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[u/mrichter/AliRoot.git] / STEER / ESD / AliESDtrack.h
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ae982df3 1#ifndef ALIESDTRACK_H
2#define ALIESDTRACK_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
ac3faee4 6/* $Id$ */
7
ae982df3 8//-------------------------------------------------------------------------
9// Class AliESDtrack
15614b8b 10// This is the class to deal with during the physics analysis of data
ae982df3 11//
12// Origin: Iouri Belikov, CERN, Jouri.Belikov@cern.ch
13//-------------------------------------------------------------------------
23904d16 14/*****************************************************************************
15 * Use GetExternalParameters() and GetExternalCovariance() to access the *
16 * track information regardless of its internal representation. *
17 * This formation is now fixed in the following way: *
18 * external param0: local Y-coordinate of a track (cm) *
19 * external param1: local Z-coordinate of a track (cm) *
20 * external param2: local sine of the track momentum azimuthal angle *
21 * external param3: tangent of the track momentum dip angle *
22 * external param4: 1/pt (1/(GeV/c)) *
31923a9f 23 * *
24 * The Get*Label() getters return the label of the associated MC particle. *
25 * The absolute value of this label is the index of the particle within the *
26 * MC stack. If the label is negative, this track was assigned a certain *
27 * number of clusters that did not in fact belong to this track. *
23904d16 28 *****************************************************************************/
ac3faee4 29
a866ac60 30#include <TBits.h>
c9ec41e8 31#include "AliExternalTrackParam.h"
4f6e22bd 32#include "AliVTrack.h"
304864ab 33#include "AliPID.h"
15e85efa 34#include "AliESDfriendTrack.h"
40b4e5ea 35#include "AliTPCdEdxInfo.h"
15e85efa 36
49edfa08 37class TParticle;
49d13e89 38class AliESDVertex;
95621324 39class AliESDEvent;
ae982df3 40class AliKalmanTrack;
98937d93 41class AliTrackPointArray;
0c19adf7 42class TPolyMarker3D;
ddfbc51a 43
40b4e5ea 44
c9ec41e8 45class AliESDtrack : public AliExternalTrackParam {
ae982df3 46public:
6c3c2a50 47 //
48 enum {kNITSchi2Std=3};
49 //
ae982df3 50 AliESDtrack();
c4d11b15 51 AliESDtrack(const AliESDtrack& track);
4f6e22bd 52 AliESDtrack(const AliVTrack* track);
49edfa08 53 AliESDtrack(TParticle * part);
51ad6848 54 virtual ~AliESDtrack();
732a24fe 55 virtual void Copy(TObject &obj) const;
15e85efa 56 const AliESDfriendTrack *GetFriendTrack() const {return fFriendTrack;}
ddfbc51a 57 void SetFriendTrack(const AliESDfriendTrack *t) {
58 delete fFriendTrack; fFriendTrack=new AliESDfriendTrack(*t);
59 }
60 void ReleaseESDfriendTrack() { delete fFriendTrack; fFriendTrack=0; }
00dce61a 61 void AddCalibObject(TObject * object); // add calib object to the list
62 TObject * GetCalibObject(Int_t index); // return calib objct at given position
9559cbc4 63 void MakeMiniESDtrack();
c8fe2783 64 void SetID(Short_t id) { fID =id;}
e1e6896f 65 Int_t GetID() const { return fID;}
6dc21f57 66 void SetVertexID(Char_t id) { fVertexID=id;}
67 Char_t GetVertexID() const { return fVertexID;}
ae982df3 68 void SetStatus(ULong_t flags) {fFlags|=flags;}
69 void ResetStatus(ULong_t flags) {fFlags&=~flags;}
15614b8b 70 Bool_t UpdateTrackParams(const AliKalmanTrack *t, ULong_t flags);
ae982df3 71 void SetIntegratedLength(Double_t l) {fTrackLength=l;}
72 void SetIntegratedTimes(const Double_t *times);
8c6a71ab 73 void SetESDpid(const Double_t *p);
74 void GetESDpid(Double_t *p) const;
67be2d29 75 virtual const Double_t *PID() const { return fR; }
4f6e22bd 76
15e85efa 77 Bool_t IsOn(Int_t mask) const {return (fFlags&mask)>0;}
ae982df3 78 ULong_t GetStatus() const {return fFlags;}
79 Int_t GetLabel() const {return fLabel;}
a33a2f3d 80 void SetLabel(Int_t label) {fLabel = label;}
c9ec41e8 81
ae982df3 82 void GetExternalParameters(Double_t &x, Double_t p[5]) const;
83 void GetExternalCovariance(Double_t cov[15]) const;
23904d16 84
ae982df3 85 Double_t GetIntegratedLength() const {return fTrackLength;}
86 void GetIntegratedTimes(Double_t *times) const;
bf7942ff 87 Int_t GetPID() const;
a512bf97 88 Int_t GetTOFBunchCrossing(Double_t b=0) const;
bf7942ff 89 Double_t GetMass() const {return AliPID::ParticleMass(GetPID());}
6b5b49c9 90 Double_t M() const;
aad8d435 91 Double_t E() const;
92 Double_t Y() const;
c0b978f0 93
c9ec41e8 94 Bool_t GetConstrainedPxPyPz(Double_t *p) const {
95 if (!fCp) return kFALSE;
96 return fCp->GetPxPyPz(p);
97 }
98 Bool_t GetConstrainedXYZ(Double_t *r) const {
99 if (!fCp) return kFALSE;
100 return fCp->GetXYZ(r);
101 }
6c4ef2ed 102 const AliExternalTrackParam *GetConstrainedParam() const {return fCp;}
c0b978f0 103 Bool_t GetConstrainedExternalParameters
104 (Double_t &alpha, Double_t &x, Double_t p[5]) const;
105 Bool_t GetConstrainedExternalCovariance(Double_t cov[15]) const;
c9ec41e8 106 Double_t GetConstrainedChi2() const {return fCchi2;}
4c3dc2a0 107 Double_t GetChi2TPCConstrainedVsGlobal(const AliESDVertex* vtx) const;
4aeb9470 108 //
b9ca886f 109
b5b2b4db 110 // global track chi2
111 void SetGlobalChi2(Double_t chi2) {fGlobalChi2 = chi2;}
112 Double_t GetGlobalChi2() const {return fGlobalChi2;}
67c3dcbe 113
c9ec41e8 114 Bool_t GetInnerPxPyPz(Double_t *p) const {
115 if (!fIp) return kFALSE;
116 return fIp->GetPxPyPz(p);
117 }
1d303a24 118 const AliExternalTrackParam * GetInnerParam() const { return fIp;}
4aeb9470 119 const AliExternalTrackParam * GetTPCInnerParam() const {return fTPCInner;}
f12d42ce 120 Bool_t FillTPCOnlyTrack(AliESDtrack &track);
c9ec41e8 121 Bool_t GetInnerXYZ(Double_t *r) const {
122 if (!fIp) return kFALSE;
123 return fIp->GetXYZ(r);
124 }
c0b978f0 125 Bool_t GetInnerExternalParameters
126 (Double_t &alpha, Double_t &x, Double_t p[5]) const;
127 Bool_t GetInnerExternalCovariance(Double_t cov[15]) const;
98937d93 128
d61ca12d 129 void SetOuterParam(const AliExternalTrackParam *p, ULong_t flags);
130
c38d443f 131 void SetOuterHmpParam(const AliExternalTrackParam *p, ULong_t flags);
132
1d303a24 133 const AliExternalTrackParam * GetOuterParam() const { return fOp;}
c38d443f 134
135 const AliExternalTrackParam * GetOuterHmpParam() const { return fHMPIDp;}
136
c0b978f0 137 Bool_t GetOuterPxPyPz(Double_t *p) const {
138 if (!fOp) return kFALSE;
139 return fOp->GetPxPyPz(p);
140 }
c38d443f 141 Bool_t GetOuterHmpPxPyPz(Double_t *p) const {
142 if (!fHMPIDp) return kFALSE;
143 return fHMPIDp->GetPxPyPz(p);
144 }
145
c0b978f0 146 Bool_t GetOuterXYZ(Double_t *r) const {
147 if (!fOp) return kFALSE;
148 return fOp->GetXYZ(r);
c9ec41e8 149 }
c38d443f 150 Bool_t GetOuterHmpXYZ(Double_t *r) const {
151 if (!fHMPIDp) return kFALSE;
152 return fHMPIDp->GetXYZ(r);
153 }
154
c0b978f0 155 Bool_t GetOuterExternalParameters
156 (Double_t &alpha, Double_t &x, Double_t p[5]) const;
157 Bool_t GetOuterExternalCovariance(Double_t cov[15]) const;
158
c38d443f 159 Bool_t GetOuterHmpExternalParameters
160 (Double_t &alpha, Double_t &x, Double_t p[5]) const;
161 Bool_t GetOuterHmpExternalCovariance(Double_t cov[15]) const;
c9ec41e8 162
c38d443f 163
98937d93 164 Int_t GetNcls(Int_t idet) const;
ef7253ac 165 Int_t GetClusters(Int_t idet, Int_t *idx) const;
98937d93 166
15e85efa 167 void SetITSpid(const Double_t *p);
168 void GetITSpid(Double_t *p) const;
1d4882da 169
562dd0b4 170 Double_t GetITSsignal() const {return fITSsignal;}
1d4882da 171 void SetITSdEdxSamples(const Double_t s[4]);
172 void GetITSdEdxSamples(Double_t *s) const;
173
562dd0b4 174 Double_t GetITSchi2() const {return fITSchi2;}
6c3c2a50 175 Double_t GetITSchi2Std(Int_t step) const {return (step>-1&&step<kNITSchi2Std) ? fITSchi2Std[step] : -1;}
176 void SetITSchi2Std(Double_t chi2, Int_t step) { if (step>-1&&step<kNITSchi2Std) fITSchi2Std[step] = chi2;}
562dd0b4 177 Char_t GetITSclusters(Int_t *idx) const;
62665e7f 178 UChar_t GetITSClusterMap() const {return fITSClusterMap;}
25015f7a 179 UChar_t GetITSSharedMap() const {return fITSSharedMap;}
a1810dab 180 void SetITSSharedFlag(int lr) {fITSSharedMap |= 0x1<<lr;}
181 Bool_t GetITSFakeFlag() const {return (fITSSharedMap&BIT(7))!=0;}
182 void SetITSFakeFlag(Bool_t v=kTRUE) {if (v) fITSSharedMap|=BIT(7); else fITSSharedMap&=~BIT(7);}
25015f7a 183 void SetITSSharedMap(UChar_t map) {fITSSharedMap=map;}
89f1b176 184 void SetITSModuleIndex(Int_t ilayer,Int_t idx) {fITSModule[ilayer]=idx;}
185 Int_t GetITSModuleIndex(Int_t ilayer) const {return fITSModule[ilayer];}
186 Bool_t GetITSModuleIndexInfo(Int_t ilayer,Int_t &idet,Int_t &status,
187 Float_t &xloc,Float_t &zloc) const;
15e85efa 188 Int_t GetITSLabel() const {return fITSLabel;}
15e85efa 189 void SetITStrack(AliKalmanTrack * track){
59c31692 190 if (fFriendTrack) fFriendTrack->SetITStrack(track);
15e85efa 191 }
192 AliKalmanTrack *GetITStrack(){
59c31692 193 return fFriendTrack!=NULL?fFriendTrack->GetITStrack():NULL;
15e85efa 194 }
6807ec41 195 Bool_t HasPointOnITSLayer(Int_t i) const {return TESTBIT(fITSClusterMap,i);}
25015f7a 196 Bool_t HasSharedPointOnITSLayer(Int_t i) const {return TESTBIT(fITSSharedMap,i);}
15e85efa 197
198 void SetTPCpid(const Double_t *p);
199 void GetTPCpid(Double_t *p) const;
200 void SetTPCPoints(Float_t points[4]){
201 for (Int_t i=0;i<4;i++) fTPCPoints[i]=points[i];
202 }
203 void SetTPCPointsF(UChar_t findable){fTPCnclsF = findable;}
949840f6 204 void SetTPCPointsFIter1(UChar_t findable){fTPCnclsFIter1 = findable;}
562dd0b4 205 UShort_t GetTPCNcls() const { return fTPCncls;}
206 UShort_t GetTPCNclsF() const { return fTPCnclsF;}
949840f6 207 UShort_t GetTPCNclsIter1() const { return fTPCnclsIter1;}
208 UShort_t GetTPCNclsFIter1() const { return fTPCnclsFIter1;}
209 UShort_t GetTPCnclsS(Int_t i0=0,Int_t i1=159) const;
beb01154 210 UShort_t GetTPCncls(Int_t row0=0,Int_t row1=159) const;
562dd0b4 211 Double_t GetTPCPoints(Int_t i) const {return fTPCPoints[i];}
15e85efa 212 void SetKinkIndexes(Int_t points[3]) {
213 for (Int_t i=0;i<3;i++) fKinkIndexes[i] = points[i];
214 }
215 void SetV0Indexes(Int_t points[3]) {
216 for (Int_t i=0;i<3;i++) fV0Indexes[i] = points[i];
217 }
218 void SetTPCsignal(Float_t signal, Float_t sigma, UChar_t npoints){
219 fTPCsignal = signal; fTPCsignalS = sigma; fTPCsignalN = npoints;
220 }
3876bdbf 221 void SetTPCdEdxInfo(AliTPCdEdxInfo * dEdxInfo);
222
40b4e5ea 223 AliTPCdEdxInfo * GetTPCdEdxInfo(){return fTPCdEdxInfo;}
562dd0b4 224 Double_t GetTPCsignal() const {return fTPCsignal;}
225 Double_t GetTPCsignalSigma() const {return fTPCsignalS;}
0eba927a 226 UShort_t GetTPCsignalN() const {return fTPCsignalN;}
d6e39fcb 227 Double_t GetTPCmomentum() const {return fIp?fIp->GetP():GetP();}
562dd0b4 228 Double_t GetTPCchi2() const {return fTPCchi2;}
949840f6 229 Double_t GetTPCchi2Iter1() const {return fTPCchi2Iter1;}
d6e39fcb 230 UShort_t GetTPCclusters(Int_t *idx) const;
562dd0b4 231 Double_t GetTPCdensity(Int_t row0, Int_t row1) const;
15e85efa 232 Int_t GetTPCLabel() const {return fTPCLabel;}
233 Int_t GetKinkIndex(Int_t i) const { return fKinkIndexes[i];}
234 Int_t GetV0Index(Int_t i) const { return fV0Indexes[i];}
9f638f03 235 const TBits& GetTPCFitMap() const {return fTPCFitMap;}
3a83c716 236 const TBits& GetTPCClusterMap() const {return fTPCClusterMap;}
eb7f6854 237 const TBits& GetTPCSharedMap() const {return fTPCSharedMap;}
9f638f03 238 void SetTPCFitMap(const TBits &amap) {fTPCFitMap = amap;}
239 void SetTPCClusterMap(const TBits &amap) {fTPCClusterMap = amap;}
240 void SetTPCSharedMap(const TBits &amap) {fTPCSharedMap = amap;}
25f906db 241 Float_t GetTPCClusterInfo(Int_t nNeighbours=3, Int_t type=0, Int_t row0=0, Int_t row1=159, Int_t bitType=0 ) const;
242 Float_t GetTPCClusterDensity(Int_t nNeighbours=3, Int_t type=0, Int_t row0=0, Int_t row1=159, Int_t bitType=0 ) const;
4c3dc2a0 243 Float_t GetTPCCrossedRows() const;
6a6f0c1f 244
15e85efa 245 void SetTRDpid(const Double_t *p);
4d565068 246 void SetTRDsignal(Double_t sig) {fTRDsignal = sig;}
247
c5be26b7 248// A.Bercuci
ed15ef4f 249 void SetTRDntracklets(UChar_t q){fTRDntracklets = q;}
778a6a17 250 UChar_t GetTRDntracklets() const {return (fTRDntracklets>>3)&7;}
251 UChar_t GetTRDntrackletsPID() const {return fTRDntracklets&7;}
252 // TEMPORARY alias asked by the HFE group to allow
253 // reading of the v4-16-Release data with TRUNK related software (A.Bercuci@Apr 30th 09)
254 UChar_t GetTRDpidQuality() const {return GetTRDntrackletsPID();}
e25fff1a 255 UChar_t GetTRDtrkltOccupancy(Int_t ly) const { return ly<kTRDnPlanes && ly>=0 ? fTRDTimBin[ly] & 0x1F : 0; }
256 UChar_t GetTRDtrkltClCross(Int_t ly) const { return ly<kTRDnPlanes && ly>=0 ? (fTRDTimBin[ly] >> 5) & 0x03 : 0; }
257 Bool_t IsTRDtrkltChmbGood(Int_t ly) const { return ly<kTRDnPlanes && ly>=0 ? ((fTRDTimBin[ly] >> 7) & 0x01) == 1 : kFALSE;}
258 // end A.Bercuci
4d565068 259
6984f7c1 260 void SetNumberOfTRDslices(Int_t n);
fae4c212 261 Int_t GetNumberOfTRDslices() const;
6984f7c1 262 void SetTRDslice(Double_t q, Int_t plane, Int_t slice);
fae4c212 263 void SetTRDmomentum(Double_t p, Int_t plane, Double_t *sp=0x0);
6984f7c1 264 Double_t GetTRDslice(Int_t plane, Int_t slice=-1) const;
fae4c212 265 Double_t GetTRDmomentum(Int_t plane, Double_t *sp=0x0) const;
c5be26b7 266
6984f7c1 267 void SetTRDQuality(Float_t quality){fTRDQuality=quality;}
562dd0b4 268 Double_t GetTRDQuality()const {return fTRDQuality;}
15e85efa 269 void SetTRDBudget(Float_t budget){fTRDBudget=budget;}
562dd0b4 270 Double_t GetTRDBudget()const {return fTRDBudget;}
6984f7c1 271
15e85efa 272 void SetTRDTimBin(Int_t timbin, Int_t i) {fTRDTimBin[i]=timbin;}
273 void GetTRDpid(Double_t *p) const;
562dd0b4 274 Double_t GetTRDsignal() const {return fTRDsignal;}
6984f7c1 275
562dd0b4 276 Char_t GetTRDTimBin(Int_t i) const {return fTRDTimBin[i];}
277 Double_t GetTRDchi2() const {return fTRDchi2;}
278 UChar_t GetTRDclusters(Int_t *idx) const;
7911b1b1 279 UChar_t GetTRDncls() const {return fTRDncls;}
280 UChar_t GetTRDncls0() const {return fTRDncls0;}
5bc3e158 281 UChar_t GetTRDtracklets(Int_t *idx) const;
79e94bf8 282 void SetTRDpid(Int_t iSpecies, Float_t p);
562dd0b4 283 Double_t GetTRDpid(Int_t iSpecies) const;
15e85efa 284 Int_t GetTRDLabel() const {return fTRDLabel;}
c9ec41e8 285
15e85efa 286 void SetTRDtrack(AliKalmanTrack * track){
59c31692 287 if (fFriendTrack) fFriendTrack->SetTRDtrack(track);
15e85efa 288 }
289 AliKalmanTrack *GetTRDtrack(){
59c31692 290 return fFriendTrack!=NULL?fFriendTrack->GetTRDtrack():NULL;
15e85efa 291 }
c9ec41e8 292
15e85efa 293 void SetTOFsignal(Double_t tof) {fTOFsignal=tof;}
562dd0b4 294 Double_t GetTOFsignal() const {return fTOFsignal;}
15e85efa 295 void SetTOFsignalToT(Double_t ToT) {fTOFsignalToT=ToT;}
562dd0b4 296 Double_t GetTOFsignalToT() const {return fTOFsignalToT;}
d321691a 297 void SetTOFsignalRaw(Double_t tof) {fTOFsignalRaw=tof;}
562dd0b4 298 Double_t GetTOFsignalRaw() const {return fTOFsignalRaw;}
d321691a 299 void SetTOFsignalDz(Double_t dz) {fTOFsignalDz=dz;}
562dd0b4 300 Double_t GetTOFsignalDz() const {return fTOFsignalDz;}
a5d9ff0f 301 void SetTOFsignalDx(Double_t dx) {fTOFsignalDx=dx;}
302 Double_t GetTOFsignalDx() const {return fTOFsignalDx;}
d86081b1 303 void SetTOFDeltaBC(Short_t deltaBC) {fTOFdeltaBC=deltaBC;};
304 Short_t GetTOFDeltaBC() const {return fTOFdeltaBC;}
305 void SetTOFL0L1(Short_t l0l1) {fTOFl0l1=l0l1;};
306 Short_t GetTOFL0L1() const {return fTOFl0l1;}
562dd0b4 307 Double_t GetTOFchi2() const {return fTOFchi2;}
c630aafd 308 void SetTOFpid(const Double_t *p);
51ad6848 309 void SetTOFLabel(const Int_t *p);
c630aafd 310 void GetTOFpid(Double_t *p) const;
51ad6848 311 void GetTOFLabel(Int_t *p) const;
312 void GetTOFInfo(Float_t *info) const;
313 void SetTOFInfo(Float_t *info);
85324138 314 Int_t GetTOFCalChannel() const {return fTOFCalChannel;}
15e85efa 315 Int_t GetTOFcluster() const {return fTOFindex;}
316 void SetTOFcluster(Int_t index) {fTOFindex=index;}
317 void SetTOFCalChannel(Int_t index) {fTOFCalChannel=index;}
b67517ef 318
f4b3bbb7 319// HMPID methodes +++++++++++++++++++++++++++++++++ (kir)
320 void SetHMPIDsignal(Double_t theta) {fHMPIDsignal=theta;}
dc61c0ef 321 Double_t GetHMPIDsignal() const {if(fHMPIDsignal>0) return fHMPIDsignal - (Int_t)fHMPIDsignal; else return fHMPIDsignal;}
4b9d6e17 322 Double_t GetHMPIDoccupancy() const {return (Int_t)fHMPIDsignal/10.0;}
f4b3bbb7 323 void SetHMPIDpid(const Double_t *p);
324 void GetHMPIDpid(Double_t *p) const;
325 void SetHMPIDchi2(Double_t chi2) {fHMPIDchi2=chi2;}
562dd0b4 326 Double_t GetHMPIDchi2() const {return fHMPIDchi2;}
f4b3bbb7 327 void SetHMPIDcluIdx(Int_t ch,Int_t idx) {fHMPIDcluIdx=ch*1000000+idx;}
328 Int_t GetHMPIDcluIdx() const {return fHMPIDcluIdx;}
329 void SetHMPIDtrk(Float_t x, Float_t y, Float_t th, Float_t ph) {
330 fHMPIDtrkX=x; fHMPIDtrkY=y; fHMPIDtrkTheta=th; fHMPIDtrkPhi=ph;
15e85efa 331 }
f4b3bbb7 332 void GetHMPIDtrk(Float_t &x, Float_t &y, Float_t &th, Float_t &ph) const {
333 x=fHMPIDtrkX; y=fHMPIDtrkY; th=fHMPIDtrkTheta; ph=fHMPIDtrkPhi;
15e85efa 334 }
f4b3bbb7 335 void SetHMPIDmip(Float_t x, Float_t y, Int_t q, Int_t nph=0) {
c7e57bfb 336 fHMPIDmipX=x; fHMPIDmipY=y; fHMPIDqn=1000000*nph+q;
15e85efa 337 }
f4b3bbb7 338 void GetHMPIDmip(Float_t &x,Float_t &y,Int_t &q,Int_t &nph) const {
c7e57bfb 339 x=fHMPIDmipX; y=fHMPIDmipY; q=fHMPIDqn%1000000; nph=fHMPIDqn/1000000;
15e85efa 340 }
f4b3bbb7 341 Bool_t IsHMPID() const {return fFlags&kHMPIDpid;}
110317eb 342 Bool_t IsPureITSStandalone() const {return fFlags&kITSpureSA;}
4ace6760 343 Bool_t IsMultPrimary() const {return !(fFlags&kMultSec);}
344 Bool_t IsMultSecondary() const {return (fFlags&kMultSec);}
b67517ef 345
8dab268f 346 Int_t GetEMCALcluster() const {return fCaloIndex;}
f1cedef3 347 void SetEMCALcluster(Int_t index) {fCaloIndex=index;}
2e1dcd14 348 Bool_t IsEMCAL() const {return fFlags&kEMCALmatch;}
ed15417e 349
350 Double_t GetTrackPhiOnEMCal() const {return fTrackPhiOnEMCal;}
351 Double_t GetTrackEtaOnEMCal() const {return fTrackEtaOnEMCal;}
352 void SetTrackPhiEtaOnEMCal(Double_t phi,Double_t eta) {fTrackPhiOnEMCal=phi;fTrackEtaOnEMCal=eta;}
ac2f7574 353
8dab268f 354 Int_t GetPHOScluster() const {return fCaloIndex;}
f1cedef3 355 void SetPHOScluster(Int_t index) {fCaloIndex=index;}
356 Bool_t IsPHOS() const {return fFlags&kPHOSmatch;}
357 Double_t GetPHOSdx()const{return fCaloDx ;}
358 Double_t GetPHOSdz()const{return fCaloDz ;}
359 void SetPHOSdxdz(Double_t dx, Double_t dz){fCaloDx=dx,fCaloDz=dz;}
360
361
cf0f66c2 362 void SetTrackPointArray(AliTrackPointArray *points) {
59c31692 363 if (fFriendTrack) fFriendTrack->SetTrackPointArray(points);
cf0f66c2 364 }
365 const AliTrackPointArray *GetTrackPointArray() const {
59c31692 366 return fFriendTrack!=NULL?fFriendTrack->GetTrackPointArray():NULL;
cf0f66c2 367 }
436dfe39 368 Bool_t RelateToVertexTPC(const AliESDVertex *vtx, Double_t b, Double_t maxd,
369 AliExternalTrackParam *cParam=0);
266a0f9b 370 Bool_t
371 RelateToVertexTPCBxByBz(const AliESDVertex *vtx, Double_t b[3],Double_t maxd,
372 AliExternalTrackParam *cParam=0);
d7ddf1e9 373 void GetImpactParametersTPC(Float_t &xy,Float_t &z) const {xy=fdTPC; z=fzTPC;}
374 void GetImpactParametersTPC(Float_t p[2], Float_t cov[3]) const {
375 p[0]=fdTPC; p[1]=fzTPC; cov[0]=fCddTPC; cov[1]=fCdzTPC; cov[2]=fCzzTPC;
376 }
436dfe39 377 Double_t GetConstrainedChi2TPC() const {return fCchi2TPC;}
378
379 Bool_t RelateToVertex(const AliESDVertex *vtx, Double_t b, Double_t maxd,
380 AliExternalTrackParam *cParam=0);
266a0f9b 381 Bool_t
382 RelateToVertexBxByBz(const AliESDVertex *vtx, Double_t b[3], Double_t maxd,
383 AliExternalTrackParam *cParam=0);
49d13e89 384 void GetImpactParameters(Float_t &xy,Float_t &z) const {xy=fD; z=fZ;}
385 void GetImpactParameters(Float_t p[2], Float_t cov[3]) const {
386 p[0]=fD; p[1]=fZ; cov[0]=fCdd; cov[1]=fCdz; cov[2]=fCzz;
387 }
ddfbc51a 388 virtual void Print(Option_t * opt) const ;
0ecbfc1b 389 const AliESDEvent* GetESDEvent() const {return fESDEvent;}
390 void SetESDEvent(const AliESDEvent* evt) {fESDEvent = evt;}
0c19adf7 391 //
392 // visualization (M. Ivanov)
393 //
394 void FillPolymarker(TPolyMarker3D *pol, Float_t magf, Float_t minR, Float_t maxR, Float_t stepR);
ac2f7574 395
59c31692 396 //
397 // online mode Matthias.Richter@cern.ch
398 // in order to optimize AliESDtrack for usage in the online HLT,
399 // some functionality is disabled
400 // - creation of AliESDfriendTrack
401 // - set lengt of bit fields fTPCClusterMap and fTPCSharedMap to 0
402 static void OnlineMode(bool mode) {fgkOnlineMode=mode;}
ddfbc51a 403 static bool OnlineMode() {return fgkOnlineMode;}
404protected:
90e48c0c 405
562dd0b4 406 AliExternalTrackParam *fCp; // Track parameters constrained to the primary vertex
a2f61bd7 407 AliExternalTrackParam *fIp; // Track parameters estimated at the inner wall of TPC
408 AliExternalTrackParam *fTPCInner; // Track parameters estimated at the inner wall of TPC using the TPC stand-alone
409 AliExternalTrackParam *fOp; // Track parameters estimated at the point of maximal radial coordinate reached during the tracking
c38d443f 410 AliExternalTrackParam *fHMPIDp; // Track parameters at HMPID
562dd0b4 411 AliESDfriendTrack *fFriendTrack; //! All the complementary information
90e48c0c 412
9f638f03 413 TBits fTPCFitMap; // Map of clusters, one bit per padrow; 1 if has a cluster on given padrow which is used in the fit
562dd0b4 414 TBits fTPCClusterMap; // Map of clusters, one bit per padrow; 1 if has a cluster on given padrow
415 TBits fTPCSharedMap; // Map of clusters, one bit per padrow; 1 if has a shared cluster on given padrow
ae982df3 416
ae982df3 417
e1e6896f 418
562dd0b4 419 ULong_t fFlags; // Reconstruction status flags
420 Int_t fID; // Unique ID of the track
421 Int_t fLabel; // Track label
89f1b176 422 Int_t fITSLabel; // label according ITS
423 Int_t fITSModule[12]; // modules crossed by the track in the ITS
562dd0b4 424 Int_t fTPCLabel; // label according TPC
425 Int_t fTRDLabel; // label according TRD
426 Int_t fTOFLabel[3]; // TOF label
427 Int_t fTOFCalChannel; // Channel Index of the TOF Signal
428 Int_t fTOFindex; // index of the assigned TOF cluster
c7e57bfb 429 Int_t fHMPIDqn; // 1000000*number of photon clusters + QDC
562dd0b4 430 Int_t fHMPIDcluIdx; // 1000000*chamber id + cluster idx of the assigned MIP cluster
f1cedef3 431 Int_t fCaloIndex; // index of associated EMCAL/PHOS cluster (AliESDCaloCluster)
67c3dcbe 432
23904d16 433
562dd0b4 434 Int_t fKinkIndexes[3]; // array of indexes of posible kink candidates
435 Int_t fV0Indexes[3]; // array of indexes of posible kink candidates
e1e6896f 436
7368c5cc 437 Double32_t fR[AliPID::kSPECIES]; //[0.,0.,8] combined "detector response probability"
438 Double32_t fITSr[AliPID::kSPECIES]; //[0.,0.,8] "detector response probabilities" (for the PID)
439 Double32_t fTPCr[AliPID::kSPECIES]; //[0.,0.,8] "detector response probabilities" (for the PID)
440 Double32_t fTRDr[AliPID::kSPECIES]; //[0.,0.,8] "detector response probabilities" (for the PID)
441 Double32_t fTOFr[AliPID::kSPECIES]; //[0.,0.,8] "detector response probabilities" (for the PID)
442 Double32_t fHMPIDr[AliPID::kSPECIES];//[0.,0.,8] "detector response probabilities" (for the PID)
562dd0b4 443
444 Double32_t fHMPIDtrkTheta;//[-2*pi,2*pi,16] theta of the track extrapolated to the HMPID, LORS
445 // how much of this is needed?
446 Double32_t fHMPIDtrkPhi; //[-2*pi,2*pi,16] phi of the track extrapolated to the HMPID, LORS
447 Double32_t fHMPIDsignal; // HMPID PID signal (Theta ckov, rad)
448
449 Double32_t fTrackTime[AliPID::kSPECIES]; // TOFs estimated by the tracking
450 Double32_t fTrackLength; // Track length
436dfe39 451
d7ddf1e9 452 Double32_t fdTPC; // TPC-only impact parameter in XY plane
453 Double32_t fzTPC; // TPC-only impact parameter in Z
454 Double32_t fCddTPC,fCdzTPC,fCzzTPC; // Covariance matrix of the TPC-only impact parameters
436dfe39 455 Double32_t fCchi2TPC; // [0.,0.,8] TPC-only chi2 at the primary vertex
456
562dd0b4 457 Double32_t fD; // Impact parameter in XY plane
458 Double32_t fZ; // Impact parameter in Z
459 Double32_t fCdd,fCdz,fCzz; // Covariance matrix of the impact parameters
7368c5cc 460 Double32_t fCchi2; // [0.,0.,8] chi2 at the primary vertex
436dfe39 461
6c3c2a50 462 Double32_t fITSchi2Std[kNITSchi2Std]; // [0.,0.,8] standard chi2 in the ITS (with standard errors)
7368c5cc 463 Double32_t fITSchi2; // [0.,0.,8] chi2 in the ITS
464 Double32_t fTPCchi2; // [0.,0.,8] chi2 in the TPC
949840f6 465 Double32_t fTPCchi2Iter1; // [0.,0.,8] chi2 in the TPC
7368c5cc 466 Double32_t fTRDchi2; // [0.,0.,8] chi2 in the TRD
467 Double32_t fTOFchi2; // [0.,0.,8] chi2 in the TOF
468 Double32_t fHMPIDchi2; // [0.,0.,8] chi2 in the HMPID
ae982df3 469
b5b2b4db 470 Double32_t fGlobalChi2; // [0.,0.,8] chi2 of the global track
15e85efa 471
7368c5cc 472 Double32_t fITSsignal; // [0.,0.,10] detector's PID signal
1d4882da 473 Double32_t fITSdEdxSamples[4]; // [0.,0.,10] ITS dE/dx samples
474
40b4e5ea 475 Double32_t fTPCsignal; // [0.,0.,10] detector's PID signal
476 Double32_t fTPCsignalS; // [0.,0.,10] RMS of dEdx measurement
477 AliTPCdEdxInfo * fTPCdEdxInfo; // object containing dE/dx information for different pad regions
478 Double32_t fTPCPoints[4]; // [0.,0.,10] TPC points -first, max. dens, last and max density
562dd0b4 479
480 Double32_t fTRDsignal; // detector's PID signal
562dd0b4 481 Double32_t fTRDQuality; // trd quality factor for TOF
482 Double32_t fTRDBudget; // trd material budget
483
484 Double32_t fTOFsignal; // detector's PID signal
485 Double32_t fTOFsignalToT; // detector's ToT signal
486 Double32_t fTOFsignalRaw; // detector's uncorrected time signal
487 Double32_t fTOFsignalDz; // local z of track's impact on the TOF pad
a5d9ff0f 488 Double32_t fTOFsignalDx; // local x of track's impact on the TOF pad
562dd0b4 489 Double32_t fTOFInfo[10]; //! TOF informations
d86081b1 490 Short_t fTOFdeltaBC; // detector's Delta Bunch Crossing correction
491 Short_t fTOFl0l1; // detector's L0L1 latency correction
562dd0b4 492
f1cedef3 493 Double32_t fCaloDx ; // [0.,0.,8] distance to calorimeter cluster in calo plain (phi direction)
494 Double32_t fCaloDz ; // [0.,0.,8] distance to calorimeter cluster in calo plain (z direction)
495
562dd0b4 496 Double32_t fHMPIDtrkX; // x of the track impact, LORS
497 Double32_t fHMPIDtrkY; // y of the track impact, LORS
498 Double32_t fHMPIDmipX; // x of the MIP in LORS
499 Double32_t fHMPIDmipY; // y of the MIP in LORS
500
501
562dd0b4 502 UShort_t fTPCncls; // number of clusters assigned in the TPC
e1d4c1b5 503 UShort_t fTPCnclsF; // number of findable clusters in the TPC
15e85efa 504 UShort_t fTPCsignalN; // number of points used for dEdx
949840f6 505 UShort_t fTPCnclsIter1; // number of clusters assigned in the TPC - iteration 1
506 UShort_t fTPCnclsFIter1; // number of findable clusters in the TPC - iteration 1
562dd0b4 507
508 Char_t fITSncls; // number of clusters assigned in the ITS
89f1b176 509 UChar_t fITSClusterMap; // map of clusters, one bit per a layer
25015f7a 510 UChar_t fITSSharedMap; // map of shared clusters, one bit per a layer
c5be26b7 511 UChar_t fTRDncls; // number of clusters assigned in the TRD
512 UChar_t fTRDncls0; // number of clusters assigned in the TRD before first material cross
ed15ef4f 513 UChar_t fTRDntracklets; // number of TRD tracklets used for tracking/PID
6984f7c1 514
a462baa3 515 Int_t fTRDnSlices; // number of slices used for PID in the TRD
6984f7c1 516 Double32_t *fTRDslices; //[fTRDnSlices]
517
518 Char_t fTRDTimBin[kTRDnPlanes]; // Time bin of Max cluster from all six planes
6dc21f57 519 Char_t fVertexID; // ID of the primary vertex this track belongs to
0ecbfc1b 520 mutable const AliESDEvent* fESDEvent; //!Pointer back to event to which the track belongs
95621324 521
4c3dc2a0 522 mutable Float_t fCacheNCrossedRows; //! Cache for the number of crossed rows
523 mutable Float_t fCacheChi2TPCConstrainedVsGlobal; //! Cache for the chi2 of constrained TPC vs global track
524 mutable const AliESDVertex* fCacheChi2TPCConstrainedVsGlobalVertex; //! Vertex for which the cache is valid
ed15417e 525
526 Double_t fTrackPhiOnEMCal; // phi of track after being propagated to 430cm
527 Double_t fTrackEtaOnEMCal; // eta of track after being propagated to 430cm
ddfbc51a 528
e1e6896f 529 private:
59c31692 530 static bool fgkOnlineMode; //! indicate the online mode to skip some of the functionality
e1e6896f 531
732a24fe 532 AliESDtrack & operator=(const AliESDtrack & );
ed15417e 533 ClassDef(AliESDtrack,64) //ESDtrack
ae982df3 534};
535
fae4c212 536
537
ae982df3 538#endif
539