#include <iostream>
#include "AliAnalysisManager.h"
+#include "AliHeader.h"
#include "AliVEvent.h"
#include "AliESD.h"
#include "AliESDEvent.h"
#include "AliESDZDC.h"
#include "AliESDFMD.h"
#include "AliESDVZERO.h"
-#include "AliCentrality.h"
#include "AliESDtrackCuts.h"
+#include "AliESDVertex.h"
+#include "AliCentrality.h"
+#include "AliOADBCentrality.h"
+#include "AliOADBContainer.h"
#include "AliMultiplicity.h"
#include "AliAODHandler.h"
+#include "AliAODHeader.h"
#include "AliAODEvent.h"
-#include "AliESDVertex.h"
#include "AliAODVertex.h"
+#include "AliAODVZERO.h"
+#include "AliAODTracklets.h"
#include "AliAODMCHeader.h"
-#include "AliMCEvent.h"
#include "AliMCEventHandler.h"
+#include "AliMCEvent.h"
+#include "AliAODMCParticle.h"
#include "AliMCParticle.h"
#include "AliStack.h"
-#include "AliHeader.h"
-#include "AliAODMCParticle.h"
#include "AliAnalysisTaskSE.h"
#include "AliGenEventHeader.h"
#include "AliGenHijingEventHeader.h"
//________________________________________________________________________
AliCentralitySelectionTask::AliCentralitySelectionTask():
AliAnalysisTaskSE(),
- fDebug(0),
fAnalysisInput("ESD"),
fIsMCInput(kFALSE),
- fFile(0),
- fFile2(0),
+ fPass(0),
fCurrentRun(-1),
- fRunNo(-1),
- fLowRunN(0),
- fHighRunN(0),
fUseScaling(0),
+ fUseCleaning(0),
+ fV0MScaleFactor(0),
+ fSPDScaleFactor(0),
+ fTPCScaleFactor(0),
+ fV0MScaleFactorMC(0),
+ fV0MSPDOutlierPar0(0),
+ fV0MSPDOutlierPar1(0),
+ fV0MTPCOutlierPar0(0),
+ fV0MTPCOutlierPar1(0),
+ fV0MSPDSigmaOutlierPar0(0),
+ fV0MSPDSigmaOutlierPar1(0),
+ fV0MSPDSigmaOutlierPar2(0),
+ fV0MTPCSigmaOutlierPar0(0),
+ fV0MTPCSigmaOutlierPar1(0),
+ fV0MTPCSigmaOutlierPar2(0),
+ fV0MZDCOutlierPar0(0),
+ fV0MZDCOutlierPar1(0),
+ fV0MZDCEcalOutlierPar0(0),
+ fV0MZDCEcalOutlierPar1(0),
fTrackCuts(0),
fZVCut(10),
fOutliersCut(5),
- fQuality(0),
+ fQuality(999),
fCentV0M(0),
fCentFMD(0),
fCentTRK(0),
fHOutCentV0MvsFMD(0),
fHOutCentTKLvsV0M(0),
fHOutCentZEMvsZDC(0),
+ fHOutCentV0MvsCentCL1(0),
+ fHOutCentV0MvsCentTRK(0),
+ fHOutCentTRKvsCentCL1(0),
+ fHOutCentV0MvsCentZDC(0),
fHOutMultV0M(0),
- fHOutMultV0R(0),
+ fHOutMultV0O(0),
fHOutMultFMD(0),
fHOutMultTRK(0),
fHOutMultTKL(0),
fHOutMultCL0(0),
fHOutMultCL1(0),
+ fHOutMultV0MvsZDN(0),
+ fHOutMultZEMvsZDN(0),
fHOutMultV0MvsZDC(0),
fHOutMultZEMvsZDC(0),
+ fHOutMultZEMvsZDCw(0),
fHOutMultV0MvsCL1(0),
fHOutMultV0MvsTRK(0),
fHOutMultTRKvsCL1(0),
- fHOutCentV0M_qual1(0),
- fHOutCentTRK_qual1(0),
- fHOutCentCL1_qual1(0),
- fHOutCentV0M_qual2(0),
- fHOutCentTRK_qual2(0),
- fHOutCentCL1_qual2(0),
+ fHOutMultV0MvsV0O(0),
+ fHOutMultV0OvsCL1(0),
+ fHOutMultV0OvsTRK(0),
+ fHOutCentV0Mqual1(0),
+ fHOutCentTRKqual1(0),
+ fHOutCentCL1qual1(0),
+ fHOutMultV0MvsCL1qual1(0),
+ fHOutMultV0MvsTRKqual1(0),
+ fHOutMultTRKvsCL1qual1(0),
+ fHOutCentV0Mqual2(0),
+ fHOutCentTRKqual2(0),
+ fHOutCentCL1qual2(0),
+ fHOutMultV0MvsCL1qual2(0),
+ fHOutMultV0MvsTRKqual2(0),
+ fHOutMultTRKvsCL1qual2(0),
fHOutQuality(0),
fHOutVertex(0)
{
// Default constructor
AliInfo("Centrality Selection enabled.");
- fLowRunN =136851;
- fHighRunN=139517;
-
- for (Int_t i=0; i<(fHighRunN-fLowRunN); i++) {
- V0MScaleFactor[i]=0.0;
- SPDScaleFactor[i]=0.0;
- TPCScaleFactor[i]=0.0;
- V0MScaleFactorMC[i]=0.0;
- }
+
fUseScaling=kTRUE;
+ fUseCleaning=kTRUE;
+ fBranchNames="ESD:AliESDRun.,AliESDHeader.,AliESDZDC.,AliESDFMD.,AliESDVZERO."
+ ",SPDVertex.,TPCVertex.,PrimaryVertex.,AliMultiplicity.,Tracks ";
}
//________________________________________________________________________
AliCentralitySelectionTask::AliCentralitySelectionTask(const char *name):
AliAnalysisTaskSE(name),
- fDebug(0),
fAnalysisInput("ESD"),
fIsMCInput(kFALSE),
- fFile(0),
- fFile2(0),
+ fPass(0),
fCurrentRun(-1),
- fRunNo(-1),
- fLowRunN(0),
- fHighRunN(0),
fUseScaling(0),
+ fUseCleaning(0),
+ fV0MScaleFactor(0),
+ fSPDScaleFactor(0),
+ fTPCScaleFactor(0),
+ fV0MScaleFactorMC(0),
+ fV0MSPDOutlierPar0(0),
+ fV0MSPDOutlierPar1(0),
+ fV0MTPCOutlierPar0(0),
+ fV0MTPCOutlierPar1(0),
+ fV0MSPDSigmaOutlierPar0(0),
+ fV0MSPDSigmaOutlierPar1(0),
+ fV0MSPDSigmaOutlierPar2(0),
+ fV0MTPCSigmaOutlierPar0(0),
+ fV0MTPCSigmaOutlierPar1(0),
+ fV0MTPCSigmaOutlierPar2(0),
+ fV0MZDCOutlierPar0(0),
+ fV0MZDCOutlierPar1(0),
+ fV0MZDCEcalOutlierPar0(0),
+ fV0MZDCEcalOutlierPar1(0),
fTrackCuts(0),
fZVCut(10),
fOutliersCut(5),
- fQuality(0),
+ fQuality(999),
fCentV0M(0),
fCentFMD(0),
fCentTRK(0),
fHOutCentV0MvsFMD(0),
fHOutCentTKLvsV0M(0),
fHOutCentZEMvsZDC(0),
+ fHOutCentV0MvsCentCL1(0),
+ fHOutCentV0MvsCentTRK(0),
+ fHOutCentTRKvsCentCL1(0),
+ fHOutCentV0MvsCentZDC(0),
fHOutMultV0M(0),
- fHOutMultV0R(0),
+ fHOutMultV0O(0),
fHOutMultFMD(0),
fHOutMultTRK(0),
fHOutMultTKL(0),
fHOutMultCL0(0),
fHOutMultCL1(0),
+ fHOutMultV0MvsZDN(0),
+ fHOutMultZEMvsZDN(0),
fHOutMultV0MvsZDC(0),
fHOutMultZEMvsZDC(0),
+ fHOutMultZEMvsZDCw(0),
fHOutMultV0MvsCL1(0),
fHOutMultV0MvsTRK(0),
fHOutMultTRKvsCL1(0),
- fHOutCentV0M_qual1(0),
- fHOutCentTRK_qual1(0),
- fHOutCentCL1_qual1(0),
- fHOutCentV0M_qual2(0),
- fHOutCentTRK_qual2(0),
- fHOutCentCL1_qual2(0),
+ fHOutMultV0MvsV0O(0),
+ fHOutMultV0OvsCL1(0),
+ fHOutMultV0OvsTRK(0),
+ fHOutCentV0Mqual1(0),
+ fHOutCentTRKqual1(0),
+ fHOutCentCL1qual1(0),
+ fHOutMultV0MvsCL1qual1(0),
+ fHOutMultV0MvsTRKqual1(0),
+ fHOutMultTRKvsCL1qual1(0),
+ fHOutCentV0Mqual2(0),
+ fHOutCentTRKqual2(0),
+ fHOutCentCL1qual2(0),
+ fHOutMultV0MvsCL1qual2(0),
+ fHOutMultV0MvsTRKqual2(0),
+ fHOutMultTRKvsCL1qual2(0),
fHOutQuality(0),
fHOutVertex(0)
{
- // Default constructor
- fLowRunN =136851;
- fHighRunN=139517;
-
+ // Default constructor
AliInfo("Centrality Selection enabled.");
DefineOutput(1, TList::Class());
- for (Int_t i=0; i<(fHighRunN-fLowRunN); i++) {
- V0MScaleFactor[i]=0.0;
- SPDScaleFactor[i]=0.0;
- TPCScaleFactor[i]=0.0;
- V0MScaleFactorMC[i]=0.0;
- }
fUseScaling=kTRUE;
+ fUseCleaning=kTRUE;
+ fBranchNames="ESD:AliESDRun.,AliESDHeader.,AliESDZDC.,AliESDFMD.,AliESDVZERO."
+ ",SPDVertex.,TPCVertex.,PrimaryVertex.,AliMultiplicity.,Tracks ";
}
//________________________________________________________________________
//________________________________________________________________________
AliCentralitySelectionTask::AliCentralitySelectionTask(const AliCentralitySelectionTask& ana):
AliAnalysisTaskSE(ana),
- fDebug(ana.fDebug),
fAnalysisInput(ana.fDebug),
fIsMCInput(ana.fIsMCInput),
- fFile(ana.fFile),
- fFile2(ana.fFile2),
+ fPass(ana.fPass),
fCurrentRun(ana.fCurrentRun),
- fRunNo(ana.fRunNo),
- fLowRunN(ana.fLowRunN),
- fHighRunN(ana.fHighRunN),
fUseScaling(ana.fUseScaling),
+ fUseCleaning(ana.fUseCleaning),
+ fV0MScaleFactor(ana.fV0MScaleFactor),
+ fSPDScaleFactor(ana.fSPDScaleFactor),
+ fTPCScaleFactor(ana.fTPCScaleFactor),
+ fV0MScaleFactorMC(ana.fV0MScaleFactorMC),
+ fV0MSPDOutlierPar0(ana.fV0MSPDOutlierPar0),
+ fV0MSPDOutlierPar1(ana.fV0MSPDOutlierPar1),
+ fV0MTPCOutlierPar0(ana.fV0MTPCOutlierPar0),
+ fV0MTPCOutlierPar1(ana.fV0MTPCOutlierPar1),
+ fV0MSPDSigmaOutlierPar0(ana.fV0MSPDSigmaOutlierPar0),
+ fV0MSPDSigmaOutlierPar1(ana.fV0MSPDSigmaOutlierPar1),
+ fV0MSPDSigmaOutlierPar2(ana.fV0MSPDSigmaOutlierPar2),
+ fV0MTPCSigmaOutlierPar0(ana.fV0MTPCSigmaOutlierPar0),
+ fV0MTPCSigmaOutlierPar1(ana.fV0MTPCSigmaOutlierPar1),
+ fV0MTPCSigmaOutlierPar2(ana.fV0MTPCSigmaOutlierPar2),
+ fV0MZDCOutlierPar0(ana.fV0MZDCOutlierPar0),
+ fV0MZDCOutlierPar1(ana.fV0MZDCOutlierPar1),
+ fV0MZDCEcalOutlierPar0(ana.fV0MZDCEcalOutlierPar0),
+ fV0MZDCEcalOutlierPar1(ana.fV0MZDCEcalOutlierPar1),
fTrackCuts(ana.fTrackCuts),
fZVCut(ana.fZVCut),
fOutliersCut(ana.fOutliersCut),
fHOutCentV0MvsFMD(ana.fHOutCentV0MvsFMD),
fHOutCentTKLvsV0M(ana.fHOutCentTKLvsV0M),
fHOutCentZEMvsZDC(ana.fHOutCentZEMvsZDC),
+ fHOutCentV0MvsCentCL1(ana.fHOutCentV0MvsCentCL1),
+ fHOutCentV0MvsCentTRK(ana.fHOutCentV0MvsCentTRK),
+ fHOutCentTRKvsCentCL1(ana.fHOutCentTRKvsCentCL1),
+ fHOutCentV0MvsCentZDC(ana.fHOutCentV0MvsCentZDC),
fHOutMultV0M(ana.fHOutMultV0M),
- fHOutMultV0R(ana.fHOutMultV0R),
+ fHOutMultV0O(ana.fHOutMultV0O),
fHOutMultFMD(ana.fHOutMultFMD),
fHOutMultTRK(ana.fHOutMultTRK),
fHOutMultTKL(ana.fHOutMultTKL),
fHOutMultCL0(ana.fHOutMultCL0),
fHOutMultCL1(ana.fHOutMultCL1),
+ fHOutMultV0MvsZDN(ana.fHOutMultV0MvsZDN),
+ fHOutMultZEMvsZDN(ana.fHOutMultZEMvsZDN),
fHOutMultV0MvsZDC(ana.fHOutMultV0MvsZDC),
fHOutMultZEMvsZDC(ana.fHOutMultZEMvsZDC),
+ fHOutMultZEMvsZDCw(ana.fHOutMultZEMvsZDCw),
fHOutMultV0MvsCL1(ana.fHOutMultV0MvsCL1),
fHOutMultV0MvsTRK(ana.fHOutMultV0MvsTRK),
fHOutMultTRKvsCL1(ana.fHOutMultTRKvsCL1),
- fHOutCentV0M_qual1(ana.fHOutCentV0M_qual1),
- fHOutCentTRK_qual1(ana.fHOutCentTRK_qual1),
- fHOutCentCL1_qual1(ana.fHOutCentCL1_qual1),
- fHOutCentV0M_qual2(ana.fHOutCentV0M_qual2),
- fHOutCentTRK_qual2(ana.fHOutCentTRK_qual2),
- fHOutCentCL1_qual2(ana.fHOutCentCL1_qual2),
+ fHOutMultV0MvsV0O(ana.fHOutMultV0MvsV0O),
+ fHOutMultV0OvsCL1(ana.fHOutMultV0OvsCL1),
+ fHOutMultV0OvsTRK(ana.fHOutMultV0OvsTRK),
+ fHOutCentV0Mqual1(ana.fHOutCentV0Mqual1),
+ fHOutCentTRKqual1(ana.fHOutCentTRKqual1),
+ fHOutCentCL1qual1(ana.fHOutCentCL1qual1),
+ fHOutMultV0MvsCL1qual1(ana.fHOutMultV0MvsCL1qual1),
+ fHOutMultV0MvsTRKqual1(ana.fHOutMultV0MvsTRKqual1),
+ fHOutMultTRKvsCL1qual1(ana.fHOutMultTRKvsCL1qual1),
+ fHOutCentV0Mqual2(ana.fHOutCentV0Mqual2),
+ fHOutCentTRKqual2(ana.fHOutCentTRKqual2),
+ fHOutCentCL1qual2(ana.fHOutCentCL1qual2),
+ fHOutMultV0MvsCL1qual2(ana.fHOutMultV0MvsCL1qual2),
+ fHOutMultV0MvsTRKqual2(ana.fHOutMultV0MvsTRKqual2),
+ fHOutMultTRKvsCL1qual2(ana.fHOutMultTRKvsCL1qual2),
fHOutQuality(ana.fHOutQuality),
fHOutVertex(ana.fHOutVertex)
{
// Copy Constructor
+
}
-
+
//________________________________________________________________________
AliCentralitySelectionTask::~AliCentralitySelectionTask()
{
fOutputList = new TList();
fOutputList->SetOwner();
- fHOutCentV0M = new TH1F("fHOutCentV0M","fHOutCentV0M; Centrality V0",501,0,101);
- fHOutCentFMD = new TH1F("fHOutCentFMD","fHOutCentFMD; Centrality FMD",501,0,101);
- fHOutCentTRK = new TH1F("fHOutCentTRK","fHOutCentTRK; Centrality TPC",501,0,101);
- fHOutCentTKL = new TH1F("fHOutCentTKL","fHOutCentTKL; Centrality tracklets",501,0,101);
- fHOutCentCL0 = new TH1F("fHOutCentCL0","fHOutCentCL0; Centrality SPD inner",501,0,101);
- fHOutCentCL1 = new TH1F("fHOutCentCL1","fHOutCentCL1; Centrality SPD outer",501,0,101);
- fHOutCentV0MvsFMD= new TH1F("fHOutCentV0MvsFMD","fHOutCentV0MvsFMD; Centrality V0 vs FMD",501,0,101);
- fHOutCentTKLvsV0M= new TH1F("fHOutCentTKLvsV0M","fHOutCentTKLvsV0M; Centrality tracklets vs V0",501,0,101);
- fHOutCentZEMvsZDC= new TH1F("fHOutCentZEMvsZDC","fHOutCentZEMvsZDC; Centrality ZEM vs ZDC",501,0,101);
-
- fHOutMultV0M = new TH1F("fHOutMultV0M","fHOutMultV0M; Multiplicity V0",25000,0,25000);
- fHOutMultV0R = new TH1F("fHOutMultV0R","fHOutMultV0R; Multiplicity V0",25000,0,25000);
+ fHOutCentV0M = new TH1F("fHOutCentV0M","fHOutCentV0M; Centrality V0",505,0,101);
+ fHOutCentFMD = new TH1F("fHOutCentFMD","fHOutCentFMD; Centrality FMD",505,0,101);
+ fHOutCentTRK = new TH1F("fHOutCentTRK","fHOutCentTRK; Centrality TPC",505,0,101);
+ fHOutCentTKL = new TH1F("fHOutCentTKL","fHOutCentTKL; Centrality tracklets",505,0,101);
+ fHOutCentCL0 = new TH1F("fHOutCentCL0","fHOutCentCL0; Centrality SPD inner",505,0,101);
+ fHOutCentCL1 = new TH1F("fHOutCentCL1","fHOutCentCL1; Centrality SPD outer",505,0,101);
+ fHOutCentV0MvsFMD= new TH1F("fHOutCentV0MvsFMD","fHOutCentV0MvsFMD; Centrality V0 vs FMD",505,0,101);
+ fHOutCentTKLvsV0M= new TH1F("fHOutCentTKLvsV0M","fHOutCentTKLvsV0M; Centrality tracklets vs V0",505,0,101);
+ fHOutCentZEMvsZDC= new TH1F("fHOutCentZEMvsZDC","fHOutCentZEMvsZDC; Centrality ZEM vs ZDC",505,0,101);
+ fHOutCentV0MvsCentCL1= new TH2F("fHOutCentV0MvsCentCL1","fHOutCentV0MvsCentCL1; Cent V0; Cent SPD",505,0,101,505,0,101);
+ fHOutCentV0MvsCentTRK= new TH2F("fHOutCentV0MvsCentTRK","fHOutCentV0MvsCentTRK; Cent V0; Cent TPC",505,0,101,505,0,101);
+ fHOutCentTRKvsCentCL1= new TH2F("fHOutCentTRKvsCentCL1","fHOutCentTRKvsCentCL1; Cent TPC; Cent SPD",505,0,101,505,0,101);
+ fHOutCentV0MvsCentZDC= new TH2F("fHOutCentV0MvsCentZDC","fHOutCentV0MvsCentZDC; Cent V0; Cent ZDC",505,0,101,505,0,101);
+ fHOutMultV0M = new TH1F("fHOutMultV0M","fHOutMultV0M; Multiplicity V0",25000,0,30000);
+ fHOutMultV0O = new TH1F("fHOutMultV0O","fHOutMultV0O; Multiplicity V0",40000,0,40000);
fHOutMultFMD = new TH1F("fHOutMultFMD","fHOutMultFMD; Multiplicity FMD",24000,0,24000);
fHOutMultTRK = new TH1F("fHOutMultTRK","fHOutMultTRK; Multiplicity TPC",4000,0,4000);
fHOutMultTKL = new TH1F("fHOutMultTKL","fHOutMultTKL; Multiplicity tracklets",5000,0,5000);
fHOutMultCL0 = new TH1F("fHOutMultCL0","fHOutMultCL0; Multiplicity SPD inner",7000,0,7000);
fHOutMultCL1 = new TH1F("fHOutMultCL1","fHOutMultCL1; Multiplicity SPD outer",7000,0,7000);
- fHOutMultV0MvsZDC = new TH2F("fHOutMultV0MvsZDC","fHOutMultV0MvsZDC; Multiplicity V0; Energy ZDC",500,0,25000,500,0,6000);
- fHOutMultZEMvsZDC = new TH2F("fHOutMultZEMvsZDC","fHOutMultZEMvsZDC; Energy ZEM; Energy ZDC",500,0,2500,500,0,6000);
- fHOutMultV0MvsCL1 = new TH2F("fHOutMultV0MvsCL1","fHOutMultV0MvsCL1; Multiplicity V0; Multiplicity SPD outer",2500,0,25000,700,0,7000);
- fHOutMultV0MvsTRK = new TH2F("fHOutMultV0MvsTRK","fHOutMultV0MvsTRK; Multiplicity V0; Multiplicity TPC",2500,0,25000,400,0,4000);
+ fHOutMultV0MvsZDN = new TH2F("fHOutMultV0MvsZDN","fHOutMultV0MvsZDN; Multiplicity V0; Energy ZDC-N",500,0,30000,500,0,180000);
+ fHOutMultZEMvsZDN = new TH2F("fHOutMultZEMvsZDN","fHOutMultZEMvsZDN; Energy ZEM; Energy ZDC-N",500,0,2500,500,0,180000);
+ fHOutMultV0MvsZDC = new TH2F("fHOutMultV0MvsZDC","fHOutMultV0MvsZDC; Multiplicity V0; Energy ZDC",500,0,30000,500,0,200000);
+ fHOutMultZEMvsZDC = new TH2F("fHOutMultZEMvsZDC","fHOutMultZEMvsZDC; Energy ZEM; Energy ZDC",500,0,2500,500,0,200000);
+ fHOutMultZEMvsZDCw = new TH2F("fHOutMultZEMvsZDCw","fHOutMultZEMvsZDCw; Energy ZEM; Energy ZDC (weigthed with V0 percentile)",500,0,2500,500,0,200000);
+ fHOutMultV0MvsCL1 = new TH2F("fHOutMultV0MvsCL1","fHOutMultV0MvsCL1; Multiplicity V0; Multiplicity SPD outer",2500,0,30000,700,0,7000);
+ fHOutMultV0MvsTRK = new TH2F("fHOutMultV0MvsTRK","fHOutMultV0MvsTRK; Multiplicity V0; Multiplicity TPC",2500,0,30000,400,0,4000);
fHOutMultTRKvsCL1 = new TH2F("fHOutMultTRKvsCL1","fHOutMultTRKvsCL1; Multiplicity TPC; Multiplicity SPD outer",400,0,4000,700,0,7000);
-
- fHOutCentV0M_qual1 = new TH1F("fHOutCentV0M_qual1","fHOutCentV0M_qual1; Centrality V0",501,0,100);
- fHOutCentTRK_qual1 = new TH1F("fHOutCentTRK_qual1","fHOutCentTRK_qual1; Centrality TPC",501,0,100);
- fHOutCentCL1_qual1 = new TH1F("fHOutCentCL1_qual1","fHOutCentCL1_qual1; Centrality SPD outer",501,0,100);
-
- fHOutCentV0M_qual2 = new TH1F("fHOutCentV0M_qual2","fHOutCentV0M_qual2; Centrality V0",101,-0.1,100.1);
- fHOutCentTRK_qual2 = new TH1F("fHOutCentTRK_qual2","fHOutCentTRK_qual2; Centrality TPC",101,-0.1,100.1);
- fHOutCentCL1_qual2 = new TH1F("fHOutCentCL1_qual2","fHOutCentCL1_qual2; Centrality SPD outer",101,-0.1,100.1);
-
- fHOutQuality = new TH1F("fHOutQuality", "fHOutQuality", 10,-0.5,9.5);
+ fHOutMultV0MvsV0O = new TH2F("fHOutMultV0MvsV0O","fHOutMultV0MvsV0O; Multiplicity V0; Multiplicity V0 Online",500,0,30000,500,0,40000);
+ fHOutMultV0OvsCL1 = new TH2F("fHOutMultV0OvsCL1","fHOutMultV0OvsCL1; Multiplicity V0; Multiplicity SPD outer",500,0,40000,700,0,7000);
+ fHOutMultV0OvsTRK = new TH2F("fHOutMultV0OvsTRK","fHOutMultV0OvsTRK; Multiplicity V0; Multiplicity TPC",500,0,40000,400,0,4000);
+ fHOutMultV0MvsV0O = new TH2F("fHOutMultV0MvsV0O","fHOutMultV0MvsV0O; Multiplicity V0; Multiplicity V0 Online",500,0,30000,500,0,30000);
+ fHOutMultV0OvsCL1 = new TH2F("fHOutMultV0OvsCL1","fHOutMultV0OvsCL1; Multiplicity V0; Multiplicity SPD outer",2500,0,30000,700,0,7000);
+ fHOutMultV0OvsTRK = new TH2F("fHOutMultV0OvsTRK","fHOutMultV0OvsTRK; Multiplicity V0; Multiplicity TPC",2500,0,30000,400,0,4000);
+
+ fHOutCentV0Mqual1 = new TH1F("fHOutCentV0M_qual1","fHOutCentV0M_qual1; Centrality V0",505,0,101);
+ fHOutCentTRKqual1 = new TH1F("fHOutCentTRK_qual1","fHOutCentTRK_qual1; Centrality TPC",505,0,101);
+ fHOutCentCL1qual1 = new TH1F("fHOutCentCL1_qual1","fHOutCentCL1_qual1; Centrality SPD outer",505,0,101);
+ fHOutMultV0MvsCL1qual1 = new TH2F("fHOutMultV0MvsCL1_qual1","fHOutMultV0MvsCL1_qual1; Multiplicity V0; Multiplicity SPD outer",2500,0,25000,700,0,7000);
+ fHOutMultV0MvsTRKqual1 = new TH2F("fHOutMultV0MvsTRK_qual1","fHOutMultV0MvsTRK_qual1; Multiplicity V0; Multiplicity TPC",2500,0,25000,400,0,4000);
+ fHOutMultTRKvsCL1qual1 = new TH2F("fHOutMultTRKvsCL1_qual1","fHOutMultTRKvsCL1_qual1; Multiplicity TPC; Multiplicity SPD outer",400,0,4000,700,0,7000);
+
+ fHOutCentV0Mqual2 = new TH1F("fHOutCentV0M_qual2","fHOutCentV0M_qual2; Centrality V0",505,0,101);
+ fHOutCentTRKqual2 = new TH1F("fHOutCentTRK_qual2","fHOutCentTRK_qual2; Centrality TPC",505,0,101);
+ fHOutCentCL1qual2 = new TH1F("fHOutCentCL1_qual2","fHOutCentCL1_qual2; Centrality SPD outer",505,0,101);
+ fHOutMultV0MvsCL1qual2 = new TH2F("fHOutMultV0MvsCL1_qual2","fHOutMultV0MvsCL1_qual2; Multiplicity V0; Multiplicity SPD outer",2500,0,25000,700,0,7000);
+ fHOutMultV0MvsTRKqual2 = new TH2F("fHOutMultV0MvsTRK_qual2","fHOutMultV0MvsTRK_qual2; Multiplicity V0; Multiplicity TPC",2500,0,25000,400,0,4000);
+ fHOutMultTRKvsCL1qual2 = new TH2F("fHOutMultTRKvsCL1_qual2","fHOutMultTRKvsCL1_qual2; Multiplicity TPC; Multiplicity SPD outer",400,0,4000,700,0,7000);
+
+ fHOutQuality = new TH1F("fHOutQuality", "fHOutQuality", 100,-0.5,99.5);
fHOutVertex = new TH1F("fHOutVertex", "fHOutVertex", 100,-20,20);
fOutputList->Add( fHOutCentV0M );
fOutputList->Add( fHOutCentV0MvsFMD);
fOutputList->Add( fHOutCentTKLvsV0M);
fOutputList->Add( fHOutCentZEMvsZDC);
+ fOutputList->Add( fHOutCentV0MvsCentCL1);
+ fOutputList->Add( fHOutCentV0MvsCentTRK);
+ fOutputList->Add( fHOutCentTRKvsCentCL1);
+ fOutputList->Add( fHOutCentV0MvsCentZDC);
fOutputList->Add( fHOutMultV0M);
- fOutputList->Add( fHOutMultV0R);
+ fOutputList->Add( fHOutMultV0O);
fOutputList->Add( fHOutMultFMD);
fOutputList->Add( fHOutMultTRK);
fOutputList->Add( fHOutMultTKL);
fOutputList->Add( fHOutMultCL0);
fOutputList->Add( fHOutMultCL1);
+ fOutputList->Add( fHOutMultV0MvsZDN);
+ fOutputList->Add( fHOutMultZEMvsZDN);
fOutputList->Add( fHOutMultV0MvsZDC);
fOutputList->Add( fHOutMultZEMvsZDC);
+ fOutputList->Add( fHOutMultZEMvsZDCw);
fOutputList->Add( fHOutMultV0MvsCL1);
fOutputList->Add( fHOutMultV0MvsTRK);
fOutputList->Add( fHOutMultTRKvsCL1);
- fOutputList->Add( fHOutCentV0M_qual1 );
- fOutputList->Add( fHOutCentTRK_qual1 );
- fOutputList->Add( fHOutCentCL1_qual1 );
- fOutputList->Add( fHOutCentV0M_qual2 );
- fOutputList->Add( fHOutCentTRK_qual2 );
- fOutputList->Add( fHOutCentCL1_qual2 );
+ fOutputList->Add( fHOutMultV0MvsV0O);
+ fOutputList->Add( fHOutMultV0OvsCL1);
+ fOutputList->Add( fHOutMultV0OvsTRK);
+ fOutputList->Add( fHOutCentV0Mqual1 );
+ fOutputList->Add( fHOutCentTRKqual1 );
+ fOutputList->Add( fHOutCentCL1qual1 );
+ fOutputList->Add( fHOutMultV0MvsCL1qual1);
+ fOutputList->Add( fHOutMultV0MvsTRKqual1);
+ fOutputList->Add( fHOutMultTRKvsCL1qual1);
+ fOutputList->Add( fHOutCentV0Mqual2 );
+ fOutputList->Add( fHOutCentTRKqual2 );
+ fOutputList->Add( fHOutCentCL1qual2 );
+ fOutputList->Add( fHOutMultV0MvsCL1qual2);
+ fOutputList->Add( fHOutMultV0MvsTRKqual2);
+ fOutputList->Add( fHOutMultTRKvsCL1qual2);
fOutputList->Add( fHOutQuality );
fOutputList->Add( fHOutVertex );
PostData(1, fOutputList);
- MyInitScaleFactor();
- if (fIsMCInput) MyInitScaleFactorMC();
+ if (fPass==0) AliFatal("Which pass are you analyzing? You should set it via taskCentrality->SetPass(N)");
}
//________________________________________________________________________
{
// Execute analysis for current event:
if(fDebug>1) printf(" **** AliCentralitySelectionTask::UserExec() \n");
-
+
Float_t zncEnergy = 0.; // ZNC Energy
Float_t zpcEnergy = 0.; // ZPC Energy
Float_t znaEnergy = 0.; // ZNA Energy
Float_t zpaEnergy = 0.; // ZPA Energy
Float_t zem1Energy = 0.; // ZEM1 Energy
Float_t zem2Energy = 0.; // ZEM2 Energy
-
+ Bool_t zdcEnergyCal = kFALSE; // if zdc is calibrated (in pass2)
+
Int_t nTracks = 0; // no. tracks
Int_t nTracklets = 0; // no. tracklets
Int_t nClusters[6] = {0}; // no. clusters on 6 ITS layers
Float_t multV0A = 0; // multiplicity from V0 reco side A
Float_t multV0C = 0; // multiplicity from V0 reco side C
+ Short_t multV0AOnline = 0; // multiplicity from V0 reco side A
+ Short_t multV0COnline = 0; // multiplicity from V0 reco side C
+ Float_t v0Corr = 0; // corrected V0 multiplicity (used for MC)
+
Float_t multFMDA = 0; // multiplicity from FMD on detector A
Float_t multFMDC = 0; // multiplicity from FMD on detector C
- Short_t v0Corr = 0; // corrected V0 multiplicity
- Short_t v0CorrResc = 0; // corrected and rescaled V0 multiplicity
-
Float_t zvtx =0; // z-vertex SPD
-
+ Int_t zvtxNcont =0; // contributors to z-vertex SPD
+
+
AliCentrality *esdCent = 0;
if(fAnalysisInput.CompareTo("ESD")==0){
-
+
AliVEvent* event = InputEvent();
AliESDEvent* esd = dynamic_cast<AliESDEvent*>(event);
if (!esd) {
- AliError("No ESD Event");
- return;
+ AliError("No ESD Event");
+ return;
}
+
+ LoadBranches();
- if (fRunNo<=0) {
- if (SetupRun(esd)<0)
- AliFatal("Centrality File not available for this run");
+ if (SetupRun(esd)<0) {
+ AliError("Centrality File not available for this run");
+ return;
}
-
+
esdCent = esd->GetCentrality();
// ***** V0 info
AliESDVZERO* esdV0 = esd->GetVZEROData();
multV0A=esdV0->GetMTotV0A();
multV0C=esdV0->GetMTotV0C();
+ v0Corr = multV0A+multV0C;
+
+ multV0AOnline=esdV0->GetTriggerChargeA();
+ multV0COnline=esdV0->GetTriggerChargeC();
- Float_t v0CorrR;
- v0Corr = (Short_t)AliESDUtils::GetCorrV0(esd,v0CorrR);
- v0CorrResc = (Short_t)v0CorrR;
// ***** Vertex Info
const AliESDVertex* vtxESD = esd->GetPrimaryVertexSPD();
zvtx = vtxESD->GetZ();
+ zvtxNcont = vtxESD->GetNContributors();
// ***** CB info (tracklets, clusters, chips)
//nTracks = event->GetNumberOfTracks();
Float_t totalMultA = 0;
Float_t totalMultC = 0;
const Float_t fFMDLowCut = 0.4;
-
+
for(UShort_t det=1;det<=3;det++) {
Int_t nRings = (det==1 ? 1 : 2);
for (UShort_t ir = 0; ir < nRings; ir++) {
- Char_t ring = (ir == 0 ? 'I' : 'O');
- UShort_t nsec = (ir == 0 ? 20 : 40);
- UShort_t nstr = (ir == 0 ? 512 : 256);
- for(UShort_t sec =0; sec < nsec; sec++) {
- for(UShort_t strip = 0; strip < nstr; strip++) {
+ Char_t ring = (ir == 0 ? 'I' : 'O');
+ UShort_t nsec = (ir == 0 ? 20 : 40);
+ UShort_t nstr = (ir == 0 ? 512 : 256);
+ for(UShort_t sec =0; sec < nsec; sec++) {
+ for(UShort_t strip = 0; strip < nstr; strip++) {
- Float_t FMDmult = fmd->Multiplicity(det,ring,sec,strip);
- if(FMDmult == 0 || FMDmult == AliESDFMD::kInvalidMult) continue;
+ Float_t fmdMult = fmd->Multiplicity(det,ring,sec,strip);
+ if(fmdMult == 0 || fmdMult == AliESDFMD::kInvalidMult) continue;
- Float_t nParticles=0;
+ Float_t nParticles=0;
- if(FMDmult > fFMDLowCut) {
- nParticles = 1.;
- }
+ if(fmdMult > fFMDLowCut) {
+ nParticles = 1.;
+ }
- if (det<3) totalMultA = totalMultA + nParticles;
- else totalMultC = totalMultC + nParticles;
+ if (det<3) totalMultA = totalMultA + nParticles;
+ else totalMultC = totalMultC + nParticles;
- }
- }
+ }
+ }
}
}
multFMDA = totalMultA;
multFMDC = totalMultC;
-
+
// ***** ZDC info
AliESDZDC *esdZDC = esd->GetESDZDC();
- zncEnergy = (Float_t) (esdZDC->GetZDCN1Energy())/8.;
- zpcEnergy = (Float_t) (esdZDC->GetZDCP1Energy())/8.;
- znaEnergy = (Float_t) (esdZDC->GetZDCN2Energy())/8.;
- zpaEnergy = (Float_t) (esdZDC->GetZDCP2Energy())/8.;
+ zdcEnergyCal = esdZDC->AliESDZDC::TestBit(AliESDZDC::kEnergyCalibratedSignal);
+ if (zdcEnergyCal) {
+ zncEnergy = (Float_t) (esdZDC->GetZDCN1Energy());
+ zpcEnergy = (Float_t) (esdZDC->GetZDCP1Energy());
+ znaEnergy = (Float_t) (esdZDC->GetZDCN2Energy());
+ zpaEnergy = (Float_t) (esdZDC->GetZDCP2Energy());
+ } else {
+ zncEnergy = (Float_t) (esdZDC->GetZDCN1Energy())/8.;
+ zpcEnergy = (Float_t) (esdZDC->GetZDCP1Energy())/8.;
+ znaEnergy = (Float_t) (esdZDC->GetZDCN2Energy())/8.;
+ zpaEnergy = (Float_t) (esdZDC->GetZDCP2Energy())/8.;
+ }
zem1Energy = (Float_t) (esdZDC->GetZDCEMEnergy(0))/8.;
zem2Energy = (Float_t) (esdZDC->GetZDCEMEnergy(1))/8.;
}
+
else if(fAnalysisInput.CompareTo("AOD")==0){
//AliAODEvent *aod = dynamic_cast<AliAODEvent*> (InputEvent());
// to be implemented
return;
}
-
- // ***** Scaling
- if (fUseScaling) {
- Float_t temp_scalefactorV0M = MyGetScaleFactor(fCurrentRun,0);
- Float_t temp_scalefactorSPD = MyGetScaleFactor(fCurrentRun,1);
- Float_t temp_scalefactorTPC = MyGetScaleFactor(fCurrentRun,2);
- v0Corr = Short_t(v0Corr / temp_scalefactorV0M);
- spdCorr = spdCorr / temp_scalefactorSPD;
- nTracks = Int_t(nTracks / temp_scalefactorTPC);
- }
// ***** Scaling for MC
if (fIsMCInput) {
- Float_t temp_scalefactorV0M = MyGetScaleFactorMC(fCurrentRun);
- v0Corr = Short_t((multV0A+multV0C) * temp_scalefactorV0M);
+ fUseScaling=kFALSE;
+ v0Corr = Short_t((multV0A+multV0C) * fV0MScaleFactorMC);
+ }
+ // ***** Scaling for Data
+ if (fUseScaling) {
+ v0Corr = Short_t(v0Corr / fV0MScaleFactor);
+ spdCorr = spdCorr / fSPDScaleFactor;
+ nTracks = Int_t(nTracks / fTPCScaleFactor);
}
// ***** Centrality Selection
if(fHtempTKL) fCentTKL = fHtempTKL->GetBinContent(fHtempTKL->FindBin(nTracklets));
if(fHtempCL0) fCentCL0 = fHtempCL0->GetBinContent(fHtempCL0->FindBin(nClusters[0]));
if(fHtempCL1) fCentCL1 = fHtempCL1->GetBinContent(fHtempCL1->FindBin(spdCorr));
-
+
if(fHtempV0MvsFMD) fCentV0MvsFMD = fHtempV0MvsFMD->GetBinContent(fHtempV0MvsFMD->FindBin((multV0A+multV0C)));
if(fHtempTKLvsV0M) fCentTKLvsV0M = fHtempTKLvsV0M->GetBinContent(fHtempTKLvsV0M->FindBin(nTracklets));
- if(fHtempZEMvsZDC) fCentZEMvsZDC = fHtempZEMvsZDC->GetBinContent(fHtempZEMvsZDC->FindBin((zem1Energy+zem2Energy)/1000.));
+ if(fHtempZEMvsZDC) fCentZEMvsZDC = fHtempZEMvsZDC->GetBinContent(fHtempZEMvsZDC->FindBin(zem1Energy+zem2Energy,zncEnergy+znaEnergy+zpcEnergy+zpaEnergy));
// ***** Cleaning
- fQuality=0;
- fZVCut=10;
- fOutliersCut=6;
-
- // ***** vertex
- if (TMath::Abs(zvtx)>fZVCut) fQuality += 1;
-
- // ***** outliers
- // **** V0 vs SPD
- printf("AnalysisCentralitySelectionTask::centrality is %f\n",fCentV0M);
-
- if (IsOutlierV0MSPD(spdCorr, v0Corr, int(fCentV0M))) fQuality += 2;
- // ***** V0 vs TPC
- if (IsOutlierV0MTPC(nTracks, v0Corr, int(fCentV0M))) fQuality += 4;
- // ***** V0 vs ZDC
- if (IsOutlierV0MZDC((zncEnergy+znaEnergy+zpcEnergy+zpaEnergy), v0Corr)) fQuality += 8;
+ if (fUseCleaning) {
+ fQuality=0;
+
+ // ***** vertex
+ if (TMath::Abs(zvtx)>fZVCut || zvtxNcont<1) fQuality += 1;
+
+ // ***** outliers, skip in case of MC input
+ if (!fIsMCInput) {
+ // **** V0 vs SPD
+ if (IsOutlierV0MSPD(spdCorr, v0Corr, int(fCentV0M))) fQuality += 2;
+ // ***** V0 vs TPC
+ if (IsOutlierV0MTPC(nTracks, v0Corr, int(fCentV0M))) fQuality += 4;
+ // ***** V0 vs ZDC
+ if (IsOutlierV0MZDC((zncEnergy+znaEnergy+zpcEnergy+zpaEnergy), v0Corr) &&
+ (zdcEnergyCal==kFALSE) ) fQuality += 8;
+ if (IsOutlierV0MZDCECal((zncEnergy+znaEnergy+zpcEnergy+zpaEnergy), v0Corr) &&
+ (zdcEnergyCal==kTRUE) ) fQuality += 8;
+ }
+ } else {
+ fQuality = 0;
+ }
+
if (esdCent) {
- esdCent->SetQuality(fQuality);
- esdCent->SetCentralityV0M(fCentV0M);
- esdCent->SetCentralityFMD(fCentFMD);
- esdCent->SetCentralityTRK(fCentTRK);
- esdCent->SetCentralityTKL(fCentTKL);
- esdCent->SetCentralityCL0(fCentCL0);
- esdCent->SetCentralityCL1(fCentCL1);
- esdCent->SetCentralityV0MvsFMD(fCentV0MvsFMD);
- esdCent->SetCentralityTKLvsV0M(fCentTKLvsV0M);
- esdCent->SetCentralityZEMvsZDC(fCentZEMvsZDC);
+ esdCent->SetQuality(fQuality);
+ esdCent->SetCentralityV0M(fCentV0M);
+ esdCent->SetCentralityFMD(fCentFMD);
+ esdCent->SetCentralityTRK(fCentTRK);
+ esdCent->SetCentralityTKL(fCentTKL);
+ esdCent->SetCentralityCL0(fCentCL0);
+ esdCent->SetCentralityCL1(fCentCL1);
+ esdCent->SetCentralityV0MvsFMD(fCentV0MvsFMD);
+ esdCent->SetCentralityTKLvsV0M(fCentTKLvsV0M);
+ esdCent->SetCentralityZEMvsZDC(fCentZEMvsZDC);
}
+
+ Bool_t isSelected = (((AliInputEventHandler*)(AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler()))->IsEventSelected() & AliVEvent::kMB);
+ if (isSelected) { // fill the QA histograms only for MB events!
fHOutQuality->Fill(fQuality);
fHOutVertex->Fill(zvtx);
- fHOutMultV0MvsZDC->Fill(v0Corr,(zncEnergy+znaEnergy+zpcEnergy+zpaEnergy));
- fHOutMultZEMvsZDC->Fill((zem1Energy+zem2Energy),(zncEnergy+znaEnergy+zpcEnergy+zpaEnergy));
- fHOutMultV0MvsCL1->Fill(v0Corr,spdCorr);
- fHOutMultV0MvsTRK->Fill(v0Corr,nTracks);
-
if (fQuality==0) {
fHOutCentV0M->Fill(fCentV0M);
fHOutCentFMD->Fill(fCentFMD);
fHOutCentV0MvsFMD->Fill(fCentV0MvsFMD);
fHOutCentTKLvsV0M->Fill(fCentTKLvsV0M);
fHOutCentZEMvsZDC->Fill(fCentZEMvsZDC);
- fHOutMultV0M->Fill(v0Corr);
- fHOutMultV0R->Fill(multV0A+multV0C);
- fHOutMultFMD->Fill((multFMDA+multFMDC));
+ fHOutCentV0MvsCentCL1->Fill(fCentV0M,fCentCL1);
+ fHOutCentV0MvsCentTRK->Fill(fCentV0M,fCentTRK);
+ fHOutCentTRKvsCentCL1->Fill(fCentTRK,fCentCL1);
+ fHOutCentV0MvsCentZDC->Fill(fCentV0M,fCentZEMvsZDC);
+ fHOutMultV0M->Fill(multV0A+multV0C);
+ fHOutMultV0O->Fill(multV0AOnline+multV0COnline);
+ fHOutMultFMD->Fill(multFMDA+multFMDC);
fHOutMultTRK->Fill(nTracks);
fHOutMultTKL->Fill(nTracklets);
fHOutMultCL0->Fill(nClusters[0]);
fHOutMultCL1->Fill(spdCorr);
+ fHOutMultV0MvsZDN->Fill(v0Corr,(zncEnergy+znaEnergy));
+ fHOutMultZEMvsZDN->Fill((zem1Energy+zem2Energy),(zncEnergy+znaEnergy));
+ fHOutMultV0MvsZDC->Fill(v0Corr,(zncEnergy+znaEnergy+zpcEnergy+zpaEnergy));
+ fHOutMultZEMvsZDC->Fill((zem1Energy+zem2Energy),(zncEnergy+znaEnergy+zpcEnergy+zpaEnergy));
+ fHOutMultZEMvsZDCw->Fill((zem1Energy+zem2Energy),(zncEnergy+znaEnergy+zpcEnergy+zpaEnergy),fCentV0M);
+ fHOutMultV0MvsCL1->Fill(v0Corr,spdCorr);
+ fHOutMultV0MvsTRK->Fill(v0Corr,nTracks);
fHOutMultTRKvsCL1->Fill(nTracks,spdCorr);
- } else if (fQuality ==1) {
- fHOutCentV0M_qual1->Fill(fCentV0M);
- fHOutCentTRK_qual1->Fill(fCentTRK);
- fHOutCentCL1_qual1->Fill(fCentCL1);
+ fHOutMultV0MvsV0O->Fill(v0Corr,(multV0AOnline+multV0COnline));
+ fHOutMultV0OvsCL1->Fill((multV0AOnline+multV0COnline),spdCorr);
+ fHOutMultV0OvsTRK->Fill((multV0AOnline+multV0COnline),nTracks);
+ } else if (fQuality%2 == 0) {
+ fHOutCentV0Mqual1->Fill(fCentV0M);
+ fHOutCentTRKqual1->Fill(fCentTRK);
+ fHOutCentCL1qual1->Fill(fCentCL1);
+ fHOutMultV0MvsCL1qual1->Fill(v0Corr,spdCorr);
+ fHOutMultV0MvsTRKqual1->Fill(v0Corr,nTracks);
+ fHOutMultTRKvsCL1qual1->Fill(nTracks,spdCorr);
} else {
- fHOutCentV0M_qual2->Fill(fCentV0M);
- fHOutCentTRK_qual2->Fill(fCentTRK);
- fHOutCentCL1_qual2->Fill(fCentCL1);
+ fHOutCentV0Mqual2->Fill(fCentV0M);
+ fHOutCentTRKqual2->Fill(fCentTRK);
+ fHOutCentCL1qual2->Fill(fCentCL1);
+ fHOutMultV0MvsCL1qual2->Fill(v0Corr,spdCorr);
+ fHOutMultV0MvsTRKqual2->Fill(v0Corr,nTracks);
+ fHOutMultTRKvsCL1qual2->Fill(nTracks,spdCorr);
}
-
- PostData(1, fOutputList);
-}
-
-//________________________________________________________________________
-void AliCentralitySelectionTask::ReadCentralityHistos(TString fCentfilename)
-{
- // Read centrality histograms
- TDirectory *owd = gDirectory;
- // Check if the file is present
- TString path = gSystem->ExpandPathName(fCentfilename.Data());
- if (gSystem->AccessPathName(path)) {
- AliError(Form("File %s does not exist", path.Data()));
- return;
}
- fFile = TFile::Open(fCentfilename);
- owd->cd();
- fHtempV0M = (TH1F*) (fFile->Get("hmultV0_percentile"));
- fHtempFMD = (TH1F*) (fFile->Get("hmultFMD_percentile"));
- fHtempTRK = (TH1F*) (fFile->Get("hNtracks_percentile"));
- fHtempTKL = (TH1F*) (fFile->Get("hNtracklets_percentile"));
- fHtempCL0 = (TH1F*) (fFile->Get("hNclusters0_percentile"));
- fHtempCL1 = (TH1F*) (fFile->Get("hNclusters1_percentile"));
-
- if (!fHtempV0M) AliWarning(Form("Calibration for V0M does not exist in %s", path.Data()));
- if (!fHtempFMD) AliWarning(Form("Calibration for FMD does not exist in %s", path.Data()));
- if (!fHtempTRK) AliWarning(Form("Calibration for TRK does not exist in %s", path.Data()));
- if (!fHtempTKL) AliWarning(Form("Calibration for TKL does not exist in %s", path.Data()));
- if (!fHtempCL0) AliWarning(Form("Calibration for CL0 does not exist in %s", path.Data()));
- if (!fHtempCL1) AliWarning(Form("Calibration for CL1 does not exist in %s", path.Data()));
-
- owd->cd();
-}
-//________________________________________________________________________
-void AliCentralitySelectionTask::ReadCentralityHistos2(TString fCentfilename2)
-{
- // Read centrality histograms
- TDirectory *owd = gDirectory;
- TString path = gSystem->ExpandPathName(fCentfilename2.Data());
- if (gSystem->AccessPathName(path)) {
- AliError(Form("File %s does not exist", path.Data()));
- return;
- }
- fFile2 = TFile::Open(fCentfilename2);
- owd->cd();
- fHtempV0MvsFMD = (TH1F*) (fFile2->Get("hmultV0vsmultFMD_all_percentile"));
- fHtempTKLvsV0M = (TH1F*) (fFile2->Get("hNtrackletsvsmultV0_all_percentile"));
- fHtempZEMvsZDC = (TH1F*) (fFile2->Get("hEzemvsEzdc_all_percentile"));
-
- if (!fHtempV0MvsFMD) AliWarning(Form("Calibration for V0MvsFMD does not exist in %s", path.Data()));
- if (!fHtempTKLvsV0M) AliWarning(Form("Calibration for TKLvsV0M does not exist in %s", path.Data()));
- if (!fHtempZEMvsZDC) AliWarning(Form("Calibration for ZEMvsZDC does not exist in %s", path.Data()));
-
- owd->cd();
+ PostData(1, fOutputList);
}
-
//________________________________________________________________________
void AliCentralitySelectionTask::Terminate(Option_t */*option*/)
{
// Terminate analysis
- if (fFile && fFile->IsOpen())
- fFile->Close();
- if (fFile2 && fFile2->IsOpen())
- fFile2->Close();
}
//________________________________________________________________________
-Int_t AliCentralitySelectionTask::SetupRun(AliESDEvent* esd)
+Int_t AliCentralitySelectionTask::SetupRun(AliESDEvent* const esd)
{
// Setup files for run
return 0;
else
fCurrentRun = esd->GetRunNumber();
-
- AliInfo(Form("Setup Centrality Selection for run %d\n",fCurrentRun));
- // CHANGE HERE FOR RUN RANGES
- if ( fCurrentRun <= 137165 ) fRunNo = 137161;
- else fRunNo = 137366;
- // CHANGE HERE FOR RUN RANGES
-
- TString fileName(Form("%s/COMMON/CENTRALITY/data/AliCentralityBy1D_%d.root", AliAnalysisManager::GetOADBPath(), fRunNo));
- TString fileName2(Form("%s/COMMON/CENTRALITY/data/AliCentralityByFunction_%d.root", AliAnalysisManager::GetOADBPath(), fRunNo));
+ TString fileName =(Form("%s/COMMON/CENTRALITY/data/centrality.root", AliAnalysisManager::GetOADBPath()));
+ AliInfo(Form("Setup Centrality Selection for run %d with file %s\n",fCurrentRun,fileName.Data()));
+
+ AliOADBContainer *con = new AliOADBContainer("OADB");
+ con->InitFromFile(fileName,"Centrality");
+
+ AliOADBCentrality* centOADB = 0;
+ centOADB = (AliOADBCentrality*)(con->GetObject(fCurrentRun));
+ if (!centOADB) {
+ AliWarning(Form("Centrality OADB does not exist for run %d, using Default \n",fCurrentRun ));
+ centOADB = (AliOADBCentrality*)(con->GetDefaultObject("oadbDefault"));
+ }
+
+ // modes
+ fUseScaling = centOADB->UseScaling();
+ fUseCleaning = centOADB->UseCleaning();
+
+ // cuts
+ fZVCut = centOADB->ZVCut();
+ fOutliersCut = centOADB->OutliersCut();
+
+ // centrality histos
+ fHtempV0M = centOADB->V0hist();
+ fHtempTRK = centOADB->TPChist();
+ fHtempCL1 = centOADB->SPDhist();
+ fHtempZEMvsZDC = centOADB->ZEMvsZDChist();
- AliInfo(Form("Centrality Selection for run %d is initialized with %s", fCurrentRun, fileName.Data()));
- ReadCentralityHistos(fileName.Data());
- ReadCentralityHistos2(fileName2.Data());
- if (!fFile && !fFile2) {
- AliFatal(Form("Run %d not known to centrality selection!", fCurrentRun));
- return -1;
- }
+ TString path = gSystem->ExpandPathName(fileName.Data());
+ if (!fHtempV0M) AliWarning(Form("Calibration for V0M does not exist in %s", path.Data()));
+ if (!fHtempTRK) AliWarning(Form("Calibration for TRK does not exist in %s", path.Data()));
+ if (!fHtempCL1) AliWarning(Form("Calibration for CL1 does not exist in %s", path.Data()));
+ if (!fHtempZEMvsZDC) AliWarning(Form("Calibration for ZEMvsZDC does not exist in %s", path.Data()));
+
+ // scale factors
+ fV0MScaleFactor = centOADB->V0MScaleFactor();
+ fSPDScaleFactor = centOADB->SPDScaleFactor();
+ fTPCScaleFactor = centOADB->TPCScaleFactor();
+ fV0MScaleFactorMC = centOADB->V0MScaleFactor();
+
+ // outliers parameters
+ fV0MSPDOutlierPar0 = centOADB->V0MSPDOutlierPar0();
+ fV0MSPDOutlierPar1 = centOADB->V0MSPDOutlierPar1();
+ fV0MTPCOutlierPar0 = centOADB->V0MTPCOutlierPar0();
+ fV0MTPCOutlierPar1 = centOADB->V0MTPCOutlierPar1();
+
+ fV0MSPDSigmaOutlierPar0 = centOADB->V0MSPDSigmaOutlierPar0();
+ fV0MSPDSigmaOutlierPar1 = centOADB->V0MSPDSigmaOutlierPar1();
+ fV0MSPDSigmaOutlierPar2 = centOADB->V0MSPDSigmaOutlierPar2();
+ fV0MTPCSigmaOutlierPar0 = centOADB->V0MTPCSigmaOutlierPar0();
+ fV0MTPCSigmaOutlierPar1 = centOADB->V0MTPCSigmaOutlierPar1();
+ fV0MTPCSigmaOutlierPar2 = centOADB->V0MTPCSigmaOutlierPar2();
+
+ fV0MZDCOutlierPar0 = centOADB->V0MZDCOutlierPar0();
+ fV0MZDCOutlierPar1 = centOADB->V0MZDCOutlierPar1();
+ fV0MZDCEcalOutlierPar0 = centOADB->V0MZDCEcalOutlierPar0();
+ fV0MZDCEcalOutlierPar1 = centOADB->V0MZDCEcalOutlierPar1();
+
+
+
return 0;
}
+
+
//________________________________________________________________________
-Bool_t AliCentralitySelectionTask::IsOutlierV0MSPD(Float_t spd, Float_t v0, Int_t cent)
+Bool_t AliCentralitySelectionTask::IsOutlierV0MSPD(Float_t spd, Float_t v0, Int_t cent) const
{
- TF1 *V0MSPDfun = new TF1("V0MSPDfun","-0.143789+ 0.288874*x",0,25000);
- Float_t SPDsigma[100]={231.483, 189.446, 183.359, 179.923, 174.229, 170.309, 165.021,
- 160.84, 159.33, 154.453, 151.644, 148.337, 145.215, 142.353,
- 139.351, 136, 133.838, 129.885, 127.36, 125.032, 122.21, 120.3,
- 117.766, 114.77, 113.1, 110.268, 107.463, 105.293, 102.845,
- 100.835, 98.9632, 97.3287, 93.6887, 92.1066, 89.3224, 87.8382,
- 86.04, 83.6431, 81.9655, 80.0491, 77.8208, 76.4716, 74.2165,
- 72.2752, 70.4875, 68.9414, 66.8622, 65.022, 63.5134, 61.8228,
- 59.7166, 58.5008, 56.2789, 54.9615, 53.386, 51.2165, 49.4842,
- 48.259, 47.1129, 45.3115, 43.8486, 41.9207, 40.5754, 39.3872,
- 38.1897, 36.5401, 35.1283, 33.9702, 32.6429, 31.3612, 29.5876,
- 28.9319, 27.564, 26.0443, 25.2836, 23.9753, 22.8936, 21.5665,
- 20.7048, 19.8016, 18.7095, 18.1144, 17.2095, 16.602, 16.3233,
- 15.7185, 15.3006, 14.7432, 14.4174, 14.0805, 13.7638, 13.7638,
- 13.7638, 13.7638, 13.7638, 13.7638, 13.7638, 13.7638, 13.7638, 18.0803};
-
- if ( TMath::Abs(spd-V0MSPDfun->Eval(v0)) > fOutliersCut*SPDsigma[cent] )
+ // Clean outliers
+ Float_t val = fV0MSPDOutlierPar0 + fV0MSPDOutlierPar1 * v0;
+ Float_t spdSigma = fV0MSPDSigmaOutlierPar0 + fV0MSPDSigmaOutlierPar1*cent + fV0MSPDSigmaOutlierPar2*cent*cent;
+ if ( TMath::Abs(spd-val) > fOutliersCut*spdSigma )
return kTRUE;
else
return kFALSE;
}
//________________________________________________________________________
-Bool_t AliCentralitySelectionTask::IsOutlierV0MTPC(Int_t tracks, Float_t v0, Int_t cent)
+Bool_t AliCentralitySelectionTask::IsOutlierV0MTPC(Int_t tracks, Float_t v0, Int_t cent) const
{
- TF1 *V0MTPCfun = new TF1("V0MTPCfun","-0.540691+0.128358*x",0,25000);
- Float_t TPCsigma[100]={106.439, 89.2834, 86.7568, 85.3641, 83.379, 81.6093, 79.3189,
- 78.0616, 77.2167, 75.0021, 73.9957, 72.0926, 71.0442, 69.8395,
- 68.1169, 66.6676, 66.0038, 64.2284, 63.3845, 61.7439, 60.642,
- 59.5383, 58.3696, 57.0227, 56.0619, 54.7108, 53.8382, 52.3398,
- 51.5297, 49.9488, 49.1126, 48.208, 46.8566, 45.7724, 44.7829,
- 43.8726, 42.7499, 41.9307, 40.6874, 39.9619, 38.5534, 38.0884,
- 36.6141, 35.7482, 34.8804, 34.1769, 33.1278, 32.3435, 31.4783,
- 30.2587, 29.4741, 28.8575, 27.9298, 26.9752, 26.1675, 25.1234,
- 24.4702, 23.6843, 22.9764, 21.8579, 21.2924, 20.3241, 19.8296,
- 19.2465, 18.4474, 17.7216, 16.8956, 16.342, 15.626, 15.0329,
- 14.3911, 13.9301, 13.254, 12.6745, 12.2436, 11.7776, 11.1795,
- 10.673, 10.27, 9.95646, 9.50939, 9.26162, 8.95315, 8.73439,
- 8.67375, 8.43029, 8.34818, 8.33484, 8.40709, 8.3974, 8.32814,
- 8.32814, 8.32814, 8.32814, 8.32814, 8.32814, 8.32814, 8.32814, 8.32814, 12.351};
-
- if ( TMath::Abs(tracks-V0MTPCfun->Eval(v0)) > fOutliersCut*TPCsigma[cent] )
+ // Clean outliers
+ Float_t val = fV0MTPCOutlierPar0 + fV0MTPCOutlierPar1 * v0;
+ Float_t tpcSigma = fV0MTPCSigmaOutlierPar0 + fV0MTPCSigmaOutlierPar1*cent + fV0MTPCSigmaOutlierPar2*cent*cent;
+ if ( TMath::Abs(tracks-val) > fOutliersCut*tpcSigma )
return kTRUE;
else
return kFALSE;
}
//________________________________________________________________________
-Bool_t AliCentralitySelectionTask::IsOutlierV0MZDC(Float_t zdc, Float_t v0)
+Bool_t AliCentralitySelectionTask::IsOutlierV0MZDC(Float_t zdc, Float_t v0) const
{
- TF1 *fun1 = new TF1("fun1","6350-0.26*x",0,25000);
- TF1 *fun2 = new TF1("fun2","5580",0,25000);
-
- if ( (zdc > fun1->Eval(v0)) || (zdc > fun2->Eval(v0)) )
+ // Clean outliers
+ Float_t val = fV0MZDCOutlierPar0 + fV0MZDCOutlierPar1 * v0;
+ if (zdc > val)
return kTRUE;
else
- return kFALSE;
-}
-
-//________________________________________________________________________
-Float_t AliCentralitySelectionTask::MyGetScaleFactor(Int_t runnumber, Int_t flag)
-{
- if (! (runnumber >= fLowRunN && runnumber <=fHighRunN)) {
- cout << "MyGetScaleFactor error in run number range " << runnumber << endl;
- return 0.0;
- }
-
- Float_t scalefactor=0.0;
- if (flag==0)
- scalefactor = V0MScaleFactor[runnumber - fLowRunN]; // subtracting reference offset index
- else if (flag==1)
- scalefactor = SPDScaleFactor[runnumber - fLowRunN]; // subtracting reference offset index
- else if (flag==2)
- scalefactor = TPCScaleFactor[runnumber - fLowRunN]; // subtracting reference offset index
-
- return scalefactor;
-
+ return kFALSE;
}
-//________________________________________________________________________
-Float_t AliCentralitySelectionTask::MyGetScaleFactorMC(Int_t runnumber)
-{
- if (! (runnumber >= fLowRunN && runnumber <=fHighRunN)) {
- cout << "MyGetScaleFactor error in run number range " << runnumber << endl;
- return 0.0;
- }
-
- Float_t scalefactor= V0MScaleFactorMC[runnumber - fLowRunN]; // subtracting reference offset index
- return scalefactor;
-
-}
-
-//________________________________________________________________________
-void AliCentralitySelectionTask::MyInitScaleFactor ()
+//________________________________________________________________________
+Bool_t AliCentralitySelectionTask::IsOutlierV0MZDCECal(Float_t zdc, Float_t v0) const
{
- for (int i=0; i<(fHighRunN-fLowRunN); i++) V0MScaleFactor[i] = 0.0;
- for (int i=0; i<(fHighRunN-fLowRunN); i++) SPDScaleFactor[i] = 0.0;
- for (int i=0; i<(fHighRunN-fLowRunN); i++) TPCScaleFactor[i] = 0.0;
-
- // scale factors determined from <V0 charge> on a run-by-run basis
- V0MScaleFactor[310] = 0.956841;
- V0MScaleFactor[311] = 0.958274;
- V0MScaleFactor[514] = 1.0046;
- V0MScaleFactor[515] = 0.983535;
- V0MScaleFactor[579] = 0.988185;
- V0MScaleFactor[580] = 0.983351;
- V0MScaleFactor[581] = 0.989013;
- V0MScaleFactor[583] = 0.990056;
- V0MScaleFactor[588] = 0.974438;
- V0MScaleFactor[589] = 0.981572;
- V0MScaleFactor[590] = 0.989316;
- V0MScaleFactor[592] = 0.98345;
- V0MScaleFactor[688] = 0.993647;
- V0MScaleFactor[690] = 0.994758;
- V0MScaleFactor[693] = 0.989569;
- V0MScaleFactor[698] = 0.993119;
- V0MScaleFactor[744] = 0.989583;
- V0MScaleFactor[757] = 0.990377;
- V0MScaleFactor[787] = 0.990176;
- V0MScaleFactor[788] = 0.98723;
- V0MScaleFactor[834] = 1.00403;
- V0MScaleFactor[835] = 0.994376;
- V0MScaleFactor[840] = 0.99759;
- V0MScaleFactor[842] = 1.01031;
- V0MScaleFactor[900] = 0.996216;
- V0MScaleFactor[901] = 0.994205;
- V0MScaleFactor[992] = 0.998479;
- V0MScaleFactor[997] = 1.00078;
- V0MScaleFactor[1299] = 1.00515;
- V0MScaleFactor[1303] = 1.00094;
- V0MScaleFactor[1339] = 0.986596;
- V0MScaleFactor[1346] = 0.972226;
- V0MScaleFactor[1349] = 0.960358;
- V0MScaleFactor[1350] = 0.970023;
- V0MScaleFactor[1374] = 1.00575;
- V0MScaleFactor[1545] = 1.00471;
- V0MScaleFactor[1587] = 1.00611;
- V0MScaleFactor[1588] = 1.00976;
- V0MScaleFactor[1618] = 1.00771;
- V0MScaleFactor[1682] = 1.01622;
- V0MScaleFactor[1727] = 1.01305;
- V0MScaleFactor[1728] = 1.00388;
- V0MScaleFactor[1731] = 1.00673;
- V0MScaleFactor[1732] = 1.00916;
- V0MScaleFactor[1770] = 1.0092;
- V0MScaleFactor[1773] = 1.00728;
- V0MScaleFactor[1786] = 1.01655;
- V0MScaleFactor[1787] = 1.00672;
- V0MScaleFactor[1801] = 0.983339;
- V0MScaleFactor[1802] = 1.00754;
- V0MScaleFactor[1811] = 1.00608;
- V0MScaleFactor[1815] = 1.01227;
- V0MScaleFactor[1879] = 0.99907;
- V0MScaleFactor[1881] = 0.995696;
- V0MScaleFactor[2186] = 1.00559;
- V0MScaleFactor[2187] = 1.00631;
- V0MScaleFactor[2254] = 1.01512;
- V0MScaleFactor[2256] = 0.998727;
- V0MScaleFactor[2321] = 1.00701;
- SPDScaleFactor[310] = 1.00211;
- SPDScaleFactor[311] = 1.00067;
- SPDScaleFactor[514] = 1.02268;
- SPDScaleFactor[515] = 0.994902;
- SPDScaleFactor[579] = 1.00215;
- SPDScaleFactor[580] = 0.993421;
- SPDScaleFactor[581] = 1.00129;
- SPDScaleFactor[583] = 1.00242;
- SPDScaleFactor[588] = 0.984762;
- SPDScaleFactor[589] = 0.994355;
- SPDScaleFactor[590] = 1.00073;
- SPDScaleFactor[592] = 0.995889;
- SPDScaleFactor[688] = 0.994532;
- SPDScaleFactor[690] = 0.998307;
- SPDScaleFactor[693] = 0.994052;
- SPDScaleFactor[698] = 0.993224;
- SPDScaleFactor[744] = 0.993279;
- SPDScaleFactor[757] = 0.992494;
- SPDScaleFactor[787] = 0.992678;
- SPDScaleFactor[788] = 0.996563;
- SPDScaleFactor[834] = 1.01116;
- SPDScaleFactor[835] = 0.993108;
- SPDScaleFactor[840] = 0.997574;
- SPDScaleFactor[842] = 1.01829;
- SPDScaleFactor[900] = 0.999438;
- SPDScaleFactor[901] = 0.995849;
- SPDScaleFactor[992] = 0.999227;
- SPDScaleFactor[997] = 1.00575;
- SPDScaleFactor[1299] = 0.99877;
- SPDScaleFactor[1303] = 0.999682;
- SPDScaleFactor[1339] = 0.978198;
- SPDScaleFactor[1346] = 0.964178;
- SPDScaleFactor[1349] = 0.959439;
- SPDScaleFactor[1350] = 0.956945;
- SPDScaleFactor[1374] = 0.994434;
- SPDScaleFactor[1545] = 1.0016;
- SPDScaleFactor[1587] = 1.00153;
- SPDScaleFactor[1588] = 1.00698;
- SPDScaleFactor[1618] = 1.00554;
- SPDScaleFactor[1682] = 1.0123;
- SPDScaleFactor[1727] = 1.011;
- SPDScaleFactor[1728] = 1.00143;
- SPDScaleFactor[1731] = 1.00486;
- SPDScaleFactor[1732] = 1.00646;
- SPDScaleFactor[1770] = 1.00515;
- SPDScaleFactor[1773] = 1.00485;
- SPDScaleFactor[1786] = 1.01215;
- SPDScaleFactor[1787] = 1.00419;
- SPDScaleFactor[1801] = 0.983327;
- SPDScaleFactor[1802] = 1.00529;
- SPDScaleFactor[1811] = 1.00367;
- SPDScaleFactor[1815] = 1.01045;
- SPDScaleFactor[1879] = 0.996374;
- SPDScaleFactor[1881] = 0.988827;
- SPDScaleFactor[2186] = 1.00354;
- SPDScaleFactor[2187] = 1.00397;
- SPDScaleFactor[2254] = 1.01138;
- SPDScaleFactor[2256] = 0.996641;
- SPDScaleFactor[2321] = 1.00357;
- TPCScaleFactor[310] = 1.00434;
- TPCScaleFactor[311] = 1.0056;
- TPCScaleFactor[514] = 1.02185;
- TPCScaleFactor[515] = 1.0036;
- TPCScaleFactor[579] = 1.00607;
- TPCScaleFactor[580] = 1.00183;
- TPCScaleFactor[581] = 1.00693;
- TPCScaleFactor[583] = 1.00746;
- TPCScaleFactor[588] = 0.990524;
- TPCScaleFactor[589] = 0.998582;
- TPCScaleFactor[590] = 1.00618;
- TPCScaleFactor[592] = 1.00088;
- TPCScaleFactor[688] = 1.00598;
- TPCScaleFactor[690] = 1.00658;
- TPCScaleFactor[693] = 1.00144;
- TPCScaleFactor[698] = 1.00279;
- TPCScaleFactor[744] = 1.00122;
- TPCScaleFactor[757] = 1.002;
- TPCScaleFactor[787] = 0.997818;
- TPCScaleFactor[788] = 0.994583;
- TPCScaleFactor[834] = 1.01508;
- TPCScaleFactor[835] = 1.00218;
- TPCScaleFactor[840] = 1.00569;
- TPCScaleFactor[842] = 1.01789;
- TPCScaleFactor[900] = 1.00739;
- TPCScaleFactor[901] = 1.00462;
- TPCScaleFactor[992] = 1.00502;
- TPCScaleFactor[997] = 1.00943;
- TPCScaleFactor[1299] = 1.00438;
- TPCScaleFactor[1303] = 0.996701;
- TPCScaleFactor[1339] = 0.978641;
- TPCScaleFactor[1346] = 0.968906;
- TPCScaleFactor[1349] = 0.954311;
- TPCScaleFactor[1350] = 0.958764;
- TPCScaleFactor[1374] = 0.997899;
- TPCScaleFactor[1545] = 0.992;
- TPCScaleFactor[1587] = 0.992635;
- TPCScaleFactor[1588] = 1.00207;
- TPCScaleFactor[1618] = 1.00126;
- TPCScaleFactor[1682] = 1.00324;
- TPCScaleFactor[1727] = 1.00042;
- TPCScaleFactor[1728] = 0.978881;
- TPCScaleFactor[1731] = 0.999818;
- TPCScaleFactor[1732] = 1.00109;
- TPCScaleFactor[1770] = 0.99935;
- TPCScaleFactor[1773] = 0.998531;
- TPCScaleFactor[1786] = 0.999125;
- TPCScaleFactor[1787] = 0.998479;
- TPCScaleFactor[1801] = 0.9775;
- TPCScaleFactor[1802] = 0.999095;
- TPCScaleFactor[1811] = 0.998197;
- TPCScaleFactor[1815] = 1.00413;
- TPCScaleFactor[1879] = 0.990916;
- TPCScaleFactor[1881] = 0.987241;
- TPCScaleFactor[2186] = 1.00048;
- TPCScaleFactor[2187] = 1.00057;
- TPCScaleFactor[2254] = 1.00588;
- TPCScaleFactor[2256] = 0.991503;
- TPCScaleFactor[2321] = 1.00057;
-
-
- // set all missing values to the value of the run before it ....
- for (int i=0; i<(fHighRunN-fLowRunN); i++) {
- if (V0MScaleFactor[i] == 0.0) {
- if (i==0) {
- V0MScaleFactor[i] = 1.00;
- } else {
- // search for last run number with non-zero value
- for (int j=i-1;j>=0;j--) {
- if (V0MScaleFactor[j] != 0.0) {
- V0MScaleFactor[i] = V0MScaleFactor[j];
- break;
- }
- }
- }
- }
- } // end loop over checking all run-numbers
-
- for (int i=0; i<(fHighRunN-fLowRunN); i++) {
- if (SPDScaleFactor[i] == 0.0) {
- if (i==0) {
- SPDScaleFactor[i] = 1.00;
- } else {
- for (int j=i-1;j>=0;j--) {
- if (SPDScaleFactor[j] != 0.0) {
- SPDScaleFactor[i] = SPDScaleFactor[j];
- break;
- }
- }
- }
- }
- }
-
- for (int i=0; i<(fHighRunN-fLowRunN); i++) {
- if (TPCScaleFactor[i] == 0.0) {
- if (i==0) {
- TPCScaleFactor[i] = 1.00;
- } else {
- for (int j=i-1;j>=0;j--) {
- if (TPCScaleFactor[j] != 0.0) {
- TPCScaleFactor[i] = TPCScaleFactor[j];
- break;
- }
- }
- }
- }
- }
-
-
- // for (int i=0; i<(fHighRunN-fLowRunN); i++) cout << "Scale Factor = " << V0MScaleFactor[i] << " for Run " << i+fLowRunN << endl;
-
- return;
-
+ // Clean outliers
+ Float_t val = fV0MZDCEcalOutlierPar0 + fV0MZDCEcalOutlierPar1 * v0;
+ if (zdc > val)
+ return kTRUE;
+ else
+ return kFALSE;
}
-//________________________________________________________________________
-void AliCentralitySelectionTask::MyInitScaleFactorMC()
-{
- for (int i=0; i<(fHighRunN-fLowRunN); i++) V0MScaleFactorMC[i] = 0.0;
- // scale factors determined from <V0 charge> on a run-by-run basis
- V0MScaleFactor[0] = 0.75108;
- // set all missing values to the value of the run before it ....
- for (int i=0; i<(fHighRunN-fLowRunN); i++) {
- if (V0MScaleFactorMC[i] == 0.0) {
- if (i==0) {
- V0MScaleFactorMC[i] = 1.00;
- } else {
- // search for last run number with non-zero value
- for (int j=i-1;j>=0;j--) {
- if (V0MScaleFactorMC[j] != 0.0) {
- V0MScaleFactorMC[i] = V0MScaleFactorMC[j];
- break;
- }
- }
- }
- }
- } // end loop over checking all run-numbers
-
-
- // for (int i=0; i<(fHighRunN-fLowRunN); i++) cout << "Scale Factor = " << V0MScaleFactorMC[i] << " for Run " << i+fLowRunN << endl;
-
- return;
-
-}
-
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff