/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id$ */ /* History of cvs commits: * * $Log: AliPHOSDigitizer.cxx,v $ * Revision 1.104 2007/12/18 09:08:18 hristov * Splitting of the QA maker into simulation and reconstruction dependent parts (Yves) * * Revision 1.103 2007/11/07 11:25:06 schutz * Comment out the QA checking before starting digitization * * Revision 1.102 2007/10/19 18:04:29 schutz * The standalone QA data maker is called from AliSimulation and AliReconstruction outside the event loop; i.e. re-reading the data. The QA data making in the event loop has been commented out. * * Revision 1.101 2007/10/14 21:08:10 schutz * Introduced the checking of QA results from previous step before entering the event loop * * Revision 1.100 2007/10/10 09:05:10 schutz * Changing name QualAss to QA * * Revision 1.99 2007/09/30 17:08:20 schutz * Introducing the notion of QA data acquisition cycle (needed by online) * * Revision 1.98 2007/09/26 14:22:17 cvetan * Important changes to the reconstructor classes. Complete elimination of the run-loaders, which are now steered only from AliReconstruction. Removal of the corresponding Reconstruct() and FillESD() methods. * * Revision 1.97 2007/08/07 14:12:03 kharlov * Quality assurance added (Yves Schutz) * * Revision 1.96 2007/04/28 10:43:36 policheh * Dead channels simulation: digit energy sets to 0. * * Revision 1.95 2007/04/10 07:20:52 kharlov * Decalibration should use the same CDB as calibration in AliPHOSClusterizerv1 * * Revision 1.94 2007/02/01 10:34:47 hristov * Removing warnings on Solaris x86 * * Revision 1.93 2006/10/17 13:17:01 kharlov * Replace AliInfo by AliDebug * * Revision 1.92 2006/08/28 10:01:56 kharlov * Effective C++ warnings fixed (Timur Pocheptsov) * * Revision 1.91 2006/04/29 20:25:30 hristov * Decalibration is implemented (Yu.Kharlov) * * Revision 1.90 2006/04/22 10:30:17 hristov * Add fEnergy to AliPHOSDigit and operate with EMC amplitude in energy units (Yu.Kharlov) * * Revision 1.89 2006/04/11 15:22:59 hristov * run number in query set to -1: forces AliCDBManager to use its run number (A.Colla) * * Revision 1.88 2006/03/13 14:05:43 kharlov * Calibration objects for EMC and CPV * * Revision 1.87 2005/08/24 15:33:49 kharlov * Calibration data for raw digits * * Revision 1.86 2005/07/12 20:07:35 hristov * Changes needed to run simulation and reconstrruction in the same AliRoot session * * Revision 1.85 2005/05/28 14:19:04 schutz * Compilation warnings fixed by T.P. * */ //_________________________________________________________________________ //*-- Author : Dmitri Peressounko (SUBATECH & Kurchatov Institute) ////////////////////////////////////////////////////////////////////////////// // This class performs digitization of Summable digits (in the PHOS case it is just // the sum of contributions from all primary particles into a given cell). // In addition it performs mixing of summable digits from different events. // The name of the class is also the title of the branch that will contain // the created SDigits // The title of the class is the name of the file that contains the hits from // which the SDigits are created // // For each event two branches are created in TreeD: // "PHOS" - list of digits // "AliPHOSDigitizer" - AliPHOSDigitizer with all parameters used in digitization // // Note, that one can set a title for new digits branch, and repeat digitization with // another set of parameters. // // Use case: // root[0] AliPHOSDigitizer * d = new AliPHOSDigitizer() ; // root[1] d->Digitize() // Warning in : object already instantiated // //Digitizes SDigitis in all events found in file galice.root // // root[2] AliPHOSDigitizer * d1 = new AliPHOSDigitizer("galice1.root") ; // // Will read sdigits from galice1.root // root[3] d1->MixWith("galice2.root") // Warning in : object already instantiated // // Reads another set of sdigits from galice2.root // root[3] d1->MixWith("galice3.root") // // Reads another set of sdigits from galice3.root // root[4] d->Digitize("deb timing") // // Reads SDigits from files galice1.root, galice2.root .... // // mixes them and stores produced Digits in file galice1.root // // deb - prints number of produced digits // // deb all - prints list of produced digits // // timing - prints time used for digitization // // --- ROOT system --- #include "TTree.h" #include "TSystem.h" #include "TBenchmark.h" #include "TRandom.h" #include "TMath.h" // --- Standard library --- // --- AliRoot header files --- #include #include "AliLog.h" #include "AliDigitizationInput.h" #include "AliPHOSDigit.h" #include "AliPHOSDigitizer.h" #include "AliPHOSGeometry.h" #include "AliPHOSTick.h" #include "AliPHOSSimParam.h" #include "AliPHOSCalibData.h" #include "AliRunLoader.h" #include "AliPHOSLoader.h" #include "AliPHOSPulseGenerator.h" ClassImp(AliPHOSDigitizer) //____________________________________________________________________________ AliPHOSDigitizer::AliPHOSDigitizer() : AliDigitizer("",""), fDefaultInit(kTRUE), fDigitsInRun(0), fInit(kFALSE), fInput(0), fInputFileNames(0x0), fEventNames(0x0), fEmcCrystals(0), fEventFolderName(""), fFirstEvent(0), fLastEvent(0), fcdb(0x0), fEventCounter(0), fPulse(0), fADCValuesLG(0), fADCValuesHG(0) { // ctor InitParameters() ; fDigInput = 0 ; // We work in the standalong mode } //____________________________________________________________________________ AliPHOSDigitizer::AliPHOSDigitizer(TString alirunFileName, TString eventFolderName): AliDigitizer("PHOSDigitizer", alirunFileName), fDefaultInit(kFALSE), fDigitsInRun(0), fInit(kFALSE), fInput(0), fInputFileNames(0x0), fEventNames(0x0), fEmcCrystals(0), fEventFolderName(eventFolderName), fFirstEvent(0), fLastEvent(0), fcdb(0x0), fEventCounter(0), fPulse(0), fADCValuesLG(0), fADCValuesHG(0) { // ctor InitParameters() ; Init() ; fDefaultInit = kFALSE ; fDigInput = 0 ; // We work in the standalone mode fcdb = new AliPHOSCalibData(-1); } //____________________________________________________________________________ AliPHOSDigitizer::AliPHOSDigitizer(AliDigitizationInput * rd) : AliDigitizer(rd,"PHOSDigitizer"), fDefaultInit(kFALSE), fDigitsInRun(0), fInit(kFALSE), fInput(0), fInputFileNames(0x0), fEventNames(0x0), fEmcCrystals(0), fEventFolderName(fDigInput->GetInputFolderName(0)), fFirstEvent(0), fLastEvent(0), fcdb (0x0), fEventCounter(0), fPulse(0), fADCValuesLG(0), fADCValuesHG(0) { // ctor Init() is called by RunDigitizer fDigInput = rd ; SetTitle(static_cast(fDigInput->GetInputStream(0))->GetFileName(0)); InitParameters() ; fDefaultInit = kFALSE ; fcdb = new AliPHOSCalibData(-1); } //____________________________________________________________________________ AliPHOSDigitizer::~AliPHOSDigitizer() { // dtor delete [] fInputFileNames ; delete [] fEventNames ; delete fPulse; delete [] fADCValuesLG; delete [] fADCValuesHG; if(fcdb){ delete fcdb ; fcdb=0;} } //____________________________________________________________________________ void AliPHOSDigitizer::Digitize(Int_t event) { // Makes the digitization of the collected summable digits. // It first creates the array of all PHOS modules // filled with noise (different for EMC, and CPV) and // then adds contributions from SDigits. // This design avoids scanning over the list of digits to add // contribution to new SDigits only. Bool_t toMakeNoise = kTRUE ; //Do not create noisy digits if merge with real data //First stream AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); Int_t readEvent = event ; if (fDigInput) readEvent = static_cast(fDigInput->GetInputStream(0))->GetCurrentEventNumber() ; AliDebug(1,Form("Adding event %d from input stream 0 %s %s", readEvent, GetTitle(), fEventFolderName.Data())) ; rl->GetEvent(readEvent) ; phosLoader->CleanSDigits() ; phosLoader->LoadSDigits("READ") ; //Prepare Output TClonesArray * digits = phosLoader->Digits() ; if( !digits ) { phosLoader->MakeDigitsArray() ; digits = phosLoader->Digits() ; } digits->Clear() ; // const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; //Making digits with noise, first EMC //Check which PHOS modules are present Bool_t isPresent[5] ; TString volpath ; Int_t nmod=0 ; for(Int_t i=0; i<5; i++){ volpath = "/ALIC_1/PHOS_"; volpath += i+1; if (gGeoManager->CheckPath(volpath.Data())) { isPresent[i]=1 ; nmod++ ; } else{ isPresent[i]=0 ; } } Int_t nEMC = nmod*geom->GetNPhi()*geom->GetNZ(); Int_t nCPV ; Int_t absID ; //check if CPV exists Bool_t isCPVpresent=0 ; for(Int_t i=1; i<=5 && !isCPVpresent; i++){ volpath = "/ALIC_1/PHOS_"; volpath += i; volpath += "/PCPV_1"; if (gGeoManager->CheckPath(volpath.Data())) isCPVpresent=1 ; } if(isCPVpresent){ nCPV = nEMC + geom->GetNumberOfCPVPadsZ() * geom->GetNumberOfCPVPadsPhi() * nmod ; } else{ nCPV = nEMC ; } digits->Expand(nCPV) ; //take all the inputs to add together and load the SDigits TObjArray * sdigArray = new TObjArray(fInput) ; sdigArray->AddAt(phosLoader->SDigits(), 0) ; for(Int_t i = 1 ; i < fInput ; i++){ TString tempo(fEventNames[i]) ; tempo += i ; AliRunLoader* rl2 = AliRunLoader::GetRunLoader(tempo) ; if(!rl2){ rl2 = AliRunLoader::Open(fInputFileNames[i], tempo) ; if (!rl2) { Fatal("AliPHOSDigitizer", "Could not find the Run Loader for %s - %s",fInputFileNames[i].Data(), tempo.Data()) ; return ; } rl2->LoadHeader(); } AliPHOSLoader * phosLoader2 = static_cast(rl2->GetLoader("PHOSLoader")); if(fDigInput){ readEvent = static_cast(fDigInput->GetInputStream(i))->GetCurrentEventNumber() ; } TClonesArray * digs ; if(AliPHOSSimParam::GetInstance()->IsStreamDigits(i)){ //This is Digits Stream AliInfo(Form("Adding event %d from input stream %d %s %s", readEvent, i, fInputFileNames[i].Data(), tempo.Data())) ; rl2->GetEvent(readEvent) ; phosLoader2->CleanDigits() ; phosLoader2->LoadDigits("READ") ; digs = phosLoader2->Digits() ; toMakeNoise=0 ; //Do not add noise, it is already in stream } else{ AliInfo(Form("Adding event %d (SDigits) from input stream %d %s %s", readEvent, i, fInputFileNames[i].Data(), tempo.Data())) ; rl2->GetEvent(readEvent) ; phosLoader2->CleanSDigits() ; phosLoader2->LoadSDigits("READ") ; digs = phosLoader2->SDigits() ; } sdigArray->AddAt(digs, i) ; } //Find the first crystal with signal Int_t nextSig = 200000 ; TClonesArray * sdigits ; for(Int_t i = 0 ; i < fInput ; i++){ sdigits = static_cast(sdigArray->At(i)) ; if ( !sdigits->GetEntriesFast() ) continue ; Int_t curNext = static_cast(sdigits->At(0))->GetId() ; if(curNext < nextSig) nextSig = curNext ; } TArrayI index(fInput) ; index.Reset() ; //Set all indexes to zero AliPHOSDigit * digit ; AliPHOSDigit * curSDigit ; // TClonesArray * ticks = new TClonesArray("AliPHOSTick",1000) ; //Put Noise contribution Double_t apdNoise = 0. ; if(toMakeNoise) apdNoise = AliPHOSSimParam::GetInstance()->GetAPDNoise() ; Int_t emcpermod=geom->GetNPhi()*geom->GetNZ(); Int_t idigit= 0; for(Int_t imod=0; imod<5; imod++){ if(!isPresent[imod]) continue ; Int_t firstAbsId=imod*emcpermod+1 ; Int_t lastAbsId =(imod+1)*emcpermod ; for(absID = firstAbsId ; absID <= lastAbsId ; absID++){ Float_t noise = gRandom->Gaus(0.,apdNoise) ; new((*digits)[idigit]) AliPHOSDigit( -1, absID, noise, TimeOfNoise() ) ; //look if we have to add signal? digit = static_cast(digits->At(idigit)) ; idigit++ ; if(absID==nextSig){ //Add SDigits from all inputs // ticks->Clear() ; // Int_t contrib = 0 ; //New Timing model is necessary // Float_t a = digit->GetEnergy() ; // Float_t b = TMath::Abs( a / fTimeSignalLength) ; // //Mark the beginning of the signal // new((*ticks)[contrib++]) AliPHOSTick(digit->GetTime(),0, b); // //Mark the end of the signal // new((*ticks)[contrib++]) AliPHOSTick(digit->GetTime()+fTimeSignalLength, -a, -b); // Calculate time as time of the largest digit Float_t time = digit->GetTime() ; Float_t eTime= digit->GetEnergy() ; //loop over inputs for(Int_t i = 0 ; i < fInput ; i++){ if( static_cast(sdigArray->At(i))->GetEntriesFast() > index[i] ){ curSDigit = static_cast(static_cast(sdigArray->At(i))->At(index[i])) ; if(AliPHOSSimParam::GetInstance()->IsStreamDigits(i)){ //This is Digits Stream curSDigit->SetEnergy(Calibrate(curSDigit->GetEnergy(),curSDigit->GetId())) ; curSDigit->SetTime(CalibrateT(curSDigit->GetTime(),curSDigit->GetId())) ; } } else curSDigit = 0 ; //May be several digits will contribute from the same input while(curSDigit && curSDigit->GetId() == absID){ //Shift primary to separate primaries belonging different inputs Int_t primaryoffset ; if(fDigInput) primaryoffset = fDigInput->GetMask(i) ; else primaryoffset = 10000000*i ; curSDigit->ShiftPrimary(primaryoffset) ; //New Timing model is necessary // a = curSDigit->GetEnergy() ; // b = a /fTimeSignalLength ; // new((*ticks)[contrib++]) AliPHOSTick(curSDigit->GetTime(),0, b); // new((*ticks)[contrib++]) AliPHOSTick(curSDigit->GetTime()+fTimeSignalLength, -a, -b); if(curSDigit->GetEnergy()>eTime){ eTime=curSDigit->GetEnergy() ; time=curSDigit->GetTime() ; } *digit += *curSDigit ; //add energies index[i]++ ; if( static_cast(sdigArray->At(i))->GetEntriesFast() > index[i] ) curSDigit = static_cast(static_cast(sdigArray->At(i))->At(index[i])) ; else curSDigit = 0 ; } } //calculate and set time //New Timing model is necessary // Float_t time = FrontEdgeTime(ticks) ; digit->SetTime(time) ; //Find next signal module nextSig = 200000 ; for(Int_t i = 0 ; i < fInput ; i++){ sdigits = static_cast(sdigArray->At(i)) ; Int_t curNext = nextSig ; if(sdigits->GetEntriesFast() > index[i] ){ curNext = static_cast(sdigits->At(index[i]))->GetId() ; } if(curNext < nextSig) nextSig = curNext ; } } } } //Apply non-linearity if(AliPHOSSimParam::GetInstance()->IsCellNonlinearityOn()){ //Apply non-lineairyt on cell level const Double_t aNL = AliPHOSSimParam::GetInstance()->GetCellNonLineairyA() ; const Double_t bNL = AliPHOSSimParam::GetInstance()->GetCellNonLineairyB() ; const Double_t cNL = AliPHOSSimParam::GetInstance()->GetCellNonLineairyC() ; for(Int_t i = 0 ; i < nEMC ; i++){ digit = static_cast( digits->At(i) ) ; Double_t e= digit->GetEnergy() ; // version(1) digit->SetEnergy(e*(1+a*TMath::Exp(-e/b))) ; digit->SetEnergy(e*cNL*(1.+aNL*TMath::Exp(-e*e/2./bNL/bNL))) ; //Better agreement with data... } } //distretize energy if necessary if(AliPHOSSimParam::GetInstance()->IsEDigitizationOn()){ Float_t adcW=AliPHOSSimParam::GetInstance()->GetADCchannelW() ; for(Int_t i = 0 ; i < nEMC ; i++){ digit = static_cast( digits->At(i) ) ; digit->SetEnergy(adcW*ceil(digit->GetEnergy()/adcW)) ; } } //Apply decalibration if necessary for(Int_t i = 0 ; i < nEMC ; i++){ digit = static_cast( digits->At(i) ) ; Decalibrate(digit) ; } // ticks->Delete() ; // delete ticks ; //Now CPV digits (different noise and no timing) Int_t cpvpermod = geom->GetNumberOfCPVPadsZ() * geom->GetNumberOfCPVPadsPhi() ; Int_t nEMCtotal=emcpermod*5 ; Float_t cpvNoise = AliPHOSSimParam::GetInstance()->GetCPVNoise() ; if(isCPVpresent){ //CPV is present in current geometry for(Int_t imod=0; imod<5; imod++){ //module is present in current geometry if(!isPresent[imod]) continue ; Int_t firstAbsId=nEMCtotal+imod*cpvpermod+1 ; Int_t lastAbsId =nEMCtotal+(imod+1)*cpvpermod ; for(absID = firstAbsId; absID <= lastAbsId; absID++){ Float_t noise = gRandom->Gaus(0., cpvNoise) ; new((*digits)[idigit]) AliPHOSDigit( -1,absID,noise, TimeOfNoise() ) ; idigit++ ; //look if we have to add signal? if(absID==nextSig){ digit = static_cast(digits->At(idigit-1)) ; //Add SDigits from all inputs for(Int_t i = 0 ; i < fInput ; i++){ if( static_cast(sdigArray->At(i))->GetEntriesFast() > index[i] ) curSDigit = static_cast( static_cast(sdigArray->At(i))->At(index[i])) ; else curSDigit = 0 ; //May be several digits will contribute from the same input while(curSDigit && curSDigit->GetId() == absID){ //Shift primary to separate primaries belonging different inputs Int_t primaryoffset ; if(fDigInput) primaryoffset = fDigInput->GetMask(i) ; else primaryoffset = 10000000*i ; curSDigit->ShiftPrimary(primaryoffset) ; //add energies *digit += *curSDigit ; index[i]++ ; if( static_cast(sdigArray->At(i))->GetEntriesFast() > index[i] ) curSDigit = static_cast( static_cast(sdigArray->At(i))->At(index[i]) ) ; else curSDigit = 0 ; } } //Find next signal module nextSig = 200000 ; for(Int_t i = 0 ; i < fInput ; i++){ sdigits = static_cast(sdigArray->At(i)) ; Int_t curNext = nextSig ; if(sdigits->GetEntriesFast() > index[i] ) curNext = static_cast( sdigits->At(index[i]) )->GetId() ; if(curNext < nextSig) nextSig = curNext ; } } } } } delete sdigArray ; //We should not delete its contents Int_t relId[4]; //set amplitudes in bad channels to zero for(Int_t i = 0 ; i GetEntriesFast(); i++){ digit = static_cast( digits->At(i) ) ; geom->AbsToRelNumbering(digit->GetId(),relId); if(relId[1] == 0) // Emc if(fcdb->IsBadChannelEmc(relId[0],relId[3],relId[2])) digit->SetEnergy(0.); } //remove digits below thresholds Float_t emcThreshold = AliPHOSSimParam::GetInstance()->GetEmcDigitsThreshold() ; for(Int_t i = 0 ; i < nEMC ; i++){ digit = static_cast( digits->At(i) ) ; if(digit->GetEnergy() < emcThreshold){ digits->RemoveAt(i) ; continue ; } geom->AbsToRelNumbering(digit->GetId(),relId); // digit->SetEnergy(TMath::Ceil(digit->GetEnergy())-0.9999) ; Float_t tres = TimeResolution(digit->GetEnergy()) ; digit->SetTime(gRandom->Gaus(digit->GetTime(), tres) ) ; fPulse->Reset(); fPulse->SetAmplitude(digit->GetEnergy()/ fcdb->GetADCchannelEmc(relId[0],relId[3],relId[2])); fPulse->SetTZero(digit->GetTimeR()); fPulse->MakeSamples(); fPulse->GetSamples(fADCValuesHG, fADCValuesLG) ; Int_t nSamples = fPulse->GetRawFormatTimeBins(); digit->SetALTROSamplesHG(nSamples,fADCValuesHG); digit->SetALTROSamplesLG(nSamples,fADCValuesLG); } Float_t cpvDigitThreshold = AliPHOSSimParam::GetInstance()->GetCpvDigitsThreshold() ; for(Int_t i = nEMC; i < nCPV ; i++){ if( static_cast(digits->At(i))->GetEnergy() < cpvDigitThreshold ) digits->RemoveAt(i) ; } digits->Compress() ; Int_t ndigits = digits->GetEntriesFast() ; //Set indexes in list of digits and make true digitization of the energy for (Int_t i = 0 ; i < ndigits ; i++) { digit = static_cast( digits->At(i) ) ; digit->SetIndexInList(i) ; if(digit->GetId() > fEmcCrystals){ //digitize CPV only digit->SetAmp(DigitizeCPV(digit->GetEnergy(),digit->GetId()) ) ; } } } //____________________________________________________________________________ Float_t AliPHOSDigitizer::Calibrate(Float_t amp,Int_t absId){ //Apply calibration const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; //Determine rel.position of the cell absolute ID Int_t relId[4]; geom->AbsToRelNumbering(absId,relId); Int_t module=relId[0]; Int_t row =relId[2]; Int_t column=relId[3]; if(relId[1]==0){ //This Is EMC Float_t calibration = fcdb->GetADCchannelEmc(module,column,row); return amp*calibration ; } return 0 ; } //____________________________________________________________________________ void AliPHOSDigitizer::Decalibrate(AliPHOSDigit *digit) { // Decalibrate EMC digit, i.e. change its energy by a factor read from CDB const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; //Determine rel.position of the cell absolute ID Int_t relId[4]; geom->AbsToRelNumbering(digit->GetId(),relId); Int_t module=relId[0]; Int_t row =relId[2]; Int_t column=relId[3]; if(relId[1]==0){ //This Is EMC Float_t decalib = fcdb->GetADCchannelEmcDecalib(module,column,row); // O(1) Float_t calibration = fcdb->GetADCchannelEmc(module,column,row)*decalib; Float_t energy = digit->GetEnergy()/calibration; digit->SetEnergy(energy); //Now digit measures E in ADC counts Float_t time = digit->GetTime() ; time-=fcdb->GetTimeShiftEmc(module,column,row); digit->SetTime(time) ; } } //____________________________________________________________________________ Float_t AliPHOSDigitizer::CalibrateT(Float_t time,Int_t absId){ //Apply time calibration const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; //Determine rel.position of the cell absolute ID Int_t relId[4]; geom->AbsToRelNumbering(absId,relId); Int_t module=relId[0]; Int_t row =relId[2]; Int_t column=relId[3]; time += fcdb->GetTimeShiftEmc(module,column,row); return time ; } //____________________________________________________________________________ Int_t AliPHOSDigitizer::DigitizeCPV(Float_t charge, Int_t absId) { // Returns digitized value of the CPV charge in a pad absId const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; //Determine rel.position of the cell absId Int_t relId[4]; geom->AbsToRelNumbering(absId,relId); Int_t module=relId[0]; Int_t row =relId[2]; Int_t column=relId[3]; Int_t channel = 0; if(absId > fEmcCrystals){ //digitize CPV only //reading calibration data for cell absId. Float_t adcPedestalCpv = fcdb->GetADCpedestalCpv(module,column,row); Float_t adcChanelCpv = fcdb->GetADCchannelCpv( module,column,row); channel = (Int_t) TMath::Ceil((charge - adcPedestalCpv)/adcChanelCpv) ; Int_t nMax = AliPHOSSimParam::GetInstance()->GetNADCcpv() ; if(channel > nMax ) channel = nMax ; } return channel ; } //____________________________________________________________________________ void AliPHOSDigitizer::Digitize(Option_t *option) { // Steering method to process digitization for events // in the range from fFirstEvent to fLastEvent. // This range is optionally set by SetEventRange(). // if fLastEvent=-1, then process events until the end. // by default fLastEvent = fFirstEvent (process only one event) if (!fInit) { // to prevent overwrite existing file AliError(Form("Give a version name different from %s", fEventFolderName.Data() )) ; return ; } if (strstr(option,"print")) { Print(); return ; } if(strstr(option,"tim")) gBenchmark->Start("PHOSDigitizer"); AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); if (fLastEvent == -1) fLastEvent = rl->GetNumberOfEvents() - 1 ; else if (fDigInput) fLastEvent = fFirstEvent ; Int_t nEvents = fLastEvent - fFirstEvent + 1; Int_t ievent ; for (ievent = fFirstEvent; ievent <= fLastEvent; ievent++) { fEventCounter++ ; Digitize(ievent) ; //Add prepared SDigits to digits and add the noise WriteDigits() ; if(strstr(option,"deb")) PrintDigits(option); //increment the total number of Digits per run fDigitsInRun += phosLoader->Digits()->GetEntriesFast() ; } if(strstr(option,"tim")){ gBenchmark->Stop("PHOSDigitizer"); TString message ; message = " took %f seconds for Digitizing %f seconds per event\n" ; AliInfo(Form( message.Data(), gBenchmark->GetCpuTime("PHOSDigitizer"), gBenchmark->GetCpuTime("PHOSDigitizer")/nEvents )); } } //____________________________________________________________________________ Float_t AliPHOSDigitizer::TimeResolution(Float_t e){ //calculate TOF resolution using beam-test resutls Float_t a=AliPHOSSimParam::GetInstance()->GetTOFa() ; Float_t b=AliPHOSSimParam::GetInstance()->GetTOFb() ; return TMath::Sqrt(a*a+b*b/e) ; } ////____________________________________________________________________________ //Float_t AliPHOSDigitizer::FrontEdgeTime(TClonesArray * ticks) const //{ // // Returns the shortest time among all time ticks // // ticks->Sort() ; //Sort in accordance with times of ticks // TIter it(ticks) ; // AliPHOSTick * ctick = (AliPHOSTick *) it.Next() ; // Float_t time = ctick->CrossingTime(fTimeThreshold) ; // // AliPHOSTick * t ; // while((t=(AliPHOSTick*) it.Next())){ // if(t->GetTime() < time) //This tick starts before crossing // *ctick+=*t ; // else // return time ; // // time = ctick->CrossingTime(fTimeThreshold) ; // } // return time ; //} //____________________________________________________________________________ Bool_t AliPHOSDigitizer::Init() { // Makes all memory allocations fInit = kTRUE ; AliPHOSGeometry *geom; if (!(geom = AliPHOSGeometry::GetInstance())) geom = AliPHOSGeometry::GetInstance("IHEP",""); // const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; fEmcCrystals = geom->GetNModules() * geom->GetNCristalsInModule() ; fFirstEvent = 0 ; fLastEvent = fFirstEvent ; if (fDigInput) fInput = fDigInput->GetNinputs() ; else fInput = 1 ; fInputFileNames = new TString[fInput] ; fEventNames = new TString[fInput] ; fInputFileNames[0] = GetTitle() ; fEventNames[0] = fEventFolderName.Data() ; Int_t index ; for (index = 1 ; index < fInput ; index++) { fInputFileNames[index] = static_cast(fDigInput->GetInputStream(index))->GetFileName(0); TString tempo = fDigInput->GetInputFolderName(index) ; fEventNames[index] = tempo.Remove(tempo.Length()-1) ; // strip of the stream number added by fDigInput } //to prevent cleaning of this object while GetEvent is called AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; if(!rl){ AliRunLoader::Open(GetTitle(), fEventFolderName) ; } return fInit ; } //____________________________________________________________________________ void AliPHOSDigitizer::InitParameters() { // Set initial parameters Digitizer fDigitsInRun = 0 ; SetEventRange(0,-1) ; fPulse = new AliPHOSPulseGenerator(); fADCValuesLG = new Int_t[fPulse->GetRawFormatTimeBins()]; fADCValuesHG = new Int_t[fPulse->GetRawFormatTimeBins()]; } //__________________________________________________________________ void AliPHOSDigitizer::Print(const Option_t *)const { // Print Digitizer's parameters AliInfo(Form("\n------------------- %s -------------", GetName() )) ; if( strcmp(fEventFolderName.Data(), "") != 0 ){ printf(" Writing Digits to branch with title %s\n", fEventFolderName.Data()) ; Int_t nStreams ; if (fDigInput) nStreams = GetNInputStreams() ; else nStreams = fInput ; Int_t index = 0 ; for (index = 0 ; index < nStreams ; index++) { TString tempo(fEventNames[index]) ; tempo += index ; printf ("Adding SDigits from %s \n", fInputFileNames[index].Data()) ; } // printf("\nWith following parameters:\n") ; // printf(" Electronics noise in EMC (fPinNoise) = %f GeV\n", fPinNoise ) ; // printf(" Threshold in EMC (fEMCDigitThreshold) = %f GeV\n", fEMCDigitThreshold ) ; // printf(" Noise in CPV (fCPVNoise) = %f aux units\n", fCPVNoise ) ; // printf(" Threshold in CPV (fCPVDigitThreshold) = %f aux units\n",fCPVDigitThreshold ) ; printf(" ---------------------------------------------------\n") ; } else AliInfo(Form("AliPHOSDigitizer not initialized" )) ; } //__________________________________________________________________ void AliPHOSDigitizer::PrintDigits(Option_t * option) { // Print a table of digits AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); TClonesArray * digits = phosLoader->Digits() ; const AliPHOSGeometry *geom = AliPHOSGeometry::GetInstance() ; AliInfo(Form("%d", digits->GetEntriesFast())) ; printf("\nevent %d", gAlice->GetEvNumber()) ; printf("\n Number of entries in Digits list %d", digits->GetEntriesFast() ) ; if(strstr(option,"all")||strstr(option,"EMC")){ //loop over digits AliPHOSDigit * digit; printf("\nEMC digits (with primaries):\n") ; printf("\n Id Amplitude Time Index Nprim: Primaries list \n") ; Int_t maxEmc = geom->GetNModules()*geom->GetNCristalsInModule() ; Int_t index ; for (index = 0 ; (index < digits->GetEntriesFast()) && (static_cast(digits->At(index))->GetId() <= maxEmc) ; index++) { digit = (AliPHOSDigit * ) digits->At(index) ; if(digit->GetNprimary() == 0) continue; // printf("%6d %8d %6.5e %4d %2d :", // digit->GetId(), digit->GetAmp(), digit->GetTime(), digit->GetIndexInList(), digit->GetNprimary()) ; // YVK printf("%6d %.4f %6.5e %4d %2d :", digit->GetId(), digit->GetEnergy(), digit->GetTime(), digit->GetIndexInList(), digit->GetNprimary()) ; Int_t iprimary; for (iprimary=0; iprimaryGetNprimary(); iprimary++) { printf("%d ",digit->GetPrimary(iprimary+1) ) ; } printf("\n") ; } } if(strstr(option,"all")||strstr(option,"CPV")){ //loop over CPV digits AliPHOSDigit * digit; printf("\nCPV digits (with primaries):\n") ; printf("\n Id Amplitude Time Index Nprim: Primaries list \n") ; Int_t maxEmc = geom->GetNModules()*geom->GetNCristalsInModule() ; Int_t index ; for (index = 0 ; index < digits->GetEntriesFast(); index++) { digit = (AliPHOSDigit * ) digits->At(index) ; if(digit->GetId() > maxEmc){ printf("%6d %8d %4d %2d :", digit->GetId(), digit->GetAmp(), digit->GetIndexInList(), digit->GetNprimary()) ; Int_t iprimary; for (iprimary=0; iprimaryGetNprimary(); iprimary++) { printf("%d ",digit->GetPrimary(iprimary+1) ) ; } printf("\n") ; } } } } //__________________________________________________________________ Float_t AliPHOSDigitizer::TimeOfNoise(void) const { // Calculates the time signal generated by noise //PH Info("TimeOfNoise", "Change me") ; return gRandom->Rndm() * 1.28E-5; } //__________________________________________________________________ void AliPHOSDigitizer::Unload() { Int_t i ; for(i = 1 ; i < fInput ; i++){ TString tempo(fEventNames[i]) ; tempo += i ; AliRunLoader* rl = AliRunLoader::GetRunLoader(tempo) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); phosLoader->UnloadSDigits() ; } AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); phosLoader->UnloadDigits() ; } //____________________________________________________________________________ void AliPHOSDigitizer::WriteDigits() { // Makes TreeD in the output file. // Check if branch already exists: // if yes, exit without writing: ROOT TTree does not support overwriting/updating of // already existing branches. // else creates branch with Digits, named "PHOS", title "...", // and branch "AliPHOSDigitizer", with the same title to keep all the parameters // and names of files, from which digits are made. AliRunLoader* rl = AliRunLoader::GetRunLoader(fEventFolderName) ; AliPHOSLoader * phosLoader = static_cast(rl->GetLoader("PHOSLoader")); const TClonesArray * digits = phosLoader->Digits() ; TTree * treeD = phosLoader->TreeD(); if(!treeD){ phosLoader->MakeTree("D"); treeD = phosLoader->TreeD(); } // -- create Digits branch Int_t bufferSize = 32000 ; TBranch * digitsBranch = treeD->Branch("PHOS","TClonesArray",&digits,bufferSize); digitsBranch->SetTitle(fEventFolderName); digitsBranch->Fill() ; phosLoader->WriteDigits("OVERWRITE"); Unload() ; }