Adding things to the "debug" streamer (Marian)
[u/mrichter/AliRoot.git] / TPC / AliTPCseed.cxx
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81e97e0d 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 **************************************************************************/
15
16
17
18
19//-----------------------------------------------------------------
20// Implementation of the TPC seed class
21// This class is used by the AliTPCtrackerMI class
22// Origin: Marian Ivanov, CERN, Marian.Ivanov@cern.ch
23//-----------------------------------------------------------------
24#include "TClonesArray.h"
25#include "AliTPCseed.h"
3f82c4f2 26#include "AliTPCReconstructor.h"
81e97e0d 27
28ClassImp(AliTPCseed)
29
30
31
32fab534 32AliTPCseed::AliTPCseed():
33 AliTPCtrack(),
34 fEsd(0x0),
2928bdf0 35 fClusterOwner(kFALSE),
32fab534 36 fPoints(0x0),
37 fEPoints(0x0),
38 fRow(0),
39 fSector(-1),
40 fRelativeSector(-1),
41 fCurrentSigmaY2(1e10),
42 fCurrentSigmaZ2(1e10),
43 fErrorY2(1e10),
44 fErrorZ2(1e10),
45 fCurrentCluster(0x0),
46 fCurrentClusterIndex1(-1),
47 fInDead(kFALSE),
48 fIsSeeding(kFALSE),
49 fNoCluster(0),
50 fSort(0),
51 fBSigned(kFALSE),
52 fSeedType(0),
53 fSeed1(-1),
54 fSeed2(-1),
55 fMAngular(0),
19b00333 56 fCircular(0),
57 fClusterMap(159),
58 fSharedMap(159)
32fab534 59{
81e97e0d 60 //
5c09947e 61 for (Int_t i=0;i<160;i++) SetClusterIndex2(i,-3);
81e97e0d 62 for (Int_t i=0;i<160;i++) fClusterPointer[i]=0;
63 for (Int_t i=0;i<3;i++) fKinkIndexes[i]=0;
32fab534 64 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTPCr[i]=0.2;
65 for (Int_t i=0;i<4;i++) {
66 fDEDX[i] = 0.;
67 fSDEDX[i] = 1e10;
68 fNCDEDX[i] = 0;
69 }
70 for (Int_t i=0;i<12;i++) fOverlapLabels[i] = -1;
bfb57b6c 71 // for (Int_t i=0;i<160;i++) fClusterMap[i]=kFALSE;
72 //for (Int_t i=0;i<160;i++) fSharedMap[i]=kFALSE;
73 fClusterMap.ResetAllBits(kFALSE);
74 fSharedMap.ResetAllBits(kFALSE);
75
81e97e0d 76}
32fab534 77
2928bdf0 78AliTPCseed::AliTPCseed(const AliTPCseed &s, Bool_t clusterOwner):
32fab534 79 AliTPCtrack(s),
80 fEsd(0x0),
2928bdf0 81 fClusterOwner(clusterOwner),
32fab534 82 fPoints(0x0),
83 fEPoints(0x0),
84 fRow(0),
85 fSector(-1),
86 fRelativeSector(-1),
87 fCurrentSigmaY2(1e10),
88 fCurrentSigmaZ2(1e10),
89 fErrorY2(1e10),
90 fErrorZ2(1e10),
91 fCurrentCluster(0x0),
92 fCurrentClusterIndex1(-1),
93 fInDead(kFALSE),
94 fIsSeeding(kFALSE),
95 fNoCluster(0),
96 fSort(0),
97 fBSigned(kFALSE),
98 fSeedType(0),
99 fSeed1(-1),
100 fSeed2(-1),
101 fMAngular(0),
19b00333 102 fCircular(0),
103 fClusterMap(s.fClusterMap),
104 fSharedMap(s.fSharedMap)
32fab534 105{
81e97e0d 106 //---------------------
107 // dummy copy constructor
108 //-------------------------
2928bdf0 109 for (Int_t i=0;i<160;i++) {
110 fClusterPointer[i]=0;
111 if (fClusterOwner){
112 if (s.fClusterPointer[i])
113 fClusterPointer[i] = new AliTPCclusterMI(*(s.fClusterPointer[i]));
114 }else{
115 fClusterPointer[i] = s.fClusterPointer[i];
116 }
117 fTrackPoints[i] = s.fTrackPoints[i];
118 }
81e97e0d 119 for (Int_t i=0;i<160;i++) fIndex[i] = s.fIndex[i];
5c09947e 120 for (Int_t i=0;i<AliPID::kSPECIES;i++) fTPCr[i]=s.fTPCr[i];
121 for (Int_t i=0;i<4;i++) {
122 fDEDX[i] = s.fDEDX[i];
123 fSDEDX[i] = s.fSDEDX[i];
124 fNCDEDX[i] = s.fNCDEDX[i];
125 }
126 for (Int_t i=0;i<12;i++) fOverlapLabels[i] = s.fOverlapLabels[i];
19b00333 127
81e97e0d 128}
5c09947e 129
130
32fab534 131AliTPCseed::AliTPCseed(const AliTPCtrack &t):
132 AliTPCtrack(t),
133 fEsd(0x0),
2928bdf0 134 fClusterOwner(kFALSE),
32fab534 135 fPoints(0x0),
136 fEPoints(0x0),
137 fRow(0),
138 fSector(-1),
139 fRelativeSector(-1),
140 fCurrentSigmaY2(1e10),
141 fCurrentSigmaZ2(1e10),
142 fErrorY2(1e10),
143 fErrorZ2(1e10),
144 fCurrentCluster(0x0),
145 fCurrentClusterIndex1(-1),
146 fInDead(kFALSE),
147 fIsSeeding(kFALSE),
148 fNoCluster(0),
149 fSort(0),
150 fBSigned(kFALSE),
151 fSeedType(0),
152 fSeed1(-1),
153 fSeed2(-1),
154 fMAngular(0),
19b00333 155 fCircular(0),
156 fClusterMap(159),
157 fSharedMap(159)
32fab534 158{
81e97e0d 159 //
32fab534 160 // Constructor from AliTPCtrack
161 //
162 fFirstPoint =0;
105b1b81 163 for (Int_t i=0;i<5;i++) fTPCr[i]=0.2;
81e97e0d 164 for (Int_t i=0;i<160;i++) {
165 fClusterPointer[i] = 0;
166 Int_t index = t.GetClusterIndex(i);
167 if (index>=-1){
168 SetClusterIndex2(i,index);
169 }
170 else{
171 SetClusterIndex2(i,-3);
172 }
173 }
32fab534 174 for (Int_t i=0;i<4;i++) {
175 fDEDX[i] = 0.;
176 fSDEDX[i] = 1e10;
177 fNCDEDX[i] = 0;
178 }
179 for (Int_t i=0;i<12;i++) fOverlapLabels[i] = -1;
bfb57b6c 180
181 //for (Int_t i=0;i<160;i++) fClusterMap[i]=kFALSE;
182 //for (Int_t i=0;i<160;i++) fSharedMap[i]=kFALSE;
183 fClusterMap.ResetAllBits(kFALSE);
184 fSharedMap.ResetAllBits(kFALSE);
185
81e97e0d 186}
187
6c94f330 188AliTPCseed::AliTPCseed(Double_t xr, Double_t alpha, const Double_t xx[5],
189 const Double_t cc[15], Int_t index):
190 AliTPCtrack(xr, alpha, xx, cc, index),
32fab534 191 fEsd(0x0),
2928bdf0 192 fClusterOwner(kFALSE),
32fab534 193 fPoints(0x0),
194 fEPoints(0x0),
195 fRow(0),
196 fSector(-1),
197 fRelativeSector(-1),
198 fCurrentSigmaY2(1e10),
199 fCurrentSigmaZ2(1e10),
200 fErrorY2(1e10),
201 fErrorZ2(1e10),
202 fCurrentCluster(0x0),
203 fCurrentClusterIndex1(-1),
204 fInDead(kFALSE),
205 fIsSeeding(kFALSE),
206 fNoCluster(0),
207 fSort(0),
208 fBSigned(kFALSE),
209 fSeedType(0),
210 fSeed1(-1),
211 fSeed2(-1),
212 fMAngular(0),
19b00333 213 fCircular(0),
214 fClusterMap(159),
215 fSharedMap(159)
32fab534 216{
217 //
218 // Constructor
81e97e0d 219 //
32fab534 220 fFirstPoint =0;
5c09947e 221 for (Int_t i=0;i<160;i++) SetClusterIndex2(i,-3);
81e97e0d 222 for (Int_t i=0;i<160;i++) fClusterPointer[i]=0;
81e97e0d 223 for (Int_t i=0;i<5;i++) fTPCr[i]=0.2;
32fab534 224 for (Int_t i=0;i<4;i++) {
225 fDEDX[i] = 0.;
226 fSDEDX[i] = 1e10;
227 fNCDEDX[i] = 0;
228 }
229 for (Int_t i=0;i<12;i++) fOverlapLabels[i] = -1;
81e97e0d 230}
231
232AliTPCseed::~AliTPCseed(){
233 //
234 // destructor
235 if (fPoints) delete fPoints;
236 fPoints =0;
237 if (fEPoints) delete fEPoints;
238 fEPoints = 0;
239 fNoCluster =0;
2928bdf0 240 if (fClusterOwner){
241 for (Int_t icluster=0; icluster<160; icluster++){
242 delete fClusterPointer[icluster];
243 }
244 }
bfb57b6c 245
81e97e0d 246}
179c6296 247//_________________________________________________
316c6cd9 248AliTPCseed & AliTPCseed::operator=(const AliTPCseed &param)
179c6296 249{
250 //
316c6cd9 251 // assignment operator
179c6296 252 //
316c6cd9 253 if(this!=&param){
254 AliTPCtrack::operator=(param);
255 fEsd =param.fEsd;
256 for(Int_t i = 0;i<160;++i)fClusterPointer[i] = param.fClusterPointer[i]; // this is not allocated by AliTPCSeed
257 fClusterOwner = param.fClusterOwner;
258 // leave out fPoint, they are also not copied in the copy ctor...
259 // but deleted in the dtor... strange...
260 // fPoints =
261 // fEPoints =
262 fRow = param.fRow;
263 fSector = param.fSector;
264 fRelativeSector = param.fRelativeSector;
265 fCurrentSigmaY2 = param.fCurrentSigmaY2;
266 fCurrentSigmaZ2 = param.fCurrentSigmaZ2;
267 fErrorY2 = param.fErrorY2;
268 fErrorZ2 = param.fErrorZ2;
269 fCurrentCluster = param.fCurrentCluster; // this is not allocated by AliTPCSeed
270 fCurrentClusterIndex1 = param.fCurrentClusterIndex1;
271 fInDead = param.fInDead;
272 fIsSeeding = param.fIsSeeding;
273 fNoCluster = param.fNoCluster;
274 fSort = param.fSort;
275 fBSigned = param.fBSigned;
276 for(Int_t i = 0;i<4;++i){
277 fDEDX[i] = param.fDEDX[i];
278 fSDEDX[i] = param.fSDEDX[i];
279 fNCDEDX[i] = param.fNCDEDX[i];
280 }
281 for(Int_t i = 0;i<AliPID::kSPECIES;++i)fTPCr[i] = param.fTPCr[i];
282
283 fSeedType = param.fSeedType;
284 fSeed1 = param.fSeed1;
285 fSeed2 = param.fSeed2;
286 for(Int_t i = 0;i<12;++i)fOverlapLabels[i] = param.fOverlapLabels[i];
287 fMAngular = param.fMAngular;
288 fCircular = param.fCircular;
289 for(int i = 0;i<160;++i)fTrackPoints[i] = param.fTrackPoints[i];
290 fClusterMap = param.fClusterMap;
291 fSharedMap = param.fSharedMap;
292 }
179c6296 293 return (*this);
294}
295//____________________________________________________
81e97e0d 296AliTPCTrackerPoint * AliTPCseed::GetTrackPoint(Int_t i)
297{
298 //
299 //
300 return &fTrackPoints[i];
301}
302
303void AliTPCseed::RebuildSeed()
304{
305 //
306 // rebuild seed to be ready for storing
307 AliTPCclusterMI cldummy;
308 cldummy.SetQ(0);
309 AliTPCTrackPoint pdummy;
b9671574 310 pdummy.GetTPoint().SetShared(10);
81e97e0d 311 for (Int_t i=0;i<160;i++){
312 AliTPCclusterMI * cl0 = fClusterPointer[i];
313 AliTPCTrackPoint *trpoint = (AliTPCTrackPoint*)fPoints->UncheckedAt(i);
314 if (cl0){
315 trpoint->GetTPoint() = *(GetTrackPoint(i));
316 trpoint->GetCPoint() = *cl0;
317 trpoint->GetCPoint().SetQ(TMath::Abs(cl0->GetQ()));
318 }
319 else{
320 *trpoint = pdummy;
321 trpoint->GetCPoint()= cldummy;
322 }
323
324 }
325
326}
327
328
329Double_t AliTPCseed::GetDensityFirst(Int_t n)
330{
331 //
332 //
333 // return cluster for n rows bellow first point
334 Int_t nfoundable = 1;
335 Int_t nfound = 1;
336 for (Int_t i=fLastPoint-1;i>0&&nfoundable<n; i--){
337 Int_t index = GetClusterIndex2(i);
338 if (index!=-1) nfoundable++;
339 if (index>0) nfound++;
340 }
341 if (nfoundable<n) return 0;
342 return Double_t(nfound)/Double_t(nfoundable);
343
344}
345
346
347void AliTPCseed::GetClusterStatistic(Int_t first, Int_t last, Int_t &found, Int_t &foundable, Int_t &shared, Bool_t plus2)
348{
349 // get cluster stat. on given region
350 //
351 found = 0;
352 foundable = 0;
353 shared =0;
354 for (Int_t i=first;i<last; i++){
355 Int_t index = GetClusterIndex2(i);
356 if (index!=-1) foundable++;
6d493ea0 357 if (index&0x8000) continue;
81e97e0d 358 if (fClusterPointer[i]) {
359 found++;
360 }
361 else
362 continue;
363
364 if (fClusterPointer[i]->IsUsed(10)) {
365 shared++;
366 continue;
367 }
368 if (!plus2) continue; //take also neighborhoud
369 //
370 if ( (i>0) && fClusterPointer[i-1]){
371 if (fClusterPointer[i-1]->IsUsed(10)) {
372 shared++;
373 continue;
374 }
375 }
376 if ( fClusterPointer[i+1]){
377 if (fClusterPointer[i+1]->IsUsed(10)) {
378 shared++;
379 continue;
380 }
381 }
382
383 }
384 //if (shared>found){
385 //Error("AliTPCseed::GetClusterStatistic","problem\n");
386 //}
387}
388
389
390
391
392
393void AliTPCseed::Reset(Bool_t all)
394{
395 //
396 //
397 SetNumberOfClusters(0);
398 fNFoundable = 0;
399 SetChi2(0);
6c94f330 400 ResetCovariance(10.);
81e97e0d 401 /*
402 if (fTrackPoints){
403 for (Int_t i=0;i<8;i++){
404 delete [] fTrackPoints[i];
405 }
406 delete fTrackPoints;
407 fTrackPoints =0;
408 }
409 */
410
411 if (all){
412 for (Int_t i=0;i<200;i++) SetClusterIndex2(i,-3);
413 for (Int_t i=0;i<160;i++) fClusterPointer[i]=0;
414 }
415
416}
417
418
419void AliTPCseed::Modify(Double_t factor)
420{
421
422 //------------------------------------------------------------------
423 //This function makes a track forget its history :)
424 //------------------------------------------------------------------
425 if (factor<=0) {
6c94f330 426 ResetCovariance(10.);
81e97e0d 427 return;
428 }
6c94f330 429 ResetCovariance(factor);
430
81e97e0d 431 SetNumberOfClusters(0);
432 fNFoundable =0;
433 SetChi2(0);
434 fRemoval = 0;
435 fCurrentSigmaY2 = 0.000005;
436 fCurrentSigmaZ2 = 0.000005;
437 fNoCluster = 0;
438 //fFirstPoint = 160;
439 //fLastPoint = 0;
440}
441
442
443
444
445Int_t AliTPCseed::GetProlongation(Double_t xk, Double_t &y, Double_t & z) const
446{
447 //-----------------------------------------------------------------
448 // This function find proloncation of a track to a reference plane x=xk.
449 // doesn't change internal state of the track
450 //-----------------------------------------------------------------
451
6c94f330 452 Double_t x1=GetX(), x2=x1+(xk-x1), dx=x2-x1;
81e97e0d 453
6c94f330 454 if (TMath::Abs(GetSnp()+GetC()*dx) >= AliTPCReconstructor::GetMaxSnpTrack()) {
81e97e0d 455 return 0;
456 }
457
458 // Double_t y1=fP0, z1=fP1;
6c94f330 459 Double_t c1=GetSnp(), r1=sqrt(1.- c1*c1);
460 Double_t c2=c1 + GetC()*dx, r2=sqrt(1.- c2*c2);
81e97e0d 461
6c94f330 462 y = GetY();
463 z = GetZ();
81e97e0d 464 //y += dx*(c1+c2)/(r1+r2);
465 //z += dx*(c1+c2)/(c1*r2 + c2*r1)*fP3;
466
467 Double_t dy = dx*(c1+c2)/(r1+r2);
468 Double_t dz = 0;
469 //
6c94f330 470 Double_t delta = GetC()*dx*(c1+c2)/(c1*r2 + c2*r1);
81e97e0d 471 /*
472 if (TMath::Abs(delta)>0.0001){
473 dz = fP3*TMath::ASin(delta)/fP4;
474 }else{
475 dz = dx*fP3*(c1+c2)/(c1*r2 + c2*r1);
476 }
477 */
478 // dz = fP3*AliTPCFastMath::FastAsin(delta)/fP4;
6c94f330 479 dz = GetTgl()*TMath::ASin(delta)/GetC();
81e97e0d 480 //
481 y+=dy;
482 z+=dz;
483
484
485 return 1;
486}
487
488
489//_____________________________________________________________________________
af32720d 490Double_t AliTPCseed::GetPredictedChi2(const AliCluster *c) const
81e97e0d 491{
492 //-----------------------------------------------------------------
493 // This function calculates a predicted chi2 increment.
494 //-----------------------------------------------------------------
6c94f330 495 Double_t p[2]={c->GetY(), c->GetZ()};
496 Double_t cov[3]={fErrorY2, 0., fErrorZ2};
497 return AliExternalTrackParam::GetPredictedChi2(p,cov);
81e97e0d 498}
499
81e97e0d 500//_________________________________________________________________________________________
501
502
503Int_t AliTPCseed::Compare(const TObject *o) const {
504 //-----------------------------------------------------------------
505 // This function compares tracks according to the sector - for given sector according z
506 //-----------------------------------------------------------------
507 AliTPCseed *t=(AliTPCseed*)o;
6c94f330 508
81e97e0d 509 if (fSort == 0){
510 if (t->fRelativeSector>fRelativeSector) return -1;
511 if (t->fRelativeSector<fRelativeSector) return 1;
512 Double_t z2 = t->GetZ();
513 Double_t z1 = GetZ();
514 if (z2>z1) return 1;
515 if (z2<z1) return -1;
516 return 0;
517 }
518 else {
519 Float_t f2 =1;
6c23ffed 520 f2 = 1-20*TMath::Sqrt(t->GetSigma1Pt2())/(t->OneOverPt()+0.0066);
81e97e0d 521 if (t->fBConstrain) f2=1.2;
522
523 Float_t f1 =1;
6c23ffed 524 f1 = 1-20*TMath::Sqrt(GetSigma1Pt2())/(OneOverPt()+0.0066);
81e97e0d 525
526 if (fBConstrain) f1=1.2;
527
528 if (t->GetNumberOfClusters()*f2 <GetNumberOfClusters()*f1) return -1;
529 else return +1;
530 }
531}
532
533
534
535
536//_____________________________________________________________________________
6c94f330 537Bool_t AliTPCseed::Update(const AliCluster *c, Double_t chisq, Int_t /*index*/)
538{
81e97e0d 539 //-----------------------------------------------------------------
540 // This function associates a cluster with this track.
541 //-----------------------------------------------------------------
6c94f330 542 Double_t p[2]={c->GetY(), c->GetZ()};
543 Double_t cov[3]={fErrorY2, 0., fErrorZ2};
81e97e0d 544
6c94f330 545 if (!AliExternalTrackParam::Update(p,cov)) return kFALSE;
81e97e0d 546
547 Int_t n=GetNumberOfClusters();
548 // fIndex[n]=index;
549 SetNumberOfClusters(n+1);
550 SetChi2(GetChi2()+chisq);
551
6c94f330 552 return kTRUE;
81e97e0d 553}
554
555
556
557//_____________________________________________________________________________
105b1b81 558Float_t AliTPCseed::CookdEdx(Double_t low, Double_t up,Int_t i1, Int_t i2, Bool_t onlyused) {
81e97e0d 559 //-----------------------------------------------------------------
560 // This funtion calculates dE/dX within the "low" and "up" cuts.
561 //-----------------------------------------------------------------
562
563 Float_t amp[200];
564 Float_t angular[200];
565 Float_t weight[200];
566 Int_t index[200];
567 //Int_t nc = 0;
568 // TClonesArray & arr = *fPoints;
569 Float_t meanlog = 100.;
570
571 Float_t mean[4] = {0,0,0,0};
572 Float_t sigma[4] = {1000,1000,1000,1000};
573 Int_t nc[4] = {0,0,0,0};
574 Float_t norm[4] = {1000,1000,1000,1000};
575 //
576 //
577 fNShared =0;
578
579 for (Int_t of =0; of<4; of++){
580 for (Int_t i=of+i1;i<i2;i+=4)
581 {
582 Int_t index = fIndex[i];
583 if (index<0||index&0x8000) continue;
584
585 //AliTPCTrackPoint * point = (AliTPCTrackPoint *) arr.At(i);
586 AliTPCTrackerPoint * point = GetTrackPoint(i);
587 //AliTPCTrackerPoint * pointm = GetTrackPoint(i-1);
588 //AliTPCTrackerPoint * pointp = 0;
589 //if (i<159) pointp = GetTrackPoint(i+1);
590
591 if (point==0) continue;
592 AliTPCclusterMI * cl = fClusterPointer[i];
593 if (cl==0) continue;
594 if (onlyused && (!cl->IsUsed(10))) continue;
595 if (cl->IsUsed(11)) {
596 fNShared++;
597 continue;
598 }
599 Int_t type = cl->GetType();
600 //if (point->fIsShared){
601 // fNShared++;
602 // continue;
603 //}
604 //if (pointm)
605 // if (pointm->fIsShared) continue;
606 //if (pointp)
607 // if (pointp->fIsShared) continue;
608
609 if (type<0) continue;
610 //if (type>10) continue;
611 //if (point->GetErrY()==0) continue;
612 //if (point->GetErrZ()==0) continue;
613
614 //Float_t ddy = (point->GetY()-cl->GetY())/point->GetErrY();
615 //Float_t ddz = (point->GetZ()-cl->GetZ())/point->GetErrZ();
616 //if ((ddy*ddy+ddz*ddz)>10) continue;
617
618
619 // if (point->GetCPoint().GetMax()<5) continue;
620 if (cl->GetMax()<5) continue;
621 Float_t angley = point->GetAngleY();
622 Float_t anglez = point->GetAngleZ();
623
624 Float_t rsigmay2 = point->GetSigmaY();
625 Float_t rsigmaz2 = point->GetSigmaZ();
626 /*
627 Float_t ns = 1.;
628 if (pointm){
629 rsigmay += pointm->GetTPoint().GetSigmaY();
630 rsigmaz += pointm->GetTPoint().GetSigmaZ();
631 ns+=1.;
632 }
633 if (pointp){
634 rsigmay += pointp->GetTPoint().GetSigmaY();
635 rsigmaz += pointp->GetTPoint().GetSigmaZ();
636 ns+=1.;
637 }
638 rsigmay/=ns;
639 rsigmaz/=ns;
640 */
641
642 Float_t rsigma = TMath::Sqrt(rsigmay2*rsigmaz2);
643
644 Float_t ampc = 0; // normalization to the number of electrons
645 if (i>64){
646 // ampc = 1.*point->GetCPoint().GetMax();
647 ampc = 1.*cl->GetMax();
648 //ampc = 1.*point->GetCPoint().GetQ();
649 // AliTPCClusterPoint & p = point->GetCPoint();
650 // Float_t dy = TMath::Abs(Int_t( TMath::Abs(p.GetY()/0.6)) - TMath::Abs(p.GetY()/0.6)+0.5);
651 // Float_t iz = (250.0-TMath::Abs(p.GetZ())+0.11)/0.566;
652 //Float_t dz =
653 // TMath::Abs( Int_t(iz) - iz + 0.5);
654 //ampc *= 1.15*(1-0.3*dy);
655 //ampc *= 1.15*(1-0.3*dz);
656 // Float_t zfactor = (AliTPCReconstructor::GetCtgRange()-0.0004*TMath::Abs(point->GetCPoint().GetZ()));
657 //ampc *=zfactor;
658 }
659 else{
660 //ampc = 1.0*point->GetCPoint().GetMax();
661 ampc = 1.0*cl->GetMax();
662 //ampc = 1.0*point->GetCPoint().GetQ();
663 //AliTPCClusterPoint & p = point->GetCPoint();
664 // Float_t dy = TMath::Abs(Int_t( TMath::Abs(p.GetY()/0.4)) - TMath::Abs(p.GetY()/0.4)+0.5);
665 //Float_t iz = (250.0-TMath::Abs(p.GetZ())+0.11)/0.566;
666 //Float_t dz =
667 // TMath::Abs( Int_t(iz) - iz + 0.5);
668
669 //ampc *= 1.15*(1-0.3*dy);
670 //ampc *= 1.15*(1-0.3*dz);
671 // Float_t zfactor = (1.02-0.000*TMath::Abs(point->GetCPoint().GetZ()));
672 //ampc *=zfactor;
673
674 }
675 ampc *= 2.0; // put mean value to channel 50
676 //ampc *= 0.58; // put mean value to channel 50
677 Float_t w = 1.;
678 // if (type>0) w = 1./(type/2.-0.5);
679 // Float_t z = TMath::Abs(cl->GetZ());
680 if (i<64) {
681 ampc /= 0.6;
682 //ampc /= (1+0.0008*z);
683 } else
684 if (i>128){
685 ampc /=1.5;
686 //ampc /= (1+0.0008*z);
687 }else{
688 //ampc /= (1+0.0008*z);
689 }
690
691 if (type<0) { //amp at the border - lower weight
692 // w*= 2.;
693
694 continue;
695 }
696 if (rsigma>1.5) ampc/=1.3; // if big backround
697 amp[nc[of]] = ampc;
698 angular[nc[of]] = TMath::Sqrt(1.+angley*angley+anglez*anglez);
699 weight[nc[of]] = w;
700 nc[of]++;
701 }
702
703 TMath::Sort(nc[of],amp,index,kFALSE);
704 Float_t sumamp=0;
705 Float_t sumamp2=0;
706 Float_t sumw=0;
707 //meanlog = amp[index[Int_t(nc[of]*0.33)]];
708 meanlog = 50;
709 for (Int_t i=int(nc[of]*low+0.5);i<int(nc[of]*up+0.5);i++){
710 Float_t ampl = amp[index[i]]/angular[index[i]];
711 ampl = meanlog*TMath::Log(1.+ampl/meanlog);
712 //
713 sumw += weight[index[i]];
714 sumamp += weight[index[i]]*ampl;
715 sumamp2 += weight[index[i]]*ampl*ampl;
716 norm[of] += angular[index[i]]*weight[index[i]];
717 }
718 if (sumw<1){
719 SetdEdx(0);
720 }
721 else {
722 norm[of] /= sumw;
723 mean[of] = sumamp/sumw;
724 sigma[of] = sumamp2/sumw-mean[of]*mean[of];
725 if (sigma[of]>0.1)
726 sigma[of] = TMath::Sqrt(sigma[of]);
727 else
728 sigma[of] = 1000;
729
730 mean[of] = (TMath::Exp(mean[of]/meanlog)-1)*meanlog;
731 //mean *=(1-0.02*(sigma/(mean*0.17)-1.));
732 //mean *=(1-0.1*(norm-1.));
733 }
734 }
735
736 Float_t dedx =0;
737 fSdEdx =0;
738 fMAngular =0;
739 // mean[0]*= (1-0.05*(sigma[0]/(0.01+mean[1]*0.18)-1));
740 // mean[1]*= (1-0.05*(sigma[1]/(0.01+mean[0]*0.18)-1));
741
742
743 // dedx = (mean[0]* TMath::Sqrt((1.+nc[0]))+ mean[1]* TMath::Sqrt((1.+nc[1])) )/
744 // ( TMath::Sqrt((1.+nc[0]))+TMath::Sqrt((1.+nc[1])));
745
746 Int_t norm2 = 0;
747 Int_t norm3 = 0;
748 for (Int_t i =0;i<4;i++){
749 if (nc[i]>2&&nc[i]<1000){
750 dedx += mean[i] *nc[i];
751 fSdEdx += sigma[i]*(nc[i]-2);
752 fMAngular += norm[i] *nc[i];
753 norm2 += nc[i];
754 norm3 += nc[i]-2;
755 }
756 fDEDX[i] = mean[i];
757 fSDEDX[i] = sigma[i];
758 fNCDEDX[i]= nc[i];
759 }
760
761 if (norm3>0){
762 dedx /=norm2;
763 fSdEdx /=norm3;
764 fMAngular/=norm2;
765 }
766 else{
767 SetdEdx(0);
105b1b81 768 return 0;
81e97e0d 769 }
770 // Float_t dedx1 =dedx;
771 /*
772 dedx =0;
773 for (Int_t i =0;i<4;i++){
774 if (nc[i]>2&&nc[i]<1000){
775 mean[i] = mean[i]*(1-0.12*(sigma[i]/(fSdEdx)-1.));
776 dedx += mean[i] *nc[i];
777 }
778 fDEDX[i] = mean[i];
779 }
780 dedx /= norm2;
781 */
782
783
784 SetdEdx(dedx);
a2d457f2 785 return dedx;
81e97e0d 786}
787Double_t AliTPCseed::Bethe(Double_t bg){
788 //
789 // This is the Bethe-Bloch function normalised to 1 at the minimum
790 //
791 Double_t bg2=bg*bg;
792 Double_t bethe;
793 if (bg<3.5e1)
794 bethe=(1.+ bg2)/bg2*(log(5940*bg2) - bg2/(1.+ bg2));
795 else // Density effect ( approximately :)
796 bethe=1.15*(1.+ bg2)/bg2*(log(3.5*5940*bg) - bg2/(1.+ bg2));
797 return bethe/11.091;
798}
799
800void AliTPCseed::CookPID()
801{
802 //
803 // cook PID information according dEdx
804 //
805 Double_t fRange = 10.;
806 Double_t fRes = 0.1;
807 Double_t fMIP = 47.;
808 //
809 Int_t ns=AliPID::kSPECIES;
810 Double_t sumr =0;
811 for (Int_t j=0; j<ns; j++) {
812 Double_t mass=AliPID::ParticleMass(j);
6c94f330 813 Double_t mom=GetP();
81e97e0d 814 Double_t dedx=fdEdx/fMIP;
815 Double_t bethe=Bethe(mom/mass);
816 Double_t sigma=fRes*bethe;
817 if (sigma>0.001){
818 if (TMath::Abs(dedx-bethe) > fRange*sigma) {
819 fTPCr[j]=TMath::Exp(-0.5*fRange*fRange)/sigma;
820 sumr+=fTPCr[j];
821 continue;
822 }
823 fTPCr[j]=TMath::Exp(-0.5*(dedx-bethe)*(dedx-bethe)/(sigma*sigma))/sigma;
824 sumr+=fTPCr[j];
825 }
826 else{
827 fTPCr[j]=1.;
828 sumr+=fTPCr[j];
829 }
830 }
831 for (Int_t j=0; j<ns; j++) {
832 fTPCr[j]/=sumr; //normalize
833 }
834}
835
836/*
837void AliTPCseed::CookdEdx2(Double_t low, Double_t up) {
838 //-----------------------------------------------------------------
839 // This funtion calculates dE/dX within the "low" and "up" cuts.
840 //-----------------------------------------------------------------
841
842 Float_t amp[200];
843 Float_t angular[200];
844 Float_t weight[200];
845 Int_t index[200];
846 Bool_t inlimit[200];
847 for (Int_t i=0;i<200;i++) inlimit[i]=kFALSE;
848 for (Int_t i=0;i<200;i++) amp[i]=10000;
849 for (Int_t i=0;i<200;i++) angular[i]= 1;;
850
851
852 //
853 Float_t meanlog = 100.;
854 Int_t indexde[4]={0,64,128,160};
855
856 Float_t amean =0;
857 Float_t asigma =0;
858 Float_t anc =0;
859 Float_t anorm =0;
860
861 Float_t mean[4] = {0,0,0,0};
862 Float_t sigma[4] = {1000,1000,1000,1000};
863 Int_t nc[4] = {0,0,0,0};
864 Float_t norm[4] = {1000,1000,1000,1000};
865 //
866 //
867 fNShared =0;
868
869 // for (Int_t of =0; of<3; of++){
870 // for (Int_t i=indexde[of];i<indexde[of+1];i++)
871 for (Int_t i =0; i<160;i++)
872 {
873 AliTPCTrackPoint * point = GetTrackPoint(i);
874 if (point==0) continue;
875 if (point->fIsShared){
876 fNShared++;
877 continue;
878 }
879 Int_t type = point->GetCPoint().GetType();
880 if (type<0) continue;
881 if (point->GetCPoint().GetMax()<5) continue;
882 Float_t angley = point->GetTPoint().GetAngleY();
883 Float_t anglez = point->GetTPoint().GetAngleZ();
884 Float_t rsigmay = point->GetCPoint().GetSigmaY();
885 Float_t rsigmaz = point->GetCPoint().GetSigmaZ();
886 Float_t rsigma = TMath::Sqrt(rsigmay*rsigmaz);
887
888 Float_t ampc = 0; // normalization to the number of electrons
889 if (i>64){
890 ampc = point->GetCPoint().GetMax();
891 }
892 else{
893 ampc = point->GetCPoint().GetMax();
894 }
895 ampc *= 2.0; // put mean value to channel 50
896 // ampc *= 0.565; // put mean value to channel 50
897
898 Float_t w = 1.;
899 Float_t z = TMath::Abs(point->GetCPoint().GetZ());
900 if (i<64) {
901 ampc /= 0.63;
902 } else
903 if (i>128){
904 ampc /=1.51;
905 }
906 if (type<0) { //amp at the border - lower weight
907 continue;
908 }
909 if (rsigma>1.5) ampc/=1.3; // if big backround
910 angular[i] = TMath::Sqrt(1.+angley*angley+anglez*anglez);
911 amp[i] = ampc/angular[i];
912 weight[i] = w;
913 anc++;
914 }
915
916 TMath::Sort(159,amp,index,kFALSE);
917 for (Int_t i=int(anc*low+0.5);i<int(anc*up+0.5);i++){
918 inlimit[index[i]] = kTRUE; // take all clusters
919 }
920
921 // meanlog = amp[index[Int_t(anc*0.3)]];
922 meanlog =10000.;
923 for (Int_t of =0; of<3; of++){
924 Float_t sumamp=0;
925 Float_t sumamp2=0;
926 Float_t sumw=0;
927 for (Int_t i=indexde[of];i<indexde[of+1];i++)
928 {
929 if (inlimit[i]==kFALSE) continue;
930 Float_t ampl = amp[i];
931 ///angular[i];
932 ampl = meanlog*TMath::Log(1.+ampl/meanlog);
933 //
934 sumw += weight[i];
935 sumamp += weight[i]*ampl;
936 sumamp2 += weight[i]*ampl*ampl;
937 norm[of] += angular[i]*weight[i];
938 nc[of]++;
939 }
940 if (sumw<1){
941 SetdEdx(0);
942 }
943 else {
944 norm[of] /= sumw;
945 mean[of] = sumamp/sumw;
946 sigma[of] = sumamp2/sumw-mean[of]*mean[of];
947 if (sigma[of]>0.1)
948 sigma[of] = TMath::Sqrt(sigma[of]);
949 else
950 sigma[of] = 1000;
951 mean[of] = (TMath::Exp(mean[of]/meanlog)-1)*meanlog;
952 }
953 }
954
955 Float_t dedx =0;
956 fSdEdx =0;
957 fMAngular =0;
958 //
959 Int_t norm2 = 0;
960 Int_t norm3 = 0;
961 Float_t www[3] = {12.,14.,17.};
962 //Float_t www[3] = {1.,1.,1.};
963
964 for (Int_t i =0;i<3;i++){
965 if (nc[i]>2&&nc[i]<1000){
966 dedx += mean[i] *nc[i]*www[i]/sigma[i];
967 fSdEdx += sigma[i]*(nc[i]-2)*www[i]/sigma[i];
968 fMAngular += norm[i] *nc[i];
969 norm2 += nc[i]*www[i]/sigma[i];
970 norm3 += (nc[i]-2)*www[i]/sigma[i];
971 }
972 fDEDX[i] = mean[i];
973 fSDEDX[i] = sigma[i];
974 fNCDEDX[i]= nc[i];
975 }
976
977 if (norm3>0){
978 dedx /=norm2;
979 fSdEdx /=norm3;
980 fMAngular/=norm2;
981 }
982 else{
983 SetdEdx(0);
984 return;
985 }
986 // Float_t dedx1 =dedx;
987
988 dedx =0;
989 Float_t norm4 = 0;
990 for (Int_t i =0;i<3;i++){
991 if (nc[i]>2&&nc[i]<1000&&sigma[i]>3){
992 //mean[i] = mean[i]*(1+0.08*(sigma[i]/(fSdEdx)-1.));
993 dedx += mean[i] *(nc[i])/(sigma[i]);
994 norm4 += (nc[i])/(sigma[i]);
995 }
996 fDEDX[i] = mean[i];
997 }
998 if (norm4>0) dedx /= norm4;
999
1000
1001
1002 SetdEdx(dedx);
1003
1004 //mi deDX
1005
1006}
1007*/
6c94f330 1008Double_t AliTPCseed::GetYat(Double_t xk) const {
1009//-----------------------------------------------------------------
1010// This function calculates the Y-coordinate of a track at the plane x=xk.
1011//-----------------------------------------------------------------
1012 if (TMath::Abs(GetSnp())>AliTPCReconstructor::GetMaxSnpTrack()) return 0.; //patch 01 jan 06
1013 Double_t c1=GetSnp(), r1=TMath::Sqrt(1.- c1*c1);
1014 Double_t c2=c1+GetC()*(xk-GetX());
1015 if (TMath::Abs(c2)>AliTPCReconstructor::GetMaxSnpTrack()) return 0;
1016 Double_t r2=TMath::Sqrt(1.- c2*c2);
1017 return GetY() + (xk-GetX())*(c1+c2)/(r1+r2);
1018}
1019
19b00333 1020void AliTPCseed::SetClusterMapBit(int ibit, Bool_t state)
1021{
1022 fClusterMap[ibit] = state;
1023}
1024Bool_t AliTPCseed::GetClusterMapBit(int ibit)
1025{
1026 return fClusterMap[ibit];
1027}
1028void AliTPCseed::SetSharedMapBit(int ibit, Bool_t state)
1029{
1030 fSharedMap[ibit] = state;
1031}
1032Bool_t AliTPCseed::GetSharedMapBit(int ibit)
1033{
1034 return fSharedMap[ibit];
1035}
eb02f63a 1036
1037
1038Float_t AliTPCseed::CookShape(Int_t type){
1039 //
1040 //
1041 //
1042 //-----------------------------------------------------------------
1043 // This funtion calculates dE/dX within the "low" and "up" cuts.
1044 //-----------------------------------------------------------------
1045 Float_t means=0;
1046 Float_t meanc=0;
1047 for (Int_t i =0; i<160;i++) {
1048 AliTPCTrackerPoint * point = GetTrackPoint(i);
1049 if (point==0) continue;
1050
1051 AliTPCclusterMI * cl = fClusterPointer[i];
1052 if (cl==0) continue;
1053
1054 Float_t rsigmay = TMath::Sqrt(point->GetSigmaY());
1055 Float_t rsigmaz = TMath::Sqrt(point->GetSigmaZ());
1056 Float_t rsigma = (rsigmay+rsigmaz)*0.5;
1057 if (type==0) means+=rsigma;
1058 if (type==1) means+=rsigmay;
1059 if (type==2) means+=rsigmaz;
1060 meanc++;
1061 }
1062 Float_t mean = (meanc>0)? means/meanc:0;
1063 return mean;
1064}