/* $Id$ */
-/* $Log:
- 1 October 2000. Yuri Kharlov:
- AreNeighbours()
- PPSD upper layer is considered if number of layers>1
-
- 18 October 2000. Yuri Kharlov:
- AliPHOSClusterizerv1()
- CPV clusterizing parameters added
-
- MakeClusters()
- After first PPSD digit remove EMC digits only once
-*/
+/* History of cvs commits:
+ *
+ * $Log: AliPHOSClusterizerv1.cxx,v $
+ * Revision 1.118 2007/12/11 21:23:26 kharlov
+ * Added possibility to swith off unfolding
+ *
+ * Revision 1.117 2007/10/18 08:42:05 kharlov
+ * Bad channels cleaned before clusterization
+ *
+ * Revision 1.116 2007/10/01 20:24:08 kharlov
+ * Memory leaks fixed
+ *
+ * Revision 1.115 2007/09/26 14:22:17 cvetan
+ * Important changes to the reconstructor classes. Complete elimination of the run-loaders, which are now steered only from AliReconstruction. Removal of the corresponding Reconstruct() and FillESD() methods.
+ *
+ * Revision 1.114 2007/09/06 16:06:44 kharlov
+ * Absence of sorting results in loose of all unfolded clusters
+ *
+ * Revision 1.113 2007/08/28 12:55:07 policheh
+ * Loaders removed from the reconstruction code (C.Cheshkov)
+ *
+ * Revision 1.112 2007/08/22 09:20:50 hristov
+ * Updated QA classes (Yves)
+ *
+ * Revision 1.111 2007/08/08 12:11:28 kharlov
+ * Protection against uninitialized fQADM
+ *
+ * Revision 1.110 2007/08/07 14:16:00 kharlov
+ * Quality assurance added (Yves Schutz)
+ *
+ * Revision 1.109 2007/07/24 17:20:35 policheh
+ * Usage of RecoParam objects instead of hardcoded parameters in reconstruction.
+ * (See $ALICE_ROOT/PHOS/macros/BeamTest2006/RawReconstruction.C).
+ *
+ * Revision 1.108 2007/06/18 07:00:51 kharlov
+ * Bug fix for attempt to use AliPHOSEmcRecPoint after its deletion
+ *
+ * Revision 1.107 2007/05/25 14:12:26 policheh
+ * Local to tracking CS transformation added for CPV rec. points
+ *
+ * Revision 1.106 2007/05/24 13:01:22 policheh
+ * Local to tracking CS transformation invoked for each EMC rec.point
+ *
+ * Revision 1.105 2007/05/02 13:41:22 kharlov
+ * Mode protection against absence of calib.data from AliPHOSCalibData to AliPHOSClusterizerv1::GetCalibrationParameters()
+ *
+ * Revision 1.104 2007/04/27 16:55:53 kharlov
+ * Calibration stops if PHOS CDB objects do not exist
+ *
+ * Revision 1.103 2007/04/11 11:55:45 policheh
+ * SetDistancesToBadChannels() added.
+ *
+ * Revision 1.102 2007/03/28 19:18:15 kharlov
+ * RecPoints recalculation in TSM removed
+ *
+ * Revision 1.101 2007/03/06 06:51:27 kharlov
+ * Calculation of cluster properties dep. on vertex posponed to TrackSegmentMaker
+ *
+ * Revision 1.100 2007/01/10 11:07:26 kharlov
+ * Raw digits writing to file (B.Polichtchouk)
+ *
+ * Revision 1.99 2006/11/07 16:49:51 kharlov
+ * Corrections for next event switch in case of raw data (B.Polichtchouk)
+ *
+ * Revision 1.98 2006/10/27 17:14:27 kharlov
+ * Introduce AliDebug and AliLog (B.Polichtchouk)
+ *
+ * Revision 1.97 2006/08/29 11:41:19 kharlov
+ * Missing implementation of ctors and = operator are added
+ *
+ * Revision 1.96 2006/08/25 16:56:30 kharlov
+ * Compliance with Effective C++
+ *
+ * Revision 1.95 2006/08/11 12:36:26 cvetan
+ * Update of the PHOS code needed in order to read and reconstruct the beam test raw data (i.e. without an existing galice.root)
+ *
+ * Revision 1.94 2006/08/07 12:27:49 hristov
+ * Removing obsolete code which affected the event numbering scheme
+ *
+ * Revision 1.93 2006/08/01 12:20:17 cvetan
+ * 1. Adding a possibility to read and reconstruct an old rcu formatted raw data. This is controlled by an option of AliReconstruction and AliPHOSReconstructor. 2. In case of raw data processing (without galice.root) create the default AliPHOSGeometry object. Most likely this should be moved to the CDB
+ *
+ * Revision 1.92 2006/04/29 20:26:46 hristov
+ * Separate EMC and CPV calibration (Yu.Kharlov)
+ *
+ * Revision 1.91 2006/04/22 10:30:17 hristov
+ * Add fEnergy to AliPHOSDigit and operate with EMC amplitude in energy units (Yu.Kharlov)
+ *
+ * Revision 1.90 2006/04/11 15:22:59 hristov
+ * run number in query set to -1: forces AliCDBManager to use its run number (A.Colla)
+ *
+ * Revision 1.89 2006/03/13 14:05:42 kharlov
+ * Calibration objects for EMC and CPV
+ *
+ * Revision 1.88 2006/01/11 08:54:52 hristov
+ * Additional protection in case no calibration entry was found
+ *
+ * Revision 1.87 2005/11/22 08:46:43 kharlov
+ * Updated to new CDB (Boris Polichtchouk)
+ *
+ * Revision 1.86 2005/11/14 21:52:43 hristov
+ * Coding conventions
+ *
+ * Revision 1.85 2005/09/27 16:08:08 hristov
+ * New version of CDB storage framework (A.Colla)
+ *
+ * Revision 1.84 2005/09/21 10:02:47 kharlov
+ * Reading calibration from CDB (Boris Polichtchouk)
+ *
+ * Revision 1.82 2005/09/02 15:43:13 kharlov
+ * Add comments in GetCalibrationParameters and Calibrate
+ *
+ * Revision 1.81 2005/09/02 14:32:07 kharlov
+ * Calibration of raw data
+ *
+ * Revision 1.80 2005/08/24 15:31:36 kharlov
+ * Setting raw digits flag
+ *
+ * Revision 1.79 2005/07/25 15:53:53 kharlov
+ * Read raw data
+ *
+ * Revision 1.78 2005/05/28 14:19:04 schutz
+ * Compilation warnings fixed by T.P.
+ *
+ */
+
//*-- Author: Yves Schutz (SUBATECH) & Dmitri Peressounko (SUBATECH & Kurchatov Institute)
//////////////////////////////////////////////////////////////////////////////
// Clusterization class. Performs clusterization (collects neighbouring active cells) and
// This TTask is normally called from Reconstructioner, but can as well be used in
// standalone mode.
// Use Case:
-// root [0] AliPHOSClusterizerv1 * cl = new AliPHOSClusterizerv1("galice.root", "recpointsname", "digitsname")
-// Warning in <TDatabasePDG::TDatabasePDG>: object already instantiated
-// // reads gAlice from header file "galice.root", uses digits stored in the branch names "digitsname" (default = "Default")
-// // and saves recpoints in branch named "recpointsname" (default = "digitsname")
-// root [1] cl->ExecuteTask()
-// //finds RecPoints in all events stored in galice.root
+// root [0] AliPHOSClusterizerv1 * cl = new AliPHOSClusterizerv1(<pointer_to_phos_geometry_onject>)
+// root [1] cl->Digits2Clusters(digitsTree,clusterTree)
+// //finds RecPoints in the current event
// 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->SetEmcLocalMaxCut(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 "TClonesArray.h"
// --- Standard library ---
-#include <iostream.h>
-#include <iomanip.h>
-
// --- AliRoot header files ---
-
+#include "AliLog.h"
+#include "AliConfig.h"
+#include "AliPHOSGeometry.h"
#include "AliPHOSClusterizerv1.h"
+#include "AliPHOSEmcRecPoint.h"
#include "AliPHOSCpvRecPoint.h"
#include "AliPHOSDigit.h"
#include "AliPHOSDigitizer.h"
-#include "AliPHOSEmcRecPoint.h"
-#include "AliPHOS.h"
-#include "AliPHOSGetter.h"
-#include "AliRun.h"
+#include "AliPHOSCalibrationDB.h"
+#include "AliCDBManager.h"
+#include "AliCDBStorage.h"
+#include "AliCDBEntry.h"
+#include "AliPHOSRecoParam.h"
+#include "AliPHOSReconstructor.h"
+#include "AliPHOSCalibData.h"
ClassImp(AliPHOSClusterizerv1)
//____________________________________________________________________________
- AliPHOSClusterizerv1::AliPHOSClusterizerv1() : AliPHOSClusterizer()
+AliPHOSClusterizerv1::AliPHOSClusterizerv1() :
+ AliPHOSClusterizer(),
+ fDefaultInit(0), fEmcCrystals(0), fToUnfold(0),
+ fWrite(0),
+ fNumberOfEmcClusters(0), fNumberOfCpvClusters(0),
+ fEmcClusteringThreshold(0), fCpvClusteringThreshold(0),
+ fEmcLocMaxCut(0), fW0(0), fCpvLocMaxCut(0),
+ fW0CPV(0), fEmcTimeGate(0)
{
// default ctor (to be used mainly by Streamer)
InitParameters() ;
+ fDefaultInit = kTRUE ;
}
//____________________________________________________________________________
-AliPHOSClusterizerv1::AliPHOSClusterizerv1(const char* headerFile,const char* name, const char * from)
-:AliPHOSClusterizer(headerFile, name)
+AliPHOSClusterizerv1::AliPHOSClusterizerv1(AliPHOSGeometry *geom) :
+ AliPHOSClusterizer(geom),
+ fDefaultInit(0), fEmcCrystals(0), fToUnfold(0),
+ fWrite(0),
+ fNumberOfEmcClusters(0), fNumberOfCpvClusters(0),
+ fEmcClusteringThreshold(0), fCpvClusteringThreshold(0),
+ fEmcLocMaxCut(0), fW0(0), fCpvLocMaxCut(0),
+ fW0CPV(0), fEmcTimeGate(0)
{
// ctor with the indication of the file where header Tree and digits Tree are stored
InitParameters() ;
-
- if ( from == 0 )
- fFrom = name ;
- else
- fFrom = from ;
Init() ;
-
+ fDefaultInit = kFALSE ;
}
//____________________________________________________________________________
{
// dtor
-
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
-
- // remove the task from the folder list
- gime->RemoveTask("C",GetName()) ;
-
- // remove the data from the folder list
- TString name(GetName()) ;
- name.Remove(name.Index(":")) ;
- gime->RemoveObjects("D", name) ; // Digits
- gime->RemoveObjects("RE", name) ; // EMCARecPoints
- gime->RemoveObjects("RC", name) ; // CPVRecPoints
-
- // Delete gAlice
- gime->CloseFile() ;
-
-}
-
-//____________________________________________________________________________
-const TString AliPHOSClusterizerv1::BranchName() const
-{
- TString branchName(GetName() ) ;
- branchName.Remove(branchName.Index(Version())-1) ;
- return branchName ;
}
-
//____________________________________________________________________________
-Float_t AliPHOSClusterizerv1::Calibrate(Int_t amp, Int_t absId) const
+void AliPHOSClusterizerv1::Digits2Clusters(Option_t *option)
{
- if(absId <= fEmcCrystals) //calibrate as EMC
- return fADCpedestalEmc + amp*fADCchanelEmc ;
- else //Digitize as CPV
- return fADCpedestalCpv+ amp*fADCchanelCpv ;
-}
-//____________________________________________________________________________
-void AliPHOSClusterizerv1::Exec(Option_t * option)
-{
- // Steering method
-
- if( strcmp(GetName(), "")== 0 )
- Init() ;
+ // Steering method to perform clusterization for one event
+ // The input is the tree with digits.
+ // The output is the tree with clusters.
if(strstr(option,"tim"))
gBenchmark->Start("PHOSClusterizer");
- if(strstr(option,"print"))
- Print("") ;
-
- gAlice->GetEvent(0) ;
-
- //check, if the branch with name of this" already exits?
- if(gAlice->TreeR()) {
- TObjArray * lob = (TObjArray*)gAlice->TreeR()->GetListOfBranches() ;
- TIter next(lob) ;
- TBranch * branch = 0 ;
- Bool_t phosemcfound = kFALSE, phoscpvfound = kFALSE, clusterizerfound = kFALSE ;
-
- TString branchname = GetName() ;
- branchname.Remove(branchname.Index(Version())-1) ;
-
- while ( (branch = (TBranch*)next()) && (!phosemcfound || !phoscpvfound || !clusterizerfound) ) {
- if ( (strcmp(branch->GetName(), "PHOSEmcRP")==0) && (strcmp(branch->GetTitle(), branchname.Data())==0) )
- phosemcfound = kTRUE ;
-
- else if ( (strcmp(branch->GetName(), "PHOSCpvRP")==0) && (strcmp(branch->GetTitle(), branchname.Data())==0) )
- phoscpvfound = kTRUE ;
-
- else if ((strcmp(branch->GetName(), "AliPHOSClusterizer")==0) && (strcmp(branch->GetTitle(), GetName())==0) )
- clusterizerfound = kTRUE ;
- }
-
- if ( phoscpvfound || phosemcfound || clusterizerfound ) {
- cerr << "WARNING: AliPHOSClusterizer::Exec -> Emc(Cpv)RecPoints and/or Clusterizer branch with name "
- << branchname.Data() << " already exits" << endl ;
- return ;
- }
+ if(strstr(option,"print")) {
+ Print() ;
+ return ;
}
-
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
- Int_t nevents = (Int_t) gAlice->TreeE()->GetEntries() ;
- Int_t ievent ;
- for(ievent = 0; ievent < nevents; ievent++){
-
- if(ievent == 0) GetCalibrationParameters() ;
-
- fNumberOfEmcClusters = 0 ;
- fNumberOfCpvClusters = 0 ;
-
- gime->Event(ievent,"D") ;
-
- // if(!ReadDigits(ievent)) continue; //reads digits for event ievent
+ MakeClusters() ;
- MakeClusters() ;
-
- if(fToUnfold)
- MakeUnfolding() ;
+ AliDebug(2,Form(" ---- Printing clusters (%d)\n",
+ fEMCRecPoints->GetEntries()));
+ if(AliLog::GetGlobalDebugLevel()>1)
+ fEMCRecPoints->Print();
- WriteRecPoints(ievent) ;
+ if(fToUnfold)
+ MakeUnfolding();
- if(strstr(option,"deb"))
- PrintRecPoints(option) ;
+ WriteRecPoints();
+
+ if(strstr(option,"deb"))
+ PrintRecPoints(option) ;
- //increment the total number of digits per run
- fRecPointsInRun += gime->EmcRecPoints(BranchName())->GetEntriesFast() ;
- fRecPointsInRun += gime->CpvRecPoints(BranchName())->GetEntriesFast() ;
- }
-
if(strstr(option,"tim")){
gBenchmark->Stop("PHOSClusterizer");
- cout << "AliPHOSClusterizer:" << endl ;
- cout << " took " << gBenchmark->GetCpuTime("PHOSClusterizer") << " seconds for Clusterizing "
- << gBenchmark->GetCpuTime("PHOSClusterizer")/nevents << " seconds per event " << endl ;
- cout << endl ;
+ AliInfo(Form("took %f seconds for Clusterizing\n",
+ gBenchmark->GetCpuTime("PHOSClusterizer")));
}
-
}
//____________________________________________________________________________
// 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
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
- TClonesArray * digits = gime->Digits(fFrom) ;
-
gMinuit->mncler(); // Reset Minuit's list of paramters
gMinuit->SetPrintLevel(-1) ; // No Printout
gMinuit->SetFCN(AliPHOSClusterizerv1::UnfoldingChiSquare) ;
TList * toMinuit = new TList();
toMinuit->AddAt(emcRP,0) ;
- toMinuit->AddAt(digits,1) ;
+ toMinuit->AddAt(fDigitsArr,1) ;
+ toMinuit->AddAt(fGeom,2) ;
gMinuit->SetObjectFit(toMinuit) ; // To tranfer pointer to UnfoldingChiSquare
Int_t iDigit ;
- const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
-
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->RelPosInModule(relid, x, z) ;
+ fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
+ fGeom->RelPosInModule(relid, x, z) ;
Float_t energy = maxAtEnergy[iDigit] ;
gMinuit->mnparm(index, "x", x, 0.1, 0, 0, ierflg) ;
index++ ;
if(ierflg != 0){
- cout << "PHOS Unfolding> Unable to set initial value for fit procedure : x = " << x << endl ;
+ Warning("FindFit", "PHOS Unfolding unable to set initial value for fit procedure : x = %f\n", x ) ;
return kFALSE;
}
gMinuit->mnparm(index, "z", z, 0.1, 0, 0, ierflg) ;
index++ ;
if(ierflg != 0){
- cout << "PHOS Unfolding> Unable to set initial value for fit procedure : z = " << z << endl ;
+ Warning("FindFit", "PHOS Unfolding unable to set initial value for fit procedure : z =%f\n", z ) ;
return kFALSE;
}
gMinuit->mnparm(index, "Energy", energy , 0.05*energy, 0., 4.*energy, ierflg) ;
index++ ;
if(ierflg != 0){
- cout << "PHOS Unfolding> Unable to set initial value for fit procedure : energy = " << energy << endl ;
+ Warning("FindFit", "PHOS Unfolding unable to set initial value for fit procedure : energy = %f\n", energy ) ;
return kFALSE;
}
}
gMinuit->mnexcm("MIGRAD", &p0, 0, ierflg) ; // minimize
if(ierflg == 4){ // Minimum not found
- cout << "PHOS Unfolding> Fit not converged, cluster abandoned "<< endl ;
+ Warning("FindFit", "PHOS Unfolding fit not converged, cluster abandoned\n" );
return kFALSE ;
}
for(index = 0; index < nPar; index++){
}
-//____________________________________________________________________________
-void AliPHOSClusterizerv1::GetCalibrationParameters()
-{
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
- TString branchname = GetName() ;
- branchname.Remove(branchname.Index(Version())-1) ;
- AliPHOSDigitizer * dig = gime->Digitizer(fFrom) ;
- fADCchanelEmc = dig->GetEMCchannel() ;
- fADCpedestalEmc = dig->GetEMCpedestal();
- fADCchanelCpv = dig->GetCPVchannel() ;
- fADCpedestalCpv = dig->GetCPVpedestal() ;
-
-}
//____________________________________________________________________________
void AliPHOSClusterizerv1::Init()
{
// Make all memory allocations which can not be done in default constructor.
// Attach the Clusterizer task to the list of PHOS tasks
-
- if ( strcmp(GetTitle(), "") == 0 )
- SetTitle("galice.root") ;
-
- TString branchname = GetName() ;
- branchname.Remove(branchname.Index(Version())-1) ;
-
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance(GetTitle(), fFrom.Data()) ;
- if ( gime == 0 ) {
- cerr << "ERROR: AliPHOSClusterizerv1::Init -> Could not obtain the Getter object !" << endl ;
- return ;
- }
-
- const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
- fEmcCrystals = geom->GetNModules() * geom->GetNCristalsInModule() ;
+
+ fEmcCrystals = fGeom->GetNModules() * fGeom->GetNCristalsInModule() ;
if(!gMinuit)
- gMinuit = new TMinuit(100) ;
- gime->PostClusterizer(this) ;
- // create a folder on the white board //YSAlice/WhiteBoard/RecPoints/PHOS/recpointsName
- gime->PostRecPoints(branchname) ;
+ gMinuit = new TMinuit(100);
+
+ if (!fgCalibData)
+ fgCalibData = new AliPHOSCalibData(-1); //use AliCDBManager's run number
+ if (fgCalibData->GetCalibDataEmc() == 0)
+ AliFatal("Calibration parameters for PHOS EMC not found. Stop reconstruction.\n");
- gime->PostDigits(fFrom) ;
- gime->PostDigitizer(fFrom) ;
-
}
//____________________________________________________________________________
fNumberOfCpvClusters = 0 ;
fNumberOfEmcClusters = 0 ;
-
- fCpvClusteringThreshold = 0.0;
- fEmcClusteringThreshold = 0.2;
-
- fEmcLocMaxCut = 0.03 ;
- fCpvLocMaxCut = 0.03 ;
-
- fW0 = 4.5 ;
- fW0CPV = 4.0 ;
- fEmcTimeGate = 1.e-8 ;
-
- fToUnfold = kTRUE ;
+ const AliPHOSRecoParam* parEmc = AliPHOSReconstructor::GetRecoParamEmc();
+ if(!parEmc) AliFatal("Reconstruction parameters for EMC not set!");
+
+ const AliPHOSRecoParam* parCpv = AliPHOSReconstructor::GetRecoParamCpv();
+ if(!parCpv) AliFatal("Reconstruction parameters for CPV not set!");
+
+ fCpvClusteringThreshold = parCpv->GetClusteringThreshold();
+ fEmcClusteringThreshold = parEmc->GetClusteringThreshold();
- fHeaderFileName = GetTitle() ;
- fDigitsBranchTitle = GetName() ;
-
- TString clusterizerName( GetName()) ;
- if (clusterizerName.IsNull() )
- clusterizerName = "Default" ;
- clusterizerName.Append(":") ;
- clusterizerName.Append(Version()) ;
- SetName(clusterizerName) ;
- fRecPointsInRun = 0 ;
+ fEmcLocMaxCut = parEmc->GetLocalMaxCut();
+ fCpvLocMaxCut = parCpv->GetLocalMaxCut();
+
+ fW0 = parEmc->GetLogWeight();
+ fW0CPV = parCpv->GetLogWeight();
+ fEmcTimeGate = 1.e-6 ;
+
+ fToUnfold = parEmc->ToUnfold() ;
+
+ fWrite = kTRUE ;
}
//____________________________________________________________________________
// 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
+ // =-1 are not neighbour, continue searching, but do not look before d2 next time
// 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
- const AliPHOSGeometry * geom = AliPHOSGetter::GetInstance()->PHOSGeometry() ;
-
- Int_t rv = 0 ;
-
Int_t relid1[4] ;
- geom->AbsToRelNumbering(d1->GetId(), relid1) ;
+ fGeom->AbsToRelNumbering(d1->GetId(), relid1) ;
Int_t relid2[4] ;
- geom->AbsToRelNumbering(d2->GetId(), relid2) ;
+ fGeom->AbsToRelNumbering(d2->GetId(), relid2) ;
if ( (relid1[0] == relid2[0]) && (relid1[1]==relid2[1]) ) { // inside the same PHOS module
Int_t rowdiff = TMath::Abs( relid1[2] - relid2[2] ) ;
Int_t coldiff = TMath::Abs( relid1[3] - relid2[3] ) ;
- if (( coldiff <= 1 ) && ( rowdiff <= 1 )){
+ if (( coldiff <= 1 ) && ( rowdiff <= 1 )){ //At least common vertex
+ // if (( relid1[2]==relid2[2] && coldiff <= 1 ) || ( relid1[3]==relid2[3] && rowdiff <= 1 )){ //common side
if((relid1[1] != 0) || (TMath::Abs(d1->GetTime() - d2->GetTime() ) < fEmcTimeGate))
- rv = 1 ;
+ return 1 ;
}
else {
if((relid2[2] > relid1[2]) && (relid2[3] > relid1[3]+1))
- rv = 2; // Difference in row numbers is too large to look further
+ return 2; // Difference in row numbers is too large to look further
}
+ return 0 ;
}
else {
+ if(relid1[0] > relid2[0] && relid1[1]==relid2[1] ) //we switched to the next module
+ return -1 ;
+ if(relid1[1] < relid2[1]) //we switched from EMC(0) to CPV(-1)
+ return -1 ;
- if( (relid1[0] < relid2[0]) || (relid1[1] != relid2[1]) )
- rv=2 ;
+ return 2 ;
}
- return rv ;
+ return 0 ;
}
-
-
//____________________________________________________________________________
Bool_t AliPHOSClusterizerv1::IsInEmc(AliPHOSDigit * digit) const
{
// Tells if (true) or not (false) the digit is in a PHOS-EMC module
Bool_t rv = kFALSE ;
- const AliPHOSGeometry * geom = AliPHOSGetter::GetInstance()->PHOSGeometry() ;
- Int_t nEMC = geom->GetNModules()*geom->GetNPhi()*geom->GetNZ();
+ Int_t nEMC = fGeom->GetNModules()*fGeom->GetNPhi()*fGeom->GetNZ();
if(digit->GetId() <= nEMC ) rv = kTRUE;
// Tells if (true) or not (false) the digit is in a PHOS-CPV module
Bool_t rv = kFALSE ;
- const AliPHOSGeometry * geom = AliPHOSGetter::GetInstance()->PHOSGeometry() ;
-
- Int_t nEMC = geom->GetNModules()*geom->GetNPhi()*geom->GetNZ();
+
+ Int_t nEMC = fGeom->GetNModules()*fGeom->GetNPhi()*fGeom->GetNZ();
if(digit->GetId() > nEMC ) rv = kTRUE;
}
//____________________________________________________________________________
-void AliPHOSClusterizerv1::WriteRecPoints(Int_t event)
+void AliPHOSClusterizerv1::WriteRecPoints()
{
// Creates new branches with given title
// fills and writes into TreeR.
-
- AliPHOSGetter *gime = AliPHOSGetter::GetInstance() ;
- TObjArray * emcRecPoints = gime->EmcRecPoints(BranchName()) ;
- TObjArray * cpvRecPoints = gime->CpvRecPoints(BranchName()) ;
- TClonesArray * digits = gime->Digits(fFrom) ;
- TTree * treeR = gAlice->TreeR();
-
- if (!gAlice->TreeR() )
- gAlice->MakeTree("R", fSplitFile);
- treeR = gAlice->TreeR() ;
-
Int_t index ;
- //Evaluate position, dispersion and other RecPoint properties...
- for(index = 0; index < emcRecPoints->GetEntries(); index++)
- ((AliPHOSEmcRecPoint *)emcRecPoints->At(index))->EvalAll(fW0,digits) ;
-
- emcRecPoints->Sort() ;
- for(index = 0; index < emcRecPoints->GetEntries(); index++)
- ((AliPHOSEmcRecPoint *)emcRecPoints->At(index))->SetIndexInList(index) ;
+ //Evaluate position, dispersion and other RecPoint properties..
+ Int_t nEmc = fEMCRecPoints->GetEntriesFast();
+ Float_t emcMinE= AliPHOSReconstructor::GetRecoParamEmc()->GetMinE(); //Minimal digit energy
+ for(index = 0; index < nEmc; index++){
+ AliPHOSEmcRecPoint * rp =
+ dynamic_cast<AliPHOSEmcRecPoint *>( fEMCRecPoints->At(index) );
+ rp->Purify(emcMinE) ;
+ if(rp->GetMultiplicity()==0){
+ fEMCRecPoints->RemoveAt(index) ;
+ delete rp ;
+ continue;
+ }
- emcRecPoints->Expand(emcRecPoints->GetEntriesFast()) ;
+ // No vertex is available now, calculate corrections in PID
+ rp->EvalAll(fW0,fDigitsArr) ;
+ TVector3 fakeVtx(0.,0.,0.) ;
+ rp->EvalAll(fW0,fakeVtx,fDigitsArr) ;
+ rp->EvalLocal2TrackingCSTransform();
+ }
+ fEMCRecPoints->Compress() ;
+ fEMCRecPoints->Sort() ;
+ // fEMCRecPoints->Expand(fEMCRecPoints->GetEntriesFast()) ;
+ for(index = 0; index < fEMCRecPoints->GetEntries(); index++){
+ dynamic_cast<AliPHOSEmcRecPoint *>( fEMCRecPoints->At(index) )->SetIndexInList(index) ;
+ }
+
+ //For each rec.point set the distance to the nearest bad crystal (BVP)
+ SetDistancesToBadChannels();
//Now the same for CPV
- for(index = 0; index < cpvRecPoints->GetEntries(); index++)
- ((AliPHOSRecPoint *)cpvRecPoints->At(index))->EvalAll(fW0CPV,digits) ;
-
- cpvRecPoints->Sort() ;
-
- for(index = 0; index < cpvRecPoints->GetEntries(); index++)
- ((AliPHOSRecPoint *)cpvRecPoints->At(index))->SetIndexInList(index) ;
-
- cpvRecPoints->Expand(cpvRecPoints->GetEntriesFast()) ;
+ for(index = 0; index < fCPVRecPoints->GetEntries(); index++){
+ AliPHOSCpvRecPoint * rp = dynamic_cast<AliPHOSCpvRecPoint *>( fCPVRecPoints->At(index) );
+ rp->EvalAll(fW0CPV,fDigitsArr) ;
+ rp->EvalLocal2TrackingCSTransform();
+ }
+ fCPVRecPoints->Sort() ;
- Int_t bufferSize = 32000 ;
- Int_t splitlevel = 0 ;
-
- //First EMC
- TBranch * emcBranch = treeR->Branch("PHOSEmcRP","TObjArray",&emcRecPoints,bufferSize,splitlevel);
- emcBranch->SetTitle(BranchName());
-
- //Now CPV branch
- TBranch * cpvBranch = treeR->Branch("PHOSCpvRP","TObjArray",&cpvRecPoints,bufferSize,splitlevel);
- cpvBranch->SetTitle(BranchName());
-
- //And Finally clusterizer branch
- AliPHOSClusterizerv1 * cl = this ;
- TBranch * clusterizerBranch = treeR->Branch("AliPHOSClusterizer","AliPHOSClusterizerv1",
- &cl,bufferSize,splitlevel);
- clusterizerBranch->SetTitle(BranchName());
-
- emcBranch ->Fill() ;
- cpvBranch ->Fill() ;
- clusterizerBranch->Fill() ;
-
- treeR->AutoSave() ; //Write(0,kOverwrite) ;
+ for(index = 0; index < fCPVRecPoints->GetEntries(); index++)
+ dynamic_cast<AliPHOSCpvRecPoint *>( fCPVRecPoints->At(index) )->SetIndexInList(index) ;
+
+ fCPVRecPoints->Expand(fCPVRecPoints->GetEntriesFast()) ;
+ if(fWrite){ //We write TreeR
+ fTreeR->Fill();
+ }
}
//____________________________________________________________________________
// Steering method to construct the clusters stored in a list of Reconstructed Points
// A cluster is defined as a list of neighbour digits
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
-
- TObjArray * emcRecPoints = gime->EmcRecPoints(BranchName()) ;
- TObjArray * cpvRecPoints = gime->CpvRecPoints(BranchName()) ;
- emcRecPoints->Delete() ;
- cpvRecPoints->Delete() ;
-
- TClonesArray * digits = gime->Digits(fFrom) ;
- if ( !digits ) {
- cerr << "ERROR: AliPHOSClusterizerv1::MakeClusters -> Digits with name "
- << fFrom << " not found ! " << endl ;
- abort() ;
- }
- TClonesArray * digitsC = (TClonesArray*)digits->Clone() ;
-
-
- // Clusterization starts
+ fNumberOfCpvClusters = 0 ;
+ fNumberOfEmcClusters = 0 ;
- TIter nextdigit(digitsC) ;
+ //Mark all digits as unused yet
+ Int_t nDigits=fDigitsArr->GetEntriesFast() ;
+ for(Int_t i=0; i<nDigits; i++){
+ fDigitsUsed[i]=0 ;
+ }
+ Int_t iFirst = 0 ; //first index of digit which potentially can be a part of cluster
+ //e.g. first digit in this module, first CPV digit etc.
AliPHOSDigit * digit ;
- Bool_t notremoved = kTRUE ;
+ TArrayI clusterdigitslist(1500) ;
+ AliPHOSRecPoint * clu = 0 ;
+ for(Int_t i=0; i<nDigits; i++){
+ if(fDigitsUsed[i])
+ continue ;
+
+ digit=static_cast<AliPHOSDigit*>(fDigitsArr->At(i)) ;
- while ( (digit = (AliPHOSDigit *)nextdigit()) ) { // scan over the list of digitsC
- AliPHOSRecPoint * clu = 0 ;
+ clu=0 ;
- TArrayI clusterdigitslist(1500) ;
Int_t index ;
- if (( IsInEmc (digit) && Calibrate(digit->GetAmp(),digit->GetId()) > fEmcClusteringThreshold ) ||
- ( IsInCpv (digit) && Calibrate(digit->GetAmp(),digit->GetId()) > fCpvClusteringThreshold ) ) {
-
+ //is this digit so energetic that start cluster?
+ if (( IsInEmc(digit) && digit->GetEnergy() > fEmcClusteringThreshold ) ||
+ ( IsInCpv(digit) && digit->GetEnergy() > fCpvClusteringThreshold ) ) {
Int_t iDigitInCluster = 0 ;
if ( IsInEmc(digit) ) {
- // start a new EMC RecPoint
- if(fNumberOfEmcClusters >= emcRecPoints->GetSize())
- emcRecPoints->Expand(2*fNumberOfEmcClusters+1) ;
-
- emcRecPoints->AddAt(new AliPHOSEmcRecPoint(""), fNumberOfEmcClusters) ;
- clu = (AliPHOSEmcRecPoint *) emcRecPoints->At(fNumberOfEmcClusters) ;
- fNumberOfEmcClusters++ ;
- clu->AddDigit(*digit, Calibrate(digit->GetAmp(),digit->GetId())) ;
- clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
- iDigitInCluster++ ;
- digitsC->Remove(digit) ;
-
+ // start a new EMC RecPoint
+ if(fNumberOfEmcClusters >= fEMCRecPoints->GetSize())
+ fEMCRecPoints->Expand(2*fNumberOfEmcClusters+1) ;
+
+ fEMCRecPoints->AddAt(new AliPHOSEmcRecPoint(""), fNumberOfEmcClusters) ;
+ clu = static_cast<AliPHOSEmcRecPoint *>( fEMCRecPoints->At(fNumberOfEmcClusters) ) ;
+ fNumberOfEmcClusters++ ;
+ clu->AddDigit(*digit, digit->GetEnergy()) ;
+ clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
+ iDigitInCluster++ ;
+ fDigitsUsed[i]=kTRUE ;
} else {
-
- // start a new CPV cluster
- if(fNumberOfCpvClusters >= cpvRecPoints->GetSize())
- cpvRecPoints->Expand(2*fNumberOfCpvClusters+1);
-
- cpvRecPoints->AddAt(new AliPHOSCpvRecPoint(""), fNumberOfCpvClusters) ;
-
- clu = (AliPHOSCpvRecPoint *) cpvRecPoints->At(fNumberOfCpvClusters) ;
- fNumberOfCpvClusters++ ;
- clu->AddDigit(*digit, Calibrate(digit->GetAmp(),digit->GetId()) ) ;
- clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
- iDigitInCluster++ ;
- digitsC->Remove(digit) ;
- nextdigit.Reset() ;
-
- // Here we remove remaining EMC digits, which cannot make a cluster
-
- if( notremoved ) {
- while( ( digit = (AliPHOSDigit *)nextdigit() ) ) {
- if( IsInEmc(digit) )
- digitsC->Remove(digit) ;
- else
- break ;
- }
- notremoved = kFALSE ;
- }
-
+ // start a new CPV cluster
+ if(fNumberOfCpvClusters >= fCPVRecPoints->GetSize())
+ fCPVRecPoints->Expand(2*fNumberOfCpvClusters+1);
+
+ fCPVRecPoints->AddAt(new AliPHOSCpvRecPoint(""), fNumberOfCpvClusters) ;
+ clu = static_cast<AliPHOSCpvRecPoint *>( fCPVRecPoints->At(fNumberOfCpvClusters) ) ;
+ fNumberOfCpvClusters++ ;
+ clu->AddDigit(*digit, digit->GetEnergy()) ;
+ clusterdigitslist[iDigitInCluster] = digit->GetIndexInList() ;
+ iDigitInCluster++ ;
+ fDigitsUsed[i]=kTRUE ;
} // else
- nextdigit.Reset() ;
-
+ //Now scan remaining digits in list to find neigbours of our seed
+
AliPHOSDigit * digitN ;
index = 0 ;
while (index < iDigitInCluster){ // scan over digits already in cluster
- digit = (AliPHOSDigit*)digits->At(clusterdigitslist[index]) ;
- index++ ;
- while ( (digitN = (AliPHOSDigit *)nextdigit()) ) { // scan over the reduced list of digits
- Int_t ineb = AreNeighbours(digit, digitN); // call (digit,digitN) in THAT oder !!!!!
+ digit = static_cast<AliPHOSDigit*>( fDigitsArr->At(clusterdigitslist[index]) ) ;
+ index++ ;
+ for(Int_t j=iFirst; j<nDigits; j++){
+ if(fDigitsUsed[j])
+ continue ; //look through remaining digits
+ digitN = static_cast<AliPHOSDigit*>( fDigitsArr->At(j) ) ;
+ Int_t ineb = AreNeighbours(digit, digitN); // call (digit,digitN) in THAT oder !!!!!
switch (ineb ) {
+ case -1: //too early (e.g. previous module), do not look before j at subsequent passes
+ iFirst=j ;
+ break ;
case 0 : // not a neighbour
- break ;
- case 1 : // are neighbours
- clu->AddDigit(*digitN, Calibrate( digitN->GetAmp(), digitN->GetId() ) ) ;
- clusterdigitslist[iDigitInCluster] = digitN->GetIndexInList() ;
- iDigitInCluster++ ;
- digitsC->Remove(digitN) ;
- break ;
+ break ;
+ case 1 : // are neighbours
+ clu->AddDigit(*digitN, digitN->GetEnergy());
+ clusterdigitslist[iDigitInCluster] = j ;
+ iDigitInCluster++ ;
+ fDigitsUsed[j]=kTRUE ;
+ break ;
case 2 : // too far from each other
- goto endofloop;
- } // switch
-
- } // while digitN
-
- endofloop: ;
- nextdigit.Reset() ;
-
+ goto endofloop;
+ } // switch
+
+ }
+
+ endofloop: ; //scanned all possible neighbours for this digit
+
} // loop over cluster
-
} // energy theshold
-
-
- } // while digit
-
- delete digitsC ;
+ }
}
// Unfolds clusters using the shape of an ElectroMagnetic shower
// Performs unfolding of all EMC/CPV clusters
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
-
-
- const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
- TObjArray * emcRecPoints = gime->EmcRecPoints(BranchName()) ;
- TObjArray * cpvRecPoints = gime->CpvRecPoints(BranchName()) ;
- TClonesArray * digits = gime->Digits(fFrom) ;
-
// Unfold first EMC clusters
if(fNumberOfEmcClusters > 0){
- Int_t nModulesToUnfold = geom->GetNModules() ;
+ Int_t nModulesToUnfold = fGeom->GetNModules() ;
Int_t numberofNotUnfolded = fNumberOfEmcClusters ;
Int_t index ;
for(index = 0 ; index < numberofNotUnfolded ; index++){
- AliPHOSEmcRecPoint * emcRecPoint = (AliPHOSEmcRecPoint *) emcRecPoints->At(index) ;
+ AliPHOSEmcRecPoint * emcRecPoint = dynamic_cast<AliPHOSEmcRecPoint *>( fEMCRecPoints->At(index) ) ;
if(emcRecPoint->GetPHOSMod()> nModulesToUnfold)
- break ;
+ break ;
Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
AliPHOSDigit ** maxAt = new AliPHOSDigit*[nMultipl] ;
Float_t * maxAtEnergy = new Float_t[nMultipl] ;
- Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fEmcLocMaxCut,digits) ;
+ Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fEmcLocMaxCut,fDigitsArr) ;
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-- ;
- fNumberOfEmcClusters -- ;
- numberofNotUnfolded-- ;
+ UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
+
+ fEMCRecPoints->Remove(emcRecPoint);
+ fEMCRecPoints->Compress() ;
+ index-- ;
+ fNumberOfEmcClusters -- ;
+ numberofNotUnfolded-- ;
+ }
+ else{
+ emcRecPoint->SetNExMax(1) ; //Only one local maximum
}
delete[] maxAt ;
// Unfold now CPV clusters
if(fNumberOfCpvClusters > 0){
- Int_t nModulesToUnfold = geom->GetNModules() ;
+ Int_t nModulesToUnfold = fGeom->GetNModules() ;
Int_t numberofCpvNotUnfolded = fNumberOfCpvClusters ;
Int_t index ;
for(index = 0 ; index < numberofCpvNotUnfolded ; index++){
- AliPHOSRecPoint * recPoint = (AliPHOSRecPoint *) cpvRecPoints->At(index) ;
+ AliPHOSRecPoint * recPoint = dynamic_cast<AliPHOSRecPoint *>( fCPVRecPoints->At(index) ) ;
if(recPoint->GetPHOSMod()> nModulesToUnfold)
- break ;
+ break ;
- AliPHOSEmcRecPoint * emcRecPoint = (AliPHOSEmcRecPoint*) recPoint ;
+ AliPHOSEmcRecPoint * emcRecPoint = dynamic_cast<AliPHOSEmcRecPoint*>(recPoint) ;
Int_t nMultipl = emcRecPoint->GetMultiplicity() ;
AliPHOSDigit ** maxAt = new AliPHOSDigit*[nMultipl] ;
Float_t * maxAtEnergy = new Float_t[nMultipl] ;
- Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fCpvLocMaxCut,digits) ;
+ Int_t nMax = emcRecPoint->GetNumberOfLocalMax(maxAt, maxAtEnergy,fCpvLocMaxCut,fDigitsArr) ;
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-- ;
- numberofCpvNotUnfolded-- ;
- fNumberOfCpvClusters-- ;
+ UnfoldCluster(emcRecPoint, nMax, maxAt, maxAtEnergy) ;
+ fCPVRecPoints->Remove(emcRecPoint);
+ fCPVRecPoints->Compress() ;
+ index-- ;
+ numberofCpvNotUnfolded-- ;
+ fNumberOfCpvClusters-- ;
}
delete[] maxAt ;
}
//____________________________________________________________________________
-Double_t AliPHOSClusterizerv1::ShowerShape(Double_t r)
+Double_t AliPHOSClusterizerv1::ShowerShape(Double_t x, Double_t z)
{
// Shape of the shower (see PHOS 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) ;
+ //for the moment we neglect dependence on the incident angle.
+
+ Double_t r2 = x*x + z*z ;
+ Double_t r4 = r2*r2 ;
+ Double_t r295 = TMath::Power(r2, 2.95/2.) ;
Double_t shape = TMath::Exp( -r4 * (1. / (2.32 + 0.26 * r4) + 0.0316 / (1 + 0.0652 * r295) ) ) ;
return shape ;
}
//____________________________________________________________________________
void AliPHOSClusterizerv1::UnfoldCluster(AliPHOSEmcRecPoint * iniEmc,
- Int_t nMax,
- AliPHOSDigit ** maxAt,
- Float_t * maxAtEnergy)
+ Int_t nMax,
+ AliPHOSDigit ** maxAt,
+ Float_t * maxAtEnergy)
{
// Performs the unfolding of a cluster with nMax overlapping showers
- AliPHOSGetter * gime = AliPHOSGetter::GetInstance() ;
-
- const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
- const TClonesArray * digits = gime->Digits(fFrom) ;
- TObjArray * emcRecPoints = gime->EmcRecPoints(BranchName()) ;
- TObjArray * cpvRecPoints = gime->CpvRecPoints(BranchName()) ;
-
Int_t nPar = 3 * nMax ;
Float_t * fitparameters = new Float_t[nPar] ;
Bool_t rv = FindFit(iniEmc, maxAt, maxAtEnergy, nPar, fitparameters) ;
+
if( !rv ) {
// Fit failed, return and remove cluster
+ iniEmc->SetNExMax(-1) ;
delete[] fitparameters ;
return ;
}
Int_t nDigits = iniEmc->GetMultiplicity() ;
Float_t * efit = new Float_t[nDigits] ;
- Float_t xDigit=0.,zDigit=0.,distance=0. ;
+ Float_t xDigit=0.,zDigit=0. ;
Float_t xpar=0.,zpar=0.,epar=0. ;
Int_t relid[4] ;
AliPHOSDigit * digit = 0 ;
Int_t * emcDigits = iniEmc->GetDigitsList() ;
+ TVector3 vIncid ;
+
Int_t iparam ;
Int_t iDigit ;
for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
- digit = (AliPHOSDigit*) digits->At(emcDigits[iDigit] ) ;
- geom->AbsToRelNumbering(digit->GetId(), relid) ;
- geom->RelPosInModule(relid, xDigit, zDigit) ;
+ digit = dynamic_cast<AliPHOSDigit*>( fDigitsArr->At(emcDigits[iDigit] ) ) ;
+ fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
+ fGeom->RelPosInModule(relid, xDigit, zDigit) ;
efit[iDigit] = 0;
iparam = 0 ;
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) ;
+// fGeom->GetIncidentVector(fVtx,relid[0],xpar,zpar,vIncid) ;
+// efit[iDigit] += epar * ShowerShape(xDigit - xpar,zDigit - zpar,vIncid) ;
+ efit[iDigit] += epar * ShowerShape(xDigit - xpar,zDigit - zpar) ;
}
}
-
// 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
zpar = fitparameters[iparam+1] ;
epar = fitparameters[iparam+2] ;
iparam += 3 ;
-
+// fGeom->GetIncidentVector(fVtx,iniEmc->GetPHOSMod(),xpar,zpar,vIncid) ;
+
AliPHOSEmcRecPoint * emcRP = 0 ;
- if(iniEmc->IsEmc()){ //create new entries in fEmcRecPoints...
+ if(iniEmc->IsEmc()){ //create new entries in fEMCRecPoints...
- if(fNumberOfEmcClusters >= emcRecPoints->GetSize())
- emcRecPoints->Expand(2*fNumberOfEmcClusters) ;
+ if(fNumberOfEmcClusters >= fEMCRecPoints->GetSize())
+ fEMCRecPoints->Expand(2*fNumberOfEmcClusters) ;
- (*emcRecPoints)[fNumberOfEmcClusters] = new AliPHOSEmcRecPoint("") ;
- emcRP = (AliPHOSEmcRecPoint *) emcRecPoints->At(fNumberOfEmcClusters);
+ (*fEMCRecPoints)[fNumberOfEmcClusters] = new AliPHOSEmcRecPoint("") ;
+ emcRP = dynamic_cast<AliPHOSEmcRecPoint *>( fEMCRecPoints->At(fNumberOfEmcClusters) ) ;
fNumberOfEmcClusters++ ;
+ emcRP->SetNExMax((Int_t)nPar/3) ;
}
- else{//create new entries in fCpvRecPoints
- if(fNumberOfCpvClusters >= cpvRecPoints->GetSize())
- cpvRecPoints->Expand(2*fNumberOfCpvClusters) ;
+ else{//create new entries in fCPVRecPoints
+ if(fNumberOfCpvClusters >= fCPVRecPoints->GetSize())
+ fCPVRecPoints->Expand(2*fNumberOfCpvClusters) ;
- (*cpvRecPoints)[fNumberOfCpvClusters] = new AliPHOSCpvRecPoint("") ;
- emcRP = (AliPHOSEmcRecPoint *) cpvRecPoints->At(fNumberOfCpvClusters);
+ (*fCPVRecPoints)[fNumberOfCpvClusters] = new AliPHOSCpvRecPoint("") ;
+ emcRP = dynamic_cast<AliPHOSEmcRecPoint *>( fCPVRecPoints->At(fNumberOfCpvClusters) ) ;
fNumberOfCpvClusters++ ;
}
Float_t eDigit ;
for(iDigit = 0 ; iDigit < nDigits ; iDigit ++){
- digit = (AliPHOSDigit*) 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] ;
+ digit = dynamic_cast<AliPHOSDigit*>( fDigitsArr->At( emcDigits[iDigit] ) ) ;
+ fGeom->AbsToRelNumbering(digit->GetId(), relid) ;
+ fGeom->RelPosInModule(relid, xDigit, zDigit) ;
+// ratio = epar * ShowerShape(xDigit - xpar,zDigit - zpar,vIncid) / efit[iDigit] ;
+ ratio = epar * ShowerShape(xDigit - xpar,zDigit - zpar) / efit[iDigit] ;
eDigit = emcEnergies[iDigit] * ratio ;
emcRP->AddDigit( *digit, eDigit ) ;
- }
+ }
}
delete[] fitparameters ;
// Calculates the Chi square for the cluster unfolding minimization
// Number of parameters, Gradient, Chi squared, parameters, what to do
- TList * toMinuit = (TList*) gMinuit->GetObjectFit() ;
-
- AliPHOSEmcRecPoint * emcRP = (AliPHOSEmcRecPoint*) toMinuit->At(0) ;
- TClonesArray * digits = (TClonesArray*)toMinuit->At(1) ;
+ TList * toMinuit = dynamic_cast<TList*>( gMinuit->GetObjectFit() ) ;
+ AliPHOSEmcRecPoint * emcRP = dynamic_cast<AliPHOSEmcRecPoint*>( toMinuit->At(0) ) ;
+ TClonesArray * digits = dynamic_cast<TClonesArray*>( toMinuit->At(1) ) ;
+ // A bit buggy way to get an access to the geometry
+ // To be revised!
+ AliPHOSGeometry *geom = dynamic_cast<AliPHOSGeometry *>(toMinuit->At(2));
+// TVector3 * vtx = dynamic_cast<TVector3*>(toMinuit->At(3)) ; //Vertex position
- // AliPHOSEmcRecPoint * emcRP = (AliPHOSEmcRecPoint *) gMinuit->GetObjectFit() ; // EmcRecPoint to fit
+ // AliPHOSEmcRecPoint * emcRP = dynamic_cast<AliPHOSEmcRecPoint *>( gMinuit->GetObjectFit() ) ; // EmcRecPoint to fit
Int_t * emcDigits = emcRP->GetDigitsList() ;
Int_t nOdigits = emcRP->GetDigitsMultiplicity() ;
Float_t * emcEnergies = emcRP->GetEnergiesList() ;
-
- const AliPHOSGeometry * geom = AliPHOSGetter::GetInstance()->PHOSGeometry() ;
+
+// TVector3 vInc ;
fret = 0. ;
Int_t iparam ;
for( iDigit = 0 ; iDigit < nOdigits ; iDigit++) {
- digit = (AliPHOSDigit*) digits->At( emcDigits[iDigit] ) ;
+ digit = dynamic_cast<AliPHOSDigit*>( digits->At( emcDigits[iDigit] ) );
Int_t relid[4] ;
Float_t xDigit ;
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 dx = (xDigit - x[iParam]) ;
+ iParam++ ;
+ Double_t dz = (zDigit - x[iParam]) ;
+ iParam++ ;
+// fGeom->GetIncidentVector(*vtx,emcRP->GetPHOSMod(),x[iParam-2],x[iParam-1],vInc) ;
+// efit += x[iParam] * ShowerShape(dx,dz,vInc) ;
+ efit += x[iParam] * ShowerShape(dx,dz) ;
+ 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++ ;
+ Double_t xpar = x[iParam] ;
+ Double_t zpar = x[iParam+1] ;
+ Double_t epar = x[iParam+2] ;
+// fGeom->GetIncidentVector(*vtx,emcRP->GetPHOSMod(),xpar,zpar,vInc) ;
+ Double_t dr = TMath::Sqrt( (xDigit - xpar) * (xDigit - xpar) + (zDigit - zpar) * (zDigit - zpar) );
+// Double_t shape = sum * ShowerShape(xDigit - xpar,zDigit - zpar,vInc) ;
+ Double_t shape = sum * ShowerShape(xDigit - xpar,zDigit - zpar) ;
+//DP: No incident angle dependence in gradient yet!!!!!!
+ 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;
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) ;
+// fGeom->GetIncidentVector(*vtx,emcRP->GetPHOSMod(),xpar,zpar,vInc) ;
+// efit += epar * ShowerShape(xDigit - xpar,zDigit - zpar,vInc) ;
+ efit += epar * ShowerShape(xDigit - xpar,zDigit - zpar) ;
}
fret += (efit-emcEnergies[iDigit])*(efit-emcEnergies[iDigit])/emcEnergies[iDigit] ;
}
//____________________________________________________________________________
-void AliPHOSClusterizerv1::Print(Option_t * option)const
+void AliPHOSClusterizerv1::Print(const Option_t *)const
{
// Print clusterizer parameters
- if( strcmp(GetName(), "") !=0 ){
-
+ TString message ;
+ TString taskName(GetName()) ;
+ taskName.ReplaceAll(Version(), "") ;
+
+ if( strcmp(GetName(), "") !=0 ) {
// Print parameters
-
- TString taskName(GetName()) ;
- taskName.ReplaceAll(Version(), "") ;
-
- cout << "---------------"<< taskName.Data() << " " << GetTitle()<< "-----------" << endl
- << "Clusterizing digits from the file: " << fHeaderFileName.Data() << endl
- << " Branch: " << fDigitsBranchTitle.Data() << endl
- << endl
- << " EMC Clustering threshold = " << fEmcClusteringThreshold << endl
- << " EMC Local Maximum cut = " << fEmcLocMaxCut << endl
- << " EMC Logarothmic weight = " << fW0 << endl
- << endl
- << " CPV Clustering threshold = " << fCpvClusteringThreshold << endl
- << " CPV Local Maximum cut = " << fCpvLocMaxCut << endl
- << " CPV Logarothmic weight = " << fW0CPV << endl
- << endl ;
+ message = "\n--------------- %s %s -----------\n" ;
+ message += "Clusterizing digits from the file: %s\n" ;
+ message += " Branch: %s\n" ;
+ message += " EMC Clustering threshold = %f\n" ;
+ message += " EMC Local Maximum cut = %f\n" ;
+ message += " EMC Logarothmic weight = %f\n" ;
+ message += " CPV Clustering threshold = %f\n" ;
+ message += " CPV Local Maximum cut = %f\n" ;
+ message += " CPV Logarothmic weight = %f\n" ;
if(fToUnfold)
- cout << " Unfolding on " << endl ;
+ message += " Unfolding on\n" ;
else
- cout << " Unfolding off " << endl ;
+ message += " Unfolding off\n" ;
- cout << "------------------------------------------------------------------" <<endl ;
+ message += "------------------------------------------------------------------" ;
}
- else
- cout << " AliPHOSClusterizerv1 not initialized " << endl ;
+ else
+ message = " AliPHOSClusterizerv1 not initialized " ;
+
+ AliInfo(Form("%s, %s %s %s %s %s %s %s %s %s %s", message.Data(),
+ taskName.Data(),
+ GetTitle(),
+ taskName.Data(),
+ GetName(),
+ fEmcClusteringThreshold,
+ fEmcLocMaxCut,
+ fW0,
+ fCpvClusteringThreshold,
+ fCpvLocMaxCut,
+ fW0CPV )) ;
}
//____________________________________________________________________________
void AliPHOSClusterizerv1::PrintRecPoints(Option_t * option)
{
// Prints list of RecPoints produced at the current pass of AliPHOSClusterizer
- TObjArray * emcRecPoints = AliPHOSGetter::GetInstance()->EmcRecPoints(BranchName()) ;
- TObjArray * cpvRecPoints = AliPHOSGetter::GetInstance()->CpvRecPoints(BranchName()) ;
-
- cout << "AliPHOSClusterizerv1: : event "<<gAlice->GetEvNumber() << endl ;
- cout << " Found "<< emcRecPoints->GetEntriesFast() << " EMC Rec Points and "
- << cpvRecPoints->GetEntriesFast() << " CPV RecPoints" << endl ;
-
- fRecPointsInRun += emcRecPoints->GetEntriesFast() ;
- fRecPointsInRun += cpvRecPoints->GetEntriesFast() ;
-
+ AliInfo(Form("\nFound %d EMC RecPoints and %d CPV RecPoints",
+ fEMCRecPoints->GetEntriesFast(),
+ fCPVRecPoints->GetEntriesFast() )) ;
+
if(strstr(option,"all")) {
- cout << "EMC clusters " << endl ;
- cout << " Index Ene(MeV) Multi Module X Y Z Lambda 1 Lambda 2 # of prim Primaries list " << endl;
-
+ printf("\n EMC clusters \n") ;
+ printf("Index Ene(MeV) Multi Module X Y Z Lambdas_1 Lambda_2 # of prim Primaries list\n") ;
Int_t index ;
- for (index = 0 ; index < emcRecPoints->GetEntries() ; index++) {
- AliPHOSEmcRecPoint * rp = (AliPHOSEmcRecPoint * )emcRecPoints->At(index) ;
+ for (index = 0 ; index < fEMCRecPoints->GetEntries() ; index++) {
+ AliPHOSEmcRecPoint * rp = (AliPHOSEmcRecPoint * )fEMCRecPoints->At(index) ;
TVector3 locpos;
rp->GetLocalPosition(locpos);
Float_t lambda[2];
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->GetPHOSMod() << " "
- << setw(6) << setprecision(2) << locpos.X() << " "
- << setw(6) << setprecision(2) << locpos.Y() << " "
- << setw(6) << setprecision(2) << locpos.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 ;
+ printf("\n%6d %8.2f %3d %2d %4.1f %4.1f %4.1f %4f %4f %2d : ",
+ rp->GetIndexInList(), rp->GetEnergy(), rp->GetMultiplicity(), rp->GetPHOSMod(),
+ locpos.X(), locpos.Y(), locpos.Z(), lambda[0], lambda[1], nprimaries) ;
+
+ for (Int_t iprimary=0; iprimary<nprimaries; iprimary++) {
+ printf("%d ", primaries[iprimary] ) ;
+ }
+ printf("\n") ;
}
//Now plot CPV recPoints
- cout << "EMC clusters " << endl ;
- cout << " Index "
- << " Multi "
- << " Module "
- << " X "
- << " Y "
- << " Z "
- << " # of prim "
- << " Primaries list " << endl;
-
- for (index = 0 ; index < cpvRecPoints->GetEntries() ; index++) {
- AliPHOSRecPoint * rp = (AliPHOSRecPoint * )cpvRecPoints->At(index) ;
- cout << setw(6) << rp->GetIndexInList() << " ";
- cout << setw(6) << rp->GetPHOSMod() << " CPV ";
+ printf("\n CPV clusters \n") ;
+ printf("Index Ene(MeV) Module X Y Z \n") ;
+ for (index = 0 ; index < fCPVRecPoints->GetEntries() ; index++) {
+ AliPHOSCpvRecPoint * rp = (AliPHOSCpvRecPoint * )fCPVRecPoints->At(index) ;
TVector3 locpos;
rp->GetLocalPosition(locpos);
- cout << setw(6) << locpos.X() << " ";
- cout << setw(6) << locpos.Y() << " ";
- cout << setw(6) << locpos.Z() << " ";
- Int_t * primaries;
- Int_t nprimaries ;
- primaries = rp->GetPrimaries(nprimaries);
- cout << setw(6) << nprimaries << " ";
-
- for (Int_t iprimary=0; iprimary<nprimaries; iprimary++)
- cout << setw(4) << primaries[iprimary] << " ";
- cout << endl;
+ printf("\n%6d %8.2f %2d %4.1f %4.1f %4.1f \n",
+ rp->GetIndexInList(), rp->GetEnergy(), rp->GetPHOSMod(),
+ locpos.X(), locpos.Y(), locpos.Z()) ;
}
+ }
+}
+
+
+//____________________________________________________________________________
+void AliPHOSClusterizerv1::SetDistancesToBadChannels()
+{
+ //For each EMC rec. point set the distance to the nearest bad crystal.
+ //Author: Boris Polichtchouk
+ if(!fgCalibData->GetNumOfEmcBadChannels()) return;
+ AliInfo(Form("%d bad channel(s) found.\n",fgCalibData->GetNumOfEmcBadChannels()));
- cout << "-----------------------------------------------------------------------"<<endl ;
+ Int_t badIds[8000];
+ fgCalibData->EmcBadChannelIds(badIds);
+
+ AliPHOSEmcRecPoint* rp;
+
+ TMatrixF gmat;
+ TVector3 gposRecPoint; // global (in ALICE frame) position of rec. point
+ TVector3 gposBadChannel; // global position of bad crystal
+ TVector3 dR;
+
+ Float_t dist,minDist;
+
+ for(Int_t iRP=0; iRP<fEMCRecPoints->GetEntries(); iRP++){
+ rp = (AliPHOSEmcRecPoint*)fEMCRecPoints->At(iRP);
+ minDist = 1.e+07;
+
+ for(Int_t iBad=0; iBad<fgCalibData->GetNumOfEmcBadChannels(); iBad++) {
+ rp->GetGlobalPosition(gposRecPoint,gmat);
+ fGeom->RelPosInAlice(badIds[iBad],gposBadChannel);
+ AliDebug(2,Form("BC position:[%.3f,%.3f,%.3f], RP position:[%.3f,%.3f,%.3f]. E=%.3f\n",
+ gposBadChannel.X(),gposBadChannel.Y(),gposBadChannel.Z(),
+ gposRecPoint.X(),gposRecPoint.Y(),gposRecPoint.Z(),rp->GetEnergy()));
+ dR = gposBadChannel-gposRecPoint;
+ dist = dR.Mag();
+ if(dist<minDist) minDist = dist;
+ }
+
+ rp->SetDistanceToBadCrystal(minDist);
}
-}
+}