5 x 5) x ( 5 x  5) = 25 x 25 = 625 
  //
  //      (2)    10 samples  => size = 10, 5 or 2 (divisors of 10)
  //
  //             10 => matrix = 1 X 1 sectors of size (10 x 10) 
  //                          = (1 x 1) x (10 x 10) =  1 x 100 = 100
  //              5 => matrix = 2 x 2 sectors of size (5 x 5) 
  //                          = (2 x 2) x ( 5 x  5) =  4 x  25 = 100
  //              2 => matrix = 5 x 5 sectors of size (2 x 2) 
  //                          = (5 x 5) x ( 2 x  2) = 25 x  4  = 100
  //
  //........................................................................
  fSectChanSizeX = fEcal->MaxCrysHocoInStin();
  fSectChanSizeY = fEcal->MaxCrysVecoInStin();
  fSectSampSizeX = fEcal->MaxSampADC(); 
  fSectSampSizeY = fEcal->MaxSampADC();

  //........................................................................
  //
  //                DEFINITION OF THE NUMBER OF VALUES BY LINE
  //                for the Expectation Values, Variances and.
  //                Event distributions by (channel,sample)
  //
  //               MUST BE A DIVISOR OF THE TOTAL NUMBER.
  //               ======================================
  //
  //     Examples: 
  //                1) For expectation values and variances:
  //
  //                25 channels => size = 5
  //                => sample sector = 5 lines of 5 values
  //                                 = 5 x 5 = 25 values 
  //
  //                10 samples  => size = 10
  //                => channel sector = 1 lines of 10 values
  //                                  = 1 x 10 = 10 values
  //
  //                2) For event distributions:
  //
  //                100 bins  => size = 10
  //                => sample sector = 10 lines of 10 values
  //                                 = 10 x 10 = 100 values
  //
  //........................................................................
  fNbChanByLine = fEcal->MaxCrysHocoInStin();
  fNbSampByLine = fEcal->MaxSampADC();  
}//---------- (end of SetEcalSubDetector) ------------------
void TEcnaWrite::SetEcalSubDetector ( const TString  SubDet,
const TEcnaParEcal pEcal,
const TEcnaNumbering pEcalNumbering 
)

Definition at line 277 of file TEcnaWrite.cc.

References fCnew, fEcal, fEcalNumbering, fFlagSubDet, fgMaxCar, fNbChanByLine, fNbSampByLine, fSectChanSizeX, fSectChanSizeY, fSectSampSizeX, fSectSampSizeY, TEcnaParEcal::GetEcalSubDetector(), TEcnaParEcal::MaxCrysHocoInStin(), TEcnaParEcal::MaxCrysVecoInStin(), and TEcnaParEcal::MaxSampADC().

{
 // Set Subdetector (EB or EE)


  fEcal = 0;
  if( pEcal == 0 )
    {fEcal = new TEcnaParEcal(SubDet.Data());  fCnew++;}
  else
    {fEcal = (TEcnaParEcal*)pEcal;}

  Int_t MaxCar = fgMaxCar;
  fFlagSubDet.Resize(MaxCar);
  fFlagSubDet = fEcal->GetEcalSubDetector();

  fEcalNumbering = 0;
  if( pEcalNumbering == 0 )
    {fEcalNumbering = new TEcnaNumbering(SubDet.Data(), fEcal);  fCnew++;}
  else
    {fEcalNumbering = (TEcnaNumbering*)pEcalNumbering;}

  //........................................................................
  //
  //             (for ASCII files writing methods only) ...
  //
  //                DEFINITION OF THE SECTOR SIZES
  //       FOR THE CORRELATION AND COVARIANCE MATRICES DISPLAY
  //
  //            MUST BE A DIVISOR OF THE TOTAL NUMBER.
  //            ======================================
  //
  //     Examples:
  //      
  //      (1)    25 channels => size = 25 or 5 (divisors of 25)
  //
  //             25 => matrix = 1 x 1 sector  of size (25 x 25)
  //                          = (1 x 1) x (25 x 25) = 1 x 625 = 625 
  //              5 => matrix = 5 x 5 sectors of size (5 x 5)
  //                          = (5 x 5) x ( 5 x  5) = 25 x 25 = 625 
  //
  //      (2)    10 samples  => size = 10, 5 or 2 (divisors of 10)
  //
  //             10 => matrix = 1 X 1 sectors of size (10 x 10) 
  //                          = (1 x 1) x (10 x 10) =  1 x 100 = 100
  //              5 => matrix = 2 x 2 sectors of size (5 x 5) 
  //                          = (2 x 2) x ( 5 x  5) =  4 x  25 = 100
  //              2 => matrix = 5 x 5 sectors of size (2 x 2) 
  //                          = (5 x 5) x ( 2 x  2) = 25 x  4  = 100
  //
  //........................................................................
  fSectChanSizeX = fEcal->MaxCrysHocoInStin();
  fSectChanSizeY = fEcal->MaxCrysVecoInStin();
  fSectSampSizeX = fEcal->MaxSampADC(); 
  fSectSampSizeY = fEcal->MaxSampADC();

  //........................................................................
  //
  //                DEFINITION OF THE NUMBER OF VALUES BY LINE
  //                for the Expectation Values, Variances and.
  //                Event distributions by (channel,sample)
  //
  //               MUST BE A DIVISOR OF THE TOTAL NUMBER.
  //               ======================================
  //
  //     Examples: 
  //                1) For expectation values and variances:
  //
  //                25 channels => size = 5
  //                => sample sector = 5 lines of 5 values
  //                                 = 5 x 5 = 25 values 
  //
  //                10 samples  => size = 10
  //                => channel sector = 1 lines of 10 values
  //                                  = 1 x 10 = 10 values
  //
  //                2) For event distributions:
  //
  //                100 bins  => size = 10
  //                => sample sector = 10 lines of 10 values
  //                                 = 10 x 10 = 100 values
  //
  //........................................................................
  fNbChanByLine = fEcal->MaxCrysHocoInStin();
  fNbSampByLine = fEcal->MaxSampADC();  
}//---------- (end of SetEcalSubDetector) ------------------
void TEcnaWrite::WriteAsciiCorrelationsBetweenSamples ( const Int_t &  user_StexStin,
const Int_t &  user_StinEcha,
const Int_t &  MatSize,
const TMatrixD &  read_matrix 
)

Definition at line 1434 of file TEcnaWrite.cc.

References fAsciiFileWriteHeader(), fCodeCorCss, fEcalNumbering, fFlagSubDet, fMakeResultsFileName(), fSectSampSizeX, fSectSampSizeY, fStexNumber, fStexStinUser, fStinEchaUser, fT2dWriteAscii(), and TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna().

Referenced by TEcnaHistos::WriteMatrixAscii().

{
//Writing of the correlations between samples for a given StexEcha in an ASCII file


  if( fFlagSubDet == "EB" ){fStexStinUser = user_StexStin;}
  if( fFlagSubDet == "EE" ){fStexStinUser =
                              fEcalNumbering->GetDeeSCConsFrom1DeeSCEcna(fStexNumber, user_StexStin);}

  if( fFlagSubDet == "EB" ){fStinEchaUser = user_StinEcha;}
  if( fFlagSubDet == "EE" ){fStinEchaUser = user_StinEcha+1;}

  Int_t i_code = fCodeCorCss; // code for correlations between samples
  fMakeResultsFileName(i_code); 
  fAsciiFileWriteHeader(i_code);

  Int_t i_pasx = fSectSampSizeX;
  Int_t i_pasy = fSectSampSizeY;

  fT2dWriteAscii(i_code, i_pasx, i_pasy, MatSize, read_matrix);
}
void TEcnaWrite::WriteAsciiCovariancesBetweenSamples ( const Int_t &  user_StexStin,
const Int_t &  user_StinEcha,
const Int_t &  MatSize,
const TMatrixD &  read_matrix 
)

Definition at line 1404 of file TEcnaWrite.cc.

References fAsciiFileWriteHeader(), fCodeCovCss, fEcalNumbering, fFlagSubDet, fMakeResultsFileName(), fSectSampSizeX, fSectSampSizeY, fStexNumber, fStexStinUser, fStinEchaUser, fT2dWriteAscii(), and TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna().

Referenced by TEcnaHistos::WriteMatrixAscii().

{
//Writing of the covariances between samples for a given StexEcha in an ASCII file

  if( fFlagSubDet == "EB" ){fStexStinUser = user_StexStin;}
  if( fFlagSubDet == "EE" ){fStexStinUser =
                              fEcalNumbering->GetDeeSCConsFrom1DeeSCEcna(fStexNumber, user_StexStin);}

  if( fFlagSubDet == "EB" ){fStinEchaUser = user_StinEcha;}
  if( fFlagSubDet == "EE" ){fStinEchaUser = user_StinEcha+1;}

  Int_t i_code = fCodeCovCss;  // code for covariances between samples
  fMakeResultsFileName(i_code);  
  fAsciiFileWriteHeader(i_code);

  Int_t i_pasx = fSectSampSizeX;
  Int_t i_pasy = fSectSampSizeY;

  fT2dWriteAscii(i_code, i_pasx, i_pasy, MatSize, read_matrix);
}
void TEcnaWrite::WriteAsciiHisto ( const TString  HistoCode,
const Int_t &  HisSize,
const TVectorD &  read_histo 
)

Definition at line 1187 of file TEcnaWrite.cc.

References gather_cfg::cout, fAsciiFileName, fAsciiFileWriteHeader(), fCodeHfn, fCodeLfn, fCodeMeanCorss, fCodeNbOfEvts, fCodePed, fCodeSigCorss, fCodeTno, fEcalNumbering, fFcout_f, fFlagSubDet, fgMaxCar, fMakeResultsFileName(), fReqNbOfEvts, fStexNumber, TEcnaNumbering::Get0TowEchaFrom0SMEcha(), TEcnaNumbering::Get1DeeSCEcnaFrom0DeeEcha(), TEcnaNumbering::Get1SCEchaFrom0DeeEcha(), TEcnaNumbering::Get1SMCrysFrom1SMTowAnd0TowEcha(), TEcnaNumbering::Get1SMTowFrom0SMEcha(), TEcnaNumbering::GetDeeSCConsFrom1DeeSCEcna(), TEcnaNumbering::GetDSFrom1DeeSCEcna(), TEcnaNumbering::GetDSSCFrom1DeeSCEcna(), TEcnaNumbering::GetEta(), TEcnaNumbering::GetIXCrysInDee(), TEcnaNumbering::GetJYCrysInDee(), TEcnaNumbering::GetPhiInSM(), and relativeConstraints::value.

Referenced by TEcnaHistos::WriteHistoAscii().

{
//Write histo with correspondance CNA-channel <-> xtal number in SM or Dee

  // BuildCrysTable() is called in the method Init() which is called by the constructor

  Int_t i_code = fCodeNbOfEvts;

  //--------------------------------------------------------------------------------
  if( HistoCode == "D_NOE_ChNb" ){i_code = fCodeNbOfEvts;}
  if( HistoCode == "D_Ped_ChNb" ){i_code = fCodePed;}
  if( HistoCode == "D_TNo_ChNb" ){i_code = fCodeTno;}
  if( HistoCode == "D_LFN_ChNb" ){i_code = fCodeLfn;}
  if( HistoCode == "D_HFN_ChNb" ){i_code = fCodeHfn;}
  if( HistoCode == "D_MCs_ChNb" ){i_code = fCodeMeanCorss;}
  if( HistoCode == "D_SCs_ChNb" ){i_code = fCodeSigCorss;}

  fMakeResultsFileName(i_code);    // => Making of the results .ascii file name
  fAsciiFileWriteHeader(i_code);   // => Open of the file associated with stream fFcout_f

  //..................................... format numerical values
  fFcout_f << setiosflags(ios::showpoint | ios::uppercase);
  fFcout_f << setprecision(3) << setw(6);
  fFcout_f.setf(ios::dec, ios::basefield);
  fFcout_f.setf(ios::fixed, ios::floatfield);
  fFcout_f.setf(ios::left, ios::adjustfield);
  fFcout_f.setf(ios::right, ios::adjustfield);
  
  cout << setiosflags(ios::showpoint | ios::uppercase);
  cout << setprecision(3) << setw(6);
  cout.setf(ios::dec, ios::basefield);
  cout.setf(ios::fixed, ios::floatfield);
  cout.setf(ios::left, ios::adjustfield);
  cout.setf(ios::right, ios::adjustfield);

  //........................................................ WriteAsciiHisto
  TString aStexName;
  Int_t MaxCar = fgMaxCar;
  aStexName.Resize(MaxCar); 
  aStexName  = "SM or Dee?";
  
  TString aStinName;     
  MaxCar = fgMaxCar;
  aStinName.Resize(MaxCar); 
  aStinName  = "Tower or SC?";
  
  TString aHoco;
  MaxCar = fgMaxCar;
  aHoco.Resize(MaxCar); 
  aHoco  = "Eta or IX?";
  
  TString aVeco;
  MaxCar = fgMaxCar;
  aVeco.Resize(MaxCar); 
  aVeco  = "Phi or IY?";
  
  TString aSpecifa;     
  MaxCar = fgMaxCar;
  aSpecifa.Resize(MaxCar); 
  aSpecifa  = " ";
  
  TString aSpecifc;     
  MaxCar = fgMaxCar;
  aSpecifc.Resize(MaxCar); 
  aSpecifc  = " ";

  TString aSpecifd;     
  MaxCar = fgMaxCar;
  aSpecifd.Resize(MaxCar); 
  aSpecifd  = " ";

  TString aSpecife;     
  MaxCar = fgMaxCar;
  aSpecife.Resize(MaxCar); 
  aSpecife  = " ";
    
  TString aSpecif1;     
  MaxCar = fgMaxCar;
  aSpecif1.Resize(MaxCar); 
  aSpecif1  = " ";
  
  TString aSpecif2;
  MaxCar = fgMaxCar;
  aSpecif2.Resize(MaxCar); 
  aSpecif2  = " ";
  
  if( fFlagSubDet == "EB" )
    {
      aStexName = "SM   "     ; aStinName = "tower"     ; aSpecifa = " channel# ";
      aHoco     = "   Eta    "; aVeco     = "   Phi    "; aSpecifc = " channel# ";
      aSpecifd  = " crystal# "; aSpecife  = "SM    ";
    }
  if( fFlagSubDet == "EE" )
    {
      aStexName = "Dee  "     ; aStinName = " SC  "     ; aSpecifa = "  Sector# ";
      aHoco     = "   IX     "; aVeco     = "   IY     "; aSpecifc = " crystal# ";
      aSpecifd  = "   SC #   "; aSpecife  = "Sector";
    }
  
  //.............................................................. WriteAsciiHisto
  for (Int_t i0StexEcha=0; i0StexEcha<HisSize; i0StexEcha++)
    {
      Int_t n1StexStin   = 0;
      Int_t StexStinEcna = 0;
      Int_t i0StinEcha   = 0;
      Int_t n1StinEcha   = 0;
      Int_t n1StexCrys   = 0;
      Int_t n1DataSector = 0;
      Int_t n1SCinDS     = 0;

      if( fFlagSubDet == "EB")
        {
          n1StexStin   = fEcalNumbering->Get1SMTowFrom0SMEcha(i0StexEcha);
          StexStinEcna = n1StexStin;
          i0StinEcha   = fEcalNumbering->Get0TowEchaFrom0SMEcha(i0StexEcha);
          n1StexCrys   = fEcalNumbering->Get1SMCrysFrom1SMTowAnd0TowEcha(n1StexStin, i0StinEcha);
        }
      if( fFlagSubDet == "EE")
        {
          StexStinEcna = fEcalNumbering->Get1DeeSCEcnaFrom0DeeEcha(i0StexEcha);
          n1DataSector = fEcalNumbering->GetDSFrom1DeeSCEcna(fStexNumber, StexStinEcna);
          n1SCinDS     = fEcalNumbering->GetDSSCFrom1DeeSCEcna(fStexNumber, StexStinEcna);
          n1StexStin   = fEcalNumbering->GetDeeSCConsFrom1DeeSCEcna(fStexNumber, StexStinEcna);
          n1StinEcha   = fEcalNumbering->Get1SCEchaFrom0DeeEcha(i0StexEcha);
        }
      
      if( n1StexStin > 0 )
        {
          if( (fFlagSubDet == "EB" && i0StinEcha == 0) || (fFlagSubDet == "EE" && n1StinEcha == 1) )
            {
              if( HistoCode == "D_NOE_ChNb" ){aSpecif1 = "Number of"; aSpecif2 = "     events (requested)";}
              if( HistoCode == "D_Ped_ChNb" ){aSpecif1 = "Pedestals"; aSpecif2 = "             ";}
              if( HistoCode == "D_TNo_ChNb" ){aSpecif1 = "   Total "; aSpecif2 = "   noise     ";}
              if( HistoCode == "D_MCs_ChNb" ){aSpecif1 = "    Mean "; aSpecif2 = "   cor(s,s)  ";}
              if( HistoCode == "D_LFN_ChNb" ){aSpecif1 = "   Low Fq"; aSpecif2 = "   noise     ";}
              if( HistoCode == "D_HFN_ChNb" ){aSpecif1 = "  High Fq"; aSpecif2 = "   noise     ";}
              if( HistoCode == "D_SCs_ChNb" ){aSpecif1 = " Sigma of"; aSpecif2 = "   cor(s,s)  ";}
              
              fFcout_f << endl;
          
              fFcout_f << aSpecifa.Data()
                       << "  " << aStinName.Data() << "#   "
                       << aSpecifc.Data()
                       << aSpecifd.Data()
                       << aHoco.Data()
                       << aVeco.Data()
                       << aSpecif1.Data() << endl;
          
              fFcout_f << "  in " << aStexName.Data()
                       << "  in " << aStexName.Data()
                       << "  in " << aStinName.Data()
                       << "  in " << aSpecife.Data()
                       << "  in " << aStexName.Data()
                       << "  in " << aStexName.Data()
                       << aSpecif2.Data()  << endl << endl;
            }
 
          Double_t value = read_histo(i0StexEcha);

          if( fFlagSubDet == "EB" )
            {
              fFcout_f  << setw(7)  << i0StexEcha
                        << setw(8)  << n1StexStin
                        << setw(11) << i0StinEcha   // (Electronic channel number in tower)
                        << setw(10) << n1StexCrys
                        << setw(10) << (Int_t)fEcalNumbering->GetEta(fStexNumber, StexStinEcna, i0StinEcha)
                        << setw(10) << (Int_t)fEcalNumbering->GetPhiInSM(fStexNumber, StexStinEcna, i0StinEcha);
            }
          if( fFlagSubDet == "EE" )
            {
              Int_t n1StinEcha_m = n1StinEcha-1;
              fFcout_f  << setw(7)  << n1DataSector
                        << setw(8)  << n1StexStin
                        << setw(11) << n1StinEcha   // (Xtal number for construction in SC)
                        << setw(10) << n1SCinDS
                        << setw(10) << fEcalNumbering->GetIXCrysInDee(fStexNumber, StexStinEcna, n1StinEcha_m)
                        << setw(10) << fEcalNumbering->GetJYCrysInDee(fStexNumber, StexStinEcna, n1StinEcha_m);
            }

          if( HistoCode == "D_NOE_ChNb")
            {
              Int_t ivalue = (Int_t)value;
              fFcout_f  << setw(13) << ivalue;
              fFcout_f  << setw(4) << "(" << setw(6) << fReqNbOfEvts << ")";
            }
          else
            {
              fFcout_f  << setw(13) << value;
            }

          fFcout_f  << endl;
        }
    } // end of loop:  for (Int_t i0StexEcha=0; i0StexEcha<HisSize; i0StexEcha++)

  fFcout_f.close();
  
  // if(fFlagPrint != fCodePrintNoComment)
  // {
      cout << "*TEcnaWrite::WriteAsciiHisto(...)> INFO: "
           << "histo has been written in file: " << endl
           << "            " << fAsciiFileName.Data() << endl;
      // }
} // end of TEcnaWrite::WriteAsciiHisto

Member Data Documentation

Definition at line 145 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCdelete [private]

Definition at line 41 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCdeleteRoot [private]

Definition at line 42 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCnaCommand [private]

Definition at line 46 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCnaError [private]

Definition at line 46 of file TEcnaWrite.h.

Definition at line 58 of file TEcnaWrite.h.

Referenced by Init(), and TEcnaWrite().

Definition at line 57 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and TEcnaWrite().

Int_t TEcnaWrite::fCnew [private]

Definition at line 41 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), fT2dWriteAscii(), and SetEcalSubDetector().

Int_t TEcnaWrite::fCnewRoot [private]

Definition at line 42 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCodeAdcEvt [private]

Definition at line 77 of file TEcnaWrite.h.

Definition at line 83 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and fT2dWriteAscii().

Int_t TEcnaWrite::fCodeAvPed [private]

Definition at line 81 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCodeAvSigCorss [private]

Definition at line 84 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and fT2dWriteAscii().

Int_t TEcnaWrite::fCodeAvTno [private]

Definition at line 82 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCodeCorCss [private]
Int_t TEcnaWrite::fCodeCovCss [private]

Definition at line 63 of file TEcnaWrite.h.

Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), and Init().

Definition at line 92 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCodeHfCor [private]

Definition at line 89 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii().

Int_t TEcnaWrite::fCodeHfCov [private]

Definition at line 88 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii().

Int_t TEcnaWrite::fCodeHfn [private]

Definition at line 70 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Definition at line 91 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCodeLfCor [private]

Definition at line 87 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and fT2dWriteAscii().

Int_t TEcnaWrite::fCodeLfCov [private]

Definition at line 86 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and fT2dWriteAscii().

Int_t TEcnaWrite::fCodeLfn [private]

Definition at line 69 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Int_t TEcnaWrite::fCodeMeanCorss [private]

Definition at line 71 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Int_t TEcnaWrite::fCodeMSp [private]

Definition at line 78 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCodeNbOfEvts [private]

Definition at line 66 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Int_t TEcnaWrite::fCodePed [private]

Definition at line 67 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Definition at line 51 of file TEcnaWrite.h.

Referenced by Init(), and NumberOfEventsAnalysis().

Definition at line 51 of file TEcnaWrite.h.

Definition at line 51 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii().

Definition at line 51 of file TEcnaWrite.h.

Int_t TEcnaWrite::fCodeRoot [private]

Definition at line 64 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and Init().

Int_t TEcnaWrite::fCodeSigCorss [private]

Definition at line 72 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

Int_t TEcnaWrite::fCodeSSp [private]

Definition at line 79 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fCodeTno [private]

Definition at line 68 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), and WriteAsciiHisto().

ofstream TEcnaWrite::fFcout_f [private]

Definition at line 60 of file TEcnaWrite.h.

Referenced by fAsciiFileWriteHeader(), fT2dWriteAscii(), and WriteAsciiHisto().

Int_t TEcnaWrite::fFlagPrint [private]

Definition at line 50 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and NumberOfEventsAnalysis().

TString TEcnaWrite::fFlagSubDet [private]
Int_t TEcnaWrite::fgMaxCar [private]

Definition at line 40 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), Init(), SetEcalSubDetector(), and WriteAsciiHisto().

Double_t* TEcnaWrite::fjustap_1d_cc [private]

Definition at line 113 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and Init().

Double_t* TEcnaWrite::fjustap_1d_ev [private]

Definition at line 107 of file TEcnaWrite.h.

Referenced by Init().

Double_t* TEcnaWrite::fjustap_1d_ss [private]

Definition at line 116 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and Init().

Double_t* TEcnaWrite::fjustap_1d_var [private]

Definition at line 110 of file TEcnaWrite.h.

Referenced by Init().

Double_t** TEcnaWrite::fjustap_2d_cc [private]

Definition at line 112 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and Init().

Double_t** TEcnaWrite::fjustap_2d_ev [private]

Definition at line 106 of file TEcnaWrite.h.

Referenced by Init().

Double_t** TEcnaWrite::fjustap_2d_ss [private]

Definition at line 115 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and Init().

Double_t** TEcnaWrite::fjustap_2d_var [private]

Definition at line 109 of file TEcnaWrite.h.

Referenced by Init().

Int_t TEcnaWrite::fNbChanByLine [private]

Definition at line 98 of file TEcnaWrite.h.

Referenced by SetEcalSubDetector().

Int_t TEcnaWrite::fNbSampByLine [private]

Definition at line 99 of file TEcnaWrite.h.

Referenced by SetEcalSubDetector().

Definition at line 137 of file TEcnaWrite.h.

Definition at line 142 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), GetRootFileName(), and NumberOfEventsAnalysis().

Int_t TEcnaWrite::fSectChanSizeX [private]

Definition at line 95 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and SetEcalSubDetector().

Int_t TEcnaWrite::fSectChanSizeY [private]

Definition at line 95 of file TEcnaWrite.h.

Referenced by SetEcalSubDetector().

Int_t TEcnaWrite::fSectSampSizeX [private]
Int_t TEcnaWrite::fSectSampSizeY [private]

Definition at line 138 of file TEcnaWrite.h.

Referenced by fAsciiFileWriteHeader(), and RegisterFileParameters().

Definition at line 139 of file TEcnaWrite.h.

Referenced by RegisterFileParameters().

Definition at line 134 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName().

Int_t TEcnaWrite::fStexStinUser [private]
Int_t TEcnaWrite::fStinEchaUser [private]

Definition at line 135 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and fT2dWriteAscii().

Definition at line 138 of file TEcnaWrite.h.

Referenced by fAsciiFileWriteHeader(), and RegisterFileParameters().

Definition at line 139 of file TEcnaWrite.h.

Referenced by RegisterFileParameters().

TString TEcnaWrite::fTTBELL [private]

Definition at line 44 of file TEcnaWrite.h.

Referenced by fMakeResultsFileName(), and Init().

Int_t TEcnaWrite::fUserSamp [private]

Definition at line 100 of file TEcnaWrite.h.

Referenced by fT2dWriteAscii(), and Init().