/*************************************************************************** * 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. * **************************************************************************/ /* $Log: AliTOFClusterFinder.cxx,v $ Revision 1.31 2007/11/24 14:53:19 zampolli Status flag implemented as UChar_t Revision 1.30 2007/10/04 13:08:52 arcelli updates to comply with AliTOFGeometryV5 becoming AliTOFGeometry Revision 1.29 2007/10/03 10:42:33 arcelli updates to handle new AliTOFcluster, inheriting form AliCluster3D Revision 1.28 2007/05/31 16:06:05 arcelli move instance of AliRawStream outside loop on DDL Revision 1.27 2007/05/02 16:31:49 arcelli Add methods to handle single event reconstruction. retrieval of Calib info moved to AliTOFReconstructor ctor, and passed via a pointer to AliTOFcalib Revision 1.26 2007/04/30 19:02:24 arcelli hopefully the last refinements for correct type conversion in calibration Revision 1.25 2007/04/30 15:22:17 arcelli Change TOF digit Time, Tot etc to int type Revision 1.24 2007/04/27 11:19:31 arcelli updates for the new decoder Revision 1.23 2007/04/23 16:51:39 decaro Digits-to-raw_data conversion: correction for a more real description (A.De Caro, R.Preghenella) Revision 1.22 2007/04/19 17:26:32 arcelli Fix a bug (add some debug printout Revision 1.21 2007/04/18 17:28:12 arcelli Set the ToT bin width to the one actually used... Revision 1.20 2007/03/09 09:57:23 arcelli Remove a forgotten include of Riostrem Revision 1.19 2007/03/08 15:41:20 arcelli set uncorrected times when filling RecPoints Revision 1.18 2007/03/06 16:31:20 arcelli Add Uncorrected TOF Time signal Revision 1.17 2007/02/28 18:09:11 arcelli Add protection against failed retrieval of the CDB cal object, now Reconstruction exits with AliFatal Revision 1.16 2007/02/20 15:57:00 decaro Raw data update: to read the TOF raw data defined in UNPACKED mode Revision 0.03 2005/07/28 A. De Caro Implement public method Raw2Digits(Int_t, AliRawReader *) to convert digits from raw data in MC digits (temporary solution) Revision 0.02 2005/07/27 A. De Caro Implement public method Digits2RecPoint(Int_t) to convert digits in clusters Revision 0.02 2005/07/26 A. De Caro Implement private methods InsertCluster(AliTOFcluster *) FindClusterIndex(Double_t) originally implemented in AliTOFtracker by S. Arcelli and C. Zampolli Revision 0.01 2005/07/25 A. De Caro Implement public methods Digits2RecPoint(AliRawReader *, TTree *) Digits2RecPoint(Int_t, AliRawReader *) to convert raw data in clusters */ //////////////////////////////////////////////////////////////// // // // Class for TOF cluster finder // // // // Starting from Raw Data, create rec points, // // fill TreeR for TOF, // // write TOF.RecPoints.root file // // // //////////////////////////////////////////////////////////////// #include "Riostream.h" #include "TClonesArray.h" #include "TStopwatch.h" #include "TTree.h" //#include #include //#include #include "AliDAQ.h" #include "AliLoader.h" #include "AliLog.h" #include "AliRawReader.h" #include "AliRunLoader.h" //#include "AliAlignObj.h" #include #include "AliTOFcalib.h" #include "AliTOFChannelOnlineArray.h" #include "AliTOFChannelOnlineStatusArray.h" #include "AliTOFChannelOffline.h" #include "AliTOFClusterFinder.h" #include "AliTOFcluster.h" #include "AliTOFdigit.h" #include "AliTOFGeometry.h" #include "AliTOFrawData.h" #include "AliTOFDeltaBCOffset.h" #include "AliTOFCTPLatency.h" #include "AliTOFRunParams.h" //extern TFile *gFile; using std::cout; using std::endl; using std::ofstream; using std::ios; ClassImp(AliTOFClusterFinder) AliTOFClusterFinder::AliTOFClusterFinder(AliTOFcalib *calib): TTask("AliTOFClusterFinder",""), fRunLoader(0), fTOFLoader(0), fTreeD(0), fTreeR(0), fDigits(new TClonesArray("AliTOFdigit", 4000)), fRecPoints(new TClonesArray("AliTOFcluster", 4000)), fNumberOfTofClusters(0), fNumberOfTofTrgPads(0), fVerbose(0), fDecoderVersion(0), fTOFcalib(calib), fTOFRawStream(AliTOFRawStream()) { // // Constructor // for (Int_t ii=0; iiGetOfflineValidity(); if (validity.CompareTo("valid")==0) { AliInfo(Form(" validity = %s - Using offline calibration parameters",validity.Data())); } else { AliInfo(Form(" validity = %s - Using online calibration parameters",validity.Data())); } } //______________________________________________________________________________ AliTOFClusterFinder::AliTOFClusterFinder(AliRunLoader* runLoader, AliTOFcalib *calib): TTask("AliTOFClusterFinder",""), fRunLoader(runLoader), fTOFLoader(runLoader->GetLoader("TOFLoader")), fTreeD(0), fTreeR(0), fDigits(new TClonesArray("AliTOFdigit", 4000)), fRecPoints(new TClonesArray("AliTOFcluster", 4000)), fNumberOfTofClusters(0), fNumberOfTofTrgPads(0), fVerbose(0), fDecoderVersion(0), fTOFcalib(calib), fTOFRawStream(AliTOFRawStream()) { // // Constructor // for (Int_t ii=0; iiGetOfflineValidity(); if (validity.CompareTo("valid")==0) { AliInfo(Form(" validity = %s - Using offline calibration parameters",validity.Data())); } else { AliInfo(Form(" validity = %s - Using online calibration parameters",validity.Data())); } } //------------------------------------------------------------------------ AliTOFClusterFinder::AliTOFClusterFinder(const AliTOFClusterFinder &source) : TTask(source), fRunLoader(0), fTOFLoader(0), fTreeD(0), fTreeR(0), fDigits(source.fDigits), fRecPoints(source.fRecPoints), fNumberOfTofClusters(0), fNumberOfTofTrgPads(0), fVerbose(0), fDecoderVersion(source.fDecoderVersion), fTOFcalib(source.fTOFcalib), fTOFRawStream(source.fTOFRawStream) { // copy constructor for (Int_t ii=0; iiDelete(); delete fDigits; fDigits=0; } if (fRecPoints) { fRecPoints->Delete(); delete fRecPoints; fRecPoints=0; } //if (fTofClusters || fNumberOfTofClusters) { if (fNumberOfTofClusters) { for (Int_t ii=0; iiDelete(); delete fTofClusters[ii]; } fNumberOfTofClusters=0; } fNumberOfTofTrgPads=0; } //______________________________________________________________________________ void AliTOFClusterFinder::Digits2RecPoints(Int_t iEvent) { // // Converts digits to recpoints for TOF // TStopwatch stopwatch; stopwatch.Start(); Int_t inholes = 0; fRunLoader->GetEvent(iEvent); fTreeD = fTOFLoader->TreeD(); if (fTreeD == 0x0) { AliFatal("AliTOFClusterFinder: Can not get TreeD"); return; } fDigits->Clear(); fTreeD->GetBranch("TOF")->SetAutoDelete(kFALSE); fTreeD->SetBranchAddress("TOF",&fDigits); ResetRecpoint(); fTreeR = fTOFLoader->TreeR(); if (fTreeR == 0x0) { fTOFLoader->MakeTree("R"); fTreeR = fTOFLoader->TreeR(); } Int_t bufsize = 32000; fTreeR->Branch("TOF", &fRecPoints, bufsize); fTreeD->GetEvent(0); Int_t nDigits = fDigits->GetEntriesFast(); AliDebug(2,Form("Number of TOF digits: %d",nDigits)); Int_t ii; Int_t dig[5]={-1,-1,-1,-1,-1}; //cluster detector indeces Int_t parTOF[7]={0,0,0,0,0,0,0}; //The TOF signal parameters Bool_t status=kTRUE; // assume all sim channels ok in the beginning... for (ii=0; iiUncheckedAt(ii); dig[0]=d->GetSector(); dig[1]=d->GetPlate(); dig[2]=d->GetStrip(); dig[3]=d->GetPadz(); dig[4]=d->GetPadx(); /* check valid index */ if (dig[0]==-1||dig[1]==-1||dig[2]==-1||dig[3]==-1||dig[4]==-1) continue; // Do not reconstruct anything in the holes if (dig[0]==13 || dig[0]==14 || dig[0]==15 ) { // sectors with holes if (dig[1]==2) { // plate with holes inholes++; continue; } } AliDebug(2,Form(" %2d %1d %2d %1d %2d ",dig[0],dig[1],dig[2],dig[3],dig[4])); parTOF[0] = d->GetTdc(); //the TDC signal parTOF[1] = d->GetToT(); //the ToT signal parTOF[2] = d->GetAdc(); // the adc charge parTOF[3] = d->GetTdcND(); // non decalibrated sim time parTOF[4] = d->GetTdc(); // raw time, == Tdc time for the moment parTOF[5] = 0; // deltaBC parTOF[6] = 0; // L0-L1 latency Double_t posClus[3]; Double_t covClus[6]; UShort_t volIdClus=GetClusterVolIndex(dig); GetClusterPars(dig, posClus,covClus); AliTOFcluster *tofCluster = new AliTOFcluster(volIdClus,posClus[0],posClus[1],posClus[2],covClus[0],covClus[1],covClus[2],covClus[3],covClus[4],covClus[5],d->GetTracks(),dig,parTOF,status,ii); InsertCluster(tofCluster); } AliDebug(1,Form("Number of found clusters: %d for event: %d", fNumberOfTofClusters, iEvent)); CalibrateRecPoint(); FillRecPoint(); fTreeR->Fill(); // ResetRecpoint(); fTOFLoader = fRunLoader->GetLoader("TOFLoader"); fTOFLoader->WriteRecPoints("OVERWRITE"); AliDebug(1,Form("Execution time to read TOF digits and to write TOF clusters : R:%.4fs C:%.4fs", stopwatch.RealTime(),stopwatch.CpuTime())); if (inholes) AliWarning(Form("Clusters in the TOF holes: %d",inholes)); } //______________________________________________________________________________ void AliTOFClusterFinder::Digits2RecPoints(TTree* digitsTree, TTree* clusterTree) { // // Converts digits to recpoints for TOF // TStopwatch stopwatch; stopwatch.Start(); Int_t inholes = 0; if (digitsTree == 0x0) { AliFatal("AliTOFClusterFinder: Can not get TreeD"); return; } fDigits->Clear(); digitsTree->GetBranch("TOF")->SetAutoDelete(kFALSE); digitsTree->SetBranchAddress("TOF",&fDigits); ResetRecpoint(); Int_t bufsize = 32000; clusterTree->Branch("TOF", &fRecPoints, bufsize); digitsTree->GetEvent(0); Int_t nDigits = fDigits->GetEntriesFast(); AliDebug(2,Form("Number of TOF digits: %d",nDigits)); Int_t ii; Int_t dig[5]={-1,-1,-1,-1,-1}; //cluster detector indeces Int_t parTOF[7]={0,0,0,0,0,0,0}; //The TOF signal parameters Bool_t status=kTRUE; // assume all sim channels ok in the beginning... for (ii=0; iiUncheckedAt(ii); dig[0]=d->GetSector(); dig[1]=d->GetPlate(); dig[2]=d->GetStrip(); dig[3]=d->GetPadz(); dig[4]=d->GetPadx(); /* check valid index */ if (dig[0]==-1||dig[1]==-1||dig[2]==-1||dig[3]==-1||dig[4]==-1) continue; // Do not reconstruct anything in the holes if (dig[0]==13 || dig[0]==14 || dig[0]==15 ) { // sectors with holes if (dig[1]==2) { // plate with holes inholes++; continue; } } // AliDebug(2,Form(" %2d %1d %2d %1d %2d ",dig[0],dig[1],dig[2],dig[3],dig[4])); parTOF[0] = d->GetTdc(); //the TDC signal parTOF[1] = d->GetToT(); //the ToT signal parTOF[2] = d->GetAdc(); // the adc charge parTOF[3] = d->GetTdcND(); // non decalibrated sim time parTOF[4] = d->GetTdc(); // raw time, == Tdc time for the moment parTOF[5] = 0; // deltaBC parTOF[6] = 0; // L0-L1 latency Double_t posClus[3]; Double_t covClus[6]; UShort_t volIdClus=GetClusterVolIndex(dig); GetClusterPars(dig,posClus,covClus); AliTOFcluster *tofCluster = new AliTOFcluster(volIdClus,posClus[0],posClus[1],posClus[2],covClus[0],covClus[1],covClus[2],covClus[3],covClus[4],covClus[5],d->GetTracks(),dig,parTOF,status,ii); InsertCluster(tofCluster); } AliDebug(1,Form("Number of found clusters: %d", fNumberOfTofClusters)); CalibrateRecPoint(); FillRecPoint(); clusterTree->Fill(); // ResetRecpoint(); AliDebug(1,Form("Execution time to read TOF digits and to write TOF clusters : R:%.4fs C:%.4fs", stopwatch.RealTime(),stopwatch.CpuTime())); if (inholes) AliWarning(Form("Clusters in the TOF holes: %d",inholes)); } //______________________________________________________________________________ void AliTOFClusterFinder::Digits2RecPoints(AliRawReader *rawReader, TTree *clustersTree) { // // Converts RAW data to recpoints for TOF // TStopwatch stopwatch; stopwatch.Start(); Int_t inholes = 0; const Int_t kDDL = AliDAQ::NumberOfDdls("TOF"); ResetRecpoint(); Int_t bufsize = 32000; clustersTree->Branch("TOF", &fRecPoints, bufsize); TClonesArray * clonesRawData; Int_t dummy = -1; Int_t detectorIndex[5]={-1,-1,-1,-1,-1}; Int_t parTOF[7]={-1,-1,-1,-1,-1,-1,-1}; ofstream ftxt; if (fVerbose==2) ftxt.open("TOFdigitsRead.txt",ios::app); fTOFRawStream.Clear(); fTOFRawStream.SetRawReader(rawReader); if (fDecoderVersion == 1) { AliInfo("Using New Decoder"); } else if (fDecoderVersion == 2) { AliInfo("Using Enhanced Decoder"); } else { AliInfo("Using Old Decoder"); } Int_t indexDDL = 0; for (indexDDL = 0; indexDDL < kDDL; indexDDL++) { rawReader->Reset(); if (fDecoderVersion == 1) { fTOFRawStream.LoadRawDataBuffers(indexDDL,fVerbose); } else if (fDecoderVersion == 2) { fTOFRawStream.LoadRawDataBuffersV2(indexDDL,fVerbose); } else { fTOFRawStream.LoadRawData(indexDDL); } clonesRawData = (TClonesArray*)fTOFRawStream.GetRawData(); for (Int_t iRawData = 0; iRawDataGetEntriesFast(); iRawData++) { AliTOFrawData *tofRawDatum = (AliTOFrawData*)clonesRawData->UncheckedAt(iRawData); //if (tofRawDatum->GetTOT()==-1 || tofRawDatum->GetTOF()==-1) continue; if (tofRawDatum->GetTOF()==-1) continue; if (fVerbose==2) { if (indexDDL<10) ftxt << " " << indexDDL; else ftxt << " " << indexDDL; if (tofRawDatum->GetTRM()<10) ftxt << " " << tofRawDatum->GetTRM(); else ftxt << " " << tofRawDatum->GetTRM(); ftxt << " " << tofRawDatum->GetTRMchain(); if (tofRawDatum->GetTDC()<10) ftxt << " " << tofRawDatum->GetTDC(); else ftxt << " " << tofRawDatum->GetTDC(); ftxt << " " << tofRawDatum->GetTDCchannel(); } if ( tofRawDatum->GetTRM()==3 && (tofRawDatum->GetTDC()> 11 && tofRawDatum->GetTDC()< 15) ) FillTOFtriggerMap(indexDDL, tofRawDatum); for (Int_t aa=0; aa<5; aa++) detectorIndex[aa] = -1; fTOFRawStream.EquipmentId2VolumeId(indexDDL, tofRawDatum->GetTRM(), tofRawDatum->GetTRMchain(), tofRawDatum->GetTDC(), tofRawDatum->GetTDCchannel(), detectorIndex); dummy = detectorIndex[3]; detectorIndex[3] = detectorIndex[4]; detectorIndex[4] = dummy; if (fVerbose==2) { if (detectorIndex[0]<10) ftxt << " -> " << detectorIndex[0]; else ftxt << " -> " << detectorIndex[0]; ftxt << " " << detectorIndex[1]; if (detectorIndex[2]<10) ftxt << " " << detectorIndex[2]; else ftxt << " " << detectorIndex[2]; ftxt << " " << detectorIndex[3]; if (detectorIndex[4]<10) ftxt << " " << detectorIndex[4]; else ftxt << " " << detectorIndex[4]; } /* check valid index */ if (detectorIndex[0]==-1||detectorIndex[1]==-1||detectorIndex[2]==-1||detectorIndex[3]==-1||detectorIndex[4]==-1) continue; // Do not reconstruct anything in the holes if (detectorIndex[0]==13 || detectorIndex[0]==14 || detectorIndex[0]==15 ) { // sectors with holes if (detectorIndex[1]==2) { // plate with holes inholes++; continue; } } parTOF[0] = tofRawDatum->GetTOF(); //TDC parTOF[1] = tofRawDatum->GetTOT(); // TOT parTOF[2] = tofRawDatum->GetTOT(); //ADC==TOF parTOF[3] = 0;//raw data: no track of undecalib sim time parTOF[4] = tofRawDatum->GetTOF(); // RAW time parTOF[5] = tofRawDatum->GetDeltaBC(); // deltaBC parTOF[6] = tofRawDatum->GetL0L1Latency(); // L0-L1 latency Double_t posClus[3]; Double_t covClus[6]; UShort_t volIdClus=GetClusterVolIndex(detectorIndex); Int_t lab[3]={-1,-1,-1}; Bool_t status=kTRUE; GetClusterPars(detectorIndex,posClus,covClus); AliTOFcluster *tofCluster = new AliTOFcluster(volIdClus,posClus[0],posClus[1],posClus[2],covClus[0],covClus[1],covClus[2],covClus[3],covClus[4],covClus[5],lab,detectorIndex,parTOF,status,-1); InsertCluster(tofCluster); if (fVerbose==2) { if (parTOF[1]<10)ftxt << " " << parTOF[1]; else if (parTOF[1]>=10 && parTOF[1]<100) ftxt << " " << parTOF[1]; else ftxt << " " << parTOF[1]; if (parTOF[0]<10) ftxt << " " << parTOF[0] << endl; else if (parTOF[0]>=10 && parTOF[0]<100) ftxt << " " << parTOF[0] << endl; else if (parTOF[0]>=100 && parTOF[0]<1000) ftxt << " " << parTOF[0] << endl; else ftxt << " " << parTOF[0] << endl; } } // closed loop on TOF raw data per current DDL file clonesRawData->Clear("C"); } // closed loop on DDL index if (fVerbose==2) ftxt.close(); AliDebug(1,Form("Number of found clusters: %d", fNumberOfTofClusters)); CalibrateRecPoint(rawReader->GetTimestamp()); FillRecPoint(); clustersTree->Fill(); // ResetRecpoint(); AliDebug(1, Form("Execution time to read TOF raw data and to write TOF clusters : R:%.4fs C:%.4fs", stopwatch.RealTime(),stopwatch.CpuTime())); if (inholes) AliWarning(Form("Clusters in the TOF holes: %d",inholes)); } //______________________________________________________________________________ void AliTOFClusterFinder::Digits2RecPoints(Int_t iEvent, AliRawReader *rawReader) { // // Converts RAW data to recpoints for TOF // TStopwatch stopwatch; stopwatch.Start(); Int_t inholes = 0; const Int_t kDDL = AliDAQ::NumberOfDdls("TOF"); fRunLoader->GetEvent(iEvent); AliDebug(2,Form(" Event number %2d ", iEvent)); fTreeR = fTOFLoader->TreeR(); if (fTreeR == 0x0){ fTOFLoader->MakeTree("R"); fTreeR = fTOFLoader->TreeR(); } Int_t bufsize = 32000; fTreeR->Branch("TOF", &fRecPoints, bufsize); TClonesArray * clonesRawData; Int_t dummy = -1; Int_t detectorIndex[5] = {-1, -1, -1, -1, -1}; Int_t parTOF[7]; ofstream ftxt; if (fVerbose==2) ftxt.open("TOFdigitsRead.txt",ios::app); fTOFRawStream.Clear(); fTOFRawStream.SetRawReader(rawReader); if (fDecoderVersion == 1) { AliInfo("Using New Decoder"); } else if (fDecoderVersion == 2) { AliInfo("Using Enhanced Decoder"); } else { AliInfo("Using Old Decoder"); } Int_t indexDDL = 0; for (indexDDL = 0; indexDDL < kDDL; indexDDL++) { rawReader->Reset(); if (fDecoderVersion == 1) { fTOFRawStream.LoadRawDataBuffers(indexDDL,fVerbose); } else if (fDecoderVersion == 2) { fTOFRawStream.LoadRawDataBuffersV2(indexDDL,fVerbose); } else { fTOFRawStream.LoadRawData(indexDDL); } clonesRawData = (TClonesArray*)fTOFRawStream.GetRawData(); for (Int_t iRawData = 0; iRawDataGetEntriesFast(); iRawData++) { AliTOFrawData *tofRawDatum = (AliTOFrawData*)clonesRawData->UncheckedAt(iRawData); //if (tofRawDatum->GetTOT()==-1 || tofRawDatum->GetTOF()==-1) continue; if (tofRawDatum->GetTOF()==-1) continue; if (fVerbose==2) { if (indexDDL<10) ftxt << " " << indexDDL; else ftxt << " " << indexDDL; if (tofRawDatum->GetTRM()<10) ftxt << " " << tofRawDatum->GetTRM(); else ftxt << " " << tofRawDatum->GetTRM(); ftxt << " " << tofRawDatum->GetTRMchain(); if (tofRawDatum->GetTDC()<10) ftxt << " " << tofRawDatum->GetTDC(); else ftxt << " " << tofRawDatum->GetTDC(); ftxt << " " << tofRawDatum->GetTDCchannel(); } fTOFRawStream.EquipmentId2VolumeId(indexDDL, tofRawDatum->GetTRM(), tofRawDatum->GetTRMchain(), tofRawDatum->GetTDC(), tofRawDatum->GetTDCchannel(), detectorIndex); dummy = detectorIndex[3]; detectorIndex[3] = detectorIndex[4]; detectorIndex[4] = dummy; if (fVerbose==2) { if (detectorIndex[0]<10) ftxt << " -> " << detectorIndex[0]; else ftxt << " -> " << detectorIndex[0]; ftxt << " " << detectorIndex[1]; if (detectorIndex[2]<10) ftxt << " " << detectorIndex[2]; else ftxt << " " << detectorIndex[2]; ftxt << " " << detectorIndex[3]; if (detectorIndex[4]<10) ftxt << " " << detectorIndex[4]; else ftxt << " " << detectorIndex[4]; } /* check valid index */ if (detectorIndex[0]==-1||detectorIndex[1]==-1||detectorIndex[2]==-1||detectorIndex[3]==-1||detectorIndex[4]==-1) continue; // Do not reconstruct anything in the holes if (detectorIndex[0]==13 || detectorIndex[0]==14 || detectorIndex[0]==15 ) { // sectors with holes if (detectorIndex[1]==2) { // plate with holes inholes++; continue; } } parTOF[0] = tofRawDatum->GetTOF(); // TDC parTOF[1] = tofRawDatum->GetTOT(); // TOT parTOF[2] = tofRawDatum->GetTOT(); // raw data have ADC=TOT parTOF[3] = 0; //raw data: no track of the undecalib sim time parTOF[4] = tofRawDatum->GetTOF(); // Raw time == TDC parTOF[5] = tofRawDatum->GetDeltaBC(); // deltaBC parTOF[6] = tofRawDatum->GetL0L1Latency(); // L0-L1 latency Double_t posClus[3]; Double_t covClus[6]; UShort_t volIdClus=GetClusterVolIndex(detectorIndex); Int_t lab[3]={-1,-1,-1}; Bool_t status=kTRUE; GetClusterPars(detectorIndex,posClus,covClus); AliTOFcluster *tofCluster = new AliTOFcluster(volIdClus,posClus[0],posClus[1],posClus[2],covClus[0],covClus[1],covClus[2],covClus[3],covClus[4],covClus[5],lab,detectorIndex,parTOF,status,-1); InsertCluster(tofCluster); if (fVerbose==2) { if (parTOF[1]<10)ftxt << " " << parTOF[1]; else if (parTOF[1]>=10 && parTOF[1]<100) ftxt << " " << parTOF[1]; else ftxt << " " << parTOF[1]; if (parTOF[0]<10) ftxt << " " << parTOF[0] << endl; else if (parTOF[0]>=10 && parTOF[0]<100) ftxt << " " << parTOF[0] << endl; else if (parTOF[0]>=100 && parTOF[0]<1000) ftxt << " " << parTOF[0] << endl; else ftxt << " " << parTOF[0] << endl; } } // closed loop on TOF raw data per current DDL file clonesRawData->Clear("C"); } // closed loop on DDL index if (fVerbose==2) ftxt.close(); AliDebug(1,Form("Number of found clusters: %d for event: %d", fNumberOfTofClusters, iEvent)); CalibrateRecPoint(rawReader->GetTimestamp()); FillRecPoint(); fTreeR->Fill(); // ResetRecpoint(); fTOFLoader = fRunLoader->GetLoader("TOFLoader"); fTOFLoader->WriteRecPoints("OVERWRITE"); AliDebug(1, Form("Execution time to read TOF raw data and to write TOF clusters : R:%.4fs C:%.4fs", stopwatch.RealTime(),stopwatch.CpuTime())); if (inholes) AliWarning(Form("Clusters in the TOF holes: %d",inholes)); } //______________________________________________________________________________ void AliTOFClusterFinder::Raw2Digits(Int_t iEvent, AliRawReader *rawReader) { // // Converts RAW data to MC digits for TOF // // (temporary solution) // TStopwatch stopwatch; stopwatch.Start(); const Int_t kDDL = AliTOFGeometry::NDDL()*AliTOFGeometry::NSectors(); fRunLoader->GetEvent(iEvent); fTreeD = fTOFLoader->TreeD(); if (fTreeD) { AliInfo("TreeD re-creation"); fTreeD = 0x0; fTOFLoader->MakeTree("D"); fTreeD = fTOFLoader->TreeD(); } else { AliFatal("Can not get TreeD"); return; } Int_t bufsize = 32000; fDigits->Clear(); fTreeD->Branch("TOF", &fDigits, bufsize); fRunLoader->GetEvent(iEvent); AliDebug(2,Form(" Event number %2d ", iEvent)); TClonesArray * clonesRawData; Int_t dummy = -1; Int_t detectorIndex[5]; Int_t digit[4]; fTOFRawStream.Clear(); fTOFRawStream.SetRawReader(rawReader); if (fDecoderVersion == 1) { AliInfo("Using New Decoder"); } else if (fDecoderVersion == 2) { AliInfo("Using Enhanced Decoder"); } else { AliInfo("Using Old Decoder"); } Int_t indexDDL = 0; for (indexDDL = 0; indexDDL < kDDL; indexDDL++) { rawReader->Reset(); if (fDecoderVersion == 1) { fTOFRawStream.LoadRawDataBuffers(indexDDL,fVerbose); } else if (fDecoderVersion == 2) { fTOFRawStream.LoadRawDataBuffersV2(indexDDL,fVerbose); } else { fTOFRawStream.LoadRawData(indexDDL); } clonesRawData = (TClonesArray*)fTOFRawStream.GetRawData(); for (Int_t iRawData = 0; iRawDataGetEntriesFast(); iRawData++) { AliTOFrawData *tofRawDatum = (AliTOFrawData*)clonesRawData->UncheckedAt(iRawData); //if (!tofRawDatum->GetTOT() || !tofRawDatum->GetTOF()) continue; if (tofRawDatum->GetTOF()==-1) continue; fTOFRawStream.EquipmentId2VolumeId(indexDDL, tofRawDatum->GetTRM(), tofRawDatum->GetTRMchain(), tofRawDatum->GetTDC(), tofRawDatum->GetTDCchannel(), detectorIndex); dummy = detectorIndex[3]; detectorIndex[3] = detectorIndex[4]; detectorIndex[4] = dummy; digit[0] = fTOFRawStream.GetTofBin(); digit[1] = fTOFRawStream.GetToTbin(); digit[2] = fTOFRawStream.GetToTbin(); digit[3] = 0; Int_t tracknum[3]={-1,-1,-1}; TClonesArray &aDigits = *fDigits; Int_t last=fDigits->GetEntriesFast(); new (aDigits[last]) AliTOFdigit(tracknum, detectorIndex, digit); } // while loop clonesRawData->Clear("C"); } // DDL Loop fTreeD->Fill(); fTOFLoader = fRunLoader->GetLoader("TOFLoader"); fTOFLoader->WriteDigits("OVERWRITE"); AliDebug(1, Form("Execution time to read TOF raw data and to write TOF clusters : R:%.2fs C:%.2fs", stopwatch.RealTime(),stopwatch.CpuTime())); } //______________________________________________________________________________ void AliTOFClusterFinder::Raw2Digits(AliRawReader *rawReader, TTree* digitsTree) { // // Converts RAW data to MC digits for TOF for the current event // // TStopwatch stopwatch; stopwatch.Start(); const Int_t kDDL = AliTOFGeometry::NDDL()*AliTOFGeometry::NSectors(); if (!digitsTree) { AliError("No input digits Tree"); return; } Int_t bufsize = 32000; digitsTree->Branch("TOF", &fDigits, bufsize); TClonesArray * clonesRawData; Int_t dummy = -1; Int_t detectorIndex[5]; Int_t digit[4]; fTOFRawStream.Clear(); fTOFRawStream.SetRawReader(rawReader); if (fDecoderVersion == 1) { AliInfo("Using New Decoder"); } else if (fDecoderVersion == 2) { AliInfo("Using Enhanced Decoder"); } else { AliInfo("Using Old Decoder"); } Int_t indexDDL = 0; for (indexDDL = 0; indexDDL < kDDL; indexDDL++) { rawReader->Reset(); if (fDecoderVersion == 1) { fTOFRawStream.LoadRawDataBuffers(indexDDL,fVerbose); } else if (fDecoderVersion == 2) { fTOFRawStream.LoadRawDataBuffersV2(indexDDL,fVerbose); } else { fTOFRawStream.LoadRawData(indexDDL); } clonesRawData = (TClonesArray*)fTOFRawStream.GetRawData(); for (Int_t iRawData = 0; iRawDataGetEntriesFast(); iRawData++) { AliTOFrawData *tofRawDatum = (AliTOFrawData*)clonesRawData->UncheckedAt(iRawData); //if (!tofRawDatum->GetTOT() || !tofRawDatum->GetTOF()) continue; if (tofRawDatum->GetTOF()==-1) continue; fTOFRawStream.EquipmentId2VolumeId(indexDDL, tofRawDatum->GetTRM(), tofRawDatum->GetTRMchain(), tofRawDatum->GetTDC(), tofRawDatum->GetTDCchannel(), detectorIndex); dummy = detectorIndex[3]; detectorIndex[3] = detectorIndex[4]; detectorIndex[4] = dummy; digit[0] = fTOFRawStream.GetTofBin(); digit[1] = fTOFRawStream.GetToTbin(); digit[2] = fTOFRawStream.GetToTbin(); digit[3] = 0; Int_t tracknum[3]={-1,-1,-1}; TClonesArray &aDigits = *fDigits; Int_t last=fDigits->GetEntriesFast(); new (aDigits[last]) AliTOFdigit(tracknum, detectorIndex, digit); } // while loop clonesRawData->Clear("C"); } // DDL Loop digitsTree->Fill(); AliDebug(1, Form("Got %d digits: ", fDigits->GetEntries())); AliDebug(1, Form("Execution time to read TOF raw data and fill TOF digit tree : R:%.2fs C:%.2fs", stopwatch.RealTime(),stopwatch.CpuTime())); } //______________________________________________________________________________ Int_t AliTOFClusterFinder::InsertCluster(AliTOFcluster *tofCluster) { //---------------------------------------------------------------------------// // This function adds a TOF cluster to the array of TOF clusters sorted in Z // //---------------------------------------------------------------------------// if (fNumberOfTofClusters==kTofMaxCluster) { AliError("Too many clusters !"); return 1; } if (fNumberOfTofClusters==0) { fTofClusters[fNumberOfTofClusters++] = tofCluster; return 0; } Int_t ii = FindClusterIndex(tofCluster->GetZ()); memmove(fTofClusters+ii+1 ,fTofClusters+ii,(fNumberOfTofClusters-ii)*sizeof(AliTOFcluster*)); fTofClusters[ii] = tofCluster; fNumberOfTofClusters++; return 0; } //_________________________________________________________________________ Int_t AliTOFClusterFinder::FindClusterIndex(Double_t z) const { //-------------------------------------------------------------------- // This function returns the index of the nearest cluster in z //-------------------------------------------------------------------- if (fNumberOfTofClusters==0) return 0; if (z <= fTofClusters[0]->GetZ()) return 0; if (z > fTofClusters[fNumberOfTofClusters-1]->GetZ()) return fNumberOfTofClusters; Int_t b = 0, e = fNumberOfTofClusters-1, m = (b+e)/2; for (; b fTofClusters[m]->GetZ()) b=m+1; else e=m; } return m; } //_________________________________________________________________________ void AliTOFClusterFinder::FillRecPoint() { // // Copy the global array of AliTOFcluster, i.e. fTofClusters (sorted // in Z) in the global TClonesArray of AliTOFcluster, // i.e. fRecPoints. // Int_t ii, jj; Int_t detectorIndex[5]; Int_t parTOF[7]; Int_t trackLabels[3]; Int_t digitIndex = -1; Bool_t status=kTRUE; TClonesArray &lRecPoints = *fRecPoints; for (ii=0; iiGetIndex(); for(jj=0; jj<5; jj++) detectorIndex[jj] = clOr->GetDetInd(jj); for(jj=0; jj<3; jj++) trackLabels[jj] = clOr->GetLabel(jj); parTOF[0] = clOr->GetTDC(); // TDC parTOF[1] = clOr->GetToT(); // TOT parTOF[2] = clOr->GetADC(); // ADC=TOT parTOF[3] = clOr->GetTDCND(); // TDCND parTOF[4] = clOr->GetTDCRAW();//RAW parTOF[5] = clOr->GetDeltaBC();//deltaBC parTOF[6] = clOr->GetL0L1Latency();//L0-L1 latency status=clOr->GetStatus(); Double_t posClus[3]; Double_t covClus[6]; UShort_t volIdClus=GetClusterVolIndex(detectorIndex); GetClusterPars(detectorIndex,posClus,covClus); new(lRecPoints[ii]) AliTOFcluster(volIdClus,posClus[0],posClus[1],posClus[2],covClus[0],covClus[1],covClus[2],covClus[3],covClus[4],covClus[5],trackLabels,detectorIndex, parTOF,status,digitIndex); AliDebug(2, Form(" %4d %4d %f %f %f %f %f %f %f %f %f %3d %3d %3d %2d %1d %2d %1d %2d %4d %3d %3d %4d %4d %1d %4d", ii, volIdClus, posClus[0], posClus[1], posClus[2], clOr->GetSigmaX2(), clOr->GetSigmaXY(), clOr->GetSigmaXZ(), clOr->GetSigmaY2(), clOr->GetSigmaYZ(), clOr->GetSigmaZ2(), trackLabels[0], trackLabels[1], trackLabels[2], detectorIndex[0], detectorIndex[1], detectorIndex[2], detectorIndex[3], detectorIndex[4], parTOF[0], parTOF[1], parTOF[2], parTOF[3], parTOF[4], status, digitIndex)); delete clOr; } // loop on clusters } //_________________________________________________________________________ /* * OLD CALIBRATE REC POINTS FUNCTION */ #if 0 void AliTOFClusterFinder::CalibrateRecPoint(UInt_t timestamp) { // // Copy the global array of AliTOFcluster, i.e. fTofClusters (sorted // in Z) in the global TClonesArray of AliTOFcluster, // i.e. fRecPoints. // Int_t ii, jj; Int_t detectorIndex[5]; Int_t digitIndex = -1; Double_t tToT; Double_t timeCorr; Int_t tdcCorr; Float_t tdcLatencyWindow; AliDebug(1," Calibrating TOF Clusters"); AliTOFChannelOnlineArray *calDelay = fTOFcalib->GetTOFOnlineDelay(); AliTOFChannelOnlineStatusArray *calStatus = fTOFcalib->GetTOFOnlineStatus(); TObjArray *calTOFArrayOffline = fTOFcalib->GetTOFCalArrayOffline(); AliTOFDeltaBCOffset *deltaBCOffsetObj = fTOFcalib->GetDeltaBCOffset(); Int_t deltaBCOffset = deltaBCOffsetObj->GetDeltaBCOffset(); AliTOFCTPLatency *ctpLatencyObj = fTOFcalib->GetCTPLatency(); Float_t ctpLatency = ctpLatencyObj->GetCTPLatency(); AliTOFRunParams *runParamsObj = fTOFcalib->GetRunParams(); Float_t t0 = runParamsObj->EvalT0(timestamp); TString validity = (TString)fTOFcalib->GetOfflineValidity(); Int_t calibration = -1; if (validity.CompareTo("valid")==0) { //AliInfo(Form(" validity = %s - Using offline calibration parameters",validity.Data())); calibration = 1; } else { //AliInfo(Form(" validity = %s - Using online calibration parameters",validity.Data())); calibration = 0 ; } for (ii=0; iiGetIndex(); for(jj=0; jj<5; jj++) detectorIndex[jj] = fTofClusters[ii]->GetDetInd(jj); Int_t index = AliTOFGeometry::GetIndex(detectorIndex); UChar_t statusPulser=calStatus->GetPulserStatus(index); UChar_t statusNoise=calStatus->GetNoiseStatus(index); UChar_t statusHW=calStatus->GetHWStatus(index); UChar_t status=calStatus->GetStatus(index); tdcLatencyWindow = calStatus->GetLatencyWindow(index) * 1.e3; /* ns -> ps */ //check the status, also unknown is fine!!!!!!! AliDebug(2, Form(" Status for channel %d = %d",index, (Int_t)status)); if((statusPulser & AliTOFChannelOnlineStatusArray::kTOFPulserBad)==(AliTOFChannelOnlineStatusArray::kTOFPulserBad)||(statusNoise & AliTOFChannelOnlineStatusArray::kTOFNoiseBad)==(AliTOFChannelOnlineStatusArray::kTOFNoiseBad)||(statusHW & AliTOFChannelOnlineStatusArray::kTOFHWBad)==(AliTOFChannelOnlineStatusArray::kTOFHWBad)){ AliDebug(2, Form(" Bad Status for channel %d",index)); fTofClusters[ii]->SetStatus(kFALSE); //odd convention, to avoid conflict with calibration objects currently in the db (temporary solution). } else { AliDebug(2, Form(" Good Status for channel %d",index)); } // Get Rough channel online equalization Double_t roughDelay=(Double_t)calDelay->GetDelay(index); // in ns AliDebug(2,Form(" channel delay (ns) = %f", roughDelay)); // Get Refined channel offline calibration parameters if (calibration ==1){ AliTOFChannelOffline * calChannelOffline = (AliTOFChannelOffline*)calTOFArrayOffline->At(index); Double_t par[6]; for (Int_t j = 0; j<6; j++){ par[j]=(Double_t)calChannelOffline->GetSlewPar(j); } AliDebug(2,Form(" Calib Pars = %f, %f, %f, %f, %f, %f ",par[0],par[1],par[2],par[3],par[4],par[5])); AliDebug(2,Form(" The ToT and Time, uncorr (counts) = %d , %d", fTofClusters[ii]->GetToT(),fTofClusters[ii]->GetTDC())); tToT = (Double_t)(fTofClusters[ii]->GetToT()*AliTOFGeometry::ToTBinWidth()); tToT*=1.E-3; //ToT in ns /* check TOT limits and set new TOT in case */ if (tToT < AliTOFGeometry::SlewTOTMin()) tToT = AliTOFGeometry::SlewTOTMin(); if (tToT > AliTOFGeometry::SlewTOTMax()) tToT = AliTOFGeometry::SlewTOTMax(); AliDebug(2,Form(" The ToT and Time, uncorr (ns)= %e, %e",fTofClusters[ii]->GetTDC()*AliTOFGeometry::TdcBinWidth()*1.E-3,tToT)); timeCorr=par[0]+par[1]*tToT+par[2]*tToT*tToT+par[3]*tToT*tToT*tToT+par[4]*tToT*tToT*tToT*tToT+par[5]*tToT*tToT*tToT*tToT*tToT; // the time correction (ns) } else { timeCorr = roughDelay; // correction in ns } AliDebug(2,Form(" The ToT and Time, uncorr (ns)= %e, %e",fTofClusters[ii]->GetTDC()*AliTOFGeometry::TdcBinWidth()*1.E-3,fTofClusters[ii]->GetToT()*AliTOFGeometry::ToTBinWidth())); AliDebug(2,Form(" The time correction (ns) = %f", timeCorr)); timeCorr=(Double_t)(fTofClusters[ii]->GetTDC())*AliTOFGeometry::TdcBinWidth()*1.E-3-timeCorr;//redefine the time timeCorr*=1.E3; AliDebug(2,Form(" The channel time, corr (ps)= %e",timeCorr )); /* here timeCorr should be already corrected for calibration. * we now go into further corrections keeping in mind that timeCorr * is in ps. * * the following corrections are performed in this way: * * time = timeRaw - deltaBC + L0L1Latency + CTPLatency - TDCLatencyWindow - T0 * */ AliDebug(2, Form("applying further corrections (DeltaBC): DeltaBC=%d (BC bins), DeltaBCoffset=%d (BC bins)", fTofClusters[ii]->GetDeltaBC(), deltaBCOffset)); AliDebug(2, Form("applying further corrections (L0L1Latency): L0L1Latency=%d (BC bins)", fTofClusters[ii]->GetL0L1Latency())); AliDebug(2, Form("applying further corrections (CTPLatency): CTPLatency=%f (ps)", ctpLatency)); AliDebug(2, Form("applying further corrections (TDCLatencyWindow): TDCLatencyWindow=%f (ps)", tdcLatencyWindow)); AliDebug(2, Form("applying further corrections (T0): T0=%f (ps)", t0)); /* deltaBC correction (inhibited for the time being) */ // timeCorr -= (fTofClusters[ii]->GetDeltaBC() - deltaBCOffset) * AliTOFGeometry::BunchCrossingBinWidth(); /* L0L1-latency correction */ timeCorr += fTofClusters[ii]->GetL0L1Latency() * AliTOFGeometry::BunchCrossingBinWidth(); /* CTP-latency correction (from OCDB) */ timeCorr += ctpLatency; /* TDC latency-window correction (from OCDB) */ timeCorr -= tdcLatencyWindow; /* T0 correction (from OCDB) */ timeCorr -= t0; /* * end of furhter corrections */ tdcCorr=(Int_t)(timeCorr/AliTOFGeometry::TdcBinWidth()); //the corrected time (tdc counts) fTofClusters[ii]->SetTDC(tdcCorr); } // loop on clusters } #endif //_________________________________________________________________________ void AliTOFClusterFinder::CalibrateRecPoint(UInt_t timestamp) { // // Copy the global array of AliTOFcluster, i.e. fTofClusters (sorted // in Z) in the global TClonesArray of AliTOFcluster, // i.e. fRecPoints. // Int_t detectorIndex[5]; Double_t time, tot, corr; Int_t deltaBC, l0l1, tdcBin; for (Int_t ii = 0; ii < fNumberOfTofClusters; ii++) { for(Int_t jj = 0; jj < 5; jj++) detectorIndex[jj] = fTofClusters[ii]->GetDetInd(jj); Int_t index = AliTOFGeometry::GetIndex(detectorIndex); /* check channel enabled */ if (!fTOFcalib->IsChannelEnabled(index)) fTofClusters[ii]->SetStatus(kFALSE); /* get cluster info */ time = fTofClusters[ii]->GetTDC() * AliTOFGeometry::TdcBinWidth(); /* ps */ tot = fTofClusters[ii]->GetToT() * AliTOFGeometry::ToTBinWidth() * 1.e-3; /* ns */ deltaBC = fTofClusters[ii]->GetDeltaBC(); l0l1 = fTofClusters[ii]->GetL0L1Latency(); /* get correction */ corr = fTOFcalib->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 cluster */ //tdcBin = (Int_t)(time / AliTOFGeometry::TdcBinWidth()); //the corrected time (tdc counts) tdcBin = TMath::Nint(time / AliTOFGeometry::TdcBinWidth()); //the corrected time (tdc counts) fTofClusters[ii]->SetTDC(tdcBin); // noferini Float_t pos[3]; AliTOFGeometry::GetPosPar(detectorIndex, pos); Float_t length = 0.; for (Int_t ic = 0; ic < 3; ic++) length += pos[ic] * pos[ic]; length = TMath::Sqrt(length); Float_t timealligned = tdcBin*24.4 - length * 0.0333564095198152043; // subtract the minimal time in if(timealligned > -1000 && timealligned < 24000 && fTOFcalib->IsChannelEnabled(index)){ fNumberOfTofTrgPads++; } } // loop on clusters } //______________________________________________________________________________ void AliTOFClusterFinder::ResetRecpoint() { // // Clear the list of reconstructed points // fNumberOfTofClusters = 0; fNumberOfTofTrgPads = 0; if (fRecPoints) fRecPoints->Clear(); } //______________________________________________________________________________ void AliTOFClusterFinder::Load() { // // Load TOF.Digits.root and TOF.RecPoints.root files // fTOFLoader->LoadDigits("READ"); fTOFLoader->LoadRecPoints("recreate"); } //______________________________________________________________________________ void AliTOFClusterFinder::LoadClusters() { // // Load TOF.RecPoints.root file // fTOFLoader->LoadRecPoints("recreate"); } //______________________________________________________________________________ void AliTOFClusterFinder::UnLoad() { // // Unload TOF.Digits.root and TOF.RecPoints.root files // fTOFLoader->UnloadDigits(); fTOFLoader->UnloadRecPoints(); } //______________________________________________________________________________ void AliTOFClusterFinder::UnLoadClusters() { // // Unload TOF.RecPoints.root file // fTOFLoader->UnloadRecPoints(); } //------------------------------------------------------------------------- UShort_t AliTOFClusterFinder::GetClusterVolIndex(const Int_t * const ind) const { //First of all get the volume ID to retrieve the l2t transformation... // // Detector numbering scheme Int_t nSector = 18; Int_t nPlate = 5; Int_t nStripA = 15; Int_t nStripB = 19; Int_t nStripC = 19; Int_t isector =ind[0]; if (isector >= nSector) AliError(Form("Wrong sector number in TOF (%d) !",isector)); Int_t iplate = ind[1]; if (iplate >= nPlate) AliError(Form("Wrong plate number in TOF (%d) !",iplate)); Int_t istrip = ind[2]; Int_t stripOffset = 0; switch (iplate) { case 0: stripOffset = 0; break; case 1: stripOffset = nStripC; break; case 2: stripOffset = nStripC+nStripB; break; case 3: stripOffset = nStripC+nStripB+nStripA; break; case 4: stripOffset = nStripC+nStripB+nStripA+nStripB; break; default: AliError(Form("Wrong plate number in TOF (%d) !",iplate)); break; }; Int_t index= (2*(nStripC+nStripB)+nStripA)*isector + stripOffset + istrip; UShort_t volIndex = AliGeomManager::LayerToVolUID(AliGeomManager::kTOF,index); return volIndex; } // //------------------------------------------------------------------------- void AliTOFClusterFinder::GetClusterPars(Int_t *ind, Double_t* pos,Double_t* cov) const { //First of all get the volume ID to retrieve the l2t transformation... // UShort_t volIndex = GetClusterVolIndex(ind); // // //we now go in the system of the strip: determine the local coordinates // // // 47---------------------------------------------------0 ^ z // | | | | | | | | | | | | | | | | | | | | | | | | | | | 1 | // ----------------------------------------------------- | y going outwards // | | | | | | | | | | | | | | | | | | | | | | | | | | | 0 | par[0]=0; // ----------------------------------------------------- | // x <----------------------------------------------------- /* Float_t localX = (ind[4]-23.5)*AliTOFGeometry::XPad(); Float_t localY = 0; Float_t localZ = (ind[3]- 0.5)*AliTOFGeometry::ZPad(); */ Float_t localX = (ind[4]-AliTOFGeometry::NpadX()/2)*AliTOFGeometry::XPad()+AliTOFGeometry::XPad()/2.; Float_t localY = 0; Float_t localZ = (ind[3]-AliTOFGeometry::NpadZ()/2)*AliTOFGeometry::ZPad()+AliTOFGeometry::ZPad()/2.; //move to the tracking ref system Double_t lpos[3]; lpos[0] = localX; lpos[1] = localY; lpos[2] = localZ; const TGeoHMatrix *l2t= AliGeomManager::GetTracking2LocalMatrix(volIndex); // Get The position in the track ref system Double_t tpos[3]; l2t->MasterToLocal(lpos,tpos); pos[0] = tpos[0]; pos[1] = tpos[1]; pos[2] = tpos[2]; //Get The cluster covariance in the track ref system Double_t lcov[9]; //cluster covariance in the local system: // sx2 0 0 // 0 0 0 // 0 0 sz2 lcov[0] = AliTOFGeometry::XPad()*AliTOFGeometry::XPad()/12.; lcov[1] = 0; lcov[2] = 0; lcov[3] = 0; lcov[4] = 0; lcov[5] = 0; lcov[6] = 0; lcov[7] = 0; lcov[8] = AliTOFGeometry::ZPad()*AliTOFGeometry::ZPad()/12.; //cluster covariance in the tracking system: TGeoHMatrix m; m.SetRotation(lcov); m.Multiply(l2t); m.MultiplyLeft(&l2t->Inverse()); Double_t *tcov = m.GetRotationMatrix(); cov[0] = tcov[0]; cov[1] = tcov[1]; cov[2] = tcov[2]; cov[3] = tcov[4]; cov[4] = tcov[5]; cov[5] = tcov[8]; return; } //------------------------------------------------------------------------- void AliTOFClusterFinder::FillTOFtriggerMap(Int_t iDDL, AliTOFrawData *tofRawDatum) { /* get cluster info */ //Int_t trm = tofRawDatum->GetTRM(); // Int_t tdc = tofRawDatum->GetTDC(); // Int_t tdc_ch = tofRawDatum->GetTDCchannel(); Int_t chain = tofRawDatum->GetTRMchain(); Int_t l0l1 = tofRawDatum->GetL0L1Latency(); Double_t corr = l0l1 * AliTOFGeometry::BunchCrossingBinWidth(); AliTOFCTPLatency *ctpLatencyObj = fTOFcalib->GetCTPLatency(); Float_t ctpLatency = ctpLatencyObj->GetCTPLatency(); corr += ctpLatency; Double_t timeTOF=tofRawDatum->GetTOF()*AliTOFGeometry::TdcBinWidth(); timeTOF-=corr; //Int_t timeRaw_bc = Int_t(timeTOF/1000/24.4); // per ora non usata //Int_t timeRaw_bc = Int_t((tofRawDatum->GetTOF()*AliTOFGeometry::TdcBinWidth())/1000/24.4); // per ora non usata /* const Int_t crate_CTTM[72] = { 0, 1, 37, 36, 2, 3, 39, 38, 4, 5, 41, 40, 6, 7, 43, 42, 8, 9, 45, 44, 10, 11, 47, 46, 12, 13, 49, 48, 14, 15, 51, 50, 16, 17, 53, 52, 18, 19, 55, 54, 20, 21, 57, 56, 22, 23, 59, 58, 24, 25, 61, 60, 26, 27, 63, 62, 28, 29, 65, 64, 30, 31, 67, 66, 32, 33, 69, 68, 34, 35, 71, 70}; */ Int_t cttmCrate=-1; // Int_t cttmBit = tdc_ch + (tdc-12)*AliTOFGeometry::NCh(); switch(iDDL%AliTOFGeometry::NDDL()){ case 1: cttmCrate=1; break; case 3: cttmCrate=36; break; default: break; } cttmCrate+=2*(Int_t)(iDDL/AliTOFGeometry::NDDL()); if(chain==0) { if (iDDL<36) cttmCrate--; else cttmCrate++; } }