X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=MUON%2FAliMUONDigitizerV3.cxx;h=9daf909502bebcef6626b72f74f467e413064c5c;hb=d65ebb652eccb0d476994f2dc44c7ea73646fe44;hp=13e2ea81e712bd268735fcac8b7c43a3c50981d5;hpb=66f4c572593d33e3fd2f517a7eb0fcb83234162e;p=u%2Fmrichter%2FAliRoot.git diff --git a/MUON/AliMUONDigitizerV3.cxx b/MUON/AliMUONDigitizerV3.cxx index 13e2ea81e71..9daf909502b 100644 --- a/MUON/AliMUONDigitizerV3.cxx +++ b/MUON/AliMUONDigitizerV3.cxx @@ -15,35 +15,47 @@ // $Id$ + #include "AliMUONDigitizerV3.h" -#include "AliLog.h" #include "AliMUON.h" #include "AliMUONCalibrationData.h" #include "AliMUONConstants.h" -#include "AliMUONData.h" -#include "AliMUONDataIterator.h" #include "AliMUONDigit.h" -#include "AliMUONSegmentation.h" -#include "AliMUONTriggerEfficiencyCells.h" +#include "AliMUONLogger.h" #include "AliMUONTriggerElectronics.h" +#include "AliMUONTriggerStoreV1.h" #include "AliMUONVCalibParam.h" +#include "AliMUONVDigitStore.h" +#include "AliMUONGeometryTransformer.h" //ADDED for trigger noise + +#include "AliMpCDB.h" +#include "AliMpSegmentation.h" +#include "AliMpCathodType.h" +#include "AliMpConstants.h" #include "AliMpDEIterator.h" #include "AliMpDEManager.h" -#include "AliMpIntPair.h" #include "AliMpPad.h" #include "AliMpStationType.h" #include "AliMpVSegmentation.h" -#include "AliMpDEManager.h" + +#include "AliCDBManager.h" +#include "AliCodeTimer.h" +#include "AliLog.h" #include "AliRun.h" #include "AliRunDigitizer.h" #include "AliRunLoader.h" -#include "Riostream.h" -#include "TF1.h" -#include "TRandom.h" -#include "TString.h" -/// +#include +#include +#include +#include +#include +#include +#include + +//----------------------------------------------------------------------------- +/// \class AliMUONDigitizerV3 /// The digitizer is performing the transformation to go from SDigits (digits /// w/o any electronic noise) to Digits (w/ electronic noise, and decalibration) /// @@ -56,6 +68,8 @@ /// (for performance reason mainly, and because anyway we know we have to do it /// here, at the digitization level). /// +/// \author Laurent Aphecetche +//----------------------------------------------------------------------------- namespace { @@ -64,314 +78,313 @@ namespace return static_cast(gAlice->GetModule("MUON")); } - AliMUONSegmentation* Segmentation() + //ADDED for trigger noise + const AliMUONGeometryTransformer* GetTransformer() { - static AliMUONSegmentation* segmentation = muon()->GetSegmentation(); - return segmentation; + return muon()->GetGeometryTransformer(); } } const Double_t AliMUONDigitizerV3::fgkNSigmas=3; +/// \cond CLASSIMP ClassImp(AliMUONDigitizerV3) +/// \endcond //_____________________________________________________________________________ AliMUONDigitizerV3::AliMUONDigitizerV3(AliRunDigitizer* manager, - Bool_t generateNoisyDigits) + Int_t generateNoisyDigits) : AliDigitizer(manager), fIsInitialized(kFALSE), -fOutputData(0x0), fCalibrationData(0x0), fTriggerProcessor(0x0), -fTriggerEfficiency(0x0), -fFindDigitIndexTimer(), -fGenerateNoisyDigitsTimer(), -fExecTimer(), -fNoiseFunction(0x0), -fGenerateNoisyDigits(generateNoisyDigits) +fNoiseFunctionTrig(0x0), +fGenerateNoisyDigits(generateNoisyDigits), +fLogger(new AliMUONLogger(1000)), +fTriggerStore(new AliMUONTriggerStoreV1), +fDigitStore(0x0), +fOutputDigitStore(0x0), +fInputDigitStore(0x0) { - // - // Ctor. - // + /// Ctor. + AliDebug(1,Form("AliRunDigitizer=%p",fManager)); - fGenerateNoisyDigitsTimer.Start(kTRUE); fGenerateNoisyDigitsTimer.Stop(); - fExecTimer.Start(kTRUE); fExecTimer.Stop(); - fFindDigitIndexTimer.Start(kTRUE); fFindDigitIndexTimer.Stop(); + } //_____________________________________________________________________________ AliMUONDigitizerV3::~AliMUONDigitizerV3() { - // - // Dtor. Note we're the owner of some pointers. - // + /// Dtor. Note we're the owner of some pointers. + AliDebug(1,"dtor"); - delete fOutputData; - delete fCalibrationData; + // delete fCalibrationData; delete fTriggerProcessor; - delete fNoiseFunction; + delete fNoiseFunctionTrig; + delete fTriggerStore; + delete fDigitStore; + delete fOutputDigitStore; + delete fInputDigitStore; - AliInfo(Form("Execution time for FindDigitIndex() : R:%.2fs C:%.2fs", - fFindDigitIndexTimer.RealTime(),fFindDigitIndexTimer.CpuTime())); - if ( fGenerateNoisyDigits ) - { - AliInfo(Form("Execution time for GenerateNoisyDigits() : R:%.2fs C:%.2fs", - fGenerateNoisyDigitsTimer.RealTime(), - fGenerateNoisyDigitsTimer.CpuTime())); - } - AliInfo(Form("Execution time for Exec() : R:%.2fs C:%.2fs", - fExecTimer.RealTime(),fExecTimer.CpuTime())); + AliInfo("Summary of messages"); + fLogger->Print(); + delete fLogger; } //_____________________________________________________________________________ void -AliMUONDigitizerV3::ApplyResponseToTrackerDigit(AliMUONDigit& digit, Bool_t addNoise) +AliMUONDigitizerV3::ApplyResponseToTrackerDigit(AliMUONVDigit& digit, Bool_t addNoise) { - // For tracking digits, starting from an ideal digit's charge, we : - // - // - add some noise (thus leading to a realistic charge), if requested to do so - // - divide by a gain (thus decalibrating the digit) - // - add a pedestal (thus decalibrating the digit) - // - sets the signal to zero if below 3*sigma of the noise - // - - static const Int_t kMaxADC = (1<<12)-1; // We code the charge on a 12 bits ADC. - - Float_t signal = digit.Signal(); - - if ( !addNoise ) - { - digit.SetADC(TMath::Nint(signal)); - return; - } - + /// For tracking digits, starting from an ideal digit's charge, we : + /// + /// - "divide" by a gain (thus decalibrating the digit) + /// - add a pedestal (thus decalibrating the digit) + /// - add some electronics noise (thus leading to a realistic adc), if requested to do so + /// - sets the signal to zero if below 3*sigma of the noise + + Float_t charge = digit.Charge(); + + // We set the charge to 0, as the only relevant piece of information + // after Digitization is the ADC value. + digit.SetCharge(0); + Int_t detElemId = digit.DetElemId(); - Int_t manuId = digit.ManuId(); - Int_t manuChannel = digit.ManuChannel(); AliMUONVCalibParam* pedestal = fCalibrationData->Pedestals(detElemId,manuId); if (!pedestal) - { - AliFatal(Form("Could not get pedestal for DE=%d manuId=%d", - detElemId,manuId)); - } - Float_t pedestalMean = pedestal->ValueAsFloat(manuChannel,0); - Float_t pedestalSigma = pedestal->ValueAsFloat(manuChannel,1); + { + fLogger->Log(Form("%s:%d:Could not get pedestal for DE=%4d manuId=%4d. Disabling.", + __FILE__,__LINE__, + detElemId,manuId)); + digit.SetADC(0); + return; + } + + Int_t manuChannel = digit.ManuChannel(); + if ( pedestal->ValueAsFloat(manuChannel,0) == AliMUONVCalibParam::InvalidFloatValue() || + pedestal->ValueAsFloat(manuChannel,1) == AliMUONVCalibParam::InvalidFloatValue() ) + { + // protection against invalid pedestal value + digit.SetADC(0); + return; + } + AliMUONVCalibParam* gain = fCalibrationData->Gains(detElemId,manuId); if (!gain) - { - AliFatal(Form("Could not get gain for DE=%d manuId=%d", - detElemId,manuId)); - } - Float_t gainMean = gain->ValueAsFloat(manuChannel,0); - - Float_t adcNoise = gRandom->Gaus(0.0,pedestalSigma); - - Int_t adc; + { + fLogger->Log(Form("%s:%d:Could not get gain for DE=%4d manuId=%4d. Disabling.", + __FILE__,__LINE__, + detElemId,manuId)); + digit.SetADC(0); + return; + } - if ( gainMean < 1E-6 ) - { - AliError(Form("Got a too small gain %e for DE=%d manuId=%d manuChannel=%d. " - "Setting signal to 0.", - gainMean,detElemId,manuId,manuChannel)); - adc = 0; - } - else - { - adc = TMath::Nint( signal / gainMean + pedestalMean + adcNoise);/// - - if ( adc <= pedestalMean + fgkNSigmas*pedestalSigma ) - { - adc = 0; - } - } - - // be sure we stick to 12 bits. - if ( adc > kMaxADC ) - { - adc = kMaxADC; - } + Int_t adc = DecalibrateTrackerDigit(*pedestal,*gain,manuChannel,charge,addNoise, + digit.IsNoiseOnly()); - digit.SetPhysicsSignal(TMath::Nint(signal)); - digit.SetSignal(adc); digit.SetADC(adc); } //_____________________________________________________________________________ -void -AliMUONDigitizerV3::ApplyResponseToTriggerDigit(AliMUONDigit& digit, - AliMUONData* data) +void +AliMUONDigitizerV3::ApplyResponse(const AliMUONVDigitStore& store, + AliMUONVDigitStore& filteredStore) { - if ( !fTriggerEfficiency ) return; - - AliMUONDigit* correspondingDigit = FindCorrespondingDigit(digit,data); + /// Loop over all chamber digits, and apply the response to them + /// Note that this method may remove digits. - if(!correspondingDigit)return;//reject bad correspondences - - Int_t detElemId = digit.DetElemId(); + filteredStore.Clear(); - const AliMpVSegmentation* segment[2] = + const Bool_t kAddNoise = kTRUE; + + TIter next(store.CreateIterator()); + AliMUONVDigit* digit; + + while ( ( digit = static_cast(next()) ) ) { - Segmentation()->GetMpSegmentation(detElemId,digit.Cathode()), - Segmentation()->GetMpSegmentation(detElemId,correspondingDigit->Cathode()) - }; + AliMp::StationType stationType = AliMpDEManager::GetStationType(digit->DetElemId()); + + if ( stationType != AliMp::kStationTrigger ) + { + ApplyResponseToTrackerDigit(*digit,kAddNoise); + } - AliMpPad pad[2] = - { - segment[0]->PadByIndices(AliMpIntPair(digit.PadX(),digit.PadY()),kTRUE), - segment[1]->PadByIndices(AliMpIntPair(correspondingDigit->PadX(),correspondingDigit->PadY()),kTRUE) - }; + if ( digit->ADC() > 0 || digit->Charge() > 0 ) + { + filteredStore.Add(*digit,AliMUONVDigitStore::kIgnore); + } + } +} - Int_t ix(0); - Int_t iy(1); +//_____________________________________________________________________________ +Int_t +AliMUONDigitizerV3::DecalibrateTrackerDigit(const AliMUONVCalibParam& pedestals, + const AliMUONVCalibParam& gains, + Int_t channel, + Float_t charge, + Bool_t addNoise, + Bool_t noiseOnly) +{ + /// Decalibrate (i.e. go from charge to adc) a tracker digit, given its + /// pedestal and gain parameters. + /// Must insure before calling that channel is valid (i.e. between 0 and + /// pedestals or gains->GetSize()-1, but also corresponding to a valid channel + /// otherwise results are not predictible...) - if (digit.Cathode()==0) + static const Int_t kMaxADC = (1<<12)-1; // We code the charge on a 12 bits ADC. + + Float_t pedestalMean = pedestals.ValueAsFloat(channel,0); + Float_t pedestalSigma = pedestals.ValueAsFloat(channel,1); + + AliDebugClass(1,Form("DE %04d MANU %04d CH %02d PEDMEAN %7.2f PEDSIGMA %7.2f", + pedestals.ID0(),pedestals.ID1(),channel,pedestalMean,pedestalSigma)); + + Float_t a0 = gains.ValueAsFloat(channel,0); + Float_t a1 = gains.ValueAsFloat(channel,1); + Int_t thres = gains.ValueAsInt(channel,2); + Int_t qual = gains.ValueAsInt(channel,3); + if ( qual <= 0 ) return 0; + + Float_t chargeThres = a0*thres; + + Float_t padc(0); // (adc - ped) value + + if ( charge <= chargeThres || TMath::Abs(a1) < 1E-12 ) { - ix=1; - iy=0; + // linear part only + + if ( TMath::Abs(a0) > 1E-12 ) + { + padc = charge/a0; + } } - - Float_t x = pad[ix].Position().X(); - Float_t y = pad[iy].Position().Y(); - if ( x==-1 && y==-1 ) + else { - x=-9999.; - y=-9999.; - AliError(Form("Got an unknown position for a digit in DE %d at (ix,iy)=(%d,%d)", - detElemId,pad[ix].GetIndices().GetFirst(),pad[iy].GetIndices().GetSecond())); + // linear + parabolic part + Double_t qt = chargeThres - charge; + Double_t delta = a0*a0-4*a1*qt; + if ( delta < 0 ) + { + AliErrorClass(Form("delta=%e DE %d Manu %d Channel %d " + " charge %e a0 %e a1 %e thres %d ped %e pedsig %e", + delta,pedestals.ID0(),pedestals.ID1(), + channel, charge, a0, a1, thres, pedestalMean, + pedestalSigma)); + } + else + { + delta = TMath::Sqrt(delta); + + padc = ( ( -a0 + delta ) > 0 ? ( -a0 + delta ) : ( -a0 - delta ) ); + + padc /= 2*a1; + + if ( padc < 0 ) + { + if ( TMath::Abs(padc) > 1E-3) + { + // this is more than a precision problem : let's signal it ! + AliErrorClass(Form("padc=%e DE %d Manu %d Channel %d " + " charge %e a0 %e a1 %e thres %d ped %e pedsig %e delta %e", + padc,pedestals.ID0(),pedestals.ID1(), + channel, charge, a0, a1, thres, pedestalMean, + pedestalSigma,delta)); + } + + // ok. consider we're just at thres, let it be zero. + padc = 0; + } + + padc += thres; + + } } - Float_t x0 = segment[0]->Dimensions().X(); - Float_t y0 = segment[1]->Dimensions().Y(); - TVector2 newCoord = fTriggerEfficiency->ChangeReferenceFrame(x, y, x0, y0); - Bool_t isTrig[2]; - fTriggerEfficiency->IsTriggered(detElemId, newCoord.Px(), newCoord.Py(), - isTrig[0], isTrig[1]); + Int_t adc(0); - if (!isTrig[digit.Cathode()]) + Float_t adcNoise = 0.0; + + if ( addNoise ) { - digit.SetSignal(0); + if ( noiseOnly ) + { + adcNoise = NoiseFunction()->GetRandom()*pedestalSigma; + } + else + { + adcNoise = gRandom->Gaus(0.0,pedestalSigma); + } } + + adc = TMath::Nint(padc + pedestalMean + adcNoise + 0.5); - if ( &digit != correspondingDigit ) + if ( adc < TMath::Nint(pedestalMean + fgkNSigmas*pedestalSigma + 0.5) ) { - if (!isTrig[correspondingDigit->Cathode()]) - { - correspondingDigit->SetSignal(0); - } + adc = 0; } -} - -//_____________________________________________________________________________ -void -AliMUONDigitizerV3::ApplyResponse() -{ - // - // Loop over all chamber digits, and apply the response to them - // Note that this method may remove digits. - // - const Bool_t kAddNoise = kTRUE; - for ( Int_t ich = 0; ich < AliMUONConstants::NCh(); ++ich ) + // be sure we stick to 12 bits. + if ( adc > kMaxADC ) { - TClonesArray* digits = fOutputData->Digits(ich); - Int_t n = digits->GetEntriesFast(); - Bool_t trackingChamber = ( ich < AliMUONConstants::NTrackingCh() ); - for ( Int_t i = 0; i < n; ++i ) - { - AliMUONDigit* d = static_cast(digits->UncheckedAt(i)); - if ( trackingChamber ) - { - ApplyResponseToTrackerDigit(*d,kAddNoise); - } - else - { - ApplyResponseToTriggerDigit(*d,fOutputData); - } - if ( d->Signal() <= 0 ) - { - digits->RemoveAt(i); - } - } - digits->Compress(); - } + adc = kMaxADC; + } -// The version below, using iterator, does not yet work (as the iterator -// assumes it is reading digits from the tree, while in this case it's -// writing...) -// -// AliMUONDigit* digit(0x0); -// -// // First loop on tracker digits -// AliMUONDataIterator tracker(fOutputData,"D",AliMUONDataIterator::kTrackingChambers); -// -// while ( ( digit = static_cast(tracker.Next()) ) ) -// { -// ApplyResponseToTrackerDigit(*digit); -// if ( digit->Signal() <= 0 ) -// { -// tracker.Remove(); -// } -// -// } -// -// // Then loop on trigger digits -// AliMUONDataIterator trigger(fOutputData,"D",AliMUONDataIterator::kTriggerChambers); -// -// while ( ( digit = static_cast(trigger.Next()) ) ) -// { -// ApplyResponseToTriggerDigit(*digit,fOutputData); -// if ( digit->Signal() <= 0 ) -// { -// trigger.Remove(); -// } -// } + return adc; } //_____________________________________________________________________________ void -AliMUONDigitizerV3::AddOrUpdateDigit(TClonesArray& array, - const AliMUONDigit& digit) +AliMUONDigitizerV3::CreateInputDigitStore() { - // - // Add or update a digit, depending on whether there's already a digit - // for the corresponding channel. - // - Int_t ix = FindDigitIndex(array,digit); + /// Create an input digit store, and check that all input files + /// actually contains the same type of AliMUONVDigitStore - if (ix>=0) - { - AliMUONDigit* d = static_cast(array.UncheckedAt(ix)); - Bool_t ok = MergeDigits(digit,*d); - if (!ok) + fInputDigitStore = 0x0; + + for ( Int_t iFile = 0; iFile < fManager->GetNinputs(); ++iFile ) + { + AliLoader* inputLoader = GetLoader(fManager->GetInputFolderName(iFile)); + + inputLoader->LoadSDigits("READ"); + + TTree* iTreeS = inputLoader->TreeS(); + if (!iTreeS) { - AliError("Digits are not mergeable !"); + AliFatal(Form("Could not get access to input file #%d",iFile)); + } + + AliMUONVDigitStore* inputStore = AliMUONVDigitStore::Create(*iTreeS); + + if (!fInputDigitStore) + { + fInputDigitStore = inputStore; + } + else + { + if ( inputStore->IsA() != fInputDigitStore->IsA() ) + { + AliFatal("Got different types of AliMUONVDigitStore here. Please implement me."); + } } } - else - { - ix = array.GetLast() + 1; - new(array[ix]) AliMUONDigit(digit); - } - } //_____________________________________________________________________________ void AliMUONDigitizerV3::Exec(Option_t*) { - // - // Main method. - // We first loop over input files, and merge the sdigits we found there. - // Second, we digitize all the resulting sdigits - // Then we generate noise-only digits (for tracker only) - // And we finally generate the trigger outputs. - // + /// Main method. + /// We first loop over input files, and merge the sdigits we found there. + /// Second, we digitize all the resulting sdigits + /// Then we generate noise-only digits (for tracker only) + /// And we finally generate the trigger outputs. + AliCodeTimerAuto("") + AliDebug(1, "Running digitizer."); if ( fManager->GetNinputs() == 0 ) @@ -386,37 +399,47 @@ AliMUONDigitizerV3::Exec(Option_t*) return; } - fExecTimer.Start(kFALSE); - Int_t nInputFiles = fManager->GetNinputs(); - if ( fOutputData->TreeD() == 0x0 ) + AliLoader* outputLoader = GetLoader(fManager->GetOutputFolderName()); + + outputLoader->MakeDigitsContainer(); + + TTree* oTreeD = outputLoader->TreeD(); + + if (!oTreeD) { - AliDebug(1,"Calling MakeDigitsContainer"); - fOutputData->GetLoader()->MakeDigitsContainer(); + AliFatal("Cannot create output TreeD"); } - fOutputData->MakeBranch("D,GLT"); - fOutputData->SetTreeAddress("D,GLT"); - + // Loop over all the input files, and merge the sdigits found in those // files. + for ( Int_t iFile = 0; iFile < nInputFiles; ++iFile ) { - AliMUONData* inputData = GetDataAccess(fManager->GetInputFolderName(iFile)); - if (!inputData) + AliLoader* inputLoader = GetLoader(fManager->GetInputFolderName(iFile)); + + inputLoader->LoadSDigits("READ"); + + TTree* iTreeS = inputLoader->TreeS(); + if (!iTreeS) { AliFatal(Form("Could not get access to input file #%d",iFile)); } - inputData->GetLoader()->LoadSDigits("READ"); - inputData->SetTreeAddress("S"); - inputData->GetSDigits(); + if (!fInputDigitStore) + { + CreateInputDigitStore(); + } + fInputDigitStore->Connect(*iTreeS); + + iTreeS->GetEvent(0); + + MergeWithSDigits(fDigitStore,*fInputDigitStore,fManager->GetMask(iFile)); - MergeWithSDigits(*fOutputData,*inputData,fManager->GetMask(iFile)); + inputLoader->UnloadSDigits(); - inputData->ResetSDigits(); - inputData->GetLoader()->UnloadSDigits(); - delete inputData; + fInputDigitStore->Clear(); } // At this point, we do have digit arrays (one per chamber) which contains @@ -424,121 +447,64 @@ AliMUONDigitizerV3::Exec(Option_t*) // We now massage them to apply the detector response, i.e. this // is here that we do the "digitization" work. - ApplyResponse(); + if (!fOutputDigitStore) + { + fOutputDigitStore = fDigitStore->Create(); + } + + if ( fGenerateNoisyDigits>=2 ) + { + // Generate noise-only digits for trigger. + GenerateNoisyDigitsForTrigger(*fDigitStore); + } + + ApplyResponse(*fDigitStore,*fOutputDigitStore); if ( fGenerateNoisyDigits ) { // Generate noise-only digits for tracker. - GenerateNoisyDigits(); + GenerateNoisyDigits(*fOutputDigitStore); } // We generate the global and local trigger decisions. - fTriggerProcessor->ExecuteTask(); + fTriggerProcessor->Digits2Trigger(*fOutputDigitStore,*fTriggerStore); + + // Prepare output tree + Bool_t okD = fOutputDigitStore->Connect(*oTreeD,kFALSE); + Bool_t okT = fTriggerStore->Connect(*oTreeD,kFALSE); + if (!okD || !okT) + { + AliError(Form("Could not make branch : Digit %d Trigger %d",okD,okT)); + return; + } // Fill the output treeD - fOutputData->Fill("D,GLT"); + oTreeD->Fill(); // Write to the output tree(D). // Please note that as GlobalTrigger, LocalTrigger and Digits are in the same // tree (=TreeD) in different branches, this WriteDigits in fact writes all of // the 3 branches. - fOutputData->GetLoader()->WriteDigits("OVERWRITE"); - - // Finally, we clean up after ourselves. - fOutputData->ResetDigits(); - fOutputData->ResetTrigger(); - fOutputData->GetLoader()->UnloadDigits(); + outputLoader->WriteDigits("OVERWRITE"); - fExecTimer.Stop(); -} - -//_____________________________________________________________________________ -AliMUONDigit* -AliMUONDigitizerV3::FindCorrespondingDigit(AliMUONDigit& digit, - AliMUONData* data) const -{ - AliMUONDataIterator it(data,"D",AliMUONDataIterator::kTriggerChambers); - AliMUONDigit* cd; - - for(;;){ - cd = static_cast(it.Next()); - if(!cd)continue; - if (cd->DetElemId() == digit.DetElemId() && - cd->PadX() == digit.PadX() && - cd->PadY() == digit.PadY() && - cd->Cathode() == digit.Cathode()){ - break; - } - } - //The corresponding digit is searched only forward in the AliMUONData. - //In this way when the first digit of the couple is given, the second digit is found and the efficiency is applied to both. - //Afterwards, when the second digit of the couple is given the first one is not found and hence efficiency is not applied again + outputLoader->UnloadDigits(); - while ( ( cd = static_cast(it.Next()) ) ) - { - if(!cd)continue;//avoid problems when 1 digit is removed - if ( cd->DetElemId() == digit.DetElemId() && - cd->Hit() == digit.Hit() && - cd->Cathode() != digit.Cathode() ) - { - return cd; - } - } - return 0x0; + // Finally, we clean up after ourselves. + fTriggerStore->Clear(); + fDigitStore->Clear(); + fOutputDigitStore->Clear(); } -//_____________________________________________________________________________ -Int_t -AliMUONDigitizerV3::FindDigitIndex(TClonesArray& array, - const AliMUONDigit& digit) const -{ - // - // Return the index of digit within array, if that digit is there, - // otherwise returns -1 - // - // FIXME: this is of course not the best implementation you can think of. - // Reconsider the use of hit/digit map... ? (but be sure it's needed!) - // - - fFindDigitIndexTimer.Start(kFALSE); - - Int_t n = array.GetEntriesFast(); - for ( Int_t i = 0; i < n; ++i ) - { - AliMUONDigit* d = static_cast(array.UncheckedAt(i)); - if ( d->DetElemId() == digit.DetElemId() && - d->PadX() == digit.PadX() && - d->PadY() == digit.PadY() && - d->Cathode() == digit.Cathode() ) - { - fFindDigitIndexTimer.Stop(); - return i; - } - } - fFindDigitIndexTimer.Stop(); - return -1; -} - //_____________________________________________________________________________ void -AliMUONDigitizerV3::GenerateNoisyDigits() +AliMUONDigitizerV3::GenerateNoisyDigits(AliMUONVDigitStore& digitStore) { - // - // According to a given probability, generate digits that - // have a signal above the noise cut (ped+n*sigma_ped), i.e. digits - // that are "only noise". - // - - if ( !fNoiseFunction ) - { - fNoiseFunction = new TF1("AliMUONDigitizerV3::fNoiseFunction","gaus", - fgkNSigmas,fgkNSigmas*10); - - fNoiseFunction->SetParameters(1,0,1); - } + /// According to a given probability, generate digits that + /// have a signal above the noise cut (ped+n*sigma_ped), i.e. digits + /// that are "only noise". - fGenerateNoisyDigitsTimer.Start(kFALSE); + AliCodeTimerAuto("") for ( Int_t i = 0; i < AliMUONConstants::NTrackingCh(); ++i ) { @@ -550,28 +516,23 @@ AliMUONDigitizerV3::GenerateNoisyDigits() { for ( Int_t cathode = 0; cathode < 2; ++cathode ) { - GenerateNoisyDigitsForOneCathode(it.CurrentDE(),cathode); + GenerateNoisyDigitsForOneCathode(digitStore,it.CurrentDEId(),cathode); } it.Next(); } } - - fGenerateNoisyDigitsTimer.Stop(); } //_____________________________________________________________________________ void -AliMUONDigitizerV3::GenerateNoisyDigitsForOneCathode(Int_t detElemId, Int_t cathode) +AliMUONDigitizerV3::GenerateNoisyDigitsForOneCathode(AliMUONVDigitStore& digitStore, + Int_t detElemId, Int_t cathode) { - // - // Generate noise-only digits for one cathode of one detection element. - // Called by GenerateNoisyDigits() - // + /// Generate noise-only digits for one cathode of one detection element. + /// Called by GenerateNoisyDigits() - Int_t chamberId = AliMpDEManager::GetChamberId(detElemId); - TClonesArray* digits = fOutputData->Digits(chamberId); - - const AliMpVSegmentation* seg = Segmentation()->GetMpSegmentation(detElemId,cathode); + const AliMpVSegmentation* seg + = AliMpSegmentation::Instance()->GetMpSegmentation(detElemId,AliMp::GetCathodType(cathode)); Int_t nofPads = seg->NofPads(); Int_t maxIx = seg->MaxPadIndexX(); @@ -588,94 +549,185 @@ AliMUONDigitizerV3::GenerateNoisyDigitsForOneCathode(Int_t detElemId, Int_t cath AliDebug(3,Form("DE %d cath %d nofNoisyPads %d",detElemId,cathode,nofNoisyPads)); - for ( Int_t i = 0; i < nofNoisyPads; ++i ) + for ( Int_t i = 0; i < nofNoisyPads; ++i ) { Int_t ix(-1); Int_t iy(-1); + AliMpPad pad; + do { ix = gRandom->Integer(maxIx+1); iy = gRandom->Integer(maxIy+1); - } while ( !seg->HasPad(AliMpIntPair(ix,iy)) ); - AliMUONDigit d; - d.SetDetElemId(detElemId); - d.SetCathode(cathode); - d.SetPadX(ix); - d.SetPadY(iy); - if ( FindDigitIndex(*digits,d) >= 0 ) + pad = seg->PadByIndices(ix,iy,kFALSE); + } while ( !pad.IsValid() ); + + Int_t manuId = pad.GetManuId(); + Int_t manuChannel = pad.GetManuChannel(); + + AliMUONVCalibParam* pedestals = fCalibrationData->Pedestals(detElemId,manuId); + + if (!pedestals) { - // this digit is already there, and not noise-only, we simply skip it + // no pedestal available for this channel, simply give up continue; } - AliMpPad pad = seg->PadByIndices(AliMpIntPair(ix,iy)); - Int_t manuId = pad.GetLocation().GetFirst(); - Int_t manuChannel = pad.GetLocation().GetSecond(); - d.SetElectronics(manuId,manuChannel); - - AliMUONVCalibParam* pedestals = fCalibrationData->Pedestals(detElemId,manuId); + AliMUONVDigit* d = digitStore.CreateDigit(detElemId,manuId,manuChannel,cathode); - Float_t pedestalMean = pedestals->ValueAsFloat(manuChannel,0); - Float_t pedestalSigma = pedestals->ValueAsFloat(manuChannel,1); + d->SetPadXY(ix,iy); - Double_t ped = fNoiseFunction->GetRandom()*pedestalSigma; - - d.SetSignal(TMath::Nint(ped+pedestalMean+0.5)); - d.SetPhysicsSignal(0); - d.NoiseOnly(kTRUE); - AliDebug(3,Form("Adding a pure noise digit :")); - StdoutToAliDebug(3,cout << "Before Response: " << endl; - d.Print();); - ApplyResponseToTrackerDigit(d,kFALSE); - if ( d.Signal() > 0 ) + d->SetCharge(0.0); // charge is zero, the ApplyResponseToTrackerDigit will add the noise + d->NoiseOnly(kTRUE); + ApplyResponseToTrackerDigit(*d,kTRUE); + if ( d->ADC() > 0 ) { - AddOrUpdateDigit(*digits,d); - } - else - { - AliError("Pure noise below threshold. This should not happen. Not adding " - "this digit."); + Bool_t ok = digitStore.Add(*d,AliMUONVDigitStore::kDeny); + // this can happen (that we randomly chose a digit that is + // already there). We simply ignore this, but log the occurence + // to cross-check that it's not too frequent. + if (!ok) + { + fLogger->Log("Collision while adding noiseOnly digit"); + } + else + { + fLogger->Log("Added noiseOnly digit"); + } } - StdoutToAliDebug(3,cout << "After Response: " << endl; - d.Print();); + delete d; } } + //_____________________________________________________________________________ -AliMUONData* -AliMUONDigitizerV3::GetDataAccess(const TString& folderName) +void +AliMUONDigitizerV3::GenerateNoisyDigitsForTrigger(AliMUONVDigitStore& digitStore) { - // - // Create an AliMUONData to deal with data found in folderName. - // - AliDebug(1,Form("Getting access to folder %s",folderName.Data())); - AliRunLoader* runLoader = AliRunLoader::GetRunLoader(folderName); - if (!runLoader) + /// Generate noise-only digits for one cathode of one detection element. + /// Called by GenerateNoisyDigits() + + if ( !fNoiseFunctionTrig ) { - AliError(Form("Could not get RunLoader from folder %s",folderName.Data())); - return 0x0; + fNoiseFunctionTrig = new TF1("AliMUONDigitizerV3::fNoiseFunctionTrig","landau", + 50.,270.); + + fNoiseFunctionTrig->SetParameters(3.91070e+02, 9.85026, 9.35881e-02); } - AliLoader* loader = static_cast(runLoader->GetLoader("MUONLoader")); + + AliMpPad pad[2]; + AliMUONVDigit *d[2]={0x0}; + + for ( Int_t chamberId = AliMUONConstants::NTrackingCh(); chamberId < AliMUONConstants::NCh(); ++chamberId ) + { + + Int_t nofNoisyPads = 50; + + Float_t r=-1, fi = 0., gx, gy, x, y, z, xg01, yg01, zg, xg02, yg02; + AliMpDEIterator it; + + AliDebug(3,Form("Chamber %d nofNoisyPads %d",chamberId,nofNoisyPads)); + + for ( Int_t i = 0; i < nofNoisyPads; ++i ) + { + //printf("Generating noise %i\n",i); + Int_t ix(-1); + Int_t iy(-1); + Bool_t isOk = kFALSE; + Int_t detElemId = -1; + do { + //r = gRandom->Landau(9.85026, 9.35881e-02); + r = fNoiseFunctionTrig->GetRandom(); + fi = 2. * TMath::Pi() * gRandom->Rndm(); + //printf("r = %f\tfi = %f\n", r, fi); + gx = r * TMath::Cos(fi); + gy = r * TMath::Sin(fi); + + for ( it.First(chamberId); ! it.IsDone(); it.Next() ){ + Int_t currDetElemId = it.CurrentDEId(); + const AliMpVSegmentation* seg + = AliMpSegmentation::Instance()->GetMpSegmentation(currDetElemId,AliMp::GetCathodType(0)); + if (!seg) continue; + Float_t deltax = seg->Dimensions().X(); + Float_t deltay = seg->Dimensions().Y(); + GetTransformer()->Local2Global(currDetElemId, -deltax, -deltay, 0, xg01, yg01, zg); + GetTransformer()->Local2Global(currDetElemId, deltax, deltay, 0, xg02, yg02, zg); + Float_t xg1 = xg01, xg2 = xg02, yg1 = yg01, yg2 = yg02; + if(xg01>xg02){ + xg1 = xg02; + xg2 = xg01; + } + if(yg01>yg02){ + yg1 = yg02; + yg2 = yg01; + } + if(gx>=xg1 && gx<=xg2 && gy>=yg1 && gy<=yg2){ + detElemId = currDetElemId; + GetTransformer()->Global2Local(detElemId, gx, gy, 0, x, y, z); + pad[0] = seg->PadByPosition(TVector2(x,y),kFALSE); + if(!pad[0].IsValid()) continue; + isOk = kTRUE; + break; + } + } // loop on slats + } while ( !isOk ); + + const AliMpVSegmentation* seg1 + = AliMpSegmentation::Instance()->GetMpSegmentation(detElemId,AliMp::GetCathodType(1)); + pad[1] = seg1->PadByPosition(TVector2(x,y),kFALSE); + + for ( Int_t cathode = 0; cathode < 2; ++cathode ){ + Int_t manuId = pad[cathode].GetLocalBoardId(0); + Int_t manuChannel = pad[cathode].GetLocalBoardChannel(0); + d[cathode] = digitStore.CreateDigit(detElemId,manuId,manuChannel,cathode); + ix = pad[cathode].GetIx(); + iy = pad[cathode].GetIy(); + d[cathode]->SetPadXY(ix,iy); + //d[cathode].SetSignal(1); + //d[cathode].SetPhysicsSignal(0); + d[cathode]->SetCharge(1); + d[cathode]->NoiseOnly(kTRUE); + AliDebug(3,Form("Adding a pure noise digit :")); + + Bool_t ok = digitStore.Add(*d[cathode],AliMUONVDigitStore::kDeny); + if (!ok) + { + fLogger->Log("Collision while adding TriggerNoise digit"); + } + else + { + fLogger->Log("Added triggerNoise digit"); + } + } //loop on cathodes + } // loop on noisy pads + } // loop on chambers +} + + +//_____________________________________________________________________________ +AliLoader* +AliMUONDigitizerV3::GetLoader(const TString& folderName) +{ + /// Get a MUON loader + + AliDebug(2,Form("Getting access to folder %s",folderName.Data())); + AliLoader* loader = AliRunLoader::GetDetectorLoader("MUON",folderName.Data()); if (!loader) { AliError(Form("Could not get MuonLoader from folder %s",folderName.Data())); return 0x0; } - AliMUONData* data = new AliMUONData(loader,"MUON","MUONDataForDigitOutput"); - AliDebug(1,Form("AliMUONData=%p loader=%p",data,loader)); - return data; + return loader; } //_____________________________________________________________________________ Bool_t AliMUONDigitizerV3::Init() { - // - // Initialization of the TTask : - // a) set the outputData pointer - // b) create the calibrationData, according to run number - // c) create the trigger processing task - // - AliDebug(1,""); + /// Initialization of the TTask : + /// a) create the calibrationData, according to run number + /// b) create the trigger processing task + + AliDebug(2,""); if ( fIsInitialized ) { @@ -689,112 +741,74 @@ AliMUONDigitizerV3::Init() return kFALSE; } - fOutputData = GetDataAccess(fManager->GetOutputFolderName()); - if (!fOutputData) - { - AliError("Can not perform digitization. I'm sorry"); - return kFALSE; + // Load mapping + if ( ! AliMpCDB::LoadDDLStore() ) { + AliFatal("Could not access mapping from OCDB !"); } - AliDebug(1,Form("fOutputData=%p",fOutputData)); - - AliRunLoader* runLoader = fOutputData->GetLoader()->GetRunLoader(); - AliRun* galice = runLoader->GetAliRun(); - Int_t runnumber = galice->GetRunNumber(); - - fCalibrationData = new AliMUONCalibrationData(runnumber); - - fTriggerProcessor = new AliMUONTriggerElectronics(fOutputData,fCalibrationData); - if ( muon()->GetTriggerEffCells() ) + if (!fCalibrationData) + AliFatal("Calibration data object not defined"); + + if ( !fCalibrationData->Pedestals() ) { - fTriggerEfficiency = fCalibrationData->TriggerEfficiency(); - if ( fTriggerEfficiency ) - { - AliInfo("Will apply trigger efficiency"); - } - else - { - AliError("I was requested to apply trigger efficiency, but I could " - "not get it !"); - } + AliFatal("Could not access pedestals from OCDB !"); } - - if ( fGenerateNoisyDigits ) + if ( !fCalibrationData->Gains() ) { - AliInfo("Will generate noise-only digits for tracker"); + AliFatal("Could not access gains from OCDB !"); } + + AliInfo("Using trigger configuration from CDB"); + + fTriggerProcessor = new AliMUONTriggerElectronics(fCalibrationData); + + AliDebug(1, Form("Will %s generate noise-only digits for tracker", + (fGenerateNoisyDigits ? "":"NOT"))); + fIsInitialized = kTRUE; return kTRUE; } //_____________________________________________________________________________ -Bool_t -AliMUONDigitizerV3::MergeDigits(const AliMUONDigit& src, - AliMUONDigit& srcAndDest) +void +AliMUONDigitizerV3::MergeWithSDigits(AliMUONVDigitStore*& outputStore, + const AliMUONVDigitStore& input, + Int_t mask) { - // - // Merge 2 digits (src and srcAndDest) into srcAndDest. - // - AliDebug(1,"Merging the following digits:"); - StdoutToAliDebug(1,src.Print("tracks");); - StdoutToAliDebug(1,srcAndDest.Print("tracks");); - - Bool_t check = ( src.DetElemId() == srcAndDest.DetElemId() && - src.PadX() == srcAndDest.PadX() && - src.PadY() == srcAndDest.PadY() && - src.Cathode() == srcAndDest.Cathode() ); - if (!check) - { - return kFALSE; - } + /// Merge the sdigits in inputData with the digits already present in outputData + + if ( !outputStore ) outputStore = input.Create(); - srcAndDest.AddSignal(src.Signal()); - srcAndDest.AddPhysicsSignal(src.Physics()); - for ( Int_t i = 0; i < src.Ntracks(); ++i ) + TIter next(input.CreateIterator()); + AliMUONVDigit* sdigit; + + while ( ( sdigit = static_cast(next()) ) ) { - srcAndDest.AddTrack(src.Track(i),src.TrackCharge(i)); + // Update the track references using the mask. + // FIXME: this is dirty, for backward compatibility only. + // Should re-design all this way of keeping track of MC information... + if ( mask ) sdigit->PatchTracks(mask); + // Then add or update the digit to the output. + AliMUONVDigit* added = outputStore->Add(*sdigit,AliMUONVDigitStore::kMerge); + if (!added) + { + AliError("Could not add digit in merge mode"); + } } - StdoutToAliDebug(1,cout << "result:"; srcAndDest.Print("tracks");); - return kTRUE; } //_____________________________________________________________________________ -void -AliMUONDigitizerV3::MergeWithSDigits(AliMUONData& outputData, - const AliMUONData& inputData, Int_t mask) +TF1* +AliMUONDigitizerV3::NoiseFunction() { - // - // Merge the sdigits in inputData with the digits already present in outputData - // - AliDebug(1,""); - - for ( Int_t ich = 0; ich < AliMUONConstants::NCh(); ++ich ) - { - TClonesArray* iDigits = inputData.SDigits(ich); - TClonesArray* oDigits = outputData.Digits(ich); - if (!iDigits) - { - AliError(Form("Could not get sdigits for ich=%d",ich)); - return; - } - Int_t nSDigits = iDigits->GetEntriesFast(); - for ( Int_t k = 0; k < nSDigits; ++k ) - { - AliMUONDigit* sdigit = static_cast(iDigits->UncheckedAt(k)); - if (!sdigit) - { - AliError(Form("Could not get sdigit for ich=%d and k=%d",ich,k)); - } - else - { - // Update the track references using the mask. - // FIXME: this is dirty, for backward compatibility only. - // Should re-design all this way of keeping track of MC information... - if ( mask ) sdigit->PatchTracks(mask); - // Then add or update the digit to the output. - AddOrUpdateDigit(*oDigits,*sdigit); - } - } + /// Return noise function + static TF1* f = 0x0; + if (!f) + { + f = new TF1("AliMUONDigitizerV3::NoiseFunction","gaus",fgkNSigmas,fgkNSigmas*10); + f->SetParameters(1,0,1); } + return f; } +