* provided "as is" without express or implied warranty. *
**************************************************************************/
-/*
-$Log$
-Revision 1.10.2.1 2001/10/24 07:26:04 hristov
-All the changes from the head are merged with the release
-
-Revision 1.14 2001/10/24 07:19:57 hristov
-Some pointer correctly initialised in one of the constructors
-
-Revision 1.13 2001/10/21 19:17:12 hristov
-Several pointers were set to zero in the default constructors to avoid memory management problems
-
-Revision 1.12 2001/10/19 21:32:35 nilsen
-Minor changes to remove compliation warning on gcc 2.92.2 compiler, and
-cleanded up a little bit of code.
+/* $Id$ */
-*/
-// The purpose of this class is to permorm the ITS tracking. The
+// The purpose of this class is to permorm the ITS tracking. The
// constructor has the task to inizialize some private members. The method
// DoTracking is written to be called by a macro. It gets the event number,
// the minimum and maximum order number of TPC tracks that are to be tracked
// imposition respectively. The authors thank Mariana Bondila to have help
// them to resolve some problems. July-2000
-#include <fstream.h>
+#include <Riostream.h>
#include <TMath.h>
#include <TBranch.h>
#include <TVector.h>
#include <TFile.h>
+#include <TRandom.h>
#include <TTree.h>
-#include <TStopwatch.h>
#include "TParticle.h"
#include "AliRun.h"
-#include "AliITS.h"
-#include "AliITSsegmentationSSD.h"
+#include "AliITSDetTypeRec.h"
#include "AliITSgeomSPD.h"
#include "AliITSgeomSDD.h"
#include "AliITSgeomSSD.h"
#include "AliITSgeom.h"
#include "AliITSRecPoint.h"
-#include "stdlib.h"
#include "AliKalmanTrack.h"
#include "AliMagF.h"
#include "AliITSTrackV1.h"
#include "AliITSIOTrack.h"
#include "AliITSRad.h"
-#include "../TPC/AliTPCtracker.h"
+#include "AliTPCtracker.h"
#include "AliITSTrackerV1.h"
-#include "AliITSVertex.h"
+#include "AliITSPid.h"
+#include "AliMC.h"
ClassImp(AliITSTrackerV1)
//______________________________________________________________________
AliITSTrackerV1::AliITSTrackerV1() {
//Default constructor
- fITS = 0;
+ //fITS = 0;
fresult = 0;
+ fPtref=0.;
+ fChi2max=0.;
+ //fepsphi=0.;
+ //fepsz=0.;
frecPoints = 0;
fvettid = 0;
+ fflagvert=0;
frl = 0;
+ Int_t ia;
+ for(ia=0; ia<6; ia++) {
+ fNlad[ia]=0;
+ fNdet[ia]=0;
+ fAvrad[ia]=0.;
+ fDetx[ia]=0.;
+ fDetz[ia]=0.;
+ } // end for ia
fzmin = 0;
fzmax = 0;
fphimin = 0;
fphimax = 0;
fphidet = 0;
+ fNRecPoints=0;
+ fRecCylR=0;
+ fRecCylPhi=0;
+ fRecCylZ=0;
+ fFieldFactor=0;
+ fDetTypeRec = 0;
}
//______________________________________________________________________
-AliITSTrackerV1::AliITSTrackerV1(AliITS* IITTSS, Bool_t flag) {
+AliITSTrackerV1::AliITSTrackerV1(Int_t evnumber, Bool_t flag) {
//Origin A. Badala' and G.S. Pappalardo:
// e-mail Angela.Badala@ct.infn.it, Giuseppe.S.Pappalardo@ct.infn.it
// Class constructor. It does some initializations.
//PH Initialisation taken from the default constructor
- fITS = IITTSS;
- fresult = 0;
- frecPoints = 0;
- fvettid = 0;
- frl = 0;
- fzmin = 0;
- fzmax = 0;
- fphimin = 0;
- fphimax = 0;
- fphidet = 0;
-
- fPtref = 0.;
- fChi2max =0.;
- fflagvert =flag;
- Int_t imax = 200,jmax = 450;
- frl = new AliITSRad(imax,jmax);
-
- ////////// gets information on geometry /////////////////////////////
- AliITSgeom *g1 = ((AliITS*)gAlice->GetDetector("ITS"))->GetITSgeom();
- // Why not AliITS *g1 = fITS->GetITSgeom(); // ?? BSN
- Int_t ll=1, dd=1;
- TVector det(9);
-
- //cout<<" nlad ed ndet \n";
- Int_t ia;
- for(ia=0; ia<6; ia++) {
- fNlad[ia]=g1->GetNladders(ia+1);
- fNdet[ia]=g1->GetNdetectors(ia+1);
- //cout<<fNlad[i]<<" "<<fNdet[i]<<"\n";
- } // end for ia
- //getchar();
-
- //cout<<" raggio medio = ";
- Int_t ib;
- for(ib=0; ib<6; ib++) {
- g1->GetCenterThetaPhi(ib+1,ll,dd,det);
- Double_t r1=TMath::Sqrt(det(0)*det(0)+det(1)*det(1));
- g1->GetCenterThetaPhi(ib+1,ll,dd+1,det);
- Double_t r2=TMath::Sqrt(det(0)*det(0)+det(1)*det(1));
- fAvrad[ib]=(r1+r2)/2.;
- //cout<<fAvrad[ib]<<" ";
- } // end for ib
+ //fITS = IITTSS;
+ fresult = 0;
+ fPtref = 0.;
+ fChi2max =0.;
+ frecPoints = 0;
+ fvettid = 0;
+ fflagvert = flag;
+ frl = 0;
+ fzmin = 0;
+ fzmax = 0;
+ fphimin = 0;
+ fphimax = 0;
+ fphidet = 0;
+
+ Int_t imax = 200,jmax = 450;
+ frl = new AliITSRad(imax,jmax);
+
+ ////////// gets information on geometry /////////////////////////////
+ AliRunLoader* rl = AliRunLoader::Open("galice.root");
+ AliITSLoader* loader = (AliITSLoader*)runLoader->GetLoader("ITSLoader");
+ if (!loader) {
+ Error("AliITSTrackerV1", "ITS loader not found");
+ return;
+ }
+ fDetTypeRec = new AliITSDetTypeRec(loader);
+ AliITSgeom* g1 = loader->GetITSgeom();
+
+ Int_t ll=1, dd=1;
+ TVector det(9);
+
+ Int_t ia;
+ for(ia=0; ia<6; ia++) {
+ fNlad[ia]=g1->GetNladders(ia+1);
+ fNdet[ia]=g1->GetNdetectors(ia+1);
+ //cout<<fNlad[i]<<" "<<fNdet[i]<<"\n";
+ } // end for ia
+
+ //cout<<" mean radius = ";
+ Int_t ib;
+ for(ib=0; ib<6; ib++) {
+ g1->GetCenterThetaPhi(ib+1,ll,dd,det);
+ Double_t r1=TMath::Sqrt(det(0)*det(0)+det(1)*det(1));
+ g1->GetCenterThetaPhi(ib+1,ll,dd+1,det);
+ Double_t r2=TMath::Sqrt(det(0)*det(0)+det(1)*det(1));
+ fAvrad[ib]=(r1+r2)/2.;
+ //cout<<fAvrad[ib]<<" ";
+ } // end for ib
//cout<<"\n"; getchar();
-
- fDetx[0] = ((AliITSgeomSPD*)(g1->GetShape(1, ll, dd)))->GetDx();
- fDetz[0] = ((AliITSgeomSPD*)(g1->GetShape(1, ll, dd)))->GetDz();
-
- fDetx[1] = ((AliITSgeomSPD*)(g1->GetShape(2, ll, dd)))->GetDx();
- fDetz[1] = ((AliITSgeomSPD*)(g1->GetShape(2, ll, dd)))->GetDz();
+
+ fDetx[0] = ((AliITSgeomSPD*)(g1->GetShape(1, ll, dd)))->GetDx();
+ fDetz[0] = ((AliITSgeomSPD*)(g1->GetShape(1, ll, dd)))->GetDz();
+
+ fDetx[1] = ((AliITSgeomSPD*)(g1->GetShape(2, ll, dd)))->GetDx();
+ fDetz[1] = ((AliITSgeomSPD*)(g1->GetShape(2, ll, dd)))->GetDz();
fDetx[2] = ((AliITSgeomSDD*)(g1->GetShape(3, ll, dd)))->GetDx();
fDetz[2] = ((AliITSgeomSDD*)(g1->GetShape(3, ll, dd)))->GetDz();
//for(Int_t la=0; la<6; la++) cout<<" "<<fDetx[la]<<" "<<
// fDetz[la]<<endl;
//getchar();
+
// allocate memory and define matrices fzmin, fzmax, fphimin and fphimax //
Double_t epsz=1.2;
Double_t epszdrift=0.05;
fphidet[im1] = new Double_t[im2max];
} // end for im1
- Float_t global[3],local[3];
+ Double_t global[3],local[3];
Double_t pigre=TMath::Pi();
Double_t xmin,ymin,xmax,ymax;
if(fphimax[im1][im2]<0.) fphimax[im1][im2]+=2.*pigre;
} // end for im2
} // end for im1
+//////////////////////////////////////////////////////////////////////////////////////////////////////////
+/////////////// allocate memory and define vector fNRecPoints and matrices fRecCylR, fRecCylPhi, fRecCylZ /////////////
+ gAlice->GetEvent(evnumber);
+ Int_t numOfModules = g1->GetIndexMax();
+ fRecCylR = new Double_t *[numOfModules];
+ fRecCylPhi = new Double_t *[numOfModules];
+ fRecCylZ = new Double_t *[numOfModules];
+ AliITSRecPoint *recp;
+ fNRecPoints = new Int_t[numOfModules];
+
+ for(Int_t module=0; module<numOfModules; module++) {
+ fDetTypeRec->ResetRecPoints();
+ gAlice->TreeR()->GetEvent(module);
+ frecPoints=fDetTypeRec->RecPoints();
+ Int_t nRecPoints=fNRecPoints[module]=frecPoints->GetEntries();
+ fRecCylR[module] = new Double_t[nRecPoints];
+ fRecCylPhi[module] = new Double_t[nRecPoints];
+ fRecCylZ[module] = new Double_t[nRecPoints];
+ Int_t ind;
+ for(ind=0; ind<fNRecPoints[module]; ind++) {
+ recp=(AliITSRecPoint*)frecPoints->UncheckedAt(ind);
+ // Float_t global[3], local[3];
+ Double_t global[3], local[3];
+ local[0]=recp->GetX();
+ local[1]=0.;
+ local[2]= recp->GetZ();
+ g1->LtoG(module,local,global);
+
+ Double_t r = TMath::Sqrt(global[0]*global[0]+global[1]*global[1]); // r hit
+ Double_t phi = TMath::ATan2(global[1],global[0]); if(phi<0.) phi+=2.*TMath::Pi(); // phi hit
+ Double_t z = global[2]; // z hit
+
+ fRecCylR[module][ind]=r;
+ fRecCylPhi[module][ind]=phi;
+ fRecCylZ[module][ind]=z;
+ }
+ }
+ //}
+ //}
+////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
+
////////// gets magnetic field factor //////////////////////////////
AliMagF * fieldPointer = gAlice->Field();
- fFieldFactor = (Double_t)fieldPointer->Factor();
- //cout<< " field factor = "<<fFieldFactor<<"\n"; getchar();
+ // fFieldFactor = (Double_t)fieldPointer->Factor();
+ fFieldFactor =(Double_t)fieldPointer-> SolenoidField()/10/.2;
+ // cout<< " field factor = "<<fFieldFactor<<"\n"; getchar();
+ delete rl;
+
}
//______________________________________________________________________
-AliITSTrackerV1::AliITSTrackerV1(const AliITSTrackerV1 &cobj) {
+AliITSTrackerV1::AliITSTrackerV1(const AliITSTrackerV1 &cobj) : TObject(cobj) {
// Origin A. Badala' and G.S. Pappalardo:
// e-mail Angela.Badala@ct.infn.it, Giuseppe.S.Pappalardo@ct.infn.it
// copy constructor
-
- *fITS = *cobj.fITS;
+
+ // *fITS = *cobj.fITS;
*fresult = *cobj.fresult;
fPtref = cobj.fPtref;
fChi2max = cobj.fChi2max;
fphidet[im1][im2]=cobj.fphidet[im1][im2];
} // end for im2
} // end for im2
+
+
+ AliRunLoader* rl = AliRunLoader::Open("galice.root");
+ rl->CdGAFile();
+ AliITSgeom* g1 = (AliITSgeom*)gDirectory->Get("AliITSgeom");
+
+ Int_t numOfModules = g1->GetIndexMax();
+ /*
+ fRecCylR = new Float_t *[numOfModules];
+ fRecCylPhi = new Float_t *[numOfModules];
+ fRecCylZ = new Float_t *[numOfModules];
+ */
+ fRecCylR = new Double_t *[numOfModules];
+ fRecCylPhi = new Double_t *[numOfModules];
+ fRecCylZ = new Double_t *[numOfModules];
+ fNRecPoints = new Int_t[numOfModules];
+ for(Int_t module=0; module<numOfModules; module++) {
+ Int_t nRecPoints=fNRecPoints[module]=cobj.fNRecPoints[module];
+ /*
+ fRecCylR[module] = new Float_t[nRecPoints];
+ fRecCylPhi[module] = new Float_t[nRecPoints];
+ fRecCylZ[module] = new Float_t[nRecPoints];
+ */
+ fRecCylR[module] = new Double_t[nRecPoints];
+ fRecCylPhi[module] = new Double_t[nRecPoints];
+ fRecCylZ[module] = new Double_t[nRecPoints];
+ Int_t ind;
+ for(ind=0; ind<nRecPoints; ind++) {
+ fRecCylR[module][ind]=cobj.fRecCylR[module][ind];
+ fRecCylPhi[module][ind]=cobj.fRecCylPhi[module][ind];
+ fRecCylZ[module][ind]=cobj.fRecCylZ[module][ind];
+ }
+ }
+ delete rl;
+
}
+/*
+//______________________________________________________________________
+void AliITSTrackerV1::DelMatrix(Int_t numOfModules) {
+ // cleanup of some data members
+ for(Int_t mod=0; mod<numOfModules; mod++) {
+ delete fRecCylR[mod];
+ delete fRecCylPhi[mod];
+ delete fRecCylZ[mod];
+ }
+ delete fRecCylR;
+ delete fRecCylPhi;
+ delete fRecCylZ;
+}
+*/
//______________________________________________________________________
AliITSTrackerV1::~AliITSTrackerV1(){
// Origin A. Badala' and G.S. Pappalardo:
// e-mail Angela.Badala@ct.infn.it, Giuseppe.S.Pappalardo@ct.infn.it
- // class destructor
-
- //delete fTimerKalman;
- //delete fTimerIntersection;
+ // class destructor
+ delete frl;
+ delete fNRecPoints;
+ for(Int_t i=0; i<6; i++) {
+ delete fzmin[i];
+ delete fzmax[i];
+ delete fphimin[i];
+ delete fphimax[i];
+ delete fphidet[i];
+ }
+
+ delete fzmin;
+ delete fzmax;
+ delete fphimin;
+ delete fphimax;
+ delete fphidet;
+
}
//______________________________________________________________________
-AliITSTrackerV1 &AliITSTrackerV1::operator=(AliITSTrackerV1 obj) {
+AliITSTrackerV1 &AliITSTrackerV1::operator=(const AliITSTrackerV1 &obj) {
// Origin A. Badala' and G.S. Pappalardo:
// e-mail Angela.Badala@ct.infn.it, Giuseppe.S.Pappalardo@ct.infn.it
// assignement operator
- *fITS = *obj.fITS;
+ // *fITS = *obj.fITS;
*fresult = *obj.fresult;
fPtref = obj.fPtref;
fChi2max = obj.fChi2max;
} // end for im2
} // end for im1
+ AliRunLoader* rl = AliRunLoader::Open("galice.root");
+ rl->CdGAFile();
+ AliITSgeom* g1 = (AliITSgeom*)gDirectory->Get("AliITSgeom");
+ // AliITSgeom *g1 = fITS->GetITSgeom();
+ Int_t numOfModules = g1->GetIndexMax();
+ fRecCylR = new Double_t *[numOfModules];
+ fRecCylPhi = new Double_t *[numOfModules];
+ fRecCylZ = new Double_t *[numOfModules];
+ fNRecPoints = new Int_t[numOfModules];
+ for(Int_t module=0; module<numOfModules; module++) {
+ Int_t nRecPoints=fNRecPoints[module]=obj.fNRecPoints[module];
+ fRecCylR[module] = new Double_t[nRecPoints];
+ fRecCylPhi[module] = new Double_t[nRecPoints];
+ fRecCylZ[module] = new Double_t[nRecPoints];
+ Int_t ind;
+ for(ind=0; ind<nRecPoints; ind++) {
+ fRecCylR[module][ind]=obj.fRecCylR[module][ind];
+ fRecCylPhi[module][ind]=obj.fRecCylPhi[module][ind];
+ fRecCylZ[module][ind]=obj.fRecCylZ[module][ind];
+ }
+ }
+
+
+ delete rl;
return *this;
}
//______________________________________________________________________
// The method can be called by a macro. It preforms the tracking for
// all good TPC tracks
- printf("begin DoTracking - file %p\n",file);
+ printf("begin DoTracking - file %p\n",(void*)file);
gAlice->GetEvent(evNumber); //modificato per gestire hbt
- AliKalmanTrack *kkprov;
- kkprov->SetConvConst(100/0.299792458/0.2/fFieldFactor);
+ AliKalmanTrack::SetFieldMap(gAlice->Field());
+ // cout<<" field = "<<gAlice->Field()->SolenoidField()<<endl;
+
TFile *cf=TFile::Open("AliTPCclusters.root");
- AliTPCParam *digp= (AliTPCParam*)cf->Get("75x40_100x60");
+ AliTPCParam *digp= (AliTPCParam*)cf->Get("75x40_100x60_150x60");
if (!digp) { cerr<<"TPC parameters have not been found !\n"; getchar();}
cf->cd();
- AliTPCtracker *tracker = new AliTPCtracker(digp,evNumber);
+ AliRunLoader* rl = AliRunLoader::Open("galice.root");
+ AliITSLoader* itsl = (AliITSLoader*)rl->GetLoader("ITSLoader");
+ TString foldname(itsl->GetEventFolder()->GetName());
+ //TString foldname(fITS->GetLoader()->GetEventFolder()->GetName());
+ delete rl;
+ printf("This method is not converted to the NewIO !\n"); //I.B.
+ return; //I.B.
+ AliTPCtracker *tracker = new AliTPCtracker(digp); //I.B.
+ //PH tracker->SetEventNumber(evNumber); //I.B.
// Load clusters
- tracker->LoadInnerSectors();
- tracker->LoadOuterSectors();
+ printf("This method is not converted to the NewIO !\n"); //I.B.
+ return; //I.B.
+ tracker->LoadClusters(0); //I.B.
// Load tracks
- TFile *tf=TFile::Open("AliTPCtracksSorted.root"); //modificato per hbt
+ TFile *tf=TFile::Open("AliTPCtracksSorted.root");
if (!tf->IsOpen()) {
cerr<<"Can't open AliTPCtracksSorted.root !\n";
return ;
Int_t nentr=(Int_t)tracktree->GetEntries();
Int_t kk;
- AliTPCtrack *ioTrackTPC=0;
+ AliITSRecPoint *recp; // oggi
+ AliTPCtrack *ioTrackTPC=0;
for (kk=0; kk<nentr; kk++) {
ioTrackTPC=new AliTPCtrack;
tbranch->SetAddress(&ioTrackTPC);
TVector vec(5);
TTree *tr=gAlice->TreeR();
Int_t nent=(Int_t)tr->GetEntries();
- frecPoints = fITS->RecPoints();
+ frecPoints = fDetTypeRec->RecPoints();
Int_t numbpoints;
Int_t totalpoints=0;
for (mod=0; mod<nent; mod++) {
fvettid[mod]=0;
- fITS->ResetRecPoints();
+ fDetTypeRec->ResetRecPoints();
gAlice->TreeR()->GetEvent(mod);
numbpoints = frecPoints->GetEntries();
totalpoints+=numbpoints;
TTree tracktree1("TreeT","Tree with ITS tracks");
AliITSIOTrack *ioTrack=0;
+ AliITSPid *pid=new AliITSPid(1000); // oggi
+
tracktree1.Branch("ITStracks","AliITSIOTrack",&ioTrack,32000,0);
- TDatabasePDG * db = new TDatabasePDG;
+ TDatabasePDG * db = new TDatabasePDG;
Int_t j;
for (j=minTr; j<=maxTr; j++) {
/// mass definition ////////////////////////
Double_t mass=0.13956995;
Int_t pcode=211; // a pion by default
+
if(realmass) {
- Int_t TPClabel=TMath::Abs( track->GetLabel() );
- TParticle *p = (TParticle*)gAlice->Particle(TPClabel);
- pcode=p->GetPdgCode();
- // Int_t mothercode=p->GetFirstMother();
- //if(mothercode>0 ) numofsecondaries++; else numofprimaries++;
+ if(TMath::Abs(pcode)<20443) mass=db->GetParticle(pcode)->Mass();
}
- //if(!pcode) pcode=211;
- if(TMath::Abs(pcode)<20443) mass=db->GetParticle(pcode)->Mass();
+ else {
+ mass = track->GetMass();
+// cout << "Mass = " << mass << endl;
+ }
+
- ///////////////////////////////////////////////
- /*
- ////// propagation to the end of TPC //////////////
- Double_t xk=77.415;
- track->PropagateTo(xk, 28.94, 1.204e-3,mass); //Ne
- xk -=0.01;
- track->PropagateTo(xk, 44.77, 1.71,mass); //Tedlar
- xk -=0.04;
- track->PropagateTo(xk, 44.86, 1.45,mass); //kevlar
- xk -=2.0;
- track->PropagateTo(xk, 41.28, 0.029,mass); //Nomex
- xk-=16;
- track->PropagateTo(xk,36.2,1.98e-3,mass); //C02
- xk -=0.01;
- track->PropagateTo(xk, 24.01, 2.7,mass); //Al
- xk -=0.01;
- track->PropagateTo(xk, 44.77, 1.71,mass); //Tedlar
- xk -=0.04;
- track->PropagateTo(xk, 44.86, 1.45,mass); //kevlar
- xk -=0.5;
- track->PropagateTo(xk, 41.28, 0.029,mass); //Nomex
- ////////////////////////////////////////////////////////////////////
- */
// new propagation to the end of TPC
- //Double_t xk=80.;
- //track->PropagateTo(xk,0.,0.); //Ne if it's still there
- Double_t xk=77.415;
+ Double_t xk=80.;
+ // track->PropagateTo(xk,0.,0.); //Ne if it's still there //attenzione funziona solo se modifica in TPC
+ // Double_t xk=77.415;
track->PropagateTo(xk, 28.94, 1.204e-3);
xk-=0.005;
track->PropagateTo(xk, 44.77,1.71); //Tedlar
track->PropagateTo(xk, 44.77, 1.71); //Tedlar
xk=61.;
- //track->PropagateTo(xk,0.,0.); //C02
- track->PropagateTo(xk,36.2,1.98e-3); //C02
+ // track->PropagateTo(xk,0.,0.); //C02
+ track->PropagateTo(xk,36.2,1.98e-3); //C02 //attenzione funziona solo se modifica in TPC
xk -=0.005;
track->PropagateTo(xk, 24.01, 2.7); //Al
xk -=0.005;
track->PropagateTo(xk, 44.77, 1.71); //Tedlar
xk -=0.005;
- track->PropagateTo(xk, 24.01, 2.7); //Al
-
-
- AliITSTrackV1 trackITS(*track);
+ track->PropagateTo(xk, 24.01, 2.7); //Al
+
+ ////////////////////////////////////////////////////////////////////////////////////////////////////////
+ //AliITSTrackV1 trackITS(*track);
+ AliITSTrackV1 trackITS(*track, fFieldFactor);
+ //cout<<" fFieldFactor = "<<fFieldFactor<<"\n";
trackITS.PutMass(mass); //new to add mass to track
if(fresult){ delete fresult; fresult=0;}
fresult = new AliITSTrackV1(trackITS);
primaryTrack.SetZv(zv);
primaryTrack.SetsigmaDv(sigmaDv);
primaryTrack.SetsigmaZv(sigmaZv);
- primaryTrack.PrimaryTrack(frl);
+ primaryTrack.PrimaryTrack();
TVector d2=primaryTrack.Getd2();
TVector tgl2=primaryTrack.Gettgl2();
TVector dtgl=primaryTrack.Getdtgl();
list->AddLast(&trackITS);
fPtref=TMath::Abs( (trackITS).GetPt() );
+ //cout<<" fPtref = " <<fPtref<<"\n";
if(fPtref>1.0) fChi2max=40.;
if(fPtref<=1.0) fChi2max=20.;
if(fPtref<0.4 ) fChi2max=100.;
for(k=0; k<3; k++){
Int_t lpp=(Int_t)vecLabRef(k);
if(lpp>=0) {
- TParticle *p=(TParticle*) gAlice->Particle(lpp);
+ TParticle *p=(TParticle*) gAlice->GetMCApp()->Particle(lpp);
Int_t pcode=p->GetPdgCode();
if(pcode==11) vecLabRef(k)=p->GetFirstMother();
} // end if
itot++; vecTotLabRef(itot)=vecLabRef(k);
- if(vecLabRef(k)==0. && clustZ == 0.) vecTotLabRef(itot) =-3.;
+ if(vecLabRef(k)==0. && clustZ == -1.) vecTotLabRef(itot) =-3.;
} // end for k
} // end for lay
Long_t labref;
//propagation to vertex
Double_t rbeam=3.;
- if((*fresult).DoNotCross(rbeam)) continue; //no intersection with beampipe
+ if((*fresult).DoNotCross(rbeam)) continue; //no intersection with beampipe
(*fresult).Propagation(rbeam);
Double_t c00,c10,c11,c20,c21,c22,c30,c31,c32,c33,c40,c41,c42,c43,c44;
(*fresult).GetCElements(c00,
Int_t charge;
if(c>0.) charge=-1; else charge=1;
ioTrack->SetCharge(charge);
+ Double_t trackmass=(*fresult).GetMass(); // oggi
+ ioTrack->SetMass(trackmass); // oggi
ioTrack->SetCovMatrix(c00,
c10,c11,
c20,c21,c22,
ioTrack->SetTPCLabel(lab);
ioTrack->SetDz(dz);
Int_t il;
- for(il=0;il<6; il++){
+ /*
+ for(il=0;il<6; il++){
ioTrack->SetIdPoint(il,(*fresult).GetIdPoint(il));
ioTrack->SetIdModule(il,(*fresult).GetIdModule(il));
} // end for il
- tracktree1.Fill();
+ */
+ //tracktree1.Fill();
+ Float_t q[4]={-1.,-1.,-1.,-1.};
+ Float_t globaldedx=0.;
for (il=0;il<6;il++) {
idpoint=(*fresult).GetIdPoint(il);
idmodule=(*fresult).GetIdModule(il);
ioTrack->SetIdPoint(il,idpoint);
ioTrack->SetIdModule(il,idmodule);
- } // end for il
+ //// for q definition
+ if(il>1){
+ if(idmodule>0.){
+ fDetTypeRec->ResetRecPoints();
+ gAlice->TreeR()->GetEvent(idmodule);
+ recp=(AliITSRecPoint*)frecPoints->UncheckedAt(idpoint);
+ q[il-2]=recp->GetQ()*(*fresult).Getfcor(il-2);
+ }
+ }
+ } // end for il
+ q[0]/=280.; q[1]/=280.;
+ q[2]/=38.; q[3]/=38.;
+
+ // cout<<" q prima = "<<q[0]<<" "<<q[1]<<" "<<q[2]<<" "<<q[3]<<"\n"; getchar();
+
+ Int_t swap;
+ do{
+ swap=0;
+ for (il=0; il<3; il++) {
+ if (q[il]<=q[il+1]) continue;
+ Float_t tmp=q[il];
+ q[il]=q[il+1]; q[il+1]=tmp;
+ swap++;
+ }
+ } while(swap);
+
+
+ // cout<<" q dopo = "<<q[0]<<" "<<q[1]<<" "<<q[2]<<" "<<q[3]<<"\n"; getchar();
+
+ if(q[0]<0.) {
+ q[0]=q[1];
+ q[1]=q[2];
+ q[2]=q[3];
+ q[3]=-1.;
+ }
+
+ // cout<<" q dopo if = "<<q[0]<<" "<<q[1]<<" "<<q[2]<<" "<<q[3]<<"\n"; getchar();
+
+ globaldedx=(q[0]+q[1])/2.;
+
+ // if(q[3]> 0.) globaldedx=(q[0]+q[1]+q[2]+q[3])/4.;
+ // else globaldedx=(q[0]+q[1]+q[2])/3.;
+
+ ioTrack->SetdEdx(globaldedx);
+ ioTrack->SetPid(pid->GetPcode(ioTrack));
+
+ tracktree1.Fill();
} // end if on numOfCluster
//gObjectTable->Print(); // stampa memoria
} // end for (int j=minTr; j<=maxTr; j++)
tfile->ls();
char hname[30];
sprintf(hname,"TreeT%d",evNumber);
+ cout << "Number of saved ITS tracks " << tracktree1.GetEntries() << endl;
tracktree1.Write(hname);
TTree *fAli=gAlice->TreeK();
sigmazl[5]=0.6889;
///////////////////////////////////////////////////////////
Int_t index;
- AliITSgeom *g1 = fITS->GetITSgeom();
+ AliRunLoader* rl = AliRunLoader::Open("galice.root");
+ rl->CdGAFile();
+ AliITSgeom* g1 = (AliITSgeom*)gDirectory->Get("AliITSgeom");
+
AliITSRecPoint *recp;
for(index =0; index<trackITSlist->GetSize(); index++) {
AliITSTrackV1 *trackITS = (AliITSTrackV1 *) trackITSlist->At(index);
if(numClustNow<numClustRef && chi2Now>fresult->GetChi2()) continue;
//cout<<" chi2Now = "<<chi2Now<<"\n";
- // commentato il 30-7-2001
+
chi2Now/=numClustNow;
if(fPtref > 1.0 && chi2Now > 30.) continue;
if((fPtref >= 0.6 && fPtref<=1.0) && chi2Now > 40.) continue;
Int_t ladp, ladm, detp,detm,ladinters,detinters;
Int_t layerfin=layerInit-1;
// cout<<"Prima di intersection \n";
- //if(!fTimerIntersection) fTimerIntersection = new TStopwatch();
- // timer
- //fTimerIntersection->Continue();
- // timer
Int_t outinters=Intersection(*trackITS,layerfin,ladinters,detinters);
- //fTimerIntersection->Stop();
- // timer
// cout<<" outinters = "<<outinters<<"\n";
// cout<<" Layer ladder detector intersection ="
// <<layerfin<<" "<<ladinters<<" "<<detinters<<"\n";
// << " "<<(*trackITS)(1)<<"\n"; getchar();
if(outinters==-1) continue;
Int_t flaghit=0;
+ (*trackITS).SetLayer(layerfin); // oggi
+ (*trackITS).Setfcor(); // oggi
if(outinters==0){
TVector toucLad(9), toucDet(9);
Int_t lycur=layerfin;
*/
Float_t epsphi=5.0, epsz=5.0;
if(fPtref<0.2) {epsphi=3.; epsz=3.;}
- // nuova definizione idetot e toucLad e toucDet to be
+ // new definition of idetot e toucLad e toucDet to be
// transformed in a method
// these values could be modified
Float_t pigre=TMath::Pi();
Float_t distz = 0.0;
Float_t phicm, phicp, distphim, distphip;
phicm=phinters;
- if(phinters>fphimax[layerfin-1][ladm]) phicm=phinters-2*pigre;
- distphim=TMath::Abs(phicm-fphimax[layerfin-1][ladm]);
+ if(phinters>fphimax[layerfin-1][ladm-1]) phicm=phinters-2*pigre; //corretto il 20-11-2001
+ distphim=TMath::Abs(phicm-fphimax[layerfin-1][ladm-1]); //corretto il 20-11-2001
phicp=phinters;
- if(phinters>fphimin[layerfin-1][ladp]) phicp=phinters-2.*pigre;
- distphip=TMath::Abs(phicp-fphimin[layerfin-1][ladp]);
+ //cout<<" fNlad[layerfin-1] e ladp = "<<fNlad[layerfin-1]<<" "<<ladp<<endl;
+ if(phinters>fphimin[layerfin-1][ladp-1]) phicp=phinters-2.*pigre; //corretto il 20-11-2001
+ distphip=TMath::Abs(phicp-fphimin[layerfin-1][ladp-1]); //corretto il 20-11-2001
Int_t flagzmin=0;
Int_t flagzmax=0;
idetot=1;
///////////////////////////////////////////////////////
/*** Rec points sorted by module *****/
/**************************************/
- Int_t indexmod; //mod ott
- // AliITSRecPoint *recp;
+ Int_t indexmod;
indexmod = g1->GetModuleIndex(lycur,(Int_t)toucLad(iriv),
- (Int_t)toucDet(iriv));
- //mod ott
- fITS->ResetRecPoints();
+ (Int_t)toucDet(iriv));
+ fDetTypeRec->ResetRecPoints();
gAlice->TreeR()->GetEvent(indexmod);
Int_t npoints=frecPoints->GetEntries();
- /* mod ott
- Int_t *indlist=new Int_t[npoints+1];
- Int_t counter=0;
- Int_t ind;
- for (ind=0; ind<=npoints; ind++) {
- indlist[ind]=-1;
- if (*(fvettid[index]+ind)==0) {
- indlist[counter]=ind;
- counter++;
- } // end if
- } // end for ind
- ind=-1;
- for(;;) {
- ind++;
- if(indlist[ind] < 0) recp=0;
- else
- recp = (AliITSRecPoint*)frecPoints->
- UncheckedAt(indlist[ind]);
- if((!recp) ) break;
- } // end for ;;
- */
- ///////////////////////// new //////////////////////////
+
Int_t indnew;
for(indnew=0; indnew<npoints; indnew++){
if (*(fvettid[indexmod]+indnew)==0)
recp =(AliITSRecPoint*)frecPoints->UncheckedAt(indnew);
else
continue;
- ////////////////////////////////////////////////////
TVector cluster(3),vecclust(9);
- vecclust(6)=vecclust(7)=vecclust(8)=-1.;
- Double_t sigma[2];
- // set veclust in global
- Float_t global[3], local[3];
- local[0]=recp->GetX();
- local[1]=0.;
- local[2]= recp->GetZ();
- Int_t play = lycur;
- Int_t plad = TMath::Nint(toucLad(iriv));
- Int_t pdet = TMath::Nint(toucDet(iriv));
- g1->LtoG(play,plad,pdet,local,global);
- vecclust(0)=global[0];
- vecclust(1)=global[1];
- vecclust(2)=global[2];
-
+ //vecclust(6)=vecclust(7)=vecclust(8)=-1.;
+ Double_t sigma[2];
+ // now vecclust is with cylindrical cohordinates
+ vecclust(0)=(Float_t)fRecCylR[indexmod][indnew];
+ vecclust(1)=(Float_t)fRecCylPhi[indexmod][indnew];
+ vecclust(2)=(Float_t)fRecCylZ[indexmod][indnew];
vecclust(3) = (Float_t)recp->fTracks[0];
- //vecclust(4) = (Float_t)indlist[ind];
vecclust(4) = (Float_t)indnew;
- vecclust(5) = (Float_t)indexmod; //mod ott
+ vecclust(5) = (Float_t)indexmod;
vecclust(6) = (Float_t)recp->fTracks[0];
vecclust(7) = (Float_t)recp->fTracks[1];
vecclust(8) = (Float_t)recp->fTracks[2];
sigma[0] = (Double_t) recp->GetSigmaX2();
sigma[1] = (Double_t) recp->GetSigmaZ2();
- //now we are in r,phi,z in global
- cluster(0) = TMath::Sqrt(vecclust(0)*vecclust(0)+
- vecclust(1)*vecclust(1));//r hit
- cluster(1) = TMath::ATan2(vecclust(1),vecclust(0));
- if(cluster(1)<0.) cluster(1)+=2.*TMath::Pi();
- cluster(2) = vecclust(2); // z hit
+
+ cluster(0)=fRecCylR[indexmod][indnew];
+ cluster(1)=fRecCylPhi[indexmod][indnew];
+ cluster(2)=fRecCylZ[indexmod][indnew];
+
// cout<<" layer = "<<play<<"\n";
// cout<<" cluster prima = "<<vecclust(0)<<" "
// <<vecclust(1)<<" "
continue;
// cout<<" supero sigmaphi \n";
AliITSTrackV1 *newTrack = new AliITSTrackV1((*trackITS));
- (*newTrack).SetLayer((*trackITS).GetLayer()-1);
+ //(*newTrack).SetLayer((*trackITS).GetLayer()-1);
if (TMath::Abs(rTrack-cluster(0))/rTrack>1e-6)
(*newTrack).Correct(Double_t(cluster(0)));
//cout<<" cluster(2) e(*newTrack).GetZ()="<<cluster(2)<<" "
// cout<<" chi2pred = "<<chi2pred<<"\n";
// if(chi2pred>fChi2max) continue; //aggiunto il 30-7-2001
if(iriv == 0) flaghit=1;
- (*newTrack).AddMS(frl); // add the multiple scattering
+ (*newTrack).AddMS(); // add the multiple scattering
//matrix to the covariance matrix
- (*newTrack).AddEL(frl,1.,0);
+ (*newTrack).AddEL(1.,0);
- //if(!fTimerKalman) fTimerKalman = new TStopwatch();//timer
- //fTimerKalman->Continue(); // timer
if(fflagvert){
KalmanFilterVert(newTrack,cluster,sigmanew);
//KalmanFilterVert(newTrack,cluster,sigmanew,chi2pred);
}else{
KalmanFilter(newTrack,cluster,sigmanew);
} // end if
- //fTimerKalman->Stop(); // timer
(*newTrack).PutCluster(layernew, vecclust);
newTrack->AddClustInTrack();
listoftrack.AddLast(newTrack);
} // end for indnew
- // delete [] indlist; //mod ott
} // end of for on detectors (iriv)
}//end if(outinters==0)
if(flaghit==0 || outinters==-2) {
AliITSTrackV1 *newTrack = new AliITSTrackV1(*trackITS);
(*newTrack).Setfnoclust();
- (*newTrack).SetLayer((*trackITS).GetLayer()-1);
- (*newTrack).AddMS(frl); // add the multiple scattering matrix
+ //(*newTrack).SetLayer((*trackITS).GetLayer()-1);
+ (*newTrack).AddMS(); // add the multiple scattering matrix
// to the covariance matrix
- (*newTrack).AddEL(frl,1.,0);
+ (*newTrack).AddEL(1.,0);
listoftrack.AddLast(newTrack);
} // end if
} // end of for on tracks (index)
//gObjectTable->Print(); // stampa memoria
+ delete rl;
+
}
//______________________________________________________________________
Int_t AliITSTrackerV1::Intersection(AliITSTrackV1 &track,Int_t layer,
newTrack->SetChi2(newTrack->GetChi2()+chi2);
// newTrack->SetChi2(newTrack->GetChi2()+chi2pred);
}
+