/************************************************************************** * Copyright(c) 1998-2000, 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. * **************************************************************************/ //_________________________________________________________________________// // // // This is a TTask that makes TOF-Digits out of TOF-SDigits. // // The simulation of the detector is performed at sdigits level: // // during digitization the unique task is the sum of all sdigits in the // // same pad. // // Digits are written to TreeD in branch "TOF". // // // // -- Author : F. Pierella (Bologna University) pierella@bo.infn.it // // // //_________________________________________________________________________// //#include "Riostream.h" //#include "TFile.h" #include "TMath.h" #include "TH1F.h" #include "TTree.h" #include "TRandom.h" #include "TObjArray.h" #include "AliLoader.h" #include "AliLog.h" #include "AliDigitizationInput.h" #include "AliRunLoader.h" #include "AliRun.h" #include "AliTOFcalib.h" //#include "AliTOFChannelOnlineArray.h" //#include "AliTOFChannelOnlineStatusArray.h" //#include "AliTOFChannelOffline.h" #include "AliTOFDigitizer.h" #include "AliTOFdigit.h" #include "AliTOFHitMap.h" #include "AliTOFGeometry.h" #include "AliTOFSDigit.h" #include "AliTOF.h" extern TRandom *gRandom; extern AliRun *gAlice; ClassImp(AliTOFDigitizer) //___________________________________________ AliTOFDigitizer::AliTOFDigitizer() : AliDigitizer(), fDigits(new TClonesArray("AliTOFdigit",4000)), fSDigitsArray(new TClonesArray("AliTOFSDigit",1000)), fhitMap(0x0), fCalib(new AliTOFcalib()) { // Default ctor - don't use it InitDecalibration(); } //___________________________________________ AliTOFDigitizer::AliTOFDigitizer(AliDigitizationInput* digInput): AliDigitizer(digInput), fDigits(new TClonesArray("AliTOFdigit",4000)), fSDigitsArray(new TClonesArray("AliTOFSDigit",1000)), fhitMap(0x0), fCalib(new AliTOFcalib()) { //ctor with RunDigitizer InitDecalibration(); } //------------------------------------------------------------------------ AliTOFDigitizer::AliTOFDigitizer(const AliTOFDigitizer &source): AliDigitizer(source), fDigits(source.fDigits), fSDigitsArray(source.fSDigitsArray), fhitMap(source.fhitMap), fCalib(source.fCalib) { // copy constructor } //------------------------------------------------------------------------ AliTOFDigitizer& AliTOFDigitizer::operator=(const AliTOFDigitizer &source) { // ass. op. if (this == &source) return *this; AliDigitizer::operator=(source); fDigits=source.fDigits; fSDigitsArray=source.fSDigitsArray; fhitMap=source.fhitMap; fCalib=source.fCalib; return *this; } //------------------------------------------------------------------------ AliTOFDigitizer::~AliTOFDigitizer() { // Destructor delete fCalib; if (fDigits){ fDigits->Delete(); delete fDigits; fDigits=0x0; } if (fSDigitsArray){ fSDigitsArray->Delete(); delete fSDigitsArray; fSDigitsArray=0x0; } } //--------------------------------------------------------------------- void AliTOFDigitizer::Digitize(Option_t* /*option*/) { // // Perform digitization and merging. // The algorithm is the following: // - a hitmap is created to check if a pad is already activated; // - an sdigits container is created to collect all sdigits from // different files; // - sdigits are summed using the hitmap; // - the sdigits container is used to create the array of AliTOFdigit. // AliDebug(1, ""); // get the ptr to TOF detector AliTOF * tof = (AliTOF *) gAlice->GetDetector("TOF") ; //Make branches const Int_t kSize = 20; char branchname[kSize]; snprintf(branchname,kSize,"%s", tof->GetName ()); AliRunLoader* outrl = AliRunLoader::GetRunLoader(fDigInput->GetOutputFolderName()); if (outrl == 0x0) { AliError("Can not find Run Loader in output folder."); return; } AliLoader* outgime = outrl->GetLoader("TOFLoader"); if (outgime == 0x0) { AliError("Can not get TOF Loader from Output Run Loader."); return; } TTree* treeD = outgime->TreeD(); if (treeD == 0x0) { outgime->MakeTree("D"); treeD = outgime->TreeD(); } //Make branch for digits (to be created in Init()) tof->MakeBranchInTree(treeD,branchname,&fDigits,4000); // container for all summed sdigits (to be created in Init()) //fSDigitsArray=new TClonesArray("AliTOFSDigit",1000); // create hit map (to be created in Init()) fhitMap = new AliTOFHitMap(fSDigitsArray); // Loop over files to digitize for (Int_t inputFile=0; inputFileGetNinputs(); inputFile++) { ReadSDigit(inputFile); } // create digits CreateDigits(); // free used memory for Hit Map in current event delete fhitMap; fSDigitsArray->Clear(); treeD->Fill(); AliDebug(2,"----------------------------------------"); AliDebug(1,Form("%d digits have been created", fDigits->GetEntriesFast())); AliDebug(2,"----------------------------------------"); outgime->WriteDigits("OVERWRITE"); outgime->UnloadDigits(); fDigits->Clear(); } //--------------------------------------------------------------------- void AliTOFDigitizer::CreateDigits() { // loop on sdigits container to fill the AliTOFdigit TClonesArray // start digitizing all the collected sdigits Int_t ndump=0; // dump the first ndump created digits for each event // get the total number of collected sdigits Int_t ndig = fSDigitsArray->GetEntriesFast(); Int_t vol[5]={-1,-1,-1,-1,-1}; // location for a digit Int_t digit[4] = {0,0,0,0}; // TOF digit variables Int_t tracknum[AliTOFSDigit::kMAXDIGITS]; // contributing tracks for the current slot for (Int_t aa=0; aaUncheckedAt(k); Int_t nslot=tofsdigit->GetNDigits(); // get the number of slots // for current sdigit // TOF sdigit volumes (always the same for all slots) Int_t sector = tofsdigit->GetSector(); // range [0-17] Int_t plate = tofsdigit->GetPlate(); // range [0- 4] Int_t strip = tofsdigit->GetStrip(); // range [0-14/18/19] Int_t padz = tofsdigit->GetPadz(); // range [0- 1] Int_t padx = tofsdigit->GetPadx(); // range [0-47] vol[0] = sector; vol[1] = plate; vol[2] = strip; vol[3] = padx; vol[4] = padz; //--------------------- QA section ---------------------- // in the while, I perform QA Bool_t isSDigitBad = (sector<0 || sector>17 || plate<0 || plate >4 || padz<0 || padz>1 || padx<0 || padx>47); if (isSDigitBad) AliFatal(Form("strange sdigit found %2d %1d %2d %1d %2d", sector, plate, strip, padz, padx)); //------------------------------------------------------- //------------------- Dump section ---------------------- if (kGetTdc(islot); digit[0]=tdc; Int_t adc=tofsdigit->GetAdc(islot); digit[1]=adc; //if (tdc>=8192) continue;//AdC tracknum[0]=tofsdigit->GetTrack(islot,0); tracknum[1]=tofsdigit->GetTrack(islot,1); tracknum[2]=tofsdigit->GetTrack(islot,2); // new with placement must be used // adding a TOF digit for each slot TClonesArray &aDigits = *fDigits; Int_t last=fDigits->GetEntriesFast(); new (aDigits[last]) AliTOFdigit(tracknum, vol, digit); } } // end loop on sdigits - end digitizing all collected sdigits //Insert Decalibration AliDebug(2,"in digitizer, create digits"); DecalibrateTOFSignal(); } //--------------------------------------------------------------------- void AliTOFDigitizer::ReadSDigit(Int_t inputFile ) { // Read sdigits for current event and inputFile; // store them into the sdigits container // and update the hit map // SDigits from different files are assumed to // be created with the same simulation parameters. // creating the TClonesArray to store the digits static TClonesArray sdigitsClonesArray("AliTOFSDigit", 1000); sdigitsClonesArray.Clear(); // get the treeS from digInput AliRunLoader* rl = AliRunLoader::GetRunLoader(fDigInput->GetInputFolderName(inputFile)); if (rl == 0x0) { AliError(Form("Can not find Run Loader in input %d folder.",inputFile)); return; } AliLoader* gime = rl->GetLoader("TOFLoader"); if (gime == 0x0) { AliError(Form("Can not get TOF Loader from Input %d Run Loader.",inputFile)); return; } TTree* currentTreeS=gime->TreeS(); if (currentTreeS == 0x0) { Int_t retval = gime->LoadSDigits(); if (retval) { AliError(Form("Error occured while loading S. Digits for Input %d",inputFile)); return; } currentTreeS=gime->TreeS(); if (currentTreeS == 0x0) { AliError(Form("Can not get S. Digits Tree for Input %d",inputFile)); return; } } // get the branch TOF inside the treeS TClonesArray * sdigitsDummyContainer=&sdigitsClonesArray; // check if the branch exist TBranch* tofBranch=currentTreeS->GetBranch("TOF"); if(!tofBranch){ AliFatal(Form("TOF branch not found for input %d",inputFile)); return; } tofBranch->SetAddress(&sdigitsDummyContainer); Int_t nEntries = (Int_t)tofBranch->GetEntries(); // Loop through all entries in the tree Int_t nbytes = 0; Int_t vol[5]; // location for a sdigit for (Int_t i=0; i<5; i++) vol[i] = -1; for (Int_t iEntry = 0; iEntry < nEntries; iEntry++) { // Import the tree nbytes += tofBranch->GetEvent(iEntry); // Get the number of sdigits Int_t ndig = sdigitsDummyContainer->GetEntriesFast(); for (Int_t k=0; kUncheckedAt(k); for (Int_t i=0; i<5; i++) vol[i] = -1; // check the sdigit volume vol[0] = tofSdigit->GetSector(); vol[1] = tofSdigit->GetPlate(); vol[2] = tofSdigit->GetStrip(); vol[3] = tofSdigit->GetPadx(); vol[4] = tofSdigit->GetPadz(); if (fhitMap->TestHit(vol) != kEmpty) { AliTOFSDigit *sdig = static_cast(fhitMap->GetHit(vol)); sdig->Update(tofSdigit); } else { CollectSDigit(tofSdigit); // collect the current sdigit fhitMap->SetHit(vol); // update the hitmap for location vol } // if (hitMap->TestHit(vol) != kEmpty) } // for (Int_t k=0; kGetEntriesFast(); // make a copy of the current sdigit and // put it into tmp array new (aSDigitsArray[last]) AliTOFSDigit(*sdigit); } //_____________________________________________________________________________ void AliTOFDigitizer::InitDecalibration() const { // // Initialize TOF digits decalibration // fCalib->Init(); /* fCalib->CreateCalArrays(); fCalib->ReadSimHistoFromCDB("TOF/Calib", -1); // use AliCDBManager's number fCalib->ReadParOfflineFromCDB("TOF/Calib", -1); // use AliCDBManager's number */ } //--------------------------------------------------------------------- void AliTOFDigitizer::DecalibrateTOFSignal() { // // Decalibrate TOF signals according to OCDB parameters // Double_t time=0., tot=0., corr=0.; Int_t deltaBC=0, l0l1=0, tdcBin=0; Int_t index = -1; Int_t detId[5] ={-1,-1,-1,-1,-1}; UInt_t timestamp=0; Int_t ndigits = fDigits->GetEntriesFast(); // Loop on TOF Digits for (Int_t i=0;iAt(i); detId[0] = dig->GetSector(); detId[1] = dig->GetPlate(); detId[2] = dig->GetStrip(); detId[3] = dig->GetPadz(); detId[4] = dig->GetPadx(); dig->SetTdcND(dig->GetTdc()); // save the non decalibrated time index = AliTOFGeometry::GetIndex(detId); // The channel index // Read Calibration parameters from the CDB // get digit info time = dig->GetTdc() * AliTOFGeometry::TdcBinWidth(); /* ps */ tot = dig->GetToT() * AliTOFGeometry::ToTBinWidth() * 1.e-3; /* ns */ deltaBC = 0;//dig->GetDeltaBC(); l0l1 = 0;//dig->GetL0L1Latency(); // get correction corr = fCalib->GetTimeCorrection(index, tot, deltaBC, l0l1, timestamp); /* ps */ AliDebug(2, Form("calibrate index %d: time=%f (ps) tot=%f (ns) deltaBC=%d l0l1=%d timestamp=%d corr=%f (ps)", index, time, tot, deltaBC, l0l1, timestamp, corr)); // apply time correction time += corr; // convert in TDC bins and set digit //tdcBin = (Int_t)(time / AliTOFGeometry::TdcBinWidth()); //the corrected time (tdc counts) tdcBin = TMath::Nint(time / AliTOFGeometry::TdcBinWidth()); //the corrected time (tdc counts) dig->SetTdc(tdcBin); } AliDebug(1,"Simulating miscalibrated digits"); return; } //--------------------------------------------------------------------- /* void AliTOFDigitizer::DecalibrateTOFSignal(){ // Old implementation // Read Calibration parameters from the CDB TObjArray * calOffline= fCalib->GetTOFCalArrayOffline(); AliDebug(2,Form("Size of array for Offline Calibration = %i",calOffline->GetEntries())); // Initialize Quantities to Simulate ToT Spectra TH1F * hToT= fCalib->GetTOFSimToT(); Int_t nbins = hToT->GetNbinsX(); Float_t delta = hToT->GetBinWidth(1); Float_t maxch = hToT->GetBinLowEdge(nbins)+delta; Float_t minch = hToT->GetBinLowEdge(1); Float_t max=0,min=0; //maximum and minimum value of the distribution Int_t maxbin=0,minbin=0; //maximum and minimum bin of the distribution for (Int_t ii=nbins; ii>0; ii--){ if (hToT->GetBinContent(ii)!= 0) { max = maxch - (nbins-ii-1)*delta; maxbin = ii; break;} } for (Int_t j=1; jGetBinContent(j)!= 0) { min = minch + (j-1)*delta; minbin = j; break;} } Float_t maxToT=max; Float_t minToT=min; Float_t maxToTDistr=hToT->GetMaximum(); AliDebug (1, Form(" The minimum ToT = %f", minToT)); AliDebug (1, Form(" The maximum ToT = %f", maxToT)); AliDebug (1, Form(" The maximum peak in ToT = %f", maxToTDistr)); // Loop on TOF Digits Bool_t isToTSimulated=kFALSE; Bool_t misCalibPars=kFALSE; if(hToT->GetEntries()>0)isToTSimulated=kTRUE; Int_t ndigits = fDigits->GetEntriesFast(); for (Int_t i=0;iAt(i); Int_t detId[5]; detId[0] = dig->GetSector(); detId[1] = dig->GetPlate(); detId[2] = dig->GetStrip(); detId[3] = dig->GetPadz(); detId[4] = dig->GetPadx(); dig->SetTdcND(dig->GetTdc()); // save the non decalibrated time if(isToTSimulated){ //A realistic ToT Spectrum was found in input, //decalibrated TOF Digits likely to be simulated.... Int_t index = AliTOFGeometry::GetIndex(detId); // The channel index AliTOFChannelOffline *calChannelOffline = (AliTOFChannelOffline *)calOffline->At(index); //retrieve the info for time slewing Double_t par[6]; // time slewing parameters //check whether we actually ask for miscalibration for (Int_t j = 0; j<6; j++){ par[j]=(Double_t)calChannelOffline->GetSlewPar(j); if(par[j]!=0)misCalibPars=kTRUE; } AliDebug(2,Form(" Calib Pars = %f (0-th parameter for time slewing + time delay), %f, %f, %f, %f, %f ",par[0],par[1],par[2],par[3],par[4],par[5])); // Now generate Realistic ToT distribution from TestBeam Data. // Tot is in ns, assuming a Matching Window of 10 ns. Float_t simToT = 0; Float_t trix = 0; Float_t triy = 0; Double_t timeCorr; Double_t tToT; while (simToT <= triy){ trix = gRandom->Rndm(i); triy = gRandom->Rndm(i); trix = (maxToT-minToT)*trix + minToT; triy = maxToTDistr*triy; Int_t binx=hToT->FindBin(trix); simToT=hToT->GetBinContent(binx); } // the generated ToT (ns) tToT= (Double_t) trix; // to apply slewing we start from ns.. // transform TOF signal in ns AliDebug(2,Form(" The Initial Time (counts): %i: ",dig->GetTdc())); AliDebug(2,Form(" Time before miscalibration (ps) %e: ",dig->GetTdc()*(Double_t)AliTOFGeometry::TdcBinWidth())); // add slewing effect timeCorr=par[0] + tToT*(par[1] +tToT*(par[2] +tToT*(par[3] +tToT*(par[4] +tToT*par[5])))); AliDebug(2,Form(" The Time slewing + delay (ns): %f: ",timeCorr)); // add global time shift //convert to ps timeCorr*=1E3; Double_t timeMis = (Double_t)(dig->GetTdc())*(Double_t)AliTOFGeometry::TdcBinWidth(); timeMis = timeMis+timeCorr; AliDebug(2,Form(" The Miscalibrated time (ps): %e: ",timeMis)); // now update the digit info Int_t tdcCorr= (Int_t)(timeMis/AliTOFGeometry::TdcBinWidth()); AliDebug(2,Form(" Final Time (counts): %i: ",tdcCorr)); // Setting Decalibrated Time signal (TDC counts) dig->SetTdc(tdcCorr); // Setting realistic ToT signal (TDC counts) tToT*=1E3; //back to ps Int_t tot=(Int_t)(tToT/AliTOFGeometry::ToTBinWidth());//(factor 1E3 as input ToT is in ns) dig->SetToT(tot); AliDebug(2,Form(" Final Time and ToT (counts): %d: , %d:",dig->GetTdc(),dig->GetToT())); if(tdcCorr<0){ AliWarning (Form(" The bad Slewed Time(TDC counts)= %d ", tdcCorr)); AliWarning(Form(" The bad ToT (TDC counts)= %d ", tot)); } } else{ // For Data with no Miscalibration, set ToT signal == Adc dig->SetToT((Int_t)(dig->GetAdc()/AliTOFGeometry::ToTBinWidth())); //remove the factor 10^3 just to have a reasonable ToT range for raw data simulation even in the case of non-realistic ToT distribution (n.b. fAdc is practically an arbitrary quantity, and ToT has no impact on the TOF reco for non-miscalibrated digits) } } if(!isToTSimulated) AliDebug(1,"Standard Production, no miscalibrated digits"); else if(!misCalibPars) AliDebug(1,"Standard Production, no miscalibrated digits"); else AliDebug(1,"Simulating miscalibrated digits"); return; } */