1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
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 **************************************************************************/
18 ///////////////////////////////////////////////////////////////////////////////
20 // Time Projection Chamber track hits object //
22 // Origin: Marian Ivanov , GSI Darmstadt
24 // Class for storing simulated AliTPCHits for given track //
25 // -average compression comparing to classical ClonesArray is //
26 // around 5-7 (depending on the required hit precision) //
30 <img src="gif/AliTPCTrackHits.gif">
35 ///////////////////////////////////////////////////////////////////////////////
38 #include "TClonesArray.h"
39 #include "AliTPCTrackHits.h"
42 #include <Riostream.h>
46 ClassImp(AliTPCTrackHits)
47 LClassImp(AliTrackHitsInfo)
48 LClassImp(AliTrackHitsParam)
51 Int_t AliTrackHitsInfo::fgCounter1 =0;
52 Int_t AliTrackHitsInfo::fgCounter2 =0;
53 Int_t AliTrackHitsParam::fgCounter1 =0;
54 Int_t AliTrackHitsParam::fgCounter2 =0;
55 Int_t AliHitInfo::fgCounter1 =0;
56 Int_t AliHitInfo::fgCounter2 =0;
57 Int_t AliTPCTrackHits::fgCounter1 =0;
58 Int_t AliTPCTrackHits::fgCounter2 =0;
59 const Double_t AliTPCTrackHits::fgkPrecision=1e-6; //precision
60 const Double_t AliTPCTrackHits::fgkPrecision2=1e-20; //precision
63 /************************************************************/
64 // Interface classes //
65 #include "AliTPCTrackHitsInterfaces.h"
70 struct AliTPCCurrentHit {
72 UInt_t fInfoIndex;// - current info pointer
73 UInt_t fParamIndex;// - current param pointer
74 UInt_t fStackIndex; // - current hit stack index
75 Double_t fR; //current Radius
76 Bool_t fStatus; //current status
80 struct AliTPCTempHitInfo {
81 enum { fkStackSize = 10000};
83 void NewParam(Double_t r, Double_t z, Double_t fi, Int_t q);
84 void SetHit(Double_t r, Double_t z, Double_t fi, Int_t q);
85 Double_t * GetPosition(Int_t index){return &fPositionStack[index*3];}
86 void UpdateParam(Double_t maxdelta); //recal
87 void Fit2(Double_t fSumY, Double_t fSumYX, Double_t fSumYX2,
88 Double_t fSumX, Double_t fSumX2, Double_t fSumX3,
89 Double_t fSumX4, Int_t n,
90 Double_t &a, Double_t &b, Double_t &c);
91 void Fit(AliTrackHitsParam * param);
97 Double_t fSumDFiDr; //
98 Double_t fSumDFiDr2;//
100 Double_t fSumDZDr; //
101 Double_t fSumDZDr2; //
102 Double_t fOldR; //previos r
103 Double_t fPositionStack[3*fkStackSize]; //position stack
104 UInt_t fQStack[fkStackSize]; //Q stack
105 UInt_t fStackIndex; //current stack index
106 UInt_t fInfoIndex; //current track info index
107 UInt_t fParamIndex; //current track parameters index
108 AliTrackHitsInfo * fInfo; //current track info
109 AliTrackHitsParam * fParam; //current track param
113 AliTPCTempHitInfo::AliTPCTempHitInfo()
116 //set to default value
117 fSumDr=fSumDr2=fSumDr3=fSumDr4=
118 fSumDFi=fSumDFiDr=fSumDFiDr2=
119 fSumDZ=fSumDZDr=fSumDZDr2=0;
126 void AliTPCTempHitInfo::NewParam(Double_t r, Double_t z, Double_t fi, Int_t q)
129 //reset stack and sum parameters
130 //store line initial point
131 fSumDr=fSumDr2=fSumDr3=fSumDr4=
132 fSumDFi=fSumDFiDr=fSumDFiDr2=
133 fSumDZ=fSumDZDr=fSumDZDr2=0;
146 void AliTPCTempHitInfo::SetHit(Double_t r, Double_t z, Double_t fi, Int_t q)
149 //add hit to the stack
150 //recalculate new estimete of line parameters
151 Double_t *f = GetPosition(fStackIndex);
155 fQStack[fStackIndex]=q;
156 if (fStackIndex==0) return;
157 Double_t dr = (r-fParam->fR);
158 if (TMath::Abs(dr)<AliTPCTrackHits::fgkPrecision) dr =AliTPCTrackHits::fgkPrecision;
159 Double_t dfi = fi-fParam->fFi;
160 Double_t dz = z -fParam->fZ;
162 Double_t dr3 =dr2*dr;
163 Double_t dr4 =dr3*dr;
175 //update fit parameters
177 Double_t det = fSumDr2*fSumDr4-fSumDr3*fSumDr3;
178 if (TMath::Abs(det)<AliTPCTrackHits::fgkPrecision2) return;
179 if ( ( fStackIndex>1 ) ){
180 fParam->fAn = (fSumDr4*fSumDFiDr-fSumDr3*fSumDFiDr2)/det;
181 fParam->fAd = (fSumDr2*fSumDFiDr2-fSumDr3*fSumDFiDr)/det;
184 fParam->fAn = fSumDFiDr/fSumDr2;
185 if ( ( fStackIndex>1 ) ){
186 fParam->fTheta = (fSumDr4*fSumDZDr-fSumDr3*fSumDZDr2)/det;
187 fParam->fThetaD= (fSumDr2*fSumDZDr2-fSumDr3*fSumDZDr)/det;
190 fParam->fTheta = fSumDZDr/fSumDr2;
194 void AliTPCTempHitInfo::UpdateParam(Double_t maxdelta)
196 //recalc parameters not fixing origin point
200 Fit2(fSumDFi, fSumDFiDr, fSumDFiDr2, fSumDr,fSumDr2,fSumDr3,fSumDr4,
202 if (TMath::Abs(a)<maxdelta){
203 fParam->fFi +=a/fParam->fR;
207 Fit2(fSumDZ, fSumDZDr, fSumDZDr2, fSumDr,fSumDr2,fSumDr3,fSumDr4,
208 fStackIndex, a,b,c) ;
209 if (TMath::Abs(a)<maxdelta){
217 void AliTPCTempHitInfo::Fit2(Double_t fSumY, Double_t fSumYX, Double_t fSumYX2,
218 Double_t fSumX, Double_t fSumX2, Double_t fSumX3,
219 Double_t fSumX4, Int_t n,
220 Double_t &a, Double_t &b, Double_t &c)
222 //fit of second order
224 n* (fSumX2*fSumX4-fSumX3*fSumX3) -
225 fSumX* (fSumX*fSumX4-fSumX3*fSumX2)+
226 fSumX2* (fSumX*fSumX3-fSumX2*fSumX2);
228 if (TMath::Abs(det)> AliTPCTrackHits::fgkPrecision) {
230 (fSumY * (fSumX2*fSumX4-fSumX3*fSumX3)-
231 fSumX *(fSumYX*fSumX4-fSumYX2*fSumX3)+
232 fSumX2*(fSumYX*fSumX3-fSumYX2*fSumX2))/det;
234 (n*(fSumYX*fSumX4-fSumX3*fSumYX2)-
235 fSumY*(fSumX*fSumX4-fSumX3*fSumX2)+
236 fSumX2*(fSumX*fSumYX2-fSumYX*fSumX2))/det;
238 (n*(fSumX2*fSumYX2-fSumYX*fSumX3)-
239 fSumX*(fSumX*fSumYX2-fSumYX*fSumX2)+
240 fSumY*(fSumX*fSumX3-fSumX2*fSumX2))/det;
244 void AliTPCTempHitInfo::Fit(AliTrackHitsParam * param)
246 // fit fixing first and the last point
247 //result stored in new param
248 Double_t dx2 = (GetPosition(fStackIndex))[0]-fParam->fR;
249 Double_t det = fSumDr4+dx2*fSumDr2-2*dx2*fSumDr3;
250 if ( (TMath::Abs(det)> AliTPCTrackHits::fgkPrecision) &&
251 ((TMath::Abs(dx2)> AliTPCTrackHits::fgkPrecision))){
252 Double_t dfi2 = (GetPosition(fStackIndex))[1]-fParam->fFi;
253 param->fAd = (fSumDFiDr2+dfi2*fSumDr-dx2*fSumDFiDr-dfi2*fSumDr3/dx2)/det;
254 param->fAn = (dfi2-param->fAd*dx2*dx2)/dx2;
256 Double_t dz2 = (GetPosition(fStackIndex))[1]-fParam->fZ;
257 param->fTheta = (fSumDZDr2+dz2*fSumDr-dx2*fSumDZDr-dz2*fSumDr3/dx2)/det;
258 param->fTheta = (dz2-param->fAd*dx2*dx2)/dx2;
266 AliTPCTrackHits::AliTPCTrackHits()
269 //default constructor
271 const Float_t kHitPrecision=0.002; //default precision for hit position in cm
272 const Float_t kStep =0.003; //30 mum step
273 const UShort_t kMaxDistance =100; //maximum distance 100
275 fPrecision=kHitPrecision; //precision in cm
276 fStep = kStep; //step size
277 fMaxDistance = kMaxDistance; //maximum distance
279 fTrackHitsInfo = new AliObjectArray("AliTrackHitsInfo");
280 fTrackHitsParam = new AliObjectArray("AliTrackHitsParam");
281 fHitsPosAndQ = new TArrayOfArrayVStack("AliHitInfo");
282 fCurrentHit = new AliTPCCurrentHit;
288 AliTPCTrackHits::~AliTPCTrackHits()
293 if (fTrackHitsInfo) delete fTrackHitsInfo;
294 if (fTrackHitsParam) delete fTrackHitsParam;
295 if (fHitsPosAndQ) delete fHitsPosAndQ;
296 if (fCurrentHit) delete fCurrentHit;
297 if (fTempInfo) delete fTempInfo;
301 void AliTPCTrackHits::Clear()
305 fTrackHitsInfo->Clear();
306 fTrackHitsParam->Clear();
307 //fTrackHitsInfo->Resize(0);
308 //fTrackHitsParam->Resize(0);
309 fHitsPosAndQ->Clear();
318 void AliTPCTrackHits::AddHitKartez(Int_t volumeID, Int_t trackID, Double_t x,
319 Double_t y, Double_t z,Int_t q)
321 Double_t r = TMath::Sqrt(x*x+y*y);
322 Double_t fi = TMath::ACos(x/r);
324 AddHit(volumeID,trackID,r,z,fi,q);
327 void AliTPCTrackHits::AddHit(Int_t volumeID, Int_t trackID,
328 Double_t r, Double_t z, Double_t fi, Int_t q)
332 if (!fTempInfo) { //initialsation of track
333 fTempInfo = new AliTPCTempHitInfo;
335 if (fTrackHitsInfo->GetCapacity()<10) fTrackHitsInfo->Reserve(10);
336 fTrackHitsInfo->Resize(1);
337 fTempInfo->fInfoIndex =0;
338 if (fTrackHitsParam->GetCapacity()<100) fTrackHitsParam->Reserve(100);
339 fTrackHitsParam->Resize(1);
342 (AliTrackHitsInfo*) (fTrackHitsInfo->At(0));
343 fTempInfo->fInfo->fVolumeID = volumeID;
344 fTempInfo->fInfo->fTrackID = trackID;
345 fTempInfo->fInfo->fHitParamIndex =0;
346 fTempInfo->fInfoIndex = 0;
349 (AliTrackHitsParam*) (fTrackHitsParam->At(0));
350 fTempInfo->fParamIndex = 0;
351 fTempInfo->NewParam(r,z,fi,q);
355 Int_t size = fHitsPosAndQ->GetSize();
356 if (size>(Int_t)fTempInfo->fParamIndex) {
357 fTempInfo->fParamIndex++;
358 if (fTempInfo->fParamIndex+1>fTrackHitsParam->GetSize())
359 fTrackHitsParam->Resize(fTempInfo->fParamIndex+1);
361 (AliTrackHitsParam*) (fTrackHitsParam->At(fTempInfo->fParamIndex));
362 fTempInfo->NewParam(r,z,fi,q);
367 // if new volume or new trackID
368 if ( (volumeID!=fTempInfo->fInfo->fVolumeID) ||
369 (trackID!=fTempInfo->fInfo->fTrackID)){
372 FlushHitStack(kTRUE);
374 fTempInfo->fInfoIndex++;
375 if (fTempInfo->fInfoIndex+1>fTrackHitsInfo->GetSize())
376 fTrackHitsInfo->Resize(fTempInfo->fInfoIndex+1);
378 (AliTrackHitsInfo*) (fTrackHitsInfo->At(fTempInfo->fInfoIndex));
379 fTempInfo->fInfo->fVolumeID = volumeID;
380 fTempInfo->fInfo->fTrackID = trackID;
381 fTempInfo->fInfo->fHitParamIndex =fTempInfo->fParamIndex+1;
382 // FlushHitStack(kTRUE);
384 fTempInfo->fParamIndex++;
385 if (fTempInfo->fParamIndex+1>fTrackHitsParam->GetSize())
386 fTrackHitsParam->Resize(fTempInfo->fParamIndex+1);
388 (AliTrackHitsParam*) (fTrackHitsParam->At(fTempInfo->fParamIndex));
389 fTempInfo->NewParam(r,z,fi,q);
393 //calculate current fit precission to next point
394 AliTrackHitsParam ¶m = *(fTempInfo->fParam);
398 Double_t dr,dz,dfi,ddz,ddfi;
400 dr=dz=dfi=ddz=ddfi=0;
401 drhit = r-fTempInfo->fOldR;
403 //Double_t dfi2 = param.fAn+2*param.fAd*(r-param.fR);
404 Double_t dfi2 = param.fAn;
405 dfi2*=dfi2*fTempInfo->fOldR*fTempInfo->fOldR;
406 //Double_t ddz2 = param.fTheta+2*param.fThetaD*(r-param.fR);
407 Double_t ddz2 = param.fTheta;
409 ratio = TMath::Sqrt(1.+ dfi2+ ddz2);
414 dl = (TMath::Abs(drhit*ratio/fStep)<32000) ? fStep * Short_t(TMath::Nint(drhit*ratio/fStep)):0;
415 ddl = dl - drhit*ratio;
416 fTempInfo->fOldR += dl/ratio;
418 if (fTempInfo->fStackIndex>2){
422 ddz = dr*param.fTheta+dr*dr*param.fThetaD-dz;
423 ddfi= dr*param.fAn+dr*dr*param.fAd-dfi;
424 dd = TMath::Sqrt(ddz*ddz+r*r*ddfi*ddfi+ddl*ddl);
428 if ( ( (dd*1.25>fPrecision) ) ||
429 (fTempInfo->fStackIndex+4>fTempInfo->fkStackSize) ||
430 (TMath::Abs(dl/fStep)>fMaxDistance) )
433 fTempInfo->fStackIndex++;
434 fTempInfo->SetHit(r,z,fi,q);
437 //if parameter changed
438 if (FlushHitStack(kFALSE)){ //if full buffer flushed
439 fTempInfo->fParamIndex++;
440 if (fTempInfo->fParamIndex+1>fTrackHitsParam->GetSize())
441 fTrackHitsParam->Resize(fTempInfo->fParamIndex+1);
443 (AliTrackHitsParam*) (fTrackHitsParam->At(fTempInfo->fParamIndex));
444 fTempInfo->NewParam(r,z,fi,q);
447 fTempInfo->fStackIndex++;
448 fTempInfo->SetHit(r,z,fi,q);
452 Bool_t AliTPCTrackHits::FlushHitStack(Bool_t force)
455 //write fHitsPosAndQ information from the stack to te arrays
456 if (!fTempInfo) return kFALSE;
457 Int_t size = fHitsPosAndQ->GetSize();
459 if ( (size>0)&&(size!=(Int_t)fTempInfo->fParamIndex)) return kFALSE;
461 if (fHitsPosAndQ->Push(fTempInfo->fStackIndex+1)!=fTempInfo->fParamIndex){
462 cout<<"internal error - contact MI\n";
467 AliTrackHitsParam & param = *(fTempInfo->fParam);
468 //recalculate track parameter not fixing first point
469 fTempInfo->UpdateParam(fStep/4.);
470 //fTempInfo->Fit(fTempInfo->fParam); //- fixing the first and the last point
472 Double_t oldr = param.fR;
473 //cout<<"C3"<<fTempInfo->fStackIndex<<"\n"<<flush;
476 for (i=0; i <= fTempInfo->fStackIndex; i++){
477 Double_t * position = fTempInfo->GetPosition(i);
478 Double_t dr = position[0]-oldr;
481 //Double_t dfi2 = param.fAn+2*param.fAd*(position[0]-param.fR);
482 Double_t dfi2 = param.fAn;
483 dfi2*=dfi2*oldr*oldr;
484 //Double_t ddz2 = param.fTheta+2*param.fThetaD*(position[0]-param.fR);
485 Double_t ddz2 = param.fTheta;
487 ratio = TMath::Sqrt(1.+ dfi2+ ddz2);
490 Double_t dl = (TMath::Abs(dr*ratio/fStep)<32000) ? fStep*(Short_t)TMath::Nint(dr*ratio/fStep):0;
493 //calculate precission
494 AliTrackHitsParam ¶m = *(fTempInfo->fParam);
496 Double_t dr1= position[0]-param.fR;
497 Double_t dz = position[1]-param.fZ;
499 Double_t dfi = position[2]-param.fFi;
500 //extrapolated deltas
501 Double_t dr2 = oldr-param.fR;
502 Double_t ddr = dr2-dr1;
503 Double_t ddz = dr2*param.fTheta+dr2*dr2*param.fThetaD-dz;
504 Double_t ddfi= dr2*param.fAn+dr2*dr2*param.fAd-dfi;
505 dd = TMath::Sqrt(ddz*ddz+oldr*oldr*ddfi*ddfi+ddr*ddr);
507 if ( (dd>fPrecision) ){
513 Double_t ddz = dr2*param.fTheta+dr2*dr2*param.fThetaD-dz;
514 Double_t ddfi= dr2*param.fAn+dr2*dr2*param.fAd-dfi;
516 dd = TMath::Sqrt(ddz*ddz+oldr*oldr*ddfi*ddfi+ddr*ddr);
522 info = (AliHitInfo*)(fHitsPosAndQ->At(fTempInfo->fParamIndex,i));
523 info->fHitDistance = (TMath::Abs(dl/fStep)<32000) ?Short_t(TMath::Nint(dl/fStep)):0;
524 info->fCharge = Short_t(fTempInfo->fQStack[i]);
527 cout<<" "<<fTempInfo->fStackIndex<<" \t";
529 cout<<position[0]<<"\t";
530 cout<<position[1]<<"\t";
531 cout<<position[2]<<"\t";
532 cout<<param.fAn<<"\t";
533 cout<<param.fTheta<<"\t";
534 cout<<dr1<<"\t"<<ddr<<"\t"<<ddz<<"\t"<<ddfi<<"\t"<<dd<<"\n"<<flush;
538 if (i<=fTempInfo->fStackIndex){ //if previous iteration not succesfull
539 fHitsPosAndQ->Resize(fTempInfo->fParamIndex,i);
541 fTempInfo->fParamIndex++;
542 if (fTempInfo->fParamIndex+1>fTrackHitsParam->GetSize())
543 fTrackHitsParam->Resize(fTempInfo->fParamIndex+1);
545 (AliTrackHitsParam*) (fTrackHitsParam->At(fTempInfo->fParamIndex));
546 Double_t * p = fTempInfo->GetPosition(i);
547 UInt_t index2 = fTempInfo->fStackIndex;
548 fTempInfo->NewParam(p[0],p[1],p[2],fTempInfo->fQStack[i]);
549 if (i+1<=index2) FlushHitStack2(i+1,index2);
551 if (force) return FlushHitStack(kTRUE);
558 void AliTPCTrackHits::FlushHitStack2(Int_t index1, Int_t index2)
561 // second iteration flush stack
562 // call only for hits where first iteration were not succesfully interpolated
563 Double_t * positionstack = new Double_t[3*(index2-index1+1)];
564 UInt_t * qstack = new UInt_t[index2-index1+1];
565 memcpy(positionstack, &fTempInfo->fPositionStack[3*index1],
566 (3*(index2-index1+1))*sizeof(Double_t));
567 memcpy(qstack, &fTempInfo->fQStack[index1],(index2-index1+1)*sizeof(UInt_t));
568 Double_t *p = positionstack;
569 for (Int_t j=0; j<=index2-index1;j++){
570 fTempInfo->fStackIndex++;
571 fTempInfo->SetHit(p[3*j+0],p[3*j+1],p[3*j+2],qstack[j]);
573 delete []positionstack;
585 Bool_t AliTPCTrackHits::First()
588 //set Current hit for the first hit
590 AliTrackHitsInfo *info = (AliTrackHitsInfo *)fTrackHitsInfo->At(0);
591 AliTrackHitsParam *param = (AliTrackHitsParam *)fTrackHitsParam->At(0);
592 AliHitInfo * hinfo = (AliHitInfo *)fHitsPosAndQ->At(0,0);
594 if (!(info) || !(param) || !(hinfo) ) {
595 fCurrentHit->fStatus = kFALSE;
599 fCurrentHit->fInfoIndex = 0;
600 fCurrentHit->fParamIndex = 0;
601 fCurrentHit->fStackIndex = 0;
603 fCurrentHit->fHit.fSector = info->fVolumeID;
604 fCurrentHit->fHit.SetTrack(info->fTrackID);
605 fCurrentHit->fHit.SetX(param->fR*TMath::Cos(param->fFi));
606 fCurrentHit->fHit.SetY(param->fR*TMath::Sin(param->fFi));
607 fCurrentHit->fHit.SetZ(param->fZ);
608 fCurrentHit->fHit.fQ = hinfo->fCharge;
610 fCurrentHit->fR = param->fR;
612 return fCurrentHit->fStatus = kTRUE;
615 Bool_t AliTPCTrackHits::Next()
619 if (!(fCurrentHit->fStatus))
622 fCurrentHit->fStackIndex++;
623 AliHitInfo * hinfo = (AliHitInfo *)fHitsPosAndQ->At(fCurrentHit->fParamIndex,
624 fCurrentHit->fStackIndex);
625 AliTrackHitsInfo *info = (AliTrackHitsInfo *)fTrackHitsInfo->At(fCurrentHit->fInfoIndex);
626 AliTrackHitsParam *param = (AliTrackHitsParam *)fTrackHitsParam->At(fCurrentHit->fParamIndex);
629 hinfo = (AliHitInfo *)fHitsPosAndQ->At(fCurrentHit->fParamIndex+1, 0);
631 return fCurrentHit->fStatus = kFALSE;
633 fCurrentHit->fParamIndex++;
634 fCurrentHit->fStackIndex = 0;
635 param = (AliTrackHitsParam *)fTrackHitsParam->At(fCurrentHit->fParamIndex);
637 return fCurrentHit->fStatus = kFALSE;
638 fCurrentHit->fR = param->fR;
640 if ((fCurrentHit->fInfoIndex+1<fTrackHitsInfo->GetSize())
641 &&((info+1)->fHitParamIndex<=fCurrentHit->fParamIndex)){
642 fCurrentHit->fInfoIndex++;
643 info = (AliTrackHitsInfo *)fTrackHitsInfo->At(fCurrentHit->fInfoIndex);
645 return fCurrentHit->fStatus = kFALSE;
646 fCurrentHit->fHit.fSector = info->fVolumeID;
647 fCurrentHit->fHit.SetTrack(info->fTrackID);
653 // Double_t dfi2 = param->fAn+2*param->fAd*(fCurrentHit->fR-param->fR);
654 Double_t dfi2 = param->fAn;
655 dfi2*=dfi2*fCurrentHit->fR*fCurrentHit->fR;
656 // Double_t ddz2 = param->fTheta+2*param->fThetaD*(fCurrentHit->fR-param->fR);
657 Double_t ddz2 = param->fTheta;
659 ratio = TMath::Sqrt(1.+ dfi2+ ddz2);
662 fCurrentHit->fHit.fQ = hinfo->fCharge;
663 fCurrentHit->fR += fStep*hinfo->fHitDistance/ratio;
664 Double_t dR = fCurrentHit->fR - param->fR;
666 Double_t fi = param->fFi + (param->fAn*dR+param->fAd*dR*dR);
667 Double_t z = param->fZ + (param->fTheta*dR+param->fThetaD*dR*dR);
669 fCurrentHit->fHit.SetX(fCurrentHit->fR*TMath::Cos(fi));
670 fCurrentHit->fHit.SetY(fCurrentHit->fR*TMath::Sin(fi));
671 fCurrentHit->fHit.SetZ(z);
675 AliTPChit * AliTPCTrackHits::GetHit()
678 return (fCurrentHit->fStatus)? &fCurrentHit->fHit:0;
679 //return &fCurrentHit->fHit;
683 AliTrackHitsParam * AliTPCTrackHits::GetParam()
686 return (fCurrentHit->fStatus)? (AliTrackHitsParam *)fTrackHitsParam->At(fCurrentHit->fParamIndex) :0;
689 AliHitInfo * AliTPCTrackHits::GetHitInfo()
692 return (fCurrentHit->fStatus)?
693 (AliHitInfo *)fHitsPosAndQ->At(fCurrentHit->fParamIndex,fCurrentHit->fStackIndex) :0;