Update (Cynthia)
[u/mrichter/AliRoot.git] / STEER / AliESDtrack.cxx
CommitLineData
ae982df3 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
ae982df3 15//-----------------------------------------------------------------
16// Implementation of the ESD track class
4427806c 17// ESD = Event Summary Data
15614b8b 18// This is the class to deal with during the phisics analysis of data
4427806c 19// Origin: Iouri Belikov, CERN
20// e-mail: Jouri.Belikov@cern.ch
4df45162 21//
22//
23//
24// What do you need to know before starting analysis
25// (by Marian Ivanov: marian.ivanov@cern.ch)
26//
27//
28// AliESDtrack:
29// 1. What is the AliESDtrack
30// 2. What informations do we store
31// 3. How to use the information for analysis
32//
33//
34// 1.AliESDtrack is the container of the information about the track/particle
35// reconstructed during Barrel Tracking.
36// The track information is propagated from one tracking detector to
37// other using the functionality of AliESDtrack - Current parameters.
38//
39// No global fit model is used.
40// Barrel tracking use Kalman filtering technique, it gives optimal local
41// track parameters at given point under certian assumptions.
42//
43// Kalman filter take into account additional effect which are
44// difficult to handle using global fit.
45// Effects:
46// a.) Multiple scattering
47// b.) Energy loss
48// c.) Non homogenous magnetic field
49//
50// In general case, following barrel detectors are contributing to
51// the Kalman track information:
52// a. TPC
53// b. ITS
54// c. TRD
55//
56// In general 3 reconstruction itteration are performed:
57// 1. Find tracks - sequence TPC->ITS
58// 2. PropagateBack - sequence ITS->TPC->TRD -> Outer PID detectors
59// 3. Refit invward - sequence TRD->TPC->ITS
60// The current tracks are updated after each detector (see bellow).
61// In specical cases a track sanpshots are stored.
62//
63//
64// For some type of analysis (+visualization) track local parameters at
65// different position are neccesary. A snapshots during the track
66// propagation are created.
67// (See AliExternalTrackParam class for desctiption of variables and
68// functionality)
69// Snapshots:
70// a. Current parameters - class itself (AliExternalTrackParam)
71// Contributors: general case TRD->TPC->ITS
72// Preferable usage: Decission - primary or secondary track
73// NOTICE - By default the track parameters are stored at the DCA point
74// to the primary vertex. optimal for primary tracks,
75// far from optimal for secondary tracks.
76// b. Constrained parameters - Kalman information updated with
77// the Primary vertex information
78// Contributors: general case TRD->TPC->ITS
79// Preferable usage: Use only for tracks selected as primary
80// NOTICE - not real constrain - taken as additional measurement
81// with corresponding error
82// Function:
83// const AliExternalTrackParam *GetConstrainedParam() const {return fCp;}
84// c. Inner parameters - Track parameters at inner wall of the TPC
85// Contributors: general case TRD->TPC
86// function:
87// const AliExternalTrackParam *GetInnerParam() const { return fIp;}
88//
89// d. TPCinnerparam - contributors - TPC only
90// Contributors: TPC
91// Preferable usage: Requested for HBT study
92// (smaller correlations as using also ITS information)
93// NOTICE - the track parameters are propagated to the DCA to
94// to primary vertex
95// Optimal for primary, far from optimal for secondary tracks
96// Function:
97// const AliExternalTrackParam *GetTPCInnerParam() const {return fTPCInner;}
98//
99// e. Outer parameters -
100// Contributors- general case - ITS-> TPC -> TRD
101// The last point - Outer parameters radius is determined
102// e.a) Local inclination angle bigger than threshold -
103// Low momenta tracks
104// e.a) Catastrofic energy losss in material
105// e.b) Not further improvement (no space points)
106// Usage:
107// a.) Tracking: Starting parameter for Refit inward
108// b.) Visualization
109// c.) QA
110// NOTICE: Should be not used for the physic analysis
111// Function:
112// const AliExternalTrackParam *GetOuterParam() const { return fOp;}
113//
ae982df3 114//-----------------------------------------------------------------
115
e1e6896f 116#include <TMath.h>
49edfa08 117#include <TParticle.h>
c180f65d 118#include <TDatabasePDG.h>
ae982df3 119
49d13e89 120#include "AliESDVertex.h"
ae982df3 121#include "AliESDtrack.h"
95621324 122#include "AliESDEvent.h"
ae982df3 123#include "AliKalmanTrack.h"
4f6e22bd 124#include "AliVTrack.h"
5f7789fc 125#include "AliLog.h"
15e85efa 126#include "AliTrackPointArray.h"
0c19adf7 127#include "TPolyMarker3D.h"
ae982df3 128
129ClassImp(AliESDtrack)
130
562dd0b4 131void SetPIDValues(Double_t * dest, const Double_t * src, Int_t n) {
d27bbc79 132 // This function copies "n" PID weights from "scr" to "dest"
133 // and normalizes their sum to 1 thus producing conditional probabilities.
134 // The negative weights are set to 0.
135 // In case all the weights are non-positive they are replaced by
136 // uniform probabilities
137
138 if (n<=0) return;
139
140 Float_t uniform = 1./(Float_t)n;
141
142 Float_t sum = 0;
143 for (Int_t i=0; i<n; i++)
144 if (src[i]>=0) {
145 sum+=src[i];
146 dest[i] = src[i];
147 }
148 else {
149 dest[i] = 0;
150 }
151
152 if(sum>0)
153 for (Int_t i=0; i<n; i++) dest[i] /= sum;
154 else
155 for (Int_t i=0; i<n; i++) dest[i] = uniform;
156}
157
ae982df3 158//_______________________________________________________________________
159AliESDtrack::AliESDtrack() :
c9ec41e8 160 AliExternalTrackParam(),
562dd0b4 161 fCp(0),
162 fIp(0),
163 fTPCInner(0),
164 fOp(0),
c38d443f 165 fHMPIDp(0),
59c31692 166 fFriendTrack(NULL),
562dd0b4 167 fTPCClusterMap(159),//number of padrows
168 fTPCSharedMap(159),//number of padrows
90e48c0c 169 fFlags(0),
90e48c0c 170 fID(0),
562dd0b4 171 fLabel(0),
172 fITSLabel(0),
173 fTPCLabel(0),
174 fTRDLabel(0),
ab37ab1e 175 fTOFCalChannel(-1),
ce3f4882 176 fTOFindex(-1),
562dd0b4 177 fHMPIDqn(0),
81aa7a0d 178 fHMPIDcluIdx(-1),
f1cedef3 179 fCaloIndex(kEMCALNoMatch),
562dd0b4 180 fHMPIDtrkTheta(0),
181 fHMPIDtrkPhi(0),
182 fHMPIDsignal(0),
90e48c0c 183 fTrackLength(0),
d7ddf1e9 184 fdTPC(0),fzTPC(0),
185 fCddTPC(0),fCdzTPC(0),fCzzTPC(0),
436dfe39 186 fCchi2TPC(0),
49d13e89 187 fD(0),fZ(0),
188 fCdd(0),fCdz(0),fCzz(0),
562dd0b4 189 fCchi2(0),
90e48c0c 190 fITSchi2(0),
90e48c0c 191 fTPCchi2(0),
949840f6 192 fTPCchi2Iter1(0),
562dd0b4 193 fTRDchi2(0),
194 fTOFchi2(0),
195 fHMPIDchi2(0),
b5b2b4db 196 fGlobalChi2(0),
562dd0b4 197 fITSsignal(0),
90e48c0c 198 fTPCsignal(0),
e1d4c1b5 199 fTPCsignalS(0),
90e48c0c 200 fTRDsignal(0),
90e48c0c 201 fTRDQuality(0),
23d49657 202 fTRDBudget(0),
ab37ab1e 203 fTOFsignal(99999),
204 fTOFsignalToT(99999),
205 fTOFsignalRaw(99999),
206 fTOFsignalDz(999),
207 fTOFsignalDx(999),
208 fTOFdeltaBC(999),
209 fTOFl0l1(999),
f1cedef3 210 fCaloDx(0),
211 fCaloDz(0),
562dd0b4 212 fHMPIDtrkX(0),
213 fHMPIDtrkY(0),
214 fHMPIDmipX(0),
215 fHMPIDmipY(0),
216 fTPCncls(0),
217 fTPCnclsF(0),
218 fTPCsignalN(0),
949840f6 219 fTPCnclsIter1(0),
220 fTPCnclsFIter1(0),
562dd0b4 221 fITSncls(0),
222 fITSClusterMap(0),
25015f7a 223 fITSSharedMap(0),
562dd0b4 224 fTRDncls(0),
225 fTRDncls0(0),
ed15ef4f 226 fTRDntracklets(0),
6984f7c1 227 fTRDnSlices(0),
6dc21f57 228 fTRDslices(0x0),
95621324 229 fVertexID(-2),// -2 means an orphan track
230 fESDEvent(0)
ae982df3 231{
232 //
233 // The default ESD constructor
234 //
59c31692 235 if (!OnlineMode()) fFriendTrack=new AliESDfriendTrack();
236
6984f7c1 237 Int_t i;
6238d7a9 238 for (i=0; i<AliPID::kSPECIES; i++) {
4a78b8c5 239 fTrackTime[i]=0.;
562dd0b4 240 fR[i]=0.;
241 fITSr[i]=0.;
242 fTPCr[i]=0.;
243 fTRDr[i]=0.;
244 fTOFr[i]=0.;
245 fHMPIDr[i]=0.;
2bad268c 246 }
ac2f7574 247
ef7253ac 248 for (i=0; i<3; i++) { fKinkIndexes[i]=0;}
562dd0b4 249 for (i=0; i<3; i++) { fV0Indexes[i]=0;}
6984f7c1 250 for (i=0;i<kTRDnPlanes;i++) {
562dd0b4 251 fTRDTimBin[i]=0;
6d45eaef 252 }
1d4882da 253 for (i=0;i<4;i++) {fITSdEdxSamples[i]=0.;}
562dd0b4 254 for (i=0;i<4;i++) {fTPCPoints[i]=0;}
ab37ab1e 255 for (i=0;i<3;i++) {fTOFLabel[i]=-1;}
562dd0b4 256 for (i=0;i<10;i++) {fTOFInfo[i]=0;}
89f1b176 257 for (i=0;i<12;i++) {fITSModule[i]=-1;}
c4d11b15 258}
259
59c31692 260bool AliESDtrack::fgkOnlineMode=false;
261
c4d11b15 262//_______________________________________________________________________
90e48c0c 263AliESDtrack::AliESDtrack(const AliESDtrack& track):
c9ec41e8 264 AliExternalTrackParam(track),
562dd0b4 265 fCp(0),
266 fIp(0),
267 fTPCInner(0),
268 fOp(0),
c38d443f 269 fHMPIDp(0),
562dd0b4 270 fFriendTrack(0),
271 fTPCClusterMap(track.fTPCClusterMap),
272 fTPCSharedMap(track.fTPCSharedMap),
90e48c0c 273 fFlags(track.fFlags),
90e48c0c 274 fID(track.fID),
562dd0b4 275 fLabel(track.fLabel),
276 fITSLabel(track.fITSLabel),
277 fTPCLabel(track.fTPCLabel),
278 fTRDLabel(track.fTRDLabel),
279 fTOFCalChannel(track.fTOFCalChannel),
280 fTOFindex(track.fTOFindex),
281 fHMPIDqn(track.fHMPIDqn),
282 fHMPIDcluIdx(track.fHMPIDcluIdx),
f1cedef3 283 fCaloIndex(track.fCaloIndex),
562dd0b4 284 fHMPIDtrkTheta(track.fHMPIDtrkTheta),
285 fHMPIDtrkPhi(track.fHMPIDtrkPhi),
286 fHMPIDsignal(track.fHMPIDsignal),
90e48c0c 287 fTrackLength(track.fTrackLength),
d7ddf1e9 288 fdTPC(track.fdTPC),fzTPC(track.fzTPC),
289 fCddTPC(track.fCddTPC),fCdzTPC(track.fCdzTPC),fCzzTPC(track.fCzzTPC),
436dfe39 290 fCchi2TPC(track.fCchi2TPC),
49d13e89 291 fD(track.fD),fZ(track.fZ),
292 fCdd(track.fCdd),fCdz(track.fCdz),fCzz(track.fCzz),
90e48c0c 293 fCchi2(track.fCchi2),
90e48c0c 294 fITSchi2(track.fITSchi2),
90e48c0c 295 fTPCchi2(track.fTPCchi2),
949840f6 296 fTPCchi2Iter1(track.fTPCchi2Iter1),
562dd0b4 297 fTRDchi2(track.fTRDchi2),
298 fTOFchi2(track.fTOFchi2),
299 fHMPIDchi2(track.fHMPIDchi2),
b5b2b4db 300 fGlobalChi2(track.fGlobalChi2),
562dd0b4 301 fITSsignal(track.fITSsignal),
90e48c0c 302 fTPCsignal(track.fTPCsignal),
e1d4c1b5 303 fTPCsignalS(track.fTPCsignalS),
90e48c0c 304 fTRDsignal(track.fTRDsignal),
90e48c0c 305 fTRDQuality(track.fTRDQuality),
23d49657 306 fTRDBudget(track.fTRDBudget),
90e48c0c 307 fTOFsignal(track.fTOFsignal),
85324138 308 fTOFsignalToT(track.fTOFsignalToT),
d321691a 309 fTOFsignalRaw(track.fTOFsignalRaw),
310 fTOFsignalDz(track.fTOFsignalDz),
a5d9ff0f 311 fTOFsignalDx(track.fTOFsignalDx),
d86081b1 312 fTOFdeltaBC(track.fTOFdeltaBC),
313 fTOFl0l1(track.fTOFl0l1),
f1cedef3 314 fCaloDx(track.fCaloDx),
315 fCaloDz(track.fCaloDz),
f4b3bbb7 316 fHMPIDtrkX(track.fHMPIDtrkX),
317 fHMPIDtrkY(track.fHMPIDtrkY),
318 fHMPIDmipX(track.fHMPIDmipX),
319 fHMPIDmipY(track.fHMPIDmipY),
562dd0b4 320 fTPCncls(track.fTPCncls),
321 fTPCnclsF(track.fTPCnclsF),
322 fTPCsignalN(track.fTPCsignalN),
949840f6 323 fTPCnclsIter1(track.fTPCnclsIter1),
324 fTPCnclsFIter1(track.fTPCnclsIter1),
562dd0b4 325 fITSncls(track.fITSncls),
326 fITSClusterMap(track.fITSClusterMap),
25015f7a 327 fITSSharedMap(track.fITSSharedMap),
562dd0b4 328 fTRDncls(track.fTRDncls),
329 fTRDncls0(track.fTRDncls0),
ed15ef4f 330 fTRDntracklets(track.fTRDntracklets),
6984f7c1 331 fTRDnSlices(track.fTRDnSlices),
6dc21f57 332 fTRDslices(0x0),
95621324 333 fVertexID(track.fVertexID),
334 fESDEvent(track.fESDEvent)
90e48c0c 335{
c4d11b15 336 //
337 //copy constructor
338 //
ef7253ac 339 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTrackTime[i]=track.fTrackTime[i];
340 for (Int_t i=0;i<AliPID::kSPECIES;i++) fR[i]=track.fR[i];
c4d11b15 341 //
304864ab 342 for (Int_t i=0;i<AliPID::kSPECIES;i++) fITSr[i]=track.fITSr[i];
c4d11b15 343 //
304864ab 344 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTPCr[i]=track.fTPCr[i];
1d4882da 345 for (Int_t i=0;i<4;i++) {fITSdEdxSamples[i]=track.fITSdEdxSamples[i];}
51ad6848 346 for (Int_t i=0;i<4;i++) {fTPCPoints[i]=track.fTPCPoints[i];}
347 for (Int_t i=0; i<3;i++) { fKinkIndexes[i]=track.fKinkIndexes[i];}
348 for (Int_t i=0; i<3;i++) { fV0Indexes[i]=track.fV0Indexes[i];}
c4d11b15 349 //
6984f7c1 350 for (Int_t i=0;i<kTRDnPlanes;i++) {
6d45eaef 351 fTRDTimBin[i]=track.fTRDTimBin[i];
eab5961e 352 }
6984f7c1 353
354 if (fTRDnSlices) {
355 fTRDslices=new Double32_t[fTRDnSlices];
356 for (Int_t i=0; i<fTRDnSlices; i++) fTRDslices[i]=track.fTRDslices[i];
357 }
358
304864ab 359 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTRDr[i]=track.fTRDr[i];
304864ab 360 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTOFr[i]=track.fTOFr[i];
51ad6848 361 for (Int_t i=0;i<3;i++) fTOFLabel[i]=track.fTOFLabel[i];
362 for (Int_t i=0;i<10;i++) fTOFInfo[i]=track.fTOFInfo[i];
89f1b176 363 for (Int_t i=0;i<12;i++) fITSModule[i]=track.fITSModule[i];
f4b3bbb7 364 for (Int_t i=0;i<AliPID::kSPECIES;i++) fHMPIDr[i]=track.fHMPIDr[i];
c9ec41e8 365
366 if (track.fCp) fCp=new AliExternalTrackParam(*track.fCp);
367 if (track.fIp) fIp=new AliExternalTrackParam(*track.fIp);
4aeb9470 368 if (track.fTPCInner) fTPCInner=new AliExternalTrackParam(*track.fTPCInner);
c9ec41e8 369 if (track.fOp) fOp=new AliExternalTrackParam(*track.fOp);
c38d443f 370 if (track.fHMPIDp) fHMPIDp=new AliExternalTrackParam(*track.fHMPIDp);
371
8497bca0 372 if (track.fFriendTrack) fFriendTrack=new AliESDfriendTrack(*(track.fFriendTrack));
ae982df3 373}
15e85efa 374
c4d11b15 375//_______________________________________________________________________
4f6e22bd 376AliESDtrack::AliESDtrack(const AliVTrack *track) :
377 AliExternalTrackParam(track),
378 fCp(0),
379 fIp(0),
380 fTPCInner(0),
381 fOp(0),
c38d443f 382 fHMPIDp(0),
4f6e22bd 383 fFriendTrack(0),
384 fTPCClusterMap(159),//number of padrows
385 fTPCSharedMap(159),//number of padrows
386 fFlags(0),
387 fID(),
388 fLabel(0),
389 fITSLabel(0),
390 fTPCLabel(0),
391 fTRDLabel(0),
ab37ab1e 392 fTOFCalChannel(-1),
4f6e22bd 393 fTOFindex(-1),
394 fHMPIDqn(0),
81aa7a0d 395 fHMPIDcluIdx(-1),
f1cedef3 396 fCaloIndex(kEMCALNoMatch),
4f6e22bd 397 fHMPIDtrkTheta(0),
398 fHMPIDtrkPhi(0),
399 fHMPIDsignal(0),
400 fTrackLength(0),
401 fdTPC(0),fzTPC(0),
402 fCddTPC(0),fCdzTPC(0),fCzzTPC(0),
403 fCchi2TPC(0),
404 fD(0),fZ(0),
405 fCdd(0),fCdz(0),fCzz(0),
406 fCchi2(0),
407 fITSchi2(0),
408 fTPCchi2(0),
949840f6 409 fTPCchi2Iter1(0),
4f6e22bd 410 fTRDchi2(0),
411 fTOFchi2(0),
412 fHMPIDchi2(0),
b5b2b4db 413 fGlobalChi2(0),
4f6e22bd 414 fITSsignal(0),
415 fTPCsignal(0),
416 fTPCsignalS(0),
417 fTRDsignal(0),
418 fTRDQuality(0),
419 fTRDBudget(0),
ab37ab1e 420 fTOFsignal(99999),
421 fTOFsignalToT(99999),
422 fTOFsignalRaw(99999),
423 fTOFsignalDz(999),
424 fTOFsignalDx(999),
425 fTOFdeltaBC(999),
426 fTOFl0l1(999),
f1cedef3 427 fCaloDx(0),
428 fCaloDz(0),
4f6e22bd 429 fHMPIDtrkX(0),
430 fHMPIDtrkY(0),
431 fHMPIDmipX(0),
432 fHMPIDmipY(0),
433 fTPCncls(0),
434 fTPCnclsF(0),
435 fTPCsignalN(0),
949840f6 436 fTPCnclsIter1(0),
437 fTPCnclsFIter1(0),
4f6e22bd 438 fITSncls(0),
439 fITSClusterMap(0),
25015f7a 440 fITSSharedMap(0),
4f6e22bd 441 fTRDncls(0),
442 fTRDncls0(0),
ed15ef4f 443 fTRDntracklets(0),
4f6e22bd 444 fTRDnSlices(0),
6dc21f57 445 fTRDslices(0x0),
95621324 446 fVertexID(-2), // -2 means an orphan track
447 fESDEvent(0)
4f6e22bd 448{
449 //
610e3088 450 // ESD track from AliVTrack.
451 // This is not a copy constructor !
4f6e22bd 452 //
453
610e3088 454 if (track->InheritsFrom("AliExternalTrackParam")) {
455 AliError("This is not a copy constructor. Use AliESDtrack(const AliESDtrack &) !");
456 AliWarning("Calling the default constructor...");
457 AliESDtrack();
458 return;
459 }
460
4f6e22bd 461 // Reset all the arrays
462 Int_t i;
463 for (i=0; i<AliPID::kSPECIES; i++) {
464 fTrackTime[i]=0.;
465 fR[i]=0.;
466 fITSr[i]=0.;
467 fTPCr[i]=0.;
468 fTRDr[i]=0.;
469 fTOFr[i]=0.;
470 fHMPIDr[i]=0.;
471 }
472
473 for (i=0; i<3; i++) { fKinkIndexes[i]=0;}
474 for (i=0; i<3; i++) { fV0Indexes[i]=-1;}
475 for (i=0;i<kTRDnPlanes;i++) {
476 fTRDTimBin[i]=0;
477 }
1d4882da 478 for (i=0;i<4;i++) {fITSdEdxSamples[i]=0.;}
4f6e22bd 479 for (i=0;i<4;i++) {fTPCPoints[i]=0;}
ab37ab1e 480 for (i=0;i<3;i++) {fTOFLabel[i]=-1;}
4f6e22bd 481 for (i=0;i<10;i++) {fTOFInfo[i]=0;}
482 for (i=0;i<12;i++) {fITSModule[i]=-1;}
483
484 // Set the ID
485 SetID(track->GetID());
486
487 // Set ITS cluster map
488 fITSClusterMap=track->GetITSClusterMap();
25015f7a 489 fITSSharedMap=0;
4f6e22bd 490
d577eec9 491 fITSncls=0;
492 for(i=0; i<6; i++) {
493 if(HasPointOnITSLayer(i)) fITSncls++;
494 }
495
07cc7a48 496 // Set TPC ncls
497 fTPCncls=track->GetTPCNcls();
498
499
4f6e22bd 500 // Set the combined PID
501 const Double_t *pid = track->PID();
67be2d29 502 if(pid){
503 for (i=0; i<AliPID::kSPECIES; i++) fR[i]=pid[i];
504 }
4f6e22bd 505 // AliESD track label
506 SetLabel(track->GetLabel());
39ca41b3 507 // Set the status
508 SetStatus(track->GetStatus());
4f6e22bd 509}
510
511//_______________________________________________________________________
49edfa08 512AliESDtrack::AliESDtrack(TParticle * part) :
513 AliExternalTrackParam(),
562dd0b4 514 fCp(0),
515 fIp(0),
516 fTPCInner(0),
517 fOp(0),
c38d443f 518 fHMPIDp(0),
562dd0b4 519 fFriendTrack(0),
520 fTPCClusterMap(159),//number of padrows
521 fTPCSharedMap(159),//number of padrows
49edfa08 522 fFlags(0),
49edfa08 523 fID(0),
562dd0b4 524 fLabel(0),
525 fITSLabel(0),
526 fTPCLabel(0),
527 fTRDLabel(0),
ab37ab1e 528 fTOFCalChannel(-1),
ce3f4882 529 fTOFindex(-1),
562dd0b4 530 fHMPIDqn(0),
81aa7a0d 531 fHMPIDcluIdx(-1),
f1cedef3 532 fCaloIndex(kEMCALNoMatch),
562dd0b4 533 fHMPIDtrkTheta(0),
534 fHMPIDtrkPhi(0),
535 fHMPIDsignal(0),
49edfa08 536 fTrackLength(0),
d7ddf1e9 537 fdTPC(0),fzTPC(0),
538 fCddTPC(0),fCdzTPC(0),fCzzTPC(0),
436dfe39 539 fCchi2TPC(0),
49edfa08 540 fD(0),fZ(0),
541 fCdd(0),fCdz(0),fCzz(0),
562dd0b4 542 fCchi2(0),
49edfa08 543 fITSchi2(0),
49edfa08 544 fTPCchi2(0),
949840f6 545 fTPCchi2Iter1(0),
562dd0b4 546 fTRDchi2(0),
547 fTOFchi2(0),
548 fHMPIDchi2(0),
b5b2b4db 549 fGlobalChi2(0),
562dd0b4 550 fITSsignal(0),
49edfa08 551 fTPCsignal(0),
49edfa08 552 fTPCsignalS(0),
49edfa08 553 fTRDsignal(0),
49edfa08 554 fTRDQuality(0),
555 fTRDBudget(0),
ab37ab1e 556 fTOFsignal(99999),
557 fTOFsignalToT(99999),
558 fTOFsignalRaw(99999),
559 fTOFsignalDz(999),
560 fTOFsignalDx(999),
561 fTOFdeltaBC(999),
562 fTOFl0l1(999),
f1cedef3 563 fCaloDx(0),
564 fCaloDz(0),
562dd0b4 565 fHMPIDtrkX(0),
566 fHMPIDtrkY(0),
567 fHMPIDmipX(0),
568 fHMPIDmipY(0),
569 fTPCncls(0),
570 fTPCnclsF(0),
571 fTPCsignalN(0),
949840f6 572 fTPCnclsIter1(0),
573 fTPCnclsFIter1(0),
562dd0b4 574 fITSncls(0),
575 fITSClusterMap(0),
25015f7a 576 fITSSharedMap(0),
562dd0b4 577 fTRDncls(0),
578 fTRDncls0(0),
ed15ef4f 579 fTRDntracklets(0),
6984f7c1 580 fTRDnSlices(0),
6dc21f57 581 fTRDslices(0x0),
95621324 582 fVertexID(-2), // -2 means an orphan track
583 fESDEvent(0)
49edfa08 584{
585 //
586 // ESD track from TParticle
587 //
588
589 // Reset all the arrays
6984f7c1 590 Int_t i;
49edfa08 591 for (i=0; i<AliPID::kSPECIES; i++) {
592 fTrackTime[i]=0.;
593 fR[i]=0.;
594 fITSr[i]=0.;
595 fTPCr[i]=0.;
596 fTRDr[i]=0.;
597 fTOFr[i]=0.;
f4b3bbb7 598 fHMPIDr[i]=0.;
49edfa08 599 }
600
601 for (i=0; i<3; i++) { fKinkIndexes[i]=0;}
602 for (i=0; i<3; i++) { fV0Indexes[i]=-1;}
6984f7c1 603 for (i=0;i<kTRDnPlanes;i++) {
562dd0b4 604 fTRDTimBin[i]=0;
49edfa08 605 }
1d4882da 606 for (i=0;i<4;i++) {fITSdEdxSamples[i]=0.;}
562dd0b4 607 for (i=0;i<4;i++) {fTPCPoints[i]=0;}
ab37ab1e 608 for (i=0;i<3;i++) {fTOFLabel[i]=-1;}
562dd0b4 609 for (i=0;i<10;i++) {fTOFInfo[i]=0;}
89f1b176 610 for (i=0;i<12;i++) {fITSModule[i]=-1;}
49edfa08 611
612 // Calculate the AliExternalTrackParam content
613
614 Double_t xref;
615 Double_t alpha;
616 Double_t param[5];
617 Double_t covar[15];
618
619 // Calculate alpha: the rotation angle of the corresponding local system (TPC sector)
620 alpha = part->Phi()*180./TMath::Pi();
621 if (alpha<0) alpha+= 360.;
622 if (alpha>360) alpha -= 360.;
623
624 Int_t sector = (Int_t)(alpha/20.);
625 alpha = 10. + 20.*sector;
626 alpha /= 180;
627 alpha *= TMath::Pi();
628
629 // Covariance matrix: no errors, the parameters are exact
6c27b212 630 for (i=0; i<15; i++) covar[i]=0.;
49edfa08 631
632 // Get the vertex of origin and the momentum
633 TVector3 ver(part->Vx(),part->Vy(),part->Vz());
634 TVector3 mom(part->Px(),part->Py(),part->Pz());
635
636 // Rotate to the local coordinate system (TPC sector)
637 ver.RotateZ(-alpha);
638 mom.RotateZ(-alpha);
639
640 // X of the referense plane
641 xref = ver.X();
642
643 Int_t pdgCode = part->GetPdgCode();
644
645 Double_t charge =
646 TDatabasePDG::Instance()->GetParticle(pdgCode)->Charge();
647
648 param[0] = ver.Y();
649 param[1] = ver.Z();
650 param[2] = TMath::Sin(mom.Phi());
651 param[3] = mom.Pz()/mom.Pt();
652 param[4] = TMath::Sign(1/mom.Pt(),charge);
653
654 // Set AliExternalTrackParam
655 Set(xref, alpha, param, covar);
656
657 // Set the PID
658 Int_t indexPID = 99;
659
660 switch (TMath::Abs(pdgCode)) {
661
662 case 11: // electron
663 indexPID = 0;
664 break;
665
666 case 13: // muon
667 indexPID = 1;
668 break;
669
670 case 211: // pion
671 indexPID = 2;
672 break;
673
674 case 321: // kaon
675 indexPID = 3;
676 break;
677
678 case 2212: // proton
679 indexPID = 4;
680 break;
681
682 default:
683 break;
684 }
685
686 // If the particle is not e,mu,pi,K or p the PID probabilities are set to 0
687 if (indexPID < AliPID::kSPECIES) {
688 fR[indexPID]=1.;
689 fITSr[indexPID]=1.;
690 fTPCr[indexPID]=1.;
691 fTRDr[indexPID]=1.;
692 fTOFr[indexPID]=1.;
f4b3bbb7 693 fHMPIDr[indexPID]=1.;
49edfa08 694
695 }
696 // AliESD track label
697 SetLabel(part->GetUniqueID());
698
699}
700
701//_______________________________________________________________________
c4d11b15 702AliESDtrack::~AliESDtrack(){
703 //
704 // This is destructor according Coding Conventrions
705 //
706 //printf("Delete track\n");
c9ec41e8 707 delete fIp;
4aeb9470 708 delete fTPCInner;
c9ec41e8 709 delete fOp;
c38d443f 710 delete fHMPIDp;
c9ec41e8 711 delete fCp;
59c31692 712 if (fFriendTrack) delete fFriendTrack;
713 fFriendTrack=NULL;
6984f7c1 714 if(fTRDnSlices)
715 delete[] fTRDslices;
c4d11b15 716}
ae982df3 717
732a24fe 718AliESDtrack &AliESDtrack::operator=(const AliESDtrack &source){
719
720
721 if(&source == this) return *this;
722 AliExternalTrackParam::operator=(source);
723
724
725 if(source.fCp){
726 // we have the trackparam: assign or copy construct
727 if(fCp)*fCp = *source.fCp;
728 else fCp = new AliExternalTrackParam(*source.fCp);
729 }
730 else{
731 // no track param delete the old one
732 if(fCp)delete fCp;
733 fCp = 0;
734 }
735
736 if(source.fIp){
737 // we have the trackparam: assign or copy construct
738 if(fIp)*fIp = *source.fIp;
739 else fIp = new AliExternalTrackParam(*source.fIp);
740 }
741 else{
742 // no track param delete the old one
743 if(fIp)delete fIp;
744 fIp = 0;
745 }
746
747
748 if(source.fTPCInner){
749 // we have the trackparam: assign or copy construct
750 if(fTPCInner) *fTPCInner = *source.fTPCInner;
751 else fTPCInner = new AliExternalTrackParam(*source.fTPCInner);
752 }
753 else{
754 // no track param delete the old one
755 if(fTPCInner)delete fTPCInner;
756 fTPCInner = 0;
757 }
758
759
760 if(source.fOp){
761 // we have the trackparam: assign or copy construct
762 if(fOp) *fOp = *source.fOp;
763 else fOp = new AliExternalTrackParam(*source.fOp);
764 }
765 else{
766 // no track param delete the old one
767 if(fOp)delete fOp;
768 fOp = 0;
769 }
770
c38d443f 771
772 if(source.fHMPIDp){
773 // we have the trackparam: assign or copy construct
b01794e9 774 if(fHMPIDp) *fHMPIDp = *source.fHMPIDp;
c38d443f 775 else fHMPIDp = new AliExternalTrackParam(*source.fHMPIDp);
776 }
777 else{
778 // no track param delete the old one
779 if(fHMPIDp)delete fHMPIDp;
780 fHMPIDp = 0;
781 }
782
783
732a24fe 784 // copy also the friend track
785 // use copy constructor
786 if(source.fFriendTrack){
787 // we have the trackparam: assign or copy construct
788 delete fFriendTrack; fFriendTrack=new AliESDfriendTrack(*source.fFriendTrack);
789 }
790 else{
791 // no track param delete the old one
792 delete fFriendTrack; fFriendTrack= 0;
793 }
794
795 fTPCClusterMap = source.fTPCClusterMap;
796 fTPCSharedMap = source.fTPCSharedMap;
797 // the simple stuff
798 fFlags = source.fFlags;
799 fID = source.fID;
800 fLabel = source.fLabel;
801 fITSLabel = source.fITSLabel;
802 for(int i = 0; i< 12;++i){
803 fITSModule[i] = source.fITSModule[i];
804 }
805 fTPCLabel = source.fTPCLabel;
806 fTRDLabel = source.fTRDLabel;
807 for(int i = 0; i< 3;++i){
808 fTOFLabel[i] = source.fTOFLabel[i];
809 }
810 fTOFCalChannel = source.fTOFCalChannel;
811 fTOFindex = source.fTOFindex;
812 fHMPIDqn = source.fHMPIDqn;
813 fHMPIDcluIdx = source.fHMPIDcluIdx;
f1cedef3 814 fCaloIndex = source.fCaloIndex;
732a24fe 815
816 for(int i = 0; i< 3;++i){
817 fKinkIndexes[i] = source.fKinkIndexes[i];
818 fV0Indexes[i] = source.fV0Indexes[i];
819 }
820
821 for(int i = 0; i< AliPID::kSPECIES;++i){
822 fR[i] = source.fR[i];
823 fITSr[i] = source.fITSr[i];
824 fTPCr[i] = source.fTPCr[i];
825 fTRDr[i] = source.fTRDr[i];
826 fTOFr[i] = source.fTOFr[i];
827 fHMPIDr[i] = source.fHMPIDr[i];
828 fTrackTime[i] = source.fTrackTime[i];
829 }
830
831 fHMPIDtrkTheta = source.fHMPIDtrkTheta;
832 fHMPIDtrkPhi = source.fHMPIDtrkPhi;
833 fHMPIDsignal = source.fHMPIDsignal;
834
835
836 fTrackLength = source. fTrackLength;
d7ddf1e9 837 fdTPC = source.fdTPC;
838 fzTPC = source.fzTPC;
839 fCddTPC = source.fCddTPC;
840 fCdzTPC = source.fCdzTPC;
841 fCzzTPC = source.fCzzTPC;
436dfe39 842 fCchi2TPC = source.fCchi2TPC;
843
732a24fe 844 fD = source.fD;
845 fZ = source.fZ;
846 fCdd = source.fCdd;
847 fCdz = source.fCdz;
848 fCzz = source.fCzz;
732a24fe 849 fCchi2 = source.fCchi2;
436dfe39 850
732a24fe 851 fITSchi2 = source.fITSchi2;
852 fTPCchi2 = source.fTPCchi2;
949840f6 853 fTPCchi2Iter1 = source.fTPCchi2Iter1;
732a24fe 854 fTRDchi2 = source.fTRDchi2;
855 fTOFchi2 = source.fTOFchi2;
856 fHMPIDchi2 = source.fHMPIDchi2;
857
b5b2b4db 858 fGlobalChi2 = source.fGlobalChi2;
732a24fe 859
860 fITSsignal = source.fITSsignal;
1d4882da 861 for (Int_t i=0;i<4;i++) {fITSdEdxSamples[i]=source.fITSdEdxSamples[i];}
732a24fe 862 fTPCsignal = source.fTPCsignal;
863 fTPCsignalS = source.fTPCsignalS;
864 for(int i = 0; i< 4;++i){
865 fTPCPoints[i] = source.fTPCPoints[i];
866 }
867 fTRDsignal = source.fTRDsignal;
868
6984f7c1 869 for(int i = 0;i < kTRDnPlanes;++i){
732a24fe 870 fTRDTimBin[i] = source.fTRDTimBin[i];
732a24fe 871 }
6984f7c1 872
873 if(fTRDnSlices)
874 delete[] fTRDslices;
875 fTRDslices=0;
876 fTRDnSlices=source.fTRDnSlices;
877 if (fTRDnSlices) {
878 fTRDslices=new Double32_t[fTRDnSlices];
879 for(int j = 0;j < fTRDnSlices;++j) fTRDslices[j] = source.fTRDslices[j];
880 }
881
732a24fe 882 fTRDQuality = source.fTRDQuality;
883 fTRDBudget = source.fTRDBudget;
884 fTOFsignal = source.fTOFsignal;
885 fTOFsignalToT = source.fTOFsignalToT;
886 fTOFsignalRaw = source.fTOFsignalRaw;
887 fTOFsignalDz = source.fTOFsignalDz;
a5d9ff0f 888 fTOFsignalDx = source.fTOFsignalDx;
d86081b1 889 fTOFdeltaBC = source.fTOFdeltaBC;
890 fTOFl0l1 = source.fTOFl0l1;
891
732a24fe 892 for(int i = 0;i<10;++i){
893 fTOFInfo[i] = source.fTOFInfo[i];
894 }
895
896 fHMPIDtrkX = source.fHMPIDtrkX;
897 fHMPIDtrkY = source.fHMPIDtrkY;
898 fHMPIDmipX = source.fHMPIDmipX;
899 fHMPIDmipY = source.fHMPIDmipY;
900
901 fTPCncls = source.fTPCncls;
902 fTPCnclsF = source.fTPCnclsF;
903 fTPCsignalN = source.fTPCsignalN;
949840f6 904 fTPCnclsIter1 = source.fTPCnclsIter1;
905 fTPCnclsFIter1 = source.fTPCnclsFIter1;
732a24fe 906
907 fITSncls = source.fITSncls;
908 fITSClusterMap = source.fITSClusterMap;
25015f7a 909 fITSSharedMap = source.fITSSharedMap;
732a24fe 910 fTRDncls = source.fTRDncls;
911 fTRDncls0 = source.fTRDncls0;
ed15ef4f 912 fTRDntracklets = source.fTRDntracklets;
6dc21f57 913 fVertexID = source.fVertexID;
732a24fe 914 return *this;
915}
916
917
918
919void AliESDtrack::Copy(TObject &obj) const {
920
921 // this overwrites the virtual TOBject::Copy()
922 // to allow run time copying without casting
923 // in AliESDEvent
924
925 if(this==&obj)return;
926 AliESDtrack *robj = dynamic_cast<AliESDtrack*>(&obj);
927 if(!robj)return; // not an AliESDtrack
928 *robj = *this;
929
930}
931
932
933
00dce61a 934void AliESDtrack::AddCalibObject(TObject * object){
935 //
936 // add calib object to the list
937 //
938 if (!fFriendTrack) fFriendTrack = new AliESDfriendTrack;
59c31692 939 if (!fFriendTrack) return;
00dce61a 940 fFriendTrack->AddCalibObject(object);
941}
942
943TObject * AliESDtrack::GetCalibObject(Int_t index){
944 //
945 // return calib objct at given position
946 //
947 if (!fFriendTrack) return 0;
948 return fFriendTrack->GetCalibObject(index);
949}
950
951
f12d42ce 952Bool_t AliESDtrack::FillTPCOnlyTrack(AliESDtrack &track){
b9ca886f 953
954 // Fills the information of the TPC-only first reconstruction pass
955 // into the passed ESDtrack object. For consistency fTPCInner is also filled
956 // again
957
5b305f70 958
959
960 // For data produced before r26675
961 // RelateToVertexTPC was not properly called during reco
962 // so you'll have to call it again, before FillTPCOnlyTrack
963 // Float_t p[2],cov[3];
964 // track->GetImpactParametersTPC(p,cov);
965 // if(p[0]==0&&p[1]==0) // <- Default values
966 // track->RelateToVertexTPC(esd->GetPrimaryVertexTPC(),esd->GetMagneticField(),kVeryBig);
967
968
b9ca886f 969 if(!fTPCInner)return kFALSE;
970
971 // fill the TPC track params to the global track parameters
972 track.Set(fTPCInner->GetX(),fTPCInner->GetAlpha(),fTPCInner->GetParameter(),fTPCInner->GetCovariance());
973 track.fD = fdTPC;
974 track.fZ = fzTPC;
975 track.fCdd = fCddTPC;
976 track.fCdz = fCdzTPC;
977 track.fCzz = fCzzTPC;
978
67ed91d3 979 // copy the inner params
980 if(track.fIp) *track.fIp = *fIp;
981 else track.fIp = new AliExternalTrackParam(*fIp);
982
b9ca886f 983 // copy the TPCinner parameters
984 if(track.fTPCInner) *track.fTPCInner = *fTPCInner;
985 else track.fTPCInner = new AliExternalTrackParam(*fTPCInner);
986 track.fdTPC = fdTPC;
987 track.fzTPC = fzTPC;
988 track.fCddTPC = fCddTPC;
989 track.fCdzTPC = fCdzTPC;
990 track.fCzzTPC = fCzzTPC;
436dfe39 991 track.fCchi2TPC = fCchi2TPC;
b9ca886f 992
b9ca886f 993 // copy all other TPC specific parameters
994
995 // replace label by TPC label
996 track.fLabel = fTPCLabel;
997 track.fTPCLabel = fTPCLabel;
998
999 track.fTPCchi2 = fTPCchi2;
949840f6 1000 track.fTPCchi2Iter1 = fTPCchi2Iter1;
b9ca886f 1001 track.fTPCsignal = fTPCsignal;
1002 track.fTPCsignalS = fTPCsignalS;
1003 for(int i = 0;i<4;++i)track.fTPCPoints[i] = fTPCPoints[i];
1004
1005 track.fTPCncls = fTPCncls;
1006 track.fTPCnclsF = fTPCnclsF;
1007 track.fTPCsignalN = fTPCsignalN;
949840f6 1008 track.fTPCnclsIter1 = fTPCnclsIter1;
1009 track.fTPCnclsFIter1 = fTPCnclsFIter1;
b9ca886f 1010
1011 // PID
1012 for(int i=0;i<AliPID::kSPECIES;++i){
1013 track.fTPCr[i] = fTPCr[i];
1014 // combined PID is TPC only!
1015 track.fR[i] = fTPCr[i];
1016 }
1017 track.fTPCClusterMap = fTPCClusterMap;
1018 track.fTPCSharedMap = fTPCSharedMap;
1019
1020
1021 // reset the flags
1022 track.fFlags = kTPCin;
1023 track.fID = fID;
1024
b1cfce51 1025 track.fFlags |= fFlags & kTPCpid; //copy the TPCpid status flag
b9ca886f 1026
1027 for (Int_t i=0;i<3;i++) track.fKinkIndexes[i] = fKinkIndexes[i];
1028
1029 return kTRUE;
1030
1031}
1032
ae982df3 1033//_______________________________________________________________________
9559cbc4 1034void AliESDtrack::MakeMiniESDtrack(){
1035 // Resets everything except
1036 // fFlags: Reconstruction status flags
1037 // fLabel: Track label
1038 // fID: Unique ID of the track
d7ddf1e9 1039 // Impact parameter information
9559cbc4 1040 // fR[AliPID::kSPECIES]: combined "detector response probability"
8497bca0 1041 // Running track parameters in the base class (AliExternalTrackParam)
9559cbc4 1042
1043 fTrackLength = 0;
562dd0b4 1044
9559cbc4 1045 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTrackTime[i] = 0;
9559cbc4 1046
1047 // Reset track parameters constrained to the primary vertex
562dd0b4 1048 delete fCp;fCp = 0;
9559cbc4 1049
1050 // Reset track parameters at the inner wall of TPC
562dd0b4 1051 delete fIp;fIp = 0;
1052 delete fTPCInner;fTPCInner=0;
9559cbc4 1053 // Reset track parameters at the inner wall of the TRD
562dd0b4 1054 delete fOp;fOp = 0;
c38d443f 1055 // Reset track parameters at the HMPID
1056 delete fHMPIDp;fHMPIDp = 0;
562dd0b4 1057
9559cbc4 1058
1059 // Reset ITS track related information
1060 fITSchi2 = 0;
9559cbc4 1061 fITSncls = 0;
62665e7f 1062 fITSClusterMap=0;
25015f7a 1063 fITSSharedMap=0;
9559cbc4 1064 fITSsignal = 0;
1d4882da 1065 for (Int_t i=0;i<4;i++) fITSdEdxSamples[i] = 0.;
ef7253ac 1066 for (Int_t i=0;i<AliPID::kSPECIES;i++) fITSr[i]=0;
9559cbc4 1067 fITSLabel = 0;
9559cbc4 1068
1069 // Reset TPC related track information
1070 fTPCchi2 = 0;
949840f6 1071 fTPCchi2Iter1 = 0;
9559cbc4 1072 fTPCncls = 0;
e1d4c1b5 1073 fTPCnclsF = 0;
949840f6 1074 fTPCnclsIter1 = 0;
1075 fTPCnclsFIter1 = 0;
9559cbc4 1076 fTPCClusterMap = 0;
eb7f6854 1077 fTPCSharedMap = 0;
9559cbc4 1078 fTPCsignal= 0;
e1d4c1b5 1079 fTPCsignalS= 0;
1080 fTPCsignalN= 0;
9559cbc4 1081 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTPCr[i]=0;
1082 fTPCLabel=0;
1083 for (Int_t i=0;i<4;i++) fTPCPoints[i] = 0;
1084 for (Int_t i=0; i<3;i++) fKinkIndexes[i] = 0;
1085 for (Int_t i=0; i<3;i++) fV0Indexes[i] = 0;
1086
1087 // Reset TRD related track information
1088 fTRDchi2 = 0;
1089 fTRDncls = 0;
1090 fTRDncls0 = 0;
9559cbc4 1091 fTRDsignal = 0;
6984f7c1 1092 for (Int_t i=0;i<kTRDnPlanes;i++) {
6d45eaef 1093 fTRDTimBin[i] = 0;
9559cbc4 1094 }
1095 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTRDr[i] = 0;
1096 fTRDLabel = 0;
9559cbc4 1097 fTRDQuality = 0;
ed15ef4f 1098 fTRDntracklets = 0;
6984f7c1 1099 if(fTRDnSlices)
1100 delete[] fTRDslices;
1101 fTRDslices=0x0;
1102 fTRDnSlices=0;
23d49657 1103 fTRDBudget = 0;
9559cbc4 1104
1105 // Reset TOF related track information
1106 fTOFchi2 = 0;
ce3f4882 1107 fTOFindex = -1;
ab37ab1e 1108 fTOFsignal = 99999;
1109 fTOFCalChannel = -1;
1110 fTOFsignalToT = 99999;
1111 fTOFsignalRaw = 99999;
1112 fTOFsignalDz = 999;
1113 fTOFsignalDx = 999;
1114 fTOFdeltaBC = 999;
1115 fTOFl0l1 = 999;
9559cbc4 1116 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTOFr[i] = 0;
ab37ab1e 1117 for (Int_t i=0;i<3;i++) fTOFLabel[i] = -1;
9559cbc4 1118 for (Int_t i=0;i<10;i++) fTOFInfo[i] = 0;
1119
f4b3bbb7 1120 // Reset HMPID related track information
1121 fHMPIDchi2 = 0;
562dd0b4 1122 fHMPIDqn = 0;
81aa7a0d 1123 fHMPIDcluIdx = -1;
f4b3bbb7 1124 fHMPIDsignal = 0;
1125 for (Int_t i=0;i<AliPID::kSPECIES;i++) fHMPIDr[i] = 0;
562dd0b4 1126 fHMPIDtrkTheta = 0;
1127 fHMPIDtrkPhi = 0;
1128 fHMPIDtrkX = 0;
1129 fHMPIDtrkY = 0;
1130 fHMPIDmipX = 0;
1131 fHMPIDmipY = 0;
f1cedef3 1132 fCaloIndex = kEMCALNoMatch;
9559cbc4 1133
b5b2b4db 1134 // reset global track chi2
1135 fGlobalChi2 = 0;
1136
6dc21f57 1137 fVertexID = -2; // an orphan track
1138
15e85efa 1139 delete fFriendTrack; fFriendTrack = 0;
9559cbc4 1140}
1141//_______________________________________________________________________
4a78b8c5 1142Double_t AliESDtrack::GetMass() const {
4427806c 1143 // Returns the mass of the most probable particle type
ec729fb0 1144
1145 Int_t i;
1146 for (i=0; i<AliPID::kSPECIES-1; i++) {
1147 if (fR[i] != fR[i+1]) break;
1148 }
1149 // If all the probabilities are equal, return the pion mass
1150 if (i == AliPID::kSPECIES-1) return AliPID::ParticleMass(AliPID::kPion);
1151
ae982df3 1152 Float_t max=0.;
1153 Int_t k=-1;
ec729fb0 1154 for (i=0; i<AliPID::kSPECIES; i++) {
ae982df3 1155 if (fR[i]>max) {k=i; max=fR[i];}
1156 }
db3989b3 1157 if (k==0) { // dE/dx "crossing points" in the TPC
1158 Double_t p=GetP();
1159 if ((p>0.38)&&(p<0.48))
304864ab 1160 if (fR[0]<fR[3]*10.) return AliPID::ParticleMass(AliPID::kKaon);
db3989b3 1161 if ((p>0.75)&&(p<0.85))
304864ab 1162 if (fR[0]<fR[4]*10.) return AliPID::ParticleMass(AliPID::kProton);
db3989b3 1163 return 0.00051;
1164 }
304864ab 1165 if (k==1) return AliPID::ParticleMass(AliPID::kMuon);
1166 if (k==2||k==-1) return AliPID::ParticleMass(AliPID::kPion);
1167 if (k==3) return AliPID::ParticleMass(AliPID::kKaon);
1168 if (k==4) return AliPID::ParticleMass(AliPID::kProton);
5f7789fc 1169 AliWarning("Undefined mass !");
304864ab 1170 return AliPID::ParticleMass(AliPID::kPion);
ae982df3 1171}
1172
aad8d435 1173//______________________________________________________________________________
6b5b49c9 1174Double_t AliESDtrack::M() const
1175{
2850a7f3 1176 // Returns the assumed mass
1177 // (the pion mass, if the particle can't be identified properly).
9be82450 1178 static Bool_t printerr=kTRUE;
1179 if (printerr) {
1180 AliWarning("WARNING !!! ... THIS WILL BE PRINTED JUST ONCE !!!");
1181 printerr = kFALSE;
1182 AliWarning("This is the ESD mass. Use it with care !");
1183 }
6b5b49c9 1184 return GetMass();
1185}
1186
1187//______________________________________________________________________________
aad8d435 1188Double_t AliESDtrack::E() const
1189{
1190 // Returns the energy of the particle given its assumed mass.
1191 // Assumes the pion mass if the particle can't be identified properly.
1192
1193 Double_t m = M();
1194 Double_t p = P();
1195 return TMath::Sqrt(p*p + m*m);
1196}
1197
1198//______________________________________________________________________________
1199Double_t AliESDtrack::Y() const
1200{
1201 // Returns the rapidity of a particle given its assumed mass.
1202 // Assumes the pion mass if the particle can't be identified properly.
1203
1204 Double_t e = E();
1205 Double_t pz = Pz();
e03e4544 1206 if (e != TMath::Abs(pz)) { // energy was not equal to pz
aad8d435 1207 return 0.5*TMath::Log((e+pz)/(e-pz));
1208 } else { // energy was equal to pz
1209 return -999.;
1210 }
1211}
1212
ae982df3 1213//_______________________________________________________________________
c9ec41e8 1214Bool_t AliESDtrack::UpdateTrackParams(const AliKalmanTrack *t, ULong_t flags){
ae982df3 1215 //
1216 // This function updates track's running parameters
1217 //
15614b8b 1218 Bool_t rc=kTRUE;
1219
9b859005 1220 SetStatus(flags);
1221 fLabel=t->GetLabel();
1222
1223 if (t->IsStartedTimeIntegral()) {
1224 SetStatus(kTIME);
1225 Double_t times[10];t->GetIntegratedTimes(times); SetIntegratedTimes(times);
1226 SetIntegratedLength(t->GetIntegratedLength());
1227 }
1228
6c94f330 1229 Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
59c31692 1230 if (fFriendTrack) {
ded25cc6 1231 if (flags==kITSout) fFriendTrack->SetITSOut(*t);
1232 if (flags==kTPCout) fFriendTrack->SetTPCOut(*t);
fae4c212 1233 if (flags==kTRDrefit) fFriendTrack->SetTRDIn(*t);
59c31692 1234 }
e1d4c1b5 1235
ae982df3 1236 switch (flags) {
ad2f1f2b 1237
9b859005 1238 case kITSin: case kITSout: case kITSrefit:
6d3a7bbf 1239 {
48704648 1240 fITSClusterMap=0;
ae982df3 1241 fITSncls=t->GetNumberOfClusters();
59c31692 1242 if (fFriendTrack) {
6d3a7bbf 1243 Int_t* indexITS = new Int_t[AliESDfriendTrack::kMaxITScluster];
62665e7f 1244 for (Int_t i=0;i<AliESDfriendTrack::kMaxITScluster;i++) {
6d3a7bbf 1245 indexITS[i]=t->GetClusterIndex(i);
1246
62665e7f 1247 if (i<fITSncls) {
6d3a7bbf 1248 Int_t l=(indexITS[i] & 0xf0000000) >> 28;
62665e7f 1249 SETBIT(fITSClusterMap,l);
1250 }
1251 }
6d3a7bbf 1252 fFriendTrack->SetITSIndices(indexITS,AliESDfriendTrack::kMaxITScluster);
1253 delete [] indexITS;
59c31692 1254 }
6d3a7bbf 1255
ae982df3 1256 fITSchi2=t->GetChi2();
ae982df3 1257 fITSsignal=t->GetPIDsignal();
6e5b1b04 1258 fITSLabel = t->GetLabel();
57483eb1 1259 // keep in fOp the parameters outside ITS for ITS stand-alone tracks
1260 if (flags==kITSout) {
1261 if (!fOp) fOp=new AliExternalTrackParam(*t);
1262 else
1263 fOp->Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
ded25cc6 1264 }
6d3a7bbf 1265 }
ae982df3 1266 break;
ad2f1f2b 1267
9b859005 1268 case kTPCin: case kTPCrefit:
6d3a7bbf 1269 {
6e5b1b04 1270 fTPCLabel = t->GetLabel();
949840f6 1271 if (flags==kTPCin) {
1272 fTPCInner=new AliExternalTrackParam(*t);
1273 fTPCnclsIter1=t->GetNumberOfClusters();
1274 fTPCchi2Iter1=t->GetChi2();
1275 }
c9ec41e8 1276 if (!fIp) fIp=new AliExternalTrackParam(*t);
6c94f330 1277 else
1278 fIp->Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
6d3a7bbf 1279 }
9b859005 1280 case kTPCout:
6d3a7bbf 1281 {
1d303a24 1282 if (flags & kTPCout){
1283 if (!fOp) fOp=new AliExternalTrackParam(*t);
6c94f330 1284 else
1285 fOp->Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
1d303a24 1286 }
e1d4c1b5 1287 fTPCncls=t->GetNumberOfClusters();
ae982df3 1288 fTPCchi2=t->GetChi2();
a866ac60 1289
59c31692 1290 if (fFriendTrack)
a866ac60 1291 {//prevrow must be declared in separate namespace, otherwise compiler cries:
1292 //"jump to case label crosses initialization of `Int_t prevrow'"
59c31692 1293 Int_t* indexTPC = new Int_t[AliESDfriendTrack::kMaxTPCcluster];
a866ac60 1294 Int_t prevrow = -1;
6e5b1b04 1295 // for (Int_t i=0;i<fTPCncls;i++)
15e85efa 1296 for (Int_t i=0;i<AliESDfriendTrack::kMaxTPCcluster;i++)
a866ac60 1297 {
6d3a7bbf 1298 indexTPC[i]=t->GetClusterIndex(i);
1299 Int_t idx = indexTPC[i];
a866ac60 1300
15e85efa 1301 if (idx<0) continue;
9fe5b2ff 1302
a866ac60 1303 // Piotr's Cluster Map for HBT
1304 // ### please change accordingly if cluster array is changing
1305 // to "New TPC Tracking" style (with gaps in array)
a866ac60 1306 Int_t sect = (idx&0xff000000)>>24;
1307 Int_t row = (idx&0x00ff0000)>>16;
1308 if (sect > 18) row +=63; //if it is outer sector, add number of inner sectors
1309
1310 fTPCClusterMap.SetBitNumber(row,kTRUE);
1311
1312 //Fill the gap between previous row and this row with 0 bits
1313 //In case ### pleas change it as well - just set bit 0 in case there
1314 //is no associated clusters for current "i"
1315 if (prevrow < 0)
1316 {
1317 prevrow = row;//if previous bit was not assigned yet == this is the first one
1318 }
1319 else
1320 { //we don't know the order (inner to outer or reverse)
1321 //just to be save in case it is going to change
1322 Int_t n = 0, m = 0;
1323 if (prevrow < row)
1324 {
1325 n = prevrow;
1326 m = row;
1327 }
1328 else
1329 {
1330 n = row;
1331 m = prevrow;
1332 }
1333
1334 for (Int_t j = n+1; j < m; j++)
1335 {
1336 fTPCClusterMap.SetBitNumber(j,kFALSE);
1337 }
1338 prevrow = row;
1339 }
1340 // End Of Piotr's Cluster Map for HBT
1341 }
6d3a7bbf 1342 fFriendTrack->SetTPCIndices(indexTPC,AliESDfriendTrack::kMaxTPCcluster);
1343 delete [] indexTPC;
1344
a866ac60 1345 }
ae982df3 1346 fTPCsignal=t->GetPIDsignal();
6d3a7bbf 1347 }
ae982df3 1348 break;
9b859005 1349
64130601 1350 case kTRDin: case kTRDrefit:
1351 break;
1352 case kTRDout:
6d3a7bbf 1353 {
51ad6848 1354 fTRDLabel = t->GetLabel();
2f83b7a6 1355 fTRDchi2 = t->GetChi2();
1356 fTRDncls = t->GetNumberOfClusters();
59c31692 1357 if (fFriendTrack) {
6d3a7bbf 1358 Int_t* indexTRD = new Int_t[AliESDfriendTrack::kMaxTRDcluster];
1359 for (Int_t i=0;i<AliESDfriendTrack::kMaxTRDcluster;i++) indexTRD[i]=-2;
1360 for (Int_t i=0;i<6;i++) indexTRD[i]=t->GetTrackletIndex(i);
1361 fFriendTrack->SetTRDIndices(indexTRD,AliESDfriendTrack::kMaxTRDcluster);
1362 delete [] indexTRD;
59c31692 1363 }
5bc3e158 1364
79e94bf8 1365 fTRDsignal=t->GetPIDsignal();
6d3a7bbf 1366 }
79e94bf8 1367 break;
c4d11b15 1368 case kTRDbackup:
c9ec41e8 1369 if (!fOp) fOp=new AliExternalTrackParam(*t);
6c94f330 1370 else
1371 fOp->Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
c4d11b15 1372 fTRDncls0 = t->GetNumberOfClusters();
1373 break;
1374 case kTOFin:
1375 break;
1376 case kTOFout:
1377 break;
d0862fea 1378 case kTRDStop:
1379 break;
c38d443f 1380 case kHMPIDout:
1381 if (!fHMPIDp) fHMPIDp=new AliExternalTrackParam(*t);
1382 else
1383 fHMPIDp->Set(t->GetX(),t->GetAlpha(),t->GetParameter(),t->GetCovariance());
1384 break;
ae982df3 1385 default:
5f7789fc 1386 AliError("Wrong flag !");
ae982df3 1387 return kFALSE;
1388 }
1389
15614b8b 1390 return rc;
ae982df3 1391}
1392
1393//_______________________________________________________________________
1394void AliESDtrack::GetExternalParameters(Double_t &x, Double_t p[5]) const {
1395 //---------------------------------------------------------------------
1396 // This function returns external representation of the track parameters
1397 //---------------------------------------------------------------------
c9ec41e8 1398 x=GetX();
1399 for (Int_t i=0; i<5; i++) p[i]=GetParameter()[i];
15614b8b 1400}
1401
67c3dcbe 1402//_______________________________________________________________________
a866ac60 1403void AliESDtrack::GetExternalCovariance(Double_t cov[15]) const {
67c3dcbe 1404 //---------------------------------------------------------------------
1405 // This function returns external representation of the cov. matrix
1406 //---------------------------------------------------------------------
c9ec41e8 1407 for (Int_t i=0; i<15; i++) cov[i]=AliExternalTrackParam::GetCovariance()[i];
67c3dcbe 1408}
1409
67c3dcbe 1410//_______________________________________________________________________
c0b978f0 1411Bool_t AliESDtrack::GetConstrainedExternalParameters
1412 (Double_t &alpha, Double_t &x, Double_t p[5]) const {
67c3dcbe 1413 //---------------------------------------------------------------------
1414 // This function returns the constrained external track parameters
1415 //---------------------------------------------------------------------
c0b978f0 1416 if (!fCp) return kFALSE;
1417 alpha=fCp->GetAlpha();
c9ec41e8 1418 x=fCp->GetX();
1419 for (Int_t i=0; i<5; i++) p[i]=fCp->GetParameter()[i];
c0b978f0 1420 return kTRUE;
67c3dcbe 1421}
c9ec41e8 1422
67c3dcbe 1423//_______________________________________________________________________
c0b978f0 1424Bool_t
67c3dcbe 1425AliESDtrack::GetConstrainedExternalCovariance(Double_t c[15]) const {
1426 //---------------------------------------------------------------------
1427 // This function returns the constrained external cov. matrix
1428 //---------------------------------------------------------------------
c0b978f0 1429 if (!fCp) return kFALSE;
c9ec41e8 1430 for (Int_t i=0; i<15; i++) c[i]=fCp->GetCovariance()[i];
c0b978f0 1431 return kTRUE;
67c3dcbe 1432}
1433
c0b978f0 1434Bool_t
1435AliESDtrack::GetInnerExternalParameters
1436 (Double_t &alpha, Double_t &x, Double_t p[5]) const {
1437 //---------------------------------------------------------------------
c9ec41e8 1438 // This function returns external representation of the track parameters
1439 // at the inner layer of TPC
9b859005 1440 //---------------------------------------------------------------------
c0b978f0 1441 if (!fIp) return kFALSE;
1442 alpha=fIp->GetAlpha();
c9ec41e8 1443 x=fIp->GetX();
1444 for (Int_t i=0; i<5; i++) p[i]=fIp->GetParameter()[i];
c0b978f0 1445 return kTRUE;
9b859005 1446}
1447
c0b978f0 1448Bool_t
1449AliESDtrack::GetInnerExternalCovariance(Double_t cov[15]) const {
c9ec41e8 1450 //---------------------------------------------------------------------
1451 // This function returns external representation of the cov. matrix
1452 // at the inner layer of TPC
1453 //---------------------------------------------------------------------
c0b978f0 1454 if (!fIp) return kFALSE;
c9ec41e8 1455 for (Int_t i=0; i<15; i++) cov[i]=fIp->GetCovariance()[i];
c0b978f0 1456 return kTRUE;
9b859005 1457}
1458
d61ca12d 1459void
1460AliESDtrack::SetOuterParam(const AliExternalTrackParam *p, ULong_t flags) {
1461 //
1462 // This is a direct setter for the outer track parameters
1463 //
1464 SetStatus(flags);
1465 if (fOp) delete fOp;
1466 fOp=new AliExternalTrackParam(*p);
1467}
1468
c38d443f 1469void
1470AliESDtrack::SetOuterHmpParam(const AliExternalTrackParam *p, ULong_t flags) {
1471 //
1472 // This is a direct setter for the outer track parameters
1473 //
1474 SetStatus(flags);
1475 if (fHMPIDp) delete fHMPIDp;
1476 fHMPIDp=new AliExternalTrackParam(*p);
1477}
1478
c0b978f0 1479Bool_t
1480AliESDtrack::GetOuterExternalParameters
1481 (Double_t &alpha, Double_t &x, Double_t p[5]) const {
1482 //---------------------------------------------------------------------
c9ec41e8 1483 // This function returns external representation of the track parameters
1484 // at the inner layer of TRD
a866ac60 1485 //---------------------------------------------------------------------
c0b978f0 1486 if (!fOp) return kFALSE;
1487 alpha=fOp->GetAlpha();
c9ec41e8 1488 x=fOp->GetX();
1489 for (Int_t i=0; i<5; i++) p[i]=fOp->GetParameter()[i];
c0b978f0 1490 return kTRUE;
a866ac60 1491}
c9ec41e8 1492
c0b978f0 1493Bool_t
c38d443f 1494AliESDtrack::GetOuterHmpExternalParameters
1495 (Double_t &alpha, Double_t &x, Double_t p[5]) const {
1496 //---------------------------------------------------------------------
1497 // This function returns external representation of the track parameters
1498 // at the inner layer of TRD
1499 //---------------------------------------------------------------------
1500 if (!fHMPIDp) return kFALSE;
1501 alpha=fHMPIDp->GetAlpha();
1502 x=fHMPIDp->GetX();
1503 for (Int_t i=0; i<5; i++) p[i]=fHMPIDp->GetParameter()[i];
1504 return kTRUE;
1505}
1506
1507Bool_t
c0b978f0 1508AliESDtrack::GetOuterExternalCovariance(Double_t cov[15]) const {
a866ac60 1509 //---------------------------------------------------------------------
c9ec41e8 1510 // This function returns external representation of the cov. matrix
1511 // at the inner layer of TRD
a866ac60 1512 //---------------------------------------------------------------------
c0b978f0 1513 if (!fOp) return kFALSE;
c9ec41e8 1514 for (Int_t i=0; i<15; i++) cov[i]=fOp->GetCovariance()[i];
c0b978f0 1515 return kTRUE;
a866ac60 1516}
1517
c38d443f 1518Bool_t
1519AliESDtrack::GetOuterHmpExternalCovariance(Double_t cov[15]) const {
1520 //---------------------------------------------------------------------
1521 // This function returns external representation of the cov. matrix
1522 // at the inner layer of TRD
1523 //---------------------------------------------------------------------
1524 if (!fHMPIDp) return kFALSE;
1525 for (Int_t i=0; i<15; i++) cov[i]=fHMPIDp->GetCovariance()[i];
1526 return kTRUE;
1527}
1528
98937d93 1529Int_t AliESDtrack::GetNcls(Int_t idet) const
1530{
1531 // Get number of clusters by subdetector index
1532 //
1533 Int_t ncls = 0;
1534 switch(idet){
1535 case 0:
1536 ncls = fITSncls;
1537 break;
1538 case 1:
1539 ncls = fTPCncls;
1540 break;
1541 case 2:
1542 ncls = fTRDncls;
1543 break;
1544 case 3:
ce3f4882 1545 if (fTOFindex != -1)
98937d93 1546 ncls = 1;
1547 break;
81aa7a0d 1548 case 4: //PHOS
1549 break;
1550 case 5: //HMPID
1551 if ((fHMPIDcluIdx >= 0) && (fHMPIDcluIdx < 7000000)) {
1552 if ((fHMPIDcluIdx%1000000 != 9999) && (fHMPIDcluIdx%1000000 != 99999)) {
1553 ncls = 1;
1554 }
1555 }
1556 break;
98937d93 1557 default:
1558 break;
1559 }
1560 return ncls;
1561}
1562
ef7253ac 1563Int_t AliESDtrack::GetClusters(Int_t idet, Int_t *idx) const
98937d93 1564{
1565 // Get cluster index array by subdetector index
1566 //
1567 Int_t ncls = 0;
1568 switch(idet){
1569 case 0:
1570 ncls = GetITSclusters(idx);
1571 break;
1572 case 1:
ef7253ac 1573 ncls = GetTPCclusters(idx);
98937d93 1574 break;
1575 case 2:
1576 ncls = GetTRDclusters(idx);
1577 break;
1578 case 3:
ce3f4882 1579 if (fTOFindex != -1) {
1580 idx[0] = fTOFindex;
98937d93 1581 ncls = 1;
1582 }
1583 break;
313af949 1584 case 4: //PHOS
1585 break;
1586 case 5:
81aa7a0d 1587 if ((fHMPIDcluIdx >= 0) && (fHMPIDcluIdx < 7000000)) {
1588 if ((fHMPIDcluIdx%1000000 != 9999) && (fHMPIDcluIdx%1000000 != 99999)) {
1589 idx[0] = GetHMPIDcluIdx();
1590 ncls = 1;
1591 }
313af949 1592 }
1593 break;
1594 case 6: //EMCAL
1595 break;
98937d93 1596 default:
1597 break;
1598 }
1599 return ncls;
1600}
1601
ae982df3 1602//_______________________________________________________________________
ae982df3 1603void AliESDtrack::GetIntegratedTimes(Double_t *times) const {
4427806c 1604 // Returns the array with integrated times for each particle hypothesis
304864ab 1605 for (Int_t i=0; i<AliPID::kSPECIES; i++) times[i]=fTrackTime[i];
ae982df3 1606}
1607
1608//_______________________________________________________________________
1609void AliESDtrack::SetIntegratedTimes(const Double_t *times) {
4427806c 1610 // Sets the array with integrated times for each particle hypotesis
304864ab 1611 for (Int_t i=0; i<AliPID::kSPECIES; i++) fTrackTime[i]=times[i];
ae982df3 1612}
1613
1614//_______________________________________________________________________
4427806c 1615void AliESDtrack::SetITSpid(const Double_t *p) {
1616 // Sets values for the probability of each particle type (in ITS)
d27bbc79 1617 SetPIDValues(fITSr,p,AliPID::kSPECIES);
c630aafd 1618 SetStatus(AliESDtrack::kITSpid);
1619}
1620
1621//_______________________________________________________________________
1622void AliESDtrack::GetITSpid(Double_t *p) const {
4427806c 1623 // Gets the probability of each particle type (in ITS)
304864ab 1624 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fITSr[i];
c630aafd 1625}
1626
1627//_______________________________________________________________________
562dd0b4 1628Char_t AliESDtrack::GetITSclusters(Int_t *idx) const {
ae982df3 1629 //---------------------------------------------------------------------
1630 // This function returns indices of the assgined ITS clusters
1631 //---------------------------------------------------------------------
59c31692 1632 if (idx && fFriendTrack) {
6d3a7bbf 1633 Int_t *index=fFriendTrack->GetITSindices();
1634 for (Int_t i=0; i<AliESDfriendTrack::kMaxITScluster; i++) {
1635 if ( (i>=fITSncls) && (i<6) ) idx[i]=-1;
1636 else {
1637 if (index) {
1638 idx[i]=index[i];
1639 }
1640 else idx[i]= -2;
1641 }
1642 }
15e85efa 1643 }
ae982df3 1644 return fITSncls;
1645}
1646
1647//_______________________________________________________________________
89f1b176 1648Bool_t AliESDtrack::GetITSModuleIndexInfo(Int_t ilayer,Int_t &idet,Int_t &status,
1649 Float_t &xloc,Float_t &zloc) const {
1650 //----------------------------------------------------------------------
1651 // This function encodes in the module number also the status of cluster association
1652 // "status" can have the following values:
1653 // 1 "found" (cluster is associated),
1654 // 2 "dead" (module is dead from OCDB),
1655 // 3 "skipped" (module or layer forced to be skipped),
1656 // 4 "outinz" (track out of z acceptance),
1657 // 5 "nocls" (no clusters in the road),
1658 // 6 "norefit" (cluster rejected during refit),
1659 // 7 "deadzspd" (holes in z in SPD)
1660 // Also given are the coordinates of the crossing point of track and module
1661 // (in the local module ref. system)
1662 // WARNING: THIS METHOD HAS TO BE SYNCHRONIZED WITH AliITStrackV2::GetModuleIndexInfo()!
1663 //----------------------------------------------------------------------
1664
1665 if(fITSModule[ilayer]==-1) {
89f1b176 1666 idet = -1;
1667 status=0;
1668 xloc=-99.; zloc=-99.;
1669 return kFALSE;
1670 }
1671
1672 Int_t module = fITSModule[ilayer];
1673
1674 idet = Int_t(module/1000000);
1675
1676 module -= idet*1000000;
1677
1678 status = Int_t(module/100000);
1679
1680 module -= status*100000;
1681
1682 Int_t signs = Int_t(module/10000);
1683
1684 module-=signs*10000;
1685
1686 Int_t xInt = Int_t(module/100);
1687 module -= xInt*100;
1688
1689 Int_t zInt = module;
1690
1691 if(signs==1) { xInt*=1; zInt*=1; }
1692 if(signs==2) { xInt*=1; zInt*=-1; }
1693 if(signs==3) { xInt*=-1; zInt*=1; }
1694 if(signs==4) { xInt*=-1; zInt*=-1; }
1695
1696 xloc = 0.1*(Float_t)xInt;
1697 zloc = 0.1*(Float_t)zInt;
1698
1699 if(status==4) idet = -1;
1700
1701 return kTRUE;
1702}
1703
1704//_______________________________________________________________________
562dd0b4 1705UShort_t AliESDtrack::GetTPCclusters(Int_t *idx) const {
ae982df3 1706 //---------------------------------------------------------------------
1707 // This function returns indices of the assgined ITS clusters
1708 //---------------------------------------------------------------------
59c31692 1709 if (idx && fFriendTrack) {
15e85efa 1710 Int_t *index=fFriendTrack->GetTPCindices();
6d3a7bbf 1711
1712 if (index){
1713 for (Int_t i=0; i<AliESDfriendTrack::kMaxTPCcluster; i++) idx[i]=index[i];
1714 }
1715 else {
1716 for (Int_t i=0; i<AliESDfriendTrack::kMaxTPCcluster; i++) idx[i]=-2;
1717 }
15e85efa 1718 }
ae982df3 1719 return fTPCncls;
1720}
8c6a71ab 1721
6a6f0c1f 1722//_______________________________________________________________________
204022f3 1723Float_t AliESDtrack::GetTPCClusterInfo(Int_t nNeighbours/*=3*/, Int_t type/*=0*/, Int_t row0, Int_t row1) const
6a6f0c1f 1724{
1725 //
1726 // TPC cluster information
1727 // type 0: get fraction of found/findable clusters with neighbourhood definition
1728 // 1: findable clusters with neighbourhood definition
1729 // 2: found clusters
1730 //
1731 // definition of findable clusters:
1732 // a cluster is defined as findable if there is another cluster
1733 // within +- nNeighbours pad rows. The idea is to overcome threshold
1734 // effects with a very simple algorithm.
1735 //
1736
1737 if (type==2) return fTPCClusterMap.CountBits();
1738
1739 Int_t found=0;
1740 Int_t findable=0;
1741 Int_t last=-nNeighbours;
1742
59c31692 1743 Int_t upperBound=fTPCClusterMap.GetNbits();
1744 if (upperBound>row1) upperBound=row1;
1745 for (Int_t i=row0; i<upperBound; ++i){
6a6f0c1f 1746 //look to current row
1747 if (fTPCClusterMap[i]) {
1748 last=i;
1749 ++found;
1750 ++findable;
1751 continue;
1752 }
1753 //look to nNeighbours before
1754 if ((i-last)<=nNeighbours) {
1755 ++findable;
1756 continue;
1757 }
1758 //look to nNeighbours after
1759 for (Int_t j=i+1; j<i+1+nNeighbours; ++j){
1760 if (fTPCClusterMap[j]){
1761 ++findable;
1762 break;
1763 }
1764 }
1765 }
82cc468e 1766 if (type==1) return findable;
1767
6a6f0c1f 1768 if (type==0){
82cc468e 1769 Float_t fraction=0;
1770 if (findable>0)
1771 fraction=(Float_t)found/(Float_t)findable;
1772 else
1773 fraction=0;
1774 return fraction;
1775 }
1776 return 0; // undefined type - default value
6a6f0c1f 1777}
1778
1779//_______________________________________________________________________
562dd0b4 1780Double_t AliESDtrack::GetTPCdensity(Int_t row0, Int_t row1) const{
81e97e0d 1781 //
1782 // GetDensity of the clusters on given region between row0 and row1
1783 // Dead zone effect takin into acoount
1784 //
59c31692 1785 if (!fFriendTrack) return 0.0;
81e97e0d 1786 Int_t good = 0;
1787 Int_t found = 0;
1788 //
15e85efa 1789 Int_t *index=fFriendTrack->GetTPCindices();
81e97e0d 1790 for (Int_t i=row0;i<=row1;i++){
15e85efa 1791 Int_t idx = index[i];
1792 if (idx!=-1) good++; // track outside of dead zone
1793 if (idx>0) found++;
81e97e0d 1794 }
1795 Float_t density=0.5;
1796 if (good>(row1-row0)*0.5) density = Float_t(found)/Float_t(good);
1797 return density;
1798}
c84a5e9e 1799
8c6a71ab 1800//_______________________________________________________________________
1801void AliESDtrack::SetTPCpid(const Double_t *p) {
4427806c 1802 // Sets values for the probability of each particle type (in TPC)
d27bbc79 1803 SetPIDValues(fTPCr,p,AliPID::kSPECIES);
8c6a71ab 1804 SetStatus(AliESDtrack::kTPCpid);
1805}
1806
1807//_______________________________________________________________________
1808void AliESDtrack::GetTPCpid(Double_t *p) const {
4427806c 1809 // Gets the probability of each particle type (in TPC)
304864ab 1810 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fTPCr[i];
8c6a71ab 1811}
1812
1813//_______________________________________________________________________
562dd0b4 1814UChar_t AliESDtrack::GetTRDclusters(Int_t *idx) const {
bb2ceb1f 1815 //---------------------------------------------------------------------
1816 // This function returns indices of the assgined TRD clusters
1817 //---------------------------------------------------------------------
59c31692 1818 if (idx && fFriendTrack) {
6d3a7bbf 1819 Int_t *index=fFriendTrack->GetTRDindices();
1820
1821 if (index) {
1822 for (Int_t i=0; i<AliESDfriendTrack::kMaxTRDcluster; i++) idx[i]=index[i];
1823 }
1824 else {
1825 for (Int_t i=0; i<AliESDfriendTrack::kMaxTRDcluster; i++) idx[i]=-2;
1826 }
15e85efa 1827 }
bb2ceb1f 1828 return fTRDncls;
1829}
1830
1831//_______________________________________________________________________
5bc3e158 1832UChar_t AliESDtrack::GetTRDtracklets(Int_t *idx) const {
0ad488b0 1833//
1834// This function returns the number of TRD tracklets used in tracking
1835// and it fills the indices of these tracklets in the array "idx" as they
1836// are registered in the TRD track list.
1837//
1838// Caution :
1839// 1. The idx array has to be allocated with a size >= AliESDtrack::kTRDnPlanes
1840// 2. The idx array store not only the index but also the layer of the tracklet.
1841// Therefore tracks with TRD gaps contain default values for indices [-1]
1842
59c31692 1843 if (!fFriendTrack) return 0;
0ad488b0 1844 if (!idx) return GetTRDntracklets();
6d3a7bbf 1845 Int_t *index=fFriendTrack->GetTRDindices();
1846 Int_t n = 0;
0ad488b0 1847 for (Int_t i=0; i<kTRDnPlanes; i++){
6d3a7bbf 1848 if (index){
1849 if(index[i]>=0) n++;
1850 idx[i]=index[i];
1851 }
1852 else idx[i] = -2;
5bc3e158 1853 }
0ad488b0 1854 return n;
5bc3e158 1855}
1856
1857//_______________________________________________________________________
c630aafd 1858void AliESDtrack::SetTRDpid(const Double_t *p) {
4427806c 1859 // Sets values for the probability of each particle type (in TRD)
d27bbc79 1860 SetPIDValues(fTRDr,p,AliPID::kSPECIES);
c630aafd 1861 SetStatus(AliESDtrack::kTRDpid);
1862}
1863
1864//_______________________________________________________________________
1865void AliESDtrack::GetTRDpid(Double_t *p) const {
4427806c 1866 // Gets the probability of each particle type (in TRD)
304864ab 1867 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fTRDr[i];
c630aafd 1868}
1869
1870//_______________________________________________________________________
79e94bf8 1871void AliESDtrack::SetTRDpid(Int_t iSpecies, Float_t p)
1872{
4427806c 1873 // Sets the probability of particle type iSpecies to p (in TRD)
79e94bf8 1874 fTRDr[iSpecies] = p;
1875}
1876
562dd0b4 1877Double_t AliESDtrack::GetTRDpid(Int_t iSpecies) const
79e94bf8 1878{
4427806c 1879 // Returns the probability of particle type iSpecies (in TRD)
79e94bf8 1880 return fTRDr[iSpecies];
1881}
1882
fae4c212 1883//____________________________________________________
1884Int_t AliESDtrack::GetNumberOfTRDslices() const
1885{
1886 // built in backward compatibility
1887 Int_t idx = fTRDnSlices - (kTRDnPlanes<<1);
1888 return idx<18 ? fTRDnSlices/kTRDnPlanes : idx/kTRDnPlanes;
1889}
1890
1891//____________________________________________________
1892Double_t AliESDtrack::GetTRDmomentum(Int_t plane, Double_t *sp) const
1893{
1894//Returns momentum estimation and optional its error (sp)
1895// in TRD layer "plane".
1896
1897 if (!fTRDnSlices) {
ba8cee18 1898 AliDebug(2, "No TRD info allocated for this track.");
fae4c212 1899 return -1.;
1900 }
1901 if ((plane<0) || (plane>=kTRDnPlanes)) {
ba8cee18 1902 AliWarning(Form("Request for TRD plane[%d] outside range.", plane));
fae4c212 1903 return -1.;
1904 }
1905
1906 Int_t idx = fTRDnSlices-(kTRDnPlanes<<1)+plane;
1907 // Protection for backward compatibility
1908 if(idx<(GetNumberOfTRDslices()*kTRDnPlanes)) return -1.;
1909
1910 if(sp) (*sp) = fTRDslices[idx+kTRDnPlanes];
1911 return fTRDslices[idx];
1912}
1913
1914//____________________________________________________
1915Double_t AliESDtrack::GetTRDslice(Int_t plane, Int_t slice) const {
1916 //Gets the charge from the slice of the plane
1917
1918 if(!fTRDslices) {
1919 //AliError("No TRD slices allocated for this track !");
1920 return -1.;
1921 }
1922 if ((plane<0) || (plane>=kTRDnPlanes)) {
1923 AliError("Info for TRD plane not available !");
1924 return -1.;
1925 }
1926 Int_t ns=GetNumberOfTRDslices();
1927 if ((slice<-1) || (slice>=ns)) {
1928 //AliError("Wrong TRD slice !");
1929 return -1.;
1930 }
1931
1932 if(slice>=0) return fTRDslices[plane*ns + slice];
1933
1934 // return average of the dEdx measurements
1935 Double_t q=0.; Double32_t *s = &fTRDslices[plane*ns];
1936 for (Int_t i=0; i<ns; i++, s++) if((*s)>0.) q+=(*s);
1937 return q/ns;
1938}
1939
1940//____________________________________________________
6984f7c1 1941void AliESDtrack::SetNumberOfTRDslices(Int_t n) {
1942 //Sets the number of slices used for PID
fae4c212 1943 if (fTRDnSlices) return;
1944
1945 fTRDnSlices=n;
6984f7c1 1946 fTRDslices=new Double32_t[fTRDnSlices];
fae4c212 1947
1948 // set-up correctly the allocated memory
1949 memset(fTRDslices, 0, n*sizeof(Double32_t));
1950 for (Int_t i=GetNumberOfTRDslices(); i--;) fTRDslices[i]=-1.;
6984f7c1 1951}
1952
fae4c212 1953//____________________________________________________
6984f7c1 1954void AliESDtrack::SetTRDslice(Double_t q, Int_t plane, Int_t slice) {
1955 //Sets the charge q in the slice of the plane
fae4c212 1956 if(!fTRDslices) {
6984f7c1 1957 AliError("No TRD slices allocated for this track !");
1958 return;
1959 }
6984f7c1 1960 if ((plane<0) || (plane>=kTRDnPlanes)) {
fae4c212 1961 AliError("Info for TRD plane not allocated !");
6984f7c1 1962 return;
1963 }
fae4c212 1964 Int_t ns=GetNumberOfTRDslices();
6984f7c1 1965 if ((slice<0) || (slice>=ns)) {
1966 AliError("Wrong TRD slice !");
1967 return;
1968 }
1969 Int_t n=plane*ns + slice;
1970 fTRDslices[n]=q;
1971}
1972
6984f7c1 1973
fae4c212 1974//____________________________________________________
1975void AliESDtrack::SetTRDmomentum(Double_t p, Int_t plane, Double_t *sp)
1976{
1977 if(!fTRDslices) {
1978 AliError("No TRD slices allocated for this track !");
1979 return;
6984f7c1 1980 }
fae4c212 1981 if ((plane<0) || (plane>=kTRDnPlanes)) {
1982 AliError("Info for TRD plane not allocated !");
1983 return;
6984f7c1 1984 }
1985
fae4c212 1986 Int_t idx = fTRDnSlices-(kTRDnPlanes<<1)+plane;
1987 // Protection for backward compatibility
1988 if(idx<GetNumberOfTRDslices()*kTRDnPlanes) return;
6984f7c1 1989
fae4c212 1990 if(sp) fTRDslices[idx+kTRDnPlanes] = (*sp);
1991 fTRDslices[idx] = p;
6984f7c1 1992}
1993
1994
79e94bf8 1995//_______________________________________________________________________
c630aafd 1996void AliESDtrack::SetTOFpid(const Double_t *p) {
4427806c 1997 // Sets the probability of each particle type (in TOF)
d27bbc79 1998 SetPIDValues(fTOFr,p,AliPID::kSPECIES);
c630aafd 1999 SetStatus(AliESDtrack::kTOFpid);
2000}
2001
2002//_______________________________________________________________________
51ad6848 2003void AliESDtrack::SetTOFLabel(const Int_t *p) {
2004 // Sets (in TOF)
2005 for (Int_t i=0; i<3; i++) fTOFLabel[i]=p[i];
2006}
2007
2008//_______________________________________________________________________
c630aafd 2009void AliESDtrack::GetTOFpid(Double_t *p) const {
4427806c 2010 // Gets probabilities of each particle type (in TOF)
304864ab 2011 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fTOFr[i];
c630aafd 2012}
2013
51ad6848 2014//_______________________________________________________________________
2015void AliESDtrack::GetTOFLabel(Int_t *p) const {
2016 // Gets (in TOF)
2017 for (Int_t i=0; i<3; i++) p[i]=fTOFLabel[i];
2018}
2019
2020//_______________________________________________________________________
2021void AliESDtrack::GetTOFInfo(Float_t *info) const {
2022 // Gets (in TOF)
2023 for (Int_t i=0; i<10; i++) info[i]=fTOFInfo[i];
2024}
2025
2026//_______________________________________________________________________
2027void AliESDtrack::SetTOFInfo(Float_t*info) {
2028 // Gets (in TOF)
2029 for (Int_t i=0; i<10; i++) fTOFInfo[i]=info[i];
2030}
2031
4a78b8c5 2032
2033
2034//_______________________________________________________________________
f4b3bbb7 2035void AliESDtrack::SetHMPIDpid(const Double_t *p) {
2036 // Sets the probability of each particle type (in HMPID)
2037 SetPIDValues(fHMPIDr,p,AliPID::kSPECIES);
2038 SetStatus(AliESDtrack::kHMPIDpid);
4a78b8c5 2039}
2040
2041//_______________________________________________________________________
f4b3bbb7 2042void AliESDtrack::GetHMPIDpid(Double_t *p) const {
2043 // Gets probabilities of each particle type (in HMPID)
2044 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fHMPIDr[i];
4a78b8c5 2045}
2046
2047
2048
c630aafd 2049//_______________________________________________________________________
8c6a71ab 2050void AliESDtrack::SetESDpid(const Double_t *p) {
4427806c 2051 // Sets the probability of each particle type for the ESD track
d27bbc79 2052 SetPIDValues(fR,p,AliPID::kSPECIES);
8c6a71ab 2053 SetStatus(AliESDtrack::kESDpid);
2054}
2055
2056//_______________________________________________________________________
2057void AliESDtrack::GetESDpid(Double_t *p) const {
4427806c 2058 // Gets probability of each particle type for the ESD track
304864ab 2059 for (Int_t i=0; i<AliPID::kSPECIES; i++) p[i]=fR[i];
8c6a71ab 2060}
2061
ac2f7574 2062//_______________________________________________________________________
436dfe39 2063Bool_t AliESDtrack::RelateToVertexTPC(const AliESDVertex *vtx,
2064Double_t b, Double_t maxd, AliExternalTrackParam *cParam) {
d7ddf1e9 2065 //
436dfe39 2066 // Try to relate the TPC-only track parameters to the vertex "vtx",
d7ddf1e9 2067 // if the (rough) transverse impact parameter is not bigger then "maxd".
2068 // Magnetic field is "b" (kG).
2069 //
2070 // a) The TPC-only paramters are extapolated to the DCA to the vertex.
2071 // b) The impact parameters and their covariance matrix are calculated.
436dfe39 2072 // c) An attempt to constrain the TPC-only params to the vertex is done.
2073 // The constrained params are returned via "cParam".
d7ddf1e9 2074 //
436dfe39 2075 // In the case of success, the returned value is kTRUE
2076 // otherwise, it's kFALSE)
2077 //
d7ddf1e9 2078
2079 if (!fTPCInner) return kFALSE;
2080 if (!vtx) return kFALSE;
2081
2082 Double_t dz[2],cov[3];
2083 if (!fTPCInner->PropagateToDCA(vtx, b, maxd, dz, cov)) return kFALSE;
2084
2085 fdTPC = dz[0];
2086 fzTPC = dz[1];
2087 fCddTPC = cov[0];
2088 fCdzTPC = cov[1];
2089 fCzzTPC = cov[2];
2090
436dfe39 2091 Double_t covar[6]; vtx->GetCovMatrix(covar);
2092 Double_t p[2]={GetParameter()[0]-dz[0],GetParameter()[1]-dz[1]};
2093 Double_t c[3]={covar[2],0.,covar[5]};
2094
2095 Double_t chi2=GetPredictedChi2(p,c);
2096 if (chi2>kVeryBig) return kFALSE;
2097
2098 fCchi2TPC=chi2;
2099
2100 if (!cParam) return kTRUE;
2101
2102 *cParam = *fTPCInner;
2103 if (!cParam->Update(p,c)) return kFALSE;
2104
d7ddf1e9 2105 return kTRUE;
2106}
2107
2108//_______________________________________________________________________
266a0f9b 2109Bool_t AliESDtrack::RelateToVertexTPCBxByBz(const AliESDVertex *vtx,
2110Double_t b[3], Double_t maxd, AliExternalTrackParam *cParam) {
2111 //
2112 // Try to relate the TPC-only track parameters to the vertex "vtx",
2113 // if the (rough) transverse impact parameter is not bigger then "maxd".
2114 //
2115 // All three components of the magnetic field ,"b[3]" (kG),
2116 // are taken into account.
2117 //
2118 // a) The TPC-only paramters are extapolated to the DCA to the vertex.
2119 // b) The impact parameters and their covariance matrix are calculated.
2120 // c) An attempt to constrain the TPC-only params to the vertex is done.
2121 // The constrained params are returned via "cParam".
2122 //
2123 // In the case of success, the returned value is kTRUE
2124 // otherwise, it's kFALSE)
2125 //
2126
2127 if (!fTPCInner) return kFALSE;
2128 if (!vtx) return kFALSE;
2129
2130 Double_t dz[2],cov[3];
2131 if (!fTPCInner->PropagateToDCABxByBz(vtx, b, maxd, dz, cov)) return kFALSE;
2132
2133 fdTPC = dz[0];
2134 fzTPC = dz[1];
2135 fCddTPC = cov[0];
2136 fCdzTPC = cov[1];
2137 fCzzTPC = cov[2];
2138
2139 Double_t covar[6]; vtx->GetCovMatrix(covar);
2140 Double_t p[2]={GetParameter()[0]-dz[0],GetParameter()[1]-dz[1]};
2141 Double_t c[3]={covar[2],0.,covar[5]};
2142
2143 Double_t chi2=GetPredictedChi2(p,c);
2144 if (chi2>kVeryBig) return kFALSE;
2145
2146 fCchi2TPC=chi2;
2147
2148 if (!cParam) return kTRUE;
2149
2150 *cParam = *fTPCInner;
2151 if (!cParam->Update(p,c)) return kFALSE;
2152
2153 return kTRUE;
2154}
2155
2156//_______________________________________________________________________
436dfe39 2157Bool_t AliESDtrack::RelateToVertex(const AliESDVertex *vtx,
2158Double_t b, Double_t maxd, AliExternalTrackParam *cParam) {
49d13e89 2159 //
2160 // Try to relate this track to the vertex "vtx",
2161 // if the (rough) transverse impact parameter is not bigger then "maxd".
2162 // Magnetic field is "b" (kG).
2163 //
2164 // a) The track gets extapolated to the DCA to the vertex.
2165 // b) The impact parameters and their covariance matrix are calculated.
2166 // c) An attempt to constrain this track to the vertex is done.
436dfe39 2167 // The constrained params are returned via "cParam".
49d13e89 2168 //
436dfe39 2169 // In the case of success, the returned value is kTRUE
2170 // (otherwise, it's kFALSE)
49d13e89 2171 //
b5d34a4c 2172
2173 if (!vtx) return kFALSE;
2174
e99a34df 2175 Double_t dz[2],cov[3];
2176 if (!PropagateToDCA(vtx, b, maxd, dz, cov)) return kFALSE;
2177
2178 fD = dz[0];
2179 fZ = dz[1];
2180 fCdd = cov[0];
2181 fCdz = cov[1];
2182 fCzz = cov[2];
49d13e89 2183
e99a34df 2184 Double_t covar[6]; vtx->GetCovMatrix(covar);
2185 Double_t p[2]={GetParameter()[0]-dz[0],GetParameter()[1]-dz[1]};
2186 Double_t c[3]={covar[2],0.,covar[5]};
3231f9e5 2187
e99a34df 2188 Double_t chi2=GetPredictedChi2(p,c);
436dfe39 2189 if (chi2>kVeryBig) return kFALSE;
2190
2191 fCchi2=chi2;
49d13e89 2192
436dfe39 2193
2194 //--- Could now these lines be removed ? ---
e99a34df 2195 delete fCp;
2196 fCp=new AliExternalTrackParam(*this);
49d13e89 2197
e99a34df 2198 if (!fCp->Update(p,c)) {delete fCp; fCp=0; return kFALSE;}
266a0f9b 2199 //----------------------------------------
2200
2201 fVertexID = vtx->GetID();
2202
2203 if (!cParam) return kTRUE;
2204
2205 *cParam = *this;
2206 if (!cParam->Update(p,c)) return kFALSE;
2207
2208 return kTRUE;
2209}
2210
2211//_______________________________________________________________________
2212Bool_t AliESDtrack::RelateToVertexBxByBz(const AliESDVertex *vtx,
2213Double_t b[3], Double_t maxd, AliExternalTrackParam *cParam) {
2214 //
2215 // Try to relate this track to the vertex "vtx",
2216 // if the (rough) transverse impact parameter is not bigger then "maxd".
2217 // Magnetic field is "b" (kG).
2218 //
2219 // a) The track gets extapolated to the DCA to the vertex.
2220 // b) The impact parameters and their covariance matrix are calculated.
2221 // c) An attempt to constrain this track to the vertex is done.
2222 // The constrained params are returned via "cParam".
2223 //
2224 // In the case of success, the returned value is kTRUE
2225 // (otherwise, it's kFALSE)
2226 //
2227
2228 if (!vtx) return kFALSE;
2229
2230 Double_t dz[2],cov[3];
2231 if (!PropagateToDCABxByBz(vtx, b, maxd, dz, cov)) return kFALSE;
2232
2233 fD = dz[0];
2234 fZ = dz[1];
2235 fCdd = cov[0];
2236 fCdz = cov[1];
2237 fCzz = cov[2];
2238
2239 Double_t covar[6]; vtx->GetCovMatrix(covar);
2240 Double_t p[2]={GetParameter()[0]-dz[0],GetParameter()[1]-dz[1]};
2241 Double_t c[3]={covar[2],0.,covar[5]};
2242
2243 Double_t chi2=GetPredictedChi2(p,c);
2244 if (chi2>kVeryBig) return kFALSE;
2245
2246 fCchi2=chi2;
2247
2248
2249 //--- Could now these lines be removed ? ---
2250 delete fCp;
2251 fCp=new AliExternalTrackParam(*this);
2252
2253 if (!fCp->Update(p,c)) {delete fCp; fCp=0; return kFALSE;}
436dfe39 2254 //----------------------------------------
2255
6dc21f57 2256 fVertexID = vtx->GetID();
436dfe39 2257
2258 if (!cParam) return kTRUE;
2259
2260 *cParam = *this;
2261 if (!cParam->Update(p,c)) return kFALSE;
2262
49d13e89 2263 return kTRUE;
2264}
2265
2266//_______________________________________________________________________
ac2f7574 2267void AliESDtrack::Print(Option_t *) const {
2268 // Prints info on the track
b9ca886f 2269 AliExternalTrackParam::Print();
5f7789fc 2270 printf("ESD track info\n") ;
304864ab 2271 Double_t p[AliPID::kSPECIESN] ;
ac2f7574 2272 Int_t index = 0 ;
2273 if( IsOn(kITSpid) ){
2274 printf("From ITS: ") ;
2275 GetITSpid(p) ;
304864ab 2276 for(index = 0 ; index < AliPID::kSPECIES; index++)
ac2f7574 2277 printf("%f, ", p[index]) ;
2278 printf("\n signal = %f\n", GetITSsignal()) ;
2279 }
2280 if( IsOn(kTPCpid) ){
2281 printf("From TPC: ") ;
2282 GetTPCpid(p) ;
304864ab 2283 for(index = 0 ; index < AliPID::kSPECIES; index++)
ac2f7574 2284 printf("%f, ", p[index]) ;
2285 printf("\n signal = %f\n", GetTPCsignal()) ;
2286 }
2287 if( IsOn(kTRDpid) ){
2288 printf("From TRD: ") ;
2289 GetTRDpid(p) ;
304864ab 2290 for(index = 0 ; index < AliPID::kSPECIES; index++)
ac2f7574 2291 printf("%f, ", p[index]) ;
6984f7c1 2292 printf("\n signal = %f\n", GetTRDsignal()) ;
ac2f7574 2293 }
2294 if( IsOn(kTOFpid) ){
2295 printf("From TOF: ") ;
2296 GetTOFpid(p) ;
304864ab 2297 for(index = 0 ; index < AliPID::kSPECIES; index++)
ac2f7574 2298 printf("%f, ", p[index]) ;
2299 printf("\n signal = %f\n", GetTOFsignal()) ;
2300 }
f4b3bbb7 2301 if( IsOn(kHMPIDpid) ){
2302 printf("From HMPID: ") ;
2303 GetHMPIDpid(p) ;
304864ab 2304 for(index = 0 ; index < AliPID::kSPECIES; index++)
ac2f7574 2305 printf("%f, ", p[index]) ;
f4b3bbb7 2306 printf("\n signal = %f\n", GetHMPIDsignal()) ;
ac2f7574 2307 }
ac2f7574 2308}
6c94f330 2309
0c19adf7 2310
2311//
2312// Draw functionality
2313// Origin: Marian Ivanov, Marian.Ivanov@cern.ch
2314//
2315void AliESDtrack::FillPolymarker(TPolyMarker3D *pol, Float_t magF, Float_t minR, Float_t maxR, Float_t stepR){
2316 //
2317 // Fill points in the polymarker
2318 //
2319 TObjArray arrayRef;
2320 arrayRef.AddLast(new AliExternalTrackParam(*this));
2321 if (fIp) arrayRef.AddLast(new AliExternalTrackParam(*fIp));
2322 if (fOp) arrayRef.AddLast(new AliExternalTrackParam(*fOp));
c38d443f 2323 if (fHMPIDp) arrayRef.AddLast(new AliExternalTrackParam(*fHMPIDp));
0c19adf7 2324 //
2325 Double_t mpos[3]={0,0,0};
2326 Int_t entries=arrayRef.GetEntries();
2327 for (Int_t i=0;i<entries;i++){
2328 Double_t pos[3];
2329 ((AliExternalTrackParam*)arrayRef.At(i))->GetXYZ(pos);
2330 mpos[0]+=pos[0]/entries;
2331 mpos[1]+=pos[1]/entries;
2332 mpos[2]+=pos[2]/entries;
2333 }
2334 // Rotate to the mean position
2335 //
2336 Float_t fi= TMath::ATan2(mpos[1],mpos[0]);
2337 for (Int_t i=0;i<entries;i++){
2338 Bool_t res = ((AliExternalTrackParam*)arrayRef.At(i))->Rotate(fi);
2339 if (!res) delete arrayRef.RemoveAt(i);
2340 }
2341 Int_t counter=0;
2342 for (Double_t r=minR; r<maxR; r+=stepR){
2343 Double_t sweight=0;
2344 Double_t mlpos[3]={0,0,0};
2345 for (Int_t i=0;i<entries;i++){
2346 Double_t point[3]={0,0,0};
2347 AliExternalTrackParam *param = ((AliExternalTrackParam*)arrayRef.At(i));
2348 if (!param) continue;
2349 if (param->GetXYZAt(r,magF,point)){
2350 Double_t weight = 1./(10.+(r-param->GetX())*(r-param->GetX()));
2351 sweight+=weight;
2352 mlpos[0]+=point[0]*weight;
2353 mlpos[1]+=point[1]*weight;
2354 mlpos[2]+=point[2]*weight;
2355 }
2356 }
2357 if (sweight>0){
2358 mlpos[0]/=sweight;
2359 mlpos[1]/=sweight;
2360 mlpos[2]/=sweight;
2361 pol->SetPoint(counter,mlpos[0],mlpos[1], mlpos[2]);
2362 printf("xyz\t%f\t%f\t%f\n",mlpos[0], mlpos[1],mlpos[2]);
2363 counter++;
2364 }
2365 }
2366}
1d4882da 2367
2368//_______________________________________________________________________
2369void AliESDtrack::SetITSdEdxSamples(const Double_t s[4]) {
2370 //
2371 // Store the dE/dx samples measured by the two SSD and two SDD layers.
2372 // These samples are corrected for the track segment length.
2373 //
2374 for (Int_t i=0; i<4; i++) fITSdEdxSamples[i]=s[i];
2375}
2376
2377//_______________________________________________________________________
2378void AliESDtrack::GetITSdEdxSamples(Double_t *s) const {
2379 //
2380 // Get the dE/dx samples measured by the two SSD and two SDD layers.
2381 // These samples are corrected for the track segment length.
2382 //
2383 for (Int_t i=0; i<4; i++) s[i]=fITSdEdxSamples[i];
2384}
949840f6 2385
2386
2387UShort_t AliESDtrack::GetTPCnclsS(Int_t i0,Int_t i1) const{
2388 //
beb01154 2389 // get number of shared TPC clusters
949840f6 2390 //
2391 return fTPCSharedMap.CountBits(i0)-fTPCSharedMap.CountBits(i1);
2392}
beb01154 2393
2394UShort_t AliESDtrack::GetTPCncls(Int_t i0,Int_t i1) const{
2395 //
2396 // get number of TPC clusters
2397 //
2398 return fTPCClusterMap.CountBits(i0)-fTPCClusterMap.CountBits(i1);
2399}