**************************************************************************/
-
-
-
-
-/*
- AliTPC parallel tracker -
- How to use? -
- run AliTPCFindClusters.C macro - clusters neccessary for tracker are founded
- run AliTPCFindTracksMI.C macro - to find tracks
- tracks are written to AliTPCtracks.root file
- for comparison also seeds are written to the same file - to special branch
-*/
-
//-------------------------------------------------------
// Implementation of the TPC tracker
//
// Origin: Marian Ivanov Marian.Ivanov@cern.ch
//
+// AliTPC parallel tracker
//-------------------------------------------------------
-#include <TObjArray.h>
+
+/* $Id$ */
+
+#include "Riostream.h"
+#include <TClonesArray.h>
#include <TFile.h>
+#include <TObjArray.h>
#include <TTree.h>
-#include "Riostream.h"
-#include "AliTPCtrackerMI.h"
-#include "AliTPCclusterMI.h"
-#include "AliTPCParam.h"
-#include "AliTPCClustersRow.h"
#include "AliComplexCluster.h"
+#include "AliESD.h"
+#include "AliESDkink.h"
+#include "AliHelix.h"
+#include "AliRunLoader.h"
+#include "AliTPCClustersRow.h"
+#include "AliTPCParam.h"
+#include "AliTPCReconstructor.h"
+#include "AliTPCclusterMI.h"
#include "AliTPCpolyTrack.h"
+#include "AliTPCreco.h"
+#include "AliTPCseed.h"
+#include "AliTPCtrackerMI.h"
#include "TStopwatch.h"
+#include "AliTPCReconstructor.h"
+#include "AliESDkink.h"
+#include "AliPID.h"
+#include "TTreeStream.h"
+#include "AliAlignObj.h"
+#include "AliTrackPointArray.h"
+//
-ClassImp(AliTPCseed)
-ClassImp(AliTPCKalmanSegment)
-
-
-
-//_____________________________________________________________________________
-
-AliTPCKalmanSegment::AliTPCKalmanSegment(){
- //
- //
- fX=fAlpha=fChi2=0;
- for (Int_t i=0;i<5;i++) fState[i] = 0.;
- for (Int_t i=0;i<15;i++) fCovariance[i] = 0.;
- fNCFoundable = 0;
- fNC = 0;
- // fN = 0;
-}
-
-//_____________________________________________________________________________
+ClassImp(AliTPCtrackerMI)
-void AliTPCKalmanSegment::Init(AliTPCseed* seed)
-{
- // in initialization
- // initial entrance integral chi2, fNCFoundable and fNC stored
- fNCFoundable = seed->fNFoundable;
- fNC = seed->GetNumberOfClusters();
- fChi2 = seed->GetChi2();
-}
+class AliTPCFastMath {
+public:
+ AliTPCFastMath();
+ static Double_t FastAsin(Double_t x);
+ private:
+ static Double_t fgFastAsin[20000]; //lookup table for fast asin computation
+};
-void AliTPCKalmanSegment::Finish(AliTPCseed* seed)
-{
- //
- // in finish state vector stored and chi2 and fNC... calculated
- Double_t x;
- Double_t state[5];
- Double_t cov[15];
- seed->GetExternalParameters(x,state);
- seed->GetExternalCovariance(cov);
- //float precision for tracklet
- for (Int_t i=0;i<5;i++) fState[i] = state[i];
- for (Int_t i=0;i<15;i++) fCovariance[i] = cov[i];
- //
- // in current seed integral track characteristic
- // for tracklet differenciation between beginning (Init state) and Finish state
- fNCFoundable = seed->fNFoundable - fNCFoundable;
- fNC = seed->GetNumberOfClusters() - fNC;
- fChi2 = seed->GetChi2()-fChi2;
- //
-}
+Double_t AliTPCFastMath::fgFastAsin[20000];
+AliTPCFastMath gAliTPCFastMath; // needed to fill the LUT
-void AliTPCKalmanSegment::GetState(Double_t &x, Double_t & alpha, Double_t state[5])
-{
+AliTPCFastMath::AliTPCFastMath(){
//
- x = fX;
- alpha = fAlpha;
- for (Int_t i=0;i<5;i++) state[i] = fState[i];
-}
-
-void AliTPCKalmanSegment::GetCovariance(Double_t covariance[15])
-{
- //
- for (Int_t i=0;i<5;i++) covariance[i] = fCovariance[i];
+ // initialized lookup table;
+ for (Int_t i=0;i<10000;i++){
+ fgFastAsin[2*i] = TMath::ASin(i/10000.);
+ fgFastAsin[2*i+1] = (TMath::ASin((i+1)/10000.)-fgFastAsin[2*i]);
+ }
}
-void AliTPCKalmanSegment::GetStatistic(Int_t & nclusters, Int_t & nfoundable, Float_t & chi2)
-{
- //
+Double_t AliTPCFastMath::FastAsin(Double_t x){
//
- nclusters = fNC;
- nfoundable = fNCFoundable;
- chi2 = fChi2;
-}
-
-
-
-AliTPCclusterTracks::AliTPCclusterTracks(){
- // class for storing overlaping info
- fTrackIndex[0]=-1;
- fTrackIndex[1]=-1;
- fTrackIndex[2]=-1;
- fDistance[0]=1000;
- fDistance[1]=1000;
- fDistance[2]=1000;
+ // return asin using lookup table
+ if (x>0){
+ Int_t index = int(x*10000);
+ return fgFastAsin[2*index]+(x*10000.-index)*fgFastAsin[2*index+1];
+ }
+ x*=-1;
+ Int_t index = int(x*10000);
+ return -(fgFastAsin[2*index]+(x*10000.-index)*fgFastAsin[2*index+1]);
}
+Int_t AliTPCtrackerMI::UpdateTrack(AliTPCseed * track, Int_t accept){
+ //
+ //update track information using current cluster - track->fCurrentCluster
+ AliTPCclusterMI* c =track->fCurrentCluster;
+ if (accept>0) track->fCurrentClusterIndex1 |=0x8000; //sign not accepted clusters
-
-
-Int_t AliTPCtrackerMI::UpdateTrack(AliTPCseed * track, AliTPCclusterMI* c, Double_t chi2, UInt_t i){
+ UInt_t i = track->fCurrentClusterIndex1;
Int_t sec=(i&0xff000000)>>24;
- Int_t row = (i&0x00ff0000)>>16;
+ //Int_t row = (i&0x00ff0000)>>16;
track->fRow=(i&0x00ff0000)>>16;
track->fSector = sec;
// Int_t index = i&0xFFFF;
if (sec>=fParam->GetNInnerSector()) track->fRow += fParam->GetNRowLow();
- track->fClusterIndex[track->fRow] = i;
- track->fFirstPoint = row;
- if ( track->fLastPoint<row) track->fLastPoint =row;
+ track->SetClusterIndex2(track->fRow, i);
+ //track->fFirstPoint = row;
+ //if ( track->fLastPoint<row) track->fLastPoint =row;
+ // if (track->fRow<0 || track->fRow>160) {
+ // printf("problem\n");
+ //}
+ if (track->fFirstPoint>track->fRow)
+ track->fFirstPoint = track->fRow;
+ if (track->fLastPoint<track->fRow)
+ track->fLastPoint = track->fRow;
+
+
+ track->fClusterPointer[track->fRow] = c;
//
- AliTPCTrackPoint *trpoint =track->GetTrackPoint(track->fRow);
- Float_t angle2 = track->GetSnp()*track->GetSnp();
- angle2 = TMath::Sqrt(angle2/(1-angle2));
+ Double_t angle2 = track->GetSnp()*track->GetSnp();
//
//SET NEW Track Point
//
- if (c!=0){
- //if we have a cluster
- trpoint->GetCPoint().SetY(c->GetY());
- trpoint->GetCPoint().SetZ(c->GetZ());
+ if (angle2<1) //PH sometimes angle2 is very big. To be investigated...
+ {
+ angle2 = TMath::Sqrt(angle2/(1-angle2));
+ AliTPCTrackerPoint &point =*(track->GetTrackPoint(track->fRow));
//
- trpoint->GetCPoint().SetSigmaY(c->GetSigmaY2()/(track->fCurrentSigmaY*track->fCurrentSigmaY));
- trpoint->GetCPoint().SetSigmaZ(c->GetSigmaZ2()/(track->fCurrentSigmaZ*track->fCurrentSigmaZ));
- //
- trpoint->GetCPoint().SetType(c->GetType());
- trpoint->GetCPoint().SetQ(c->GetQ());
- trpoint->GetCPoint().SetMax(c->GetMax());
- //
- trpoint->GetCPoint().SetErrY(TMath::Sqrt(track->fErrorY2));
- trpoint->GetCPoint().SetErrZ(TMath::Sqrt(track->fErrorZ2));
+ point.SetSigmaY(c->GetSigmaY2()/track->fCurrentSigmaY2);
+ point.SetSigmaZ(c->GetSigmaZ2()/track->fCurrentSigmaZ2);
+ point.SetErrY(sqrt(track->fErrorY2));
+ point.SetErrZ(sqrt(track->fErrorZ2));
//
+ point.SetX(track->GetX());
+ point.SetY(track->GetY());
+ point.SetZ(track->GetZ());
+ point.SetAngleY(angle2);
+ point.SetAngleZ(track->GetTgl());
+ if (point.fIsShared){
+ track->fErrorY2 *= 4;
+ track->fErrorZ2 *= 4;
+ }
+ }
+
+ Double_t chi2 = track->GetPredictedChi2(track->fCurrentCluster);
+ //
+ track->fErrorY2 *= 1.3;
+ track->fErrorY2 += 0.01;
+ track->fErrorZ2 *= 1.3;
+ track->fErrorZ2 += 0.005;
+ //}
+ if (accept>0) return 0;
+ if (track->GetNumberOfClusters()%20==0){
+ // if (track->fHelixIn){
+ // TClonesArray & larr = *(track->fHelixIn);
+ // Int_t ihelix = larr.GetEntriesFast();
+ // new(larr[ihelix]) AliHelix(*track) ;
+ //}
}
- trpoint->GetTPoint().SetX(track->GetX());
- trpoint->GetTPoint().SetY(track->GetY());
- trpoint->GetTPoint().SetZ(track->GetZ());
+ track->fNoCluster =0;
+ return track->Update(c,chi2,i);
+}
+
+
+
+Int_t AliTPCtrackerMI::AcceptCluster(AliTPCseed * seed, AliTPCclusterMI * cluster, Float_t factor,
+ Float_t cory, Float_t corz)
+{
//
- trpoint->GetTPoint().SetAngleY(angle2);
- trpoint->GetTPoint().SetAngleZ(track->GetTgl());
+ // decide according desired precision to accept given
+ // cluster for tracking
+ Double_t sy2=ErrY2(seed,cluster)*cory;
+ Double_t sz2=ErrZ2(seed,cluster)*corz;
+ //sy2=ErrY2(seed,cluster)*cory;
+ //sz2=ErrZ2(seed,cluster)*cory;
-
+ Double_t sdistancey2 = sy2+seed->GetSigmaY2();
+ Double_t sdistancez2 = sz2+seed->GetSigmaZ2();
+
+ Double_t rdistancey2 = (seed->fCurrentCluster->GetY()-seed->GetY())*
+ (seed->fCurrentCluster->GetY()-seed->GetY())/sdistancey2;
+ Double_t rdistancez2 = (seed->fCurrentCluster->GetZ()-seed->GetZ())*
+ (seed->fCurrentCluster->GetZ()-seed->GetZ())/sdistancez2;
- if (chi2>10){
- // printf("suspicious chi2 %f\n",chi2);
+ Double_t rdistance2 = rdistancey2+rdistancez2;
+ //Int_t accept =0;
+
+ if (rdistance2>16) return 3;
+
+
+ if ((rdistancey2>9.*factor || rdistancez2>9.*factor) && cluster->GetType()==0)
+ return 2; //suspisiouce - will be changed
+
+ if ((rdistancey2>6.25*factor || rdistancez2>6.25*factor) && cluster->GetType()>0)
+ // strict cut on overlaped cluster
+ return 2; //suspisiouce - will be changed
+
+ if ( (rdistancey2>1.*factor || rdistancez2>6.25*factor )
+ && cluster->GetType()<0){
+ seed->fNFoundable--;
+ return 2;
}
- // if (track->fIsSeeding){
- track->fErrorY2 *= 1.2;
- track->fErrorY2 += 0.0064;
- track->fErrorZ2 *= 1.2;
- track->fErrorY2 += 0.005;
-
- //}
+ return 0;
+}
+
+
- return track->Update(c,chi2,i);
-}
//_____________________________________________________________________________
-AliTPCtrackerMI::AliTPCtrackerMI(const AliTPCParam *par, Int_t eventn):
+AliTPCtrackerMI::AliTPCtrackerMI(const AliTPCParam *par):
AliTracker(), fkNIS(par->GetNInnerSector()/2), fkNOS(par->GetNOuterSector()/2)
{
//---------------------------------------------------------------------
//---------------------------------------------------------------------
fInnerSec=new AliTPCSector[fkNIS];
fOuterSec=new AliTPCSector[fkNOS];
-
+
Int_t i;
for (i=0; i<fkNIS; i++) fInnerSec[i].Setup(par,0);
for (i=0; i<fkNOS; i++) fOuterSec[i].Setup(par,1);
fN=0; fSectors=0;
- fClustersArray.Setup(par);
- fClustersArray.SetClusterType("AliTPCclusterMI");
+ fSeeds=0;
+ fNtracks = 0;
+ fParam = par;
+ Int_t nrowlow = par->GetNRowLow();
+ Int_t nrowup = par->GetNRowUp();
- char cname[100];
- if (eventn==-1) {
- sprintf(cname,"TreeC_TPC");
- }
- else {
- sprintf(cname,"TreeC_TPC_%d",eventn);
+
+ for (Int_t i=0;i<nrowlow;i++){
+ fXRow[i] = par->GetPadRowRadiiLow(i);
+ fPadLength[i]= par->GetPadPitchLength(0,i);
+ fYMax[i] = fXRow[i]*TMath::Tan(0.5*par->GetInnerAngle());
}
- fClustersArray.ConnectTree(cname);
-
- fEventN = eventn;
+
+ for (Int_t i=0;i<nrowup;i++){
+ fXRow[i+nrowlow] = par->GetPadRowRadiiUp(i);
+ fPadLength[i+nrowlow] = par->GetPadPitchLength(60,i);
+ fYMax[i+nrowlow] = fXRow[i+nrowlow]*TMath::Tan(0.5*par->GetOuterAngle());
+ }
fSeeds=0;
- fNtracks = 0;
- fParam = par;
+ //
+ fInput = 0;
+ fOutput = 0;
+ fSeedTree = 0;
+ fTreeDebug =0;
+ fNewIO =0;
+ fDebug =0;
+ fEvent =0;
+ fDebugStreamer = new TTreeSRedirector("TPCdebug.root");
+}
+//________________________________________________________________________
+AliTPCtrackerMI::AliTPCtrackerMI(const AliTPCtrackerMI &t):
+ AliTracker(t),
+ fkNIS(t.fkNIS),
+ fkNOS(t.fkNOS)
+{
+ //------------------------------------
+ // dummy copy constructor
+ //------------------------------------------------------------------
+}
+AliTPCtrackerMI & AliTPCtrackerMI::operator=(const AliTPCtrackerMI& /*r*/){
+ //------------------------------
+ // dummy
+ //--------------------------------------------------------------
+ return *this;
}
-
//_____________________________________________________________________________
AliTPCtrackerMI::~AliTPCtrackerMI() {
//------------------------------------------------------------------
fSeeds->Delete();
delete fSeeds;
}
+ if (fDebugStreamer) delete fDebugStreamer;
}
-
-Double_t AliTPCtrackerMI::ErrY2(AliTPCseed* seed, AliTPCclusterMI * cl){
- //
+void AliTPCtrackerMI::SetIO()
+{
//
- Float_t snoise2;
- Float_t z = TMath::Abs(fParam->GetZLength()-TMath::Abs(seed->GetZ()));
+ fNewIO = kTRUE;
+ fInput = AliRunLoader::GetTreeR("TPC", kFALSE,AliConfig::GetDefaultEventFolderName());
+
+ fOutput = AliRunLoader::GetTreeT("TPC", kTRUE,AliConfig::GetDefaultEventFolderName());
+ if (fOutput){
+ AliTPCtrack *iotrack= new AliTPCtrack;
+ fOutput->Branch("tracks","AliTPCtrack",&iotrack,32000,100);
+ delete iotrack;
+ }
+}
- //cluster "quality"
- Float_t rsigmay = 1;
- Int_t ctype = 0;
- //standard if we don't have cluster - take MIP
- const Float_t chmip = 50.;
- Float_t amp = chmip/0.3;
- Float_t nel;
- Float_t nprim;
- if (cl){
- amp = cl->GetQ();
- rsigmay = cl->GetSigmaY2()/(seed->fCurrentSigmaY*seed->fCurrentSigmaY);
- ctype = cl->GetType();
+void AliTPCtrackerMI::SetIO(TTree * input, TTree * output, AliESD * event)
+{
+
+ // set input
+ fNewIO = kFALSE;
+ fInput = 0;
+ fOutput = 0;
+ fSeedTree = 0;
+ fTreeDebug =0;
+ fInput = input;
+ if (input==0){
+ return;
+ }
+ //set output
+ fOutput = output;
+ if (output){
+ AliTPCtrack *iotrack= new AliTPCtrack;
+ // iotrack->fHelixIn = new TClonesArray("AliHelix");
+ //iotrack->fHelixOut = new TClonesArray("AliHelix");
+ fOutput->Branch("tracks","AliTPCtrack",&iotrack,32000,100);
+ delete iotrack;
+ }
+ if (output && (fDebug&2)){
+ //write the full seed information if specified in debug mode
+ //
+ fSeedTree = new TTree("Seeds","Seeds");
+ AliTPCseed * vseed = new AliTPCseed;
+ //
+ TClonesArray * arrtr = new TClonesArray("AliTPCTrackPoint",160);
+ arrtr->ExpandCreateFast(160);
+ TClonesArray * arre = new TClonesArray("AliTPCExactPoint",160);
+ //
+ vseed->fPoints = arrtr;
+ vseed->fEPoints = arre;
+ // vseed->fClusterPoints = arrcl;
+ fSeedTree->Branch("seeds","AliTPCseed",&vseed,32000,99);
+ delete arrtr;
+ delete arre;
+ fTreeDebug = new TTree("trackDebug","trackDebug");
+ TClonesArray * arrd = new TClonesArray("AliTPCTrackPoint2",0);
+ fTreeDebug->Branch("debug",&arrd,32000,99);
}
-
- Float_t landau=2 ; //landau fluctuation part
- Float_t gg=2; // gg fluctuation part
- Float_t padlength= fSectors->GetPadPitchLength(seed->GetX());
+ //set ESD event
+ fEvent = event;
+}
- if (fSectors==fInnerSec){
- snoise2 = 0.0004;
- nel = 0.268*amp;
- nprim = 0.155*amp;
- gg = (2+0.0002*amp)/nel;
- landau = (2.+0.12*nprim)*0.5*(amp*amp/40000.+2)/nprim;
- if (landau>1) landau=1;
+void AliTPCtrackerMI::FillESD(TObjArray* arr)
+{
+ //
+ //
+ //fill esds using updated tracks
+ if (fEvent){
+ // write tracks to the event
+ // store index of the track
+ Int_t nseed=arr->GetEntriesFast();
+ //FindKinks(arr,fEvent);
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ pt->UpdatePoints();
+ // pt->PropagateTo(fParam->GetInnerRadiusLow());
+ if (pt->GetKinkIndex(0)<=0){ //don't propagate daughter tracks
+ pt->PropagateTo(fParam->GetInnerRadiusLow());
+ }
+
+ if (( pt->GetPoints()[2]- pt->GetPoints()[0])>5 && pt->GetPoints()[3]>0.8){
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ // iotrack.SetTPCpid(pt->fTPCr);
+ //iotrack.SetTPCindex(i);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+
+ if ( (pt->GetNumberOfClusters()>70)&& (Float_t(pt->GetNumberOfClusters())/Float_t(pt->fNFoundable))>0.55) {
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ //iotrack.SetTPCindex(i);
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ // iotrack.SetTPCpid(pt->fTPCr);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+ //
+ // short tracks - maybe decays
+
+ if ( (pt->GetNumberOfClusters()>30) && (Float_t(pt->GetNumberOfClusters())/Float_t(pt->fNFoundable))>0.70) {
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(0,60,found, foundable,shared,kFALSE);
+ if ( (found>20) && (pt->fNShared/float(pt->GetNumberOfClusters())<0.2)){
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ //iotrack.SetTPCindex(i);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ //iotrack.SetTPCpid(pt->fTPCr);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+ }
+
+ if ( (pt->GetNumberOfClusters()>20) && (Float_t(pt->GetNumberOfClusters())/Float_t(pt->fNFoundable))>0.8) {
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(0,60,found, foundable,shared,kFALSE);
+ if (found<20) continue;
+ if (pt->fNShared/float(pt->GetNumberOfClusters())>0.2) continue;
+ //
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ //iotrack.SetTPCpid(pt->fTPCr);
+ //iotrack.SetTPCindex(i);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+ // short tracks - secondaties
+ //
+ if ( (pt->GetNumberOfClusters()>30) ) {
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(128,158,found, foundable,shared,kFALSE);
+ if ( (found>20) && (pt->fNShared/float(pt->GetNumberOfClusters())<0.2) &&float(found)/float(foundable)>0.8){
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ //iotrack.SetTPCpid(pt->fTPCr);
+ //iotrack.SetTPCindex(i);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+ }
+
+ if ( (pt->GetNumberOfClusters()>15)) {
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(138,158,found, foundable,shared,kFALSE);
+ if (found<15) continue;
+ if (pt->fNShared/float(pt->GetNumberOfClusters())>0.2) continue;
+ if (float(found)/float(foundable)<0.8) continue;
+ //
+ AliESDtrack iotrack;
+ iotrack.UpdateTrackParams(pt,AliESDtrack::kTPCin);
+ iotrack.SetTPCPoints(pt->GetPoints());
+ iotrack.SetKinkIndexes(pt->GetKinkIndexes());
+ iotrack.SetV0Indexes(pt->GetV0Indexes());
+ // iotrack.SetTPCpid(pt->fTPCr);
+ //iotrack.SetTPCindex(i);
+ fEvent->AddTrack(&iotrack);
+ continue;
+ }
+ }
}
- else {
- snoise2 = 0.0004;
- nel = 0.3*amp;
- nprim = 0.133*amp;
- gg = (2+0.0002*amp)/nel;
- landau = (2.+0.12*nprim)*0.5*(amp*amp/40000.+2)/nprim;
- if (landau>1) landau=1;
+ printf("Number of filled ESDs-\t%d\n",fEvent->GetNumberOfTracks());
+}
+
+void AliTPCtrackerMI::WriteTracks(TTree * tree)
+{
+ //
+ // write tracks from seed array to selected tree
+ //
+ fOutput = tree;
+ if (fOutput){
+ AliTPCtrack *iotrack= new AliTPCtrack;
+ fOutput->Branch("tracks","AliTPCtrack",&iotrack,32000,100);
}
+ WriteTracks();
+}
+void AliTPCtrackerMI::WriteTracks()
+{
+ //
+ // write tracks to the given output tree -
+ // output specified with SetIO routine
+ if (!fSeeds) return;
+ if (!fOutput){
+ SetIO();
+ }
- Float_t sdiff = gg*fParam->GetDiffT()*fParam->GetDiffT()*z;
- Float_t angle2 = seed->GetSnp()*seed->GetSnp();
- angle2 = angle2/(1-angle2);
- Float_t angular = landau*angle2*padlength*padlength/12.;
- Float_t res = sdiff + angular;
-
+ if (fOutput){
+ AliTPCtrack *iotrack= 0;
+ Int_t nseed=fSeeds->GetEntriesFast();
+ //for (Int_t i=0; i<nseed; i++) {
+ // iotrack= (AliTPCtrack*)fSeeds->UncheckedAt(i);
+ // if (iotrack) break;
+ //}
+ //TBranch * br = fOutput->Branch("tracks","AliTPCtrack",&iotrack,32000,100);
+ TBranch * br = fOutput->GetBranch("tracks");
+ br->SetAddress(&iotrack);
+ //
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i);
+ if (!pt) continue;
+ AliTPCtrack * track = new AliTPCtrack(*pt);
+ iotrack = track;
+ pt->fLab2 =i;
+ // br->SetAddress(&iotrack);
+ fOutput->Fill();
+ delete track;
+ iotrack =0;
+ }
+ //fOutput->GetDirectory()->cd();
+ //fOutput->Write();
+ }
+ // delete iotrack;
+ //
+ if (fSeedTree){
+ //write the full seed information if specified in debug mode
+
+ AliTPCseed * vseed = new AliTPCseed;
+ //
+ TClonesArray * arrtr = new TClonesArray("AliTPCTrackPoint",160);
+ arrtr->ExpandCreateFast(160);
+ //TClonesArray * arrcl = new TClonesArray("AliTPCclusterMI",160);
+ //arrcl->ExpandCreateFast(160);
+ TClonesArray * arre = new TClonesArray("AliTPCExactPoint",160);
+ //
+ vseed->fPoints = arrtr;
+ vseed->fEPoints = arre;
+ // vseed->fClusterPoints = arrcl;
+ //TBranch * brseed = seedtree->Branch("seeds","AliTPCseed",&vseed,32000,99);
+ TBranch * brseed = fSeedTree->GetBranch("seeds");
+
+ Int_t nseed=fSeeds->GetEntriesFast();
+
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i);
+ if (!pt) continue;
+ pt->fPoints = arrtr;
+ // pt->fClusterPoints = arrcl;
+ pt->fEPoints = arre;
+ pt->RebuildSeed();
+ vseed = pt;
+ brseed->SetAddress(&vseed);
+ fSeedTree->Fill();
+ pt->fPoints = 0;
+ pt->fEPoints = 0;
+ // pt->fClusterPoints = 0;
+ }
+ fSeedTree->Write();
+ if (fTreeDebug) fTreeDebug->Write();
+ }
+
+}
- if ((ctype==0) && (fSectors ==fOuterSec))
- res *= 0.78 +TMath::Exp(7.4*(rsigmay-1.2));
- if ((ctype==0) && (fSectors ==fInnerSec))
- res *= 0.72 +TMath::Exp(3.36*(rsigmay-1.2));
- if ((ctype>0))
- res*= TMath::Power((rsigmay+0.5),1.5)+0.0064;
-
- if (ctype<0)
+Double_t AliTPCtrackerMI::ErrY2(AliTPCseed* seed, AliTPCclusterMI * cl){
+ //
+ //
+ //seed->SetErrorY2(0.1);
+ //return 0.1;
+ //calculate look-up table at the beginning
+ static Bool_t ginit = kFALSE;
+ static Float_t gnoise1,gnoise2,gnoise3;
+ static Float_t ggg1[10000];
+ static Float_t ggg2[10000];
+ static Float_t ggg3[10000];
+ static Float_t glandau1[10000];
+ static Float_t glandau2[10000];
+ static Float_t glandau3[10000];
+ //
+ static Float_t gcor01[500];
+ static Float_t gcor02[500];
+ static Float_t gcorp[500];
+ //
+
+ //
+ if (ginit==kFALSE){
+ for (Int_t i=1;i<500;i++){
+ Float_t rsigma = float(i)/100.;
+ gcor02[i] = TMath::Max(0.78 +TMath::Exp(7.4*(rsigma-1.2)),0.6);
+ gcor01[i] = TMath::Max(0.72 +TMath::Exp(3.36*(rsigma-1.2)),0.6);
+ gcorp[i] = TMath::Max(TMath::Power((rsigma+0.5),1.5),1.2);
+ }
+
+ //
+ for (Int_t i=3;i<10000;i++){
+ //
+ //
+ // inner sector
+ Float_t amp = float(i);
+ Float_t padlength =0.75;
+ gnoise1 = 0.0004/padlength;
+ Float_t nel = 0.268*amp;
+ Float_t nprim = 0.155*amp;
+ ggg1[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.001*nel/(padlength*padlength))/nel;
+ glandau1[i] = (2.+0.12*nprim)*0.5* (2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau1[i]>1) glandau1[i]=1;
+ glandau1[i]*=padlength*padlength/12.;
+ //
+ // outer short
+ padlength =1.;
+ gnoise2 = 0.0004/padlength;
+ nel = 0.3*amp;
+ nprim = 0.133*amp;
+ ggg2[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.0008*nel/(padlength*padlength))/nel;
+ glandau2[i] = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau2[i]>1) glandau2[i]=1;
+ glandau2[i]*=padlength*padlength/12.;
+ //
+ //
+ // outer long
+ padlength =1.5;
+ gnoise3 = 0.0004/padlength;
+ nel = 0.3*amp;
+ nprim = 0.133*amp;
+ ggg3[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.0008*nel/(padlength*padlength))/nel;
+ glandau3[i] = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau3[i]>1) glandau3[i]=1;
+ glandau3[i]*=padlength*padlength/12.;
+ //
+ }
+ ginit = kTRUE;
+ }
+ //
+ //
+ //
+ Int_t amp = int(TMath::Abs(cl->GetQ()));
+ if (amp>9999) {
+ seed->SetErrorY2(1.);
+ return 1.;
+ }
+ Float_t snoise2;
+ Float_t z = TMath::Abs(fParam->GetZLength()-TMath::Abs(seed->GetZ()));
+ Int_t ctype = cl->GetType();
+ Float_t padlength= GetPadPitchLength(seed->fRow);
+ Double_t angle2 = seed->GetSnp()*seed->GetSnp();
+ angle2 = angle2/(1-angle2);
+ //
+ //cluster "quality"
+ Int_t rsigmay = int(100.*cl->GetSigmaY2()/(seed->fCurrentSigmaY2));
+ Float_t res;
+ //
+ if (fSectors==fInnerSec){
+ snoise2 = gnoise1;
+ res = ggg1[amp]*z+glandau1[amp]*angle2;
+ if (ctype==0) res *= gcor01[rsigmay];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmay];
+ }
+ }
+ else {
+ if (padlength<1.1){
+ snoise2 = gnoise2;
+ res = ggg2[amp]*z+glandau2[amp]*angle2;
+ if (ctype==0) res *= gcor02[rsigmay];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmay];
+ }
+ }
+ else{
+ snoise2 = gnoise3;
+ res = ggg3[amp]*z+glandau3[amp]*angle2;
+ if (ctype==0) res *= gcor02[rsigmay];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmay];
+ }
+ }
+ }
+
+ if (ctype<0){
+ res+=0.005;
res*=2.4; // overestimate error 2 times
-
+ }
res+= snoise2;
if (res<2*snoise2)
res = 2*snoise2;
-
+
seed->SetErrorY2(res);
return res;
-}
+}
+
Double_t AliTPCtrackerMI::ErrZ2(AliTPCseed* seed, AliTPCclusterMI * cl){
//
//
- Float_t snoise2;
- Float_t z = TMath::Abs(fParam->GetZLength()-TMath::Abs(seed->GetZ()));
- //signal quality
- Float_t rsigmaz=1;
- Int_t ctype =0;
-
- const Float_t chmip = 50.;
- Float_t amp = chmip/0.3;
- Float_t nel;
- Float_t nprim;
- if (cl){
- amp = cl->GetQ();
- rsigmaz = cl->GetSigmaZ2()/(seed->fCurrentSigmaZ*seed->fCurrentSigmaZ);
- ctype = cl->GetType();
- }
+ //seed->SetErrorY2(0.1);
+ //return 0.1;
+ //calculate look-up table at the beginning
+ static Bool_t ginit = kFALSE;
+ static Float_t gnoise1,gnoise2,gnoise3;
+ static Float_t ggg1[10000];
+ static Float_t ggg2[10000];
+ static Float_t ggg3[10000];
+ static Float_t glandau1[10000];
+ static Float_t glandau2[10000];
+ static Float_t glandau3[10000];
+ //
+ static Float_t gcor01[1000];
+ static Float_t gcor02[1000];
+ static Float_t gcorp[1000];
+ //
//
- Float_t landau=2 ; //landau fluctuation part
- Float_t gg=2; // gg fluctuation part
- Float_t padlength= fSectors->GetPadPitchLength(seed->GetX());
+ if (ginit==kFALSE){
+ for (Int_t i=1;i<1000;i++){
+ Float_t rsigma = float(i)/100.;
+ gcor02[i] = TMath::Max(0.81 +TMath::Exp(6.8*(rsigma-1.2)),0.6);
+ gcor01[i] = TMath::Max(0.72 +TMath::Exp(2.04*(rsigma-1.2)),0.6);
+ gcorp[i] = TMath::Max(TMath::Power((rsigma+0.5),1.5),1.2);
+ }
- if (fSectors==fInnerSec){
- snoise2 = 0.0004;
- nel = 0.268*amp;
- nprim = 0.155*amp;
- gg = (2+0.0002*amp)/nel;
- landau = (2.+0.12*nprim)*0.5*(amp*amp/40000.+2)/nprim;
- if (landau>1) landau=1;
- }
- else {
- snoise2 = 0.0004;
- nel = 0.3*amp;
- nprim = 0.133*amp;
- gg = (2+0.0002*amp)/nel;
- landau = (2.+0.12*nprim)*0.5*(amp*amp/40000.+2)/nprim;
- if (landau>1) landau=1;
+ //
+ for (Int_t i=3;i<10000;i++){
+ //
+ //
+ // inner sector
+ Float_t amp = float(i);
+ Float_t padlength =0.75;
+ gnoise1 = 0.0004/padlength;
+ Float_t nel = 0.268*amp;
+ Float_t nprim = 0.155*amp;
+ ggg1[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.001*nel/(padlength*padlength))/nel;
+ glandau1[i] = (2.+0.12*nprim)*0.5* (2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau1[i]>1) glandau1[i]=1;
+ glandau1[i]*=padlength*padlength/12.;
+ //
+ // outer short
+ padlength =1.;
+ gnoise2 = 0.0004/padlength;
+ nel = 0.3*amp;
+ nprim = 0.133*amp;
+ ggg2[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.0008*nel/(padlength*padlength))/nel;
+ glandau2[i] = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau2[i]>1) glandau2[i]=1;
+ glandau2[i]*=padlength*padlength/12.;
+ //
+ //
+ // outer long
+ padlength =1.5;
+ gnoise3 = 0.0004/padlength;
+ nel = 0.3*amp;
+ nprim = 0.133*amp;
+ ggg3[i] = fParam->GetDiffT()*fParam->GetDiffT()*(2+0.0008*nel/(padlength*padlength))/nel;
+ glandau3[i] = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (glandau3[i]>1) glandau3[i]=1;
+ glandau3[i]*=padlength*padlength/12.;
+ //
+ }
+ ginit = kTRUE;
}
- Float_t sdiff = gg*fParam->GetDiffT()*fParam->GetDiffT()*z;
-
- Float_t angle = seed->GetTgl();
- Float_t angular = landau*angle*angle*padlength*padlength/12.;
- Float_t res = sdiff + angular;
-
- if ((ctype==0) && (fSectors ==fOuterSec))
- res *= 0.81 +TMath::Exp(6.8*(rsigmaz-1.2));
+ //
+ //
+ //
+ Int_t amp = int(TMath::Abs(cl->GetQ()));
+ if (amp>9999) {
+ seed->SetErrorY2(1.);
+ return 1.;
+ }
+ Float_t snoise2;
+ Float_t z = TMath::Abs(fParam->GetZLength()-TMath::Abs(seed->GetZ()));
+ Int_t ctype = cl->GetType();
+ Float_t padlength= GetPadPitchLength(seed->fRow);
+ //
+ Double_t angle2 = seed->GetSnp()*seed->GetSnp();
+ // if (angle2<0.6) angle2 = 0.6;
+ angle2 = seed->GetTgl()*seed->GetTgl()*(1+angle2/(1-angle2));
+ //
+ //cluster "quality"
+ Int_t rsigmaz = int(100.*cl->GetSigmaZ2()/(seed->fCurrentSigmaZ2));
+ Float_t res;
+ //
+ if (fSectors==fInnerSec){
+ snoise2 = gnoise1;
+ res = ggg1[amp]*z+glandau1[amp]*angle2;
+ if (ctype==0) res *= gcor01[rsigmaz];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmaz];
+ }
+ }
+ else {
+ if (padlength<1.1){
+ snoise2 = gnoise2;
+ res = ggg2[amp]*z+glandau2[amp]*angle2;
+ if (ctype==0) res *= gcor02[rsigmaz];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmaz];
+ }
+ }
+ else{
+ snoise2 = gnoise3;
+ res = ggg3[amp]*z+glandau3[amp]*angle2;
+ if (ctype==0) res *= gcor02[rsigmaz];
+ if ((ctype>0)){
+ res+=0.002;
+ res*= gcorp[rsigmaz];
+ }
+ }
+ }
- if ((ctype==0) && (fSectors ==fInnerSec))
- res *= 0.72 +TMath::Exp(2.04*(rsigmaz-1.2));
- if ((ctype>0))
- res*= TMath::Power(rsigmaz+0.5,1.5)+0.0064; //0.31+0.147*ctype;
- if (ctype<0)
+ if (ctype<0){
+ res+=0.002;
res*=1.3;
- if ((ctype<0) &&<70)
+ }
+ if ((ctype<0) &&<70){
+ res+=0.002;
res*=1.3;
-
+ }
res += snoise2;
if (res<2*snoise2)
res = 2*snoise2;
-
+ if (res>3) res =3;
seed->SetErrorZ2(res);
return res;
}
-
-
-void AliTPCseed::Reset()
-{
+/*
+Double_t AliTPCtrackerMI::ErrZ2(AliTPCseed* seed, AliTPCclusterMI * cl){
//
- //PH SetN(0);
- fNFoundable = 0;
- ResetCovariance();
- SetChi2(0);
- for (Int_t i=0;i<200;i++) fClusterIndex[i]=-1;
-}
-
+ //
+ //seed->SetErrorZ2(0.1);
+ //return 0.1;
-Int_t AliTPCseed::GetProlongation(Double_t xk, Double_t &y, Double_t & z) const
-{
- //-----------------------------------------------------------------
- // This function find proloncation of a track to a reference plane x=xk.
- // doesn't change internal state of the track
- //-----------------------------------------------------------------
-
- Double_t x1=fX, x2=x1+(xk-x1), dx=x2-x1;
- // Double_t y1=fP0, z1=fP1;
- Double_t c1=fP4*x1 - fP2, r1=sqrt(1.- c1*c1);
- Double_t c2=fP4*x2 - fP2, r2=sqrt(1.- c2*c2);
+ Float_t snoise2;
+ Float_t z = TMath::Abs(fParam->GetZLength()-TMath::Abs(seed->GetZ()));
+ //
+ Float_t rsigmaz = cl->GetSigmaZ2()/(seed->fCurrentSigmaZ2);
+ Int_t ctype = cl->GetType();
+ Float_t amp = TMath::Abs(cl->GetQ());
- y = fP0;
- z = fP1;
- y += dx*(c1+c2)/(r1+r2);
- z += dx*(c1+c2)/(c1*r2 + c2*r1)*fP3;
- return 0;
-}
+ Float_t nel;
+ Float_t nprim;
+ //
+ Float_t landau=2 ; //landau fluctuation part
+ Float_t gg=2; // gg fluctuation part
+ Float_t padlength= GetPadPitchLength(seed->GetX());
+
+ if (fSectors==fInnerSec){
+ snoise2 = 0.0004/padlength;
+ nel = 0.268*amp;
+ nprim = 0.155*amp;
+ gg = (2+0.001*nel/(padlength*padlength))/nel;
+ landau = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (landau>1) landau=1;
+ }
+ else {
+ snoise2 = 0.0004/padlength;
+ nel = 0.3*amp;
+ nprim = 0.133*amp;
+ gg = (2+0.0008*nel/(padlength*padlength))/nel;
+ landau = (2.+0.12*nprim)*0.5*(2.+nprim*nprim*0.001/(padlength*padlength))/nprim;
+ if (landau>1) landau=1;
+ }
+ Float_t sdiff = gg*fParam->GetDiffT()*fParam->GetDiffT()*z;
+ //
+ Float_t angle2 = seed->GetSnp()*seed->GetSnp();
+ angle2 = TMath::Sqrt((1-angle2));
+ if (angle2<0.6) angle2 = 0.6;
+ //angle2 = 1;
-//_____________________________________________________________________________
-Double_t AliTPCseed::GetPredictedChi2(const AliTPCclusterMI *c) const
-{
- //-----------------------------------------------------------------
- // This function calculates a predicted chi2 increment.
- //-----------------------------------------------------------------
- //Double_t r00=c->GetSigmaY2(), r01=0., r11=c->GetSigmaZ2();
- Double_t r00=fErrorY2, r01=0., r11=fErrorZ2;
- r00+=fC00; r01+=fC10; r11+=fC11;
+ Float_t angle = seed->GetTgl()/angle2;
+ Float_t angular = landau*angle*angle*padlength*padlength/12.;
+ Float_t res = sdiff + angular;
- Double_t det=r00*r11 - r01*r01;
- if (TMath::Abs(det) < 1.e-10) {
- Int_t n=GetNumberOfClusters();
- if (n>4) cerr<<n<<" AliKalmanTrack warning: Singular matrix !\n";
- return 1e10;
- }
- Double_t tmp=r00; r00=r11; r11=tmp; r01=-r01;
- Double_t dy=c->GetY() - fP0, dz=c->GetZ() - fP1;
+ if ((ctype==0) && (fSectors ==fOuterSec))
+ res *= 0.81 +TMath::Exp(6.8*(rsigmaz-1.2));
+
+ if ((ctype==0) && (fSectors ==fInnerSec))
+ res *= 0.72 +TMath::Exp(2.04*(rsigmaz-1.2));
- return (dy*r00*dy + 2*r01*dy*dz + dz*r11*dz)/det;
-}
+ if ((ctype>0)){
+ res+=0.005;
+ res*= TMath::Power(rsigmaz+0.5,1.5); //0.31+0.147*ctype;
+ }
+ if (ctype<0){
+ res+=0.002;
+ res*=1.3;
+ }
+ if ((ctype<0) &&<70){
+ res+=0.002;
+ res*=1.3;
+ }
+ res += snoise2;
+ if (res<2*snoise2)
+ res = 2*snoise2;
+ seed->SetErrorZ2(res);
+ return res;
+}
+*/
-//_________________________________________________________________________________________
-Int_t AliTPCseed::Compare(const TObject *o) const {
- //-----------------------------------------------------------------
- // This function compares tracks according to the sector - for given sector according z
- //-----------------------------------------------------------------
- AliTPCseed *t=(AliTPCseed*)o;
- if (t->fRelativeSector>fRelativeSector) return -1;
- if (t->fRelativeSector<fRelativeSector) return 1;
-
- Double_t z2 = t->GetZ();
- Double_t z1 = GetZ();
- if (z2>z1) return 1;
- if (z2<z1) return -1;
- return 0;
-}
void AliTPCtrackerMI::RotateToLocal(AliTPCseed *seed)
{
Float_t x = seed->GetX();
Float_t y = seed->GetY();
Float_t ymax = x*TMath::Tan(0.5*fSectors->GetAlpha());
+
if (y > ymax) {
seed->fRelativeSector= (seed->fRelativeSector+1) % fN;
if (!seed->Rotate(fSectors->GetAlpha()))
-
//_____________________________________________________________________________
-Int_t AliTPCseed::Update(const AliTPCclusterMI *c, Double_t chisq, UInt_t index) {
+Double_t AliTPCtrackerMI::F1old(Double_t x1,Double_t y1,
+ Double_t x2,Double_t y2,
+ Double_t x3,Double_t y3)
+{
//-----------------------------------------------------------------
- // This function associates a cluster with this track.
+ // Initial approximation of the track curvature
//-----------------------------------------------------------------
- // Double_t r00=c->GetSigmaY2(), r01=0., r11=c->GetSigmaZ2();
- //Double_t r00=sigmay2, r01=0., r11=sigmaz2;
- Double_t r00=fErrorY2, r01=0., r11=fErrorZ2;
-
- r00+=fC00; r01+=fC10; r11+=fC11;
- Double_t det=r00*r11 - r01*r01;
- Double_t tmp=r00; r00=r11/det; r11=tmp/det; r01=-r01/det;
-
- Double_t k00=fC00*r00+fC10*r01, k01=fC00*r01+fC10*r11;
- Double_t k10=fC10*r00+fC11*r01, k11=fC10*r01+fC11*r11;
- Double_t k20=fC20*r00+fC21*r01, k21=fC20*r01+fC21*r11;
- Double_t k30=fC30*r00+fC31*r01, k31=fC30*r01+fC31*r11;
- Double_t k40=fC40*r00+fC41*r01, k41=fC40*r01+fC41*r11;
-
- Double_t dy=c->GetY() - fP0, dz=c->GetZ() - fP1;
- Double_t cur=fP4 + k40*dy + k41*dz, eta=fP2 + k20*dy + k21*dz;
- if (TMath::Abs(cur*fX-eta) >= 0.9) {
- // Int_t n=GetNumberOfClusters();
- //if (n>4) cerr<<n<<" AliTPCtrack warning: Filtering failed !\n";
- return 0;
- }
-
- fP0 += k00*dy + k01*dz;
- fP1 += k10*dy + k11*dz;
- fP2 = eta;
- fP3 += k30*dy + k31*dz;
- fP4 = cur;
-
- Double_t c01=fC10, c02=fC20, c03=fC30, c04=fC40;
- Double_t c12=fC21, c13=fC31, c14=fC41;
-
- fC00-=k00*fC00+k01*fC10; fC10-=k00*c01+k01*fC11;
- fC20-=k00*c02+k01*c12; fC30-=k00*c03+k01*c13;
- fC40-=k00*c04+k01*c14;
-
- fC11-=k10*c01+k11*fC11;
- fC21-=k10*c02+k11*c12; fC31-=k10*c03+k11*c13;
- fC41-=k10*c04+k11*c14;
-
- fC22-=k20*c02+k21*c12; fC32-=k20*c03+k21*c13;
- fC42-=k20*c04+k21*c14;
-
- fC33-=k30*c03+k31*c13;
- fC43-=k40*c03+k41*c13;
-
- fC44-=k40*c04+k41*c14;
-
- Int_t n=GetNumberOfClusters();
- fIndex[n]=index;
- SetNumberOfClusters(n+1);
- SetChi2(GetChi2()+chisq);
+ Double_t d=(x2-x1)*(y3-y2)-(x3-x2)*(y2-y1);
+ Double_t a=0.5*((y3-y2)*(y2*y2-y1*y1+x2*x2-x1*x1)-
+ (y2-y1)*(y3*y3-y2*y2+x3*x3-x2*x2));
+ Double_t b=0.5*((x2-x1)*(y3*y3-y2*y2+x3*x3-x2*x2)-
+ (x3-x2)*(y2*y2-y1*y1+x2*x2-x1*x1));
- return 1;
+ Double_t xr=TMath::Abs(d/(d*x1-a)), yr=d/(d*y1-b);
+ if ( xr*xr+yr*yr<=0.00000000000001) return 100;
+ return -xr*yr/sqrt(xr*xr+yr*yr);
}
//_____________________________________________________________________________
-Double_t AliTPCtrackerMI::f1(Double_t x1,Double_t y1,
+Double_t AliTPCtrackerMI::F1(Double_t x1,Double_t y1,
Double_t x2,Double_t y2,
Double_t x3,Double_t y3)
{
//-----------------------------------------------------------------
// Initial approximation of the track curvature
//-----------------------------------------------------------------
- Double_t d=(x2-x1)*(y3-y2)-(x3-x2)*(y2-y1);
- Double_t a=0.5*((y3-y2)*(y2*y2-y1*y1+x2*x2-x1*x1)-
- (y2-y1)*(y3*y3-y2*y2+x3*x3-x2*x2));
- Double_t b=0.5*((x2-x1)*(y3*y3-y2*y2+x3*x3-x2*x2)-
- (x3-x2)*(y2*y2-y1*y1+x2*x2-x1*x1));
+ x3 -=x1;
+ x2 -=x1;
+ y3 -=y1;
+ y2 -=y1;
+ //
+ Double_t det = x3*y2-x2*y3;
+ if (det==0) {
+ return 100;
+ }
+ //
+ Double_t u = 0.5* (x2*(x2-x3)+y2*(y2-y3))/det;
+ Double_t x0 = x3*0.5-y3*u;
+ Double_t y0 = y3*0.5+x3*u;
+ Double_t c2 = 1/TMath::Sqrt(x0*x0+y0*y0);
+ if (det<0) c2*=-1;
+ return c2;
+}
- Double_t xr=TMath::Abs(d/(d*x1-a)), yr=d/(d*y1-b);
- return -xr*yr/sqrt(xr*xr+yr*yr);
+Double_t AliTPCtrackerMI::F2(Double_t x1,Double_t y1,
+ Double_t x2,Double_t y2,
+ Double_t x3,Double_t y3)
+{
+ //-----------------------------------------------------------------
+ // Initial approximation of the track curvature
+ //-----------------------------------------------------------------
+ x3 -=x1;
+ x2 -=x1;
+ y3 -=y1;
+ y2 -=y1;
+ //
+ Double_t det = x3*y2-x2*y3;
+ if (det==0) {
+ return 100;
+ }
+ //
+ Double_t u = 0.5* (x2*(x2-x3)+y2*(y2-y3))/det;
+ Double_t x0 = x3*0.5-y3*u;
+ Double_t y0 = y3*0.5+x3*u;
+ Double_t c2 = 1/TMath::Sqrt(x0*x0+y0*y0);
+ if (det<0) c2*=-1;
+ x0+=x1;
+ x0*=c2;
+ return x0;
}
+
//_____________________________________________________________________________
-Double_t AliTPCtrackerMI::f2(Double_t x1,Double_t y1,
+Double_t AliTPCtrackerMI::F2old(Double_t x1,Double_t y1,
Double_t x2,Double_t y2,
Double_t x3,Double_t y3)
{
}
//_____________________________________________________________________________
-Double_t AliTPCtrackerMI::f3(Double_t x1,Double_t y1,
+Double_t AliTPCtrackerMI::F3(Double_t x1,Double_t y1,
Double_t x2,Double_t y2,
Double_t z1,Double_t z2)
{
}
-void AliTPCtrackerMI::LoadClusters()
+Double_t AliTPCtrackerMI::F3n(Double_t x1,Double_t y1,
+ Double_t x2,Double_t y2,
+ Double_t z1,Double_t z2, Double_t c)
{
+ //-----------------------------------------------------------------
+ // Initial approximation of the tangent of the track dip angle
+ //-----------------------------------------------------------------
+
+ // Double_t angle1;
+
+ //angle1 = (z1-z2)*c/(TMath::ASin(c*x1-ni)-TMath::ASin(c*x2-ni));
//
- // load clusters to the memory
- Int_t j=Int_t(fClustersArray.GetTree()->GetEntries());
- for (Int_t i=0; i<j; i++) {
- fClustersArray.LoadEntry(i);
+ Double_t d = TMath::Sqrt((x1-x2)*(x1-x2)+(y1-y2)*(y1-y2));
+ if (TMath::Abs(d*c*0.5)>1) return 0;
+ // Double_t angle2 = TMath::ASin(d*c*0.5);
+ // Double_t angle2 = AliTPCFastMath::FastAsin(d*c*0.5);
+ Double_t angle2 = (d*c*0.5>0.1)? TMath::ASin(d*c*0.5): AliTPCFastMath::FastAsin(d*c*0.5);
+
+ angle2 = (z1-z2)*c/(angle2*2.);
+ return angle2;
+}
+
+Bool_t AliTPCtrackerMI::GetProlongation(Double_t x1, Double_t x2, Double_t x[5], Double_t &y, Double_t &z)
+{//-----------------------------------------------------------------
+ // This function find proloncation of a track to a reference plane x=x2.
+ //-----------------------------------------------------------------
+
+ Double_t dx=x2-x1;
+
+ if (TMath::Abs(x[4]*x1 - x[2]) >= 0.999) {
+ return kFALSE;
+ }
+
+ Double_t c1=x[4]*x1 - x[2], r1=sqrt(1.- c1*c1);
+ Double_t c2=x[4]*x2 - x[2], r2=sqrt(1.- c2*c2);
+ y = x[0];
+ z = x[1];
+
+ Double_t dy = dx*(c1+c2)/(r1+r2);
+ Double_t dz = 0;
+ //
+ Double_t delta = x[4]*dx*(c1+c2)/(c1*r2 + c2*r1);
+
+ if (TMath::Abs(delta)>0.01){
+ dz = x[3]*TMath::ASin(delta)/x[4];
+ }else{
+ dz = x[3]*AliTPCFastMath::FastAsin(delta)/x[4];
}
+
+ //dz = x[3]*AliTPCFastMath::FastAsin(delta)/x[4];
+
+ y+=dy;
+ z+=dz;
+
+ return kTRUE;
}
-void AliTPCtrackerMI::UnloadClusters()
+Int_t AliTPCtrackerMI::LoadClusters (TTree *tree)
+{
+ //
+ //
+ fInput = tree;
+ return LoadClusters();
+}
+
+Int_t AliTPCtrackerMI::LoadClusters()
{
//
// load clusters to the memory
- Int_t j=Int_t(fClustersArray.GetTree()->GetEntries());
+ AliTPCClustersRow *clrow= new AliTPCClustersRow;
+ clrow->SetClass("AliTPCclusterMI");
+ clrow->SetArray(0);
+ clrow->GetArray()->ExpandCreateFast(10000);
+ //
+ // TTree * tree = fClustersArray.GetTree();
+
+ TTree * tree = fInput;
+ TBranch * br = tree->GetBranch("Segment");
+ br->SetAddress(&clrow);
+ //
+ Int_t j=Int_t(tree->GetEntries());
for (Int_t i=0; i<j; i++) {
- fClustersArray.ClearSegment(i);
+ br->GetEntry(i);
+ //
+ Int_t sec,row;
+ fParam->AdjustSectorRow(clrow->GetID(),sec,row);
+ for (Int_t icl=0; icl<clrow->GetArray()->GetEntriesFast(); icl++){
+ Transform((AliCluster*)(clrow->GetArray()->At(icl)));
+ }
+ //
+ AliTPCRow * tpcrow=0;
+ Int_t left=0;
+ if (sec<fkNIS*2){
+ tpcrow = &(fInnerSec[sec%fkNIS][row]);
+ left = sec/fkNIS;
+ }
+ else{
+ tpcrow = &(fOuterSec[(sec-fkNIS*2)%fkNOS][row]);
+ left = (sec-fkNIS*2)/fkNOS;
+ }
+ if (left ==0){
+ tpcrow->fN1 = clrow->GetArray()->GetEntriesFast();
+ tpcrow->fClusters1 = new AliTPCclusterMI[tpcrow->fN1];
+ for (Int_t i=0;i<tpcrow->fN1;i++)
+ tpcrow->fClusters1[i] = *(AliTPCclusterMI*)(clrow->GetArray()->At(i));
+ }
+ if (left ==1){
+ tpcrow->fN2 = clrow->GetArray()->GetEntriesFast();
+ tpcrow->fClusters2 = new AliTPCclusterMI[tpcrow->fN2];
+ for (Int_t i=0;i<tpcrow->fN2;i++)
+ tpcrow->fClusters2[i] = *(AliTPCclusterMI*)(clrow->GetArray()->At(i));
+ }
}
+ //
+ delete clrow;
+ LoadOuterSectors();
+ LoadInnerSectors();
+ return 0;
}
+void AliTPCtrackerMI::UnloadClusters()
+{
+ //
+ // unload clusters from the memory
+ //
+ Int_t nrows = fOuterSec->GetNRows();
+ for (Int_t sec = 0;sec<fkNOS;sec++)
+ for (Int_t row = 0;row<nrows;row++){
+ AliTPCRow* tpcrow = &(fOuterSec[sec%fkNOS][row]);
+ // if (tpcrow){
+ // if (tpcrow->fClusters1) delete []tpcrow->fClusters1;
+ // if (tpcrow->fClusters2) delete []tpcrow->fClusters2;
+ //}
+ tpcrow->ResetClusters();
+ }
+ //
+ nrows = fInnerSec->GetNRows();
+ for (Int_t sec = 0;sec<fkNIS;sec++)
+ for (Int_t row = 0;row<nrows;row++){
+ AliTPCRow* tpcrow = &(fInnerSec[sec%fkNIS][row]);
+ //if (tpcrow){
+ // if (tpcrow->fClusters1) delete []tpcrow->fClusters1;
+ //if (tpcrow->fClusters2) delete []tpcrow->fClusters2;
+ //}
+ tpcrow->ResetClusters();
+ }
+
+ return ;
+}
+
+void AliTPCtrackerMI::Transform(AliCluster * cluster){
+ //
+ //
+ //
+ //if (!fParam->IsGeoRead()) fParam->ReadGeoMatrices();
+ TGeoHMatrix *mat = fParam->GetClusterMatrix(cluster->GetDetector());
+ Double_t pos[3]= {cluster->GetX(),cluster->GetY(),cluster->GetZ()};
+ Double_t posC[3];
+ mat->LocalToMaster(pos,posC);
+ cluster->SetX(posC[0]);
+ cluster->SetY(posC[1]);
+ cluster->SetZ(posC[2]);
+}
//_____________________________________________________________________________
-void AliTPCtrackerMI::LoadOuterSectors() {
+Int_t AliTPCtrackerMI::LoadOuterSectors() {
//-----------------------------------------------------------------
// This function fills outer TPC sectors with clusters.
//-----------------------------------------------------------------
- UInt_t index;
- //Int_t j=Int_t(fClustersArray.GetTree()->GetEntries());
- Int_t j = ((AliTPCParam*)fParam)->GetNRowsTotal();
- for (Int_t i=0; i<j; i++) {
- // AliSegmentID *s=fClustersArray.LoadEntry(i);
- AliSegmentID *s= const_cast<AliSegmentID*>(fClustersArray.At(i));
- if (!s) continue;
- Int_t sec,row;
- AliTPCParam *par=(AliTPCParam*)fClustersArray.GetParam();
- par->AdjustSectorRow(s->GetID(),sec,row);
- if (sec<fkNIS*2) continue;
- AliTPCClustersRow *clrow=fClustersArray.GetRow(sec,row);
- Int_t ncl=clrow->GetArray()->GetEntriesFast();
- while (ncl--) {
- AliTPCclusterMI *c=(AliTPCclusterMI*)(*clrow)[ncl];
- index=(((sec<<8)+row)<<16)+ncl;
- fOuterSec[(sec-fkNIS*2)%fkNOS][row].InsertCluster(c,index);
- }
- }
+ Int_t nrows = fOuterSec->GetNRows();
+ UInt_t index=0;
+ for (Int_t sec = 0;sec<fkNOS;sec++)
+ for (Int_t row = 0;row<nrows;row++){
+ AliTPCRow* tpcrow = &(fOuterSec[sec%fkNOS][row]);
+ Int_t sec2 = sec+2*fkNIS;
+ //left
+ Int_t ncl = tpcrow->fN1;
+ while (ncl--) {
+ AliTPCclusterMI *c= &(tpcrow->fClusters1[ncl]);
+ index=(((sec2<<8)+row)<<16)+ncl;
+ tpcrow->InsertCluster(c,index);
+ }
+ //right
+ ncl = tpcrow->fN2;
+ while (ncl--) {
+ AliTPCclusterMI *c= &(tpcrow->fClusters2[ncl]);
+ index=((((sec2+fkNOS)<<8)+row)<<16)+ncl;
+ tpcrow->InsertCluster(c,index);
+ }
+ //
+ // write indexes for fast acces
+ //
+ for (Int_t i=0;i<510;i++)
+ tpcrow->fFastCluster[i]=-1;
+ for (Int_t i=0;i<tpcrow->GetN();i++){
+ Int_t zi = Int_t((*tpcrow)[i]->GetZ()+255.);
+ tpcrow->fFastCluster[zi]=i; // write index
+ }
+ Int_t last = 0;
+ for (Int_t i=0;i<510;i++){
+ if (tpcrow->fFastCluster[i]<0)
+ tpcrow->fFastCluster[i] = last;
+ else
+ last = tpcrow->fFastCluster[i];
+ }
+ }
fN=fkNOS;
fSectors=fOuterSec;
+ return 0;
}
//_____________________________________________________________________________
-void AliTPCtrackerMI::LoadInnerSectors() {
+Int_t AliTPCtrackerMI::LoadInnerSectors() {
//-----------------------------------------------------------------
// This function fills inner TPC sectors with clusters.
//-----------------------------------------------------------------
- UInt_t index;
- //Int_t j=Int_t(fClustersArray.GetTree()->GetEntries());
- Int_t j = ((AliTPCParam*)fParam)->GetNRowsTotal();
- for (Int_t i=0; i<j; i++) {
- // AliSegmentID *s=fClustersArray.LoadEntry(i);
- AliSegmentID *s=const_cast<AliSegmentID*>(fClustersArray.At(i));
- if (!s) continue;
- Int_t sec,row;
- AliTPCParam *par=(AliTPCParam*)fClustersArray.GetParam();
- par->AdjustSectorRow(s->GetID(),sec,row);
- if (sec>=fkNIS*2) continue;
- AliTPCClustersRow *clrow=fClustersArray.GetRow(sec,row);
- Int_t ncl=clrow->GetArray()->GetEntriesFast();
- while (ncl--) {
- AliTPCclusterMI *c=(AliTPCclusterMI*)(*clrow)[ncl];
- index=(((sec<<8)+row)<<16)+ncl;
- fInnerSec[sec%fkNIS][row].InsertCluster(c,index);
- }
- }
+ Int_t nrows = fInnerSec->GetNRows();
+ UInt_t index=0;
+ for (Int_t sec = 0;sec<fkNIS;sec++)
+ for (Int_t row = 0;row<nrows;row++){
+ AliTPCRow* tpcrow = &(fInnerSec[sec%fkNIS][row]);
+ //
+ //left
+ Int_t ncl = tpcrow->fN1;
+ while (ncl--) {
+ AliTPCclusterMI *c= &(tpcrow->fClusters1[ncl]);
+ index=(((sec<<8)+row)<<16)+ncl;
+ tpcrow->InsertCluster(c,index);
+ }
+ //right
+ ncl = tpcrow->fN2;
+ while (ncl--) {
+ AliTPCclusterMI *c= &(tpcrow->fClusters2[ncl]);
+ index=((((sec+fkNIS)<<8)+row)<<16)+ncl;
+ tpcrow->InsertCluster(c,index);
+ }
+ //
+ // write indexes for fast acces
+ //
+ for (Int_t i=0;i<510;i++)
+ tpcrow->fFastCluster[i]=-1;
+ for (Int_t i=0;i<tpcrow->GetN();i++){
+ Int_t zi = Int_t((*tpcrow)[i]->GetZ()+255.);
+ tpcrow->fFastCluster[zi]=i; // write index
+ }
+ Int_t last = 0;
+ for (Int_t i=0;i<510;i++){
+ if (tpcrow->fFastCluster[i]<0)
+ tpcrow->fFastCluster[i] = last;
+ else
+ last = tpcrow->fFastCluster[i];
+ }
+ }
+
fN=fkNIS;
fSectors=fInnerSec;
+ return 0;
}
-Int_t AliTPCtrackerMI::FollowToNext(AliTPCseed& t, Int_t nr) {
- //-----------------------------------------------------------------
- // This function tries to find a track prolongation to next pad row
- //-----------------------------------------------------------------
- // Double_t xt=t.GetX();
- // Int_t row = fSectors->GetRowNumber(xt)-1;
- // if (row < nr) return 1; // don't prolongate if not information until now -
- //
- Double_t x=fSectors->GetX(nr), ymax=fSectors->GetMaxY(nr);
- // if (t.GetRadius()>x+10 ) return 0;
- if (!t.PropagateTo(x)) {
- t.fStopped = kTRUE;
- return 0;
- }
- // update current
- t.fCurrentSigmaY = GetSigmaY(&t);
- t.fCurrentSigmaZ = GetSigmaZ(&t);
- //
- AliTPCclusterMI *cl=0;
- UInt_t index=0;
- const AliTPCRow &krow=fSectors[t.fRelativeSector][nr];
- Double_t sy2=ErrY2(&t)*2;
- Double_t sz2=ErrZ2(&t)*2;
+//_________________________________________________________________________
+AliTPCclusterMI *AliTPCtrackerMI::GetClusterMI(Int_t index) const {
+ //--------------------------------------------------------------------
+ // Return pointer to a given cluster
+ //--------------------------------------------------------------------
+ Int_t sec=(index&0xff000000)>>24;
+ Int_t row=(index&0x00ff0000)>>16;
+ Int_t ncl=(index&0x00007fff)>>00;
- Double_t roady =3.*sqrt(t.GetSigmaY2() + sy2);
- Double_t roadz = 3 *sqrt(t.GetSigmaZ2() + sz2);
- Double_t y=t.GetY(), z=t.GetZ();
+ const AliTPCRow * tpcrow=0;
+ AliTPCclusterMI * clrow =0;
- if (TMath::Abs(TMath::Abs(y)-ymax)<krow.fDeadZone){
- t.fInDead = kTRUE;
- Int_t row = nr;
- if (fSectors==fOuterSec) row += fParam->GetNRowLow();
- t.fClusterIndex[row] = -1;
- return 0;
+ if (sec<0 || sec>=fkNIS*4) {
+ AliWarning(Form("Wrong sector %d",sec));
+ return 0x0;
+ }
+
+ if (sec<fkNIS*2){
+ tpcrow = &(fInnerSec[sec%fkNIS][row]);
+ if (tpcrow==0) return 0;
+
+ if (sec<fkNIS) {
+ if (tpcrow->fN1<=ncl) return 0;
+ clrow = tpcrow->fClusters1;
+ }
+ else {
+ if (tpcrow->fN2<=ncl) return 0;
+ clrow = tpcrow->fClusters2;
+ }
+ }
+ else {
+ tpcrow = &(fOuterSec[(sec-fkNIS*2)%fkNOS][row]);
+ if (tpcrow==0) return 0;
+
+ if (sec-2*fkNIS<fkNOS) {
+ if (tpcrow->fN1<=ncl) return 0;
+ clrow = tpcrow->fClusters1;
+ }
+ else {
+ if (tpcrow->fN2<=ncl) return 0;
+ clrow = tpcrow->fClusters2;
+ }
+ }
+
+ return &(clrow[ncl]);
+
+}
+
+
+
+Int_t AliTPCtrackerMI::FollowToNext(AliTPCseed& t, Int_t nr) {
+ //-----------------------------------------------------------------
+ // This function tries to find a track prolongation to next pad row
+ //-----------------------------------------------------------------
+ //
+ Double_t x= GetXrow(nr), ymax=GetMaxY(nr);
+ AliTPCclusterMI *cl=0;
+ Int_t tpcindex= t.GetClusterIndex2(nr);
+ //
+ // update current shape info every 5 pad-row
+ // if ( (nr%5==0) || t.GetNumberOfClusters()<2 || (t.fCurrentSigmaY2<0.0001) ){
+ GetShape(&t,nr);
+ //}
+ //
+ if (fIteration>0 && tpcindex>=-1){ //if we have already clusters
+ //
+ if (tpcindex==-1) return 0; //track in dead zone
+ if (tpcindex>0){ //
+ cl = t.fClusterPointer[nr];
+ if ( (cl==0) ) cl = GetClusterMI(tpcindex);
+ t.fCurrentClusterIndex1 = tpcindex;
+ }
+ if (cl){
+ Int_t relativesector = ((tpcindex&0xff000000)>>24)%18; // if previously accepted cluster in different sector
+ Float_t angle = relativesector*fSectors->GetAlpha()+fSectors->GetAlphaShift();
+ //
+ if (angle<-TMath::Pi()) angle += 2*TMath::Pi();
+ if (angle>=TMath::Pi()) angle -= 2*TMath::Pi();
+
+ if (TMath::Abs(angle-t.GetAlpha())>0.001){
+ Double_t rotation = angle-t.GetAlpha();
+ t.fRelativeSector= relativesector;
+ if (!t.Rotate(rotation)) return 0;
+ }
+ if (!t.PropagateTo(x)) return 0;
+ //
+ t.fCurrentCluster = cl;
+ t.fRow = nr;
+ Int_t accept = AcceptCluster(&t,t.fCurrentCluster,1.);
+ if ((tpcindex&0x8000)==0) accept =0;
+ if (accept<3) {
+ //if founded cluster is acceptible
+ if (cl->IsUsed(11)) { // id cluster is shared inrease uncertainty
+ t.fErrorY2 += 0.03;
+ t.fErrorZ2 += 0.03;
+ t.fErrorY2 *= 3;
+ t.fErrorZ2 *= 3;
+ }
+ t.fNFoundable++;
+ UpdateTrack(&t,accept);
+ return 1;
+ }
+ }
+ }
+ if (TMath::Abs(t.GetSnp())>AliTPCReconstructor::GetMaxSnpTracker()) return 0; // cut on angle
+ if (fIteration>1){
+ // not look for new cluster during refitting
+ t.fNFoundable++;
+ return 0;
+ }
+ //
+ UInt_t index=0;
+ // if (TMath::Abs(t.GetSnp())>0.95 || TMath::Abs(x*t.GetC()-t.GetEta())>0.95) return 0;// patch 28 fev 06
+ Double_t y=t.GetYat(x);
+ if (TMath::Abs(y)>ymax){
+ if (y > ymax) {
+ t.fRelativeSector= (t.fRelativeSector+1) % fN;
+ if (!t.Rotate(fSectors->GetAlpha()))
+ return 0;
+ } else if (y <-ymax) {
+ t.fRelativeSector= (t.fRelativeSector-1+fN) % fN;
+ if (!t.Rotate(-fSectors->GetAlpha()))
+ return 0;
+ }
+ //return 1;
+ }
+ //
+ if (!t.PropagateTo(x)) {
+ if (fIteration==0) t.fRemoval = 10;
+ return 0;
+ }
+ y=t.GetY();
+ Double_t z=t.GetZ();
+ //
+ const AliTPCRow &krow=GetRow(t.fRelativeSector,nr);
+ if ( (t.GetSigmaY2()<0) || t.GetSigmaZ2()<0) return 0;
+ Double_t roady =1.;
+ Double_t roadz = 1.;
+ //
+ if (TMath::Abs(TMath::Abs(y)-ymax)<krow.fDeadZone){
+ t.fInDead = kTRUE;
+ t.SetClusterIndex2(nr,-1);
+ return 0;
}
else
{
- if (TMath::Abs(z)<(1.05*x+10)) t.fNFoundable++;
+ if (TMath::Abs(z)<(AliTPCReconstructor::GetCtgRange()*x+10) && TMath::Abs(z)<fParam->GetZLength() && (TMath::Abs(t.GetSnp())<AliTPCReconstructor::GetMaxSnpTracker()))
+ t.fNFoundable++;
else
return 0;
}
//calculate
- Float_t maxdistance = roady*roady + roadz*roadz;
if (krow) {
- for (Int_t i=krow.Find(z-roadz); i<krow; i++) {
- AliTPCclusterMI *c=(AliTPCclusterMI*)(krow[i]);
- if (c->GetZ() > z+roadz) break;
- if ( (c->GetY()-y) > roady ) continue;
- Float_t distance = (c->GetZ()-z)*(c->GetZ()-z)+(c->GetY()-y)*(c->GetY()-y);
- if (maxdistance>distance) {
- maxdistance = distance;
- cl=c;
- // index=krow.GetIndex(i);
- index =i;
- }
- }
- }
+ // cl = krow.FindNearest2(y+10.,z,roady,roadz,index);
+ cl = krow.FindNearest2(y,z,roady,roadz,index);
+ if (cl) t.fCurrentClusterIndex1 = krow.GetIndex(index);
+ }
if (cl) {
- // Double_t sy2= ErrY2(&t,cl);
- // Double_t sz2= ErrZ2(&t,cl);
- // Double_t chi2= t.GetPredictedChi2(cl);
- // UpdateTrack(&t,cl,chi2,index);
-
t.fCurrentCluster = cl;
- t.fCurrentClusterIndex1 = krow.GetIndex(index);
- t.fCurrentClusterIndex2 = index;
- Double_t sy2=ErrY2(&t,t.fCurrentCluster);
- Double_t sz2=ErrZ2(&t,t.fCurrentCluster);
+ t.fRow = nr;
+ if (fIteration==2&&cl->IsUsed(10)) return 0;
+ Int_t accept = AcceptCluster(&t,t.fCurrentCluster,1.);
+ if (fIteration==2&&cl->IsUsed(11)) {
+ t.fErrorY2 += 0.03;
+ t.fErrorZ2 += 0.03;
+ t.fErrorY2 *= 3;
+ t.fErrorZ2 *= 3;
+ }
+ /*
+ if (t.fCurrentCluster->IsUsed(10)){
+ //
+ //
- Double_t sdistancey = TMath::Sqrt(sy2+t.GetSigmaY2());
- Double_t sdistancez = TMath::Sqrt(sz2+t.GetSigmaZ2());
+ t.fNShared++;
+ if (t.fNShared>0.7*t.GetNumberOfClusters()) {
+ t.fRemoval =10;
+ return 0;
+ }
+ }
+ */
+ if (accept<3) UpdateTrack(&t,accept);
- Double_t rdistancey = TMath::Abs(t.fCurrentCluster->GetY()-t.GetY());
- Double_t rdistancez = TMath::Abs(t.fCurrentCluster->GetZ()-t.GetZ());
+ } else {
+ if ( fIteration==0 && t.fNFoundable*0.5 > t.GetNumberOfClusters()) t.fRemoval=10;
- Double_t rdistance = TMath::Sqrt(TMath::Power(rdistancey/sdistancey,2)+TMath::Power(rdistancez/sdistancez,2));
-
-
- // printf("\t%f\t%f\t%f\n",rdistancey/sdistancey,rdistancez/sdistancez,rdistance);
- if ( (rdistancey>1) || (rdistancez>1)) return 0;
- if (rdistance>4) return 0;
-
- if ((rdistancey/sdistancey>2.5 || rdistancez/sdistancez>2.5) && t.fCurrentCluster->GetType()==0)
- return 0; //suspisiouce - will be changed
-
- if ((rdistancey/sdistancey>2. || rdistancez/sdistancez>2.0) && t.fCurrentCluster->GetType()>0)
- // strict cut on overlaped cluster
- return 0; //suspisiouce - will be changed
-
- if ( (rdistancey/sdistancey>1. || rdistancez/sdistancez>2.5 ||t.fCurrentCluster->GetQ()<70 )
- && t.fCurrentCluster->GetType()<0)
- return 0;
-
- // t.SetSampledEdx(0.3*t.fCurrentCluster->GetQ()/l,t.GetNumberOfClusters(), GetSigmaY(&t), GetSigmaZ(&t));
- UpdateTrack(&t,t.fCurrentCluster,t.GetPredictedChi2(t.fCurrentCluster),t.fCurrentClusterIndex1);
+ }
+ return 1;
+}
- } else {
+Int_t AliTPCtrackerMI::FollowToNextFast(AliTPCseed& t, Int_t nr) {
+ //-----------------------------------------------------------------
+ // This function tries to find a track prolongation to next pad row
+ //-----------------------------------------------------------------
+ //
+ Double_t x= GetXrow(nr), ymax=GetMaxY(nr);
+ Double_t y,z;
+ if (!t.GetProlongation(x,y,z)) {
+ t.fRemoval = 10;
+ return 0;
+ }
+ //
+ //
+ if (TMath::Abs(y)>ymax){
+
if (y > ymax) {
t.fRelativeSector= (t.fRelativeSector+1) % fN;
if (!t.Rotate(fSectors->GetAlpha()))
t.fRelativeSector= (t.fRelativeSector-1+fN) % fN;
if (!t.Rotate(-fSectors->GetAlpha()))
return 0;
+ }
+ if (!t.PropagateTo(x)) {
+ return 0;
+ }
+ t.GetProlongation(x,y,z);
+ }
+ //
+ // update current shape info every 3 pad-row
+ if ( (nr%6==0) || t.GetNumberOfClusters()<2 || (t.fCurrentSigmaY2<0.0001) ){
+ // t.fCurrentSigmaY = GetSigmaY(&t);
+ //t.fCurrentSigmaZ = GetSigmaZ(&t);
+ GetShape(&t,nr);
+ }
+ //
+ AliTPCclusterMI *cl=0;
+ UInt_t index=0;
+
+
+ //Int_t nr2 = nr;
+ const AliTPCRow &krow=GetRow(t.fRelativeSector,nr);
+ if ( (t.GetSigmaY2()<0) || t.GetSigmaZ2()<0) return 0;
+ Double_t roady =1.;
+ Double_t roadz = 1.;
+ //
+ Int_t row = nr;
+ if (TMath::Abs(TMath::Abs(y)-ymax)<krow.fDeadZone){
+ t.fInDead = kTRUE;
+ t.SetClusterIndex2(row,-1);
+ return 0;
+ }
+ else
+ {
+ if (TMath::Abs(z)>(AliTPCReconstructor::GetCtgRange()*x+10)) t.SetClusterIndex2(row,-1);
}
+ //calculate
+
+ if ((cl==0)&&(krow)) {
+ // cl = krow.FindNearest2(y+10,z,roady,roadz,index);
+ cl = krow.FindNearest2(y,z,roady,roadz,index);
+
+ if (cl) t.fCurrentClusterIndex1 = krow.GetIndex(index);
+ }
+
+ if (cl) {
+ t.fCurrentCluster = cl;
+ // Int_t accept = AcceptCluster(&t,t.fCurrentCluster,1.);
+ //if (accept<3){
+ t.SetClusterIndex2(row,index);
+ t.fClusterPointer[row] = cl;
+ //}
}
return 1;
}
-Int_t AliTPCtrackerMI::UpdateClusters(AliTPCseed& t,Int_t trindex, Int_t nr) {
+
+//_________________________________________________________________________
+Bool_t AliTPCtrackerMI::GetTrackPoint(Int_t index, AliTrackPoint &p ) const
+{
+ // Get track space point by index
+ // return false in case the cluster doesn't exist
+ AliTPCclusterMI *cl = GetClusterMI(index);
+ if (!cl) return kFALSE;
+ Int_t sector = (index&0xff000000)>>24;
+ // Int_t row = (index&0x00ff0000)>>16;
+ Float_t xyz[3];
+ // xyz[0] = fParam->GetPadRowRadii(sector,row);
+ xyz[0] = cl->GetX();
+ xyz[1] = cl->GetY();
+ xyz[2] = cl->GetZ();
+ Float_t sin,cos;
+ fParam->AdjustCosSin(sector,cos,sin);
+ Float_t x = cos*xyz[0]-sin*xyz[1];
+ Float_t y = cos*xyz[1]+sin*xyz[0];
+ Float_t cov[6];
+ Float_t sigmaY2 = 0.027*cl->GetSigmaY2();
+ if (sector < fParam->GetNInnerSector()) sigmaY2 *= 2.07;
+ Float_t sigmaZ2 = 0.066*cl->GetSigmaZ2();
+ if (sector < fParam->GetNInnerSector()) sigmaZ2 *= 1.77;
+ cov[0] = sin*sin*sigmaY2;
+ cov[1] = -sin*cos*sigmaY2;
+ cov[2] = 0.;
+ cov[3] = cos*cos*sigmaY2;
+ cov[4] = 0.;
+ cov[5] = sigmaZ2;
+ p.SetXYZ(x,y,xyz[2],cov);
+ AliAlignObj::ELayerID iLayer;
+ Int_t idet;
+ if (sector < fParam->GetNInnerSector()) {
+ iLayer = AliAlignObj::kTPC1;
+ idet = sector;
+ }
+ else {
+ iLayer = AliAlignObj::kTPC2;
+ idet = sector - fParam->GetNInnerSector();
+ }
+ UShort_t volid = AliAlignObj::LayerToVolUID(iLayer,idet);
+ p.SetVolumeID(volid);
+ return kTRUE;
+}
+
+
+
+Int_t AliTPCtrackerMI::UpdateClusters(AliTPCseed& t, Int_t nr) {
//-----------------------------------------------------------------
// This function tries to find a track prolongation to next pad row
//-----------------------------------------------------------------
t.fCurrentCluster = 0;
t.fCurrentClusterIndex1 = 0;
- t.fCurrentClusterIndex2 = 0;
Double_t xt=t.GetX();
- Int_t row = fSectors->GetRowNumber(xt)-1;
+ Int_t row = GetRowNumber(xt)-1;
+ Double_t ymax= GetMaxY(nr);
+
if (row < nr) return 1; // don't prolongate if not information until now -
- Double_t x=fSectors->GetX(nr);
- // if (t.fStopped) return 0;
- // if (t.GetRadius()>x+10 ) return 0;
+// if (TMath::Abs(t.GetSnp())>0.9 && t.GetNumberOfClusters()>40. && fIteration!=2) {
+// t.fRemoval =10;
+// return 0; // not prolongate strongly inclined tracks
+// }
+// if (TMath::Abs(t.GetSnp())>0.95) {
+// t.fRemoval =10;
+// return 0; // not prolongate strongly inclined tracks
+// }// patch 28 fev 06
+
+ Double_t x= GetXrow(nr);
+ Double_t y,z;
+ //t.PropagateTo(x+0.02);
+ //t.PropagateTo(x+0.01);
if (!t.PropagateTo(x)){
- t.fStopped =kTRUE;
return 0;
}
- // update current
- t.fCurrentSigmaY = GetSigmaY(&t);
- t.fCurrentSigmaZ = GetSigmaZ(&t);
-
- AliTPCclusterMI *cl=0;
- UInt_t index=0;
- AliTPCRow &krow=fSectors[t.fRelativeSector][nr];
//
- Double_t y=t.GetY(), z=t.GetZ();
- Double_t roady = 3.* TMath::Sqrt(t.GetSigmaY2() + t.fCurrentSigmaY*t.fCurrentSigmaY);
- Double_t roadz = 3.* TMath::Sqrt(t.GetSigmaZ2() + t.fCurrentSigmaZ*t.fCurrentSigmaZ);
- //
-
- Float_t maxdistance = 1000000;
- if (krow) {
- for (Int_t i=krow.Find(z-roadz); i<krow; i++) {
- AliTPCclusterMI *c=(AliTPCclusterMI*)(krow[i]);
- if (c->GetZ() > z+roadz) break;
- if (TMath::Abs(c->GetY()-y)>roady) continue;
-
- //krow.UpdateClusterTrack(i,trindex,&t);
+ y=t.GetY();
+ z=t.GetZ();
- Float_t dy2 = (c->GetY()- t.GetY());
- dy2*=dy2;
- Float_t dz2 = (c->GetZ()- t.GetZ());
- dz2*=dz2;
- //
- Float_t distance = dy2+dz2;
- //
- if (distance > maxdistance) continue;
- maxdistance = distance;
- cl=c;
- index=i;
+ if (TMath::Abs(y)>ymax){
+ if (y > ymax) {
+ t.fRelativeSector= (t.fRelativeSector+1) % fN;
+ if (!t.Rotate(fSectors->GetAlpha()))
+ return 0;
+ } else if (y <-ymax) {
+ t.fRelativeSector= (t.fRelativeSector-1+fN) % fN;
+ if (!t.Rotate(-fSectors->GetAlpha()))
+ return 0;
}
+ // if (!t.PropagateTo(x)){
+ // return 0;
+ //}
+ return 1;
+ //y = t.GetY();
}
- t.fCurrentCluster = cl;
- t.fCurrentClusterIndex1 = krow.GetIndex(index);
- t.fCurrentClusterIndex2 = index;
- return 1;
-}
-
-
-Int_t AliTPCtrackerMI::FollowToNextCluster(Int_t trindex, Int_t nr) {
- //-----------------------------------------------------------------
- // This function tries to find a track prolongation to next pad row
- //-----------------------------------------------------------------
- AliTPCseed & t = *((AliTPCseed*)(fSeeds->At(trindex)));
- AliTPCRow &krow=fSectors[t.fRelativeSector][nr];
- // Double_t pt=t.GetConvConst()/(100/0.299792458/0.2)/t.Get1Pt();
- Double_t y=t.GetY();
- Double_t ymax=fSectors->GetMaxY(nr);
+ //
+ if (TMath::Abs(t.GetSnp())>AliTPCReconstructor::GetMaxSnpTracker()) return 0;
+ AliTPCRow &krow=GetRow(t.fRelativeSector,nr);
if (TMath::Abs(TMath::Abs(y)-ymax)<krow.fDeadZone){
t.fInDead = kTRUE;
- Int_t row = nr;
- if (fSectors==fOuterSec) row += fParam->GetNRowLow();
- t.fClusterIndex[row] = -1;
+ t.SetClusterIndex2(nr,-1);
return 0;
}
else
{
- if (TMath::Abs(t.GetZ())<(1.05*t.GetX()+10)) t.fNFoundable++;
+ if (TMath::Abs(t.GetZ())<(AliTPCReconstructor::GetCtgRange()*t.GetX()+10) && (TMath::Abs(t.GetSnp())<AliTPCReconstructor::GetMaxSnpTracker())) t.fNFoundable++;
else
return 0;
}
-
- if (t.fCurrentCluster) {
- // Float_t l=fSectors->GetPadPitchLength();
- // AliTPCclusterTracks * cltrack = krow.GetClusterTracks(t.fCurrentClusterIndex1);
- Double_t sy2=ErrY2(&t,t.fCurrentCluster);
- Double_t sz2=ErrZ2(&t,t.fCurrentCluster);
+ // update current
+ if ( (nr%6==0) || t.GetNumberOfClusters()<2){
+ // t.fCurrentSigmaY = GetSigmaY(&t);
+ //t.fCurrentSigmaZ = GetSigmaZ(&t);
+ GetShape(&t,nr);
+ }
+
+ AliTPCclusterMI *cl=0;
+ Int_t index=0;
+ //
+ Double_t roady = 1.;
+ Double_t roadz = 1.;
+ //
+ if (!cl){
+ index = t.GetClusterIndex2(nr);
+ if ( (index>0) && (index&0x8000)==0){
+ cl = t.fClusterPointer[nr];
+ if ( (cl==0) && (index>0)) cl = GetClusterMI(index);
+ t.fCurrentClusterIndex1 = index;
+ if (cl) {
+ t.fCurrentCluster = cl;
+ return 1;
+ }
+ }
+ }
- Double_t sdistancey = TMath::Sqrt(sy2+t.GetSigmaY2());
- Double_t sdistancez = TMath::Sqrt(sz2+t.GetSigmaZ2());
+ // if (index<0) return 0;
+ UInt_t uindex = TMath::Abs(index);
- Double_t rdistancey = TMath::Abs(t.fCurrentCluster->GetY()-t.GetY());
- Double_t rdistancez = TMath::Abs(t.fCurrentCluster->GetZ()-t.GetZ());
-
- Double_t rdistance = TMath::Sqrt(TMath::Power(rdistancey/sdistancey,2)+TMath::Power(rdistancez/sdistancez,2));
+ if (krow) {
+ //cl = krow.FindNearest2(y+10,z,roady,roadz,uindex);
+ cl = krow.FindNearest2(y,z,roady,roadz,uindex);
+ }
+ if (cl) t.fCurrentClusterIndex1 = krow.GetIndex(uindex);
+ t.fCurrentCluster = cl;
- // printf("\t%f\t%f\t%f\n",rdistancey/sdistancey,rdistancez/sdistancez,rdistance);
- if ( (rdistancey>1) || (rdistancez>1)) return 0;
- if (rdistance>4) return 0;
+ return 1;
+}
- if ((rdistancey/sdistancey>2.5 || rdistancez/sdistancez>2.5) && t.fCurrentCluster->GetType()==0)
- return 0; //suspisiouce - will be changed
- if ((rdistancey/sdistancey>2. || rdistancez/sdistancez>2.0) && t.fCurrentCluster->GetType()>0)
- // strict cut on overlaped cluster
- return 0; //suspisiouce - will be changed
+Int_t AliTPCtrackerMI::FollowToNextCluster(AliTPCseed & t, Int_t nr) {
+ //-----------------------------------------------------------------
+ // This function tries to find a track prolongation to next pad row
+ //-----------------------------------------------------------------
- if ( (rdistancey/sdistancey>1. || rdistancez/sdistancez>2.5 ||t.fCurrentCluster->GetQ()<70 )
- && t.fCurrentCluster->GetType()<0)
- return 0;
+ //update error according neighborhoud
- // t.SetSampledEdx(0.3*t.fCurrentCluster->GetQ()/l,t.GetNumberOfClusters(), GetSigmaY(&t), GetSigmaZ(&t));
- UpdateTrack(&t,t.fCurrentCluster,t.GetPredictedChi2(t.fCurrentCluster),t.fCurrentClusterIndex1);
-
- } else {
- if (y > ymax) {
- t.fRelativeSector= (t.fRelativeSector+1) % fN;
- if (!t.Rotate(fSectors->GetAlpha()))
- return 0;
- } else if (y <-ymax) {
- t.fRelativeSector= (t.fRelativeSector-1+fN) % fN;
- if (!t.Rotate(-fSectors->GetAlpha()))
+ if (t.fCurrentCluster) {
+ t.fRow = nr;
+ Int_t accept = AcceptCluster(&t,t.fCurrentCluster,1.);
+
+ if (t.fCurrentCluster->IsUsed(10)){
+ //
+ //
+ // t.fErrorZ2*=2;
+ // t.fErrorY2*=2;
+ t.fNShared++;
+ if (t.fNShared>0.7*t.GetNumberOfClusters()) {
+ t.fRemoval =10;
return 0;
+ }
+ }
+ if (fIteration>0) accept = 0;
+ if (accept<3) UpdateTrack(&t,accept);
+
+ } else {
+ if (fIteration==0){
+ if ( ( (t.GetSigmaY2()+t.GetSigmaZ2())>0.16)&& t.GetNumberOfClusters()>18) t.fRemoval=10;
+ if ( t.GetChi2()/t.GetNumberOfClusters()>6 &&t.GetNumberOfClusters()>18) t.fRemoval=10;
+
+ if (( (t.fNFoundable*0.5 > t.GetNumberOfClusters()) || t.fNoCluster>15)) t.fRemoval=10;
}
}
return 1;
-
-/*
-Int_t AliTPCtrackerMI::FollowProlongationFast(AliTPCseed& t, Int_t step)
-{
+//_____________________________________________________________________________
+Int_t AliTPCtrackerMI::FollowProlongation(AliTPCseed& t, Int_t rf, Int_t step) {
//-----------------------------------------------------------------
- // fast prolongation mathod -
- // don't update track only after step clusters
+ // This function tries to find a track prolongation.
//-----------------------------------------------------------------
Double_t xt=t.GetX();
//
- Double_t alpha=t.GetAlpha();
- alpha =- fSectors->GetAlphaShift();
+ Double_t alpha=t.GetAlpha() - fSectors->GetAlphaShift();
if (alpha > 2.*TMath::Pi()) alpha -= 2.*TMath::Pi();
if (alpha < 0. ) alpha += 2.*TMath::Pi();
- t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha())%fN;
- Int_t row0 = fSectors->GetRowNumber(xt);
- Double_t x = fSectors->GetX(row0);
- Double_t ymax = fSectors->GetMaxY(row0);
- //
- Double_t sy2=ErrY2(&t)*2;
- Double_t sz2=ErrZ2(&t)*2;
- Double_t roady =3.*sqrt(t.GetSigmaY2() + sy2);
- Double_t roadz = 3 *sqrt(t.GetSigmaZ2() + sz2);
- Float_t maxdistance = roady*roady + roadz*roadz;
- t.fCurrentSigmaY = GetSigmaY(&t);
- t.fCurrentSigmaZ = GetSigmaZ(&t);
//
- Int_t nclusters = 0;
- Double_t y;
- Double_t z;
- Double_t yy[200]; //track prolongation
- Double_t zz[200];
- Double_t cy[200]; // founded cluster position
- Double_t cz[200];
- Double_t sy[200]; // founded cluster error
- Double_t sz[200];
- Bool_t hitted[200]; // indication of cluster presence
- //
-
- //
- for (Int_t drow = step; drow>=0; drow--) {
- Int_t row = row0-drow;
- if (row<0) break;
- Double_t x = fSectors->GetX(row);
- Double_t ymax = fSectors->GetMaxY(row);
- t.GetProlongation(x,y,z);
- yy[drow] =y;
- zz[drow] =z;
- const AliTPCRow &krow=fSectors[t.fRelativeSector][row];
- if (TMath::Abs(TMath::Abs(y)-ymax)<krow.fDeadZone){
- t.fInDead = kTRUE;
- break;
- }
- else
- {
- t.fNFoundable++;
- }
+ t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha()+0.0001)%fN;
- //find nearest cluster
- AliTPCclusterMI *cl= 0;
- if (krow) {
- for (Int_t i=krow.Find(z-roadz); i<krow; i++) {
- AliTPCclusterMI *c=(AliTPCclusterMI*)(krow[i]);
- if (c->GetZ() > z+roadz) break;
- if ( (c->GetY()-y) > roady ) continue;
- Float_t distance = (c->GetZ()-z)*(c->GetZ()-z)+(c->GetY()-y)*(c->GetY()-y);
- if (maxdistance>distance) {
- maxdistance = distance;
- cl=c;
- // index=krow.GetIndex(i);
- }
- }
- } // end of seearch
- //update cluster information
- if (cl){
- cy[drow] = cl->GetY();
- cz[drow] = cl->GetZ();
- sy[drow] = ErrY2(&t,cl);
- sz[drow] = ErrZ2(&t,cl);
- hitted[drow] = kTRUE;
- nclusters++;
+ Int_t first = GetRowNumber(xt)-1;
+ for (Int_t nr= first; nr>=rf; nr-=step) {
+ // update kink info
+ if (t.GetKinkIndexes()[0]>0){
+ for (Int_t i=0;i<3;i++){
+ Int_t index = t.GetKinkIndexes()[i];
+ if (index==0) break;
+ if (index<0) continue;
+ //
+ AliESDkink * kink = fEvent->GetKink(index-1);
+ if (!kink){
+ printf("PROBLEM\n");
+ }
+ else{
+ Int_t kinkrow = kink->GetTPCRow0()+2+Int_t(0.5/(0.05+kink->GetAngle(2)));
+ if (kinkrow==nr){
+ AliExternalTrackParam paramd(t);
+ kink->SetDaughter(paramd);
+ kink->SetStatus(2,5);
+ kink->Update();
+ }
+ }
+ }
}
+
+ if (nr==80) t.UpdateReference();
+ if (nr<fInnerSec->GetNRows())
+ fSectors = fInnerSec;
else
- hitted[drow] = kFALSE;
- }
- //if we have information - update track
- if (nclusters>0){
- Float_t sumyw0 = 0;
- Float_t sumzw0 = 0;
- Float_t sumyw = 0;
- Float_t sumzw = 0;
- Float_t sumrow = 0;
- for (Int_t i=0;i<step;i++)
- if (hitted[i]){
- sumyw0+= 1/sy[i];
- sumzw0+= 1/sz[i];
- //
- sumyw+= (cy[i]-yy[i])/sy[i];
- sumzw+= (cz[i]-zz[i])/sz[i];
- sumrow+= i;
- }
- Float_t dy = sumyw/sumyw0;
- Float_t dz = sumzw/sumzw0;
- Float_t mrow = sumrow/nclusters+row0;
- Float_t x = fSectors->GetX(mrow);
- t.PropagateTo(x);
- AliTPCclusterMI cvirtual;
- cvirtual.SetZ(dz+t.GetZ());
- cvirtual.SetY(dy+t.GetY());
- t.SetErrorY2(1.2*t.fErrorY2/TMath::Sqrt(Float_t(nclusters)));
- t.SetErrorZ2(1.2*t.fErrorZ2/TMath::Sqrt(Float_t(nclusters)));
- Float_t chi2 = t.GetPredictedChi2(&cvirtual);
- t.Update(&cvirtual,chi2,0);
- Int_t ncl = t.GetNumberOfClusters();
- ncl = ncl-1+nclusters;
- t.SetN(ncl);
- }
- return 1;
-}
-*/
+ fSectors = fOuterSec;
+ if (FollowToNext(t,nr)==0)
+ if (!t.IsActive())
+ return 0;
+
+ }
+ return 1;
+}
+
//_____________________________________________________________________________
-Int_t AliTPCtrackerMI::FollowProlongation(AliTPCseed& t, Int_t rf) {
+Int_t AliTPCtrackerMI::FollowProlongationFast(AliTPCseed& t, Int_t rf, Int_t step) {
//-----------------------------------------------------------------
// This function tries to find a track prolongation.
//-----------------------------------------------------------------
Double_t alpha=t.GetAlpha() - fSectors->GetAlphaShift();
if (alpha > 2.*TMath::Pi()) alpha -= 2.*TMath::Pi();
if (alpha < 0. ) alpha += 2.*TMath::Pi();
- t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha())%fN;
+ t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha()+0.0001)%fN;
+
+ for (Int_t nr=GetRowNumber(xt)-1; nr>=rf; nr-=step) {
+
+ if (FollowToNextFast(t,nr)==0)
+ if (!t.IsActive()) return 0;
- for (Int_t nr=fSectors->GetRowNumber(xt)-1; nr>=rf; nr--) {
-
- if (FollowToNext(t,nr)==0) {
- }
}
return 1;
}
-//_____________________________________________________________________________
+
+
+
Int_t AliTPCtrackerMI::FollowBackProlongation(AliTPCseed& t, Int_t rf) {
//-----------------------------------------------------------------
// This function tries to find a track prolongation.
//-----------------------------------------------------------------
- Double_t xt=t.GetX();
//
+ Double_t xt=t.GetX();
Double_t alpha=t.GetAlpha() - fSectors->GetAlphaShift();
if (alpha > 2.*TMath::Pi()) alpha -= 2.*TMath::Pi();
if (alpha < 0. ) alpha += 2.*TMath::Pi();
- t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha())%fN;
+ t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha()+0.0001)%fN;
- for (Int_t nr=fSectors->GetRowNumber(xt)+1; nr<=rf; nr++) {
- if (t.GetSnp()<0.8)
- FollowToNext(t,nr);
+ Int_t first = t.fFirstPoint;
+ if (first<GetRowNumber(xt)+1) first = GetRowNumber(xt)+1;
+ //
+ if (first<0) first=0;
+ for (Int_t nr=first; nr<=rf; nr++) {
+ // if ( (TMath::Abs(t.GetSnp())>0.95)) break;//patch 28 fev 06
+ if (t.GetKinkIndexes()[0]<0){
+ for (Int_t i=0;i<3;i++){
+ Int_t index = t.GetKinkIndexes()[i];
+ if (index==0) break;
+ if (index>0) continue;
+ index = TMath::Abs(index);
+ AliESDkink * kink = fEvent->GetKink(index-1);
+ if (!kink){
+ printf("PROBLEM\n");
+ }
+ else{
+ Int_t kinkrow = kink->GetTPCRow0()-2-Int_t(0.5/(0.05+kink->GetAngle(2)));
+ if (kinkrow==nr){
+ AliExternalTrackParam paramm(t);
+ kink->SetMother(paramm);
+ kink->SetStatus(2,1);
+ kink->Update();
+ }
+ }
+ }
+ }
+ //
+ if (nr<fInnerSec->GetNRows())
+ fSectors = fInnerSec;
+ else
+ fSectors = fOuterSec;
+ FollowToNext(t,nr);
}
return 1;
}
//
Float_t dz2 =(s1->GetZ() - s2->GetZ());
dz2*=dz2;
- /*
- Float_t x = s1->GetX();
- Float_t x2 = s2->GetX();
-
- Float_t ymax = x*TMath::Tan(0.5*fSectors->GetAlpha());
- */
+
Float_t dy2 =TMath::Abs((s1->GetY() - s2->GetY()));
- //if (TMath::Abs(dy2)>2*ymax-3)
- // dy2-=2*ymax;
dy2*=dy2;
Float_t distance = TMath::Sqrt(dz2+dy2);
if (distance>4.) return 0; // if there are far away - not overlap - to reduce combinatorics
- Int_t offset =0;
- if (fSectors==fOuterSec) offset = fParam->GetNRowLow();
+ // Int_t offset =0;
Int_t firstpoint = TMath::Min(s1->fFirstPoint,s2->fFirstPoint);
Int_t lastpoint = TMath::Max(s1->fLastPoint,s2->fLastPoint);
- lastpoint +=offset;
- firstpoint+=offset;
if (lastpoint>160)
lastpoint =160;
if (firstpoint<0)
firstpoint = 0;
- if (firstpoint<lastpoint-15) {
- firstpoint =0;
- lastpoint =160;
+ if (firstpoint>lastpoint) {
+ firstpoint =lastpoint;
+ // lastpoint =160;
}
- for (Int_t i=firstpoint;i<lastpoint;i++){
- if (s1->fClusterIndex[i]>0) sum1++;
- if (s2->fClusterIndex[i]>0) sum2++;
- if (s1->fClusterIndex[i]==s2->fClusterIndex[i] && s1->fClusterIndex[i]>0) {
+ for (Int_t i=firstpoint-1;i<lastpoint+1;i++){
+ if (s1->GetClusterIndex2(i)>0) sum1++;
+ if (s2->GetClusterIndex2(i)>0) sum2++;
+ if (s1->GetClusterIndex2(i)==s2->GetClusterIndex2(i) && s1->GetClusterIndex2(i)>0) {
sum++;
}
}
-
+ if (sum<5) return 0;
+
Float_t summin = TMath::Min(sum1+1,sum2+1);
Float_t ratio = (sum+1)/Float_t(summin);
return ratio;
{
//
//
- if (s1->fSector!=s2->fSector) return;
- //
+ if (TMath::Abs(s1->GetC()-s2->GetC())>0.004) return;
+ if (TMath::Abs(s1->GetTgl()-s2->GetTgl())>0.6) return;
+
Float_t dz2 =(s1->GetZ() - s2->GetZ());
dz2*=dz2;
Float_t dy2 =(s1->GetY() - s2->GetY());
-
dy2*=dy2;
- Float_t distance = TMath::Sqrt(dz2+dy2);
- if (distance>15.) return ; // if there are far away - not overlap - to reduce combinatorics
- //trpoint = new (pointarray[track->fRow]) AliTPCTrackPoint;
- // TClonesArray &pointarray1 = *(s1->fPoints);
- //TClonesArray &pointarray2 = *(s2->fPoints);
+ Float_t distance = dz2+dy2;
+ if (distance>325.) return ; // if there are far away - not overlap - to reduce combinatorics
+
//
- for (Int_t i=0;i<160;i++){
- if (s1->fClusterIndex[i]==s2->fClusterIndex[i] && s1->fClusterIndex[i]>0) {
- // AliTPCTrackPoint *p1 = (AliTPCTrackPoint *)(pointarray1.UncheckedAt(i));
- //AliTPCTrackPoint *p2 = (AliTPCTrackPoint *)(pointarray2.UncheckedAt(i));
- AliTPCTrackPoint *p1 = s1->GetTrackPoint(i);
- AliTPCTrackPoint *p2 = s2->GetTrackPoint(i);;
- p1->fIsShared = kTRUE;
- p2->fIsShared = kTRUE;
- }
- }
-}
-
-
-
-
-void AliTPCtrackerMI::RemoveOverlap(TObjArray * arr, Float_t factor, Int_t removalindex , Bool_t shared){
+ Int_t sumshared=0;
+ //
+ Int_t firstpoint = TMath::Max(s1->fFirstPoint,s2->fFirstPoint);
+ Int_t lastpoint = TMath::Min(s1->fLastPoint,s2->fLastPoint);
+ //
+ if (firstpoint>=lastpoint-5) return;;
+ for (Int_t i=firstpoint;i<lastpoint;i++){
+ // if ( (s1->GetClusterIndex2(i)&0xFFFF8FFF)==(s2->GetClusterIndex2(i)&0xFFFF8FFF) && s1->GetClusterIndex2(i)>0) {
+ if ( (s1->GetClusterIndex2(i))==(s2->GetClusterIndex2(i)) && s1->GetClusterIndex2(i)>0) {
+ sumshared++;
+ }
+ }
+ if (sumshared>4){
+ // sign clusters
+ //
+ for (Int_t i=firstpoint;i<lastpoint;i++){
+ // if ( (s1->GetClusterIndex2(i)&0xFFFF8FFF)==(s2->GetClusterIndex2(i)&0xFFFF8FFF) && s1->GetClusterIndex2(i)>0) {
+ if ( (s1->GetClusterIndex2(i))==(s2->GetClusterIndex2(i)) && s1->GetClusterIndex2(i)>0) {
+ AliTPCTrackerPoint *p1 = s1->GetTrackPoint(i);
+ AliTPCTrackerPoint *p2 = s2->GetTrackPoint(i);;
+ if (s1->IsActive()&&s2->IsActive()){
+ p1->fIsShared = kTRUE;
+ p2->fIsShared = kTRUE;
+ }
+ }
+ }
+ }
+ //
+ if (sumshared>10){
+ for (Int_t i=0;i<4;i++){
+ if (s1->fOverlapLabels[3*i]==0){
+ s1->fOverlapLabels[3*i] = s2->GetLabel();
+ s1->fOverlapLabels[3*i+1] = sumshared;
+ s1->fOverlapLabels[3*i+2] = s2->GetUniqueID();
+ break;
+ }
+ }
+ for (Int_t i=0;i<4;i++){
+ if (s2->fOverlapLabels[3*i]==0){
+ s2->fOverlapLabels[3*i] = s1->GetLabel();
+ s2->fOverlapLabels[3*i+1] = sumshared;
+ s2->fOverlapLabels[3*i+2] = s1->GetUniqueID();
+ break;
+ }
+ }
+ }
+}
+void AliTPCtrackerMI::SignShared(TObjArray * arr)
+{
//
- // remove overlap - used removal factor - removal index stored in the track
+ //sort trackss according sectors
+ //
for (Int_t i=0; i<arr->GetEntriesFast(); i++) {
AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
- if (pt) RotateToLocal(pt);
+ if (!pt) continue;
+ //if (pt) RotateToLocal(pt);
+ pt->fSort = 0;
}
+ arr->UnSort();
arr->Sort(); // sorting according z
arr->Expand(arr->GetEntries());
+ //
+ //
Int_t nseed=arr->GetEntriesFast();
- // printf("seeds \t%p \t%d\n",arr, nseed);
- // arr->Expand(arr->GetEntries()); //remove 0 pointers
- nseed = arr->GetEntriesFast();
- Int_t removed = 0;
for (Int_t i=0; i<nseed; i++) {
AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
- if (!pt) {
- continue;
+ if (!pt) continue;
+ for (Int_t j=0;j<=12;j++){
+ pt->fOverlapLabels[j] =0;
}
- if (!(pt->IsActive())) continue;
+ }
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ if (pt->fRemoval>10) continue;
for (Int_t j=i+1; j<nseed; j++){
AliTPCseed *pt2=(AliTPCseed*)arr->UncheckedAt(j);
- //
- if (!pt2) continue;
- if (!(pt2->IsActive())) continue;
- if (TMath::Abs(pt->fRelativeSector-pt2->fRelativeSector)>0) break;
- if (TMath::Abs(pt2->GetZ()-pt->GetZ())<4){
- Int_t sum1,sum2;
- Float_t ratio = OverlapFactor(pt,pt2,sum1,sum2);
- //if (sum1==0) {
- // pt->Desactivate(removalindex); // arr->RemoveAt(i);
- // break;
- //}
- if (ratio>factor){
- // if (pt->GetChi2()<pt2->GetChi2()) pt2->Desactivate(removalindex); // arr->RemoveAt(j);
- Float_t ratio2 = (pt->GetChi2()*sum2)/(pt2->GetChi2()*sum1);
- Float_t ratio3 = Float_t(sum1-sum2)/Float_t(sum1+sum2);
- removed++;
- if (TMath::Abs(ratio3)>0.025){ // if much more points
- if (sum1>sum2) pt2->Desactivate(removalindex);
- else {
- pt->Desactivate(removalindex); // arr->RemoveAt(i);
- break;
- }
- }
- else{ //decide on mean chi2
- if (ratio2<1)
- pt2->Desactivate(removalindex);
- else {
- pt->Desactivate(removalindex); // arr->RemoveAt(i);
- break;
- }
- }
-
- } // if suspicious ratio
+ // if (pt2){
+ if (pt2->fRemoval<=10) {
+ if ( TMath::Abs(pt->fRelativeSector-pt2->fRelativeSector)>0) break;
+ SignShared(pt,pt2);
}
- else
- break;
+ }
+ }
+}
+
+void AliTPCtrackerMI::RemoveDouble(TObjArray * arr, Float_t factor1, Float_t factor2, Int_t removalindex)
+{
+ //
+ //sort trackss according sectors
+ //
+ if (fDebug&1) {
+ Info("RemoveDouble","Number of tracks before double removal- %d\n",arr->GetEntries());
+ }
+ //
+ for (Int_t i=0; i<arr->GetEntriesFast(); i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ pt->fSort = 0;
+ }
+ arr->UnSort();
+ arr->Sort(); // sorting according z
+ arr->Expand(arr->GetEntries());
+ //
+ //reset overlap labels
+ //
+ Int_t nseed=arr->GetEntriesFast();
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ pt->SetUniqueID(i);
+ for (Int_t j=0;j<=12;j++){
+ pt->fOverlapLabels[j] =0;
}
}
- // printf("removed\t%d\n",removed);
- Int_t good =0;
+ //
+ //sign shared tracks
for (Int_t i=0; i<nseed; i++) {
AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
- if (!pt) break;
- if (pt->GetNumberOfClusters() < pt->fNFoundable*0.5) {
- //desactivate tracks with small number of points
- // printf("%d\t%d\t%f\n", pt->GetNumberOfClusters(), pt->fNFoundable,pt->GetNumberOfClusters()/Float_t(pt->fNFoundable));
- pt->Desactivate(10); //desactivate - small muber of points
+ if (!pt) continue;
+ if (pt->fRemoval>10) continue;
+ Float_t deltac = pt->GetC()*0.1;
+ for (Int_t j=i+1; j<nseed; j++){
+ AliTPCseed *pt2=(AliTPCseed*)arr->UncheckedAt(j);
+ // if (pt2){
+ if (pt2->fRemoval<=10) {
+ if ( TMath::Abs(pt->fRelativeSector-pt2->fRelativeSector)>0) break;
+ if (TMath::Abs(pt->GetC() -pt2->GetC())>deltac) continue;
+ if (TMath::Abs(pt->GetTgl()-pt2->GetTgl())>0.05) continue;
+ //
+ SignShared(pt,pt2);
+ }
}
- if (!(pt->IsActive())) continue;
- good++;
}
-
-
- if (shared)
- for (Int_t i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
- if (!pt) continue;
- if (!(pt->IsActive())) continue;
- for (Int_t j=i+1; j<nseed; j++){
- AliTPCseed *pt2=(AliTPCseed*)arr->UncheckedAt(j);
- if ((pt2) && pt2->IsActive()) {
- if ( TMath::Abs(pt->fSector-pt2->fSector)>1) break;
- SignShared(pt,pt2);
+ //
+ // remove highly shared tracks
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ if (pt->fRemoval>10) continue;
+ //
+ Int_t sumshared =0;
+ for (Int_t j=0;j<4;j++){
+ sumshared = pt->fOverlapLabels[j*3+1];
+ }
+ Float_t factor = factor1;
+ if (pt->fRemoval>0) factor = factor2;
+ if (sumshared/pt->GetNumberOfClusters()>factor){
+ for (Int_t j=0;j<4;j++){
+ if (pt->fOverlapLabels[3*j]==0) continue;
+ if (pt->fOverlapLabels[3*j+1]<5) continue;
+ if (pt->fRemoval==removalindex) continue;
+ AliTPCseed * pt2 = (AliTPCseed*)arr->UncheckedAt(pt->fOverlapLabels[3*j+2]);
+ if (!pt2) continue;
+ if (pt2->GetSigma2C()<pt->GetSigma2C()){
+ // pt->fRemoval = removalindex;
+ delete arr->RemoveAt(i);
+ break;
}
- }
+ }
}
- fNtracks = good;
- printf("\n*****\nNumber of good tracks after overlap removal\t%d\n",fNtracks);
+ }
+ arr->Compress();
+ if (fDebug&1) {
+ Info("RemoveDouble","Number of tracks after double removal- %d\n",arr->GetEntries());
+ }
+}
+
+
+
+
+void AliTPCtrackerMI::SortTracks(TObjArray * arr, Int_t mode) const
+{
+ //
+ //sort tracks in array according mode criteria
+ Int_t nseed = arr->GetEntriesFast();
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ pt->fSort = mode;
+ }
+ arr->UnSort();
+ arr->Sort();
}
-void AliTPCtrackerMI::RemoveUsed(TObjArray * arr, Float_t factor, Int_t removalindex)
+void AliTPCtrackerMI::RemoveUsed(TObjArray * arr, Float_t factor1, Float_t factor2, Int_t removalindex)
{
//Loop over all tracks and remove "overlaps"
//
Int_t nseed = arr->GetEntriesFast();
Int_t good =0;
+
for (Int_t i=0; i<nseed; i++) {
AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
if (!pt) {
- continue;
+ delete arr->RemoveAt(i);
}
- if (!(pt->IsActive())) continue;
- Int_t noc=pt->GetNumberOfClusters();
- Int_t shared =0;
- for (Int_t i=0; i<noc; i++) {
- Int_t index=pt->GetClusterIndex(i);
- AliTPCclusterMI *c=(AliTPCclusterMI*)GetClusterMI(index);
- if (!c) continue;
- if (c->IsUsed()) shared++;
+ else{
+ pt->fSort =1;
+ pt->fBSigned = kFALSE;
}
- if ((Float_t(shared)/Float_t(noc))>factor)
+ }
+ arr->Compress();
+ nseed = arr->GetEntriesFast();
+ arr->UnSort();
+ arr->Sort();
+ //
+ //unsign used
+ UnsignClusters();
+ //
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ Int_t found,foundable,shared;
+ if (pt->IsActive())
+ pt->GetClusterStatistic(0,160,found, foundable,shared,kFALSE);
+ else
+ pt->GetClusterStatistic(0,160,found, foundable,shared,kTRUE);
+ //
+ Double_t factor = factor2;
+ if (pt->fBConstrain) factor = factor1;
+
+ if ((Float_t(shared)/Float_t(found))>factor){
pt->Desactivate(removalindex);
- else{
- good++;
- for (Int_t i=0; i<noc; i++) {
- Int_t index=pt->GetClusterIndex(i);
- AliTPCclusterMI *c=(AliTPCclusterMI*)GetClusterMI(index);
- if (!c) continue;
- c->Use();
- }
+ continue;
+ }
+
+ good++;
+ for (Int_t i=0; i<160; i++) {
+ Int_t index=pt->GetClusterIndex2(i);
+ if (index<0 || index&0x8000 ) continue;
+ AliTPCclusterMI *c= pt->fClusterPointer[i];
+ if (!c) continue;
+ // if (!c->IsUsed(10)) c->Use(10);
+ //if (pt->IsActive())
+ c->Use(10);
+ //else
+ // c->Use(5);
}
+
}
fNtracks = good;
- printf("\n*****\nNumber of good tracks after shared removal\t%d\n",fNtracks);
-
+ if (fDebug>0){
+ Info("RemoveUsed","\n*****\nNumber of good tracks after shared removal\t%d\n",fNtracks);
+ }
}
-void AliTPCtrackerMI::MakeSeedsAll()
+void AliTPCtrackerMI::RemoveUsed2(TObjArray * arr, Float_t factor1, Float_t factor2, Int_t minimal)
{
- if (fSeeds == 0) fSeeds = new TObjArray;
- TObjArray * arr;
- for (Int_t sec=0;sec<fkNOS;sec+=3){
- arr = MakeSeedsSectors(sec,sec+3);
- Int_t nseed = arr->GetEntriesFast();
- for (Int_t i=0;i<nseed;i++)
- fSeeds->AddLast(arr->RemoveAt(i));
- }
- // fSeeds = MakeSeedsSectors(0,fkNOS);
-}
-TObjArray * AliTPCtrackerMI::MakeSeedsSectors(Int_t sec1, Int_t sec2)
-{
+ //Loop over all tracks and remove "overlaps"
//
- // loop over all sectors and make seed
- //find track seeds
- TStopwatch timer;
- Int_t nup=fOuterSec->GetNRows(), nlow=fInnerSec->GetNRows();
- Int_t nrows=nlow+nup;
- Int_t gap=Int_t(0.125*nrows), shift=Int_t(0.5*gap);
- // if (fSeeds==0) fSeeds = new TObjArray;
- TObjArray * arr = new TObjArray;
+ //
+ UnsignClusters();
+ //
+ Int_t nseed = arr->GetEntriesFast();
+ Float_t * quality = new Float_t[nseed];
+ Int_t * indexes = new Int_t[nseed];
+ Int_t good =0;
+ //
+ //
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt){
+ quality[i]=-1;
+ continue;
+ }
+ pt->UpdatePoints(); //select first last max dens points
+ Float_t * points = pt->GetPoints();
+ if (points[3]<0.8) quality[i] =-1;
+ //
+ quality[i] = (points[2]-points[0])+pt->GetNumberOfClusters();
+ }
+ TMath::Sort(nseed,quality,indexes);
+ //
+ //
+ for (Int_t itrack=0; itrack<nseed; itrack++) {
+ Int_t trackindex = indexes[itrack];
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(trackindex);
+ if (quality[trackindex]<0){
+ if (pt) {
+ delete arr->RemoveAt(trackindex);
+ }
+ else{
+ arr->RemoveAt(trackindex);
+ }
+ continue;
+ }
+ //
+ Int_t first = Int_t(pt->GetPoints()[0]);
+ Int_t last = Int_t(pt->GetPoints()[2]);
+ Double_t factor = (pt->fBConstrain) ? factor1: factor2;
+ //
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(first,last, found, foundable,shared,kFALSE);
+ Float_t sharedfactor = Float_t(shared+1)/Float_t(found+1);
+ Bool_t itsgold =kFALSE;
+ if (pt->fEsd){
+ Int_t dummy[12];
+ if (pt->fEsd->GetITSclusters(dummy)>4) itsgold= kTRUE;
+ }
+ if (!itsgold){
+ //
+ if (Float_t(shared+1)/Float_t(found+1)>factor){
+ if (pt->GetKinkIndexes()[0]!=0) continue; //don't remove tracks - part of the kinks
+ delete arr->RemoveAt(trackindex);
+ continue;
+ }
+ if (pt->GetNumberOfClusters()<50&&(found-0.5*shared)<minimal){ //remove short tracks
+ if (pt->GetKinkIndexes()[0]!=0) continue; //don't remove tracks - part of the kinks
+ delete arr->RemoveAt(trackindex);
+ continue;
+ }
+ }
- for (Int_t sec=sec1; sec<sec2;sec++){
- MakeSeeds(arr, sec, nup-1, nup-1-gap);
- MakeSeeds(arr, sec, nup-2-shift, nup-2-shift-gap);
+ good++;
+ if (sharedfactor>0.4) continue;
+ if (pt->GetKinkIndexes()[0]>0) continue;
+ for (Int_t i=first; i<last; i++) {
+ Int_t index=pt->GetClusterIndex2(i);
+ // if (index<0 || index&0x8000 ) continue;
+ if (index<0 || index&0x8000 ) continue;
+ AliTPCclusterMI *c= pt->fClusterPointer[i];
+ if (!c) continue;
+ c->Use(10);
+ }
}
- gap = Int_t(0.2* nrows);
- for (Int_t sec=sec1; sec<sec2;sec++){
- //find secondaries
- //MakeSeeds2(arr, sec, nup-1, nup-1-gap);
- MakeSeeds2(arr, sec, nup-1-shift, nup-1-shift-gap);
- //MakeSeeds2(arr, sec, nup-1-2*shift, nup-1-2*shift-gap);
- MakeSeeds2(arr, sec, nup-1-3*shift, nup-1-3*shift-gap);
- //MakeSeeds2(arr, sec, nup-1-4*shift, nup-1-4*shift-gap);
- MakeSeeds2(arr, sec, nup-1-5*shift, nup-1-5*shift-gap);
- MakeSeeds2(arr, sec, gap, 1);
+ fNtracks = good;
+ if (fDebug>0){
+ Info("RemoveUsed","\n*****\nNumber of good tracks after shared removal\t%d\n",fNtracks);
}
+ delete []quality;
+ delete []indexes;
+}
+
+void AliTPCtrackerMI::UnsignClusters()
+{
+ //
+ // loop over all clusters and unsign them
+ //
- Int_t nseed=arr->GetEntriesFast();
- Int_t i;
-
- gap=Int_t(0.3*nrows);
- // continue seeds
- for (i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i), &t=*pt;
- if (!pt) continue;
- if (FollowProlongation(t,nup-gap)) {
- pt->fIsSeeding =kFALSE;
- continue;
- }
- delete arr->RemoveAt(i);
+ for (Int_t sec=0;sec<fkNIS;sec++){
+ for (Int_t row=0;row<fInnerSec->GetNRows();row++){
+ AliTPCclusterMI *cl = fInnerSec[sec][row].fClusters1;
+ for (Int_t icl =0;icl< fInnerSec[sec][row].fN1;icl++)
+ // if (cl[icl].IsUsed(10))
+ cl[icl].Use(-1);
+ cl = fInnerSec[sec][row].fClusters2;
+ for (Int_t icl =0;icl< fInnerSec[sec][row].fN2;icl++)
+ //if (cl[icl].IsUsed(10))
+ cl[icl].Use(-1);
}
+ }
-
- //
- //remove seeds which overlaps
- RemoveOverlap(arr,0.4,1);
- //delete seeds - which were sign
- nseed=arr->GetEntriesFast();
- for (i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
- //, &t=*pt;
- if (!pt) continue;
- if ((pt->IsActive()) && pt->GetNumberOfClusters() > pt->fNFoundable*0.5 ) {
- //pt->Reset();
- //FollowBackProlongation(*pt,nup-1);
- //if ( pt->GetNumberOfClusters() < pt->fNFoundable*0.5 || pt->GetNumberOfClusters()<10 )
- //delete arr->RemoveAt(i);
- //else
- // pt->Reset();
- continue;
+ for (Int_t sec=0;sec<fkNOS;sec++){
+ for (Int_t row=0;row<fOuterSec->GetNRows();row++){
+ AliTPCclusterMI *cl = fOuterSec[sec][row].fClusters1;
+ for (Int_t icl =0;icl< fOuterSec[sec][row].fN1;icl++)
+ //if (cl[icl].IsUsed(10))
+ cl[icl].Use(-1);
+ cl = fOuterSec[sec][row].fClusters2;
+ for (Int_t icl =0;icl< fOuterSec[sec][row].fN2;icl++)
+ //if (cl[icl].IsUsed(10))
+ cl[icl].Use(-1);
}
- delete arr->RemoveAt(i);
- }
- //RemoveOverlap(arr,0.6,1);
- return arr;
+ }
+
}
-//_____________________________________________________________________________
-void AliTPCtrackerMI::MakeSeeds(TObjArray * arr, Int_t sec, Int_t i1, Int_t i2) {
- //-----------------------------------------------------------------
- // This function creates track seeds.
- //-----------------------------------------------------------------
- // if (fSeeds==0) fSeeds=new TObjArray(15000);
-
- Double_t x[5], c[15];
-
- Double_t alpha=fOuterSec->GetAlpha(), shift=fOuterSec->GetAlphaShift();
- Double_t cs=cos(alpha), sn=sin(alpha);
-
- Double_t x1 =fOuterSec->GetX(i1);
- Double_t xx2=fOuterSec->GetX(i2);
+void AliTPCtrackerMI::SignClusters(TObjArray * arr, Float_t fnumber, Float_t fdensity)
+{
//
- // for (Int_t ns=0; ns<fkNOS; ns++)
- Int_t ns =sec;
- {
- Int_t nl=fOuterSec[(ns-1+fkNOS)%fkNOS][i2];
- Int_t nm=fOuterSec[ns][i2];
- Int_t nu=fOuterSec[(ns+1)%fkNOS][i2];
- const AliTPCRow& kr1=fOuterSec[ns][i1];
- AliTPCRow& kr21 = fOuterSec[(ns-1+fkNOS)%fkNOS][i2];
- AliTPCRow& kr22 = fOuterSec[(ns)%fkNOS][i2];
- AliTPCRow& kr23 = fOuterSec[(ns+1)%fkNOS][i2];
-
- for (Int_t is=0; is < kr1; is++) {
- Double_t y1=kr1[is]->GetY(), z1=kr1[is]->GetZ();
- Double_t x3=GetX(), y3=GetY(), z3=GetZ();
-
- Float_t anglez = (z1-z3)/(x1-x3);
- Float_t extraz = z1 - anglez*(x1-xx2); // extrapolated z
-
- for (Int_t js=0; js < nl+nm+nu; js++) {
- const AliTPCclusterMI *kcl;
- Double_t x2, y2, z2;
- if (js<nl) {
- if (js==0) {
- js = kr21.Find(extraz-15.);
- if (js>=nl) continue;
- }
- kcl=kr21[js];
- z2=kcl->GetZ();
- if ((extraz-z2)>10) continue;
- if ((extraz-z2)<-10) {
- js = nl-1;
- continue;
- }
- y2=kcl->GetY();
- x2= xx2*cs+y2*sn;
- y2=-xx2*sn+y2*cs;
- } else
- if (js<nl+nm) {
- if (js==nl) {
- js = nl+kr22.Find(extraz-15.);
- if (js>=nl+nm) continue;
- }
- kcl=kr22[js-nl];
- z2=kcl->GetZ();
- if ((extraz-z2)>10) continue;
- if ((extraz-z2)<-10) {
- js = nl+nm-1;
- continue;
- }
- x2=xx2; y2=kcl->GetY();
- } else {
- //const AliTPCRow& kr2=fOuterSec[(ns+1)%fkNOS][i2];
- if (js==nl+nm) {
- js = nl+nm+kr23.Find(extraz-15.);
- if (js>=nl+nm+nu) break;
- }
- kcl=kr23[js-nl-nm];
- z2=kcl->GetZ();
- if ((extraz-z2)>10) continue;
- if ((extraz-z2)<-10) {
- break;
- }
- y2=kcl->GetY();
- x2=xx2*cs-y2*sn;
- y2=xx2*sn+y2*cs;
- }
+ //sign clusters to be "used"
+ //
+ // snumber and sdensity sign number of sigmas - bellow mean value to be accepted
+ // loop over "primaries"
+
+ Float_t sumdens=0;
+ Float_t sumdens2=0;
+ Float_t sumn =0;
+ Float_t sumn2 =0;
+ Float_t sumchi =0;
+ Float_t sumchi2 =0;
- Double_t zz=z1 - anglez*(x1-x2);
- if (TMath::Abs(zz-z2)>10.) continue;
+ Float_t sum =0;
- Double_t d=(x2-x1)*(0.-y2)-(0.-x2)*(y2-y1);
- if (d==0.) {cerr<<"MakeSeeds warning: Straight seed !\n"; continue;}
+ TStopwatch timer;
+ timer.Start();
- x[0]=y1;
- x[1]=z1;
- x[4]=f1(x1,y1,x2,y2,x3,y3);
- if (TMath::Abs(x[4]) >= 0.0066) continue;
- x[2]=f2(x1,y1,x2,y2,x3,y3);
- //if (TMath::Abs(x[4]*x1-x[2]) >= 0.99999) continue;
- x[3]=f3(x1,y1,x2,y2,z1,z2);
- if (TMath::Abs(x[3]) > 1.2) continue;
- Double_t a=asin(x[2]);
- Double_t zv=z1 - x[3]/x[4]*(a+asin(x[4]*x1-x[2]));
- if (TMath::Abs(zv-z3)>10.) continue;
-
- Double_t sy1=kr1[is]->GetSigmaY2()*2, sz1=kr1[is]->GetSigmaZ2()*4;
- Double_t sy2=kcl->GetSigmaY2()*2, sz2=kcl->GetSigmaZ2()*4;
- //Double_t sy3=400*3./12., sy=0.1, sz=0.1;
- Double_t sy3=25000*x[4]*x[4]+0.1, sy=0.1, sz=0.1;
- //Double_t sy3=25000*x[4]*x[4]*60+0.5, sy=0.1, sz=0.1;
+ Int_t nseed = arr->GetEntriesFast();
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ if (!(pt->IsActive())) continue;
+ Float_t dens = pt->GetNumberOfClusters()/Float_t(pt->fNFoundable);
+ if ( (dens>0.7) && (pt->GetNumberOfClusters()>70)){
+ sumdens += dens;
+ sumdens2+= dens*dens;
+ sumn += pt->GetNumberOfClusters();
+ sumn2 += pt->GetNumberOfClusters()*pt->GetNumberOfClusters();
+ Float_t chi2 = pt->GetChi2()/pt->GetNumberOfClusters();
+ if (chi2>5) chi2=5;
+ sumchi +=chi2;
+ sumchi2 +=chi2*chi2;
+ sum++;
+ }
+ }
- Double_t f40=(f1(x1,y1+sy,x2,y2,x3,y3)-x[4])/sy;
- Double_t f42=(f1(x1,y1,x2,y2+sy,x3,y3)-x[4])/sy;
- Double_t f43=(f1(x1,y1,x2,y2,x3,y3+sy)-x[4])/sy;
- Double_t f20=(f2(x1,y1+sy,x2,y2,x3,y3)-x[2])/sy;
- Double_t f22=(f2(x1,y1,x2,y2+sy,x3,y3)-x[2])/sy;
- Double_t f23=(f2(x1,y1,x2,y2,x3,y3+sy)-x[2])/sy;
- Double_t f30=(f3(x1,y1+sy,x2,y2,z1,z2)-x[3])/sy;
- Double_t f31=(f3(x1,y1,x2,y2,z1+sz,z2)-x[3])/sz;
- Double_t f32=(f3(x1,y1,x2,y2+sy,z1,z2)-x[3])/sy;
- Double_t f34=(f3(x1,y1,x2,y2,z1,z2+sz)-x[3])/sz;
+ Float_t mdensity = 0.9;
+ Float_t meann = 130;
+ Float_t meanchi = 1;
+ Float_t sdensity = 0.1;
+ Float_t smeann = 10;
+ Float_t smeanchi =0.4;
+
- c[0]=sy1;
- c[1]=0.; c[2]=sz1;
- c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
- c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
- c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
- c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
- c[13]=f30*sy1*f40+f32*sy2*f42;
- c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+ if (sum>20){
+ mdensity = sumdens/sum;
+ meann = sumn/sum;
+ meanchi = sumchi/sum;
+ //
+ sdensity = sumdens2/sum-mdensity*mdensity;
+ sdensity = TMath::Sqrt(sdensity);
+ //
+ smeann = sumn2/sum-meann*meann;
+ smeann = TMath::Sqrt(smeann);
+ //
+ smeanchi = sumchi2/sum - meanchi*meanchi;
+ smeanchi = TMath::Sqrt(smeanchi);
+ }
- UInt_t index=kr1.GetIndex(is);
- AliTPCseed *track=new AliTPCseed(index, x, c, x1, ns*alpha+shift);
- track->fIsSeeding = kTRUE;
- //Int_t rc=FollowProlongation(*track, i2);
- Int_t delta4 = Int_t((i2-i1)/4.);
- FollowProlongation(*track, i1-delta4);
- if (track->GetNumberOfClusters() < track->fNFoundable/2.) {
- delete track;
- continue;
- }
- FollowProlongation(*track, i1-2*delta4);
- if (track->GetNumberOfClusters() < track->fNFoundable/2.) {
- delete track;
- continue;
- }
- FollowProlongation(*track, i1-3*delta4);
- if (track->GetNumberOfClusters() < track->fNFoundable/2.) {
- delete track;
- continue;
- }
- FollowProlongation(*track, i2);
- //Int_t rc = 1;
-
- track->fLastPoint = i1; // first cluster in track position
- if (track->GetNumberOfClusters()<(i1-i2)/4 || track->GetNumberOfClusters() < track->fNFoundable/2. ) delete track;
- else arr->AddLast(track);
+ //REMOVE SHORT DELTAS or tracks going out of sensitive volume of TPC
+ //
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ if (pt->fBSigned) continue;
+ if (pt->fBConstrain) continue;
+ //if (!(pt->IsActive())) continue;
+ /*
+ Int_t found,foundable,shared;
+ pt->GetClusterStatistic(0,160,found, foundable,shared);
+ if (shared/float(found)>0.3) {
+ if (shared/float(found)>0.9 ){
+ //delete arr->RemoveAt(i);
}
+ continue;
}
+ */
+ Bool_t isok =kFALSE;
+ if ( (pt->fNShared/pt->GetNumberOfClusters()<0.5) &&pt->GetNumberOfClusters()>60)
+ isok = kTRUE;
+ if ((TMath::Abs(1/pt->GetC())<100.) && (pt->fNShared/pt->GetNumberOfClusters()<0.7))
+ isok =kTRUE;
+ if (TMath::Abs(pt->GetZ()/pt->GetX())>1.1)
+ isok =kTRUE;
+ if ( (TMath::Abs(pt->GetSnp()>0.7) && pt->GetD(0,0)>60.))
+ isok =kTRUE;
+
+ if (isok)
+ for (Int_t i=0; i<160; i++) {
+ Int_t index=pt->GetClusterIndex2(i);
+ if (index<0) continue;
+ AliTPCclusterMI *c= pt->fClusterPointer[i];
+ if (!c) continue;
+ //if (!(c->IsUsed(10))) c->Use();
+ c->Use(10);
+ }
}
-}
-
+
+
+ //
+ Double_t maxchi = meanchi+2.*smeanchi;
+
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ //if (!(pt->IsActive())) continue;
+ if (pt->fBSigned) continue;
+ Double_t chi = pt->GetChi2()/pt->GetNumberOfClusters();
+ if (chi>maxchi) continue;
+
+ Float_t bfactor=1;
+ Float_t dens = pt->GetNumberOfClusters()/Float_t(pt->fNFoundable);
+
+ //sign only tracks with enoug big density at the beginning
+
+ if ((pt->GetDensityFirst(40)<0.75) && pt->GetNumberOfClusters()<meann) continue;
+
+
+ Double_t mindens = TMath::Max(double(mdensity-sdensity*fdensity*bfactor),0.65);
+ Double_t minn = TMath::Max(Int_t(meann-fnumber*smeann*bfactor),50);
+
+ // if (pt->fBConstrain) mindens = TMath::Max(mdensity-sdensity*fdensity*bfactor,0.65);
+ if ( (pt->fRemoval==10) && (pt->GetSnp()>0.8)&&(dens>mindens))
+ minn=0;
+
+ if ((dens>mindens && pt->GetNumberOfClusters()>minn) && chi<maxchi ){
+ //Int_t noc=pt->GetNumberOfClusters();
+ pt->fBSigned = kTRUE;
+ for (Int_t i=0; i<160; i++) {
+
+ Int_t index=pt->GetClusterIndex2(i);
+ if (index<0) continue;
+ AliTPCclusterMI *c= pt->fClusterPointer[i];
+ if (!c) continue;
+ // if (!(c->IsUsed(10))) c->Use();
+ c->Use(10);
+ }
+ }
+ }
+ // gLastCheck = nseed;
+ // arr->Compress();
+ if (fDebug>0){
+ timer.Print();
+ }
+}
+
+
+void AliTPCtrackerMI::StopNotActive(TObjArray * arr, Int_t row0, Float_t th0, Float_t th1, Float_t th2) const
+{
+ // stop not active tracks
+ // take th1 as threshold for number of founded to number of foundable on last 10 active rows
+ // take th2 as threshold for number of founded to number of foundable on last 20 active rows
+ Int_t nseed = arr->GetEntriesFast();
+ //
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) {
+ continue;
+ }
+ if (!(pt->IsActive())) continue;
+ StopNotActive(pt,row0,th0, th1,th2);
+ }
+}
+
+
+
+void AliTPCtrackerMI::StopNotActive(AliTPCseed * seed, Int_t row0, Float_t th0, Float_t th1,
+ Float_t th2) const
+{
+ // stop not active tracks
+ // take th1 as threshold for number of founded to number of foundable on last 10 active rows
+ // take th2 as threshold for number of founded to number of foundable on last 20 active rows
+ Int_t sumgood1 = 0;
+ Int_t sumgood2 = 0;
+ Int_t foundable = 0;
+ Int_t maxindex = seed->fLastPoint; //last foundable row
+ if (seed->fNFoundable*th0 > seed->GetNumberOfClusters()) {
+ seed->Desactivate(10) ;
+ return;
+ }
+
+ for (Int_t i=row0; i<maxindex; i++){
+ Int_t index = seed->GetClusterIndex2(i);
+ if (index!=-1) foundable++;
+ //if (!c) continue;
+ if (foundable<=30) sumgood1++;
+ if (foundable<=50) {
+ sumgood2++;
+ }
+ else{
+ break;
+ }
+ }
+ if (foundable>=30.){
+ if (sumgood1<(th1*30.)) seed->Desactivate(10);
+ }
+ if (foundable>=50)
+ if (sumgood2<(th2*50.)) seed->Desactivate(10);
+}
+
+
+Int_t AliTPCtrackerMI::RefitInward(AliESD *event)
+{
+ //
+ // back propagation of ESD tracks
+ //
+ //return 0;
+ fEvent = event;
+ ReadSeeds(event,2);
+ fIteration=2;
+ //PrepareForProlongation(fSeeds,1);
+ PropagateForward2(fSeeds);
+
+ Int_t ntracks=0;
+ Int_t nseed = fSeeds->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed * seed = (AliTPCseed*) fSeeds->UncheckedAt(i);
+ if (!seed) continue;
+ if (seed->GetKinkIndex(0)>0) UpdateKinkQualityD(seed); // update quality informations for kinks
+
+ seed->PropagateTo(fParam->GetInnerRadiusLow());
+ seed->UpdatePoints();
+ AliESDtrack *esd=event->GetTrack(i);
+ seed->CookdEdx(0.02,0.6);
+ CookLabel(seed,0.1); //For comparison only
+ //
+ if (AliTPCReconstructor::StreamLevel()>0 && seed!=0&&esd!=0) {
+ TTreeSRedirector &cstream = *fDebugStreamer;
+ cstream<<"Crefit"<<
+ "Esd.="<<esd<<
+ "Track.="<<seed<<
+ "\n";
+ }
+ if (seed->GetNumberOfClusters()>15){
+ esd->UpdateTrackParams(seed,AliESDtrack::kTPCrefit);
+ esd->SetTPCPoints(seed->GetPoints());
+ esd->SetTPCPointsF(seed->fNFoundable);
+ Int_t ndedx = seed->fNCDEDX[0]+seed->fNCDEDX[1]+seed->fNCDEDX[2]+seed->fNCDEDX[3];
+ Float_t sdedx = (seed->fSDEDX[0]+seed->fSDEDX[1]+seed->fSDEDX[2]+seed->fSDEDX[3])*0.25;
+ Float_t dedx = seed->GetdEdx();
+ esd->SetTPCsignal(dedx, sdedx, ndedx);
+ ntracks++;
+ }
+ else{
+ //printf("problem\n");
+ }
+ }
+ //FindKinks(fSeeds,event);
+ Info("RefitInward","Number of refitted tracks %d",ntracks);
+ fEvent =0;
+ //WriteTracks();
+ return 0;
+}
+
+
+Int_t AliTPCtrackerMI::PropagateBack(AliESD *event)
+{
+ //
+ // back propagation of ESD tracks
+ //
+
+ fEvent = event;
+ fIteration = 1;
+ ReadSeeds(event,1);
+ PropagateBack(fSeeds);
+ RemoveUsed2(fSeeds,0.4,0.4,20);
+ //
+ Int_t nseed = fSeeds->GetEntriesFast();
+ Int_t ntracks=0;
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed * seed = (AliTPCseed*) fSeeds->UncheckedAt(i);
+ if (!seed) continue;
+ if (seed->GetKinkIndex(0)<0) UpdateKinkQualityM(seed); // update quality informations for kinks
+ seed->UpdatePoints();
+ AliESDtrack *esd=event->GetTrack(i);
+ seed->CookdEdx(0.02,0.6);
+ CookLabel(seed,0.1); //For comparison only
+ if (seed->GetNumberOfClusters()>15){
+ esd->UpdateTrackParams(seed,AliESDtrack::kTPCout);
+ esd->SetTPCPoints(seed->GetPoints());
+ esd->SetTPCPointsF(seed->fNFoundable);
+ Int_t ndedx = seed->fNCDEDX[0]+seed->fNCDEDX[1]+seed->fNCDEDX[2]+seed->fNCDEDX[3];
+ Float_t sdedx = (seed->fSDEDX[0]+seed->fSDEDX[1]+seed->fSDEDX[2]+seed->fSDEDX[3])*0.25;
+ Float_t dedx = seed->GetdEdx();
+ esd->SetTPCsignal(dedx, sdedx, ndedx);
+ ntracks++;
+ Int_t eventnumber = event->GetEventNumber();// patch 28 fev 06
+ (*fDebugStreamer)<<"Cback"<<
+ "Tr0.="<<seed<<
+ "EventNr="<<eventnumber<<
+ "\n"; // patch 28 fev 06
+ }
+ }
+ //FindKinks(fSeeds,event);
+ Info("PropagateBack","Number of back propagated tracks %d",ntracks);
+ fEvent =0;
+ //WriteTracks();
+ return 0;
+}
+
+
+void AliTPCtrackerMI::DeleteSeeds()
+{
+ //
+ //delete Seeds
+ Int_t nseed = fSeeds->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed * seed = (AliTPCseed*)fSeeds->At(i);
+ if (seed) delete fSeeds->RemoveAt(i);
+ }
+ delete fSeeds;
+ fSeeds =0;
+}
+
+void AliTPCtrackerMI::ReadSeeds(AliESD *event, Int_t direction)
+{
+ //
+ //read seeds from the event
+
+ Int_t nentr=event->GetNumberOfTracks();
+ if (fDebug>0){
+ Info("ReadSeeds", "Number of ESD tracks: %d\n", nentr);
+ }
+ if (fSeeds)
+ DeleteSeeds();
+ if (!fSeeds){
+ fSeeds = new TObjArray(nentr);
+ }
+ UnsignClusters();
+ // Int_t ntrk=0;
+ for (Int_t i=0; i<nentr; i++) {
+ AliESDtrack *esd=event->GetTrack(i);
+ ULong_t status=esd->GetStatus();
+ if (!(status&AliESDtrack::kTPCin)) continue;
+ AliTPCtrack t(*esd);
+ t.SetNumberOfClusters(0);
+ // AliTPCseed *seed = new AliTPCseed(t,t.GetAlpha());
+ AliTPCseed *seed = new AliTPCseed(t/*,t.GetAlpha()*/);
+ for (Int_t ikink=0;ikink<3;ikink++) {
+ Int_t index = esd->GetKinkIndex(ikink);
+ seed->GetKinkIndexes()[ikink] = index;
+ if (index==0) continue;
+ index = TMath::Abs(index);
+ AliESDkink * kink = fEvent->GetKink(index-1);
+ if (kink&&esd->GetKinkIndex(ikink)<0){
+ if ((status & AliESDtrack::kTRDrefit) != 0) kink->SetStatus(1,2);
+ if ((status & AliESDtrack::kITSout) != 0) kink->SetStatus(1,0);
+ }
+ if (kink&&esd->GetKinkIndex(ikink)>0){
+ if ((status & AliESDtrack::kTRDrefit) != 0) kink->SetStatus(1,6);
+ if ((status & AliESDtrack::kITSout) != 0) kink->SetStatus(1,4);
+ }
+
+ }
+ if (((status&AliESDtrack::kITSout)==0)&&(direction==1)) seed->ResetCovariance();
+ if ( direction ==2 &&(status & AliESDtrack::kTRDrefit) == 0 ) seed->ResetCovariance();
+ if ( direction ==2 && ((status & AliESDtrack::kTPCout) == 0) ) {
+ fSeeds->AddAt(0,i);
+ delete seed;
+ continue;
+ }
+ if ( direction ==2 &&(status & AliESDtrack::kTRDrefit) > 0 ) {
+ Double_t par0[5],par1[5],alpha,x;
+ esd->GetInnerExternalParameters(alpha,x,par0);
+ esd->GetExternalParameters(x,par1);
+ Double_t delta1 = TMath::Abs(par0[4]-par1[4])/(0.000000001+TMath::Abs(par0[4]+par1[4]));
+ Double_t delta2 = TMath::Abs(par0[3]-par1[3]);
+ Double_t trdchi2=0;
+ if (esd->GetTRDncls()>0) trdchi2 = esd->GetTRDchi2()/esd->GetTRDncls();
+ //reset covariance if suspicious
+ if ( (delta1>0.1) || (delta2>0.006) ||trdchi2>7.)
+ seed->ResetCovariance();
+ }
+
+ //
+ //
+ // rotate to the local coordinate system
+ //
+ fSectors=fInnerSec; fN=fkNIS;
+ Double_t alpha=seed->GetAlpha() - fSectors->GetAlphaShift();
+ if (alpha > 2.*TMath::Pi()) alpha -= 2.*TMath::Pi();
+ if (alpha < 0. ) alpha += 2.*TMath::Pi();
+ Int_t ns=Int_t(alpha/fSectors->GetAlpha())%fN;
+ alpha =ns*fSectors->GetAlpha() + fSectors->GetAlphaShift();
+ if (alpha<-TMath::Pi()) alpha += 2*TMath::Pi();
+ if (alpha>=TMath::Pi()) alpha -= 2*TMath::Pi();
+ alpha-=seed->GetAlpha();
+ if (!seed->Rotate(alpha)) {
+ delete seed;
+ continue;
+ }
+ seed->fEsd = esd;
+ // sign clusters
+ if (esd->GetKinkIndex(0)<=0){
+ for (Int_t irow=0;irow<160;irow++){
+ Int_t index = seed->GetClusterIndex2(irow);
+ if (index>0){
+ //
+ AliTPCclusterMI * cl = GetClusterMI(index);
+ seed->fClusterPointer[irow] = cl;
+ if (cl){
+ if ((index & 0x8000)==0){
+ cl->Use(10); // accepted cluster
+ }else{
+ cl->Use(6); // close cluster not accepted
+ }
+ }else{
+ Info("ReadSeeds","Not found cluster");
+ }
+ }
+ }
+ }
+ fSeeds->AddAt(seed,i);
+ }
+}
+
+
//_____________________________________________________________________________
-void AliTPCtrackerMI::MakeSeeds2(TObjArray * arr, Int_t sec, Int_t i1, Int_t i2) {
+void AliTPCtrackerMI::MakeSeeds3(TObjArray * arr, Int_t sec, Int_t i1, Int_t i2, Float_t cuts[4],
+ Float_t deltay, Int_t ddsec) {
//-----------------------------------------------------------------
- // This function creates track seeds - without vertex constraint
+ // This function creates track seeds.
+ // SEEDING WITH VERTEX CONSTRAIN
//-----------------------------------------------------------------
+ // cuts[0] - fP4 cut
+ // cuts[1] - tan(phi) cut
+ // cuts[2] - zvertex cut
+ // cuts[3] - fP3 cut
+ Int_t nin0 = 0;
+ Int_t nin1 = 0;
+ Int_t nin2 = 0;
+ Int_t nin = 0;
+ Int_t nout1 = 0;
+ Int_t nout2 = 0;
+
+ Double_t x[5], c[15];
+ // Int_t di = i1-i2;
+ //
+ AliTPCseed * seed = new AliTPCseed;
+ Double_t alpha=fSectors->GetAlpha(), shift=fSectors->GetAlphaShift();
+ Double_t cs=cos(alpha), sn=sin(alpha);
+ //
+ // Double_t x1 =fOuterSec->GetX(i1);
+ //Double_t xx2=fOuterSec->GetX(i2);
+
+ Double_t x1 =GetXrow(i1);
+ Double_t xx2=GetXrow(i2);
+
+ Double_t x3=GetX(), y3=GetY(), z3=GetZ();
+
+ Int_t imiddle = (i2+i1)/2; //middle pad row index
+ Double_t xm = GetXrow(imiddle); // radius of middle pad-row
+ const AliTPCRow& krm=GetRow(sec,imiddle); //middle pad -row
+ //
+ Int_t ns =sec;
+
+ const AliTPCRow& kr1=GetRow(ns,i1);
+ Double_t ymax = GetMaxY(i1)-kr1.fDeadZone-1.5;
+ Double_t ymaxm = GetMaxY(imiddle)-kr1.fDeadZone-1.5;
+
+ //
+ // change cut on curvature if it can't reach this layer
+ // maximal curvature set to reach it
+ Double_t dvertexmax = TMath::Sqrt((x1-x3)*(x1-x3)+(ymax+5-y3)*(ymax+5-y3));
+ if (dvertexmax*0.5*cuts[0]>0.85){
+ cuts[0] = 0.85/(dvertexmax*0.5+1.);
+ }
+ Double_t r2min = 1/(cuts[0]*cuts[0]); //minimal square of radius given by cut
+
+ // Int_t ddsec = 1;
+ if (deltay>0) ddsec = 0;
+ // loop over clusters
+ for (Int_t is=0; is < kr1; is++) {
+ //
+ if (kr1[is]->IsUsed(10)) continue;
+ Double_t y1=kr1[is]->GetY(), z1=kr1[is]->GetZ();
+ //if (TMath::Abs(y1)>ymax) continue;
+
+ if (deltay>0 && TMath::Abs(ymax-TMath::Abs(y1))> deltay ) continue; // seed only at the edge
+
+ // find possible directions
+ Float_t anglez = (z1-z3)/(x1-x3);
+ Float_t extraz = z1 - anglez*(x1-xx2); // extrapolated z
+ //
+ //
+ //find rotation angles relative to line given by vertex and point 1
+ Double_t dvertex2 = (x1-x3)*(x1-x3)+(y1-y3)*(y1-y3);
+ Double_t dvertex = TMath::Sqrt(dvertex2);
+ Double_t angle13 = TMath::ATan((y1-y3)/(x1-x3));
+ Double_t cs13 = cos(-angle13), sn13 = sin(-angle13);
+
+ //
+ // loop over 2 sectors
+ Int_t dsec1=-ddsec;
+ Int_t dsec2= ddsec;
+ if (y1<0) dsec2= 0;
+ if (y1>0) dsec1= 0;
+
+ Double_t dddz1=0; // direction of delta inclination in z axis
+ Double_t dddz2=0;
+ if ( (z1-z3)>0)
+ dddz1 =1;
+ else
+ dddz2 =1;
+ //
+ for (Int_t dsec = dsec1; dsec<=dsec2;dsec++){
+ Int_t sec2 = sec + dsec;
+ //
+ // AliTPCRow& kr2 = fOuterSec[(sec2+fkNOS)%fkNOS][i2];
+ //AliTPCRow& kr2m = fOuterSec[(sec2+fkNOS)%fkNOS][imiddle];
+ AliTPCRow& kr2 = GetRow((sec2+fkNOS)%fkNOS,i2);
+ AliTPCRow& kr2m = GetRow((sec2+fkNOS)%fkNOS,imiddle);
+ Int_t index1 = TMath::Max(kr2.Find(extraz-0.6-dddz1*TMath::Abs(z1)*0.05)-1,0);
+ Int_t index2 = TMath::Min(kr2.Find(extraz+0.6+dddz2*TMath::Abs(z1)*0.05)+1,kr2);
+
+ // rotation angles to p1-p3
+ Double_t cs13r = cos(-angle13+dsec*alpha)/dvertex, sn13r = sin(-angle13+dsec*alpha)/dvertex;
+ Double_t x2, y2, z2;
+ //
+ // Double_t dymax = maxangle*TMath::Abs(x1-xx2);
+
+ //
+ Double_t dxx0 = (xx2-x3)*cs13r;
+ Double_t dyy0 = (xx2-x3)*sn13r;
+ for (Int_t js=index1; js < index2; js++) {
+ const AliTPCclusterMI *kcl = kr2[js];
+ if (kcl->IsUsed(10)) continue;
+ //
+ //calcutate parameters
+ //
+ Double_t yy0 = dyy0 +(kcl->GetY()-y3)*cs13r;
+ // stright track
+ if (TMath::Abs(yy0)<0.000001) continue;
+ Double_t xx0 = dxx0 -(kcl->GetY()-y3)*sn13r;
+ Double_t y0 = 0.5*(xx0*xx0+yy0*yy0-xx0)/yy0;
+ Double_t r02 = (0.25+y0*y0)*dvertex2;
+ //curvature (radius) cut
+ if (r02<r2min) continue;
+
+ nin0++;
+ //
+ Double_t c0 = 1/TMath::Sqrt(r02);
+ if (yy0>0) c0*=-1.;
+
+
+ //Double_t dfi0 = 2.*TMath::ASin(dvertex*c0*0.5);
+ //Double_t dfi1 = 2.*TMath::ASin(TMath::Sqrt(yy0*yy0+(1-xx0)*(1-xx0))*dvertex*c0*0.5);
+ Double_t dfi0 = 2.*AliTPCFastMath::FastAsin(dvertex*c0*0.5);
+ Double_t dfi1 = 2.*AliTPCFastMath::FastAsin(TMath::Sqrt(yy0*yy0+(1-xx0)*(1-xx0))*dvertex*c0*0.5);
+ //
+ //
+ Double_t z0 = kcl->GetZ();
+ Double_t zzzz2 = z1-(z1-z3)*dfi1/dfi0;
+ if (TMath::Abs(zzzz2-z0)>0.5) continue;
+ nin1++;
+ //
+ Double_t dip = (z1-z0)*c0/dfi1;
+ Double_t x0 = (0.5*cs13+y0*sn13)*dvertex*c0;
+ //
+ y2 = kcl->GetY();
+ if (dsec==0){
+ x2 = xx2;
+ z2 = kcl->GetZ();
+ }
+ else
+ {
+ // rotation
+ z2 = kcl->GetZ();
+ x2= xx2*cs-y2*sn*dsec;
+ y2=+xx2*sn*dsec+y2*cs;
+ }
+
+ x[0] = y1;
+ x[1] = z1;
+ x[2] = x0;
+ x[3] = dip;
+ x[4] = c0;
+ //
+ //
+ // do we have cluster at the middle ?
+ Double_t ym,zm;
+ GetProlongation(x1,xm,x,ym,zm);
+ UInt_t dummy;
+ AliTPCclusterMI * cm=0;
+ if (TMath::Abs(ym)-ymaxm<0){
+ cm = krm.FindNearest2(ym,zm,1.0,0.6,dummy);
+ if ((!cm) || (cm->IsUsed(10))) {
+ continue;
+ }
+ }
+ else{
+ // rotate y1 to system 0
+ // get state vector in rotated system
+ Double_t yr1 = (-0.5*sn13+y0*cs13)*dvertex*c0;
+ Double_t xr2 = x0*cs+yr1*sn*dsec;
+ Double_t xr[5]={kcl->GetY(),kcl->GetZ(), xr2, dip, c0};
+ //
+ GetProlongation(xx2,xm,xr,ym,zm);
+ if (TMath::Abs(ym)-ymaxm<0){
+ cm = kr2m.FindNearest2(ym,zm,1.0,0.6,dummy);
+ if ((!cm) || (cm->IsUsed(10))) {
+ continue;
+ }
+ }
+ }
+
+
+ Double_t dym = 0;
+ Double_t dzm = 0;
+ if (cm){
+ dym = ym - cm->GetY();
+ dzm = zm - cm->GetZ();
+ }
+ nin2++;
+
+
+ //
+ //
+ Double_t sy1=kr1[is]->GetSigmaY2()*2., sz1=kr1[is]->GetSigmaZ2()*2.;
+ Double_t sy2=kcl->GetSigmaY2()*2., sz2=kcl->GetSigmaZ2()*2.;
+ //Double_t sy3=400*3./12., sy=0.1, sz=0.1;
+ Double_t sy3=25000*x[4]*x[4]+0.1, sy=0.1, sz=0.1;
+ //Double_t sy3=25000*x[4]*x[4]*60+0.5, sy=0.1, sz=0.1;
+
+ Double_t f40=(F1(x1,y1+sy,x2,y2,x3,y3)-x[4])/sy;
+ Double_t f42=(F1(x1,y1,x2,y2+sy,x3,y3)-x[4])/sy;
+ Double_t f43=(F1(x1,y1,x2,y2,x3,y3+sy)-x[4])/sy;
+ Double_t f20=(F2(x1,y1+sy,x2,y2,x3,y3)-x[2])/sy;
+ Double_t f22=(F2(x1,y1,x2,y2+sy,x3,y3)-x[2])/sy;
+ Double_t f23=(F2(x1,y1,x2,y2,x3,y3+sy)-x[2])/sy;
+
+ Double_t f30=(F3(x1,y1+sy,x2,y2,z1,z2)-x[3])/sy;
+ Double_t f31=(F3(x1,y1,x2,y2,z1+sz,z2)-x[3])/sz;
+ Double_t f32=(F3(x1,y1,x2,y2+sy,z1,z2)-x[3])/sy;
+ Double_t f34=(F3(x1,y1,x2,y2,z1,z2+sz)-x[3])/sz;
+
+ c[0]=sy1;
+ c[1]=0.; c[2]=sz1;
+ c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
+ c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
+ c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
+ c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
+ c[13]=f30*sy1*f40+f32*sy2*f42;
+ c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+
+ // if (!BuildSeed(kr1[is],kcl,0,x1,x2,x3,x,c)) continue;
+
+ UInt_t index=kr1.GetIndex(is);
+ AliTPCseed *track=new(seed) AliTPCseed(index, x, c, x1, ns*alpha+shift);
+
+ track->fIsSeeding = kTRUE;
+ track->fSeed1 = i1;
+ track->fSeed2 = i2;
+ track->fSeedType=3;
+
+
+ //if (dsec==0) {
+ FollowProlongation(*track, (i1+i2)/2,1);
+ Int_t foundable,found,shared;
+ track->GetClusterStatistic((i1+i2)/2,i1, found, foundable, shared, kTRUE);
+ if ((found<0.55*foundable) || shared>0.5*found || (track->GetSigmaY2()+track->GetSigmaZ2())>0.5){
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+ }
+ //}
+
+ nin++;
+ FollowProlongation(*track, i2,1);
+
+
+ //Int_t rc = 1;
+ track->fBConstrain =1;
+ // track->fLastPoint = i1+fInnerSec->GetNRows(); // first cluster in track position
+ track->fLastPoint = i1; // first cluster in track position
+ track->fFirstPoint = track->fLastPoint;
+
+ if (track->GetNumberOfClusters()<(i1-i2)*0.5 ||
+ track->GetNumberOfClusters() < track->fNFoundable*0.6 ||
+ track->fNShared>0.4*track->GetNumberOfClusters() ) {
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+ }
+ nout1++;
+ // Z VERTEX CONDITION
+ Double_t zv;
+ zv = track->GetZ()+track->GetTgl()/track->GetC()*
+ ( asin(-track->GetEta()) - asin(track->GetX()*track->GetC()-track->GetEta()));
+ if (TMath::Abs(zv-z3)>cuts[2]) {
+ FollowProlongation(*track, TMath::Max(i2-20,0));
+ zv = track->GetZ()+track->GetTgl()/track->GetC()*
+ ( asin(-track->GetEta()) - asin(track->GetX()*track->GetC()-track->GetEta()));
+ if (TMath::Abs(zv-z3)>cuts[2]){
+ FollowProlongation(*track, TMath::Max(i2-40,0));
+ zv = track->GetZ()+track->GetTgl()/track->GetC()*
+ ( asin(-track->GetEta()) - asin(track->GetX()*track->GetC()-track->GetEta()));
+ if (TMath::Abs(zv-z3)>cuts[2] &&(track->GetNumberOfClusters() > track->fNFoundable*0.7)){
+ // make seed without constrain
+ AliTPCseed * track2 = MakeSeed(track,0.2,0.5,1.);
+ FollowProlongation(*track2, i2,1);
+ track2->fBConstrain = kFALSE;
+ track2->fSeedType = 1;
+ arr->AddLast(track2);
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+ }
+ else{
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+
+ }
+ }
+ }
+
+ track->fSeedType =0;
+ arr->AddLast(track);
+ seed = new AliTPCseed;
+ nout2++;
+ // don't consider other combinations
+ if (track->GetNumberOfClusters() > track->fNFoundable*0.8)
+ break;
+ }
+ }
+ }
+ if (fDebug>3){
+ Info("MakeSeeds3","\nSeeding statistic:\t%d\t%d\t%d\t%d\t%d\t%d",nin0,nin1,nin2,nin,nout1,nout2);
+ }
+ delete seed;
+}
+
+
+void AliTPCtrackerMI::MakeSeeds5(TObjArray * arr, Int_t sec, Int_t i1, Int_t i2, Float_t cuts[4],
+ Float_t deltay) {
+
+
+ //-----------------------------------------------------------------
+ // This function creates track seeds.
+ //-----------------------------------------------------------------
+ // cuts[0] - fP4 cut
+ // cuts[1] - tan(phi) cut
+ // cuts[2] - zvertex cut
+ // cuts[3] - fP3 cut
+
+
+ Int_t nin0 = 0;
+ Int_t nin1 = 0;
+ Int_t nin2 = 0;
+ Int_t nin = 0;
+ Int_t nout1 = 0;
+ Int_t nout2 = 0;
+ Int_t nout3 =0;
+ Double_t x[5], c[15];
+ //
+ // make temporary seed
+ AliTPCseed * seed = new AliTPCseed;
Double_t alpha=fOuterSec->GetAlpha(), shift=fOuterSec->GetAlphaShift();
// Double_t cs=cos(alpha), sn=sin(alpha);
- Int_t row0 = (i1+i2)/2;
- Int_t drow = (i1-i2)/2;
- const AliTPCRow& kr0=fSectors[sec][row0];
- const AliTPCRow& krm=fSectors[sec][row0-1];
- const AliTPCRow& krp=fSectors[sec][row0+1];
- AliTPCRow * kr=0;
+ //
+ //
- AliTPCpolyTrack polytrack;
- Int_t nclusters=fSectors[sec][row0];
+ // first 3 padrows
+ Double_t x1 = GetXrow(i1-1);
+ const AliTPCRow& kr1=GetRow(sec,i1-1);
+ Double_t y1max = GetMaxY(i1-1)-kr1.fDeadZone-1.5;
+ //
+ Double_t x1p = GetXrow(i1);
+ const AliTPCRow& kr1p=GetRow(sec,i1);
+ //
+ Double_t x1m = GetXrow(i1-2);
+ const AliTPCRow& kr1m=GetRow(sec,i1-2);
- for (Int_t is=0; is < nclusters; is++) {
- const AliTPCclusterMI * cl= kr0[is];
- Double_t x = kr0.GetX();
-
- // Initialization of the polytrack
- polytrack.Reset();
-
- Double_t y0= cl->GetY();
- Double_t z0= cl->GetZ();
- polytrack.AddPoint(x,y0,z0);
- Float_t roady = 5*TMath::Sqrt(cl->GetSigmaY2()+0.2);
- Float_t roadz = 5*TMath::Sqrt(cl->GetSigmaZ2()+0.2);
- //
- x = krm.GetX();
- cl = krm.FindNearest(y0,z0,roady,roadz);
- if (cl) polytrack.AddPoint(x,cl->GetY(),cl->GetZ(),roady,roadz);
- //
- x = krp.GetX();
- cl = krp.FindNearest(y0,z0,roady,roadz);
- if (cl) polytrack.AddPoint(x,cl->GetY(),cl->GetZ(),cl->GetSigmaY2()+0.05,cl->GetSigmaZ2()+0.05);
- //
- polytrack.UpdateParameters();
- // follow polytrack
- roadz = 0.6;
- roady = 0.6;
- //
- Double_t yn,zn;
- Int_t nfoundable = polytrack.GetN();
- Int_t nfound = nfoundable;
- for (Int_t ddrow = 2; ddrow<drow;ddrow++){
- for (Int_t delta = -1;delta<=1;delta+=2){
- Int_t row = row0+ddrow*delta;
- kr = &(fSectors[sec][row]);
- Double_t xn = kr->GetX();
- Double_t ymax = fSectors->GetMaxY(row)-kr->fDeadZone;
- polytrack.GetFitPoint(xn,yn,zn);
- if (TMath::Abs(yn)>ymax) continue;
- nfoundable++;
- AliTPCclusterMI * cln = kr->FindNearest(yn,zn,roady,roadz);
- if (cln) {
- polytrack.AddPoint(xn,cln->GetY(),cln->GetZ(),cln->GetSigmaY2()+0.05,cln->GetSigmaZ2()+0.05);
- nfound++;
- }
+ //
+ //last 3 padrow for seeding
+ AliTPCRow& kr3 = GetRow((sec+fkNOS)%fkNOS,i1-7);
+ Double_t x3 = GetXrow(i1-7);
+ // Double_t y3max= GetMaxY(i1-7)-kr3.fDeadZone-1.5;
+ //
+ AliTPCRow& kr3p = GetRow((sec+fkNOS)%fkNOS,i1-6);
+ Double_t x3p = GetXrow(i1-6);
+ //
+ AliTPCRow& kr3m = GetRow((sec+fkNOS)%fkNOS,i1-8);
+ Double_t x3m = GetXrow(i1-8);
+
+ //
+ //
+ // middle padrow
+ Int_t im = i1-4; //middle pad row index
+ Double_t xm = GetXrow(im); // radius of middle pad-row
+ const AliTPCRow& krm=GetRow(sec,im); //middle pad -row
+ // Double_t ymmax = GetMaxY(im)-kr1.fDeadZone-1.5;
+ //
+ //
+ Double_t deltax = x1-x3;
+ Double_t dymax = deltax*cuts[1];
+ Double_t dzmax = deltax*cuts[3];
+ //
+ // loop over clusters
+ for (Int_t is=0; is < kr1; is++) {
+ //
+ if (kr1[is]->IsUsed(10)) continue;
+ Double_t y1=kr1[is]->GetY(), z1=kr1[is]->GetZ();
+ //
+ if (deltay>0 && TMath::Abs(y1max-TMath::Abs(y1))> deltay ) continue; // seed only at the edge
+ //
+ Int_t index1 = TMath::Max(kr3.Find(z1-dzmax)-1,0);
+ Int_t index2 = TMath::Min(kr3.Find(z1+dzmax)+1,kr3);
+ //
+ Double_t y3, z3;
+ //
+ //
+ UInt_t index;
+ for (Int_t js=index1; js < index2; js++) {
+ const AliTPCclusterMI *kcl = kr3[js];
+ if (kcl->IsUsed(10)) continue;
+ y3 = kcl->GetY();
+ // apply angular cuts
+ if (TMath::Abs(y1-y3)>dymax) continue;
+ x3 = x3;
+ z3 = kcl->GetZ();
+ if (TMath::Abs(z1-z3)>dzmax) continue;
+ //
+ Double_t angley = (y1-y3)/(x1-x3);
+ Double_t anglez = (z1-z3)/(x1-x3);
+ //
+ Double_t erry = TMath::Abs(angley)*(x1-x1m)*0.5+0.5;
+ Double_t errz = TMath::Abs(anglez)*(x1-x1m)*0.5+0.5;
+ //
+ Double_t yyym = angley*(xm-x1)+y1;
+ Double_t zzzm = anglez*(xm-x1)+z1;
+
+ const AliTPCclusterMI *kcm = krm.FindNearest2(yyym,zzzm,erry,errz,index);
+ if (!kcm) continue;
+ if (kcm->IsUsed(10)) continue;
+
+ erry = TMath::Abs(angley)*(x1-x1m)*0.4+0.5;
+ errz = TMath::Abs(anglez)*(x1-x1m)*0.4+0.5;
+ //
+ //
+ //
+ Int_t used =0;
+ Int_t found =0;
+ //
+ // look around first
+ const AliTPCclusterMI *kc1m = kr1m.FindNearest2(angley*(x1m-x1)+y1,
+ anglez*(x1m-x1)+z1,
+ erry,errz,index);
+ //
+ if (kc1m){
+ found++;
+ if (kc1m->IsUsed(10)) used++;
}
- polytrack.UpdateParameters();
- if (nfound<0.45*nfoundable) break;
- }
- if ((nfound>0.5*nfoundable) &&( nfoundable>0.4*(i1-i2))) {
- // add polytrack candidate
- Double_t x[5], c[15];
- Double_t x1,x2,x3,y1,y2,y3,z1,z2,z3;
- polytrack.GetBoundaries(x3,x1);
- x2 = (x1+x3)/2.;
- polytrack.GetFitPoint(x1,y1,z1);
- polytrack.GetFitPoint(x2,y2,z2);
- polytrack.GetFitPoint(x3,y3,z3);
- //
- //is track pointing to the vertex ?
- Double_t x0,y0,z0;
- x0=0;
- polytrack.GetFitPoint(x0,y0,z0);
- if ( (TMath::Abs(z0-GetZ())<10) && (TMath::Abs(y0-GetY())<5)){ //if yes apply vertex constraint
- // x3 = 0;
- //y3 = GetY();
- //z3 = GetZ();
+ const AliTPCclusterMI *kc1p = kr1p.FindNearest2(angley*(x1p-x1)+y1,
+ anglez*(x1p-x1)+z1,
+ erry,errz,index);
+ //
+ if (kc1p){
+ found++;
+ if (kc1p->IsUsed(10)) used++;
}
+ if (used>1) continue;
+ if (found<1) continue;
+ //
+ // look around last
+ const AliTPCclusterMI *kc3m = kr3m.FindNearest2(angley*(x3m-x3)+y3,
+ anglez*(x3m-x3)+z3,
+ erry,errz,index);
+ //
+ if (kc3m){
+ found++;
+ if (kc3m->IsUsed(10)) used++;
+ }
+ else
+ continue;
+ const AliTPCclusterMI *kc3p = kr3p.FindNearest2(angley*(x3p-x3)+y3,
+ anglez*(x3p-x3)+z3,
+ erry,errz,index);
+ //
+ if (kc3p){
+ found++;
+ if (kc3p->IsUsed(10)) used++;
+ }
+ else
+ continue;
+ if (used>1) continue;
+ if (found<3) continue;
+ //
+ Double_t x2,y2,z2;
+ x2 = xm;
+ y2 = kcm->GetY();
+ z2 = kcm->GetZ();
+ //
+
x[0]=y1;
x[1]=z1;
- x[4]=f1(x1,y1,x2,y2,x3,y3);
- if (TMath::Abs(x[4]) >= 0.05) continue; //MI change
- x[2]=f2(x1,y1,x2,y2,x3,y3);
- //if (TMath::Abs(x[4]*x1-x[2]) >= 0.99999) continue;
- x[3]=f3(x1,y1,x2,y2,z1,z2);
- if (TMath::Abs(x[3]) > 1.2) continue;
- if (TMath::Abs(x[2]) > 0.99) continue;
- // Double_t a=asin(x[2]);
+ x[4]=F1(x1,y1,x2,y2,x3,y3);
+ //if (TMath::Abs(x[4]) >= cuts[0]) continue;
+ nin0++;
+ //
+ x[2]=F2(x1,y1,x2,y2,x3,y3);
+ nin1++;
+ //
+ x[3]=F3n(x1,y1,x2,y2,z1,z2,x[4]);
+ //if (TMath::Abs(x[3]) > cuts[3]) continue;
+ nin2++;
+ //
+ //
+ Double_t sy1=0.1, sz1=0.1;
+ Double_t sy2=0.1, sz2=0.1;
+ Double_t sy3=0.1, sy=0.1, sz=0.1;
-
- Double_t sy=1.5, sz=1.5;
- Double_t sy1=1.5, sz1=1.5;
- Double_t sy2=1.3, sz2=1.3;
- Double_t sy3=1.5;
- //sz3=1.5;
- //Double_t sy3=400*3./12., sy=0.1, sz=0.1;
- // Double_t sy3=25000*x[4]*x[4]+0.1, sy=0.1, sz=0.1;
- //Double_t sy3=25000*x[4]*x[4]*60+0.5, sy=0.1, sz=0.1;
+ Double_t f40=(F1(x1,y1+sy,x2,y2,x3,y3)-x[4])/sy;
+ Double_t f42=(F1(x1,y1,x2,y2+sy,x3,y3)-x[4])/sy;
+ Double_t f43=(F1(x1,y1,x2,y2,x3,y3+sy)-x[4])/sy;
+ Double_t f20=(F2(x1,y1+sy,x2,y2,x3,y3)-x[2])/sy;
+ Double_t f22=(F2(x1,y1,x2,y2+sy,x3,y3)-x[2])/sy;
+ Double_t f23=(F2(x1,y1,x2,y2,x3,y3+sy)-x[2])/sy;
- Double_t f40=(f1(x1,y1+sy,x2,y2,x3,y3)-x[4])/sy;
- Double_t f42=(f1(x1,y1,x2,y2+sy,x3,y3)-x[4])/sy;
- Double_t f43=(f1(x1,y1,x2,y2,x3,y3+sy)-x[4])/sy;
- Double_t f20=(f2(x1,y1+sy,x2,y2,x3,y3)-x[2])/sy;
- Double_t f22=(f2(x1,y1,x2,y2+sy,x3,y3)-x[2])/sy;
- Double_t f23=(f2(x1,y1,x2,y2,x3,y3+sy)-x[2])/sy;
- Double_t f30=(f3(x1,y1+sy,x2,y2,z1,z2)-x[3])/sy;
- Double_t f31=(f3(x1,y1,x2,y2,z1+sz,z2)-x[3])/sz;
- Double_t f32=(f3(x1,y1,x2,y2+sy,z1,z2)-x[3])/sy;
- Double_t f34=(f3(x1,y1,x2,y2,z1,z2+sz)-x[3])/sz;
+ Double_t f30=(F3(x1,y1+sy,x2,y2,z1,z2)-x[3])/sy;
+ Double_t f31=(F3(x1,y1,x2,y2,z1+sz,z2)-x[3])/sz;
+ Double_t f32=(F3(x1,y1,x2,y2+sy,z1,z2)-x[3])/sy;
+ Double_t f34=(F3(x1,y1,x2,y2,z1,z2+sz)-x[3])/sz;
c[0]=sy1;
- c[1]=0.; c[2]=sz1;
+ c[1]=0.; c[2]=sz1;
c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
c[13]=f30*sy1*f40+f32*sy2*f42;
c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
- UInt_t index=0;
- //kr0.GetIndex(is);
- AliTPCseed *track=new AliTPCseed(index, x, c, x1, sec*alpha+shift);
- track->fStopped =kFALSE;
+ // if (!BuildSeed(kr1[is],kcl,0,x1,x2,x3,x,c)) continue;
+
+ UInt_t index=kr1.GetIndex(is);
+ AliTPCseed *track=new(seed) AliTPCseed(index, x, c, x1, sec*alpha+shift);
+
track->fIsSeeding = kTRUE;
- Int_t rc=FollowProlongation(*track, i2);
- track->fLastPoint = i1; // first cluster in track position
- if (rc==0 || track->GetNumberOfClusters()<(i1-i2)/4 || track->GetNumberOfClusters() < track->fNFoundable/2. ) delete track;
- else arr->AddLast(track);
+
+ nin++;
+ FollowProlongation(*track, i1-7,1);
+ if (track->GetNumberOfClusters() < track->fNFoundable*0.75 ||
+ track->fNShared>0.6*track->GetNumberOfClusters() || ( track->GetSigmaY2()+ track->GetSigmaZ2())>0.6){
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+ }
+ nout1++;
+ nout2++;
+ //Int_t rc = 1;
+ FollowProlongation(*track, i2,1);
+ track->fBConstrain =0;
+ track->fLastPoint = i1+fInnerSec->GetNRows(); // first cluster in track position
+ track->fFirstPoint = track->fLastPoint;
+
+ if (track->GetNumberOfClusters()<(i1-i2)*0.5 ||
+ track->GetNumberOfClusters()<track->fNFoundable*0.7 ||
+ track->fNShared>2. || track->GetChi2()/track->GetNumberOfClusters()>6 || ( track->GetSigmaY2()+ track->GetSigmaZ2())>0.5 ) {
+ seed->Reset();
+ seed->~AliTPCseed();
+ continue;
+ }
+
+ {
+ FollowProlongation(*track, TMath::Max(i2-10,0),1);
+ AliTPCseed * track2 = MakeSeed(track,0.2,0.5,0.9);
+ FollowProlongation(*track2, i2,1);
+ track2->fBConstrain = kFALSE;
+ track2->fSeedType = 4;
+ arr->AddLast(track2);
+ seed->Reset();
+ seed->~AliTPCseed();
+ }
+
+
+ //arr->AddLast(track);
+ //seed = new AliTPCseed;
+ nout3++;
+ }
+ }
+
+ if (fDebug>3){
+ Info("MakeSeeds5","\nSeeding statiistic:\t%d\t%d\t%d\t%d\t%d\t%d",nin0,nin1,nin2,nin,nout1,nout2,nout3);
+ }
+ delete seed;
+}
+
+
+//_____________________________________________________________________________
+void AliTPCtrackerMI::MakeSeeds2(TObjArray * arr, Int_t sec, Int_t i1, Int_t i2, Float_t */*cuts[4]*/,
+ Float_t deltay, Bool_t /*bconstrain*/) {
+ //-----------------------------------------------------------------
+ // This function creates track seeds - without vertex constraint
+ //-----------------------------------------------------------------
+ // cuts[0] - fP4 cut - not applied
+ // cuts[1] - tan(phi) cut
+ // cuts[2] - zvertex cut - not applied
+ // cuts[3] - fP3 cut
+ Int_t nin0=0;
+ Int_t nin1=0;
+ Int_t nin2=0;
+ Int_t nin3=0;
+ // Int_t nin4=0;
+ //Int_t nin5=0;
+
+
+
+ Double_t alpha=fOuterSec->GetAlpha(), shift=fOuterSec->GetAlphaShift();
+ // Double_t cs=cos(alpha), sn=sin(alpha);
+ Int_t row0 = (i1+i2)/2;
+ Int_t drow = (i1-i2)/2;
+ const AliTPCRow& kr0=fSectors[sec][row0];
+ AliTPCRow * kr=0;
+
+ AliTPCpolyTrack polytrack;
+ Int_t nclusters=fSectors[sec][row0];
+ AliTPCseed * seed = new AliTPCseed;
+
+ Int_t sumused=0;
+ Int_t cused=0;
+ Int_t cnused=0;
+ for (Int_t is=0; is < nclusters; is++) { //LOOP over clusters
+ Int_t nfound =0;
+ Int_t nfoundable =0;
+ for (Int_t iter =1; iter<2; iter++){ //iterations
+ const AliTPCRow& krm=fSectors[sec][row0-iter];
+ const AliTPCRow& krp=fSectors[sec][row0+iter];
+ const AliTPCclusterMI * cl= kr0[is];
+
+ if (cl->IsUsed(10)) {
+ cused++;
+ }
+ else{
+ cnused++;
+ }
+ Double_t x = kr0.GetX();
+ // Initialization of the polytrack
+ nfound =0;
+ nfoundable =0;
+ polytrack.Reset();
+ //
+ Double_t y0= cl->GetY();
+ Double_t z0= cl->GetZ();
+ Float_t erry = 0;
+ Float_t errz = 0;
+
+ Double_t ymax = fSectors->GetMaxY(row0)-kr0.fDeadZone-1.5;
+ if (deltay>0 && TMath::Abs(ymax-TMath::Abs(y0))> deltay ) continue; // seed only at the edge
+
+ erry = (0.5)*cl->GetSigmaY2()/TMath::Sqrt(cl->GetQ())*6;
+ errz = (0.5)*cl->GetSigmaZ2()/TMath::Sqrt(cl->GetQ())*6;
+ polytrack.AddPoint(x,y0,z0,erry, errz);
+
+ sumused=0;
+ if (cl->IsUsed(10)) sumused++;
+
+
+ Float_t roady = (5*TMath::Sqrt(cl->GetSigmaY2()+0.2)+1.)*iter;
+ Float_t roadz = (5*TMath::Sqrt(cl->GetSigmaZ2()+0.2)+1.)*iter;
+ //
+ x = krm.GetX();
+ AliTPCclusterMI * cl1 = krm.FindNearest(y0,z0,roady,roadz);
+ if (cl1 && TMath::Abs(ymax-TMath::Abs(y0))) {
+ erry = (0.5)*cl1->GetSigmaY2()/TMath::Sqrt(cl1->GetQ())*3;
+ errz = (0.5)*cl1->GetSigmaZ2()/TMath::Sqrt(cl1->GetQ())*3;
+ if (cl1->IsUsed(10)) sumused++;
+ polytrack.AddPoint(x,cl1->GetY(),cl1->GetZ(),erry,errz);
+ }
+ //
+ x = krp.GetX();
+ AliTPCclusterMI * cl2 = krp.FindNearest(y0,z0,roady,roadz);
+ if (cl2) {
+ erry = (0.5)*cl2->GetSigmaY2()/TMath::Sqrt(cl2->GetQ())*3;
+ errz = (0.5)*cl2->GetSigmaZ2()/TMath::Sqrt(cl2->GetQ())*3;
+ if (cl2->IsUsed(10)) sumused++;
+ polytrack.AddPoint(x,cl2->GetY(),cl2->GetZ(),erry,errz);
+ }
+ //
+ if (sumused>0) continue;
+ nin0++;
+ polytrack.UpdateParameters();
+ // follow polytrack
+ roadz = 1.2;
+ roady = 1.2;
+ //
+ Double_t yn,zn;
+ nfoundable = polytrack.GetN();
+ nfound = nfoundable;
+ //
+ for (Int_t ddrow = iter+1; ddrow<drow;ddrow++){
+ Float_t maxdist = 0.8*(1.+3./(ddrow));
+ for (Int_t delta = -1;delta<=1;delta+=2){
+ Int_t row = row0+ddrow*delta;
+ kr = &(fSectors[sec][row]);
+ Double_t xn = kr->GetX();
+ Double_t ymax = fSectors->GetMaxY(row)-kr->fDeadZone-1.5;
+ polytrack.GetFitPoint(xn,yn,zn);
+ if (TMath::Abs(yn)>ymax) continue;
+ nfoundable++;
+ AliTPCclusterMI * cln = kr->FindNearest(yn,zn,roady,roadz);
+ if (cln) {
+ Float_t dist = TMath::Sqrt( (yn-cln->GetY())*(yn-cln->GetY())+(zn-cln->GetZ())*(zn-cln->GetZ()));
+ if (dist<maxdist){
+ /*
+ erry = (dist+0.3)*cln->GetSigmaY2()/TMath::Sqrt(cln->GetQ())*(1.+1./(ddrow));
+ errz = (dist+0.3)*cln->GetSigmaZ2()/TMath::Sqrt(cln->GetQ())*(1.+1./(ddrow));
+ if (cln->IsUsed(10)) {
+ // printf("used\n");
+ sumused++;
+ erry*=2;
+ errz*=2;
+ }
+ */
+ erry=0.1;
+ errz=0.1;
+ polytrack.AddPoint(xn,cln->GetY(),cln->GetZ(),erry, errz);
+ nfound++;
+ }
+ }
+ }
+ if ( (sumused>3) || (sumused>0.5*nfound) || (nfound<0.6*nfoundable)) break;
+ polytrack.UpdateParameters();
+ }
+ }
+ if ( (sumused>3) || (sumused>0.5*nfound)) {
+ //printf("sumused %d\n",sumused);
+ continue;
+ }
+ nin1++;
+ Double_t dy,dz;
+ polytrack.GetFitDerivation(kr0.GetX(),dy,dz);
+ AliTPCpolyTrack track2;
+
+ polytrack.Refit(track2,0.5+TMath::Abs(dy)*0.3,0.4+TMath::Abs(dz)*0.3);
+ if (track2.GetN()<0.5*nfoundable) continue;
+ nin2++;
+
+ if ((nfound>0.6*nfoundable) &&( nfoundable>0.4*(i1-i2))) {
+ //
+ // test seed with and without constrain
+ for (Int_t constrain=0; constrain<=0;constrain++){
+ // add polytrack candidate
+
+ Double_t x[5], c[15];
+ Double_t x1,x2,x3,y1,y2,y3,z1,z2,z3;
+ track2.GetBoundaries(x3,x1);
+ x2 = (x1+x3)/2.;
+ track2.GetFitPoint(x1,y1,z1);
+ track2.GetFitPoint(x2,y2,z2);
+ track2.GetFitPoint(x3,y3,z3);
+ //
+ //is track pointing to the vertex ?
+ Double_t x0,y0,z0;
+ x0=0;
+ polytrack.GetFitPoint(x0,y0,z0);
+
+ if (constrain) {
+ x2 = x3;
+ y2 = y3;
+ z2 = z3;
+
+ x3 = 0;
+ y3 = 0;
+ z3 = 0;
+ }
+ x[0]=y1;
+ x[1]=z1;
+ x[4]=F1(x1,y1,x2,y2,x3,y3);
+
+ // if (TMath::Abs(x[4]) >= cuts[0]) continue; //
+ x[2]=F2(x1,y1,x2,y2,x3,y3);
+
+ //if (TMath::Abs(x[4]*x1-x[2]) >= cuts[1]) continue;
+ //x[3]=F3(x1,y1,x2,y2,z1,z2);
+ x[3]=F3n(x1,y1,x3,y3,z1,z3,x[4]);
+ //if (TMath::Abs(x[3]) > cuts[3]) continue;
+
+
+ Double_t sy =0.1, sz =0.1;
+ Double_t sy1=0.02, sz1=0.02;
+ Double_t sy2=0.02, sz2=0.02;
+ Double_t sy3=0.02;
+
+ if (constrain){
+ sy3=25000*x[4]*x[4]+0.1, sy=0.1, sz=0.1;
+ }
+
+ Double_t f40=(F1(x1,y1+sy,x2,y2,x3,y3)-x[4])/sy;
+ Double_t f42=(F1(x1,y1,x2,y2+sy,x3,y3)-x[4])/sy;
+ Double_t f43=(F1(x1,y1,x2,y2,x3,y3+sy)-x[4])/sy;
+ Double_t f20=(F2(x1,y1+sy,x2,y2,x3,y3)-x[2])/sy;
+ Double_t f22=(F2(x1,y1,x2,y2+sy,x3,y3)-x[2])/sy;
+ Double_t f23=(F2(x1,y1,x2,y2,x3,y3+sy)-x[2])/sy;
+
+ Double_t f30=(F3(x1,y1+sy,x3,y3,z1,z3)-x[3])/sy;
+ Double_t f31=(F3(x1,y1,x3,y3,z1+sz,z3)-x[3])/sz;
+ Double_t f32=(F3(x1,y1,x3,y3+sy,z1,z3)-x[3])/sy;
+ Double_t f34=(F3(x1,y1,x3,y3,z1,z3+sz)-x[3])/sz;
+
+
+ c[0]=sy1;
+ c[1]=0.; c[2]=sz1;
+ c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
+ c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
+ c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
+ c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
+ c[13]=f30*sy1*f40+f32*sy2*f42;
+ c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+
+ //Int_t row1 = fSectors->GetRowNumber(x1);
+ Int_t row1 = GetRowNumber(x1);
+
+ UInt_t index=0;
+ //kr0.GetIndex(is);
+ AliTPCseed *track=new (seed) AliTPCseed(index, x, c, x1, sec*alpha+shift);
+ track->fIsSeeding = kTRUE;
+ Int_t rc=FollowProlongation(*track, i2);
+ if (constrain) track->fBConstrain =1;
+ else
+ track->fBConstrain =0;
+ track->fLastPoint = row1+fInnerSec->GetNRows(); // first cluster in track position
+ track->fFirstPoint = track->fLastPoint;
+
+ if (rc==0 || track->GetNumberOfClusters()<(i1-i2)*0.5 ||
+ track->GetNumberOfClusters() < track->fNFoundable*0.6 ||
+ track->fNShared>0.4*track->GetNumberOfClusters()) {
+ //delete track;
+ seed->Reset();
+ seed->~AliTPCseed();
+ }
+ else {
+ arr->AddLast(track);
+ seed = new AliTPCseed;
+ }
+ nin3++;
+ }
+ } // if accepted seed
+ }
+ if (fDebug>3){
+ Info("MakeSeeds2","\nSeeding statiistic:\t%d\t%d\t%d\t%d",nin0,nin1,nin2,nin3);
+ }
+ delete seed;
+}
+
+
+AliTPCseed *AliTPCtrackerMI::MakeSeed(AliTPCseed *track, Float_t r0, Float_t r1, Float_t r2)
+{
+ //
+ //
+ //reseed using track points
+ Int_t p0 = int(r0*track->GetNumberOfClusters()); // point 0
+ Int_t p1 = int(r1*track->GetNumberOfClusters());
+ Int_t p2 = int(r2*track->GetNumberOfClusters()); // last point
+ Int_t pp2=0;
+ Double_t x0[3],x1[3],x2[3];
+ for (Int_t i=0;i<3;i++){
+ x0[i]=-1;
+ x1[i]=-1;
+ x2[i]=-1;
+ }
+
+ // find track position at given ratio of the length
+ Int_t sec0=0, sec1=0, sec2=0;
+ Int_t index=-1;
+ Int_t clindex;
+ for (Int_t i=0;i<160;i++){
+ if (track->fClusterPointer[i]){
+ index++;
+ AliTPCTrackerPoint *trpoint =track->GetTrackPoint(i);
+ if ( (index<p0) || x0[0]<0 ){
+ if (trpoint->GetX()>1){
+ clindex = track->GetClusterIndex2(i);
+ if (clindex>0){
+ x0[0] = trpoint->GetX();
+ x0[1] = trpoint->GetY();
+ x0[2] = trpoint->GetZ();
+ sec0 = ((clindex&0xff000000)>>24)%18;
+ }
+ }
+ }
+
+ if ( (index<p1) &&(trpoint->GetX()>1)){
+ clindex = track->GetClusterIndex2(i);
+ if (clindex>0){
+ x1[0] = trpoint->GetX();
+ x1[1] = trpoint->GetY();
+ x1[2] = trpoint->GetZ();
+ sec1 = ((clindex&0xff000000)>>24)%18;
+ }
+ }
+ if ( (index<p2) &&(trpoint->GetX()>1)){
+ clindex = track->GetClusterIndex2(i);
+ if (clindex>0){
+ x2[0] = trpoint->GetX();
+ x2[1] = trpoint->GetY();
+ x2[2] = trpoint->GetZ();
+ sec2 = ((clindex&0xff000000)>>24)%18;
+ pp2 = i;
+ }
+ }
+ }
+ }
+
+ Double_t alpha, cs,sn, xx2,yy2;
+ //
+ alpha = (sec1-sec2)*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= x1[0]*cs-x1[1]*sn;
+ yy2= x1[0]*sn+x1[1]*cs;
+ x1[0] = xx2;
+ x1[1] = yy2;
+ //
+ alpha = (sec0-sec2)*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= x0[0]*cs-x0[1]*sn;
+ yy2= x0[0]*sn+x0[1]*cs;
+ x0[0] = xx2;
+ x0[1] = yy2;
+ //
+ //
+ //
+ Double_t x[5],c[15];
+ //
+ x[0]=x2[1];
+ x[1]=x2[2];
+ x[4]=F1(x2[0],x2[1],x1[0],x1[1],x0[0],x0[1]);
+ // if (x[4]>1) return 0;
+ x[2]=F2(x2[0],x2[1],x1[0],x1[1],x0[0],x0[1]);
+ x[3]=F3n(x2[0],x2[1],x0[0],x0[1],x2[2],x0[2],x[4]);
+ //if (TMath::Abs(x[3]) > 2.2) return 0;
+ //if (TMath::Abs(x[2]) > 1.99) return 0;
+ //
+ Double_t sy =0.1, sz =0.1;
+ //
+ Double_t sy1=0.02+track->GetSigmaY2(), sz1=0.02+track->GetSigmaZ2();
+ Double_t sy2=0.01+track->GetSigmaY2(), sz2=0.01+track->GetSigmaZ2();
+ Double_t sy3=0.01+track->GetSigmaY2();
+ //
+ Double_t f40=(F1(x2[0],x2[1]+sy,x1[0],x1[1],x0[0],x0[1])-x[4])/sy;
+ Double_t f42=(F1(x2[0],x2[1],x1[0],x1[1]+sy,x0[0],x0[1])-x[4])/sy;
+ Double_t f43=(F1(x2[0],x2[1],x1[0],x1[1],x0[0],x0[1]+sy)-x[4])/sy;
+ Double_t f20=(F2(x2[0],x2[1]+sy,x1[0],x1[1],x0[0],x0[1])-x[2])/sy;
+ Double_t f22=(F2(x2[0],x2[1],x1[0],x1[1]+sy,x0[0],x0[1])-x[2])/sy;
+ Double_t f23=(F2(x2[0],x2[1],x1[0],x1[1],x0[0],x0[1]+sy)-x[2])/sy;
+ //
+ Double_t f30=(F3(x2[0],x2[1]+sy,x0[0],x0[1],x2[2],x0[2])-x[3])/sy;
+ Double_t f31=(F3(x2[0],x2[1],x0[0],x0[1],x2[2]+sz,x0[2])-x[3])/sz;
+ Double_t f32=(F3(x2[0],x2[1],x0[0],x0[1]+sy,x2[2],x0[2])-x[3])/sy;
+ Double_t f34=(F3(x2[0],x2[1],x0[0],x0[1],x2[2],x0[2]+sz)-x[3])/sz;
+
+
+ c[0]=sy1;
+ c[1]=0.; c[2]=sz1;
+ c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
+ c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
+ c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
+ c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
+ c[13]=f30*sy1*f40+f32*sy2*f42;
+ c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+
+ // Int_t row1 = fSectors->GetRowNumber(x2[0]);
+ AliTPCseed *seed=new AliTPCseed(0, x, c, x2[0], sec2*fSectors->GetAlpha()+fSectors->GetAlphaShift());
+ // Double_t y0,z0,y1,z1, y2,z2;
+ //seed->GetProlongation(x0[0],y0,z0);
+ // seed->GetProlongation(x1[0],y1,z1);
+ //seed->GetProlongation(x2[0],y2,z2);
+ // seed =0;
+ seed->fLastPoint = pp2;
+ seed->fFirstPoint = pp2;
+
+
+ return seed;
+}
+
+
+AliTPCseed *AliTPCtrackerMI::ReSeed(AliTPCseed *track, Float_t r0, Float_t r1, Float_t r2)
+{
+ //
+ //
+ //reseed using founded clusters
+ //
+ // Find the number of clusters
+ Int_t nclusters = 0;
+ for (Int_t irow=0;irow<160;irow++){
+ if (track->GetClusterIndex(irow)>0) nclusters++;
+ }
+ //
+ Int_t ipos[3];
+ ipos[0] = TMath::Max(int(r0*nclusters),0); // point 0 cluster
+ ipos[1] = TMath::Min(int(r1*nclusters),nclusters-1); //
+ ipos[2] = TMath::Min(int(r2*nclusters),nclusters-1); // last point
+ //
+ //
+ Double_t xyz[3][3];
+ Int_t row[3],sec[3]={0,0,0};
+ //
+ // find track row position at given ratio of the length
+ Int_t index=-1;
+ for (Int_t irow=0;irow<160;irow++){
+ if (track->GetClusterIndex2(irow)<0) continue;
+ index++;
+ for (Int_t ipoint=0;ipoint<3;ipoint++){
+ if (index<=ipos[ipoint]) row[ipoint] = irow;
+ }
+ }
+ //
+ //Get cluster and sector position
+ for (Int_t ipoint=0;ipoint<3;ipoint++){
+ Int_t clindex = track->GetClusterIndex2(row[ipoint]);
+ AliTPCclusterMI * cl = GetClusterMI(clindex);
+ if (cl==0) {
+ //Error("Bug\n");
+ // AliTPCclusterMI * cl = GetClusterMI(clindex);
+ return 0;
}
+ sec[ipoint] = ((clindex&0xff000000)>>24)%18;
+ xyz[ipoint][0] = GetXrow(row[ipoint]);
+ xyz[ipoint][1] = cl->GetY();
+ xyz[ipoint][2] = cl->GetZ();
}
+ //
+ //
+ // Calculate seed state vector and covariance matrix
+
+ Double_t alpha, cs,sn, xx2,yy2;
+ //
+ alpha = (sec[1]-sec[2])*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= xyz[1][0]*cs-xyz[1][1]*sn;
+ yy2= xyz[1][0]*sn+xyz[1][1]*cs;
+ xyz[1][0] = xx2;
+ xyz[1][1] = yy2;
+ //
+ alpha = (sec[0]-sec[2])*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= xyz[0][0]*cs-xyz[0][1]*sn;
+ yy2= xyz[0][0]*sn+xyz[0][1]*cs;
+ xyz[0][0] = xx2;
+ xyz[0][1] = yy2;
+ //
+ //
+ //
+ Double_t x[5],c[15];
+ //
+ x[0]=xyz[2][1];
+ x[1]=xyz[2][2];
+ x[4]=F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]);
+ x[2]=F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]);
+ x[3]=F3n(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2],x[4]);
+ //
+ Double_t sy =0.1, sz =0.1;
+ //
+ Double_t sy1=0.2, sz1=0.2;
+ Double_t sy2=0.2, sz2=0.2;
+ Double_t sy3=0.2;
+ //
+ Double_t f40=(F1(xyz[2][0],xyz[2][1]+sy,xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1])-x[4])/sy;
+ Double_t f42=(F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1]+sy,xyz[0][0],xyz[0][1])-x[4])/sy;
+ Double_t f43=(F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]+sy)-x[4])/sy;
+ Double_t f20=(F2(xyz[2][0],xyz[2][1]+sy,xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1])-x[2])/sy;
+ Double_t f22=(F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1]+sy,xyz[0][0],xyz[0][1])-x[2])/sy;
+ Double_t f23=(F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]+sy)-x[2])/sy;
+ //
+ Double_t f30=(F3(xyz[2][0],xyz[2][1]+sy,xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2])-x[3])/sy;
+ Double_t f31=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2]+sz,xyz[0][2])-x[3])/sz;
+ Double_t f32=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1]+sy,xyz[2][2],xyz[0][2])-x[3])/sy;
+ Double_t f34=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2]+sz)-x[3])/sz;
+
+
+ c[0]=sy1;
+ c[1]=0.; c[2]=sz1;
+ c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
+ c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
+ c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
+ c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
+ c[13]=f30*sy1*f40+f32*sy2*f42;
+ c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+ // Int_t row1 = fSectors->GetRowNumber(xyz[2][0]);
+ AliTPCseed *seed=new AliTPCseed(0, x, c, xyz[2][0], sec[2]*fSectors->GetAlpha()+fSectors->GetAlphaShift());
+ seed->fLastPoint = row[2];
+ seed->fFirstPoint = row[2];
+ return seed;
+}
+
+
+AliTPCseed *AliTPCtrackerMI::ReSeed(AliTPCseed *track,Int_t r0, Bool_t forward)
+{
+ //
+ //
+ //reseed using founded clusters
+ //
+ Double_t xyz[3][3];
+ Int_t row[3]={0,0,0};
+ Int_t sec[3]={0,0,0};
+ //
+ // forward direction
+ if (forward){
+ for (Int_t irow=r0;irow<160;irow++){
+ if (track->GetClusterIndex(irow)>0){
+ row[0] = irow;
+ break;
+ }
+ }
+ for (Int_t irow=160;irow>r0;irow--){
+ if (track->GetClusterIndex(irow)>0){
+ row[2] = irow;
+ break;
+ }
+ }
+ for (Int_t irow=row[2]-15;irow>row[0];irow--){
+ if (track->GetClusterIndex(irow)>0){
+ row[1] = irow;
+ break;
+ }
+ }
+ //
+ }
+ if (!forward){
+ for (Int_t irow=0;irow<r0;irow++){
+ if (track->GetClusterIndex(irow)>0){
+ row[0] = irow;
+ break;
+ }
+ }
+ for (Int_t irow=r0;irow>0;irow--){
+ if (track->GetClusterIndex(irow)>0){
+ row[2] = irow;
+ break;
+ }
+ }
+ for (Int_t irow=row[2]-15;irow>row[0];irow--){
+ if (track->GetClusterIndex(irow)>0){
+ row[1] = irow;
+ break;
+ }
+ }
+ }
+ //
+ if ((row[2]-row[0])<20) return 0;
+ if (row[1]==0) return 0;
+ //
+ //
+ //Get cluster and sector position
+ for (Int_t ipoint=0;ipoint<3;ipoint++){
+ Int_t clindex = track->GetClusterIndex2(row[ipoint]);
+ AliTPCclusterMI * cl = GetClusterMI(clindex);
+ if (cl==0) {
+ //Error("Bug\n");
+ // AliTPCclusterMI * cl = GetClusterMI(clindex);
+ return 0;
+ }
+ sec[ipoint] = ((clindex&0xff000000)>>24)%18;
+ xyz[ipoint][0] = GetXrow(row[ipoint]);
+ AliTPCTrackerPoint * point = track->GetTrackPoint(row[ipoint]);
+ if (point&&ipoint<2){
+ //
+ xyz[ipoint][1] = point->GetY();
+ xyz[ipoint][2] = point->GetZ();
+ }
+ else{
+ xyz[ipoint][1] = cl->GetY();
+ xyz[ipoint][2] = cl->GetZ();
+ }
+ }
+ //
+ //
+ //
+ //
+ // Calculate seed state vector and covariance matrix
+
+ Double_t alpha, cs,sn, xx2,yy2;
+ //
+ alpha = (sec[1]-sec[2])*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= xyz[1][0]*cs-xyz[1][1]*sn;
+ yy2= xyz[1][0]*sn+xyz[1][1]*cs;
+ xyz[1][0] = xx2;
+ xyz[1][1] = yy2;
+ //
+ alpha = (sec[0]-sec[2])*fSectors->GetAlpha();
+ cs = TMath::Cos(alpha);
+ sn = TMath::Sin(alpha);
+ xx2= xyz[0][0]*cs-xyz[0][1]*sn;
+ yy2= xyz[0][0]*sn+xyz[0][1]*cs;
+ xyz[0][0] = xx2;
+ xyz[0][1] = yy2;
+ //
+ //
+ //
+ Double_t x[5],c[15];
+ //
+ x[0]=xyz[2][1];
+ x[1]=xyz[2][2];
+ x[4]=F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]);
+ x[2]=F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]);
+ x[3]=F3n(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2],x[4]);
+ //
+ Double_t sy =0.1, sz =0.1;
+ //
+ Double_t sy1=0.2, sz1=0.2;
+ Double_t sy2=0.2, sz2=0.2;
+ Double_t sy3=0.2;
+ //
+ Double_t f40=(F1(xyz[2][0],xyz[2][1]+sy,xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1])-x[4])/sy;
+ Double_t f42=(F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1]+sy,xyz[0][0],xyz[0][1])-x[4])/sy;
+ Double_t f43=(F1(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]+sy)-x[4])/sy;
+ Double_t f20=(F2(xyz[2][0],xyz[2][1]+sy,xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1])-x[2])/sy;
+ Double_t f22=(F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1]+sy,xyz[0][0],xyz[0][1])-x[2])/sy;
+ Double_t f23=(F2(xyz[2][0],xyz[2][1],xyz[1][0],xyz[1][1],xyz[0][0],xyz[0][1]+sy)-x[2])/sy;
+ //
+ Double_t f30=(F3(xyz[2][0],xyz[2][1]+sy,xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2])-x[3])/sy;
+ Double_t f31=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2]+sz,xyz[0][2])-x[3])/sz;
+ Double_t f32=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1]+sy,xyz[2][2],xyz[0][2])-x[3])/sy;
+ Double_t f34=(F3(xyz[2][0],xyz[2][1],xyz[0][0],xyz[0][1],xyz[2][2],xyz[0][2]+sz)-x[3])/sz;
+
+
+ c[0]=sy1;
+ c[1]=0.; c[2]=sz1;
+ c[3]=f20*sy1; c[4]=0.; c[5]=f20*sy1*f20+f22*sy2*f22+f23*sy3*f23;
+ c[6]=f30*sy1; c[7]=f31*sz1; c[8]=f30*sy1*f20+f32*sy2*f22;
+ c[9]=f30*sy1*f30+f31*sz1*f31+f32*sy2*f32+f34*sz2*f34;
+ c[10]=f40*sy1; c[11]=0.; c[12]=f40*sy1*f20+f42*sy2*f22+f43*sy3*f23;
+ c[13]=f30*sy1*f40+f32*sy2*f42;
+ c[14]=f40*sy1*f40+f42*sy2*f42+f43*sy3*f43;
+
+ // Int_t row1 = fSectors->GetRowNumber(xyz[2][0]);
+ AliTPCseed *seed=new AliTPCseed(0, x, c, xyz[2][0], sec[2]*fSectors->GetAlpha()+fSectors->GetAlphaShift());
+ seed->fLastPoint = row[2];
+ seed->fFirstPoint = row[2];
+ for (Int_t i=row[0];i<row[2];i++){
+ seed->fIndex[i] = track->fIndex[i];
+ }
+
+ return seed;
+}
+
+void AliTPCtrackerMI::FindKinks(TObjArray * array, AliESD *esd)
+{
+ //
+ // find kinks
+ //
+ //
+
+ TObjArray *kinks= new TObjArray(10000);
+ // TObjArray *v0s= new TObjArray(10000);
+ Int_t nentries = array->GetEntriesFast();
+ AliHelix *helixes = new AliHelix[nentries];
+ Int_t *sign = new Int_t[nentries];
+ Int_t *nclusters = new Int_t[nentries];
+ Float_t *alpha = new Float_t[nentries];
+ AliESDkink * kink = new AliESDkink();
+ Int_t * usage = new Int_t[nentries];
+ Float_t *zm = new Float_t[nentries];
+ Float_t *z0 = new Float_t[nentries];
+ Float_t *fim = new Float_t[nentries];
+ Float_t *shared = new Float_t[nentries];
+ Bool_t *circular = new Bool_t[nentries];
+ Float_t *dca = new Float_t[nentries];
+ //const AliESDVertex * primvertex = esd->GetVertex();
+ //
+ // nentries = array->GetEntriesFast();
+ //
+
+ //
+ //
+ for (Int_t i=0;i<nentries;i++){
+ sign[i]=0;
+ usage[i]=0;
+ AliTPCseed* track = (AliTPCseed*)array->At(i);
+ if (!track) continue;
+ track->fCircular =0;
+ shared[i] = kFALSE;
+ track->UpdatePoints();
+ if (( track->GetPoints()[2]- track->GetPoints()[0])>5 && track->GetPoints()[3]>0.8){
+ }
+ nclusters[i]=track->GetNumberOfClusters();
+ alpha[i] = track->GetAlpha();
+ new (&helixes[i]) AliHelix(*track);
+ Double_t xyz[3];
+ helixes[i].Evaluate(0,xyz);
+ sign[i] = (track->GetC()>0) ? -1:1;
+ Double_t x,y,z;
+ x=160;
+ if (track->GetProlongation(x,y,z)){
+ zm[i] = z;
+ fim[i] = alpha[i]+TMath::ATan2(y,x);
+ }
+ else{
+ zm[i] = track->GetZ();
+ fim[i] = alpha[i];
+ }
+ z0[i]=1000;
+ circular[i]= kFALSE;
+ if (track->GetProlongation(0,y,z)) z0[i] = z;
+ dca[i] = track->GetD(0,0);
+ }
+ //
+ //
+ TStopwatch timer;
+ timer.Start();
+ Int_t ncandidates =0;
+ Int_t nall =0;
+ Int_t ntracks=0;
+ Double_t phase[2][2],radius[2];
+
+ //
+ // Find circling track
+ TTreeSRedirector &cstream = *fDebugStreamer;
+ //
+ for (Int_t i0=0;i0<nentries;i0++){
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i0);
+ if (!track0) continue;
+ if (track0->fN<40) continue;
+ if (TMath::Abs(1./track0->fP4)>200) continue;
+ for (Int_t i1=i0+1;i1<nentries;i1++){
+ AliTPCseed * track1 = (AliTPCseed*)array->At(i1);
+ if (!track1) continue;
+ if (track1->fN<40) continue;
+ if ( TMath::Abs(track1->fP3+track0->fP3)>0.1) continue;
+ if (track0->fBConstrain&&track1->fBConstrain) continue;
+ if (TMath::Abs(1./track1->fP4)>200) continue;
+ if (track1->fP4*track0->fP4>0) continue;
+ if (track1->fP3*track0->fP3>0) continue;
+ if (max(TMath::Abs(1./track0->fP4),TMath::Abs(1./track1->fP4))>190) continue;
+ if (track0->fBConstrain&&TMath::Abs(track1->fP4)<TMath::Abs(track0->fP4)) continue; //returning - lower momenta
+ if (track1->fBConstrain&&TMath::Abs(track0->fP4)<TMath::Abs(track1->fP4)) continue; //returning - lower momenta
+ //
+ Float_t mindcar = TMath::Min(TMath::Abs(dca[i0]),TMath::Abs(dca[i1]));
+ if (mindcar<5) continue;
+ Float_t mindcaz = TMath::Min(TMath::Abs(z0[i0]-GetZ()),TMath::Abs(z0[i1]-GetZ()));
+ if (mindcaz<5) continue;
+ if (mindcar+mindcaz<20) continue;
+ //
+ //
+ Float_t xc0 = helixes[i0].GetHelix(6);
+ Float_t yc0 = helixes[i0].GetHelix(7);
+ Float_t r0 = helixes[i0].GetHelix(8);
+ Float_t xc1 = helixes[i1].GetHelix(6);
+ Float_t yc1 = helixes[i1].GetHelix(7);
+ Float_t r1 = helixes[i1].GetHelix(8);
+
+ Float_t rmean = (r0+r1)*0.5;
+ Float_t delta =TMath::Sqrt((xc1-xc0)*(xc1-xc0)+(yc1-yc0)*(yc1-yc0));
+ //if (delta>30) continue;
+ if (delta>rmean*0.25) continue;
+ if (TMath::Abs(r0-r1)/rmean>0.3) continue;
+ //
+ Int_t npoints = helixes[i0].GetRPHIintersections(helixes[i1], phase, radius,10);
+ if (npoints==0) continue;
+ helixes[i0].GetClosestPhases(helixes[i1], phase);
+ //
+ Double_t xyz0[3];
+ Double_t xyz1[3];
+ Double_t hangles[3];
+ helixes[i0].Evaluate(phase[0][0],xyz0);
+ helixes[i1].Evaluate(phase[0][1],xyz1);
+
+ helixes[i0].GetAngle(phase[0][0],helixes[i1],phase[0][1],hangles);
+ Double_t deltah[2],deltabest;
+ if (hangles[2]<2.8) continue;
+ /*
+ cstream<<"C"<<track0->fLab<<track1->fLab<<
+ track0->fP3<<track1->fP3<<
+ track0->fP4<<track1->fP4<<
+ delta<<rmean<<npoints<<
+ hangles[0]<<hangles[2]<<
+ xyz0[2]<<xyz1[2]<<radius[0]<<"\n";
+ */
+ if (npoints>0){
+ Int_t ibest=0;
+ helixes[i0].ParabolicDCA(helixes[i1],phase[0][0],phase[0][1],radius[0],deltah[0],2);
+ if (npoints==2){
+ helixes[i0].ParabolicDCA(helixes[i1],phase[1][0],phase[1][1],radius[1],deltah[1],2);
+ if (deltah[1]<deltah[0]) ibest=1;
+ }
+ deltabest = TMath::Sqrt(deltah[ibest]);
+ helixes[i0].Evaluate(phase[ibest][0],xyz0);
+ helixes[i1].Evaluate(phase[ibest][1],xyz1);
+ helixes[i0].GetAngle(phase[ibest][0],helixes[i1],phase[ibest][1],hangles);
+ Double_t radiusbest = TMath::Sqrt(radius[ibest]);
+ //
+ if (deltabest>6) continue;
+ if (mindcar+mindcaz<40 && (hangles[2]<3.12||deltabest>3)) continue;
+ Bool_t sign =kFALSE;
+ if (hangles[2]>3.06) sign =kTRUE;
+ //
+ if (sign){
+ circular[i0] = kTRUE;
+ circular[i1] = kTRUE;
+ if (TMath::Abs(track0->fP4)<TMath::Abs(track1->fP4)){
+ track0->fCircular += 1;
+ track1->fCircular += 2;
+ }
+ else{
+ track1->fCircular += 1;
+ track0->fCircular += 2;
+ }
+ }
+ if (sign&&AliTPCReconstructor::StreamLevel()>1){
+ //debug stream
+ cstream<<"Curling"<<
+ "lab0="<<track0->fLab<<
+ "lab1="<<track1->fLab<<
+ "Tr0.="<<track0<<
+ "Tr1.="<<track1<<
+ "dca0="<<dca[i0]<<
+ "dca1="<<dca[i1]<<
+ "mindcar="<<mindcar<<
+ "mindcaz="<<mindcaz<<
+ "delta="<<delta<<
+ "rmean="<<rmean<<
+ "npoints="<<npoints<<
+ "hangles0="<<hangles[0]<<
+ "hangles2="<<hangles[2]<<
+ "xyz0="<<xyz0[2]<<
+ "xyzz1="<<xyz1[2]<<
+ "z0="<<z0[i0]<<
+ "z1="<<z0[i1]<<
+ "radius="<<radiusbest<<
+ "deltabest="<<deltabest<<
+ "phase0="<<phase[ibest][0]<<
+ "phase1="<<phase[ibest][1]<<
+ "\n";
+ }
+ }
+ }
+ }
+ //
+ // Finf kinks loop
+ //
+ //
+ for (Int_t i =0;i<nentries;i++){
+ if (sign[i]==0) continue;
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i);
+ ntracks++;
+ //
+ Double_t cradius0 = 40*40;
+ Double_t cradius1 = 270*270;
+ Double_t cdist1=8.;
+ Double_t cdist2=8.;
+ Double_t cdist3=0.55;
+ for (Int_t j =i+1;j<nentries;j++){
+ nall++;
+ if (sign[j]*sign[i]<1) continue;
+ if ( (nclusters[i]+nclusters[j])>200) continue;
+ if ( (nclusters[i]+nclusters[j])<80) continue;
+ if ( TMath::Abs(zm[i]-zm[j])>60.) continue;
+ if ( TMath::Abs(fim[i]-fim[j])>0.6 && TMath::Abs(fim[i]-fim[j])<5.7 ) continue;
+ //AliTPCseed * track1 = (AliTPCseed*)array->At(j); Double_t phase[2][2],radius[2];
+ Int_t npoints = helixes[i].GetRPHIintersections(helixes[j], phase, radius,20);
+ if (npoints<1) continue;
+ // cuts on radius
+ if (npoints==1){
+ if (radius[0]<cradius0||radius[0]>cradius1) continue;
+ }
+ else{
+ if ( (radius[0]<cradius0||radius[0]>cradius1) && (radius[1]<cradius0||radius[1]>cradius1) ) continue;
+ }
+ //
+ Double_t delta1=10000,delta2=10000;
+ // cuts on the intersection radius
+ helixes[i].LinearDCA(helixes[j],phase[0][0],phase[0][1],radius[0],delta1);
+ if (radius[0]<20&&delta1<1) continue; //intersection at vertex
+ if (radius[0]<10&&delta1<3) continue; //intersection at vertex
+ if (npoints==2){
+ helixes[i].LinearDCA(helixes[j],phase[1][0],phase[1][1],radius[1],delta2);
+ if (radius[1]<20&&delta2<1) continue; //intersection at vertex
+ if (radius[1]<10&&delta2<3) continue; //intersection at vertex
+ }
+ //
+ Double_t distance1 = TMath::Min(delta1,delta2);
+ if (distance1>cdist1) continue; // cut on DCA linear approximation
+ //
+ npoints = helixes[i].GetRPHIintersections(helixes[j], phase, radius,20);
+ helixes[i].ParabolicDCA(helixes[j],phase[0][0],phase[0][1],radius[0],delta1);
+ if (radius[0]<20&&delta1<1) continue; //intersection at vertex
+ if (radius[0]<10&&delta1<3) continue; //intersection at vertex
+ //
+ if (npoints==2){
+ helixes[i].ParabolicDCA(helixes[j],phase[1][0],phase[1][1],radius[1],delta2);
+ if (radius[1]<20&&delta2<1) continue; //intersection at vertex
+ if (radius[1]<10&&delta2<3) continue; //intersection at vertex
+ }
+ distance1 = TMath::Min(delta1,delta2);
+ Float_t rkink =0;
+ if (delta1<delta2){
+ rkink = TMath::Sqrt(radius[0]);
+ }
+ else{
+ rkink = TMath::Sqrt(radius[1]);
+ }
+ if (distance1>cdist2) continue;
+ //
+ //
+ AliTPCseed * track1 = (AliTPCseed*)array->At(j);
+ //
+ //
+ Int_t row0 = GetRowNumber(rkink);
+ if (row0<10) continue;
+ if (row0>150) continue;
+ //
+ //
+ Float_t dens00=-1,dens01=-1;
+ Float_t dens10=-1,dens11=-1;
+ //
+ Int_t found,foundable,shared;
+ track0->GetClusterStatistic(0,row0-5, found, foundable,shared,kFALSE);
+ if (foundable>5) dens00 = Float_t(found)/Float_t(foundable);
+ track0->GetClusterStatistic(row0+5,155, found, foundable,shared,kFALSE);
+ if (foundable>5) dens01 = Float_t(found)/Float_t(foundable);
+ //
+ track1->GetClusterStatistic(0,row0-5, found, foundable,shared,kFALSE);
+ if (foundable>10) dens10 = Float_t(found)/Float_t(foundable);
+ track1->GetClusterStatistic(row0+5,155, found, foundable,shared,kFALSE);
+ if (foundable>10) dens11 = Float_t(found)/Float_t(foundable);
+ //
+ if (dens00<dens10 && dens01<dens11) continue;
+ if (dens00>dens10 && dens01>dens11) continue;
+ if (TMath::Max(dens00,dens10)<0.1) continue;
+ if (TMath::Max(dens01,dens11)<0.3) continue;
+ //
+ if (TMath::Min(dens00,dens10)>0.6) continue;
+ if (TMath::Min(dens01,dens11)>0.6) continue;
+
+ //
+ AliTPCseed * ktrack0, *ktrack1;
+ if (dens00>dens10){
+ ktrack0 = track0;
+ ktrack1 = track1;
+ }
+ else{
+ ktrack0 = track1;
+ ktrack1 = track0;
+ }
+ if (TMath::Abs(ktrack0->GetC())>5) continue; // cut on the curvature for mother particle
+ AliExternalTrackParam paramm(*ktrack0);
+ AliExternalTrackParam paramd(*ktrack1);
+ if (row0>60&&ktrack1->GetReference().GetX()>90.) new (¶md) AliExternalTrackParam(ktrack1->GetReference());
+ //
+ //
+ kink->SetMother(paramm);
+ kink->SetDaughter(paramd);
+ kink->Update();
+
+ Float_t x[3] = { kink->GetPosition()[0],kink->GetPosition()[1],kink->GetPosition()[2]};
+ Int_t index[4];
+ fParam->Transform0to1(x,index);
+ fParam->Transform1to2(x,index);
+ row0 = GetRowNumber(x[0]);
+
+ if (kink->GetR()<100) continue;
+ if (kink->GetR()>240) continue;
+ if (kink->GetPosition()[2]/kink->GetR()>AliTPCReconstructor::GetCtgRange()) continue; //out of fiducial volume
+ if (kink->GetDistance()>cdist3) continue;
+ Float_t dird = kink->GetDaughterP()[0]*kink->GetPosition()[0]+kink->GetDaughterP()[1]*kink->GetPosition()[1]; // rough direction estimate
+ if (dird<0) continue;
+
+ Float_t dirm = kink->GetMotherP()[0]*kink->GetPosition()[0]+kink->GetMotherP()[1]*kink->GetPosition()[1]; // rough direction estimate
+ if (dirm<0) continue;
+ Float_t mpt = TMath::Sqrt(kink->GetMotherP()[0]*kink->GetMotherP()[0]+kink->GetMotherP()[1]*kink->GetMotherP()[1]);
+ if (mpt<0.2) continue;
+
+ if (mpt<1){
+ //for high momenta momentum not defined well in first iteration
+ Double_t qt = TMath::Sin(kink->GetAngle(2))*ktrack1->P();
+ if (qt>0.35) continue;
+ }
+
+ kink->SetLabel(CookLabel(ktrack0,0.4,0,row0),0);
+ kink->SetLabel(CookLabel(ktrack1,0.4,row0,160),1);
+ if (dens00>dens10){
+ kink->SetTPCDensity(dens00,0,0);
+ kink->SetTPCDensity(dens01,0,1);
+ kink->SetTPCDensity(dens10,1,0);
+ kink->SetTPCDensity(dens11,1,1);
+ kink->SetIndex(i,0);
+ kink->SetIndex(j,1);
+ }
+ else{
+ kink->SetTPCDensity(dens10,0,0);
+ kink->SetTPCDensity(dens11,0,1);
+ kink->SetTPCDensity(dens00,1,0);
+ kink->SetTPCDensity(dens01,1,1);
+ kink->SetIndex(j,0);
+ kink->SetIndex(i,1);
+ }
+
+ if (mpt<1||kink->GetAngle(2)>0.1){
+ // angle and densities not defined yet
+ if (kink->GetTPCDensityFactor()<0.8) continue;
+ if ((2-kink->GetTPCDensityFactor())*kink->GetDistance() >0.25) continue;
+ if (kink->GetAngle(2)*ktrack0->P()<0.003) continue; //too small angle
+ if (kink->GetAngle(2)>0.2&&kink->GetTPCDensityFactor()<1.15) continue;
+ if (kink->GetAngle(2)>0.2&&kink->GetTPCDensity(0,1)>0.05) continue;
+
+ Float_t criticalangle = track0->fC22+track0->fC33;
+ criticalangle+= track1->fC22+track1->fC33;
+ criticalangle= 3*TMath::Sqrt(criticalangle);
+ if (criticalangle>0.02) criticalangle=0.02;
+ if (kink->GetAngle(2)<criticalangle) continue;
+ }
+ //
+ Int_t drow = Int_t(2.+0.5/(0.05+kink->GetAngle(2))); // overlap region defined
+ Float_t shapesum =0;
+ Float_t sum = 0;
+ for ( Int_t row = row0-drow; row<row0+drow;row++){
+ if (row<0) continue;
+ if (row>155) continue;
+ if (ktrack0->fClusterPointer[row]){
+ AliTPCTrackerPoint *point =ktrack0->GetTrackPoint(row);
+ shapesum+=point->GetSigmaY()+point->GetSigmaZ();
+ sum++;
+ }
+ if (ktrack1->fClusterPointer[row]){
+ AliTPCTrackerPoint *point =ktrack1->GetTrackPoint(row);
+ shapesum+=point->GetSigmaY()+point->GetSigmaZ();
+ sum++;
+ }
+ }
+ if (sum<4){
+ kink->SetShapeFactor(-1.);
+ }
+ else{
+ kink->SetShapeFactor(shapesum/sum);
+ }
+ // esd->AddKink(kink);
+ kinks->AddLast(kink);
+ kink = new AliESDkink;
+ ncandidates++;
+ }
+ }
+ //
+ // sort the kinks according quality - and refit them towards vertex
+ //
+ Int_t nkinks = kinks->GetEntriesFast();
+ Float_t *quality = new Float_t[nkinks];
+ Int_t *indexes = new Int_t[nkinks];
+ AliTPCseed *mothers = new AliTPCseed[nkinks];
+ AliTPCseed *daughters = new AliTPCseed[nkinks];
+ //
+ //
+ for (Int_t i=0;i<nkinks;i++){
+ quality[i] =100000;
+ AliESDkink *kink = (AliESDkink*)kinks->At(i);
+ //
+ // refit kinks towards vertex
+ //
+ Int_t index0 = kink->GetIndex(0);
+ Int_t index1 = kink->GetIndex(1);
+ AliTPCseed * ktrack0 = (AliTPCseed*)array->At(index0);
+ AliTPCseed * ktrack1 = (AliTPCseed*)array->At(index1);
+ //
+ Int_t sumn=ktrack0->fN+ktrack1->fN;
+ //
+ // Refit Kink under if too small angle
+ //
+ if (kink->GetAngle(2)<0.05){
+ kink->SetTPCRow0(GetRowNumber(kink->GetR()));
+ Int_t row0 = kink->GetTPCRow0();
+ Int_t drow = Int_t(2.+0.5/(0.05+kink->GetAngle(2)));
+ //
+ //
+ Int_t last = row0-drow;
+ if (last<40) last=40;
+ if (last<ktrack0->fFirstPoint+25) last = ktrack0->fFirstPoint+25;
+ AliTPCseed* seed0 = ReSeed(ktrack0,last,kFALSE);
+ //
+ //
+ Int_t first = row0+drow;
+ if (first>130) first=130;
+ if (first>ktrack1->fLastPoint-25) first = TMath::Max(ktrack1->fLastPoint-25,30);
+ AliTPCseed* seed1 = ReSeed(ktrack1,first,kTRUE);
+ //
+ if (seed0 && seed1){
+ kink->SetStatus(1,8);
+ if (RefitKink(*seed0,*seed1,*kink)) kink->SetStatus(1,9);
+ row0 = GetRowNumber(kink->GetR());
+ sumn = seed0->fN+seed1->fN;
+ new (&mothers[i]) AliTPCseed(*seed0);
+ new (&daughters[i]) AliTPCseed(*seed1);
+ }
+ else{
+ delete kinks->RemoveAt(i);
+ if (seed0) delete seed0;
+ if (seed1) delete seed1;
+ continue;
+ }
+ if (kink->GetDistance()>0.5 || kink->GetR()<110 || kink->GetR()>240) {
+ delete kinks->RemoveAt(i);
+ if (seed0) delete seed0;
+ if (seed1) delete seed1;
+ continue;
+ }
+ //
+ delete seed0;
+ delete seed1;
+ }
+ //
+ if (kink) quality[i] = 160*((0.1+kink->GetDistance())*(2.-kink->GetTPCDensityFactor()))/(sumn+40.); //the longest -clossest will win
+ }
+ TMath::Sort(nkinks,quality,indexes,kFALSE);
+ //
+ //remove double find kinks
+ //
+ for (Int_t ikink0=1;ikink0<nkinks;ikink0++){
+ AliESDkink * kink0 = (AliESDkink*) kinks->At(indexes[ikink0]);
+ if (!kink0) continue;
+ //
+ for (Int_t ikink1=0;ikink1<ikink0;ikink1++){
+ if (!kink0) continue;
+ AliESDkink * kink1 = (AliESDkink*) kinks->At(indexes[ikink1]);
+ if (!kink1) continue;
+ // if not close kink continue
+ if (TMath::Abs(kink1->GetPosition()[2]-kink0->GetPosition()[2])>10) continue;
+ if (TMath::Abs(kink1->GetPosition()[1]-kink0->GetPosition()[1])>10) continue;
+ if (TMath::Abs(kink1->GetPosition()[0]-kink0->GetPosition()[0])>10) continue;
+ //
+ AliTPCseed &mother0 = mothers[indexes[ikink0]];
+ AliTPCseed &daughter0 = daughters[indexes[ikink0]];
+ AliTPCseed &mother1 = mothers[indexes[ikink1]];
+ AliTPCseed &daughter1 = daughters[indexes[ikink1]];
+ Int_t row0 = (kink0->GetTPCRow0()+kink1->GetTPCRow0())/2;
+ //
+ Int_t same = 0;
+ Int_t both = 0;
+ Int_t samem = 0;
+ Int_t bothm = 0;
+ Int_t samed = 0;
+ Int_t bothd = 0;
+ //
+ for (Int_t i=0;i<row0;i++){
+ if (mother0.fIndex[i]>0 && mother1.fIndex[i]>0){
+ both++;
+ bothm++;
+ if (mother0.fIndex[i]==mother1.fIndex[i]){
+ same++;
+ samem++;
+ }
+ }
+ }
+
+ for (Int_t i=row0;i<158;i++){
+ if (daughter0.fIndex[i]>0 && daughter0.fIndex[i]>0){
+ both++;
+ bothd++;
+ if (mother0.fIndex[i]==mother1.fIndex[i]){
+ same++;
+ samed++;
+ }
+ }
+ }
+ Float_t ratio = Float_t(same+1)/Float_t(both+1);
+ Float_t ratiom = Float_t(samem+1)/Float_t(bothm+1);
+ Float_t ratiod = Float_t(samed+1)/Float_t(bothd+1);
+ if (ratio>0.3 && ratiom>0.5 &&ratiod>0.5) {
+ Int_t sum0 = mother0.fN+daughter0.fN;
+ Int_t sum1 = mother1.fN+daughter1.fN;
+ if (sum1>sum0){
+ shared[kink0->GetIndex(0)]= kTRUE;
+ shared[kink0->GetIndex(1)]= kTRUE;
+ delete kinks->RemoveAt(indexes[ikink0]);
+ }
+ else{
+ shared[kink1->GetIndex(0)]= kTRUE;
+ shared[kink1->GetIndex(1)]= kTRUE;
+ delete kinks->RemoveAt(indexes[ikink1]);
+ }
+ }
+ }
+ }
+
+
+ for (Int_t i=0;i<nkinks;i++){
+ AliESDkink * kink = (AliESDkink*) kinks->At(indexes[i]);
+ if (!kink) continue;
+ kink->SetTPCRow0(GetRowNumber(kink->GetR()));
+ Int_t index0 = kink->GetIndex(0);
+ Int_t index1 = kink->GetIndex(1);
+ if (circular[index0]||circular[index1]&&kink->GetDistance()>0.2) continue;
+ kink->SetMultiple(usage[index0],0);
+ kink->SetMultiple(usage[index1],1);
+ if (kink->GetMultiple()[0]+kink->GetMultiple()[1]>2) continue;
+ if (kink->GetMultiple()[0]+kink->GetMultiple()[1]>0 && quality[indexes[i]]>0.2) continue;
+ if (kink->GetMultiple()[0]+kink->GetMultiple()[1]>0 && kink->GetDistance()>0.2) continue;
+ if (circular[index0]||circular[index1]&&kink->GetDistance()>0.1) continue;
+
+ AliTPCseed * ktrack0 = (AliTPCseed*)array->At(index0);
+ AliTPCseed * ktrack1 = (AliTPCseed*)array->At(index1);
+ if (!ktrack0 || !ktrack1) continue;
+ Int_t index = esd->AddKink(kink);
+ //
+ //
+ if ( ktrack0->fKinkIndexes[0]==0 && ktrack1->fKinkIndexes[0]==0) { //best kink
+ if (mothers[indexes[i]].fN>20 && daughters[indexes[i]].fN>20 && (mothers[indexes[i]].fN+daughters[indexes[i]].fN)>100){
+ new (ktrack0) AliTPCseed(mothers[indexes[i]]);
+ new (ktrack1) AliTPCseed(daughters[indexes[i]]);
+ }
+ }
+ //
+ ktrack0->fKinkIndexes[usage[index0]] = -(index+1);
+ ktrack1->fKinkIndexes[usage[index1]] = (index+1);
+ usage[index0]++;
+ usage[index1]++;
+ }
+ //
+ // Remove tracks corresponding to shared kink's
+ //
+ for (Int_t i=0;i<nentries;i++){
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i);
+ if (!track0) continue;
+ if (track0->fKinkIndexes[0]!=0) continue;
+ if (shared[i]) delete array->RemoveAt(i);
+ }
+
+ //
+ //
+ RemoveUsed2(array,0.5,0.4,30);
+ UnsignClusters();
+ for (Int_t i=0;i<nentries;i++){
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i);
+ if (!track0) continue;
+ track0->CookdEdx(0.02,0.6);
+ track0->CookPID();
+ }
+ //
+ for (Int_t i=0;i<nentries;i++){
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i);
+ if (!track0) continue;
+ if (track0->Pt()<1.4) continue;
+ //remove double high momenta tracks - overlapped with kink candidates
+ Int_t shared=0;
+ Int_t all =0;
+ for (Int_t icl=track0->fFirstPoint;icl<track0->fLastPoint; icl++){
+ if (track0->fClusterPointer[icl]!=0){
+ all++;
+ if (track0->fClusterPointer[icl]->IsUsed(10)) shared++;
+ }
+ }
+ if (Float_t(shared+1)/Float_t(nall+1)>0.5) {
+ delete array->RemoveAt(i);
+ }
+ //
+ if (track0->fKinkIndexes[0]!=0) continue;
+ if (track0->GetNumberOfClusters()<80) continue;
+
+ AliTPCseed *pmother = new AliTPCseed();
+ AliTPCseed *pdaughter = new AliTPCseed();
+ AliESDkink *pkink = new AliESDkink;
+
+ AliTPCseed & mother = *pmother;
+ AliTPCseed & daughter = *pdaughter;
+ AliESDkink & kink = *pkink;
+ if (CheckKinkPoint(track0,mother,daughter, kink)){
+ if (mother.fN<30||daughter.fN<20) {
+ delete pmother;
+ delete pdaughter;
+ delete pkink;
+ continue; //too short tracks
+ }
+ if (mother.Pt()<1.4) {
+ delete pmother;
+ delete pdaughter;
+ delete pkink;
+ continue;
+ }
+ Int_t row0= kink.GetTPCRow0();
+ if (kink.GetDistance()>0.5 || kink.GetR()<110. || kink.GetR()>240.) {
+ delete pmother;
+ delete pdaughter;
+ delete pkink;
+ continue;
+ }
+ //
+ Int_t index = esd->AddKink(&kink);
+ mother.fKinkIndexes[0] = -(index+1);
+ daughter.fKinkIndexes[0] = index+1;
+ if (mother.fN>50) {
+ delete array->RemoveAt(i);
+ array->AddAt(new AliTPCseed(mother),i);
+ }
+ else{
+ array->AddLast(new AliTPCseed(mother));
+ }
+ array->AddLast(new AliTPCseed(daughter));
+ for (Int_t icl=0;icl<row0;icl++) {
+ if (mother.fClusterPointer[icl]) mother.fClusterPointer[icl]->Use(20);
+ }
+ //
+ for (Int_t icl=row0;icl<158;icl++) {
+ if (daughter.fClusterPointer[icl]) daughter.fClusterPointer[icl]->Use(20);
+ }
+ //
+ }
+ delete pmother;
+ delete pdaughter;
+ delete pkink;
+ }
+
+ delete [] daughters;
+ delete [] mothers;
+ //
+ //
+ delete [] dca;
+ delete []circular;
+ delete []shared;
+ delete []quality;
+ delete []indexes;
+ //
+ delete kink;
+ delete[]fim;
+ delete[] zm;
+ delete[] z0;
+ delete [] usage;
+ delete[] alpha;
+ delete[] nclusters;
+ delete[] sign;
+ delete[] helixes;
+ kinks->Delete();
+ delete kinks;
+
+ printf("Ncandidates=\t%d\t%d\t%d\t%d\n",esd->GetNumberOfKinks(),ncandidates,ntracks,nall);
+ timer.Print();
+}
+
+void AliTPCtrackerMI::FindV0s(TObjArray * array, AliESD *esd)
+{
+ //
+ // find V0s
+ //
+ //
+ TObjArray *tpcv0s = new TObjArray(100000);
+ Int_t nentries = array->GetEntriesFast();
+ AliHelix *helixes = new AliHelix[nentries];
+ Int_t *sign = new Int_t[nentries];
+ Float_t *alpha = new Float_t[nentries];
+ Float_t *z0 = new Float_t[nentries];
+ Float_t *dca = new Float_t[nentries];
+ Float_t *sdcar = new Float_t[nentries];
+ Float_t *cdcar = new Float_t[nentries];
+ Float_t *pulldcar = new Float_t[nentries];
+ Float_t *pulldcaz = new Float_t[nentries];
+ Float_t *pulldca = new Float_t[nentries];
+ Bool_t *isPrim = new Bool_t[nentries];
+ const AliESDVertex * primvertex = esd->GetVertex();
+ Double_t zvertex = primvertex->GetZv();
+ //
+ // nentries = array->GetEntriesFast();
+ //
+ for (Int_t i=0;i<nentries;i++){
+ sign[i]=0;
+ isPrim[i]=0;
+ AliTPCseed* track = (AliTPCseed*)array->At(i);
+ if (!track) continue;
+ track->GetV0Indexes()[0] = 0; //rest v0 indexes
+ track->GetV0Indexes()[1] = 0; //rest v0 indexes
+ track->GetV0Indexes()[2] = 0; //rest v0 indexes
+ //
+ alpha[i] = track->GetAlpha();
+ new (&helixes[i]) AliHelix(*track);
+ Double_t xyz[3];
+ helixes[i].Evaluate(0,xyz);
+ sign[i] = (track->GetC()>0) ? -1:1;
+ Double_t x,y,z;
+ x=160;
+ z0[i]=1000;
+ if (track->GetProlongation(0,y,z)) z0[i] = z;
+ dca[i] = track->GetD(0,0);
+ //
+ // dca error parrameterezation + pulls
+ //
+ sdcar[i] = TMath::Sqrt(0.150*0.150+(100*track->fP4)*(100*track->fP4));
+ if (TMath::Abs(track->fP3)>1) sdcar[i]*=2.5;
+ cdcar[i] = TMath::Exp((TMath::Abs(track->fP4)-0.0106)*525.3);
+ pulldcar[i] = (dca[i]-cdcar[i])/sdcar[i];
+ pulldcaz[i] = (z0[i]-zvertex)/sdcar[i];
+ pulldca[i] = TMath::Sqrt(pulldcar[i]*pulldcar[i]+pulldcaz[i]*pulldcaz[i]);
+ if (track->fTPCr[1]+track->fTPCr[2]+track->fTPCr[3]>0.5) {
+ if (pulldca[i]<3.) isPrim[i]=kTRUE; //pion, muon and Kaon 3 sigma cut
+ }
+ if (track->fTPCr[4]>0.5) {
+ if (pulldca[i]<0.5) isPrim[i]=kTRUE; //proton 0.5 sigma cut
+ }
+ if (track->fTPCr[0]>0.4) {
+ isPrim[i]=kFALSE; //electron no sigma cut
+ }
+ }
+ //
+ //
+ TStopwatch timer;
+ timer.Start();
+ Int_t ncandidates =0;
+ Int_t nall =0;
+ Int_t ntracks=0;
+ Double_t phase[2][2],radius[2];
+ //
+ // Finf V0s loop
+ //
+ //
+ // //
+ TTreeSRedirector &cstream = *fDebugStreamer;
+ Float_t fprimvertex[3]={GetX(),GetY(),GetZ()};
+ AliESDV0MI vertex;
+ Double_t cradius0 = 10*10;
+ Double_t cradius1 = 200*200;
+ Double_t cdist1=3.;
+ Double_t cdist2=4.;
+ Double_t cpointAngle = 0.95;
+ //
+ Double_t delta[2]={10000,10000};
+ for (Int_t i =0;i<nentries;i++){
+ if (sign[i]==0) continue;
+ AliTPCseed * track0 = (AliTPCseed*)array->At(i);
+ if (!track0) continue;
+ if (AliTPCReconstructor::StreamLevel()>0){
+ cstream<<"Tracks"<<
+ "Tr0.="<<track0<<
+ "dca="<<dca[i]<<
+ "z0="<<z0[i]<<
+ "zvertex="<<zvertex<<
+ "sdcar0="<<sdcar[i]<<
+ "cdcar0="<<cdcar[i]<<
+ "pulldcar0="<<pulldcar[i]<<
+ "pulldcaz0="<<pulldcaz[i]<<
+ "pulldca0="<<pulldca[i]<<
+ "isPrim="<<isPrim[i]<<
+ "\n";
+ }
+ //
+ if (track0->fP4<0) continue;
+ if (track0->GetKinkIndex(0)>0||isPrim[i]) continue; //daughter kink
+ //
+ if (TMath::Abs(helixes[i].GetHelix(4))<0.000000001) continue;
+ ntracks++;
+ // debug output
+
+
+ for (Int_t j =0;j<nentries;j++){
+ AliTPCseed * track1 = (AliTPCseed*)array->At(j);
+ if (!track1) continue;
+ if (track1->GetKinkIndex(0)>0 || isPrim[j]) continue; //daughter kink
+ if (sign[j]*sign[i]>0) continue;
+ if (TMath::Abs(helixes[j].GetHelix(4))<0.000001) continue;
+ if (track0->fCircular+track1->fCircular>1) continue; //circling -returning track
+ nall++;
+ //
+ // DCA to prim vertex cut
+ //
+ //
+ delta[0]=10000;
+ delta[1]=10000;
+
+ Int_t npoints = helixes[i].GetRPHIintersections(helixes[j], phase, radius,cdist2);
+ if (npoints<1) continue;
+ Int_t iclosest=0;
+ // cuts on radius
+ if (npoints==1){
+ if (radius[0]<cradius0||radius[0]>cradius1) continue;
+ helixes[i].LinearDCA(helixes[j],phase[0][0],phase[0][1],radius[0],delta[0]);
+ if (delta[0]>cdist1) continue;
+ }
+ else{
+ if (TMath::Max(radius[0],radius[1])<cradius0|| TMath::Min(radius[0],radius[1])>cradius1) continue;
+ helixes[i].LinearDCA(helixes[j],phase[0][0],phase[0][1],radius[0],delta[0]);
+ helixes[i].LinearDCA(helixes[j],phase[1][0],phase[1][1],radius[1],delta[1]);
+ if (delta[1]<delta[0]) iclosest=1;
+ if (delta[iclosest]>cdist1) continue;
+ }
+ helixes[i].ParabolicDCA(helixes[j],phase[iclosest][0],phase[iclosest][1],radius[iclosest],delta[iclosest]);
+ if (radius[iclosest]<cradius0 || radius[iclosest]>cradius1 || delta[iclosest]>cdist1) continue;
+ //
+ Double_t pointAngle = helixes[i].GetPointAngle(helixes[j],phase[iclosest],fprimvertex);
+ if (pointAngle<cpointAngle) continue;
+ //
+ Bool_t isGamma = kFALSE;
+ vertex.SetP(*track0); //track0 - plus
+ vertex.SetM(*track1); //track1 - minus
+ vertex.Update(fprimvertex);
+ if (track0->fTPCr[0]>0.3&&track1->fTPCr[0]>0.3&&vertex.GetAnglep()[2]<0.15) isGamma=kTRUE; // gamma conversion candidate
+ Double_t pointAngle2 = vertex.GetPointAngle();
+ //continue;
+ if (vertex.GetPointAngle()<cpointAngle && (!isGamma)) continue; // point angle cut
+ if (vertex.GetDist2()>2&&(!isGamma)) continue; // point angle cut
+ Float_t sigmae = 0.15*0.15;
+ if (vertex.GetRr()<80)
+ sigmae += (sdcar[i]*sdcar[i]+sdcar[j]*sdcar[j])*(1.-vertex.GetRr()/80.)*(1.-vertex.GetRr()/80.);
+ sigmae+= TMath::Sqrt(sigmae);
+ if (vertex.GetDist2()/sigmae>3.&&(!isGamma)) continue;
+ Float_t densb0=0,densb1=0,densa0=0,densa1=0;
+ Int_t row0 = GetRowNumber(vertex.GetRr());
+ if (row0>15){
+ if (vertex.GetDist2()>0.2) continue;
+ densb0 = track0->Density2(0,row0-5);
+ densb1 = track1->Density2(0,row0-5);
+ if (densb0>0.3|| densb1>0.3) continue; //clusters before vertex
+ densa0 = track0->Density2(row0+5,row0+40);
+ densa1 = track1->Density2(row0+5,row0+40);
+ if ((densa0<0.4|| densa1<0.4)&&(!isGamma)) continue; //missing clusters after vertex
+ }
+ else{
+ densa0 = track0->Density2(0,40); //cluster density
+ densa1 = track1->Density2(0,40); //cluster density
+ if ((vertex.GetRr()<80&&densa0+densa1<1.)&&(!isGamma)) continue;
+ }
+ vertex.SetLab(0,track0->GetLabel());
+ vertex.SetLab(1,track1->GetLabel());
+ vertex.SetChi2After((densa0+densa1)*0.5);
+ vertex.SetChi2Before((densb0+densb1)*0.5);
+ vertex.SetIndex(0,i);
+ vertex.SetIndex(1,j);
+ vertex.SetStatus(1); // TPC v0 candidate
+ vertex.SetRp(track0->fTPCr);
+ vertex.SetRm(track1->fTPCr);
+ tpcv0s->AddLast(new AliESDV0MI(vertex));
+ ncandidates++;
+ {
+ Int_t eventNr = esd->GetEventNumber();
+ Double_t radiusm= (delta[0]<delta[1])? TMath::Sqrt(radius[0]):TMath::Sqrt(radius[1]);
+ Double_t deltam= (delta[0]<delta[1])? TMath::Sqrt(delta[0]):TMath::Sqrt(delta[1]);
+ if (AliTPCReconstructor::StreamLevel()>0)
+ cstream<<"V0"<<
+ "Event="<<eventNr<<
+ "vertex.="<<&vertex<<
+ "Tr0.="<<track0<<
+ "lab0="<<track0->fLab<<
+ "Helix0.="<<&helixes[i]<<
+ "Tr1.="<<track1<<
+ "lab1="<<track1->fLab<<
+ "Helix1.="<<&helixes[j]<<
+ "pointAngle="<<pointAngle<<
+ "pointAngle2="<<pointAngle2<<
+ "dca0="<<dca[i]<<
+ "dca1="<<dca[j]<<
+ "z0="<<z0[i]<<
+ "z1="<<z0[j]<<
+ "zvertex="<<zvertex<<
+ "circular0="<<track0->fCircular<<
+ "circular1="<<track1->fCircular<<
+ "npoints="<<npoints<<
+ "radius0="<<radius[0]<<
+ "delta0="<<delta[0]<<
+ "radius1="<<radius[1]<<
+ "delta1="<<delta[1]<<
+ "radiusm="<<radiusm<<
+ "deltam="<<deltam<<
+ "sdcar0="<<sdcar[i]<<
+ "sdcar1="<<sdcar[j]<<
+ "cdcar0="<<cdcar[i]<<
+ "cdcar1="<<cdcar[j]<<
+ "pulldcar0="<<pulldcar[i]<<
+ "pulldcar1="<<pulldcar[j]<<
+ "pulldcaz0="<<pulldcaz[i]<<
+ "pulldcaz1="<<pulldcaz[j]<<
+ "pulldca0="<<pulldca[i]<<
+ "pulldca1="<<pulldca[j]<<
+ "densb0="<<densb0<<
+ "densb1="<<densb1<<
+ "densa0="<<densa0<<
+ "densa1="<<densa1<<
+ "sigmae="<<sigmae<<
+ "\n";
+ }
+ }
+ }
+ Float_t *quality = new Float_t[ncandidates];
+ Int_t *indexes = new Int_t[ncandidates];
+ Int_t naccepted =0;
+ for (Int_t i=0;i<ncandidates;i++){
+ quality[i] = 0;
+ AliESDV0MI *v0 = (AliESDV0MI*)tpcv0s->At(i);
+ quality[i] = 1./(1.00001-v0->GetPointAngle()); //base point angle
+ // quality[i] /= (0.5+v0->GetDist2());
+ // quality[i] *= v0->GetChi2After(); //density factor
+ Double_t minpulldca = TMath::Min(2.+pulldca[v0->GetIndex(0)],(2.+pulldca[v0->GetIndex(1)]) ); //pull
+ Int_t index0 = v0->GetIndex(0);
+ Int_t index1 = v0->GetIndex(1);
+ AliTPCseed * track0 = (AliTPCseed*)array->At(index0);
+ AliTPCseed * track1 = (AliTPCseed*)array->At(index1);
+ if (track0->fTPCr[0]>0.3&&track1->fTPCr[0]>0.3&&v0->GetAnglep()[2]<0.15) quality[i]+=1000000; // gamma conversion candidate
+ if (track0->fTPCr[4]>0.9||track1->fTPCr[4]>0.9&&minpulldca>4) quality[i]*=10; // lambda candidate candidate
+ }
+
+ TMath::Sort(ncandidates,quality,indexes,kTRUE);
+ //
+ //
+ for (Int_t i=0;i<ncandidates;i++){
+ AliESDV0MI * v0 = (AliESDV0MI*)tpcv0s->At(indexes[i]);
+ if (!v0) continue;
+ Int_t index0 = v0->GetIndex(0);
+ Int_t index1 = v0->GetIndex(1);
+ AliTPCseed * track0 = (AliTPCseed*)array->At(index0);
+ AliTPCseed * track1 = (AliTPCseed*)array->At(index1);
+ if (!track0||!track1) {
+ printf("Bug\n");
+ continue;
+ }
+ Bool_t accept =kTRUE; //default accept
+ Int_t *v0indexes0 = track0->GetV0Indexes();
+ Int_t *v0indexes1 = track1->GetV0Indexes();
+ //
+ Int_t order0 = (v0indexes0[0]!=0) ? 1:0;
+ Int_t order1 = (v0indexes1[0]!=0) ? 1:0;
+ if (v0indexes0[1]!=0) order0 =2;
+ if (v0indexes1[1]!=0) order1 =2;
+ //
+ if (v0indexes0[2]!=0) {order0=3; accept=kFALSE;}
+ if (v0indexes0[2]!=0) {order1=3; accept=kFALSE;}
+ //
+ AliESDV0MI * v02 = v0;
+ if (accept){
+ v0->SetOrder(0,order0);
+ v0->SetOrder(1,order1);
+ v0->SetOrder(1,order0+order1);
+ Int_t index = esd->AddV0MI(v0);
+ v02 = esd->GetV0MI(index);
+ v0indexes0[order0]=index;
+ v0indexes1[order1]=index;
+ naccepted++;
+ }
+ {
+ Int_t eventNr = esd->GetEventNumber();
+ if (AliTPCReconstructor::StreamLevel()>0)
+ cstream<<"V02"<<
+ "Event="<<eventNr<<
+ "vertex.="<<v0<<
+ "vertex2.="<<v02<<
+ "Tr0.="<<track0<<
+ "lab0="<<track0->fLab<<
+ "Tr1.="<<track1<<
+ "lab1="<<track1->fLab<<
+ "dca0="<<dca[index0]<<
+ "dca1="<<dca[index1]<<
+ "order0="<<order0<<
+ "order1="<<order1<<
+ "accept="<<accept<<
+ "quality="<<quality[i]<<
+ "pulldca0="<<pulldca[index0]<<
+ "pulldca1="<<pulldca[index1]<<
+ "index="<<i<<
+ "\n";
+ }
+ }
+
+
+ //
+ //
+ delete []quality;
+ delete []indexes;
+//
+ delete [] isPrim;
+ delete [] pulldca;
+ delete [] pulldcaz;
+ delete [] pulldcar;
+ delete [] cdcar;
+ delete [] sdcar;
+ delete [] dca;
+ //
+ delete[] z0;
+ delete[] alpha;
+ delete[] sign;
+ delete[] helixes;
+ printf("TPC V0 finder : naccepted\t%d\tncandidates\t%d\tntracks\t%d\tnall\t%d\n",naccepted,ncandidates,ntracks,nall);
+ timer.Print();
+}
+
+Int_t AliTPCtrackerMI::RefitKink(AliTPCseed &mother, AliTPCseed &daughter, AliESDkink &kink)
+{
+ //
+ // refit kink towards to the vertex
+ //
+ //
+ Int_t row0 = GetRowNumber(kink.GetR());
+ FollowProlongation(mother,0);
+ mother.Reset(kFALSE);
+ //
+ FollowProlongation(daughter,row0);
+ daughter.Reset(kFALSE);
+ FollowBackProlongation(daughter,158);
+ daughter.Reset(kFALSE);
+ Int_t first = TMath::Max(row0-20,30);
+ Int_t last = TMath::Min(row0+20,140);
+ //
+ const Int_t kNdiv =5;
+ AliTPCseed param0[kNdiv]; // parameters along the track
+ AliTPCseed param1[kNdiv]; // parameters along the track
+ AliESDkink kinks[kNdiv]; // corresponding kink parameters
+ //
+ Int_t rows[kNdiv];
+ for (Int_t irow=0; irow<kNdiv;irow++){
+ rows[irow] = first +((last-first)*irow)/(kNdiv-1);
+ }
+ // store parameters along the track
+ //
+ for (Int_t irow=0;irow<kNdiv;irow++){
+ FollowBackProlongation(mother, rows[irow]);
+ FollowProlongation(daughter,rows[kNdiv-1-irow]);
+ new(¶m0[irow]) AliTPCseed(mother);
+ new(¶m1[kNdiv-1-irow]) AliTPCseed(daughter);
+ }
+ //
+ // define kinks
+ for (Int_t irow=0; irow<kNdiv-1;irow++){
+ if (param0[irow].fN<kNdiv||param1[irow].fN<kNdiv) continue;
+ kinks[irow].SetMother(param0[irow]);
+ kinks[irow].SetDaughter(param1[irow]);
+ kinks[irow].Update();
+ }
+ //
+ // choose kink with best "quality"
+ Int_t index =-1;
+ Double_t mindist = 10000;
+ for (Int_t irow=0;irow<kNdiv;irow++){
+ if (param0[irow].fN<20||param1[irow].fN<20) continue;
+ if (TMath::Abs(kinks[irow].GetR())>240.) continue;
+ if (TMath::Abs(kinks[irow].GetR())<100.) continue;
+ //
+ Float_t normdist = TMath::Abs(param0[irow].fX-kinks[irow].GetR())*(0.1+kink.GetDistance());
+ normdist/= (param0[irow].fN+param1[irow].fN+40.);
+ if (normdist < mindist){
+ mindist = normdist;
+ index = irow;
+ }
+ }
+ //
+ if (index==-1) return 0;
+ //
+ //
+ param0[index].Reset(kTRUE);
+ FollowProlongation(param0[index],0);
+ //
+ new (&mother) AliTPCseed(param0[index]);
+ new (&daughter) AliTPCseed(param1[index]); // daughter in vertex
+ //
+ kink.SetMother(mother);
+ kink.SetDaughter(daughter);
+ kink.Update();
+ kink.SetTPCRow0(GetRowNumber(kink.GetR()));
+ kink.SetTPCncls(param0[index].fN,0);
+ kink.SetTPCncls(param1[index].fN,1);
+ kink.SetLabel(CookLabel(&mother,0.4, 0,kink.GetTPCRow0()),0);
+ kink.SetLabel(CookLabel(&daughter,0.4, kink.GetTPCRow0(),160),1);
+ mother.SetLabel(kink.GetLabel(0));
+ daughter.SetLabel(kink.GetLabel(1));
+
+ return 1;
+}
+
+
+void AliTPCtrackerMI::UpdateKinkQualityM(AliTPCseed * seed){
+ //
+ // update Kink quality information for mother after back propagation
+ //
+ if (seed->GetKinkIndex(0)>=0) return;
+ for (Int_t ikink=0;ikink<3;ikink++){
+ Int_t index = seed->GetKinkIndex(ikink);
+ if (index>=0) break;
+ index = TMath::Abs(index)-1;
+ AliESDkink * kink = fEvent->GetKink(index);
+ //kink->fTPCdensity2[0][0]=-1;
+ //kink->fTPCdensity2[0][1]=-1;
+ kink->SetTPCDensity2(-1,0,0);
+ kink->SetTPCDensity2(1,0,1);
+ //
+ Int_t row0 = kink->GetTPCRow0() - 2 - Int_t( 0.5/ (0.05+kink->GetAngle(2)));
+ if (row0<15) row0=15;
+ //
+ Int_t row1 = kink->GetTPCRow0() + 2 + Int_t( 0.5/ (0.05+kink->GetAngle(2)));
+ if (row1>145) row1=145;
+ //
+ Int_t found,foundable,shared;
+ seed->GetClusterStatistic(0,row0, found, foundable,shared,kFALSE);
+ if (foundable>5) kink->SetTPCDensity2(Float_t(found)/Float_t(foundable),0,0);
+ seed->GetClusterStatistic(row1,155, found, foundable,shared,kFALSE);
+ if (foundable>5) kink->SetTPCDensity2(Float_t(found)/Float_t(foundable),0,1);
+ }
+
+}
+
+void AliTPCtrackerMI::UpdateKinkQualityD(AliTPCseed * seed){
+ //
+ // update Kink quality information for daughter after refit
+ //
+ if (seed->GetKinkIndex(0)<=0) return;
+ for (Int_t ikink=0;ikink<3;ikink++){
+ Int_t index = seed->GetKinkIndex(ikink);
+ if (index<=0) break;
+ index = TMath::Abs(index)-1;
+ AliESDkink * kink = fEvent->GetKink(index);
+ kink->SetTPCDensity2(-1,1,0);
+ kink->SetTPCDensity2(-1,1,1);
+ //
+ Int_t row0 = kink->GetTPCRow0() -2 - Int_t( 0.5/ (0.05+kink->GetAngle(2)));
+ if (row0<15) row0=15;
+ //
+ Int_t row1 = kink->GetTPCRow0() +2 + Int_t( 0.5/ (0.05+kink->GetAngle(2)));
+ if (row1>145) row1=145;
+ //
+ Int_t found,foundable,shared;
+ seed->GetClusterStatistic(0,row0, found, foundable,shared,kFALSE);
+ if (foundable>5) kink->SetTPCDensity2(Float_t(found)/Float_t(foundable),1,0);
+ seed->GetClusterStatistic(row1,155, found, foundable,shared,kFALSE);
+ if (foundable>5) kink->SetTPCDensity2(Float_t(found)/Float_t(foundable),1,1);
+ }
+
+}
+
+
+Int_t AliTPCtrackerMI::CheckKinkPoint(AliTPCseed*seed,AliTPCseed &mother, AliTPCseed &daughter, AliESDkink &kink)
+{
+ //
+ // check kink point for given track
+ // if return value=0 kink point not found
+ // otherwise seed0 correspond to mother particle
+ // seed1 correspond to daughter particle
+ // kink parameter of kink point
+
+ Int_t middlerow = (seed->fFirstPoint+seed->fLastPoint)/2;
+ Int_t first = seed->fFirstPoint;
+ Int_t last = seed->fLastPoint;
+ if (last-first<20) return 0; // shortest length - 2*30 = 60 pad-rows
+
+ AliTPCseed *seed1 = ReSeed(seed,middlerow+20, kTRUE); //middle of chamber
+ if (!seed1) return 0;
+ FollowProlongation(*seed1,seed->fLastPoint-20);
+ seed1->Reset(kTRUE);
+ FollowProlongation(*seed1,158);
+ seed1->Reset(kTRUE);
+ last = seed1->fLastPoint;
+ //
+ AliTPCseed *seed0 = new AliTPCseed(*seed);
+ seed0->Reset(kFALSE);
+ seed0->Reset();
+ //
+ AliTPCseed param0[20]; // parameters along the track
+ AliTPCseed param1[20]; // parameters along the track
+ AliESDkink kinks[20]; // corresponding kink parameters
+ Int_t rows[20];
+ for (Int_t irow=0; irow<20;irow++){
+ rows[irow] = first +((last-first)*irow)/19;
+ }
+ // store parameters along the track
+ //
+ for (Int_t irow=0;irow<20;irow++){
+ FollowBackProlongation(*seed0, rows[irow]);
+ FollowProlongation(*seed1,rows[19-irow]);
+ new(¶m0[irow]) AliTPCseed(*seed0);
+ new(¶m1[19-irow]) AliTPCseed(*seed1);
+ }
+ //
+ // define kinks
+ for (Int_t irow=0; irow<19;irow++){
+ kinks[irow].SetMother(param0[irow]);
+ kinks[irow].SetDaughter(param1[irow]);
+ kinks[irow].Update();
+ }
+ //
+ // choose kink with biggest change of angle
+ Int_t index =-1;
+ Double_t maxchange= 0;
+ for (Int_t irow=1;irow<19;irow++){
+ if (TMath::Abs(kinks[irow].GetR())>240.) continue;
+ if (TMath::Abs(kinks[irow].GetR())<110.) continue;
+ Float_t quality = TMath::Abs(kinks[irow].GetAngle(2))/(3.+TMath::Abs(kinks[irow].GetR()-param0[irow].fX));
+ if ( quality > maxchange){
+ maxchange = quality;
+ index = irow;
+ //
+ }
+ }
+ delete seed0;
+ delete seed1;
+ if (index<0) return 0;
+ //
+ Int_t row0 = GetRowNumber(kinks[index].GetR()); //row 0 estimate
+ seed0 = new AliTPCseed(param0[index]);
+ seed1 = new AliTPCseed(param1[index]);
+ seed0->Reset(kFALSE);
+ seed1->Reset(kFALSE);
+ seed0->ResetCovariance();
+ seed1->ResetCovariance();
+ FollowProlongation(*seed0,0);
+ FollowBackProlongation(*seed1,158);
+ new (&mother) AliTPCseed(*seed0); // backup mother at position 0
+ seed0->Reset(kFALSE);
+ seed1->Reset(kFALSE);
+ seed0->ResetCovariance();
+ seed1->ResetCovariance();
+ //
+ first = TMath::Max(row0-20,0);
+ last = TMath::Min(row0+20,158);
+ //
+ for (Int_t irow=0; irow<20;irow++){
+ rows[irow] = first +((last-first)*irow)/19;
+ }
+ // store parameters along the track
+ //
+ for (Int_t irow=0;irow<20;irow++){
+ FollowBackProlongation(*seed0, rows[irow]);
+ FollowProlongation(*seed1,rows[19-irow]);
+ new(¶m0[irow]) AliTPCseed(*seed0);
+ new(¶m1[19-irow]) AliTPCseed(*seed1);
+ }
+ //
+ // define kinks
+ for (Int_t irow=0; irow<19;irow++){
+ kinks[irow].SetMother(param0[irow]);
+ kinks[irow].SetDaughter(param1[irow]);
+ // param0[irow].Dump();
+ //param1[irow].Dump();
+ kinks[irow].Update();
+ }
+ //
+ // choose kink with biggest change of angle
+ index =-1;
+ maxchange= 0;
+ for (Int_t irow=0;irow<20;irow++){
+ if (TMath::Abs(kinks[irow].GetR())>250.) continue;
+ if (TMath::Abs(kinks[irow].GetR())<90.) continue;
+ Float_t quality = TMath::Abs(kinks[irow].GetAngle(2))/(3.+TMath::Abs(kinks[irow].GetR()-param0[irow].fX));
+ if ( quality > maxchange){
+ maxchange = quality;
+ index = irow;
+ //
+ }
+ }
+ //
+ //
+ if (index==-1 || param0[index].fN+param1[index].fN<100){
+ delete seed0;
+ delete seed1;
+ return 0;
+ }
+ // Float_t anglesigma = TMath::Sqrt(param0[index].fC22+param0[index].fC33+param1[index].fC22+param1[index].fC33);
+ kink.SetMother(param0[index]);
+ kink.SetDaughter(param1[index]);
+ kink.Update();
+ row0 = GetRowNumber(kink.GetR());
+ kink.SetTPCRow0(row0);
+ kink.SetLabel(CookLabel(seed0,0.5,0,row0),0);
+ kink.SetLabel(CookLabel(seed1,0.5,row0,158),1);
+ kink.SetIndex(-10,0);
+ kink.SetIndex(int(param0[index].fN+param1[index].fN),1);
+ kink.SetTPCncls(param0[index].fN,0);
+ kink.SetTPCncls(param1[index].fN,1);
+ //
+ //
+ // new (&mother) AliTPCseed(param0[index]);
+ new (&daughter) AliTPCseed(param1[index]);
+ daughter.SetLabel(kink.GetLabel(1));
+ param0[index].Reset(kTRUE);
+ FollowProlongation(param0[index],0);
+ new (&mother) AliTPCseed(param0[index]);
+ mother.SetLabel(kink.GetLabel(0));
+ delete seed0;
+ delete seed1;
+ //
+ return 1;
+}
+
+
+
+
+AliTPCseed* AliTPCtrackerMI::ReSeed(AliTPCseed *t)
+{
+ //
+ // reseed - refit - track
+ //
+ Int_t first = 0;
+ // Int_t last = fSectors->GetNRows()-1;
+ //
+ if (fSectors == fOuterSec){
+ first = TMath::Max(first, t->fFirstPoint-fInnerSec->GetNRows());
+ //last =
+ }
+ else
+ first = t->fFirstPoint;
+ //
+ AliTPCseed * seed = MakeSeed(t,0.1,0.5,0.9);
+ FollowBackProlongation(*t,fSectors->GetNRows()-1);
+ t->Reset(kFALSE);
+ FollowProlongation(*t,first);
+ return seed;
}
+
+
//_____________________________________________________________________________
Int_t AliTPCtrackerMI::ReadSeeds(const TFile *inp) {
//-----------------------------------------------------------------
Int_t n=(Int_t)seedTree->GetEntries();
for (Int_t i=0; i<n; i++) {
seedTree->GetEvent(i);
- fSeeds->AddLast(new AliTPCseed(*seed,seed->GetAlpha()));
+ fSeeds->AddLast(new AliTPCseed(*seed/*,seed->GetAlpha()*/));
}
delete seed;
return 0;
}
+Int_t AliTPCtrackerMI::Clusters2Tracks (AliESD *esd)
+{
+ //
+ if (fSeeds) DeleteSeeds();
+ fEvent = esd;
+ Clusters2Tracks();
+ if (!fSeeds) return 1;
+ FillESD(fSeeds);
+ return 0;
+ //
+}
+
+
//_____________________________________________________________________________
-Int_t AliTPCtrackerMI::Clusters2Tracks(const TFile *inp, TFile *out) {
+Int_t AliTPCtrackerMI::Clusters2Tracks() {
//-----------------------------------------------------------------
// This is a track finder.
//-----------------------------------------------------------------
TDirectory *savedir=gDirectory;
+ TStopwatch timer;
- if (inp) {
- TFile *in=(TFile*)inp;
- if (!in->IsOpen()) {
- cerr<<"AliTPCtrackerMI::Clusters2Tracks(): input file is not open !\n";
- return 1;
- }
+ fIteration = 0;
+ fSeeds = Tracking();
+
+ if (fDebug>0){
+ Info("Clusters2Tracks","Time for tracking: \t");timer.Print();timer.Start();
+ }
+ //activate again some tracks
+ for (Int_t i=0; i<fSeeds->GetEntriesFast(); i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ Int_t nc=t.GetNumberOfClusters();
+ if (nc<20) {
+ delete fSeeds->RemoveAt(i);
+ continue;
+ }
+ CookLabel(pt,0.1);
+ if (pt->fRemoval==10) {
+ if (pt->GetDensityFirst(20)>0.8 || pt->GetDensityFirst(30)>0.8 || pt->GetDensityFirst(40)>0.7)
+ pt->Desactivate(10); // make track again active
+ else{
+ pt->Desactivate(20);
+ delete fSeeds->RemoveAt(i);
+ }
+ }
}
+ //
+ RemoveUsed2(fSeeds,0.85,0.85,0);
+ FindKinks(fSeeds,fEvent);
+ RemoveUsed2(fSeeds,0.5,0.4,20);
+ // //
+// // refit short tracks
+// //
+ Int_t nseed=fSeeds->GetEntriesFast();
+// for (Int_t i=0; i<nseed; i++) {
+// AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
+// if (!pt) continue;
+// Int_t nc=t.GetNumberOfClusters();
+// if (nc<15) {
+// delete fSeeds->RemoveAt(i);
+// continue;
+// }
+// if (pt->GetKinkIndexes()[0]!=0) continue; // ignore kink candidates
+// if (nc>100) continue; // hopefully, enough for ITS
+// AliTPCseed *seed2 = new AliTPCseed(*pt);
+// //seed2->Reset(kFALSE);
+// //pt->ResetCovariance();
+// seed2->Modify(1);
+// FollowBackProlongation(*seed2,158);
+// //seed2->Reset(kFALSE);
+// seed2->Modify(10);
+// FollowProlongation(*seed2,0);
+// TTreeSRedirector &cstream = *fDebugStreamer;
+// cstream<<"Crefit"<<
+// "Tr0.="<<pt<<
+// "Tr1.="<<seed2<<
+// "\n";
+// if (seed2->fN>pt->fN){
+// delete fSeeds->RemoveAt(i);
+// fSeeds->AddAt(seed2,i);
+// }else{
+// delete seed2;
+// }
+// }
+// RemoveUsed2(fSeeds,0.6,0.6,50);
+
+// FindV0s(fSeeds,fEvent);
+ //RemoveDouble(fSeeds,0.2,0.6,11);
- if (!out->IsOpen()) {
- cerr<<"AliTPCtrackerMI::Clusters2Tracks(): output file is not open !\n";
- return 2;
+ //
+ Int_t found = 0;
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ Int_t nc=t.GetNumberOfClusters();
+ if (nc<15) {
+ delete fSeeds->RemoveAt(i);
+ continue;
+ }
+ CookLabel(pt,0.1); //For comparison only
+ //if ((pt->IsActive() || (pt->fRemoval==10) )&& nc>50 &&pt->GetNumberOfClusters()>0.4*pt->fNFoundable){
+ if ((pt->IsActive() || (pt->fRemoval==10) )){
+ found++;
+ if (fDebug>0) cerr<<found<<'\r';
+ pt->fLab2 = i;
+ }
+ else
+ delete fSeeds->RemoveAt(i);
}
- out->cd();
+
+ //RemoveOverlap(fSeeds,0.99,7,kTRUE);
+ SignShared(fSeeds);
+ //RemoveUsed(fSeeds,0.9,0.9,6);
+ //
+ nseed=fSeeds->GetEntriesFast();
+ found = 0;
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ Int_t nc=t.GetNumberOfClusters();
+ if (nc<15) {
+ delete fSeeds->RemoveAt(i);
+ continue;
+ }
+ t.SetUniqueID(i);
+ t.CookdEdx(0.02,0.6);
+ // CheckKinkPoint(&t,0.05);
+ //if ((pt->IsActive() || (pt->fRemoval==10) )&& nc>50 &&pt->GetNumberOfClusters()>0.4*pt->fNFoundable){
+ if ((pt->IsActive() || (pt->fRemoval==10) )){
+ found++;
+ if (fDebug>0){
+ cerr<<found<<'\r';
+ }
+ pt->fLab2 = i;
+ }
+ else
+ delete fSeeds->RemoveAt(i);
+ //AliTPCseed * seed1 = ReSeed(pt,0.05,0.5,1);
+ //if (seed1){
+ // FollowProlongation(*seed1,0);
+ // Int_t n = seed1->GetNumberOfClusters();
+ // printf("fP4\t%f\t%f\n",seed1->GetC(),pt->GetC());
+ // printf("fN\t%d\t%d\n", seed1->GetNumberOfClusters(),pt->GetNumberOfClusters());
+ //
+ //}
+ //AliTPCseed * seed2 = ReSeed(pt,0.95,0.5,0.05);
+
+ }
- char tname[100];
- sprintf(tname,"TreeT_TPC_%d",fEventN);
- TTree tracktree(tname,"Tree with TPC tracks");
- TTree seedtree("Seeds","Seeds");
- AliTPCtrack *iotrack=0;
- AliTPCseed *ioseed=0;
- tracktree.Branch("tracks","AliTPCtrack",&iotrack,32000,0);
- TStopwatch timer;
+ SortTracks(fSeeds, 1);
+
+ /*
+ fIteration = 1;
+ PrepareForBackProlongation(fSeeds,5.);
+ PropagateBack(fSeeds);
+ printf("Time for back propagation: \t");timer.Print();timer.Start();
- printf("Loading clusters \n");
- LoadClusters();
- printf("Time for loading clusters: \t");timer.Print();timer.Start();
+ fIteration = 2;
+
+ PrepareForProlongation(fSeeds,5.);
+ PropagateForward2(fSeeds);
+
+ printf("Time for FORWARD propagation: \t");timer.Print();timer.Start();
+ // RemoveUsed(fSeeds,0.7,0.7,6);
+ //RemoveOverlap(fSeeds,0.9,7,kTRUE);
+
+ nseed=fSeeds->GetEntriesFast();
+ found = 0;
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ Int_t nc=t.GetNumberOfClusters();
+ if (nc<15) {
+ delete fSeeds->RemoveAt(i);
+ continue;
+ }
+ t.CookdEdx(0.02,0.6);
+ // CookLabel(pt,0.1); //For comparison only
+ //if ((pt->IsActive() || (pt->fRemoval==10) )&& nc>50 &&pt->GetNumberOfClusters()>0.4*pt->fNFoundable){
+ if ((pt->IsActive() || (pt->fRemoval==10) )){
+ cerr<<found++<<'\r';
+ }
+ else
+ delete fSeeds->RemoveAt(i);
+ pt->fLab2 = i;
+ }
+ */
+
+ // fNTracks = found;
+ if (fDebug>0){
+ Info("Clusters2Tracks","Time for overlap removal, track writing and dedx cooking: \t"); timer.Print();timer.Start();
+ }
+ //
+ // cerr<<"Number of found tracks : "<<"\t"<<found<<endl;
+ Info("Clusters2Tracks","Number of found tracks %d",found);
+ savedir->cd();
+ // UnloadClusters();
+ //
+ return 0;
+}
- printf("Loading outer sectors\n");
- LoadOuterSectors();
- printf("Time for loading outer sectors: \t");timer.Print();timer.Start();
+void AliTPCtrackerMI::Tracking(TObjArray * arr)
+{
+ //
+ // tracking of the seeds
+ //
- printf("Loading inner sectors\n");
- LoadInnerSectors();
- printf("Time for loading inner sectors: \t");timer.Print();timer.Start();
fSectors = fOuterSec;
- fN=fkNOS;
+ ParallelTracking(arr,150,63);
+ fSectors = fOuterSec;
+ ParallelTracking(arr,63,0);
+}
+
+TObjArray * AliTPCtrackerMI::Tracking(Int_t seedtype, Int_t i1, Int_t i2, Float_t cuts[4], Float_t dy, Int_t dsec)
+{
+ //
+ //
+ //tracking routine
+ TObjArray * arr = new TObjArray;
+ //
+ fSectors = fOuterSec;
+ TStopwatch timer;
+ timer.Start();
+ for (Int_t sec=0;sec<fkNOS;sec++){
+ if (seedtype==3) MakeSeeds3(arr,sec,i1,i2,cuts,dy, dsec);
+ if (seedtype==4) MakeSeeds5(arr,sec,i1,i2,cuts,dy);
+ if (seedtype==2) MakeSeeds2(arr,sec,i1,i2,cuts,dy);
+ }
+ if (fDebug>0){
+ Info("Tracking","\nSeeding - %d\t%d\t%d\t%d\n",seedtype,i1,i2,arr->GetEntriesFast());
+ timer.Print();
+ timer.Start();
+ }
+ Tracking(arr);
+ if (fDebug>0){
+ timer.Print();
+ }
+
+ return arr;
+}
+
+TObjArray * AliTPCtrackerMI::Tracking()
+{
+ //
+ //
+ TStopwatch timer;
+ timer.Start();
+ Int_t nup=fOuterSec->GetNRows()+fInnerSec->GetNRows();
+
+ TObjArray * seeds = new TObjArray;
+ TObjArray * arr=0;
+
+ Int_t gap =20;
+ Float_t cuts[4];
+ cuts[0] = 0.002;
+ cuts[1] = 1.5;
+ cuts[2] = 3.;
+ cuts[3] = 3.;
+ Float_t fnumber = 3.0;
+ Float_t fdensity = 3.0;
+ //
+ //find primaries
+ cuts[0]=0.0066;
+ for (Int_t delta = 0; delta<18; delta+=6){
+ //
+ cuts[0]=0.0070;
+ cuts[1] = 1.5;
+ arr = Tracking(3,nup-1-delta,nup-1-delta-gap,cuts,-1,1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+ for (Int_t i=2;i<6;i+=2){
+ // seed high pt tracks
+ cuts[0]=0.0022;
+ cuts[1]=0.3;
+ arr = Tracking(3,nup-i-delta,nup-i-delta-gap,cuts,-1,0);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ }
+ }
+ fnumber = 4;
+ fdensity = 4.;
+ // RemoveUsed(seeds,0.9,0.9,1);
+ // UnsignClusters();
+ // SignClusters(seeds,fnumber,fdensity);
+
+ //find primaries
+ cuts[0]=0.0077;
+ for (Int_t delta = 20; delta<120; delta+=10){
+ //
+ // seed high pt tracks
+ cuts[0]=0.0060;
+ cuts[1]=0.3;
+ cuts[2]=6.;
+ arr = Tracking(3,nup-delta,nup-delta-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+
+ cuts[0]=0.003;
+ cuts[1]=0.3;
+ cuts[2]=6.;
+ arr = Tracking(3,nup-delta-5,nup-delta-5-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ }
+
+ cuts[0] = 0.01;
+ cuts[1] = 2.0;
+ cuts[2] = 3.;
+ cuts[3] = 2.0;
+ fnumber = 2.;
+ fdensity = 2.;
- //find track seeds
- MakeSeedsAll();
- printf("Time for seeding: \t"); timer.Print();timer.Start();
- Int_t nup=fOuterSec->GetNRows(), nlow=fInnerSec->GetNRows();
- Int_t nrows=nlow+nup;
+ if (fDebug>0){
+ Info("Tracking()","\n\nPrimary seeding\t%d\n\n",seeds->GetEntriesFast());
+ timer.Print();
+ timer.Start();
+ }
+ // RemoveUsed(seeds,0.75,0.75,1);
+ //UnsignClusters();
+ //SignClusters(seeds,fnumber,fdensity);
- Int_t gap=Int_t(0.3*nrows);
- Int_t i;
- //RemoveOverlap(fSeeds,0.6,2);
- Int_t nseed=fSeeds->GetEntriesFast();
- // outer sectors parallel tracking
- ParallelTracking(fSectors->GetNRows()-gap-1,0);
- printf("Time for parralel tracking outer sectors: \t"); timer.Print();timer.Start();
+ // find secondaries
- RemoveOverlap(fSeeds, 0.4,3);
- printf("Time for removal overlap- outer sectors: \t");timer.Print();timer.Start();
- //parallel tracking
- fSectors = fInnerSec;
- fN=fkNIS;
+ cuts[0] = 0.3;
+ cuts[1] = 1.5;
+ cuts[2] = 3.;
+ cuts[3] = 1.5;
- ParallelTracking(fSectors->GetNRows()-1,0);
- /*
- ParallelTracking(fSectors->GetNRows()-1,2*fSectors->GetNRows()/3);
- RemoveOverlap(fSeeds,0.4,5,kTRUE);
- ParallelTracking(2*fSectors->GetNRows()/3-1,fSectors->GetNRows()/3);
- RemoveOverlap(fSeeds,0.4,5,kTRUE);
- ParallelTracking(fSectors->GetNRows()/3-1,0);
- */
- printf("Number of tracks after inner tracking %d\n",fNtracks);
- printf("Time for parralel tracking inner sectors: \t"); timer.Print();timer.Start();
- //
- for (Int_t i=0;i<fSeeds->GetEntriesFast();i++){
- AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i);
- if (!pt) continue;
- if (!pt->IsActive()) continue;
- pt->PropagateTo(90.);
+ arr = Tracking(4,nup-1,nup-1-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+ arr = Tracking(4,nup-2,nup-2-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+ arr = Tracking(4,nup-3,nup-3-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+
+
+ for (Int_t delta = 3; delta<30; delta+=5){
+ //
+ cuts[0] = 0.3;
+ cuts[1] = 1.5;
+ cuts[2] = 3.;
+ cuts[3] = 1.5;
+ arr = Tracking(4,nup-1-delta,nup-1-delta-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+ arr = Tracking(4,nup-3-delta,nup-5-delta-gap,cuts,4);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
}
- RemoveOverlap(fSeeds,0.4,5,kTRUE); // remove overlap - shared points signed
- RemoveUsed(fSeeds,0.4,6);
- printf("Time for removal overlap- inner sectors: \t"); timer.Print();timer.Start();
+ fnumber = 1;
+ fdensity = 1;
//
- //
-
- ioseed = (AliTPCseed*)(fSeeds->UncheckedAt(0));
- AliTPCseed * vseed = new AliTPCseed;
- vseed->fPoints = new TClonesArray("AliTPCTrackPoint",1);
- vseed->fEPoints = new TClonesArray("AliTPCExactPoint",1);
- vseed->fPoints->ExpandCreateFast(2);
-
- //TBranch * seedbranch =
- seedtree.Branch("seeds","AliTPCseed",&vseed,32000,99);
- //delete vseed;
- nseed=fSeeds->GetEntriesFast();
+ // change cuts
+ fnumber = 2.;
+ fdensity = 2.;
+ cuts[0]=0.0080;
- Int_t found = 0;
- for (i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
- if (!pt) continue;
- Int_t nc=t.GetNumberOfClusters();
- if (nc<20) continue;
- t.CookdEdx(0.02,0.6);
- CookLabel(pt,0.1); //For comparison only
- // if ((pt->IsActive()) && (nc>Int_t(0.4*nrows))){
- if ((pt->IsActive()) && (nc>Int_t(0.5*t.fNFoundable) && (t.fNFoundable>Int_t(0.3*nrows)))){
- iotrack=pt;
- tracktree.Fill();
- cerr<<found++<<'\r';
- }
- /*
- pt->RebuildSeed();
- seedbranch->SetAddress(&pt);
+ // find secondaries
+ for (Int_t delta = 30; delta<90; delta+=10){
+ //
+ cuts[0] = 0.3;
+ cuts[1] = 3.5;
+ cuts[2] = 3.;
+ cuts[3] = 3.5;
+ arr = Tracking(4,nup-1-delta,nup-1-delta-gap,cuts,-1);
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ //
+ arr = Tracking(4,nup-5-delta,nup-5-delta-gap,cuts,5 );
+ SumTracks(seeds,arr);
+ SignClusters(seeds,fnumber,fdensity);
+ }
+
+ if (fDebug>0){
+ Info("Tracking()","\n\nSecondary seeding\t%d\n\n",seeds->GetEntriesFast());
+ timer.Print();
+ timer.Start();
+ }
+
+ return seeds;
+ //
- seedtree.Fill();
- for (Int_t j=0;j<160;j++){
- delete pt->fPoints->RemoveAt(j);
+}
+
+
+void AliTPCtrackerMI::SumTracks(TObjArray *arr1,TObjArray *arr2) const
+{
+ //
+ //sum tracks to common container
+ //remove suspicious tracks
+ Int_t nseed = arr2->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt=(AliTPCseed*)arr2->UncheckedAt(i);
+ if (pt){
+ // REMOVE VERY SHORT TRACKS
+ if (pt->GetNumberOfClusters()<20){
+ delete arr2->RemoveAt(i);
+ continue;
+ }// patch 28 fev06
+ // NORMAL ACTIVE TRACK
+ if (pt->IsActive()){
+ arr1->AddLast(arr2->RemoveAt(i));
+ continue;
}
- delete pt->fPoints;
- pt->fPoints =0;
- */
- delete fSeeds->RemoveAt(i);
+ //remove not usable tracks
+ if (pt->fRemoval!=10){
+ delete arr2->RemoveAt(i);
+ continue;
+ }
+
+ // ENABLE ONLY ENOUGH GOOD STOPPED TRACKS
+ if (pt->GetDensityFirst(20)>0.8 || pt->GetDensityFirst(30)>0.8 || pt->GetDensityFirst(40)>0.7)
+ arr1->AddLast(arr2->RemoveAt(i));
+ else{
+ delete arr2->RemoveAt(i);
+ }
+ }
+ }
+ delete arr2;
+}
+
+
+
+void AliTPCtrackerMI::ParallelTracking(TObjArray * arr, Int_t rfirst, Int_t rlast)
+{
+ //
+ // try to track in parralel
+
+ Int_t nseed=arr->GetEntriesFast();
+ //prepare seeds for tracking
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ if (!t.IsActive()) continue;
+ // follow prolongation to the first layer
+ if ( (fSectors ==fInnerSec) || (t.fFirstPoint-fParam->GetNRowLow()>rfirst+1) )
+ FollowProlongation(t, rfirst+1);
+ }
+
+
+ //
+ for (Int_t nr=rfirst; nr>=rlast; nr--){
+ if (nr<fInnerSec->GetNRows())
+ fSectors = fInnerSec;
+ else
+ fSectors = fOuterSec;
+ // make indexes with the cluster tracks for given
+
+ // find nearest cluster
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i), &t=*pt;
+ if (!pt) continue;
+ if (nr==80) pt->UpdateReference();
+ if (!pt->IsActive()) continue;
+ // if ( (fSectors ==fOuterSec) && (pt->fFirstPoint-fParam->GetNRowLow())<nr) continue;
+ if (pt->fRelativeSector>17) {
+ continue;
+ }
+ UpdateClusters(t,nr);
+ }
+ // prolonagate to the nearest cluster - if founded
+ for (Int_t i=0; i<nseed; i++) {
+ AliTPCseed *pt=(AliTPCseed*)arr->UncheckedAt(i);
+ if (!pt) continue;
+ if (!pt->IsActive()) continue;
+ // if ((fSectors ==fOuterSec) && (pt->fFirstPoint-fParam->GetNRowLow())<nr) continue;
+ if (pt->fRelativeSector>17) {
+ continue;
+ }
+ FollowToNextCluster(*pt,nr);
+ }
+ }
+}
+
+void AliTPCtrackerMI::PrepareForBackProlongation(TObjArray * arr,Float_t fac) const
+{
+ //
+ //
+ // if we use TPC track itself we have to "update" covariance
+ //
+ Int_t nseed= arr->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt = (AliTPCseed*)arr->UncheckedAt(i);
+ if (pt) {
+ pt->Modify(fac);
+ //
+ //rotate to current local system at first accepted point
+ Int_t index = pt->GetClusterIndex2(pt->fFirstPoint);
+ Int_t sec = (index&0xff000000)>>24;
+ sec = sec%18;
+ Float_t angle1 = fInnerSec->GetAlpha()*sec+fInnerSec->GetAlphaShift();
+ if (angle1>TMath::Pi())
+ angle1-=2.*TMath::Pi();
+ Float_t angle2 = pt->GetAlpha();
+
+ if (TMath::Abs(angle1-angle2)>0.001){
+ pt->Rotate(angle1-angle2);
+ //angle2 = pt->GetAlpha();
+ //pt->fRelativeSector = pt->GetAlpha()/fInnerSec->GetAlpha();
+ //if (pt->GetAlpha()<0)
+ // pt->fRelativeSector+=18;
+ //sec = pt->fRelativeSector;
+ }
+
+ }
+
+ }
+
+
+}
+void AliTPCtrackerMI::PrepareForProlongation(TObjArray * arr, Float_t fac) const
+{
+ //
+ //
+ // if we use TPC track itself we have to "update" covariance
+ //
+ Int_t nseed= arr->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt = (AliTPCseed*)arr->UncheckedAt(i);
+ if (pt) {
+ pt->Modify(fac);
+ pt->fFirstPoint = pt->fLastPoint;
+ }
+
+ }
+
+
+}
+
+Int_t AliTPCtrackerMI::PropagateBack(TObjArray * arr)
+{
+ //
+ // make back propagation
+ //
+ Int_t nseed= arr->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt = (AliTPCseed*)arr->UncheckedAt(i);
+ if (pt&& pt->GetKinkIndex(0)<=0) {
+ //AliTPCseed *pt2 = new AliTPCseed(*pt);
+ fSectors = fInnerSec;
+ //FollowBackProlongation(*pt,fInnerSec->GetNRows()-1);
+ //fSectors = fOuterSec;
+ FollowBackProlongation(*pt,fInnerSec->GetNRows()+fOuterSec->GetNRows()-1);
+ //if (pt->GetNumberOfClusters()<(pt->fEsd->GetTPCclusters(0)) ){
+ // Error("PropagateBack","Not prolonged track %d",pt->GetLabel());
+ // FollowBackProlongation(*pt2,fInnerSec->GetNRows()+fOuterSec->GetNRows()-1);
+ //}
+ }
+ if (pt&& pt->GetKinkIndex(0)>0) {
+ AliESDkink * kink = fEvent->GetKink(pt->GetKinkIndex(0)-1);
+ pt->fFirstPoint = kink->GetTPCRow0();
+ fSectors = fInnerSec;
+ FollowBackProlongation(*pt,fInnerSec->GetNRows()+fOuterSec->GetNRows()-1);
+ }
+
+ }
+ return 0;
+}
+
+
+Int_t AliTPCtrackerMI::PropagateForward2(TObjArray * arr)
+{
+ //
+ // make forward propagation
+ //
+ Int_t nseed= arr->GetEntriesFast();
+ //
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt = (AliTPCseed*)arr->UncheckedAt(i);
+ if (pt) {
+ FollowProlongation(*pt,0);
+ }
}
- // fNTracks = found;
- printf("Time for track writing and dedx cooking: \t"); timer.Print();timer.Start();
+ return 0;
+}
- UnloadClusters();
- printf("Time for unloading cluster: \t"); timer.Print();timer.Start();
- tracktree.Write();
- seedtree.Write();
- cerr<<"Number of found tracks : "<<"\t"<<found<<endl;
-
- savedir->cd();
+Int_t AliTPCtrackerMI::PropagateForward()
+{
+ //
+ // propagate track forward
+ //UnsignClusters();
+ Int_t nseed = fSeeds->GetEntriesFast();
+ for (Int_t i=0;i<nseed;i++){
+ AliTPCseed *pt = (AliTPCseed*)fSeeds->UncheckedAt(i);
+ if (pt){
+ AliTPCseed &t = *pt;
+ Double_t alpha=t.GetAlpha() - fSectors->GetAlphaShift();
+ if (alpha > 2.*TMath::Pi()) alpha -= 2.*TMath::Pi();
+ if (alpha < 0. ) alpha += 2.*TMath::Pi();
+ t.fRelativeSector = Int_t(alpha/fSectors->GetAlpha()+0.0001)%fN;
+ }
+ }
- return 0;
+ fSectors = fOuterSec;
+ ParallelTracking(fSeeds,fOuterSec->GetNRows()+fInnerSec->GetNRows()-1,fInnerSec->GetNRows());
+ fSectors = fInnerSec;
+ ParallelTracking(fSeeds,fInnerSec->GetNRows()-1,0);
+ //WriteTracks();
+ return 1;
}
-void AliTPCtrackerMI::ParallelTracking(Int_t rfirst, Int_t rlast)
+
+
+
+
+Int_t AliTPCtrackerMI::PropagateBack(AliTPCseed * pt, Int_t row0, Int_t row1)
{
//
- // try to track in parralel
+ // make back propagation, in between row0 and row1
+ //
+
+ if (pt) {
+ fSectors = fInnerSec;
+ Int_t r1;
+ //
+ if (row1<fSectors->GetNRows())
+ r1 = row1;
+ else
+ r1 = fSectors->GetNRows()-1;
+
+ if (row0<fSectors->GetNRows()&& r1>0 )
+ FollowBackProlongation(*pt,r1);
+ if (row1<=fSectors->GetNRows())
+ return 0;
+ //
+ r1 = row1 - fSectors->GetNRows();
+ if (r1<=0) return 0;
+ if (r1>=fOuterSec->GetNRows()) return 0;
+ fSectors = fOuterSec;
+ return FollowBackProlongation(*pt,r1);
+ }
+ return 0;
+}
- Int_t nseed=fSeeds->GetEntriesFast();
- //prepare seeds for tracking
- for (Int_t i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
- if (!pt) continue;
- if (!t.IsActive()) continue;
- // follow prolongation to the first layer
- if ( (fSectors ==fInnerSec) || (t.fFirstPoint>rfirst+1))
- FollowProlongation(t, rfirst+1);
- }
- //
- for (Int_t nr=rfirst; nr>=rlast; nr--){
- // make indexes with the cluster tracks for given
- // for (Int_t i = 0;i<fN;i++)
- // fSectors[i][nr].MakeClusterTracks();
- // find nearest cluster
- for (Int_t i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i), &t=*pt;
- if (!pt) continue;
- if (!pt->IsActive()) continue;
- if ( (fSectors ==fOuterSec) && pt->fFirstPoint<nr) continue;
- if (pt->fRelativeSector>17) {
- continue;
- }
- UpdateClusters(t,i,nr);
- }
- // prolonagate to the nearest cluster - if founded
- for (Int_t i=0; i<nseed; i++) {
- AliTPCseed *pt=(AliTPCseed*)fSeeds->UncheckedAt(i);
- if (!pt) continue;
- if (!pt->IsActive()) continue;
- if ((fSectors ==fOuterSec) &&pt->fFirstPoint<nr) continue;
- if (pt->fRelativeSector>17) {
- continue;
- }
- FollowToNextCluster(i,nr);
- }
- // for (Int_t i= 0;i<fN;i++)
- // fSectors[i][nr].ClearClusterTracks();
- }
-
+void AliTPCtrackerMI::GetShape(AliTPCseed * seed, Int_t row)
+{
+ //
+ //
+ Float_t sd2 = TMath::Abs((fParam->GetZLength()-TMath::Abs(seed->GetZ())))*fParam->GetDiffL()*fParam->GetDiffL();
+ // Float_t padlength = fParam->GetPadPitchLength(seed->fSector);
+ Float_t padlength = GetPadPitchLength(row);
+ //
+ Float_t sresy = (seed->fSector < fParam->GetNSector()/2) ? 0.2 :0.3;
+ Double_t angulary = seed->GetSnp();
+ angulary = angulary*angulary/(1-angulary*angulary);
+ seed->fCurrentSigmaY2 = sd2+padlength*padlength*angulary/12.+sresy*sresy;
+ //
+ Float_t sresz = fParam->GetZSigma();
+ Float_t angularz = seed->GetTgl();
+ seed->fCurrentSigmaZ2 = sd2+padlength*padlength*angularz*angularz*(1+angulary)/12.+sresz*sresz;
+ /*
+ Float_t wy = GetSigmaY(seed);
+ Float_t wz = GetSigmaZ(seed);
+ wy*=wy;
+ wz*=wz;
+ if (TMath::Abs(wy/seed->fCurrentSigmaY2-1)>0.0001 || TMath::Abs(wz/seed->fCurrentSigmaZ2-1)>0.0001 ){
+ printf("problem\n");
+ }
+ */
}
+
Float_t AliTPCtrackerMI::GetSigmaY(AliTPCseed * seed)
{
//
}
-
-//_________________________________________________________________________
-AliTPCclusterMI *AliTPCtrackerMI::GetClusterMI(Int_t index) const {
+//__________________________________________________________________________
+void AliTPCtrackerMI::CookLabel(AliKalmanTrack *tk, Float_t wrong) const {
//--------------------------------------------------------------------
- // Return pointer to a given cluster
+ //This function "cooks" a track label. If label<0, this track is fake.
//--------------------------------------------------------------------
- Int_t sec=(index&0xff000000)>>24;
- Int_t row=(index&0x00ff0000)>>16;
- Int_t ncl=(index&0x0000ffff)>>00;
+ AliTPCseed * t = (AliTPCseed*)tk;
+ Int_t noc=t->GetNumberOfClusters();
+ if (noc<10){
+ //printf("\nnot founded prolongation\n\n\n");
+ //t->Dump();
+ return ;
+ }
+ Int_t lb[160];
+ Int_t mx[160];
+ AliTPCclusterMI *clusters[160];
+ //
+ for (Int_t i=0;i<160;i++) {
+ clusters[i]=0;
+ lb[i]=mx[i]=0;
+ }
+
+ Int_t i;
+ Int_t current=0;
+ for (i=0; i<160 && current<noc; i++) {
+
+ Int_t index=t->GetClusterIndex2(i);
+ if (index<=0) continue;
+ if (index&0x8000) continue;
+ //
+ //clusters[current]=GetClusterMI(index);
+ if (t->fClusterPointer[i]){
+ clusters[current]=t->fClusterPointer[i];
+ current++;
+ }
+ }
+ noc = current;
+
+ Int_t lab=123456789;
+ for (i=0; i<noc; i++) {
+ AliTPCclusterMI *c=clusters[i];
+ if (!c) continue;
+ lab=TMath::Abs(c->GetLabel(0));
+ Int_t j;
+ for (j=0; j<noc; j++) if (lb[j]==lab || mx[j]==0) break;
+ lb[j]=lab;
+ (mx[j])++;
+ }
+
+ Int_t max=0;
+ for (i=0; i<noc; i++) if (mx[i]>max) {max=mx[i]; lab=lb[i];}
+
+ for (i=0; i<noc; i++) {
+ AliTPCclusterMI *c=clusters[i];
+ if (!c) continue;
+ if (TMath::Abs(c->GetLabel(1)) == lab ||
+ TMath::Abs(c->GetLabel(2)) == lab ) max++;
+ }
+
+ if ((1.- Float_t(max)/noc) > wrong) lab=-lab;
+
+ else {
+ Int_t tail=Int_t(0.10*noc);
+ max=0;
+ Int_t ind=0;
+ for (i=1; i<=160&&ind<tail; i++) {
+ // AliTPCclusterMI *c=clusters[noc-i];
+ AliTPCclusterMI *c=clusters[i];
+ if (!c) continue;
+ if (lab == TMath::Abs(c->GetLabel(0)) ||
+ lab == TMath::Abs(c->GetLabel(1)) ||
+ lab == TMath::Abs(c->GetLabel(2))) max++;
+ ind++;
+ }
+ if (max < Int_t(0.5*tail)) lab=-lab;
+ }
+
+ t->SetLabel(lab);
- AliTPCClustersRow *clrow=((AliTPCtrackerMI *) this)->fClustersArray.GetRow(sec,row);
- if (!clrow) return 0;
- return (AliTPCclusterMI*)(*clrow)[ncl];
+ // delete[] lb;
+ //delete[] mx;
+ //delete[] clusters;
}
+
//__________________________________________________________________________
-void AliTPCtrackerMI::CookLabel(AliKalmanTrack *t, Float_t wrong) const {
+Int_t AliTPCtrackerMI::CookLabel(AliTPCseed *t, Float_t wrong,Int_t first, Int_t last) const {
//--------------------------------------------------------------------
//This function "cooks" a track label. If label<0, this track is fake.
//--------------------------------------------------------------------
Int_t noc=t->GetNumberOfClusters();
- Int_t *lb=new Int_t[noc];
- Int_t *mx=new Int_t[noc];
- AliTPCclusterMI **clusters=new AliTPCclusterMI*[noc];
+ if (noc<10){
+ //printf("\nnot founded prolongation\n\n\n");
+ //t->Dump();
+ return -1;
+ }
+ Int_t lb[160];
+ Int_t mx[160];
+ AliTPCclusterMI *clusters[160];
+ //
+ for (Int_t i=0;i<160;i++) {
+ clusters[i]=0;
+ lb[i]=mx[i]=0;
+ }
Int_t i;
- for (i=0; i<noc; i++) {
- lb[i]=mx[i]=0;
- Int_t index=t->GetClusterIndex(i);
- clusters[i]=GetClusterMI(index);
+ Int_t current=0;
+ for (i=0; i<160 && current<noc; i++) {
+ if (i<first) continue;
+ if (i>last) continue;
+ Int_t index=t->GetClusterIndex2(i);
+ if (index<=0) continue;
+ if (index&0x8000) continue;
+ //
+ //clusters[current]=GetClusterMI(index);
+ if (t->fClusterPointer[i]){
+ clusters[current]=t->fClusterPointer[i];
+ current++;
+ }
}
-
+ noc = current;
+ if (noc<5) return -1;
Int_t lab=123456789;
for (i=0; i<noc; i++) {
AliTPCclusterMI *c=clusters[i];
- if (!clusters[i]) continue;
+ if (!c) continue;
lab=TMath::Abs(c->GetLabel(0));
Int_t j;
for (j=0; j<noc; j++) if (lb[j]==lab || mx[j]==0) break;
for (i=0; i<noc; i++) {
AliTPCclusterMI *c=clusters[i];
- if (!clusters[i]) continue;
+ if (!c) continue;
if (TMath::Abs(c->GetLabel(1)) == lab ||
TMath::Abs(c->GetLabel(2)) == lab ) max++;
}
else {
Int_t tail=Int_t(0.10*noc);
max=0;
- for (i=1; i<=tail; i++) {
- AliTPCclusterMI *c=clusters[noc-i];
- if (!clusters[i]) continue;
+ Int_t ind=0;
+ for (i=1; i<=160&&ind<tail; i++) {
+ // AliTPCclusterMI *c=clusters[noc-i];
+ AliTPCclusterMI *c=clusters[i];
+ if (!c) continue;
if (lab == TMath::Abs(c->GetLabel(0)) ||
lab == TMath::Abs(c->GetLabel(1)) ||
lab == TMath::Abs(c->GetLabel(2))) max++;
+ ind++;
}
if (max < Int_t(0.5*tail)) lab=-lab;
}
- t->SetLabel(lab);
+ // t->SetLabel(lab);
+ return lab;
+ // delete[] lb;
+ //delete[] mx;
+ //delete[] clusters;
+}
+
+
+Int_t AliTPCtrackerMI::AliTPCSector::GetRowNumber(Double_t x) const
+{
+ //return pad row number for this x
+ Double_t r;
+ if (fN < 64){
+ r=fRow[fN-1].GetX();
+ if (x > r) return fN;
+ r=fRow[0].GetX();
+ if (x < r) return -1;
+ return Int_t((x-r)/fPadPitchLength + 0.5);}
+ else{
+ r=fRow[fN-1].GetX();
+ if (x > r) return fN;
+ r=fRow[0].GetX();
+ if (x < r) return -1;
+ Double_t r1=fRow[64].GetX();
+ if(x<r1){
+ return Int_t((x-r)/f1PadPitchLength + 0.5);}
+ else{
+ return (Int_t((x-r1)/f2PadPitchLength + 0.5)+64);}
+ }
+}
- delete[] lb;
- delete[] mx;
- delete[] clusters;
+Int_t AliTPCtrackerMI::GetRowNumber(Double_t x[3]) const
+{
+ //return pad row number for given x vector
+ Float_t phi = TMath::ATan2(x[1],x[0]);
+ if(phi<0) phi=2.*TMath::Pi()+phi;
+ // Get the local angle in the sector philoc
+ const Float_t kRaddeg = 180/3.14159265358979312;
+ Float_t phiangle = (Int_t (phi*kRaddeg/20.) + 0.5)*20./kRaddeg;
+ Double_t localx = x[0]*TMath::Cos(phiangle)-x[1]*TMath::Sin(phiangle);
+ return GetRowNumber(localx);
}
//_________________________________________________________________________
}
}
-
-AliTPCtrackerMI::AliTPCRow::~AliTPCRow(){
+AliTPCtrackerMI::AliTPCRow::AliTPCRow() {
//
- if (fClusterTracks) delete [] fClusterTracks;
- fClusterTracks = 0;
+ // default constructor
+ fN=0;
+ fN1=0;
+ fN2=0;
+ fClusters1=0;
+ fClusters2=0;
}
-void AliTPCtrackerMI::AliTPCRow::MakeClusterTracks(){
- //create cluster tracks
- if (fN>0)
- fClusterTracks = new AliTPCclusterTracks[fN];
-}
+AliTPCtrackerMI::AliTPCRow::~AliTPCRow(){
+ //
-void AliTPCtrackerMI::AliTPCRow::ClearClusterTracks(){
- if (fClusterTracks) delete[] fClusterTracks;
- fClusterTracks =0;
}
-void AliTPCtrackerMI::AliTPCRow::UpdateClusterTrack(Int_t clindex, Int_t trindex, AliTPCseed * seed){
- //
- //
- // update information of the cluster tracks - if track is nearer then other tracks to the
- // given track
- const AliTPCclusterMI * cl = (*this)[clindex];
- AliTPCclusterTracks * cltracks = GetClusterTracks(clindex);
- // find the distance of the cluster to the track
- Float_t dy2 = (cl->GetY()- seed->GetY());
- dy2*=dy2;
- Float_t dz2 = (cl->GetZ()- seed->GetZ());
- dz2*=dz2;
- //
- Float_t distance = TMath::Sqrt(dy2+dz2);
- if (distance> 3)
- return; // MI - to be changed - AliTPCtrackerParam
-
- if ( distance < cltracks->fDistance[0]){
- cltracks->fDistance[2] =cltracks->fDistance[1];
- cltracks->fDistance[1] =cltracks->fDistance[0];
- cltracks->fDistance[0] =distance;
- cltracks->fTrackIndex[2] =cltracks->fTrackIndex[1];
- cltracks->fTrackIndex[1] =cltracks->fTrackIndex[0];
- cltracks->fTrackIndex[0] =trindex;
- }
- else
- if ( distance < cltracks->fDistance[1]){
- cltracks->fDistance[2] =cltracks->fDistance[1];
- cltracks->fDistance[1] =distance;
- cltracks->fTrackIndex[2] =cltracks->fTrackIndex[1];
- cltracks->fTrackIndex[1] =trindex;
- } else
- if (distance < cltracks->fDistance[2]){
- cltracks->fDistance[2] =distance;
- cltracks->fTrackIndex[2] =trindex;
- }
-}
-
-
//_________________________________________________________________________
void
AliTPCtrackerMI::AliTPCRow::InsertCluster(const AliTPCclusterMI* c, UInt_t index) {
fIndex[i]=index; fClusters[i]=c; fN++;
}
+void AliTPCtrackerMI::AliTPCRow::ResetClusters() {
+ //
+ // reset clusters
+ fN = 0;
+ fN1 = 0;
+ fN2 = 0;
+ //delete[] fClusterArray;
+ if (fClusters1) delete []fClusters1;
+ if (fClusters2) delete []fClusters2;
+ //fClusterArray=0;
+ fClusters1 = 0;
+ fClusters2 = 0;
+}
+
+
//___________________________________________________________________
Int_t AliTPCtrackerMI::AliTPCRow::Find(Double_t z) const {
//-----------------------------------------------------------------------
return cl;
}
-
-
-
-
-AliTPCseed::AliTPCseed():AliTPCtrack(){
- //
- fRow=0;
- fRemoval =0;
- memset(fClusterIndex,0,sizeof(Int_t)*200);
- fPoints = 0;
- fEPoints = 0;
- fNFoundable =0;
- fNShared =0;
- fTrackPoints =0;
- fRemoval = 0;
-}
-
-AliTPCseed::AliTPCseed(const AliTPCtrack &t):AliTPCtrack(t){
- fPoints = 0;
- fEPoints = 0;
- fNShared =0;
- fTrackPoints =0;
- fRemoval =0;
-}
-
-AliTPCseed::AliTPCseed(const AliKalmanTrack &t, Double_t a):AliTPCtrack(t,a){
- fRow=0;
- memset(fClusterIndex,0,sizeof(Int_t)*200);
- fPoints = 0;
- fEPoints = 0;
- fNFoundable =0;
- fNShared =0;
- fTrackPoints =0;
- fRemoval =0;
-}
-
-AliTPCseed::AliTPCseed(UInt_t index, const Double_t xx[5], const Double_t cc[15],
- Double_t xr, Double_t alpha):
- AliTPCtrack(index, xx, cc, xr, alpha) {
- //
- //
- fRow =0;
- memset(fClusterIndex,0,sizeof(Int_t)*200);
- fPoints = 0;
- fEPoints = 0;
- fNFoundable =0;
- fNShared = 0;
- fTrackPoints =0;
- fRemoval =0;
-}
-
-AliTPCseed::~AliTPCseed(){
- if (fPoints) delete fPoints;
- fPoints =0;
- fEPoints = 0;
- if (fTrackPoints){
- for (Int_t i=0;i<8;i++){
- delete [] fTrackPoints[i];
- }
- delete fTrackPoints;
- fTrackPoints =0;
- }
-
-}
-
-AliTPCTrackPoint * AliTPCseed::GetTrackPoint(Int_t i)
+AliTPCclusterMI * AliTPCtrackerMI::AliTPCRow::FindNearest2(Double_t y, Double_t z, Double_t roady, Double_t roadz,UInt_t & index) const
{
- //
- //
- if (!fTrackPoints) {
- fTrackPoints = new AliTPCTrackPoint*[8];
- for ( Int_t i=0;i<8;i++)
- fTrackPoints[i]=0;
- }
- Int_t index1 = i/20;
- if (!fTrackPoints[index1]) fTrackPoints[index1] = new AliTPCTrackPoint[20];
- return &(fTrackPoints[index1][i%20]);
-}
+ //-----------------------------------------------------------------------
+ // Return the index of the nearest cluster in z y
+ //-----------------------------------------------------------------------
+ Float_t maxdistance = roady*roady + roadz*roadz;
+ AliTPCclusterMI *cl =0;
-void AliTPCseed::RebuildSeed()
-{
- //
- // rebuild seed to be ready for storing
- fPoints = new TClonesArray("AliTPCTrackPoint",160);
- fPoints->ExpandCreateFast(160);
- fEPoints = new TClonesArray("AliTPCExactPoint",1);
- for (Int_t i=0;i<160;i++){
- AliTPCTrackPoint *trpoint = (AliTPCTrackPoint*)fPoints->UncheckedAt(i);
- *trpoint = *(GetTrackPoint(i));
+ //PH Check boundaries. 510 is the size of fFastCluster
+ Int_t iz1 = Int_t(z-roadz+254.5);
+ if (iz1<0 || iz1>=510) return cl;
+ iz1 = TMath::Max(fFastCluster[iz1]-1,0);
+ Int_t iz2 = Int_t(z+roadz+255.5);
+ if (iz2<0 || iz2>=510) return cl;
+ iz2 = TMath::Min(fFastCluster[iz2]+1,fN);
+
+ //FindNearest3(y,z,roady,roadz,index);
+ // for (Int_t i=Find(z-roadz); i<fN; i++) {
+ for (Int_t i=iz1; i<iz2; i++) {
+ AliTPCclusterMI *c=(AliTPCclusterMI*)(fClusters[i]);
+ if (c->GetZ() > z+roadz) break;
+ if ( c->GetY()-y > roady ) continue;
+ if ( y-c->GetY() > roady ) continue;
+ Float_t distance = (c->GetZ()-z)*(c->GetZ()-z)+(c->GetY()-y)*(c->GetY()-y);
+ if (maxdistance>distance) {
+ maxdistance = distance;
+ cl=c;
+ index =i;
+ //roady = TMath::Sqrt(maxdistance);
+ }
}
-
+ return cl;
}
-//_____________________________________________________________________________
-void AliTPCseed::CookdEdx(Double_t low, Double_t up) {
- //-----------------------------------------------------------------
- // This funtion calculates dE/dX within the "low" and "up" cuts.
- //-----------------------------------------------------------------
-
- Float_t amp[200];
- Float_t angular[200];
- Float_t weight[200];
- Int_t index[200];
- //Int_t nc = 0;
- // TClonesArray & arr = *fPoints;
- Float_t meanlog = 100.;
-
- Float_t mean[4] = {0,0,0,0};
- Float_t sigma[4] = {1000,1000,1000,1000};
- Int_t nc[4] = {0,0,0,0};
- Float_t norm[4] = {1000,1000,1000,1000};
- //
- //
- fNShared =0;
- for (Int_t of =0; of<4; of++){
- for (Int_t i=of;i<160;i+=4)
- {
- //AliTPCTrackPoint * point = (AliTPCTrackPoint *) arr.At(i);
- AliTPCTrackPoint * point = GetTrackPoint(i);
- if (point==0) continue;
- if (point->fIsShared){
- fNShared++;
- continue;
- }
- if (point->GetCPoint().GetMax()<5) continue;
- Float_t angley = point->GetTPoint().GetAngleY();
- Float_t anglez = point->GetTPoint().GetAngleZ();
- Int_t type = point->GetCPoint().GetType();
- Float_t rsigmay = point->GetCPoint().GetSigmaY();
- Float_t rsigmaz = point->GetCPoint().GetSigmaZ();
- Float_t rsigma = TMath::Sqrt(rsigmay*rsigmaz);
-
- Float_t ampc = 0; // normalization to the number of electrons
- if (i>64){
- ampc = 1.*point->GetCPoint().GetMax();
- //ampc = 1.*point->GetCPoint().GetQ();
- // AliTPCClusterPoint & p = point->GetCPoint();
- // Float_t dy = TMath::Abs(Int_t( TMath::Abs(p.GetY()/0.6)) - TMath::Abs(p.GetY()/0.6)+0.5);
- // Float_t iz = (250.0-TMath::Abs(p.GetZ())+0.11)/0.566;
- //Float_t dz =
- // TMath::Abs( Int_t(iz) - iz + 0.5);
- //ampc *= 1.15*(1-0.3*dy);
- //ampc *= 1.15*(1-0.3*dz);
- // Float_t zfactor = (1.05-0.0004*TMath::Abs(point->GetCPoint().GetZ()));
- //ampc *=zfactor;
- }
- else{
- ampc = 1.0*point->GetCPoint().GetMax();
- //ampc = 1.0*point->GetCPoint().GetQ();
- //AliTPCClusterPoint & p = point->GetCPoint();
- // Float_t dy = TMath::Abs(Int_t( TMath::Abs(p.GetY()/0.4)) - TMath::Abs(p.GetY()/0.4)+0.5);
- //Float_t iz = (250.0-TMath::Abs(p.GetZ())+0.11)/0.566;
- //Float_t dz =
- // TMath::Abs( Int_t(iz) - iz + 0.5);
-
- //ampc *= 1.15*(1-0.3*dy);
- //ampc *= 1.15*(1-0.3*dz);
- // Float_t zfactor = (1.02-0.000*TMath::Abs(point->GetCPoint().GetZ()));
- //ampc *=zfactor;
- }
- ampc *= 2.0; // put mean value to channel 50
- //ampc *= 0.58; // put mean value to channel 50
- Float_t w = 1.;
- // if (type>0) w = 1./(type/2.-0.5);
- // Float_t z = TMath::Abs(point->GetCPoint().GetZ());
- if (i<64) {
- ampc /= 0.6;
- //ampc /= (1+0.0008*z);
- } else
- if (i>128){
- ampc /=1.5;
- //ampc /= (1+0.0008*z);
- }else{
- //ampc /= (1+0.0008*z);
- }
-
- if (type<0) { //amp at the border - lower weight
- // w*= 2.;
-
- continue;
- }
- if (rsigma>1.5) ampc/=1.3; // if big backround
- amp[nc[of]] = ampc;
- angular[nc[of]] = TMath::Sqrt(1.+angley*angley+anglez*anglez);
- weight[nc[of]] = w;
- nc[of]++;
+AliTPCclusterMI * AliTPCtrackerMI::AliTPCRow::FindNearest3(Double_t y, Double_t z, Double_t roady, Double_t roadz,UInt_t & index) const
+{
+ //-----------------------------------------------------------------------
+ // Return the index of the nearest cluster in z y
+ //-----------------------------------------------------------------------
+ Float_t maxdistance = roady*roady + roadz*roadz;
+ // Int_t iz = Int_t(z+255.);
+ AliTPCclusterMI *cl =0;
+ for (Int_t i=Find(z-roadz); i<fN; i++) {
+ //for (Int_t i=fFastCluster[iz-2]; i<fFastCluster[iz+2]; i++) {
+ AliTPCclusterMI *c=(AliTPCclusterMI*)(fClusters[i]);
+ if (c->GetZ() > z+roadz) break;
+ if ( c->GetY()-y > roady ) continue;
+ if ( y-c->GetY() > roady ) continue;
+ Float_t distance = (c->GetZ()-z)*(c->GetZ()-z)+(c->GetY()-y)*(c->GetY()-y);
+ if (maxdistance>distance) {
+ maxdistance = distance;
+ cl=c;
+ index =i;
+ //roady = TMath::Sqrt(maxdistance);
}
-
- TMath::Sort(nc[of],amp,index,kFALSE);
- Float_t sumamp=0;
- Float_t sumamp2=0;
- Float_t sumw=0;
- //meanlog = amp[index[Int_t(nc[of]*0.33)]];
- meanlog = 200;
- for (Int_t i=int(nc[of]*low+0.5);i<int(nc[of]*up+0.5);i++){
- Float_t ampl = amp[index[i]]/angular[index[i]];
- ampl = meanlog*TMath::Log(1.+ampl/meanlog);
- //
- sumw += weight[index[i]];
- sumamp += weight[index[i]]*ampl;
- sumamp2 += weight[index[i]]*ampl*ampl;
- norm[of] += angular[index[i]]*weight[index[i]];
- }
- if (sumw<1){
- SetdEdx(0);
- }
- else {
- norm[of] /= sumw;
- mean[of] = sumamp/sumw;
- sigma[of] = sumamp2/sumw-mean[of]*mean[of];
- if (sigma[of]>0.1)
- sigma[of] = TMath::Sqrt(sigma[of]);
- else
- sigma[of] = 1000;
-
- mean[of] = (TMath::Exp(mean[of]/meanlog)-1)*meanlog;
- //mean *=(1-0.02*(sigma/(mean*0.17)-1.));
- //mean *=(1-0.1*(norm-1.));
- }
- }
-
- Float_t dedx =0;
- fSdEdx =0;
- fMAngular =0;
- // mean[0]*= (1-0.05*(sigma[0]/(0.01+mean[1]*0.18)-1));
- // mean[1]*= (1-0.05*(sigma[1]/(0.01+mean[0]*0.18)-1));
-
-
- // dedx = (mean[0]* TMath::Sqrt((1.+nc[0]))+ mean[1]* TMath::Sqrt((1.+nc[1])) )/
- // ( TMath::Sqrt((1.+nc[0]))+TMath::Sqrt((1.+nc[1])));
-
- Int_t norm2 = 0;
- Int_t norm3 = 0;
- for (Int_t i =0;i<4;i++){
- if (nc[i]>2&&nc[i]<1000){
- dedx += mean[i] *nc[i];
- fSdEdx += sigma[i]*(nc[i]-2);
- fMAngular += norm[i] *nc[i];
- norm2 += nc[i];
- norm3 += nc[i]-2;
- }
- fDEDX[i] = mean[i];
- fSDEDX[i] = sigma[i];
- fNCDEDX[i]= nc[i];
- }
-
- if (norm3>0){
- dedx /=norm2;
- fSdEdx /=norm3;
- fMAngular/=norm2;
}
- else{
- SetdEdx(0);
- return;
- }
- // Float_t dedx1 =dedx;
-
- dedx =0;
- for (Int_t i =0;i<4;i++){
- if (nc[i]>2&&nc[i]<1000){
- mean[i] = mean[i]*(1-0.12*(sigma[i]/(fSdEdx)-1.));
- dedx += mean[i] *nc[i];
- }
- fDEDX[i] = mean[i];
- }
- dedx /= norm2;
-
-
-
- SetdEdx(dedx);
-
- //mi deDX
-
-
+ return cl;
+}
- //Very rough PID
- Double_t p=TMath::Sqrt((1.+ GetTgl()*GetTgl())/(Get1Pt()*Get1Pt()));
- if (p<0.6) {
- if (dedx < 39.+ 12./(p+0.25)/(p+0.25)) { SetMass(0.13957); return;}
- if (dedx < 39.+ 12./p/p) { SetMass(0.49368); return;}
- SetMass(0.93827); return;
- }
- if (p<1.2) {
- if (dedx < 39.+ 12./(p+0.25)/(p+0.25)) { SetMass(0.13957); return;}
- SetMass(0.93827); return;
- }
- SetMass(0.13957); return;
-}
+// AliTPCTrackerPoint * AliTPCseed::GetTrackPoint(Int_t i)
+// {
+// //
+// //
+// return &fTrackPoints[i];
+// }