#include <TEcnaWrite.h>
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 |
TEcnaParCout * | fCnaParCout |
TEcnaParPaths * | fCnaParPaths |
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 |
TEcnaParEcal * | fEcal |
TEcnaNumbering * | fEcalNumbering |
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 |
----------------------------------------------------------- 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.
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] |
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 | ( | ) |
Definition at line 639 of file TEcnaWrite.cc.
References fCodeRoot.
Referenced by TEcnaRead::FileParameters(), TEcnaRun::GetReadyToCompute(), WriteAsciiCorrelationsBetweenSamples(), WriteAsciiCovariancesBetweenSamples(), WriteAsciiHisto(), and TEcnaRun::WriteNewRootFile().
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 | ( | ) |
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.
{return fFirstReqEvtNumber;}
Int_t TEcnaWrite::GetNbOfSamples | ( | ) |
Int_t TEcnaWrite::GetReqNbOfEvts | ( | ) |
TString TEcnaWrite::GetRootFileName | ( | ) |
Definition at line 384 of file TEcnaWrite.cc.
References fRootFileName.
Referenced by TEcnaRead::GetRootFileName(), TEcnaRead::ReadAverageHighFrequencyNoise(), TEcnaRead::ReadAverageLowFrequencyNoise(), TEcnaRead::ReadAverageMeanCorrelationsBetweenSamples(), TEcnaRead::ReadAveragePedestals(), TEcnaRead::ReadAverageSigmaOfCorrelationsBetweenSamples(), TEcnaRead::ReadAverageTotalNoise(), TEcnaRead::ReadCorrelationsBetweenSamples(), TEcnaRead::ReadCovariancesBetweenSamples(), TEcnaRead::ReadHighFrequencyCorrelationsBetweenChannels(), TEcnaRead::ReadHighFrequencyCovariancesBetweenChannels(), TEcnaRead::ReadHighFrequencyMeanCorrelationsBetweenStins(), TEcnaRead::ReadHighFrequencyNoise(), TEcnaRead::ReadLowFrequencyCorrelationsBetweenChannels(), TEcnaRead::ReadLowFrequencyCovariancesBetweenChannels(), TEcnaRead::ReadLowFrequencyMeanCorrelationsBetweenStins(), TEcnaRead::ReadLowFrequencyNoise(), TEcnaRead::ReadMeanCorrelationsBetweenSamples(), TEcnaRead::ReadNumberOfEventsForSamples(), TEcnaRead::ReadPedestals(), TEcnaRead::ReadRelevantCorrelationsBetweenSamples(), TEcnaRead::ReadRootFileHeader(), TEcnaRead::ReadSampleAdcValues(), TEcnaRead::ReadSampleMeans(), TEcnaRead::ReadSampleSigmas(), TEcnaRead::ReadSigmaOfCorrelationsBetweenSamples(), TEcnaRead::ReadStinNumbers(), TEcnaRead::ReadTotalNoise(), TEcnaRun::WriteNewRootFile(), and TEcnaRun::WriteRootFile().
{return fRootFileName;}
TString TEcnaWrite::GetRootFileNameShort | ( | ) |
Definition at line 385 of file TEcnaWrite.cc.
References fRootFileNameShort.
Referenced by TEcnaRead::GetRootFileNameShort(), TEcnaRun::WriteNewRootFile(), and TEcnaRun::WriteRootFile().
{return fRootFileNameShort;}
Int_t TEcnaWrite::GetRunNumber | ( | ) |
Int_t TEcnaWrite::GetStexNumber | ( | ) |
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
TString TEcnaWrite::fAnaType |
Definition at line 127 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), GetAnalysisName(), and RegisterFileParameters().
TString TEcnaWrite::fAsciiFileName |
Definition at line 144 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), fT2dWriteAscii(), GetAsciiFileName(), and WriteAsciiHisto().
TString TEcnaWrite::fAsciiFileNameShort |
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.
TEcnaParCout* TEcnaWrite::fCnaParCout [private] |
Definition at line 58 of file TEcnaWrite.h.
Referenced by Init(), and TEcnaWrite().
TEcnaParPaths* TEcnaWrite::fCnaParPaths [private] |
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.
Int_t TEcnaWrite::fCodeAvMeanCorss [private] |
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] |
Definition at line 75 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), fT2dWriteAscii(), Init(), and WriteAsciiCorrelationsBetweenSamples().
Int_t TEcnaWrite::fCodeCovCss [private] |
Definition at line 74 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), fT2dWriteAscii(), Init(), and WriteAsciiCovariancesBetweenSamples().
Int_t TEcnaWrite::fCodeHeaderAscii [private] |
Definition at line 63 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), and Init().
Int_t TEcnaWrite::fCodeHFccMoStins [private] |
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().
Int_t TEcnaWrite::fCodeLFccMoStins [private] |
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().
Int_t TEcnaWrite::fCodePrintAllComments [private] |
Definition at line 51 of file TEcnaWrite.h.
Referenced by Init(), and NumberOfEventsAnalysis().
Int_t TEcnaWrite::fCodePrintComments [private] |
Definition at line 51 of file TEcnaWrite.h.
Int_t TEcnaWrite::fCodePrintNoComment [private] |
Definition at line 51 of file TEcnaWrite.h.
Referenced by fT2dWriteAscii().
Int_t TEcnaWrite::fCodePrintWarnings [private] |
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().
TEcnaParEcal* TEcnaWrite::fEcal [private] |
Definition at line 53 of file TEcnaWrite.h.
Referenced by fT2dWriteAscii(), NumberOfEventsAnalysis(), SetEcalSubDetector(), and TEcnaWrite().
TEcnaNumbering* TEcnaWrite::fEcalNumbering [private] |
Definition at line 56 of file TEcnaWrite.h.
Referenced by fT2dWriteAscii(), NumberOfEventsAnalysis(), SetEcalSubDetector(), TEcnaWrite(), WriteAsciiCorrelationsBetweenSamples(), WriteAsciiCovariancesBetweenSamples(), and WriteAsciiHisto().
ofstream TEcnaWrite::fFcout_f [private] |
Definition at line 60 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fT2dWriteAscii(), and WriteAsciiHisto().
Definition at line 130 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), GetFirstReqEvtNumber(), and RegisterFileParameters().
Int_t TEcnaWrite::fFlagPrint [private] |
Definition at line 50 of file TEcnaWrite.h.
Referenced by fT2dWriteAscii(), and NumberOfEventsAnalysis().
TString TEcnaWrite::fFlagSubDet [private] |
Definition at line 54 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), fT2dWriteAscii(), SetEcalSubDetector(), WriteAsciiCorrelationsBetweenSamples(), WriteAsciiCovariancesBetweenSamples(), and WriteAsciiHisto().
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().
Definition at line 131 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), and RegisterFileParameters().
Int_t TEcnaWrite::fNbChanByLine [private] |
Definition at line 98 of file TEcnaWrite.h.
Referenced by SetEcalSubDetector().
Int_t TEcnaWrite::fNbOfSamples |
Definition at line 128 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), GetNbOfSamples(), and RegisterFileParameters().
Int_t TEcnaWrite::fNbSampByLine [private] |
Definition at line 99 of file TEcnaWrite.h.
Referenced by SetEcalSubDetector().
TString TEcnaWrite::fPathForAsciiFiles |
Definition at line 137 of file TEcnaWrite.h.
Int_t TEcnaWrite::fReqNbOfEvts |
Definition at line 132 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), GetReqNbOfEvts(), RegisterFileParameters(), and WriteAsciiHisto().
TString TEcnaWrite::fRootFileName |
Definition at line 142 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), GetRootFileName(), and NumberOfEventsAnalysis().
TString TEcnaWrite::fRootFileNameShort |
Definition at line 141 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), GetRootFileNameShort(), TEcnaRead::ReadAverageHighFrequencyNoise(), TEcnaRead::ReadAverageLowFrequencyNoise(), TEcnaRead::ReadAverageMeanCorrelationsBetweenSamples(), TEcnaRead::ReadAveragePedestals(), TEcnaRead::ReadAverageSigmaOfCorrelationsBetweenSamples(), TEcnaRead::ReadAverageTotalNoise(), TEcnaRead::ReadCorrelationsBetweenSamples(), TEcnaRead::ReadCovariancesBetweenSamples(), TEcnaRead::ReadHighFrequencyCorrelationsBetweenChannels(), TEcnaRead::ReadHighFrequencyCovariancesBetweenChannels(), TEcnaRead::ReadHighFrequencyMeanCorrelationsBetweenStins(), TEcnaRead::ReadHighFrequencyNoise(), TEcnaRead::ReadLowFrequencyCorrelationsBetweenChannels(), TEcnaRead::ReadLowFrequencyCovariancesBetweenChannels(), TEcnaRead::ReadLowFrequencyMeanCorrelationsBetweenStins(), TEcnaRead::ReadLowFrequencyNoise(), TEcnaRead::ReadMeanCorrelationsBetweenSamples(), TEcnaRead::ReadNumberOfEventsForSamples(), TEcnaRead::ReadPedestals(), TEcnaRead::ReadRelevantCorrelationsBetweenSamples(), TEcnaRead::ReadRootFileHeader(), TEcnaRead::ReadSampleAdcValues(), TEcnaRead::ReadSampleAdcValuesSameFile(), TEcnaRead::ReadSampleMeans(), TEcnaRead::ReadSampleSigmas(), TEcnaRead::ReadSigmaOfCorrelationsBetweenSamples(), TEcnaRead::ReadStinNumbers(), and TEcnaRead::ReadTotalNoise().
Int_t TEcnaWrite::fRunNumber |
Definition at line 129 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), GetRunNumber(), and RegisterFileParameters().
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] |
Definition at line 96 of file TEcnaWrite.h.
Referenced by fT2dWriteAscii(), SetEcalSubDetector(), WriteAsciiCorrelationsBetweenSamples(), and WriteAsciiCovariancesBetweenSamples().
Int_t TEcnaWrite::fSectSampSizeY [private] |
Definition at line 96 of file TEcnaWrite.h.
Referenced by SetEcalSubDetector(), WriteAsciiCorrelationsBetweenSamples(), and WriteAsciiCovariancesBetweenSamples().
TString TEcnaWrite::fStartDate |
Definition at line 138 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), and RegisterFileParameters().
time_t TEcnaWrite::fStartTime |
Definition at line 139 of file TEcnaWrite.h.
Referenced by RegisterFileParameters().
TString TEcnaWrite::fStexName |
Definition at line 134 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName().
Int_t TEcnaWrite::fStexNumber |
Definition at line 133 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), fMakeResultsFileName(), fT2dWriteAscii(), GetStexNumber(), RegisterFileParameters(), WriteAsciiCorrelationsBetweenSamples(), WriteAsciiCovariancesBetweenSamples(), and WriteAsciiHisto().
Int_t TEcnaWrite::fStexStinUser [private] |
Definition at line 101 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), fT2dWriteAscii(), Init(), WriteAsciiCorrelationsBetweenSamples(), and WriteAsciiCovariancesBetweenSamples().
Int_t TEcnaWrite::fStinEchaUser [private] |
Definition at line 102 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), fT2dWriteAscii(), Init(), WriteAsciiCorrelationsBetweenSamples(), and WriteAsciiCovariancesBetweenSamples().
TString TEcnaWrite::fStinName |
Definition at line 135 of file TEcnaWrite.h.
Referenced by fMakeResultsFileName(), and fT2dWriteAscii().
TString TEcnaWrite::fStopDate |
Definition at line 138 of file TEcnaWrite.h.
Referenced by fAsciiFileWriteHeader(), and RegisterFileParameters().
time_t TEcnaWrite::fStopTime |
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().