**************************************************************************/
//-----------------------------------------------------------------
-// Implementation of the vertexer from ESD tracks
+// Implementation of the vertexer from tracks
//
// Origin: AliITSVertexerTracks
// A.Dainese, Padova,
// M.Masera, Torino,
// massimo.masera@to.infn.it
// Moved to STEER and adapted to ESD tracks:
-// F.Prino, Torino, prino@to.infn.it
+// F.Prino, Torino, prino@to.infn.it
//-----------------------------------------------------------------
//---- Root headers --------
#include <TSystem.h>
+#include <TClonesArray.h>
#include <TDirectory.h>
#include <TFile.h>
-#include <TTree.h>
-#include <TMatrixD.h>
//---- AliRoot headers -----
#include "AliStrLine.h"
-#include "AliVertexerTracks.h"
-#include "AliESDEvent.h"
+#include "AliExternalTrackParam.h"
+#include "AliNeutralTrackParam.h"
+#include "AliVEvent.h"
+#include "AliVTrack.h"
#include "AliESDtrack.h"
+#include "AliVertexerTracks.h"
ClassImp(AliVertexerTracks)
TObject(),
fVert(),
fCurrentVertex(0),
+fMode(0),
fFieldkG(-999.),
+fTrkArraySel(),
+fIdSel(0),
+fTrksToSkip(0),
+fNTrksToSkip(0),
fConstraint(kFALSE),
fOnlyFitter(kFALSE),
fMinTracks(1),
-fMinITSClusters(5),
-fTrkArray(),
-fTrksToSkip(0),
-fNTrksToSkip(0),
-fDCAcut(0),
-fAlgo(1),
-fNSigma(3),
+fMinClusters(5),
+fDCAcut(0.1),
+fDCAcutIter0(0.1),
+fNSigma(3.),
fMaxd0z0(0.5),
-fITSin(kTRUE),
+fMinDetFitter(100.),
+fMaxTgl(1000.),
fITSrefit(kTRUE),
+fITSpureSA(kFALSE),
+fFiducialR(3.),
+fFiducialZ(30.),
fnSigmaForUi00(1.5),
-fDebug(0)
+fAlgo(1),
+fAlgoIter0(4)
{
//
// Default constructor
//
SetVtxStart();
SetVtxStartSigma();
- SetMinTracks();
- SetMinITSClusters();
- SetNSigmad0();
- SetMaxd0z0();
}
//----------------------------------------------------------------------------
AliVertexerTracks::AliVertexerTracks(Double_t fieldkG):
TObject(),
fVert(),
fCurrentVertex(0),
-fFieldkG(-999.),
+fMode(0),
+fFieldkG(fieldkG),
+fTrkArraySel(),
+fIdSel(0),
+fTrksToSkip(0),
+fNTrksToSkip(0),
fConstraint(kFALSE),
fOnlyFitter(kFALSE),
fMinTracks(1),
-fMinITSClusters(5),
-fTrkArray(),
-fTrksToSkip(0),
-fNTrksToSkip(0),
-fDCAcut(0),
-fAlgo(1),
-fNSigma(3),
+fMinClusters(5),
+fDCAcut(0.1),
+fDCAcutIter0(0.1),
+fNSigma(3.),
fMaxd0z0(0.5),
-fITSin(kTRUE),
+fMinDetFitter(100.),
+fMaxTgl(1000.),
fITSrefit(kTRUE),
+fITSpureSA(kFALSE),
+fFiducialR(3.),
+fFiducialZ(30.),
fnSigmaForUi00(1.5),
-fDebug(0)
+fAlgo(1),
+fAlgoIter0(4)
{
//
// Standard constructor
//
SetVtxStart();
SetVtxStartSigma();
- SetMinTracks();
- SetMinITSClusters();
- SetNSigmad0();
- SetMaxd0z0();
- SetFieldkG(fieldkG);
}
//-----------------------------------------------------------------------------
AliVertexerTracks::~AliVertexerTracks()
// by this class and are not deleted
fCurrentVertex = 0;
if(fTrksToSkip) { delete [] fTrksToSkip; fTrksToSkip=NULL; }
+ if(fIdSel) { delete [] fIdSel; fIdSel=NULL; }
}
//----------------------------------------------------------------------------
-AliESDVertex* AliVertexerTracks::FindPrimaryVertex(const AliESDEvent *esdEvent)
+AliESDVertex* AliVertexerTracks::FindPrimaryVertex(const AliVEvent *vEvent)
{
//
-// Primary vertex for current ESD event
+// Primary vertex for current ESD or AOD event
// (Two iterations:
// 1st with 5*fNSigma*sigma cut w.r.t. to initial vertex
// + cut on sqrt(d0d0+z0z0) if fConstraint=kFALSE
// 2nd with fNSigma*sigma cut w.r.t. to vertex found in 1st iteration)
-// All ESD tracks with inside the beam pipe are then propagated to found vertex
//
fCurrentVertex = 0;
+ TString evtype = vEvent->IsA()->GetName();
+ Bool_t inputAOD = ((evtype=="AliAODEvent") ? kTRUE : kFALSE);
+
+ if(inputAOD && fMode==1) {
+ printf("Error : AliVertexerTracks: no TPC-only vertex from AOD\n");
+ TooFewTracks();
+ return fCurrentVertex;
+ }
+
// accept 1-track case only if constraint is available
if(!fConstraint && fMinTracks==1) fMinTracks=2;
- // read tracks from ESD
- Int_t nTrksTot = (Int_t)esdEvent->GetNumberOfTracks();
- if(nTrksTot<=0) {
- if(fDebug) printf("TooFewTracks\n");
- TooFewTracks(esdEvent);
+ // read tracks from AlivEvent
+ Int_t nTrks = (Int_t)vEvent->GetNumberOfTracks();
+ if(nTrks<fMinTracks) {
+ TooFewTracks();
return fCurrentVertex;
}
+ //
TDirectory * olddir = gDirectory;
- TFile f("VertexerTracks.root","recreate");
- TTree *trkTree = new TTree("TreeT","tracks");
- AliESDtrack *esdTrack = 0;
- trkTree->Branch("tracks","AliESDtrack",&esdTrack);
-
- Bool_t skipThis;
- for(Int_t i=0; i<nTrksTot; i++) {
- AliESDtrack *et = esdEvent->GetTrack(i);
+ TFile *f = 0;
+ if(nTrks>500) f = new TFile("VertexerTracks.root","recreate");
+ TObjArray trkArrayOrig(nTrks);
+ UShort_t *idOrig = new UShort_t[nTrks];
+
+ Int_t nTrksOrig=0;
+ AliExternalTrackParam *t=0;
+ // loop on tracks
+ for(Int_t i=0; i<nTrks; i++) {
+ AliVTrack *track = (AliVTrack*)vEvent->GetTrack(i);
// check tracks to skip
- skipThis = kFALSE;
+ Bool_t skipThis = kFALSE;
for(Int_t j=0; j<fNTrksToSkip; j++) {
- if(et->GetID()==fTrksToSkip[j]) {
- if(fDebug) printf("skipping track: %d\n",i);
+ if(track->GetID()==fTrksToSkip[j]) {
+ AliDebug(1,Form("skipping track: %d",i));
skipThis = kTRUE;
}
}
if(skipThis) continue;
- if(fITSin) {
- if(!(et->GetStatus()&AliESDtrack::kITSin)) continue;
- if(fITSrefit && !(et->GetStatus()&AliESDtrack::kITSrefit)) continue;
- Int_t nclus=et->GetNcls(0); // check number of clusters in ITS
- if(nclus<fMinITSClusters) continue;
+
+ // skip pure ITS SA tracks (default)
+ if(!fITSpureSA && (track->GetStatus()&AliESDtrack::kITSpureSA)) continue;
+ // or use only pure ITS SA tracks
+ if(fITSpureSA && !(track->GetStatus()&AliESDtrack::kITSpureSA)) continue;
+
+ // kITSrefit
+ if(fMode==0 && fITSrefit && !(track->GetStatus()&AliESDtrack::kITSrefit)) continue;
+
+ if(!inputAOD) { // ESD
+ AliESDtrack* esdt = (AliESDtrack*)track;
+ if(esdt->GetNcls(fMode) < fMinClusters) continue;
+ if(fMode==0) { // ITS mode
+ Double_t x,p[5],cov[15];
+ esdt->GetExternalParameters(x,p);
+ esdt->GetExternalCovariance(cov);
+ t = new AliExternalTrackParam(x,esdt->GetAlpha(),p,cov);
+ } else if(fMode==1) { // TPC mode
+ t = (AliExternalTrackParam*)esdt->GetTPCInnerParam();
+ if(!t) continue;
+ Double_t radius = 2.8; //something less than the beam pipe radius
+ if(!PropagateTrackTo(t,radius)) continue;
+ }
+ } else { // AOD (only ITS mode)
+ Int_t ncls0=0;
+ for(Int_t l=0;l<6;l++) if(TESTBIT(track->GetITSClusterMap(),l)) ncls0++;
+ if(ncls0 < fMinClusters) continue;
+ t = new AliExternalTrackParam(track);
}
- esdTrack = new AliESDtrack(*et);
- trkTree->Fill();
- delete esdTrack;
- }
+ trkArrayOrig.AddLast(t);
+ idOrig[nTrksOrig]=(UShort_t)track->GetID();
+ nTrksOrig++;
+ } // end loop on tracks
+ // call method that will reconstruct the vertex
+ FindPrimaryVertex(&trkArrayOrig,idOrig);
+
+ if(fMode==0) trkArrayOrig.Delete();
+ delete [] idOrig; idOrig=NULL;
+
+ if(f) {
+ f->Close(); delete f; f = NULL;
+ gSystem->Unlink("VertexerTracks.root");
+ olddir->cd();
+ }
+
+ // set vertex ID for tracks used in the fit
+ // (only for ESD)
+ if(!inputAOD) {
+ Int_t nIndices = fCurrentVertex->GetNIndices();
+ UShort_t *indices = fCurrentVertex->GetIndices();
+ for(Int_t ind=0; ind<nIndices; ind++) {
+ AliESDtrack *esdt = (AliESDtrack*)vEvent->GetTrack(indices[ind]);
+ esdt->SetVertexID(-1);
+ }
+ }
+
+ return fCurrentVertex;
+}
+//----------------------------------------------------------------------------
+AliESDVertex* AliVertexerTracks::FindPrimaryVertex(const TObjArray *trkArrayOrig,
+ UShort_t *idOrig)
+{
+//
+// Primary vertex using the AliExternalTrackParam's in the TObjArray.
+// idOrig must contain the track IDs from AliESDtrack::GetID()
+// (Two iterations:
+// 1st with 5*fNSigma*sigma cut w.r.t. to initial vertex
+// + cut on sqrt(d0d0+z0z0) if fConstraint=kFALSE
+// 2nd with fNSigma*sigma cut w.r.t. to vertex found in 1st iteration)
+//
+ fCurrentVertex = 0;
+
+ // accept 1-track case only if constraint is available
+ if(!fConstraint && fMinTracks==1) fMinTracks=2;
+
+ // read tracks from array
+ Int_t nTrksOrig = (Int_t)trkArrayOrig->GetEntriesFast();
+ AliDebug(1,Form("Initial number of tracks: %d",nTrksOrig));
+ if(nTrksOrig<fMinTracks) {
+ AliDebug(1,"TooFewTracks");
+ TooFewTracks();
+ return fCurrentVertex;
+ }
+
// If fConstraint=kFALSE
// run VertexFinder(1) to get rough estimate of initVertex (x,y)
if(!fConstraint) {
- // fill fTrkArray, for VertexFinder()
- if(!fTrkArray.IsEmpty()) fTrkArray.Delete();
- PrepareTracks(*trkTree,0);
- Double_t cutsave = fDCAcut; fDCAcut = 0.1; // 1 mm
- VertexFinder(1); // using weights, cutting dca < fDCAcut
+ // fill fTrkArraySel, for VertexFinder()
+ fIdSel = new UShort_t[nTrksOrig];
+ PrepareTracks(*trkArrayOrig,idOrig,0);
+ if(fIdSel) { delete [] fIdSel; fIdSel=NULL; }
+ Double_t cutsave = fDCAcut;
+ fDCAcut = fDCAcutIter0;
+ // vertex finder
+ switch (fAlgoIter0) {
+ case 1: StrLinVertexFinderMinDist(1); break;
+ case 2: StrLinVertexFinderMinDist(0); break;
+ case 3: HelixVertexFinder(); break;
+ case 4: VertexFinder(1); break;
+ case 5: VertexFinder(0); break;
+ default: printf("Wrong algorithm\n"); break;
+ }
fDCAcut = cutsave;
- fTrkArray.Delete();
if(fVert.GetNContributors()>0) {
fVert.GetXYZ(fNominalPos);
fNominalPos[0] = fVert.GetXv();
fNominalPos[1] = fVert.GetYv();
fNominalPos[2] = fVert.GetZv();
- if(fDebug) printf("No mean vertex: VertexFinder gives (%f, %f, %f)\n",fNominalPos[0],fNominalPos[1],fNominalPos[2]);
+ AliDebug(1,Form("No mean vertex: VertexFinder gives (%f, %f, %f)",fNominalPos[0],fNominalPos[1],fNominalPos[2]));
} else {
fNominalPos[0] = 0.;
fNominalPos[1] = 0.;
fNominalPos[2] = 0.;
- if(fDebug) printf("No mean vertex and VertexFinder failed\n");
+ AliDebug(1,"No mean vertex and VertexFinder failed");
}
}
// propagate tracks to best between initVertex and fCurrentVertex
// preselect tracks (reject for |d0|>fNSigma*sigma w.r.t. best
// between initVertex and fCurrentVertex)
- for(Int_t iter=0; iter<2; iter++) {
- if(fOnlyFitter && iter==0) continue;
- Int_t nTrksPrep = PrepareTracks(*trkTree,iter+1);
- if(fDebug) printf(" tracks prepared - iteration %d: %d\n",iter+1,nTrksPrep);
- if(nTrksPrep < fMinTracks) {
- if(fDebug) printf("TooFewTracks\n");
- TooFewTracks(esdEvent);
- if(fDebug) fCurrentVertex->PrintStatus();
- fTrkArray.Delete();
- delete trkTree;
- f.Close();
- gSystem->Unlink("VertexerTracks.root");
- olddir->cd();
+ for(Int_t iter=1; iter<=2; iter++) {
+ if(fOnlyFitter && iter==1) continue;
+ if(fIdSel) { delete [] fIdSel; fIdSel=NULL; }
+ fIdSel = new UShort_t[nTrksOrig];
+ Int_t nTrksSel = PrepareTracks(*trkArrayOrig,idOrig,iter);
+ AliDebug(1,Form("N tracks selected in iteration %d: %d",iter,nTrksSel));
+ if(nTrksSel < fMinTracks) {
+ TooFewTracks();
return fCurrentVertex;
}
// vertex finder
if(!fOnlyFitter) {
- if(nTrksPrep==1){
- if(fDebug) printf("Just one track\n");
+ if(nTrksSel==1) {
+ AliDebug(1,"Just one track");
OneTrackVertFinder();
- }else{
+ } else {
switch (fAlgo) {
case 1: StrLinVertexFinderMinDist(1); break;
case 2: StrLinVertexFinderMinDist(0); break;
case 3: HelixVertexFinder(); break;
case 4: VertexFinder(1); break;
case 5: VertexFinder(0); break;
- default: printf("Wrong algorithm\n"); break;
+ default: printf("Wrong algorithm"); break;
}
}
- if(fDebug) printf(" Vertex finding completed\n");
+ AliDebug(1," Vertex finding completed");
}
// vertex fitter
- VertexFitter(fConstraint);
- if(fDebug) printf(" Vertex fit completed\n");
- if(iter==0) fTrkArray.Delete();
+ VertexFitter();
} // end loop on the two iterations
-
- if(fConstraint) {
- if(fOnlyFitter) {
- fCurrentVertex->SetTitle("VertexerTracksWithConstraintOnlyFitter");
- } else {
- fCurrentVertex->SetTitle("VertexerTracksWithConstraint");
- }
- } else {
- fCurrentVertex->SetTitle("VertexerTracksNoConstraint");
- }
-
// set indices of used tracks
UShort_t *indices = 0;
- AliESDtrack *ett = 0;
if(fCurrentVertex->GetNContributors()>0) {
- indices = new UShort_t[fCurrentVertex->GetNContributors()];
- for(Int_t jj=0;jj<(Int_t)fTrkArray.GetEntriesFast();jj++) {
- ett = (AliESDtrack*)fTrkArray.At(jj);
- indices[jj] = (UShort_t)ett->GetID();
- }
- fCurrentVertex->SetIndices(fCurrentVertex->GetNContributors(),indices);
+ Int_t nIndices = (Int_t)fTrkArraySel.GetEntriesFast();
+ indices = new UShort_t[nIndices];
+ for(Int_t jj=0; jj<nIndices; jj++)
+ indices[jj] = fIdSel[jj];
+ fCurrentVertex->SetIndices(nIndices,indices);
}
- delete [] indices;
+ if (indices) {delete [] indices; indices=NULL;}
+ //
- delete trkTree;
- f.Close();
- gSystem->Unlink("VertexerTracks.root");
- olddir->cd();
+ // set vertex title
+ TString title="VertexerTracksNoConstraint";
+ if(fConstraint) {
+ title="VertexerTracksWithConstraint";
+ if(fOnlyFitter) title.Append("OnlyFitter");
+ }
+ fCurrentVertex->SetTitle(title.Data());
+ //
- fTrkArray.Delete();
+ AliDebug(1,Form("xyz: %f %f %f; nc %d",fCurrentVertex->GetXv(),fCurrentVertex->GetYv(),fCurrentVertex->GetZv(),fCurrentVertex->GetNContributors()));
+ // clean up
+ delete [] fIdSel; fIdSel=NULL;
+ fTrkArraySel.Delete();
if(fTrksToSkip) { delete [] fTrksToSkip; fTrksToSkip=NULL; }
-
-
- if(fDebug) fCurrentVertex->PrintStatus();
- if(fDebug) fCurrentVertex->PrintIndices();
-
+ //
return fCurrentVertex;
}
return det;
}
//-------------------------------------------------------------------------
-void AliVertexerTracks::GetStrLinDerivMatrix(Double_t *p0,Double_t *p1,Double_t (*m)[3],Double_t *d)
+void AliVertexerTracks::GetStrLinDerivMatrix(const Double_t *p0,const Double_t *p1,Double_t (*m)[3],Double_t *d)
{
//
Double_t x12=p0[0]-p1[0];
}
//--------------------------------------------------------------------------
-void AliVertexerTracks::GetStrLinDerivMatrix(Double_t *p0,Double_t *p1,Double_t *sigmasq,Double_t (*m)[3],Double_t *d)
+void AliVertexerTracks::GetStrLinDerivMatrix(const Double_t *p0,const Double_t *p1,const Double_t *sigmasq,Double_t (*m)[3],Double_t *d)
{
//
Double_t x12=p1[0]-p0[0];
}
//--------------------------------------------------------------------------
-Double_t AliVertexerTracks::GetStrLinMinDist(Double_t *p0,Double_t *p1,Double_t *x0)
+Double_t AliVertexerTracks::GetStrLinMinDist(const Double_t *p0,const Double_t *p1,const Double_t *x0)
{
//
Double_t x12=p0[0]-p1[0];
Double_t x10=p0[0]-x0[0];
Double_t y10=p0[1]-x0[1];
Double_t z10=p0[2]-x0[2];
- return ((x10*x10+y10*y10+z10*z10)*(x12*x12+y12*y12+z12*z12)-(x10*x12+y10*y12+z10*z12)*(x10*x12+y10*y12+z10*z12))/(x12*x12+y12*y12+z12*z12);
+ // return ((x10*x10+y10*y10+z10*z10)*(x12*x12+y12*y12+z12*z12)-(x10*x12+y10*y12+z10*z12)*(x10*x12+y10*y12+z10*z12))/(x12*x12+y12*y12+z12*z12);
+ return ((y10*z12-z10*y12)*(y10*z12-z10*y12)+
+ (z10*x12-x10*z12)*(z10*x12-x10*z12)+
+ (x10*y12-y10*x12)*(x10*y12-y10*x12))
+ /(x12*x12+y12*y12+z12*z12);
}
//---------------------------------------------------------------------------
void AliVertexerTracks::OneTrackVertFinder()
{
// find vertex for events with 1 track, using DCA to nominal beam axis
- if(fDebug) printf("Number of prepared tracks =%d - Call OneTrackVertFinder",fTrkArray.GetEntries());
- AliESDtrack *track1;
- track1 = (AliESDtrack*)fTrkArray.At(0);
- Double_t field=GetFieldkG();
+ AliDebug(1,Form("Number of prepared tracks =%d - Call OneTrackVertFinder",fTrkArraySel.GetEntries()));
+ AliExternalTrackParam *track1;
+ track1 = (AliExternalTrackParam*)fTrkArraySel.At(0);
Double_t alpha=track1->GetAlpha();
Double_t mindist = TMath::Cos(alpha)*fNominalPos[0]+TMath::Sin(alpha)*fNominalPos[1];
Double_t pos[3],dir[3];
- track1->GetXYZAt(mindist,field,pos);
- track1->GetPxPyPzAt(mindist,field,dir);
+ track1->GetXYZAt(mindist,GetFieldkG(),pos);
+ track1->GetPxPyPzAt(mindist,GetFieldkG(),dir);
AliStrLine *line1 = new AliStrLine(pos,dir);
Double_t p1[3]={fNominalPos[0],fNominalPos[1],0.};
Double_t p2[3]={fNominalPos[0],fNominalPos[1],10.};
Double_t initPos[3];
initPos[2] = 0.;
for(Int_t i=0;i<2;i++)initPos[i]=fNominalPos[i];
- Double_t field=GetFieldkG();
- Int_t nacc = (Int_t)fTrkArray.GetEntriesFast();
+ Int_t nacc = (Int_t)fTrkArraySel.GetEntriesFast();
Double_t aver[3]={0.,0.,0.};
Double_t averquad[3]={0.,0.,0.};
Double_t sigmaquad[3]={0.,0.,0.};
Double_t sigma=0;
Int_t ncombi = 0;
- AliESDtrack *track1;
- AliESDtrack *track2;
+ AliExternalTrackParam *track1;
+ AliExternalTrackParam *track2;
Double_t distCA;
- Double_t x, par[5];
+ Double_t x;
Double_t alpha, cs, sn;
Double_t crosspoint[3];
for(Int_t i=0; i<nacc; i++){
- track1 = (AliESDtrack*)fTrkArray.At(i);
+ track1 = (AliExternalTrackParam*)fTrkArraySel.At(i);
for(Int_t j=i+1; j<nacc; j++){
- track2 = (AliESDtrack*)fTrkArray.At(j);
+ track2 = (AliExternalTrackParam*)fTrkArraySel.At(j);
- distCA=track2->PropagateToDCA(track1,field);
+ distCA=track2->PropagateToDCA(track1,GetFieldkG());
if(fDCAcut<=0 ||(fDCAcut>0&&distCA<fDCAcut)){
- track1->GetExternalParameters(x,par);
+ x=track1->GetX();
alpha=track1->GetAlpha();
cs=TMath::Cos(alpha); sn=TMath::Sin(alpha);
- Double_t x1=x*cs - par[0]*sn;
- Double_t y1=x*sn + par[0]*cs;
- Double_t z1=par[1];
+ Double_t x1=x*cs - track1->GetY()*sn;
+ Double_t y1=x*sn + track1->GetY()*cs;
+ Double_t z1=track1->GetZ();
+
Double_t sx1=sn*sn*track1->GetSigmaY2(), sy1=cs*cs*track1->GetSigmaY2();
- track2->GetExternalParameters(x,par);
+ x=track2->GetX();
alpha=track2->GetAlpha();
cs=TMath::Cos(alpha); sn=TMath::Sin(alpha);
- Double_t x2=x*cs - par[0]*sn;
- Double_t y2=x*sn + par[0]*cs;
- Double_t z2=par[1];
+ Double_t x2=x*cs - track2->GetY()*sn;
+ Double_t y2=x*sn + track2->GetY()*cs;
+ Double_t z2=track2->GetZ();
Double_t sx2=sn*sn*track2->GetSigmaY2(), sy2=cs*cs*track2->GetSigmaY2();
Double_t sz1=track1->GetSigmaZ2(), sz2=track2->GetSigmaZ2();
Double_t wx1=sx2/(sx1+sx2), wx2=1.- wx1;
fVert.SetNContributors(ncombi);
}
//----------------------------------------------------------------------------
-Int_t AliVertexerTracks::PrepareTracks(TTree &trkTree,Int_t optImpParCut)
+Int_t AliVertexerTracks::PrepareTracks(const TObjArray &trkArrayOrig,
+ const UShort_t *idOrig,
+ Int_t optImpParCut)
{
//
// Propagate tracks to initial vertex position and store them in a TObjArray
//
+ AliDebug(1," PrepareTracks()");
+
+ Int_t nTrksOrig = (Int_t)trkArrayOrig.GetEntriesFast();
+ Int_t nTrksSel = 0;
Double_t maxd0rphi;
- Double_t maxd0z0 = fMaxd0z0; // default is 5 mm
- Int_t nTrks = 0;
Double_t sigmaCurr[3];
Double_t normdistx,normdisty;
- Float_t d0z0[2],covd0z0[3];
- Double_t sigma;
- Double_t field=GetFieldkG();
+ Double_t d0z0[2],covd0z0[3];
+ Double_t sigmad0;
AliESDVertex *initVertex = new AliESDVertex(fNominalPos,fNominalCov,1,1);
- Int_t nEntries = (Int_t)trkTree.GetEntries();
- if(!fTrkArray.IsEmpty()) fTrkArray.Delete();
+ if(!fTrkArraySel.IsEmpty()) fTrkArraySel.Delete();
- if(fDebug) {
- printf(" PrepareTracks()\n");
- }
+ AliExternalTrackParam *track=0;
- for(Int_t i=0; i<nEntries; i++) {
- AliESDtrack *track = new AliESDtrack;
- trkTree.SetBranchAddress("tracks",&track);
- trkTree.GetEvent(i);
+ // loop on tracks
+ for(Int_t i=0; i<nTrksOrig; i++) {
+ AliExternalTrackParam *trackOrig=(AliExternalTrackParam*)trkArrayOrig.At(i);
+ if(trackOrig->Charge()!=0) { // normal tracks
+ track = new AliExternalTrackParam(*(AliExternalTrackParam*)trkArrayOrig.At(i));
+ } else { // neutral tracks (from a V0)
+ track = new AliNeutralTrackParam(*(AliNeutralTrackParam*)trkArrayOrig.At(i));
+ }
+
+ // tgl cut
+ if(TMath::Abs(track->GetTgl())>fMaxTgl) {
+ AliDebug(1,Form(" rejecting track with tgl = %f",track->GetTgl()));
+ delete track; continue;
+ }
+ Bool_t propagateOK = kFALSE, cutond0z0 = kTRUE;
// propagate track to vertex
- if(optImpParCut<=1 || fOnlyFitter) { // optImpParCut==1 or 0
- track->RelateToVertex(initVertex,field,100.);
+ if(optImpParCut<2 || fOnlyFitter) { // optImpParCut==1 or 0
+ propagateOK = track->PropagateToDCA(initVertex,GetFieldkG(),100.,d0z0,covd0z0);
} else { // optImpParCut==2
fCurrentVertex->GetSigmaXYZ(sigmaCurr);
normdistx = TMath::Abs(fCurrentVertex->GetXv()-fNominalPos[0])/TMath::Sqrt(sigmaCurr[0]*sigmaCurr[0]+fNominalCov[0]);
normdisty = TMath::Abs(fCurrentVertex->GetYv()-fNominalPos[1])/TMath::Sqrt(sigmaCurr[1]*sigmaCurr[1]+fNominalCov[2]);
+ AliDebug(1,Form("normdistx %f %f %f",fCurrentVertex->GetXv(),fNominalPos[0],TMath::Sqrt(sigmaCurr[0]*sigmaCurr[0]+fNominalCov[0])));
+ AliDebug(1,Form("normdisty %f %f %f",fCurrentVertex->GetYv(),fNominalPos[1],TMath::Sqrt(sigmaCurr[1]*sigmaCurr[1]+fNominalCov[2])));
+ AliDebug(1,Form("sigmaCurr %f %f %f",sigmaCurr[0],sigmaCurr[1],TMath::Sqrt(fNominalCov[0])+TMath::Sqrt(fNominalCov[2])));
if(normdistx < 3. && normdisty < 3. &&
(sigmaCurr[0]+sigmaCurr[1])<(TMath::Sqrt(fNominalCov[0])+TMath::Sqrt(fNominalCov[2]))) {
- track->RelateToVertex(fCurrentVertex,field,100.);
+ propagateOK = track->PropagateToDCA(fCurrentVertex,GetFieldkG(),100.,d0z0,covd0z0);
} else {
- track->RelateToVertex(initVertex,field,100.);
+ propagateOK = track->PropagateToDCA(initVertex,GetFieldkG(),100.,d0z0,covd0z0);
+ if(fConstraint) cutond0z0=kFALSE;
}
}
- track->GetImpactParameters(d0z0,covd0z0);
- sigma = TMath::Sqrt(covd0z0[0]);
- maxd0rphi = fNSigma*sigma;
+ if(!propagateOK) {
+ AliDebug(1," rejected");
+ delete track; continue;
+ }
+
+ sigmad0 = TMath::Sqrt(covd0z0[0]);
+ maxd0rphi = fNSigma*sigmad0;
if(optImpParCut==1) maxd0rphi *= 5.;
+ maxd0rphi = TMath::Min(maxd0rphi,fFiducialR);
+ //sigmad0z0 = TMath::Sqrt(covd0z0[0]+covd0z0[2]);
+ AliDebug(1,Form("trk %d; id %d; |d0| = %f; d0 cut = %f; |z0| = %f; |d0|oplus|z0| = %f; d0z0 cut = %f",i,(Int_t)idOrig[i],TMath::Abs(d0z0[0]),maxd0rphi,TMath::Abs(d0z0[1]),TMath::Sqrt(d0z0[0]*d0z0[0]+d0z0[1]*d0z0[1]),fMaxd0z0));
- if(fDebug) printf("trk %d; lab %d; |d0| = %f; d0 cut = %f; |z0| = %f; |d0|oplus|z0| = %f; d0z0 cut = %f\n",i,track->GetLabel(),TMath::Abs(d0z0[0]),maxd0rphi,TMath::Abs(d0z0[1]),TMath::Sqrt(d0z0[0]*d0z0[0]+d0z0[1]*d0z0[1]),maxd0z0);
+ //---- track selection based on impact parameters ----//
- // during iterations 1 and 2, if fConstraint=kFALSE,
- // select tracks with d0oplusz0 < maxd0z0
- if(optImpParCut>=1 && !fConstraint && nEntries>=3 &&
- fVert.GetNContributors()>0) {
- if(TMath::Sqrt(d0z0[0]*d0z0[0]+d0z0[1]*d0z0[1]) > maxd0z0) {
- if(fDebug) printf(" rejected\n");
- delete track; continue;
- }
+ // always reject tracks outside fiducial volume
+ if(TMath::Abs(d0z0[0])>fFiducialR || TMath::Abs(d0z0[1])>fFiducialZ) {
+ AliDebug(1," rejected");
+ delete track; continue;
}
- // select tracks with d0rphi < maxd0rphi
- if(optImpParCut>0 && TMath::Abs(d0z0[0]) > maxd0rphi) {
- if(fDebug) printf(" rejected\n");
+ // during iterations 1 and 2 , reject tracks with d0rphi > maxd0rphi
+ if(optImpParCut>0 && TMath::Abs(d0z0[0])>maxd0rphi) {
+ AliDebug(1," rejected");
delete track; continue;
}
- fTrkArray.AddLast(track);
- nTrks++;
- }
+ // if fConstraint=kFALSE, during iterations 1 and 2 ||
+ // if fConstraint=kTRUE, during iteration 2,
+ // select tracks with d0oplusz0 < fMaxd0z0
+ if((!fConstraint && optImpParCut>0 && fVert.GetNContributors()>0) ||
+ ( fConstraint && optImpParCut==2 && cutond0z0)) {
+ if(nTrksOrig>=3 &&
+ TMath::Sqrt(d0z0[0]*d0z0[0]+d0z0[1]*d0z0[1])>fMaxd0z0) {
+ AliDebug(1," rejected");
+ delete track; continue;
+ }
+ }
+
+ // track passed all selections
+ fTrkArraySel.AddLast(track);
+ fIdSel[nTrksSel] = idOrig[i];
+ nTrksSel++;
+ } // end loop on tracks
delete initVertex;
- return nTrks;
+ return nTrksSel;
}
+//----------------------------------------------------------------------------
+Bool_t AliVertexerTracks::PropagateTrackTo(AliExternalTrackParam *track,
+ Double_t xToGo) {
+ //----------------------------------------------------------------
+ // COPIED from AliTracker
+ //
+ // Propagates the track to the plane X=xk (cm).
+ //
+ // Origin: Marian Ivanov, Marian.Ivanov@cern.ch
+ //----------------------------------------------------------------
+
+ const Double_t kEpsilon = 0.00001;
+ Double_t xpos = track->GetX();
+ Double_t dir = (xpos<xToGo) ? 1. : -1.;
+ Double_t maxStep = 5;
+ Double_t maxSnp = 0.8;
+ //
+ while ( (xToGo-xpos)*dir > kEpsilon){
+ Double_t step = dir*TMath::Min(TMath::Abs(xToGo-xpos), maxStep);
+ Double_t x = xpos+step;
+ Double_t xyz0[3],xyz1[3];
+ track->GetXYZ(xyz0); //starting global position
+
+ if(!track->GetXYZAt(x,GetFieldkG(),xyz1)) return kFALSE; // no prolongation
+ xyz1[2]+=kEpsilon; // waiting for bug correction in geo
+
+ if(TMath::Abs(track->GetSnpAt(x,GetFieldkG())) >= maxSnp) return kFALSE;
+ if(!track->PropagateTo(x,GetFieldkG())) return kFALSE;
+
+ if(TMath::Abs(track->GetSnp()) >= maxSnp) return kFALSE;
+ track->GetXYZ(xyz0); // global position
+ Double_t alphan = TMath::ATan2(xyz0[1], xyz0[0]);
+ //
+ Double_t ca=TMath::Cos(alphan-track->GetAlpha()),
+ sa=TMath::Sin(alphan-track->GetAlpha());
+ Double_t sf=track->GetSnp(), cf=TMath::Sqrt((1.-sf)*(1.+sf));
+ Double_t sinNew = sf*ca - cf*sa;
+ if(TMath::Abs(sinNew) >= maxSnp) return kFALSE;
+ if(!track->Rotate(alphan)) return kFALSE;
+
+ xpos = track->GetX();
+ }
+ return kTRUE;
+}
//---------------------------------------------------------------------------
AliESDVertex* AliVertexerTracks::RemoveTracksFromVertex(AliESDVertex *inVtx,
- TTree *trksTree,
- Float_t *diamondxy)
+ const TObjArray *trkArray,
+ UShort_t *id,
+ const Float_t *diamondxy) const
{
//
// Removes tracks in trksTree from fit of inVtx
//
if(!strstr(inVtx->GetTitle(),"VertexerTracksWithConstraint")) {
- printf("ERROR: primary vertex has no constraint: cannot remove tracks\n");
+ printf("ERROR: primary vertex has no constraint: cannot remove tracks");
return 0x0;
}
if(!strstr(inVtx->GetTitle(),"VertexerTracksWithConstraintOnlyFitter"))
- printf("WARNING: result of tracks' removal will be only approximately correct\n");
+ printf("WARNING: result of tracks' removal will be only approximately correct");
TMatrixD rv(3,1);
rv(0,0) = inVtx->GetXv();
TMatrixD sumWi(TMatrixD::kInverted,vV);
TMatrixD sumWiri(sumWi,TMatrixD::kMult,rv);
- Int_t nUsedTrks = inVtx->GetNContributors();
+ Int_t nUsedTrks = inVtx->GetNIndices();
Double_t chi2 = inVtx->GetChi2();
- AliESDtrack *track = 0;
- trksTree->SetBranchAddress("tracks",&track);
- Int_t ntrks = trksTree->GetEntries();
+ AliExternalTrackParam *track = 0;
+ Int_t ntrks = (Int_t)trkArray->GetEntriesFast();
for(Int_t i=0;i<ntrks;i++) {
- trksTree->GetEvent(i);
- if(!inVtx->UsesTrack(track->GetID())) {
- printf("track %d was not used in vertex fit\n",track->GetID());
+ track = (AliExternalTrackParam*)trkArray->At(i);
+ if(!inVtx->UsesTrack(id[i])) {
+ printf("track %d was not used in vertex fit",id[i]);
continue;
}
Double_t alpha = track->GetAlpha();
Double_t xl = diamondxy[0]*TMath::Cos(alpha)+diamondxy[1]*TMath::Sin(alpha);
- track->AliExternalTrackParam::PropagateTo(xl,GetFieldkG());
+ track->PropagateTo(xl,GetFieldkG());
// vector of track global coordinates
TMatrixD ri(3,1);
// covariance matrix of ri
sumWi -= wWi;
sumWiri -= wWiri;
- // track chi2
+ // track contribution to chi2
TMatrixD deltar = rv; deltar -= ri;
TMatrixD wWideltar(wWi,TMatrixD::kMult,deltar);
Double_t chi2i = deltar(0,0)*wWideltar(0,0)+
nUsedTrks--;
if(nUsedTrks<2) {
- printf("Trying to remove too many tracks!\n");
+ printf("Trying to remove too many tracks!");
return 0x0;
}
}
cov[5] = vVnew(2,2);
// store data in the vertex object
- AliESDVertex *outVtx = new AliESDVertex(position,cov,chi2,nUsedTrks);
+ AliESDVertex *outVtx = new AliESDVertex(position,cov,chi2,nUsedTrks+1); // the +1 is for the constraint
outVtx->SetTitle(inVtx->GetTitle());
UShort_t *inindices = inVtx->GetIndices();
- UShort_t *outindices = new UShort_t[outVtx->GetNContributors()];
+ Int_t nIndices = nUsedTrks;
+ UShort_t *outindices = new UShort_t[nIndices];
Int_t j=0;
- Bool_t copyindex;
for(Int_t k=0; k<inVtx->GetNIndices(); k++) {
- copyindex=kTRUE;
+ Bool_t copyindex=kTRUE;
for(Int_t l=0; l<ntrks; l++) {
- trksTree->GetEvent(l);
- if(inindices[k]==track->GetID()) copyindex=kFALSE;
+ if(inindices[k]==id[l]) copyindex=kFALSE;
}
if(copyindex) {
outindices[j] = inindices[k]; j++;
}
}
- outVtx->SetIndices(outVtx->GetNContributors(),outindices);
- delete [] outindices;
+ outVtx->SetIndices(nIndices,outindices);
+ if (outindices) delete [] outindices;
- if(fDebug) {
- printf("Vertex before removing tracks:\n");
+ /*
+ printf("Vertex before removing tracks:");
inVtx->PrintStatus();
inVtx->PrintIndices();
- printf("Vertex after removing tracks:\n");
+ printf("Vertex after removing tracks:");
outVtx->PrintStatus();
outVtx->PrintIndices();
+ */
+
+ return outVtx;
+}
+//---------------------------------------------------------------------------
+AliESDVertex* AliVertexerTracks::RemoveConstraintFromVertex(AliESDVertex *inVtx,
+ Float_t *diamondxyz,
+ Float_t *diamondcov) const
+{
+//
+// Removes diamond constraint from fit of inVtx
+//
+
+ if(!strstr(inVtx->GetTitle(),"VertexerTracksWithConstraint")) {
+ printf("ERROR: primary vertex has no constraint: cannot remove it\n");
+ return 0x0;
+ }
+ if(inVtx->GetNContributors()<3) {
+ printf("ERROR: primary vertex has less than 2 tracks: cannot remove contraint\n");
+ return 0x0;
}
+ // diamond constraint
+ TMatrixD vVb(3,3);
+ vVb(0,0) = diamondcov[0];
+ vVb(0,1) = diamondcov[1];
+ vVb(0,2) = 0.;
+ vVb(1,0) = diamondcov[1];
+ vVb(1,1) = diamondcov[2];
+ vVb(1,2) = 0.;
+ vVb(2,0) = 0.;
+ vVb(2,1) = 0.;
+ vVb(2,2) = diamondcov[5];
+ TMatrixD vVbInv(TMatrixD::kInverted,vVb);
+ TMatrixD rb(3,1);
+ rb(0,0) = diamondxyz[0];
+ rb(1,0) = diamondxyz[1];
+ rb(2,0) = diamondxyz[2];
+ TMatrixD vVbInvrb(vVbInv,TMatrixD::kMult,rb);
+
+ // input vertex
+ TMatrixD rv(3,1);
+ rv(0,0) = inVtx->GetXv();
+ rv(1,0) = inVtx->GetYv();
+ rv(2,0) = inVtx->GetZv();
+ TMatrixD vV(3,3);
+ Double_t cov[6];
+ inVtx->GetCovMatrix(cov);
+ vV(0,0) = cov[0];
+ vV(0,1) = cov[1]; vV(1,0) = cov[1];
+ vV(1,1) = cov[2];
+ vV(0,2) = cov[3]; vV(2,0) = cov[3];
+ vV(1,2) = cov[4]; vV(2,1) = cov[4];
+ vV(2,2) = cov[5];
+ TMatrixD vVInv(TMatrixD::kInverted,vV);
+ TMatrixD vVInvrv(vVInv,TMatrixD::kMult,rv);
+
+
+ TMatrixD sumWi = vVInv - vVbInv;
+
+
+ TMatrixD sumWiri = vVInvrv - vVbInvrb;
+
+ TMatrixD rvnew(3,1);
+ TMatrixD vVnew(3,3);
+
+ // new inverted of weights matrix
+ TMatrixD invsumWi(TMatrixD::kInverted,sumWi);
+ vVnew = invsumWi;
+ // new position of primary vertex
+ rvnew.Mult(vVnew,sumWiri);
+
+ Double_t position[3];
+ position[0] = rvnew(0,0);
+ position[1] = rvnew(1,0);
+ position[2] = rvnew(2,0);
+ cov[0] = vVnew(0,0);
+ cov[1] = vVnew(0,1);
+ cov[2] = vVnew(1,1);
+ cov[3] = vVnew(0,2);
+ cov[4] = vVnew(1,2);
+ cov[5] = vVnew(2,2);
+
+
+ Double_t chi2 = inVtx->GetChi2();
+
+ // diamond constribution to chi2
+ TMatrixD deltar = rv; deltar -= rb;
+ TMatrixD vVbInvdeltar(vVbInv,TMatrixD::kMult,deltar);
+ Double_t chi2b = deltar(0,0)*vVbInvdeltar(0,0)+
+ deltar(1,0)*vVbInvdeltar(1,0)+
+ deltar(2,0)*vVbInvdeltar(2,0);
+ // remove from total chi2
+ chi2 -= chi2b;
+
+ // store data in the vertex object
+ AliESDVertex *outVtx = new AliESDVertex(position,cov,chi2,inVtx->GetNContributors()-1);
+ outVtx->SetTitle("VertexerTracksNoConstraint");
+ UShort_t *inindices = inVtx->GetIndices();
+ Int_t nIndices = inVtx->GetNIndices();
+ outVtx->SetIndices(nIndices,inindices);
+
return outVtx;
}
//---------------------------------------------------------------------------
-void AliVertexerTracks::SetSkipTracks(Int_t n,Int_t *skipped)
+void AliVertexerTracks::SetCuts(Double_t *cuts)
+{
+//
+// Cut values
+//
+ SetDCAcut(cuts[0]);
+ SetDCAcutIter0(cuts[1]);
+ SetMaxd0z0(cuts[2]);
+ if(fMode==0 && cuts[3]<0) SetITSrefitNotRequired();
+ SetMinClusters((Int_t)(TMath::Abs(cuts[3])));
+ SetMinTracks((Int_t)(cuts[4]));
+ SetNSigmad0(cuts[5]);
+ SetMinDetFitter(cuts[6]);
+ SetMaxTgl(cuts[7]);
+ SetFiducialRZ(cuts[8],cuts[9]);
+ fAlgo=(Int_t)(cuts[10]);
+ fAlgoIter0=(Int_t)(cuts[11]);
+
+ return;
+}
+//---------------------------------------------------------------------------
+void AliVertexerTracks::SetITSMode(Double_t dcacut,
+ Double_t dcacutIter0,
+ Double_t maxd0z0,
+ Int_t minCls,
+ Int_t mintrks,
+ Double_t nsigma,
+ Double_t mindetfitter,
+ Double_t maxtgl,
+ Double_t fidR,
+ Double_t fidZ,
+ Int_t finderAlgo,
+ Int_t finderAlgoIter0)
+{
+//
+// Cut values for ITS mode
+//
+ fMode = 0;
+ if(minCls>0) {
+ SetITSrefitRequired();
+ } else {
+ SetITSrefitNotRequired();
+ }
+ SetDCAcut(dcacut);
+ SetDCAcutIter0(dcacutIter0);
+ SetMaxd0z0(maxd0z0);
+ SetMinClusters(TMath::Abs(minCls));
+ SetMinTracks(mintrks);
+ SetNSigmad0(nsigma);
+ SetMinDetFitter(mindetfitter);
+ SetMaxTgl(maxtgl);
+ SetFiducialRZ(fidR,fidZ);
+ fAlgo=finderAlgo;
+ fAlgoIter0=finderAlgoIter0;
+
+ return;
+}
+//---------------------------------------------------------------------------
+void AliVertexerTracks::SetTPCMode(Double_t dcacut,
+ Double_t dcacutIter0,
+ Double_t maxd0z0,
+ Int_t minCls,
+ Int_t mintrks,
+ Double_t nsigma,
+ Double_t mindetfitter,
+ Double_t maxtgl,
+ Double_t fidR,
+ Double_t fidZ,
+ Int_t finderAlgo,
+ Int_t finderAlgoIter0)
+{
+//
+// Cut values for TPC mode
+//
+ fMode = 1;
+ SetITSrefitNotRequired();
+ SetDCAcut(dcacut);
+ SetDCAcutIter0(dcacutIter0);
+ SetMaxd0z0(maxd0z0);
+ SetMinClusters(minCls);
+ SetMinTracks(mintrks);
+ SetNSigmad0(nsigma);
+ SetMinDetFitter(mindetfitter);
+ SetMaxTgl(maxtgl);
+ SetFiducialRZ(fidR,fidZ);
+ fAlgo=finderAlgo;
+ fAlgoIter0=finderAlgoIter0;
+
+ return;
+}
+//---------------------------------------------------------------------------
+void AliVertexerTracks::SetSkipTracks(Int_t n,const Int_t *skipped)
{
//
// Mark the tracks not to be used in the vertex reconstruction.
//---------------------------------------------------------------------------
void AliVertexerTracks::StrLinVertexFinderMinDist(Int_t optUseWeights)
{
- AliESDtrack *track1;
- Double_t field=GetFieldkG();
- const Int_t knacc = (Int_t)fTrkArray.GetEntriesFast();
- TClonesArray *linarray = new TClonesArray("AliStrLine",1000);
- TClonesArray &lines = *linarray;
+ AliExternalTrackParam *track1;
+ const Int_t knacc = (Int_t)fTrkArraySel.GetEntriesFast();
+ AliStrLine **linarray = new AliStrLine* [knacc];
for(Int_t i=0; i<knacc; i++){
- track1 = (AliESDtrack*)fTrkArray.At(i);
+ track1 = (AliExternalTrackParam*)fTrkArraySel.At(i);
Double_t alpha=track1->GetAlpha();
Double_t mindist = TMath::Cos(alpha)*fNominalPos[0]+TMath::Sin(alpha)*fNominalPos[1];
Double_t pos[3],dir[3],sigmasq[3];
- track1->GetXYZAt(mindist,field,pos);
- track1->GetPxPyPzAt(mindist,field,dir);
+ track1->GetXYZAt(mindist,GetFieldkG(),pos);
+ track1->GetPxPyPzAt(mindist,GetFieldkG(),dir);
sigmasq[0]=TMath::Sin(alpha)*TMath::Sin(alpha)*track1->GetSigmaY2();
sigmasq[1]=TMath::Cos(alpha)*TMath::Cos(alpha)*track1->GetSigmaY2();
sigmasq[2]=track1->GetSigmaZ2();
TMatrixD ri(3,1);
TMatrixD wWi(3,3);
- if(!TrackToPoint(track1,ri,wWi)) continue;
+ if(!TrackToPoint(track1,ri,wWi)) {optUseWeights=kFALSE;printf("WARNING\n");}
Double_t wmat[9];
Int_t iel=0;
for(Int_t ia=0;ia<3;ia++){
iel++;
}
}
- new(lines[i]) AliStrLine(pos,sigmasq,wmat,dir);
+ linarray[i] = new AliStrLine(pos,sigmasq,wmat,dir);
}
- fVert=TrackletVertexFinder(linarray,optUseWeights);
- linarray->Delete();
- delete linarray;
+ fVert=TrackletVertexFinder(linarray,knacc,optUseWeights);
+ for(Int_t i=0; i<knacc; i++) delete linarray[i];
+ delete [] linarray;
}
//---------------------------------------------------------------------------
-AliESDVertex AliVertexerTracks::TrackletVertexFinder(TClonesArray *lines, Int_t optUseWeights)
+AliESDVertex AliVertexerTracks::TrackletVertexFinder(const TClonesArray *lines, Int_t optUseWeights)
{
- // Calculate the point at minimum distance to prepared tracks
-
+ // Calculate the point at minimum distance to prepared tracks (TClonesArray)
const Int_t knacc = (Int_t)lines->GetEntriesFast();
+ AliStrLine** lines2 = new AliStrLine* [knacc];
+ for(Int_t i=0; i<knacc; i++){
+ lines2[i]= (AliStrLine*)lines->At(i);
+ }
+ AliESDVertex vert = TrackletVertexFinder(lines2,knacc,optUseWeights);
+ delete [] lines2;
+ return vert;
+}
+
+//---------------------------------------------------------------------------
+AliESDVertex AliVertexerTracks::TrackletVertexFinder(AliStrLine **lines, const Int_t knacc, Int_t optUseWeights)
+{
+ // Calculate the point at minimum distance to prepared tracks (array of AliStrLine)
+
Double_t initPos[3]={0.,0.,0.};
Double_t (*vectP0)[3]=new Double_t [knacc][3];
}
for(Int_t i=0; i<knacc; i++){
- AliStrLine* line1 = (AliStrLine*)lines->At(i);
+ AliStrLine *line1 = lines[i];
Double_t p0[3],cd[3],sigmasq[3];
Double_t wmat[9];
+ if(!line1) printf("ERROR %d %d\n",i,knacc);
line1->GetP0(p0);
line1->GetCd(cd);
line1->GetSigma2P0(sigmasq);
Double_t det=GetDeterminant3X3(sum);
Double_t sigma=0;
- if(det!=0){
+ if(TMath::Abs(det) > kAlmost0){
for(Int_t zz=0;zz<3;zz++){
for(Int_t ww=0;ww<3;ww++){
for(Int_t kk=0;kk<3;kk++) vett[ww][kk]=sum[ww][kk];
sigma+=GetStrLinMinDist(p0,p1,initPos);
}
- sigma=TMath::Sqrt(sigma);
+ if(sigma>0.) {sigma=TMath::Sqrt(sigma);}else{sigma=999;}
}else{
sigma=999;
}
AliESDVertex theVert(initPos,covmatrix,99999.,knacc);
theVert.SetDispersion(sigma);
- delete vectP0;
- delete vectP1;
+ delete [] vectP0;
+ delete [] vectP1;
return theVert;
}
+
//---------------------------------------------------------------------------
-Bool_t AliVertexerTracks::TrackToPoint(AliESDtrack *t,
+Bool_t AliVertexerTracks::TrackToPoint(AliExternalTrackParam *t,
TMatrixD &ri,TMatrixD &wWi,
Bool_t uUi3by3) const
{
//
-// Extract from the AliESDtrack the global coordinates ri and covariance matrix
+// Extract from the AliExternalTrackParam the global coordinates ri and covariance matrix
// wWi of the space point that it represents (to be used in VertexFitter())
//
qQi(1,2) = 1.;
// covariance matrix of local (y,z) - inverted
- Double_t cc[15];
- t->GetExternalCovariance(cc);
TMatrixD uUi(2,2);
- uUi(0,0) = cc[0];
- uUi(0,1) = cc[1];
- uUi(1,0) = cc[1];
- uUi(1,1) = cc[2];
- //printf(" Ui :\n");
- //printf(" %f %f\n",uUi(0,0),uUi(0,1));
- //printf(" %f %f\n",uUi(1,0),uUi(1,1));
+ uUi(0,0) = t->GetSigmaY2();
+ uUi(0,1) = t->GetSigmaZY();
+ uUi(1,0) = t->GetSigmaZY();
+ uUi(1,1) = t->GetSigmaZ2();
+ //printf(" Ui :");
+ //printf(" %f %f",uUi(0,0),uUi(0,1));
+ //printf(" %f %f",uUi(1,0),uUi(1,1));
if(uUi.Determinant() <= 0.) return kFALSE;
TMatrixD uUiInv(TMatrixD::kInverted,uUi);
+covfVert[2]*sphi*sphi*clambda*clambda
+covfVert[4]*2.*sphi*clambda*slambda
+covfVert[5]*slambda*slambda;
- Double_t cc[15];
- t->GetExternalCovariance(cc);
// covariance matrix of local (x,y,z) - inverted
TMatrixD uUi(3,3);
uUi(0,0) = covfVertalongt * fnSigmaForUi00 * fnSigmaForUi00;
- if(fDebug) printf("=====> sqrtUi00 cm %f\n",TMath::Sqrt(uUi(0,0)));
+ AliDebug(1,Form("=====> sqrtUi00 cm %f",TMath::Sqrt(uUi(0,0))));
uUi(0,1) = 0.;
uUi(0,2) = 0.;
uUi(1,0) = 0.;
- uUi(1,1) = cc[0];
- uUi(1,2) = cc[1];
+ uUi(1,1) = t->GetSigmaY2();
+ uUi(1,2) = t->GetSigmaZY();
uUi(2,0) = 0.;
- uUi(2,1) = cc[1];
- uUi(2,2) = cc[2];
+ uUi(2,1) = t->GetSigmaZY();
+ uUi(2,2) = t->GetSigmaZ2();
//printf(" Ui :\n");
//printf(" %f %f\n",uUi(0,0),uUi(0,1));
//printf(" %f %f\n",uUi(1,0),uUi(1,1));
return kTRUE;
}
//---------------------------------------------------------------------------
-void AliVertexerTracks::TooFewTracks(const AliESDEvent* esdEvent)
+void AliVertexerTracks::TooFewTracks()
{
//
-// When the number of tracks is < fMinTracks
+// When the number of tracks is < fMinTracks,
+// deal with vertices not found and prepare to exit
//
+ AliDebug(1,"TooFewTracks");
- // deal with vertices not found
Double_t pos[3],err[3];
- Int_t ncontr=0;
pos[0] = fNominalPos[0];
err[0] = TMath::Sqrt(fNominalCov[0]);
pos[1] = fNominalPos[1];
err[1] = TMath::Sqrt(fNominalCov[2]);
- pos[2] = esdEvent->GetVertex()->GetZv();
- err[2] = esdEvent->GetVertex()->GetZRes();
- if(err[0]>1. && esdEvent->GetVertex()->GetNContributors()<=0)
- ncontr = -1; // (x,y,z) = (0,0,0)
- if(err[0]>1. && esdEvent->GetVertex()->GetNContributors()>0)
- ncontr = -2; // (x,y,z) = (0,0,z_fromSPD)
- if(err[0]<1. && esdEvent->GetVertex()->GetNContributors()<=0)
- ncontr = -3; // (x,y,z) = (x_mean,y_mean,0)
- if(err[0]<1. && esdEvent->GetVertex()->GetNContributors()>0)
- ncontr = -4; // (x,y,z) = (x_mean,y_mean,z_fromSPD)
- fCurrentVertex = 0;
+ pos[2] = fNominalPos[2];
+ err[2] = TMath::Sqrt(fNominalCov[5]);
+ Int_t ncontr = (err[0]>1. ? -1 : -3);
+ if(fCurrentVertex) { delete fCurrentVertex; fCurrentVertex=0; }
fCurrentVertex = new AliESDVertex(pos,err);
fCurrentVertex->SetNContributors(ncontr);
fCurrentVertex->SetTitle("VertexerTracksNoConstraint");
}
+ if(!fTrkArraySel.IsEmpty()) fTrkArraySel.Delete();
+ if(fIdSel) {delete [] fIdSel; fIdSel=NULL;}
+ if(fTrksToSkip) {delete [] fTrksToSkip; fTrksToSkip=NULL;}
+
return;
}
//---------------------------------------------------------------------------
Double_t initPos[3];
initPos[2] = 0.;
for(Int_t i=0;i<2;i++)initPos[i]=fNominalPos[i];
- Int_t nacc = (Int_t)fTrkArray.GetEntriesFast();
+ Int_t nacc = (Int_t)fTrkArraySel.GetEntriesFast();
Double_t aver[3]={0.,0.,0.};
Double_t aversq[3]={0.,0.,0.};
Double_t sigmasq[3]={0.,0.,0.};
Double_t sigma=0;
Int_t ncombi = 0;
- AliESDtrack *track1;
- AliESDtrack *track2;
+ AliExternalTrackParam *track1;
+ AliExternalTrackParam *track2;
Double_t pos[3],dir[3];
Double_t alpha,mindist;
- Double_t field=GetFieldkG();
for(Int_t i=0; i<nacc; i++){
- track1 = (AliESDtrack*)fTrkArray.At(i);
+ track1 = (AliExternalTrackParam*)fTrkArraySel.At(i);
alpha=track1->GetAlpha();
mindist = TMath::Cos(alpha)*fNominalPos[0]+TMath::Sin(alpha)*fNominalPos[1];
- track1->GetXYZAt(mindist,field,pos);
- track1->GetPxPyPzAt(mindist,field,dir);
+ track1->GetXYZAt(mindist,GetFieldkG(),pos);
+ track1->GetPxPyPzAt(mindist,GetFieldkG(),dir);
AliStrLine *line1 = new AliStrLine(pos,dir);
// AliStrLine *line1 = new AliStrLine();
- // track1->ApproximateHelixWithLine(mindist,field,line1);
+ // track1->ApproximateHelixWithLine(mindist,GetFieldkG(),line1);
for(Int_t j=i+1; j<nacc; j++){
- track2 = (AliESDtrack*)fTrkArray.At(j);
+ track2 = (AliExternalTrackParam*)fTrkArraySel.At(j);
alpha=track2->GetAlpha();
mindist = TMath::Cos(alpha)*fNominalPos[0]+TMath::Sin(alpha)*fNominalPos[1];
- track2->GetXYZAt(mindist,field,pos);
- track2->GetPxPyPzAt(mindist,field,dir);
+ track2->GetXYZAt(mindist,GetFieldkG(),pos);
+ track2->GetPxPyPzAt(mindist,GetFieldkG(),dir);
AliStrLine *line2 = new AliStrLine(pos,dir);
// AliStrLine *line2 = new AliStrLine();
- // track2->ApproximateHelixWithLine(mindist,field,line2);
+ // track2->ApproximateHelixWithLine(mindist,GetFieldkG(),line2);
Double_t distCA=line2->GetDCA(line1);
//printf("%d %d %f\n",i,j,distCA);
if(fDCAcut<=0 || (fDCAcut>0&&distCA<fDCAcut)){
fVert.SetNContributors(ncombi);
}
//---------------------------------------------------------------------------
-void AliVertexerTracks::VertexFitter(Bool_t useConstraint)
+void AliVertexerTracks::VertexFitter()
{
//
// The optimal estimate of the vertex position is given by a "weighted
// average of tracks positions".
// Original method: V. Karimaki, CMS Note 97/0051
//
+ Bool_t useConstraint = fConstraint;
Double_t initPos[3];
if(!fOnlyFitter) {
fVert.GetXYZ(initPos);
initPos[2]=fNominalPos[2];
}
- Int_t nTrks = (Int_t)fTrkArray.GetEntries();
- if(nTrks==1) useConstraint=kTRUE;
- if(fDebug) {
- printf("--- VertexFitter(): start\n");
- printf(" Number of tracks in array: %d\n",nTrks);
- printf(" Minimum # tracks required in fit: %d\n",fMinTracks);
- printf(" Vertex position after finder: %f,%f,%f\n",initPos[0],initPos[1],initPos[2]);
- if(useConstraint) printf(" This vertex will be used in fit: (%f+-%f,%f+-%f)\n",fNominalPos[0],TMath::Sqrt(fNominalCov[0]),fNominalPos[1],TMath::Sqrt(fNominalCov[2]));
- }
+ Int_t nTrksSel = (Int_t)fTrkArraySel.GetEntries();
+ if(nTrksSel==1) useConstraint=kTRUE;
+ AliDebug(1,"--- VertexFitter(): start");
+ AliDebug(1,Form(" Number of tracks in array: %d\n",nTrksSel));
+ AliDebug(1,Form(" Minimum # tracks required in fit: %d\n",fMinTracks));
+ AliDebug(1,Form(" Vertex position after finder: %f,%f,%f\n",initPos[0],initPos[1],initPos[2]));
+ if(useConstraint) AliDebug(1,Form(" This vertex will be used in fit: (%f+-%f,%f+-%f)\n",fNominalPos[0],TMath::Sqrt(fNominalCov[0]),fNominalPos[1],TMath::Sqrt(fNominalCov[2])));
// special treatment for few-tracks fits (e.g. secondary vertices)
- Bool_t uUi3by3 = kFALSE; if(nTrks<5 && !useConstraint) uUi3by3 = kTRUE;
+ Bool_t uUi3by3 = kFALSE; if(nTrksSel<5 && !useConstraint) uUi3by3 = kTRUE;
Int_t i,j,k,step=0;
TMatrixD rv(3,1);
rv(1,0) = initPos[1];
rv(2,0) = 0.;
Double_t xlStart,alpha;
- Int_t nUsedTrks;
+ Int_t nTrksUsed;
Double_t chi2,chi2i,chi2b;
- AliESDtrack *t = 0;
+ AliExternalTrackParam *t = 0;
Int_t failed = 0;
// initial vertex covariance matrix
// 1st - estimate of vtx using all tracks
// 2nd - estimate of global chi2
for(step=0; step<2; step++) {
- if(fDebug) printf(" step = %d\n",step);
+ AliDebug(1,Form(" step = %d\n",step));
chi2 = 0.;
- nUsedTrks = 0;
+ nTrksUsed = 0;
if(step==1) { initPos[0]=rv(0,0); initPos[0]=rv(1,0); }
}
// loop on tracks
- for(k=0; k<nTrks; k++) {
+ for(k=0; k<nTrksSel; k++) {
// get track from track array
- t = (AliESDtrack*)fTrkArray.At(k);
+ t = (AliExternalTrackParam*)fTrkArraySel.At(k);
alpha = t->GetAlpha();
xlStart = initPos[0]*TMath::Cos(alpha)+initPos[1]*TMath::Sin(alpha);
// to vtxSeed (from finder)
- t->AliExternalTrackParam::PropagateTo(xlStart,GetFieldkG());
+ t->PropagateTo(xlStart,GetFieldkG());
// vector of track global coordinates
TMatrixD ri(3,1);
sumWiri += wWiri;
sumWi += wWi;
- nUsedTrks++;
+ nTrksUsed++;
} // end loop on tracks
- if(nUsedTrks < fMinTracks) {
+ if(nTrksUsed < fMinTracks) {
failed=1;
continue;
}
Double_t determinant = sumWi.Determinant();
- //cerr<<" determinant: "<<determinant<<endl;
- if(determinant < 100.) {
- printf("det(V) = 0\n");
+ if(determinant < fMinDetFitter) {
+ AliDebug(1,Form("det(V) = %f (<%f)\n",determinant,fMinDetFitter));
failed=1;
continue;
}
} // end loop on the 2 steps
if(failed) {
- if(fDebug) printf("TooFewTracks\n");
- fCurrentVertex = new AliESDVertex(0.,0.,-1);
+ TooFewTracks();
return;
}
covmatrix[5] = vV(2,2);
// for correct chi2/ndf, count constraint as additional "track"
- if(fConstraint) nUsedTrks++;
+ if(fConstraint) nTrksUsed++;
// store data in the vertex object
- fCurrentVertex = new AliESDVertex(position,covmatrix,chi2,nUsedTrks);
+ if(fCurrentVertex) { delete fCurrentVertex; fCurrentVertex=0; }
+ fCurrentVertex = new AliESDVertex(position,covmatrix,chi2,nTrksUsed);
- if(fDebug) {
- printf(" Vertex after fit:\n");
- fCurrentVertex->PrintStatus();
- printf("--- VertexFitter(): finish\n");
- }
+ AliDebug(1," Vertex after fit:");
+ AliDebug(1,Form("xyz: %f %f %f; nc %d",fCurrentVertex->GetXv(),fCurrentVertex->GetYv(),fCurrentVertex->GetZv(),fCurrentVertex->GetNContributors()));
+ AliDebug(1,"--- VertexFitter(): finish\n");
+
return;
}
//----------------------------------------------------------------------------
-AliESDVertex* AliVertexerTracks::VertexForSelectedTracks(TTree *trkTree,Bool_t optUseFitter,Bool_t optPropagate)
+AliESDVertex* AliVertexerTracks::VertexForSelectedTracks(const TObjArray *trkArray,
+ UShort_t *id,
+ Bool_t optUseFitter,
+ Bool_t optPropagate,
+ Bool_t optUseDiamondConstraint)
{
//
-// Return vertex from tracks in trkTree
+// Return vertex from tracks (AliExternalTrackParam) in array
//
-
- SetConstraintOff();
+ fCurrentVertex = 0;
+ // set optUseDiamondConstraint=TRUE only if you are reconstructing the
+ // primary vertex!
+ if(optUseDiamondConstraint) {
+ SetConstraintOn();
+ } else {
+ SetConstraintOff();
+ }
// get tracks and propagate them to initial vertex position
- Int_t nTrksPrep = PrepareTracks(*trkTree,0);
- if(nTrksPrep < TMath::Max(2,fMinTracks) ) {
- if(fDebug) printf("TooFewTracks\n");
- fCurrentVertex = new AliESDVertex(0.,0.,-1);
+ fIdSel = new UShort_t[(Int_t)trkArray->GetEntriesFast()];
+ Int_t nTrksSel = PrepareTracks(*trkArray,id,0);
+ if((!optUseDiamondConstraint && nTrksSel<TMath::Max(2,fMinTracks)) ||
+ (optUseDiamondConstraint && nTrksSel<1)) {
+ TooFewTracks();
return fCurrentVertex;
}
- switch (fAlgo) {
- case 1: StrLinVertexFinderMinDist(1); break;
- case 2: StrLinVertexFinderMinDist(0); break;
- case 3: HelixVertexFinder(); break;
- case 4: VertexFinder(1); break;
- case 5: VertexFinder(0); break;
- default: printf("Wrong algorithm\n"); break;
+ // vertex finder
+ if(nTrksSel==1) {
+ AliDebug(1,"Just one track");
+ OneTrackVertFinder();
+ } else {
+ switch (fAlgo) {
+ case 1: StrLinVertexFinderMinDist(1); break;
+ case 2: StrLinVertexFinderMinDist(0); break;
+ case 3: HelixVertexFinder(); break;
+ case 4: VertexFinder(1); break;
+ case 5: VertexFinder(0); break;
+ default: printf("Wrong algorithm\n"); break;
+ }
}
-
- if(fDebug) printf(" Vertex finding completed\n");
+ AliDebug(1," Vertex finding completed\n");
// vertex fitter
- if(optUseFitter){
- //SetVtxStart(&fVert);
- VertexFitter(fConstraint);
- if(fDebug) printf(" Vertex fit completed\n");
- }else{
+ if(optUseFitter) {
+ VertexFitter();
+ } else {
Double_t position[3]={fVert.GetXv(),fVert.GetYv(),fVert.GetZv()};
Double_t covmatrix[6];
fVert.GetCovMatrix(covmatrix);
Double_t chi2=99999.;
- Int_t nUsedTrks=fVert.GetNContributors();
- fCurrentVertex = new AliESDVertex(position,covmatrix,chi2,nUsedTrks);
+ Int_t nTrksUsed=fVert.GetNContributors();
+ fCurrentVertex = new AliESDVertex(position,covmatrix,chi2,nTrksUsed);
}
fCurrentVertex->SetDispersion(fVert.GetDispersion());
// set indices of used tracks and propagate track to found vertex
UShort_t *indices = 0;
- AliESDtrack *eta = 0;
+ Double_t d0z0[2],covd0z0[3];
+ AliExternalTrackParam *t = 0;
if(fCurrentVertex->GetNContributors()>0) {
- indices = new UShort_t[fCurrentVertex->GetNContributors()];
- for(Int_t jj=0;jj<(Int_t)fTrkArray.GetEntriesFast();jj++) {
- eta = (AliESDtrack*)fTrkArray.At(jj);
- indices[jj] = (UShort_t)eta->GetID();
- if(optPropagate&&optUseFitter){
+ indices = new UShort_t[fTrkArraySel.GetEntriesFast()];
+ for(Int_t jj=0; jj<(Int_t)fTrkArraySel.GetEntriesFast(); jj++) {
+ indices[jj] = fIdSel[jj];
+ t = (AliExternalTrackParam*)fTrkArraySel.At(jj);
+ if(optPropagate && optUseFitter) {
if(TMath::Sqrt(fCurrentVertex->GetXv()*fCurrentVertex->GetXv()+fCurrentVertex->GetYv()*fCurrentVertex->GetYv())<3.) {
- eta->RelateToVertex(fCurrentVertex,GetFieldkG(),100.);
- if(fDebug) printf("Track %d propagated to found vertex\n",jj);
- }else{
+ t->PropagateToDCA(fCurrentVertex,GetFieldkG(),100.,d0z0,covd0z0);
+ AliDebug(1,Form("Track %d propagated to found vertex",jj));
+ } else {
AliWarning("Found vertex outside beam pipe!");
}
}
}
fCurrentVertex->SetIndices(fCurrentVertex->GetNContributors(),indices);
}
- delete [] indices;
- fTrkArray.Delete();
+
+ // clean up
+ if (indices) {delete [] indices; indices=NULL;}
+ delete [] fIdSel; fIdSel=NULL;
+ fTrkArraySel.Delete();
return fCurrentVertex;
}
//----------------------------------------------------------------------------
-AliESDVertex* AliVertexerTracks::VertexForSelectedTracks(TObjArray *trkArray,Bool_t optUseFitter, Bool_t optPropagate)
+AliESDVertex* AliVertexerTracks::VertexForSelectedESDTracks(TObjArray *trkArray,
+ Bool_t optUseFitter,
+ Bool_t optPropagate,
+ Bool_t optUseDiamondConstraint)
+
{
//
-// Return vertex from array of tracks
+// Return vertex from array of ESD tracks
//
- // get tracks and propagate them to initial vertex position
- Int_t nTrks = trkArray->GetEntriesFast();
- if(nTrks < TMath::Max(2,fMinTracks) ) {
- if(fDebug) printf("TooFewTracks\n");
- fCurrentVertex = new AliESDVertex(0.,0.,-1);
- return fCurrentVertex;
- }
- TDirectory * olddir = gDirectory;
- TFile f("VertexerTracks.root","recreate");
- TTree *trkTree = new TTree("TreeT","tracks");
- AliESDtrack *esdTrack = 0;
- trkTree->Branch("tracks","AliESDtrack",&esdTrack);
+ Int_t nTrks = (Int_t)trkArray->GetEntriesFast();
+ UShort_t *id = new UShort_t[nTrks];
+
+ AliESDtrack *esdt = 0;
for(Int_t i=0; i<nTrks; i++){
- esdTrack = (AliESDtrack*)trkArray->At(i);
- trkTree->Fill();
+ esdt = (AliESDtrack*)trkArray->At(i);
+ id[i] = (UShort_t)esdt->GetID();
}
- AliESDVertex *vtx = VertexForSelectedTracks(trkTree,optUseFitter,optPropagate);
- delete trkTree;
- f.Close();
- gSystem->Unlink("VertexerTracks.root");
- olddir->cd();
- return vtx;
+ VertexForSelectedTracks(trkArray,id,optUseFitter,optPropagate,optUseDiamondConstraint);
+
+ delete [] id; id=NULL;
+
+ return fCurrentVertex;
}
//--------------------------------------------------------------------------