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16 // The class AliCFTrackIsPrimaryCut is designed to select reconstructed tracks
17 // with a small impact parameter and tracks which are (not) daughters of kink
18 // decays and to provide corresponding QA histograms.
19 // This class inherits from the Analysis' Framework abstract base class
20 // AliAnalysisCuts and is a part of the Correction Framework.
21 // This class acts on single, reconstructed tracks, it is applicable on
23 // It mainly consists of a IsSelected function that returns a boolean.
24 // This function checks whether the considered track passes a set of cuts:
25 // - min. and max. distance to main vertex in transverse plane (xy)
26 // - min. and max. longitudinal distance to main vertex (z)
27 // - min. and max. distance to main vertex as ellpise in xy - z plane
28 // - all above cuts on absolute values or in units of sigma (resolution)
29 // - min. and max. distance to main vertex in units of sigma (resolution)
30 // - max. transverse (xy) and longitudinal (z) impact parameter resolution
31 // - require that the dca calculation doesn't fail
32 // - accept or not accept daughter tracks of kink decays
34 // By default, the distance to 'vertex calculated from tracks' is used.
35 // Optionally the SPD (tracklet based) or TPC (TPC only tracks based) vertex
37 // Note: the distance to the TPC-vertex is already stored in the ESD,
38 // the distance to the SPD-vertex has to be re-calculated by propagating each
39 // track while executing this cut.
41 // The cut values for these cuts are set with the corresponding set functions.
42 // All cut classes provided by the correction framework are supposed to be
43 // added in the Analysis Framwork's class AliAnalysisFilter and applied by
44 // the filter via a loop.
46 // author: I. Kraus (Ingrid.Kraus@cern.ch)
48 // AliESDtrackCuts writte by Jan Fiete Grosse-Oetringhaus and
49 // AliRsnDaughterCut class written by A. Pulvirenti.
51 #ifndef ALICFTRACKISPRIMARYCUTS_H
52 #define ALICFTRACKISPRIMARYCUTS_H
54 #include "AliCFCutBase.h"
55 #include "AliAODTrack.h"
57 #include "AliESDtrackCuts.h"
62 class AliCFTrackIsPrimaryCuts : public AliCFCutBase
65 AliCFTrackIsPrimaryCuts() ;
66 AliCFTrackIsPrimaryCuts(Char_t* name, Char_t* title) ;
67 AliCFTrackIsPrimaryCuts(const AliCFTrackIsPrimaryCuts& c) ;
68 AliCFTrackIsPrimaryCuts& operator=(const AliCFTrackIsPrimaryCuts& c) ;
69 ~AliCFTrackIsPrimaryCuts();
70 void Copy(TObject &c) const;
72 Bool_t IsSelected(TObject* obj);
73 Bool_t IsSelected(TList* /*list*/) {return kTRUE;}
76 void UseSPDvertex(Bool_t b=kFALSE);
77 void UseTPCvertex(Bool_t b=kFALSE);
78 void SetMinDCAToVertexXY(Float_t dist=0.) {fMinDCAToVertexXY = dist;}
79 void SetMinDCAToVertexZ(Float_t dist=0.) {fMinDCAToVertexZ = dist;}
80 void SetMaxDCAToVertexXY(Float_t dist=1e10) {fMaxDCAToVertexXY = dist;}
81 void SetMaxDCAToVertexZ(Float_t dist=1e10) {fMaxDCAToVertexZ = dist;}
82 void SetDCAToVertex2D(Bool_t b=kFALSE) {fDCAToVertex2D = b;}
83 void SetAbsDCAToVertex(Bool_t b=kTRUE) {fAbsDCAToVertex = b;}
84 void SetMinNSigmaToVertex(Double_t sigmaMin=0.) {fNSigmaToVertexMin = sigmaMin;}
85 void SetMaxNSigmaToVertex(Double_t sigmaMax=1.e+10) {fNSigmaToVertexMax = sigmaMax;}
86 void SetMaxSigmaDCAxy(Double_t sigmaMax=1.e+10) {fSigmaDCAxy = sigmaMax;}
87 void SetMaxSigmaDCAz(Double_t sigmaMax=1.e+10) {fSigmaDCAz = sigmaMax;}
88 void SetRequireSigmaToVertex(Bool_t b=kFALSE) {fRequireSigmaToVertex=b;}
89 void SetAcceptKinkDaughters(Bool_t b=kTRUE) {fAcceptKinkDaughters=b;}
90 void SetAODType(Char_t type=AliAODTrack::kUndef) {fAODType = type;}
93 void DrawHistograms();
94 void SaveHistograms(const Char_t* dir = 0);
95 void AddQAHistograms(TList *qaList);
96 // QA histogram setter
97 // please use indices from the enumeration below
98 void SetHistogramBins(Int_t index, Int_t nbins, Double_t *bins);
99 void SetHistogramBins(Int_t index, Int_t nbins, Double_t xmin, Double_t xmax);
100 virtual void SetRecEventInfo(const TObject* esd) ;
102 // indeces/counters for single selections
104 kCutNSigmaToVertex=0, // tracks's distance to main vertex in units of sigma
105 kCutRequireSigmaToVertex, // calculation is successful
106 kCutAcceptKinkDaughters, // do (not) accept secondaries
107 kDcaXY, // controll histogram: dca in xy plane
108 kDcaZ, // controll histogram: dca along z axis
109 kDcaXYnorm, // controll histogram: normalised dca in xy plane
110 kDcaZnorm, // controll histogram: normalised dca along z axis
111 kSigmaDcaXY, // controll histogram: impact parameter resolution in transverse plane
112 kSigmaDcaZ, // controll histogram: impact parameter resolution along z axis
113 kCutAODType, // cut on AliAODTrack::fType
114 kNCuts=9, // number of single selections
115 kNStepQA=2, // number of QA steps (before/after the cuts)
116 kNHist=9 // number of QA histograms
120 void SelectionBitMap(TObject* obj);
121 void GetDCA(AliESDtrack* esdTrack);
122 void DefineHistograms(); // books histograms and TList
123 void Initialise(); // sets everything to 0
124 void FillHistograms(TObject* obj, Bool_t b);
125 // Fills histograms before and after cuts
126 AliESDEvent* fESD; // pointer to event, needed for SPD vertex
127 Bool_t fUseSPDvertex; // flag: calculate dca to SPD-vertex, off by default
128 Bool_t fUseTPCvertex; // flag: calculate dca to TPC-vertex, off by default
129 Double_t fMinDCAToVertexXY; // cut value: min distance to main vertex in transverse plane
130 Double_t fMinDCAToVertexZ; // cut value: min longitudinal distance to main vertex
131 Double_t fMaxDCAToVertexXY; // cut value: max distance to main vertex in transverse plane
132 Double_t fMaxDCAToVertexZ; // cut value: max longitudinal distance to main vertex
133 Bool_t fDCAToVertex2D; // flag: cut on ellipse in xy - z plane
134 Bool_t fAbsDCAToVertex; // flag: cut on absolute values or in units of sigma
135 Double_t fNSigmaToVertexMin; // cut value: min distance to main vertex in units of sigma
136 Double_t fNSigmaToVertexMax; // cut value: max distance to main vertex in units of sigma
137 Double_t fSigmaDCAxy; // cut value: impact parameter resolution in xy plane
138 Double_t fSigmaDCAz; // cut value: impact parameter resolution in z direction
139 Double_t fDCA[6]; // impact parameters
140 Bool_t fRequireSigmaToVertex; // require calculable distance to main vertex
141 Char_t fAODType; // type of AOD track (undef, primary, secondary, orphan)
142 // applicable at AOD level only !
144 TH2F* fhDcaXYvsDcaZ[2]; // Histogram: dca xy vs. z
145 Bool_t fAcceptKinkDaughters; // accepting kink daughters
147 TH1F* fhCutStatistics; // Histogram: statistics of what cuts the tracks did not survive
148 TH2F* fhCutCorrelation; // Histogram: 2d statistics plot
150 TH1F* fhQA[kNHist][kNStepQA]; // QA Histograms
151 TBits *fBitmap ; // stores single selection decisions
153 // QA histogram setters
154 Int_t fhNBinsNSigma; // number of bins+1: dca in units of sigma
155 Int_t fhNBinsRequireSigma; // number of bins+1: require successful calcuation
156 Int_t fhNBinsAcceptKink; // number of bins+1: acceptkink daughters
157 Int_t fhNBinsDcaXY; // number of bins+1: dca in transverse plane
158 Int_t fhNBinsDcaZ; // number of bins+1: dca along beam axis
159 Int_t fhNBinsDcaXYnorm; // number of bins+1: normalised dca in transverse plane
160 Int_t fhNBinsDcaZnorm; // number of bins+1: normalised dca along beam axis
161 Int_t fhNBinsSigmaDcaXY; // number of bins+1: impact parameter resolution in transverse plane
162 Int_t fhNBinsSigmaDcaZ; // number of bins+1: impact parameter resolution along beam axis
164 Double_t *fhBinLimNSigma; //[fhNBinsNSigma] bin limits: dca in units of sigma
165 Double_t *fhBinLimRequireSigma;//[fhNBinsRequireSigma] bin limits: require successful calcuation
166 Double_t *fhBinLimAcceptKink;//[fhNBinsAcceptKink] bin limits: acceptkink daughters
167 Double_t *fhBinLimDcaXY;//[fhNBinsDcaXY] bin limits: dca in transverse plane
168 Double_t *fhBinLimDcaZ; //[fhNBinsDcaZ] bin limits: dca along beam axis
169 Double_t *fhBinLimDcaXYnorm; //[fhNBinsDcaXYnorm] bin limits: normalised dca in transverse plane
170 Double_t *fhBinLimDcaZnorm;//[fhNBinsDcaZnorm] bin limits: normalised dca along beam axis
171 Double_t *fhBinLimSigmaDcaXY; //[fhNBinsSigmaDcaXY] bin limits: impact parameter in transverse plane
172 Double_t *fhBinLimSigmaDcaZ; //[fhNBinsSigmaDcaZ] bin limits: impact parameter along beam axis
174 ClassDef(AliCFTrackIsPrimaryCuts,3);