During simulation: fill STU region w/ non null time sums
[u/mrichter/AliRoot.git] / TPC / AliTPCseed.h
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81e97e0d 1#ifndef ALITPCSEED_H
2#define ALITPCSEED_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6
7/* $Id$ */
8
9//-------------------------------------------------------
10// TPC seed
11// Class needed for TPC parallel tracking
12//
13// Origin:
14//-------------------------------------------------------
15
16#include <TError.h>
19b00333 17#include <TBits.h>
81e97e0d 18
19#include "AliTPCtrack.h"
20#include "AliComplexCluster.h"
21#include "AliPID.h"
22
23class TFile;
24class AliTPCParam;
25class AliTPCseed;
26class AliTPCclusterMI;
27class AliTPCTrackerPoint;
7cd8ac3f 28class AliESD;
29class AliTPCCalPad;
81e97e0d 30class TClonesArray;
31
32class AliTPCseed : public AliTPCtrack {
81e97e0d 33 public:
34 AliTPCseed();
35 virtual ~AliTPCseed();
36 AliTPCseed(const AliTPCtrack &t);
2928bdf0 37 AliTPCseed(const AliTPCseed &s, Bool_t clusterOwner = kFALSE);
81e97e0d 38 //AliTPCseed(const AliTPCseed &t, Double_t a);
6c94f330 39 AliTPCseed(Double_t xr, Double_t alpha, const Double_t xx[5],
179c6296 40 const Double_t cc[15], Int_t i);
41 AliTPCseed &operator = (const AliTPCseed & param);
f06a1ff6 42 void Clear(Option_t* = "");
87e92a27 43 static Int_t RefitTrack(AliTPCseed* seed, AliExternalTrackParam * in, AliExternalTrackParam * out);
44 Bool_t RefitTrack(AliTPCseed* seed, Bool_t out);
81e97e0d 45 Int_t Compare(const TObject *o) const;
46 void Reset(Bool_t all = kTRUE);
47 Int_t GetProlongation(Double_t xr, Double_t &y, Double_t & z) const;
af32720d 48 virtual Double_t GetPredictedChi2(const AliCluster *cluster2) const;
6c94f330 49 virtual Bool_t Update(const AliCluster* c2, Double_t chi2, Int_t i);
81e97e0d 50 AliTPCTrackerPoint * GetTrackPoint(Int_t i);
c6c5e49f 51 AliTPCclusterMI * GetClusterFast(Int_t irow){ return fClusterPointer[irow];}
b9671574 52 void SetClusterPointer(Int_t irow, AliTPCclusterMI* cl) {fClusterPointer[irow]=cl;}
81e97e0d 53 Double_t GetDensityFirst(Int_t n);
6c94f330 54 Double_t GetSigma2C() const {
55 Double_t cnv=GetBz()*kB2C;
56 return GetSigma1Pt2()*cnv*cnv;
57 }
81e97e0d 58 void GetClusterStatistic(Int_t first, Int_t last, Int_t &found, Int_t &foundable, Int_t &shared, Bool_t plus2);
59
60 void Modify(Double_t factor);
61 void SetClusterIndex2(Int_t row, Int_t index) {
62 fIndex[row] = index;
63 }
64 Int_t GetClusterIndex2(Int_t row) const {
65 return fIndex[row];
66 }
67 Int_t GetClusterSector(Int_t row) const {
68 Int_t pica = -1;
69 if (fIndex[row]>=0) pica = ((fIndex[row]&0xff000000)>>24);
70 return pica;
71 }
72
6c94f330 73 Double_t GetYat(Double_t x) const;
74
81e97e0d 75 void SetErrorY2(Float_t sy2){fErrorY2=sy2;}
76 void SetErrorZ2(Float_t sz2){fErrorZ2=sz2;}
105b1b81 77 Float_t CookdEdx(Double_t low=0.05, Double_t up=0.70, Int_t i1=0, Int_t i2=159, Bool_t onlyused = kFALSE);
eb02f63a 78 Float_t CookShape(Int_t type);
f845ec0a 79 // Float_t CookShape2(Int_t type,Bool_t withQ);
81e97e0d 80 void CookPID();
81e97e0d 81 Bool_t IsActive() const { return !(fRemoval);}
82 void Desactivate(Int_t reason){ fRemoval = reason;}
b9671574 83 AliTPCclusterMI* GetClusterPointer(Int_t i) const {return fClusterPointer[i];}
84 Int_t GetSector() const {return fSector;}
85 Float_t GetCurrentSigmaY2() const {return fCurrentSigmaY2;}
86 Float_t GetCurrentSigmaZ2() const {return fCurrentSigmaZ2;}
87 Int_t GetRelativeSector() const {return fRelativeSector;}
88 Char_t GetCircular() const {return fCircular;}
89
90 void SetCurrentSigmaY2(Float_t s) {fCurrentSigmaY2=s;}
91 void SetCurrentSigmaZ2(Float_t s) {fCurrentSigmaZ2=s;}
92 void SetRelativeSector(Int_t r) {fRelativeSector=r;}
93 void SetCircular(Char_t c) {fCircular=c;}
94 void SetIsSeeding(Bool_t s) {fIsSeeding=s;}
95 void SetSeedType(Int_t s) {fSeedType=s;}
96 void SetSeed1(Int_t s) {fSeed1=s;}
97 void SetSeed2(Int_t s) {fSeed2=s;}
98 void SetESD(AliESDtrack* esd) {fEsd=esd;}
99 void SetBSigned(Bool_t s) {fBSigned=s;}
100 void SetSort(Int_t s) {fSort=s;}
101 void SetOverlapLabel(Int_t i, Int_t l) {fOverlapLabels[i]=l;}
102 void SetCurrentCluster(AliTPCclusterMI* cl) {fCurrentCluster=cl;}
103 void SetNoCluster(Int_t n) {fNoCluster=n;}
104 void SetRow(Int_t n) {fRow=n;}
105 void SetSector(Int_t n) {fSector=n;}
106 void SetCurrentClusterIndex1(Int_t n) {fCurrentClusterIndex1=n;}
107 void SetInDead(Bool_t s) {fInDead=s;}
b9671574 108
109 Double_t TPCrPID(Int_t i) const {return fTPCr[i];}
110 Double_t* TPCrPIDs() {return fTPCr;}
111 Bool_t GetIsSeeding() const {return fIsSeeding;}
112 Int_t GetSeedType() const {return fSeedType;}
113 Int_t GetSeed1() const {return fSeed1;}
114 Int_t GetSeed2() const {return fSeed2;}
115 AliESDtrack* GetESD() {return fEsd;}
116 Float_t GetSDEDX(Int_t i) const {return fSDEDX[i];}
64bf5ca0 117 Float_t GetDEDXregion(Int_t i) const {return fDEDX[i];}
b9671574 118 Int_t GetNCDEDX(Int_t i) const {return fNCDEDX[i];}
64bf5ca0 119 Int_t GetNCDEDXInclThres(Int_t i) const {return fNCDEDXInclThres[i];}
b9671574 120 Bool_t GetBSigned() const {return fBSigned;}
121 Int_t GetSort() const {return fSort;}
122 Int_t GetOverlapLabel(Int_t i) const {return fOverlapLabels[i];}
123 AliTPCclusterMI* GetCurrentCluster() const {return fCurrentCluster;}
124 Int_t GetNoCluster() const {return fNoCluster;}
125 Int_t GetRow() const {return fRow;}
126 Int_t GetCurrentClusterIndex1() const {return fCurrentClusterIndex1;}
127 Bool_t GetInDead() const {return fInDead;}
128 Float_t GetErrorY2() const {return fErrorY2;}
129 Float_t GetErrorZ2() const {return fErrorZ2;}
e0e13b88 130 Float_t GetCMeanSigmaY2p30() const {return fCMeanSigmaY2p30;}
131 Float_t GetCMeanSigmaZ2p30() const {return fCMeanSigmaZ2p30;}
c07cb486 132 Float_t GetCMeanSigmaY2p30R() const {return fCMeanSigmaY2p30R;}
133 Float_t GetCMeanSigmaZ2p30R() const {return fCMeanSigmaZ2p30R;}
81e97e0d 134 //
135 //
19b00333 136
8a92e133 137 Float_t CookdEdxNorm(Double_t low=0.05, Double_t up=0.70, Int_t type=0, Int_t i1=0, Int_t i2=159, Bool_t shapeNorm=kTRUE, Int_t posNorm=0, Int_t padNorm=0,Int_t returnVal=0);
138
6feb400f 139 Float_t CookdEdxAnalytical(Double_t low=0.05, Double_t up=0.70, Int_t type=0, Int_t i1=0, Int_t i2=159, Int_t returnVal=0, Int_t rowThres = 2, Int_t mode=0);
8a92e133 140
3247d397 141 static void GetError(AliTPCclusterMI* cluster, AliExternalTrackParam * param,
142 Double_t& erry, Double_t &errz);
143 static void GetShape(AliTPCclusterMI* cluster, AliExternalTrackParam * param,
144 Double_t& rmsy, Double_t &rmsz);
ba5e52fb 145 static Double_t GetQCorrGeom(Float_t ty, Float_t tz);
146 static Double_t GetQCorrShape(Int_t ipad, Int_t type,Float_t z, Float_t ty, Float_t tz, Float_t q, Float_t thr);
64bf5ca0 147 //
148 Float_t GetTPCClustInfo(Int_t nNeighbours, Int_t type, Int_t row0, Int_t row1);
f06a1ff6 149 void SetPoolID(Int_t id) {fPoolID = id;}
150 Int_t GetPoolID() const {return fPoolID;}
81e97e0d 151 private:
152 // AliTPCseed & operator = (const AliTPCseed &)
153 // {::Fatal("= operator","Not Implemented\n");return *this;}
154 AliESDtrack * fEsd; //!
105b1b81 155 AliTPCclusterMI* fClusterPointer[160]; // array of cluster pointers -
2928bdf0 156 Bool_t fClusterOwner; // indicates the track is owner of cluster
81e97e0d 157 //---CURRENT VALUES
6d493ea0 158 Int_t fRow; // current row number
159 Int_t fSector; // current sector number
160 Int_t fRelativeSector; // index of current relative sector
81e97e0d 161 Float_t fCurrentSigmaY2; //!expected current cluster sigma Y
162 Float_t fCurrentSigmaZ2; //!expected current cluster sigma Z
e0e13b88 163 Float_t fCMeanSigmaY2p30; //! current mean sigma Y2 - mean30%
164 Float_t fCMeanSigmaZ2p30; //! current mean sigma Z2 - mean30%
c07cb486 165 Float_t fCMeanSigmaY2p30R; //! current relative mean sigma Y2 - mean30%
166 Float_t fCMeanSigmaZ2p30R; //! current relative mean sigma Z2 - mean30%
81e97e0d 167 Float_t fErrorY2; //!sigma of current cluster
168 Float_t fErrorZ2; //!sigma of current cluster
169 AliTPCclusterMI * fCurrentCluster; //!pointer to the current cluster for prolongation
170 Int_t fCurrentClusterIndex1; //! index of the current cluster
171 Bool_t fInDead; //! indicate if the track is in dead zone
172 Bool_t fIsSeeding; //!indicates if it is proces of seeading
173 Int_t fNoCluster; //!indicates number of rows without clusters
174 Int_t fSort; //!indicate criteria for sorting
175 Bool_t fBSigned; //indicates that clusters of this trackes are signed to be used
176 //
177 //
64bf5ca0 178 Float_t fDEDX[5]; // dedx according padrows
179 Float_t fSDEDX[4]; // sdedx according padrows
180 Int_t fNCDEDX[4]; // number of clusters for dedx measurment
181 Int_t fNCDEDXInclThres[4]; // number of clusters for dedx measurment including sub-threshold clusters
81e97e0d 182 Double_t fTPCr[AliPID::kSPECIES]; // rough PID according TPC
183 //
184 Int_t fSeedType; //seeding type
185 Int_t fSeed1; //first row for seeding
186 Int_t fSeed2; //last row for seeding
187 Int_t fOverlapLabels[12]; //track labels and the length of the overlap
188 Float_t fMAngular; // mean angular factor
189 Char_t fCircular; // indicates curlin track
105b1b81 190 AliTPCTrackerPoint fTrackPoints[160]; //track points - array track points
f06a1ff6 191 Int_t fPoolID; //! id in the pool
192 ClassDef(AliTPCseed,6)
81e97e0d 193};
194
195
196
197
198
199#endif
200
201