/**************************************************************************
-
* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
-
* *
-
* Author: The ALICE Off-line Project. *
-
* Contributors are mentioned in the code where appropriate. *
-
* *
-
* Permission to use, copy, modify and distribute this software and its *
-
* documentation strictly for non-commercial purposes is hereby granted *
-
* without fee, provided that the above copyright notice appears in all *
-
* copies and that both the copyright notice and this permission notice *
-
* appear in the supporting documentation. The authors make no claims *
-
* about the suitability of this software for any purpose. It is *
-
* provided "as is" without express or implied warranty. *
-
**************************************************************************/
/* $Id$ */
-
-
-/* $Log:
-
- 1 October 2000. Yuri Kharlov:
-
- AreNeighbours()
-
- PPSD upper layer is considered if number of layers>1
-
-
-
- 18 October 2000. Yuri Kharlov:
-
- AliEMCALClusterizerv1()
-
- CPV clusterizing parameters added
-
-
-
- MakeClusters()
-
- After first PPSD digit remove EMC digits only once
-
-*/
-
-//*-- Author: Yves Schutz (SUBATECH) & Dmitri Peressounko (SUBATECH & Kurchatov Institute)
-
-// August 2002 Yves Schutz: clone PHOS as closely as possible and intoduction
-
-// of new IO (à la PHOS)
-
+//-- Author: Yves Schutz (SUBATECH) & Dmitri Peressounko (SUBATECH & Kurchatov Institute)
+//-- Gustavo Conesa (LPSC-Grenoble), move common clusterizer functionalities to mother class
//////////////////////////////////////////////////////////////////////////////
-
// Clusterization class. Performs clusterization (collects neighbouring active cells) and
-
// unfolds the clusters having several local maxima.
-
// Results are stored in TreeR#, branches EMCALTowerRP (EMC recPoints),
-
// EMCALPreShoRP (CPV RecPoints) and AliEMCALClusterizer (Clusterizer with all
-
// parameters including input digits branch title, thresholds etc.)
-
-// This TTask is normally called from Reconstructioner, but can as well be used in
-
-// standalone mode.
-
-// Use Case:
-
-// root [0] AliEMCALClusterizerv1 * cl = new AliEMCALClusterizerv1("galice.root")
-
-// Warning in <TDatabasePDG::TDatabasePDG>: object already instantiated
-
-// //reads gAlice from header file "..."
-
-// root [1] cl->ExecuteTask()
-
-// //finds RecPoints in all events stored in galice.root
-
-// root [2] cl->SetDigitsBranch("digits2")
-
-// //sets another title for Digitis (input) branch
-
-// root [3] cl->SetRecPointsBranch("recp2")
-
-// //sets another title four output branches
-
-// root [4] cl->SetTowerLocalMaxCut(0.03)
-
-// //set clusterization parameters
-
-// root [5] cl->ExecuteTask("deb all time")
-
-// //once more finds RecPoints options are
-
-// // deb - print number of found rec points
-
-// // deb all - print number of found RecPoints and some their characteristics
-
-// // time - print benchmarking results
-
-
+//
// --- ROOT system ---
-
-
-#include "TROOT.h"
-
-#include "TFile.h"
-
-#include "TFolder.h"
-
-#include "TMath.h"
-
-#include "TMinuit.h"
-
-#include "TTree.h"
-
-#include "TSystem.h"
-
-#include "TBenchmark.h"
-
-
+#include <TFile.h>
+#include <TMath.h>
+#include <TMinuit.h>
+#include <TTree.h>
+#include <TBenchmark.h>
+#include <TBrowser.h>
+#include <TROOT.h>
+#include <TList.h>
+#include <TClonesArray.h>
// --- Standard library ---
-
-
-
-#include <iostream.h>
-
-#include <iomanip.h>
-
-
+#include <cassert>
// --- AliRoot header files ---
-
-
-
+#include "AliLog.h"
#include "AliEMCALClusterizerv1.h"
-
+#include "AliEMCALRecPoint.h"
#include "AliEMCALDigit.h"
-
-#include "AliEMCALDigitizer.h"
-
-#include "AliEMCALTowerRecPoint.h"
-
-#include "AliEMCAL.h"
-
-#include "AliEMCALGetter.h"
-
#include "AliEMCALGeometry.h"
-
-#include "AliRun.h"
-
-
+#include "AliCaloCalibPedestal.h"
+#include "AliEMCALCalibData.h"
+#include "AliESDCaloCluster.h"
+#include "AliEMCALUnfolding.h"
ClassImp(AliEMCALClusterizerv1)
-
-
//____________________________________________________________________________
-
- AliEMCALClusterizerv1::AliEMCALClusterizerv1() : AliEMCALClusterizer()
-
+AliEMCALClusterizerv1::AliEMCALClusterizerv1(): AliEMCALClusterizer()
{
-
- // default ctor (to be used mainly by Streamer)
-
+ // ctor with the indication of the file where header Tree and digits Tree are stored
-
- InitParameters() ;
-
- fDefaultInit = kTRUE ;
-
+ Init();
}
-
-
//____________________________________________________________________________
-
-AliEMCALClusterizerv1::AliEMCALClusterizerv1(const char* headerFile, const char* name, const Bool_t toSplit)
-
-:AliEMCALClusterizer(headerFile, name, toSplit)
-
+AliEMCALClusterizerv1::AliEMCALClusterizerv1(AliEMCALGeometry* geometry)
+ : AliEMCALClusterizer(geometry)
{
-
// ctor with the indication of the file where header Tree and digits Tree are stored
-
-
-
- InitParameters() ;
-
- Init() ;
-
- fDefaultInit = kFALSE ;
-
-
-
+ // use this contructor to avoid usage of Init() which uses runloader
+ // change needed by HLT - MP
}
-
-
//____________________________________________________________________________
-
- AliEMCALClusterizerv1::~AliEMCALClusterizerv1()
-
+AliEMCALClusterizerv1::AliEMCALClusterizerv1(AliEMCALGeometry* geometry, AliEMCALCalibData * calib, AliCaloCalibPedestal * caloped)
+: AliEMCALClusterizer(geometry, calib, caloped)
{
-
- // dtor
-
- fSplitFile = 0 ;
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-const TString AliEMCALClusterizerv1::BranchName() const
-
-{
-
- TString branchName(GetName() ) ;
-
- branchName.Remove(branchName.Index(Version())-1) ;
-
- return branchName ;
-
+ // ctor, geometry and calibration are initialized elsewhere.
}
-
-
//____________________________________________________________________________
-
-Float_t AliEMCALClusterizerv1::Calibrate(Int_t amp, Bool_t inpresho) const
-
-{//To be replased later by the method, reading individual parameters from the database
-
-
-
- if ( inpresho ) // calibrate as pre shower
-
- return -fADCpedestalPreSho + amp * fADCchannelPreSho ;
-
-
-
- else //calibrate as tower
-
- return -fADCpedestalTower + amp * fADCchannelTower ;
-
+ AliEMCALClusterizerv1::~AliEMCALClusterizerv1()
+{
+ // dtor
}
-
-
//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::Exec(Option_t * option)
-
+void AliEMCALClusterizerv1::Digits2Clusters(Option_t * option)
{
-
- // Steering method
-
-
-
- if( strcmp(GetName(), "")== 0 )
-
- Init() ;
-
-
-
+ // Steering method to perform clusterization for the current event
+ // in AliEMCALLoader
+
if(strstr(option,"tim"))
-
gBenchmark->Start("EMCALClusterizer");
-
-
if(strstr(option,"print"))
-
- Print("") ;
-
-
-
- AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
- if(gime->BranchExists("RecPoints"))
-
- return ;
-
- Int_t nevents = gime->MaxEvent() ;
-
- Int_t ievent ;
-
-
-
- for(ievent = 0; ievent < nevents; ievent++){
-
-
-
- gime->Event(ievent,"D") ;
-
-
-
- if(ievent == 0)
-
- GetCalibrationParameters() ;
-
-
-
- fNumberOfTowerClusters = fNumberOfPreShoClusters = 0 ;
-
-
-
- MakeClusters() ;
-
+ Print("");
+
+ //Get calibration parameters from file or digitizer default values.
+ GetCalibrationParameters();
+
+ //Get dead channel map from file or digitizer default values.
+ GetCaloCalibPedestal();
+
+ fNumberOfECAClusters = 0;
+
+ MakeClusters(); //only the real clusters
+
+ if(fToUnfold){
+ fClusterUnfolding->SetInput(fNumberOfECAClusters,fRecPoints,fDigitsArr);
+ fClusterUnfolding->MakeUnfolding();
+ }
-
- if(fToUnfold)
-
- MakeUnfolding() ;
-
-
-
- WriteRecPoints(ievent) ;
-
-
-
- if(strstr(option,"deb"))
-
- PrintRecPoints(option) ;
-
-
-
- //increment the total number of digits per run
-
- fRecPointsInRun += gime->TowerRecPoints()->GetEntriesFast() ;
-
- fRecPointsInRun += gime->PreShowerRecPoints()->GetEntriesFast() ;
-
- }
-
+ //Evaluate position, dispersion and other RecPoint properties for EC section
+ Int_t index;
+ for(index = 0; index < fRecPoints->GetEntries(); index++) {
+ AliEMCALRecPoint * rp = dynamic_cast<AliEMCALRecPoint *>(fRecPoints->At(index));
+ if(rp){
+ rp->EvalAll(fECAW0,fDigitsArr,fJustClusters);
+ //For each rec.point set the distance to the nearest bad crystal
+ if (fCaloPed)
+ rp->EvalDistanceToBadChannels(fCaloPed);
+ }
+ else AliFatal("Null rec point in list!");
+ }
+
+ fRecPoints->Sort();
+
+ for(index = 0; index < fRecPoints->GetEntries(); index++) {
+ AliEMCALRecPoint * rp = dynamic_cast<AliEMCALRecPoint *>(fRecPoints->At(index));
+ if(rp){
+ rp->SetIndexInList(index);
+ rp->Print();
+ }
+ else AliFatal("Null rec point in list!");
+ }
+
+ if (fTreeR)
+ fTreeR->Fill();
+
+ if(strstr(option,"deb") || strstr(option,"all"))
+ PrintRecPoints(option);
+
+ AliDebug(1,Form("EMCAL Clusterizer found %d Rec Points",fRecPoints->GetEntriesFast()));
-
if(strstr(option,"tim")){
-
gBenchmark->Stop("EMCALClusterizer");
+ printf("Exec took %f seconds for Clusterizing",
+ gBenchmark->GetCpuTime("EMCALClusterizer"));
+ }
+}
- cout << "AliEMCALClusterizer:" << endl ;
-
- cout << " took " << gBenchmark->GetCpuTime("EMCALClusterizer") << " seconds for Clusterizing "
-
- << gBenchmark->GetCpuTime("EMCALClusterizer")/nevents << " seconds per event " << endl ;
-
- cout << endl ;
-
- }
-
+//____________________________________________________________________________
+Int_t AliEMCALClusterizerv1::AreNeighbours(AliEMCALDigit * d1, AliEMCALDigit * d2, Bool_t & shared) const
+{
+ // Gives the neighbourness of two digits = 0 are not neighbour; continue searching
+ // = 1 are neighbour
+ // = 2 is in different SM; continue searching
+ // In case it is in different SM, but same phi rack, check if neigbours at eta=0
+ // neighbours are defined as digits having at least a common side
+ // The order of d1 and d2 is important: first (d1) should be a digit already in a cluster
+ // which is compared to a digit (d2) not yet in a cluster
-
+ Int_t nSupMod1=0, nModule1=0, nIphi1=0, nIeta1=0, iphi1=0, ieta1=0;
+ Int_t nSupMod2=0, nModule2=0, nIphi2=0, nIeta2=0, iphi2=0, ieta2=0;
+
+ shared = kFALSE;
+
+ fGeom->GetCellIndex(d1->GetId(), nSupMod1,nModule1,nIphi1,nIeta1);
+ fGeom->GetCellIndex(d2->GetId(), nSupMod2,nModule2,nIphi2,nIeta2);
+ fGeom->GetCellPhiEtaIndexInSModule(nSupMod1,nModule1,nIphi1,nIeta1, iphi1,ieta1);
+ fGeom->GetCellPhiEtaIndexInSModule(nSupMod2,nModule2,nIphi2,nIeta2, iphi2,ieta2);
+
+ //If different SM, check if they are in the same phi, then consider cells close to eta=0 as neighbours; May 2010
+ if (nSupMod1 != nSupMod2 ) {
+ //Check if the 2 SM are in the same PHI position (0,1), (2,3), ...
+ Float_t smPhi1 = fGeom->GetEMCGeometry()->GetPhiCenterOfSM(nSupMod1);
+ Float_t smPhi2 = fGeom->GetEMCGeometry()->GetPhiCenterOfSM(nSupMod2);
+
+ if(!TMath::AreEqualAbs(smPhi1, smPhi2, 1e-3)) return 2; //Not phi rack equal, not neighbours
+
+ // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2
+ // C Side impair SM, nSupMod%2=1; A side pair SM nSupMod%2=0
+ if(nSupMod1%2) ieta1+=AliEMCALGeoParams::fgkEMCALCols;
+ else ieta2+=AliEMCALGeoParams::fgkEMCALCols;
+
+ shared = kTRUE; // maybe a shared cluster, we know this later, set it for the moment.
+ } //Different SM, same phi
+
+ Int_t rowdiff = TMath::Abs(iphi1 - iphi2);
+ Int_t coldiff = TMath::Abs(ieta1 - ieta2);
+
+ // neighbours with at least common side; May 11, 2007
+ if ((coldiff==0 && TMath::Abs(rowdiff)==1) || (rowdiff==0 && TMath::Abs(coldiff)==1)) {
+ //Diagonal?
+ //if ((coldiff==0 && TMath::Abs(rowdiff==1)) || (rowdiff==0 && TMath::Abs(coldiff==1)) || (TMath::Abs(rowdiff)==1 && TMath::Abs(coldiff==1))) rv = 1;
+
+ if (gDebug == 2)
+ printf("AliEMCALClusterizerv1::AreNeighbours(): id1=%d, (row %d, col %d) ; id2=%d, (row %d, col %d), shared %d \n",
+ d1->GetId(), iphi1,ieta1, d2->GetId(), iphi2,ieta2, shared);
+ return 1;
+ } //Neighbours
+ else {
+ shared = kFALSE;
+ return 2;
+ } //Not neighbours
}
-
-
//____________________________________________________________________________
-
-Bool_t AliEMCALClusterizerv1::FindFit(AliEMCALTowerRecPoint * emcRP, AliEMCALDigit ** maxAt, Float_t * maxAtEnergy,
-
- Int_t nPar, Float_t * fitparameters) const
-
-{
-
- // Calls TMinuit to fit the energy distribution of a cluster with several maxima
-
- // The initial values for fitting procedure are set equal to the positions of local maxima.
-
- // Cluster will be fitted as a superposition of nPar/3 electromagnetic showers
-
-
-
- AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
- TClonesArray * digits = gime->Digits() ;
-
-
-
-
-
- gMinuit->mncler(); // Reset Minuit's list of paramters
-
- gMinuit->SetPrintLevel(-1) ; // No Printout
-
- gMinuit->SetFCN(AliEMCALClusterizerv1::UnfoldingChiSquare) ;
-
- // To set the address of the minimization function
-
-
-
- TList * toMinuit = new TList();
-
- toMinuit->AddAt(emcRP,0) ;
-
- toMinuit->AddAt(digits,1) ;
-
-
-
- gMinuit->SetObjectFit(toMinuit) ; // To tranfer pointer to UnfoldingChiSquare
-
-
-
- // filling initial values for fit parameters
-
- AliEMCALDigit * digit ;
-
-
-
- Int_t ierflg = 0;
-
- Int_t index = 0 ;
-
- Int_t nDigits = (Int_t) nPar / 3 ;
-
-
-
- Int_t iDigit ;
-
-
-
- AliEMCALGeometry * geom = gime->EMCALGeometry() ;
-
-
-
- for(iDigit = 0; iDigit < nDigits; iDigit++){
-
- digit = maxAt[iDigit];
-
-
-
- Int_t relid[4] ;
-
- Float_t x = 0.;
-
- Float_t z = 0.;
-
- geom->AbsToRelNumbering(digit->GetId(), relid) ;
-
- geom->PosInAlice(relid, x, z) ;
-
-
-
- Float_t energy = maxAtEnergy[iDigit] ;
-
-
-
- gMinuit->mnparm(index, "x", x, 0.1, 0, 0, ierflg) ;
-
- index++ ;
-
- if(ierflg != 0){
-
- cout << "EMCAL Unfolding> Unable to set initial value for fit procedure : x = " << x << endl ;
-
- return kFALSE;
-
- }
-
- gMinuit->mnparm(index, "z", z, 0.1, 0, 0, ierflg) ;
-
- index++ ;
-
- if(ierflg != 0){
-
- cout << "EMCAL Unfolding> Unable to set initial value for fit procedure : z = " << z << endl ;
-
- return kFALSE;
-
+void AliEMCALClusterizerv1::MakeClusters()
+{
+ // Steering method to construct the clusters stored in a list of Reconstructed Points
+ // A cluster is defined as a list of neighbour digits
+ // Mar 03, 2007 by PAI
+
+ if (fGeom==0) AliFatal("Did not get geometry from EMCALLoader");
+
+ fRecPoints->Delete();
+
+ // Set up TObjArray with pointers to digits to work on calibrated digits
+ TObjArray *digitsC = new TObjArray();
+ AliEMCALDigit *digit;
+ Float_t dEnergyCalibrated = 0.0, ehs = 0.0, time = 0.0;
+ TIter nextdigit(fDigitsArr);
+ while ( (digit = dynamic_cast<AliEMCALDigit *>(nextdigit())) ) { // calibrate and clean up digits
+ dEnergyCalibrated = digit->GetAmplitude();
+ time = digit->GetTime();
+ Calibrate(dEnergyCalibrated,time,digit->GetId());
+ digit->SetCalibAmp(dEnergyCalibrated);
+ digit->SetTime(time);
+
+ if ( dEnergyCalibrated < fMinECut || time > fTimeMax || time < fTimeMin ){
+ continue;
}
-
- gMinuit->mnparm(index, "Energy", energy , 0.05*energy, 0., 4.*energy, ierflg) ;
-
- index++ ;
-
- if(ierflg != 0){
-
- cout << "EMCAL Unfolding> Unable to set initial value for fit procedure : energy = " << energy << endl ;
-
- return kFALSE;
-
+ else if (!fGeom->CheckAbsCellId(digit->GetId()))
+ continue;
+ else{
+ ehs += dEnergyCalibrated;
+ digitsC->AddLast(digit);
}
-
- }
-
-
-
- Double_t p0 = 0.1 ; // "Tolerance" Evaluation stops when EDM = 0.0001*p0 ; The number of function call slightly
-
- // depends on it.
-
- Double_t p1 = 1.0 ;
-
- Double_t p2 = 0.0 ;
-
-
-
- gMinuit->mnexcm("SET STR", &p2, 0, ierflg) ; // force TMinuit to reduce function calls
-
- gMinuit->mnexcm("SET GRA", &p1, 1, ierflg) ; // force TMinuit to use my gradient
-
- gMinuit->SetMaxIterations(5);
-
- gMinuit->mnexcm("SET NOW", &p2 , 0, ierflg) ; // No Warnings
-
-
-
- gMinuit->mnexcm("MIGRAD", &p0, 0, ierflg) ; // minimize
-
-
-
- if(ierflg == 4){ // Minimum not found
-
- cout << "EMCAL Unfolding> Fit not converged, cluster abandoned "<< endl ;
-
- return kFALSE ;
-
- }
-
- for(index = 0; index < nPar; index++){
-
- Double_t err ;
-
- Double_t val ;
-
- gMinuit->GetParameter(index, val, err) ; // Returns value and error of parameter index
-
- fitparameters[index] = val ;
-
- }
-
-
-
- delete toMinuit ;
-
- return kTRUE;
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::GetCalibrationParameters()
-
-{
-
- AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
- const AliEMCALDigitizer * dig = gime->Digitizer(BranchName()) ;
-
-
-
- fADCchannelTower = dig->GetTowerchannel() ;
-
- fADCpedestalTower = dig->GetTowerpedestal();
-
-
-
- fADCchannelPreSho = dig->GetPreShochannel() ;
-
- fADCpedestalPreSho = dig->GetPreShopedestal() ;
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::Init()
-
-{
-
- // Make all memory allocations which can not be done in default constructor.
-
- // Attach the Clusterizer task to the list of EMCAL tasks
-
-
-
- if ( strcmp(GetTitle(), "") == 0 )
-
- SetTitle("galice.root") ;
-
-
-
- TString branchname = GetName() ;
-
- branchname.Remove(branchname.Index(Version())-1) ;
-
-
-
- AliEMCALGetter * gime = AliEMCALGetter::GetInstance(GetTitle(), branchname.Data(), fToSplit ) ;
-
- if ( gime == 0 ) {
-
- cerr << "ERROR: AliEMCALClusterizerv1::Init -> Could not obtain the Getter object !" << endl ;
-
- return ;
-
}
-
-
-
- fSplitFile = 0 ;
-
- if(fToSplit){
-
- // construct the name of the file as /path/EMCAL.SDigits.root
-
- //First - extract full path if necessary
-
- TString fileName(GetTitle()) ;
-
- Ssiz_t islash = fileName.Last('/') ;
-
- if(islash<fileName.Length())
-
- fileName.Remove(islash+1,fileName.Length()) ;
-
- else
-
- fileName="" ;
-
- // Next - append the file name
-
- fileName+="EMCAL.RecData." ;
-
- if((strcmp(branchname.Data(),"Default")!=0)&&(strcmp(branchname.Data(),"")!=0)){
-
- fileName+=branchname ;
-
- fileName+="." ;
-
- }
-
- fileName+="root" ;
-
- // Finally - check if the file already opened or open the file
-
- fSplitFile = static_cast<TFile*>(gROOT->GetFile(fileName.Data()));
-
- if(!fSplitFile)
-
- fSplitFile = TFile::Open(fileName.Data(),"update") ;
-
- }
-
-
-
-
-
- const AliEMCALGeometry * geom = gime->EMCALGeometry() ;
-
- fNTowers = geom->GetNZ() * geom->GetNPhi() ;
-
-
-
- if(!gMinuit)
-
- gMinuit = new TMinuit(100) ;
-
-
-
- gime->PostClusterizer(this) ;
-
- gime->PostRecPoints(branchname ) ;
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::InitParameters()
-
-{
-
- fNumberOfPreShoClusters = fNumberOfTowerClusters = 0 ;
-
-
-
-
-
-
- fPreShoClusteringThreshold = 0.0001;
-
- fTowerClusteringThreshold = 0.2;
-
-
-
- fTowerLocMaxCut = 0.03 ;
-
- fPreShoLocMaxCut = 0.03 ;
-
-
-
- fW0 = 4.5 ;
-
- fW0CPV = 4.0 ;
-
-
-
- fTimeGate = 1.e-8 ;
-
-
-
- fToUnfold = kFALSE ;
-
-
-
- TString clusterizerName( GetName()) ;
-
- if (clusterizerName.IsNull() )
-
- clusterizerName = "Default" ;
-
- clusterizerName.Append(":") ;
-
- clusterizerName.Append(Version()) ;
-
- SetName(clusterizerName) ;
-
- fRecPointsInRun = 0 ;
-
-
-
+ AliDebug(1,Form("MakeClusters: Number of digits %d -> (e %f), ehs %f\n",
+ fDigitsArr->GetEntries(),fMinECut,ehs));
+
+ TIter nextdigitC(digitsC);
+ while ( (digit = dynamic_cast<AliEMCALDigit *>(nextdigitC())) ) { // scan over the list of digitsC
+ TArrayI clusterECAdigitslist(fDigitsArr->GetEntries());
+ dEnergyCalibrated = digit->GetCalibAmp();
+ time = digit->GetTime();
+ if(fGeom->CheckAbsCellId(digit->GetId()) && ( dEnergyCalibrated > fECAClusteringThreshold ) ){
+ // start a new Tower RecPoint
+ if(fNumberOfECAClusters >= fRecPoints->GetSize()) fRecPoints->Expand(2*fNumberOfECAClusters+1);
+
+ AliEMCALRecPoint *recPoint = new AliEMCALRecPoint("");
+ fRecPoints->AddAt(recPoint, fNumberOfECAClusters);
+ recPoint = dynamic_cast<AliEMCALRecPoint *>(fRecPoints->At(fNumberOfECAClusters));
+ if (recPoint) {
+ fNumberOfECAClusters++;
+
+ recPoint->SetClusterType(AliVCluster::kEMCALClusterv1);
+ recPoint->AddDigit(*digit, digit->GetCalibAmp(), kFALSE); //Time or TimeR?
+ TObjArray clusterDigits;
+ clusterDigits.AddLast(digit);
+ digitsC->Remove(digit);
+
+ AliDebug(1,Form("MakeClusters: OK id = %d, ene = %f , cell.th. = %f \n", digit->GetId(), dEnergyCalibrated, fECAClusteringThreshold)); //Time or TimeR?
+
+ // Grow cluster by finding neighbours
+ TIter nextClusterDigit(&clusterDigits);
+
+ while ( (digit = dynamic_cast<AliEMCALDigit*>(nextClusterDigit())) ) { // scan over digits in cluster
+ TIter nextdigitN(digitsC);
+ AliEMCALDigit *digitN = 0; // digi neighbor
+ while ( (digitN = (AliEMCALDigit *)nextdigitN()) ) { // scan over all digits to look for neighbours
+ //Do not add digits with too different time
+ Bool_t shared = kFALSE;//cluster shared by 2 SuperModules?
+ if(TMath::Abs(time - digitN->GetTime()) > fTimeCut ) continue; //Time or TimeR?
+ if (AreNeighbours(digit, digitN, shared)==1) { // call (digit,digitN) in THAT order !!!!!
+ recPoint->AddDigit(*digitN, digitN->GetCalibAmp(), shared);
+ clusterDigits.AddLast(digitN);
+ digitsC->Remove(digitN);
+ } // if(ineb==1)
+ } // scan over digits
+ } // scan over digits already in cluster
+
+ AliDebug(2,Form("MakeClusters: %d digitd, energy %f \n", clusterDigits.GetEntries(), recPoint->GetEnergy()));
+ }//recpoint
+ else AliFatal("Null recpoint in array!");
+ } // If seed found
+ } // while digit
+
+ delete digitsC;
+
+ AliDebug(1,Form("total no of clusters %d from %d digits",fNumberOfECAClusters,fDigitsArr->GetEntriesFast()));
}
-
-
-
-//____________________________________________________________________________
-
-Int_t AliEMCALClusterizerv1::AreNeighbours(AliEMCALDigit * d1, AliEMCALDigit * d2)const
-
-{
-
- // Gives the neighbourness of two digits = 0 are not neighbour but continue searching
-
- // = 1 are neighbour
-
- // = 2 are not neighbour but do not continue searching
-
- // neighbours are defined as digits having at least a common vertex
-
- // The order of d1 and d2 is important: first (d1) should be a digit already in a cluster
-
- // which is compared to a digit (d2) not yet in a cluster
-
-
-
- AliEMCALGeometry * geom = AliEMCALGetter::GetInstance()->EMCALGeometry() ;
-
-
-
- Int_t rv = 0 ;
-
-
-
- Int_t relid1[4] ;
-
- geom->AbsToRelNumbering(d1->GetId(), relid1) ;
-
-
-
- Int_t relid2[4] ;
-
- geom->AbsToRelNumbering(d2->GetId(), relid2) ;
-
-
-
- if ( (relid1[0] == relid2[0]) && (relid1[1]==relid2[1]) ) { // inside the same EMCAL Arm
-
- Int_t rowdiff = TMath::Abs( relid1[2] - relid2[2] ) ;
-
- Int_t coldiff = TMath::Abs( relid1[3] - relid2[3] ) ;
-
-
-
- if (( coldiff <= 1 ) && ( rowdiff <= 1 )){
-
- if((relid1[1] != 0) || (TMath::Abs(d1->GetTime() - d2->GetTime() ) < fTimeGate))
-
- rv = 1 ;
-
- }
-
- else {
-
- if((relid2[2] > relid1[2]) && (relid2[3] > relid1[3]+1))
-
- rv = 2; // Difference in row numbers is too large to look further
-
- }
-
-
-
- }
-
- else {
-
-
-
- if( (relid1[0] < relid2[0]) || (relid1[1] != relid2[1]) )
-
- rv=2 ;
-
-
-
- }
-
-
-
- return rv ;
-
-}
-
-
-
-
-
-//____________________________________________________________________________
-
-Bool_t AliEMCALClusterizerv1::IsInTower(AliEMCALDigit * digit) const
-
-{
-
- // Tells if (true) or not (false) the digit is in a EMCAL-Tower
-
-
-
- Bool_t rv = kFALSE ;
-
- if (!digit->IsInPreShower())
-
- rv = kTRUE;
-
- return rv ;
-
-}
-
-
-
-//____________________________________________________________________________
-
-Bool_t AliEMCALClusterizerv1::IsInPreShower(AliEMCALDigit * digit) const
-
-{
-
- // Tells if (true) or not (false) the digit is in a EMCAL-PreShower
-
-
-
- Bool_t rv = kFALSE ;
-
- if (digit->IsInPreShower())
-
- rv = kTRUE;
-
- return rv ;
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::WriteRecPoints(Int_t event)
-
-{
-
-
-
- // Creates new branches with given title
-
- // fills and writes into TreeR.
-
-
-
- AliEMCALGetter *gime = AliEMCALGetter::GetInstance() ;
-
- TObjArray * towerRecPoints = gime->TowerRecPoints() ;
-
- TObjArray * preshoRecPoints = gime->PreShowerRecPoints() ;
-
- TClonesArray * digits = gime->Digits() ;
-
- TTree * treeR ;
-
-
-
- if(fToSplit){
-
- if(!fSplitFile)
-
- return ;
-
- fSplitFile->cd() ;
-
- TString name("TreeR") ;
-
- name += event ;
-
- treeR = dynamic_cast<TTree*>(fSplitFile->Get(name));
-
- }
-
- else{
-
- treeR = gAlice->TreeR();
-
- }
-
-
-
- if(!treeR){
-
- gAlice->MakeTree("R", fSplitFile);
-
- treeR = gAlice->TreeR() ;
-
- }
-
-
-
- Int_t index ;
-
- //Evaluate position, dispersion and other RecPoint properties...
-
- for(index = 0; index < towerRecPoints->GetEntries(); index++)
-
- (dynamic_cast<AliEMCALTowerRecPoint *>(towerRecPoints->At(index)))->EvalAll(fW0,digits) ;
-
-
-
- towerRecPoints->Sort() ;
-
-
-
- for(index = 0; index < towerRecPoints->GetEntries(); index++)
-
- (dynamic_cast<AliEMCALTowerRecPoint *>(towerRecPoints->At(index)))->SetIndexInList(index) ;
-
-
-
- towerRecPoints->Expand(towerRecPoints->GetEntriesFast()) ;
-
-
-
- //Now the same for pre shower
-
- for(index = 0; index < preshoRecPoints->GetEntries(); index++)
-
- (dynamic_cast<AliEMCALRecPoint *>(preshoRecPoints->At(index)))->EvalAll(fW0CPV,digits) ;
-
-
-
- preshoRecPoints->Sort() ;
-
-
-
- for(index = 0; index < preshoRecPoints->GetEntries(); index++)
-
- (dynamic_cast<AliEMCALRecPoint *>(preshoRecPoints->At(index)))->SetIndexInList(index) ;
-
-
-
- preshoRecPoints->Expand(preshoRecPoints->GetEntriesFast()) ;
-
-
-
- Int_t bufferSize = 32000 ;
-
- Int_t splitlevel = 0 ;
-
-
-
- //First Tower branch
-
- TBranch * towerBranch = treeR->Branch("EMCALTowerRP","TObjArray",&towerRecPoints,bufferSize,splitlevel);
-
- towerBranch->SetTitle(BranchName());
-
-
-
- //Now Pre Shower branch
-
- TBranch * preshoBranch = treeR->Branch("EMCALPreShoRP","TObjArray",&preshoRecPoints,bufferSize,splitlevel);
-
- preshoBranch->SetTitle(BranchName());
-
-
-
- //And Finally clusterizer branch
-
- AliEMCALClusterizerv1 * cl = (AliEMCALClusterizerv1*)gime->Clusterizer(BranchName()) ;
-
- TBranch * clusterizerBranch = treeR->Branch("AliEMCALClusterizer","AliEMCALClusterizerv1",
-
- &cl,bufferSize,splitlevel);
-
- clusterizerBranch->SetTitle(BranchName());
-
-
-
- towerBranch ->Fill() ;
-
- preshoBranch ->Fill() ;
-
- clusterizerBranch->Fill() ;
-
-
-
- treeR->AutoSave() ; //Write(0,kOverwrite) ;
-
- if(gAlice->TreeR()!=treeR)
-
- treeR->Delete();
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::MakeClusters()
-
-{
-
- // Steering method to construct the clusters stored in a list of Reconstructed Points
-
- // A cluster is defined as a list of neighbour digits
-
-
-
- AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
-
-
- TObjArray * towerRecPoints = gime->TowerRecPoints(BranchName()) ;
-
- TObjArray * preshoRecPoints = gime->PreShowerRecPoints(BranchName()) ;
-
- towerRecPoints->Delete() ;
-
- preshoRecPoints->Delete() ;
-
-
-
- TClonesArray * digits = gime->Digits() ;
-
- if ( !digits ) {
-
- cerr << "ERROR: AliEMCALClusterizerv1::MakeClusters -> Digits with name "
-
- << GetName() << " not found ! " << endl ;
-
- abort() ;
-
- }
-
- TClonesArray * digitsC = dynamic_cast<TClonesArray*>(digits->Clone()) ;
-
-
-
-
-
- // Clusterization starts
-
-
-
- TIter nextdigit(digitsC) ;
-
- AliEMCALDigit * digit ;
-
- Bool_t notremoved = kTRUE ;
-
-
-
- while ( (digit = dynamic_cast<AliEMCALDigit *>(nextdigit())) ) { // scan over the list of digitsC
-
- AliEMCALRecPoint * clu = 0 ;
-
-
-
- TArrayI clusterdigitslist(1500) ;
-
- Int_t index ;
-
-
-
- if (( IsInTower (digit) && Calibrate(digit->GetAmp(),digit->IsInPreShower()) > fTowerClusteringThreshold ) ||
-
- ( IsInPreShower (digit) && Calibrate(digit->GetAmp(),digit->IsInPreShower()) > fPreShoClusteringThreshold ) ) {
-
-
-
- Int_t iDigitInCluster = 0 ;
-
-
-
- if ( IsInTower(digit) ) {
-
- // start a new Tower RecPoint
-
- if(fNumberOfTowerClusters >= towerRecPoints->GetSize())
-
- towerRecPoints->Expand(2*fNumberOfTowerClusters+1) ;
-
-
-
- towerRecPoints->AddAt(new AliEMCALTowerRecPoint(""), fNumberOfTowerClusters) ;
-
- clu = dynamic_cast<AliEMCALTowerRecPoint *>(towerRecPoints->At(fNumberOfTowerClusters)) ;
-
- fNumberOfTowerClusters++ ;
-
- clu->AddDigit(*digit, Calibrate(digit->GetAmp(),digit->IsInPreShower())) ;
-
- clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
-
- iDigitInCluster++ ;
-
- digitsC->Remove(digit) ;
-
-
-
- } else {
-
-
-
- // start a new Pre Shower cluster
-
- if(fNumberOfPreShoClusters >= preshoRecPoints->GetSize())
-
- preshoRecPoints->Expand(2*fNumberOfPreShoClusters+1);
-
-
-
- preshoRecPoints->AddAt(new AliEMCALTowerRecPoint(""), fNumberOfPreShoClusters) ;
-
-
-
- clu = dynamic_cast<AliEMCALTowerRecPoint *>(preshoRecPoints->At(fNumberOfPreShoClusters)) ;
-
- fNumberOfPreShoClusters++ ;
-
- clu->AddDigit(*digit, Calibrate(digit->GetAmp(),digit->IsInPreShower() ) );
-
- clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
-
- iDigitInCluster++ ;
-
- digitsC->Remove(digit) ;
-
- nextdigit.Reset() ;
-
-
-
- // Here we remove remaining Tower digits, which cannot make a cluster
-
-
-
- if( notremoved ) {
-
- while( ( digit = dynamic_cast<AliEMCALDigit *>(nextdigit()) ) ) {
-
- if( IsInTower(digit) )
-
- digitsC->Remove(digit) ;
-
- else
-
- break ;
-
- }
-
- notremoved = kFALSE ;
-
- }
-
-
-
- } // else
-
-
-
- nextdigit.Reset() ;
-
-
-
- AliEMCALDigit * digitN ;
-
- index = 0 ;
-
- while (index < iDigitInCluster){ // scan over digits already in cluster
-
- digit = (AliEMCALDigit*)digits->At(clusterdigitslist[index]) ;
-
- index++ ;
-
- while ( (digitN = (AliEMCALDigit *)nextdigit()) ) { // scan over the reduced list of digits
-
- Int_t ineb = AreNeighbours(digit, digitN); // call (digit,digitN) in THAT oder !!!!!
-
- switch (ineb ) {
-
- case 0 : // not a neighbour
-
- break ;
-
- case 1 : // are neighbours
-
- clu->AddDigit(*digitN, Calibrate( digitN->GetAmp(), digitN->IsInPreShower() ) ) ;
-
- clusterdigitslist[iDigitInCluster] = digitN->GetIndexInList() ;
-
- iDigitInCluster++ ;
-
- digitsC->Remove(digitN) ;
-
- break ;
-
- case 2 : // too far from each other
-
- goto endofloop;
-
- } // switch
-
-
-
- } // while digitN
-
-
-
- endofloop: ;
-
- nextdigit.Reset() ;
-
-
-
- } // loop over cluster
-
-
-
- } // energy theshold
-
-
-
-
-
- } // while digit
-
-
-
- delete digitsC ;
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::MakeUnfolding()
-
-{
-
- Fatal("AliEMCALClusterizerv1::MakeUnfolding", "--> Unfolding not implemented") ;
-
-
-
-// // Unfolds clusters using the shape of an ElectroMagnetic shower
-
-// // Performs unfolding of all EMC/CPV clusters
-
-
-
-// AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
-
-
-// const AliEMCALGeometry * geom = gime->EMCALGeometry() ;
-
-// TObjArray * emcRecPoints = gime->TowerRecPoints() ;
-
-// TObjArray * cpvRecPoints = gime->PreShoRecPoints() ;
-
-// TClonesArray * digits = gime->Digits() ;
-
-
-
-// // Unfold first EMC clusters
-
-// if(fNumberOfTowerClusters > 0){
-
-
-
-// Int_t nModulesToUnfold = geom->GetNModules() ;
-
-
-
-// Int_t numberofNotUnfolded = fNumberOfTowerClusters ;
-
-// Int_t index ;
-
-// for(index = 0 ; index < numberofNotUnfolded ; index++){
-
-
-
-// AliEMCALTowerRecPoint * emcRecPoint = (AliEMCALTowerRecPoint *) emcRecPoints->At(index) ;
-
-// if(emcRecPoint->GetEMCALMod()> nModulesToUnfold)
-
-// break ;
-
-
-
-// Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
-
-// Int_t * maxAt = new Int_t[nMultipl] ;
-
-// Float_t * maxAtEnergy = new Float_t[nMultipl] ;
-
-// Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fTowerLocMaxCut,digits) ;
-
-
-
-// if( nMax > 1 ) { // if cluster is very flat (no pronounced maximum) then nMax = 0
-
-// UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
-
-// emcRecPoints->Remove(emcRecPoint);
-
-// emcRecPoints->Compress() ;
-
-// index-- ;
-
-// fNumberOfTowerClusters -- ;
-
-// numberofNotUnfolded-- ;
-
-// }
-
-
-
-// delete[] maxAt ;
-
-// delete[] maxAtEnergy ;
-
-// }
-
-// }
-
-// // Unfolding of EMC clusters finished
-
-
-
-
-
-// // Unfold now CPV clusters
-
-// if(fNumberOfPreShoClusters > 0){
-
-
-
-// Int_t nModulesToUnfold = geom->GetNModules() ;
-
-
-
-// Int_t numberofPreShoNotUnfolded = fNumberOfPreShoClusters ;
-
-// Int_t index ;
-
-// for(index = 0 ; index < numberofPreShoNotUnfolded ; index++){
-
-
-
-// AliEMCALRecPoint * recPoint = (AliEMCALRecPoint *) cpvRecPoints->At(index) ;
-
-
-
-// if(recPoint->GetEMCALMod()> nModulesToUnfold)
-
-// break ;
-
-
-
-// AliEMCALTowerRecPoint * emcRecPoint = (AliEMCALTowerRecPoint*) recPoint ;
-
-
-
-// Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
-
-// Int_t * maxAt = new Int_t[nMultipl] ;
-
-// Float_t * maxAtEnergy = new Float_t[nMultipl] ;
-
-// Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fPreShoLocMaxCut,digits) ;
-
-
-
-// if( nMax > 1 ) { // if cluster is very flat (no pronounced maximum) then nMax = 0
-
-// UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
-
-// cpvRecPoints->Remove(emcRecPoint);
-
-// cpvRecPoints->Compress() ;
-
-// index-- ;
-
-// numberofPreShoNotUnfolded-- ;
-
-// fNumberOfPreShoClusters-- ;
-
-// }
-
-
-
-// delete[] maxAt ;
-
-// delete[] maxAtEnergy ;
-
-// }
-
-// }
-
-// //Unfolding of PreSho clusters finished
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-Double_t AliEMCALClusterizerv1::ShowerShape(Double_t r)
-
-{
-
- // Shape of the shower (see EMCAL TDR)
-
- // If you change this function, change also the gradient evaluation in ChiSquare()
-
-
-
- Double_t r4 = r*r*r*r ;
-
- Double_t r295 = TMath::Power(r, 2.95) ;
-
- Double_t shape = TMath::Exp( -r4 * (1. / (2.32 + 0.26 * r4) + 0.0316 / (1 + 0.0652 * r295) ) ) ;
-
- return shape ;
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::UnfoldCluster(AliEMCALTowerRecPoint * iniTower,
-
- Int_t nMax,
-
- AliEMCALDigit ** maxAt,
-
- Float_t * maxAtEnergy)
-
-{
-
- // Performs the unfolding of a cluster with nMax overlapping showers
-
-
-
- Fatal("AliEMCALClusterizerv1::UnfoldCluster", "--> Unfolding not implemented") ;
-
-
-
- // AliEMCALGetter * gime = AliEMCALGetter::GetInstance() ;
-
-// const AliEMCALGeometry * geom = gime->EMCALGeometry() ;
-
-// const TClonesArray * digits = gime->Digits() ;
-
-// TObjArray * emcRecPoints = gime->TowerRecPoints() ;
-
-// TObjArray * cpvRecPoints = gime->PreShoRecPoints() ;
-
-
-
-// Int_t nPar = 3 * nMax ;
-
-// Float_t * fitparameters = new Float_t[nPar] ;
-
-
-
-// Bool_t rv = FindFit(iniTower, maxAt, maxAtEnergy, nPar, fitparameters) ;
-
-// if( !rv ) {
-
-// // Fit failed, return and remove cluster
-
-// delete[] fitparameters ;
-
-// return ;
-
-// }
-
-
-
-// // create ufolded rec points and fill them with new energy lists
-
-// // First calculate energy deposited in each sell in accordance with fit (without fluctuations): efit[]
-
-// // and later correct this number in acordance with actual energy deposition
-
-
-
-// Int_t nDigits = iniTower->GetMultiplicity() ;
-
-// Float_t * efit = new Float_t[nDigits] ;
-
-// Float_t xDigit=0.,zDigit=0.,distance=0. ;
-
-// Float_t xpar=0.,zpar=0.,epar=0. ;
-
-// Int_t relid[4] ;
-
-// AliEMCALDigit * digit = 0 ;
-
-// Int_t * emcDigits = iniTower->GetDigitsList() ;
-
-
-
-// Int_t iparam ;
-
-// Int_t iDigit ;
-
-// for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
-
-// digit = (AliEMCALDigit*) digits->At(emcDigits[iDigit] ) ;
-
-// geom->AbsToRelNumbering(digit->GetId(), relid) ;
-
-// geom->RelPosInModule(relid, xDigit, zDigit) ;
-
-// efit[iDigit] = 0;
-
-
-
-// iparam = 0 ;
-
-// while(iparam < nPar ){
-
-// xpar = fitparameters[iparam] ;
-
-// zpar = fitparameters[iparam+1] ;
-
-// epar = fitparameters[iparam+2] ;
-
-// iparam += 3 ;
-
-// distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
-
-// distance = TMath::Sqrt(distance) ;
-
-// efit[iDigit] += epar * ShowerShape(distance) ;
-
-// }
-
-// }
-
-
-
-
-
-// // Now create new RecPoints and fill energy lists with efit corrected to fluctuations
-
-// // so that energy deposited in each cell is distributed betwin new clusters proportionally
-
-// // to its contribution to efit
-
-
-
-// Float_t * emcEnergies = iniTower->GetEnergiesList() ;
-
-// Float_t ratio ;
-
-
-
-// iparam = 0 ;
-
-// while(iparam < nPar ){
-
-// xpar = fitparameters[iparam] ;
-
-// zpar = fitparameters[iparam+1] ;
-
-// epar = fitparameters[iparam+2] ;
-
-// iparam += 3 ;
-
-
-
-// AliEMCALTowerRecPoint * emcRP = 0 ;
-
-
-
-// if(iniTower->IsTower()){ //create new entries in fTowerRecPoints...
-
-
-
-// if(fNumberOfTowerClusters >= emcRecPoints->GetSize())
-
-// emcRecPoints->Expand(2*fNumberOfTowerClusters) ;
-
-
-
-// (*emcRecPoints)[fNumberOfTowerClusters] = new AliEMCALTowerRecPoint("") ;
-
-// emcRP = (AliEMCALTowerRecPoint *) emcRecPoints->At(fNumberOfTowerClusters);
-
-// fNumberOfTowerClusters++ ;
-
-// }
-
-// else{//create new entries in fPreShoRecPoints
-
-// if(fNumberOfPreShoClusters >= cpvRecPoints->GetSize())
-
-// cpvRecPoints->Expand(2*fNumberOfPreShoClusters) ;
-
-
-
-// (*cpvRecPoints)[fNumberOfPreShoClusters] = new AliEMCALPreShoRecPoint("") ;
-
-// emcRP = (AliEMCALTowerRecPoint *) cpvRecPoints->At(fNumberOfPreShoClusters);
-
-// fNumberOfPreShoClusters++ ;
-
-// }
-
-
-
-// Float_t eDigit ;
-
-// for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
-
-// digit = (AliEMCALDigit*) digits->At( emcDigits[iDigit] ) ;
-
-// geom->AbsToRelNumbering(digit->GetId(), relid) ;
-
-// geom->RelPosInModule(relid, xDigit, zDigit) ;
-
-// distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
-
-// distance = TMath::Sqrt(distance) ;
-
-// ratio = epar * ShowerShape(distance) / efit[iDigit] ;
-
-// eDigit = emcEnergies[iDigit] * ratio ;
-
-// emcRP->AddDigit( *digit, eDigit ) ;
-
-// }
-
-// }
-
-
-
-// delete[] fitparameters ;
-
-// delete[] efit ;
-
-
-
-}
-
-
-
-//_____________________________________________________________________________
-
-void AliEMCALClusterizerv1::UnfoldingChiSquare(Int_t & nPar, Double_t * Grad, Double_t & fret, Double_t * x, Int_t iflag)
-
-{
-
- // Calculates the Chi square for the cluster unfolding minimization
-
- // Number of parameters, Gradient, Chi squared, parameters, what to do
-
-
-
- abort() ;
-
- // Fatal("AliEMCALClusterizerv1::UnfoldingChiSquare","-->Unfolding not implemented") ;
-
-
-
-// TList * toMinuit = (TList*) gMinuit->GetObjectFit() ;
-
-
-
-// AliEMCALTowerRecPoint * emcRP = (AliEMCALTowerRecPoint*) toMinuit->At(0) ;
-
-// TClonesArray * digits = (TClonesArray*)toMinuit->At(1) ;
-
-
-
-
-
-
-
-// // AliEMCALTowerRecPoint * emcRP = (AliEMCALTowerRecPoint *) gMinuit->GetObjectFit() ; // TowerRecPoint to fit
-
-
-
-// Int_t * emcDigits = emcRP->GetDigitsList() ;
-
-
-
-// Int_t nOdigits = emcRP->GetDigitsMultiplicity() ;
-
-
-
-// Float_t * emcEnergies = emcRP->GetEnergiesList() ;
-
-
-
-// const AliEMCALGeometry * geom = AliEMCALGetter::GetInstance()->EMCALGeometry() ;
-
-// fret = 0. ;
-
-// Int_t iparam ;
-
-
-
-// if(iflag == 2)
-
-// for(iparam = 0 ; iparam < nPar ; iparam++)
-
-// Grad[iparam] = 0 ; // Will evaluate gradient
-
-
-
-// Double_t efit ;
-
-
-
-// AliEMCALDigit * digit ;
-
-// Int_t iDigit ;
-
-
-
-// for( iDigit = 0 ; iDigit < nOdigits ; iDigit++) {
-
-
-
-// digit = (AliEMCALDigit*) digits->At( emcDigits[iDigit] ) ;
-
-
-
-// Int_t relid[4] ;
-
-// Float_t xDigit ;
-
-// Float_t zDigit ;
-
-
-
-// geom->AbsToRelNumbering(digit->GetId(), relid) ;
-
-
-
-// geom->RelPosInModule(relid, xDigit, zDigit) ;
-
-
-
-// if(iflag == 2){ // calculate gradient
-
-// Int_t iParam = 0 ;
-
-// efit = 0 ;
-
-// while(iParam < nPar ){
-
-// Double_t distance = (xDigit - x[iParam]) * (xDigit - x[iParam]) ;
-
-// iParam++ ;
-
-// distance += (zDigit - x[iParam]) * (zDigit - x[iParam]) ;
-
-// distance = TMath::Sqrt( distance ) ;
-
-// iParam++ ;
-
-// efit += x[iParam] * ShowerShape(distance) ;
-
-// iParam++ ;
-
-// }
-
-// Double_t sum = 2. * (efit - emcEnergies[iDigit]) / emcEnergies[iDigit] ; // Here we assume, that sigma = sqrt(E)
-
-// iParam = 0 ;
-
-// while(iParam < nPar ){
-
-// Double_t xpar = x[iParam] ;
-
-// Double_t zpar = x[iParam+1] ;
-
-// Double_t epar = x[iParam+2] ;
-
-// Double_t dr = TMath::Sqrt( (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) );
-
-// Double_t shape = sum * ShowerShape(dr) ;
-
-// Double_t r4 = dr*dr*dr*dr ;
-
-// Double_t r295 = TMath::Power(dr,2.95) ;
-
-// Double_t deriv =-4. * dr*dr * ( 2.32 / ( (2.32 + 0.26 * r4) * (2.32 + 0.26 * r4) ) +
-
-// 0.0316 * (1. + 0.0171 * r295) / ( ( 1. + 0.0652 * r295) * (1. + 0.0652 * r295) ) ) ;
-
-
-
-// Grad[iParam] += epar * shape * deriv * (xpar - xDigit) ; // Derivative over x
-
-// iParam++ ;
-
-// Grad[iParam] += epar * shape * deriv * (zpar - zDigit) ; // Derivative over z
-
-// iParam++ ;
-
-// Grad[iParam] += shape ; // Derivative over energy
-
-// iParam++ ;
-
-// }
-
-// }
-
-// efit = 0;
-
-// iparam = 0 ;
-
-
-
-// while(iparam < nPar ){
-
-// Double_t xpar = x[iparam] ;
-
-// Double_t zpar = x[iparam+1] ;
-
-// Double_t epar = x[iparam+2] ;
-
-// iparam += 3 ;
-
-// Double_t distance = (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) ;
-
-// distance = TMath::Sqrt(distance) ;
-
-// efit += epar * ShowerShape(distance) ;
-
-// }
-
-
-
-// fret += (efit-emcEnergies[iDigit])*(efit-emcEnergies[iDigit])/emcEnergies[iDigit] ;
-
-// // Here we assume, that sigma = sqrt(E)
-
-// }
-
-
-
-}
-
-
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::Print(Option_t * option)const
-
-{
-
- // Print clusterizer parameters
-
-
-
- if( strcmp(GetName(), "") !=0 ){
-
-
-
- // Print parameters
-
-
-
- TString taskName(GetName()) ;
-
- taskName.ReplaceAll(Version(), "") ;
-
-
-
- cout << "---------------"<< taskName.Data() << " " << GetTitle()<< "-----------" << endl
-
- << "Clusterizing digits from the file: " << taskName.Data() << endl
-
- << " Branch: " << GetName() << endl
-
- << endl
-
- << " EMC Clustering threshold = " << fTowerClusteringThreshold << endl
-
- << " EMC Local Maximum cut = " << fTowerLocMaxCut << endl
-
- << " EMC Logarothmic weight = " << fW0 << endl
-
- << endl
-
- << " CPV Clustering threshold = " << fPreShoClusteringThreshold << endl
-
- << " CPV Local Maximum cut = " << fPreShoLocMaxCut << endl
-
- << " CPV Logarothmic weight = " << fW0CPV << endl
-
- << endl ;
-
- if(fToUnfold)
-
- cout << " Unfolding on " << endl ;
-
- else
-
- cout << " Unfolding off " << endl ;
-
-
-
- cout << "------------------------------------------------------------------" <<endl ;
-
- }
-
- else
-
- cout << " AliEMCALClusterizerv1 not initialized " << endl ;
-
-}
-
-//____________________________________________________________________________
-
-void AliEMCALClusterizerv1::PrintRecPoints(Option_t * option)
-
-{
-
- // Prints list of RecPoints produced at the current pass of AliEMCALClusterizer
-
-
-
- TObjArray * towerRecPoints = AliEMCALGetter::GetInstance()->TowerRecPoints() ;
-
- TObjArray * preshoRecPoints = AliEMCALGetter::GetInstance()->PreShowerRecPoints() ;
-
-
-
- cout << "AliEMCALClusterizerv1: : event "<<gAlice->GetEvNumber() << endl ;
-
- cout << " Found "<< towerRecPoints->GetEntriesFast() << " TOWER Rec Points and "
-
- << preshoRecPoints->GetEntriesFast() << " PRE SHOWER RecPoints" << endl ;
-
-
-
- fRecPointsInRun += towerRecPoints->GetEntriesFast() ;
-
- fRecPointsInRun += preshoRecPoints->GetEntriesFast() ;
-
-
-
- if(strstr(option,"all")) {
-
-
-
- cout << "Tower clusters " << endl ;
-
- cout << " Index Ene(MeV) Multi Module phi r theta Lambda 1 Lambda 2 # of prim Primaries list " << endl;
-
-
-
- Int_t index ;
-
- for (index = 0 ; index < towerRecPoints->GetEntries() ; index++) {
-
- AliEMCALTowerRecPoint * rp = dynamic_cast<AliEMCALTowerRecPoint * >(towerRecPoints->At(index)) ;
-
- TVector3 globalpos;
-
- rp->GetGlobalPosition(globalpos);
-
- Float_t lambda[2];
-
- rp->GetElipsAxis(lambda);
-
- Int_t * primaries;
-
- Int_t nprimaries;
-
- primaries = rp->GetPrimaries(nprimaries);
-
-
-
- cout << setw(4) << rp->GetIndexInList() << " "
-
- << setw(7) << setprecision(3) << rp->GetEnergy() << " "
-
- << setw(3) << rp->GetMultiplicity() << " "
-
- << setw(1) << rp->GetEMCALArm() << " "
-
- << setw(5) << setprecision(4) << globalpos.X() << " "
-
- << setw(5) << setprecision(4) << globalpos.Y() << " "
-
- << setw(5) << setprecision(4) << globalpos.Z() << " "
-
- << setw(4) << setprecision(2) << lambda[0] << " "
-
- << setw(4) << setprecision(2) << lambda[1] << " "
-
- << setw(2) << nprimaries << " " ;
-
-
-
- for (Int_t iprimary=0; iprimary<nprimaries; iprimary++)
-
- cout << setw(4) << primaries[iprimary] << " " ;
-
- cout << endl ;
-
- }
-
-
-
- //Now plot Pre shower recPoints
-
-
-
- cout << "-----------------------------------------------------------------------"<<endl ;
-
-
-
- cout << "PreShower clusters " << endl ;
-
- cout << " Index Ene(MeV) Multi Module phi r theta Lambda 1 Lambda 2 # of prim Primaries list " << endl;
-
-
-
- for (index = 0 ; index < preshoRecPoints->GetEntries() ; index++) {
-
- AliEMCALTowerRecPoint * rp = dynamic_cast<AliEMCALTowerRecPoint *>(preshoRecPoints->At(index)) ;
-
- TVector3 globalpos;
-
- rp->GetGlobalPosition(globalpos);
-
- Float_t lambda[2];
-
- rp->GetElipsAxis(lambda);
-
- Int_t * primaries;
-
- Int_t nprimaries;
-
- primaries = rp->GetPrimaries(nprimaries);
-
-
-
- cout << setw(4) << rp->GetIndexInList() << " "
-
- << setw(7) << setprecision(3) << rp->GetEnergy() << " "
-
- << setw(3) << rp->GetMultiplicity() << " "
-
- << setw(1) << rp->GetEMCALArm() << " "
-
- << setw(5) << setprecision(4) << globalpos.X() << " "
-
- << setw(5) << setprecision(4) << globalpos.Y() << " "
-
- << setw(5) << setprecision(4) << globalpos.Z() << " "
-
- << setw(4) << setprecision(2) << lambda[0] << " "
-
- << setw(4) << setprecision(2) << lambda[1] << " "
-
- << setw(2) << nprimaries << " " ;
-
-
-
- for (Int_t iprimary=0; iprimary<nprimaries; iprimary++)
-
- cout << setw(4) << primaries[iprimary] << " " ;
-
- cout << endl ;
-
- }
-
-
-
- cout << "-----------------------------------------------------------------------"<<endl ;
-
- }
-
-}
-
-
-
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff