Added possibilit to revertex before refiltering
[u/mrichter/AliRoot.git] / ANALYSIS / ESDfilter / AliAnalysisTaskESDfilter.h
CommitLineData
c7ef1c47 1#ifndef ALIANALYSISTASKESDFILTER_H
2#define ALIANALYSISTASKESDFILTER_H
3
4/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
6
7/* $Id$ */
8
9#include <TList.h>
10#include <TF1.h>
11#include "AliAnalysisTaskSE.h"
12#include "AliESDtrack.h"
13#include "AliAODTrack.h"
14#include "AliAODPid.h"
15#include "AliESDpid.h"
16
17class AliAnalysisFilter;
18class AliStack;
19class AliESDtrack;
20class AliMCEventHandler;
21class TRefArray;
22class AliAODHeader;
2f5ee3b7 23class AliESDtrackCuts;
c7ef1c47 24
25class AliAnalysisTaskESDfilter : public AliAnalysisTaskSE
26{
27 public:
28 AliAnalysisTaskESDfilter();
29 AliAnalysisTaskESDfilter(const char* name);
75a996ab 30 virtual ~AliAnalysisTaskESDfilter();
c7ef1c47 31 // Implementation of interface methods
32 virtual void UserCreateOutputObjects();
33 virtual void Init();
34 virtual void LocalInit() {Init();}
dc893135 35 virtual Bool_t Notify();
c7ef1c47 36 virtual void UserExec(Option_t *option);
37 virtual void Terminate(Option_t *option);
38
39 virtual void ConvertESDtoAOD();
40 // Setters
41 virtual void SetTrackFilter (AliAnalysisFilter* trackF) {fTrackFilter = trackF;}
67abcce9 42 virtual void SetTPCOnlyFilterMask (UInt_t filterMask) {SetTPCConstrainedFilterMask(filterMask);}
43
44 virtual void SetTPCConstrainedFilterMask (UInt_t filterMask) {fTPCConstrainedFilterMask = filterMask;}
45 virtual void SetHybridFilterMaskTPCConstrainedGlobal(UInt_t filterMask) {fHybridFilterMaskTPCCG = filterMask;}
46 virtual void SetWriteHybridTPCConstrainedOnly(bool b){fWriteHybridTPCCOnly = b;}
47
48 virtual void SetGlobalConstrainedFilterMask (UInt_t filterMask) {fGlobalConstrainedFilterMask = filterMask;}
49 virtual void SetHybridFilterMaskGlobalConstrainedGlobal(UInt_t filterMask) {fHybridFilterMaskGCG = filterMask;}
50 virtual void SetWriteHybridGlobalConstrainedOnly(bool b){fWriteHybridGCOnly = b;}
51
52
c7ef1c47 53 virtual void SetKinkFilter (AliAnalysisFilter* KinkF) {fKinkFilter = KinkF;}
54 virtual void SetV0Filter (AliAnalysisFilter* V0F) {fV0Filter = V0F;}
55 virtual void SetCascadeFilter (AliAnalysisFilter* CascadeF) {fCascadeFilter = CascadeF;}
56 virtual void SetPthreshold (Double_t p) {fHighPthreshold = p;}
57 virtual void SetPshape (TF1 *func) {fPtshape = func;}
58 virtual void SetEnableFillAOD (Bool_t b) {fEnableFillAOD = b;}
59
1a3579a6 60 virtual void SetAODPID(AliESDtrack *esdtrack, AliAODTrack *aodtrack, AliAODPid *detpid);
61 void SetDetectorRawSignals(AliAODPid *aodpid, AliESDtrack *track);
c7ef1c47 62
b8d29a28 63 void SetV0Cuts(const Double_t cuts[7]) {for (Int_t icut = 0; icut<7; icut++) fV0Cuts[icut] = cuts[icut];}
64
65 void SetCascadeCuts(const Double_t cuts[8]) {for (Int_t icut = 0; icut<8; icut++) fCascadeCuts[icut] = cuts[icut];}
66
67 void GetV0Cuts(Double_t cuts[7]) const {for (Int_t icut = 0; icut<7; icut++) cuts[icut] = fV0Cuts[icut];}
68
69 void GetCascadeCuts(Double_t cuts[8]) const {for (Int_t icut = 0; icut<8; icut++) cuts[icut] = fCascadeCuts[icut];}
70
71
dc893135 72 Bool_t AddMetadataToUserInfo();
c7ef1c47 73 void PrintTask(Option_t *option="all", Int_t indent=0) const;
74
75 void DisableVZERO() { fIsVZEROEnabled = kFALSE; }
a1f96974 76 void DisableTZERO() { fIsTZEROEnabled = kFALSE; }
8c87d22c 77 void DisableZDC() { fIsZDCEnabled = kFALSE; }
c7ef1c47 78 void DisableCascades() { fAreCascadesEnabled = kFALSE; }
79 void DisableV0s() { fAreV0sEnabled = kFALSE; }
80 void DisableKinks() { fAreKinksEnabled = kFALSE; }
81 void DisableTracks() { fAreTracksEnabled = kFALSE; }
82 void DisablePmdClusters() { fArePmdClustersEnabled = kFALSE; }
83 void DisableCaloClusters() { fAreCaloClustersEnabled = kFALSE; }
84 void DisableCells() { fAreEMCALCellsEnabled = fArePHOSCellsEnabled = kFALSE; }
720f7306 85 void DisableCaloTrigger(TString calo = "PHOS") { if (calo.Contains("EMCAL")) fAreEMCALTriggerEnabled = kFALSE; else fArePHOSTriggerEnabled = kFALSE; }
c7ef1c47 86 void DisableTracklets() { fAreTrackletsEnabled = kFALSE; }
08b38f3f 87 void DisableHMPID() { fIsHMPIDEnabled = kFALSE; }
c7ef1c47 88
b8d29a28 89 void EnableV0CascadeVerticesReco() { fIsV0CascadeRecoEnabled = kTRUE; }
90
ed15417e 91 void SetPropagateTrackToEMCal(Bool_t propagate) {fDoPropagateTrackToEMCal = propagate;}
a29b2a8a 92 void SetEMCalSurfaceDistance(Double_t d) {fEMCalSurfaceDistance = d;}
ed15417e 93
db47bd9e 94 void SetRefitVertexTracks(Int_t algo=6, Double_t* cuts=0);
c7ef1c47 95
96private:
97 AliAnalysisTaskESDfilter(const AliAnalysisTaskESDfilter&);
98 AliAnalysisTaskESDfilter& operator=(const AliAnalysisTaskESDfilter&);
99 void PrintMCInfo(AliStack *pStack,Int_t label); // for debugging
100 Double_t Chi2perNDF(AliESDtrack* track);
101
102 AliAODHeader* ConvertHeader(const AliESDEvent& esd);
103 void ConvertCascades(const AliESDEvent& esd);
104 void ConvertV0s(const AliESDEvent& esd);
105 void ConvertKinks(const AliESDEvent& esd);
106 void ConvertPrimaryVertices(const AliESDEvent& esd);
107 void ConvertTracks(const AliESDEvent& esd);
108 void ConvertPmdClusters(const AliESDEvent& esd);
109 void ConvertCaloClusters(const AliESDEvent& esd);
110 void ConvertEMCALCells(const AliESDEvent& esd);
111 void ConvertPHOSCells(const AliESDEvent& esd);
720f7306 112 void ConvertCaloTrigger(TString calo, const AliESDEvent& esd);
c7ef1c47 113 void ConvertTracklets(const AliESDEvent& esd);
114 void ConvertTPCOnlyTracks(const AliESDEvent& esd);
67abcce9 115 void ConvertGlobalConstrainedTracks(const AliESDEvent& esd);
c7ef1c47 116 void ConvertVZERO(const AliESDEvent& esd);
a1f96974 117 void ConvertTZERO(const AliESDEvent& esd);
8c87d22c 118 void ConvertZDC(const AliESDEvent& esd);
08b38f3f 119 Int_t ConvertHMPID(const AliESDEvent& esd);
b2b65de9 120 void ConvertTRD(const AliESDEvent& esd);
63825dc4 121 void CopyCaloProps(AliESDtrack *esdt, AliAODTrack *aodt);
37b92631 122
c7ef1c47 123 TClonesArray& Tracks();
124 TClonesArray& V0s();
125 TClonesArray& Vertices();
126 TClonesArray& Cascades();
127
128 // Filtering
129 AliAnalysisFilter* fTrackFilter; // Track Filter
130 AliAnalysisFilter* fKinkFilter; // Kink Filter
131 AliAnalysisFilter* fV0Filter; // V0 Filter
132 AliAnalysisFilter* fCascadeFilter; // Cascade Filter
133 // PID
134 Double_t fHighPthreshold; // Pt threshold for detector signal setting
135 TF1 * fPtshape; // Pt spectrum distribution
136 Bool_t fEnableFillAOD; // value that decides if this task activates AOD filling
137 Bool_t* fUsedTrack; //! indices of used tracks
b2b65de9 138 UInt_t* fUsedTrackCopy; //! filterbits of tracks for which a copy was added to the AODs
c7ef1c47 139 Bool_t* fUsedKink; //! indices of used kinks
140 Bool_t* fUsedV0; //! indices of used V0s
141 TRefArray* fAODTrackRefs; // array of track references
142 TRefArray* fAODV0VtxRefs; // array of v0 vertices references
143 TRefArray* fAODV0Refs ; // array of v0s references
144 AliMCEventHandler* fMChandler; // pointer to MC handler (if any)
145 Int_t fNumberOfTracks; // current number of tracks
146 Int_t fNumberOfPositiveTracks; // current number of positive tracks
147 Int_t fNumberOfV0s; // current number of v0s
148 Int_t fNumberOfVertices; // current number of vertices
149 Int_t fNumberOfCascades; // current number of cascades
150 Int_t fNumberOfKinks; // current number of kinks
151 Bool_t fOldESDformat; // is the ESD in old format ?
152 AliAODVertex* fPrimaryVertex; // pointer to primary vertex of the event
67abcce9 153 UInt_t fTPCConstrainedFilterMask; // Filter Mask used to select and store refitted TPC only tracks
154 UInt_t fHybridFilterMaskTPCCG; // Filter Mask used to mark global tracks as hybrid
155 Bool_t fWriteHybridTPCCOnly;// write only the complent tracks not all global constrained
156
157 UInt_t fGlobalConstrainedFilterMask; // Filter Mask used to select and store refitted TPC only tracks
158 UInt_t fHybridFilterMaskGCG; // Filter Mask used to mark global tracks as hybrid
159 Bool_t fWriteHybridGCOnly;// write only the complent tracks not all global constrained
25a60d41 160
c7ef1c47 161 Bool_t fIsVZEROEnabled; // whether or not to fill the vzero branch (true by default)
a1f96974 162 Bool_t fIsTZEROEnabled; // whether or not to fill the tzero branch (true by default)
8c87d22c 163 Bool_t fIsZDCEnabled; // whether or not to fill the zdc branch (true by default)
08b38f3f 164 Bool_t fIsHMPIDEnabled; // whether or not to fill the hmpid branch (true by default)
b8d29a28 165 Bool_t fIsV0CascadeRecoEnabled; // whether or not to reconstruct again V0s and cascades (false by default)
c7ef1c47 166 Bool_t fAreCascadesEnabled; // whether or not to fill the cascades branch (true by default)
167 Bool_t fAreV0sEnabled; // whether or not to fill the v0 branch (true by default)
168 Bool_t fAreKinksEnabled; // whether or not to fill the kinks (true by default)
169 Bool_t fAreTracksEnabled; // whether or not to fill the (central) tracks branch (true by default)
170 Bool_t fArePmdClustersEnabled; // whether or not to fill the pmd clusters (true by default)
171 Bool_t fAreCaloClustersEnabled; // whether or not to fill the calo clusters (true by default)
172 Bool_t fAreEMCALCellsEnabled; // whether or not to fill the emcal cells (true by default)
173 Bool_t fArePHOSCellsEnabled; // whether or not to fill the phos cells (true by default)
720f7306 174 Bool_t fAreEMCALTriggerEnabled; // whether or not to fill the emcal trigger (true by default)
175 Bool_t fArePHOSTriggerEnabled; // whether or not to fill the phos trigger (true by default)
c7ef1c47 176 Bool_t fAreTrackletsEnabled; // whether or not to fill the tracklets (true by default)
b2b65de9 177 Bool_t fIsTRDEnabled; // whether or not to fill on-line tracklets and tracks from TRD (true by default)
c7ef1c47 178 AliESDpid* fESDpid; // esd pid
179 Bool_t fIsPidOwner; // whether we own fESDpid
2f5ee3b7 180 AliESDtrackCuts* fTPCaloneTrackCuts; // TPC stand-alone track cuts
b8d29a28 181 Double_t fV0Cuts[7]; // Array to store the values for the different reco selections V0 related
182 Double_t fCascadeCuts[8]; // Array to store the values for the different reco selections cascades related
a29b2a8a 183 Bool_t fDoPropagateTrackToEMCal; // whether or not to propagate the tracks to the EMCal surface -- true by default
184 Double_t fEMCalSurfaceDistance; // EMCal surface distance from the center of the detector (r = 440 by default)
db47bd9e 185 //
186 Int_t fRefitVertexTracks; // request to refit the vertex if >=0 (algoID if cuts not supplied, otherwise ncuts)
187 Double_t* fRefitVertexTracksCuts; // optional cuts for vertex refit
b8d29a28 188
db47bd9e 189 ClassDef(AliAnalysisTaskESDfilter, 18); // Analysis task for standard ESD filtering
c7ef1c47 190};
b8d29a28 191
c7ef1c47 192#endif