/*
$Log$
+Revision 1.52 2001/05/30 06:04:58 hristov
+Changes made to be consitant with changes in TPC tracking classes (B.Nilsen)
+
+Revision 1.51 2001/05/16 14:57:15 alibrary
+New files for folders and Stack
+
+Revision 1.50 2001/05/11 09:15:21 barbera
+Corrected to make fast point creation working with PPR geometry
+
+Revision 1.49 2001/05/11 07:37:49 hristov
+Legacy lines commented
+
+Revision 1.48 2001/05/10 18:14:25 barbera
+A typo corrected
+
+Revision 1.47 2001/05/10 17:55:59 barbera
+Modified to create rec points also for PPR geometries
+
+Revision 1.46 2001/05/10 00:05:28 nilsen
+Allowed for HitsToDigits function to work with versions 5, 7, 8, and 9. This
+should probably be cleaned up to only check to make sure that fITSgeom has
+been properly defined.
+
+Revision 1.45 2001/05/01 22:35:48 nilsen
+Remove/commented a number of cout<< statements. and made change needed by
+SSD code.
+
+Revision 1.44 2001/04/26 22:44:01 nilsen
+Removed dependence on layer 5/6 in AliITS::HitsToDigits. This will be
+done properly in AliITSv???.cxx via SetDefaults.
+
+Revision 1.43 2001/04/26 13:22:52 barbera
+TMatrix and TVector elimininated to speed up the code
+
+Revision 1.42 2001/04/25 21:55:12 barbera
+Updated version to be compatible with actual verion of STEER and TPC
+
+Revision 1.41 2001/04/21 15:16:51 barbera
+Updated with the new SSD reconstruction code
+
+Revision 1.40 2001/03/17 15:07:06 mariana
+Update SDD response parameters
+
+Revision 1.39 2001/03/12 17:45:32 hristov
+Changes needed on Sun with CC 5.0
+
+Revision 1.38 2001/03/07 14:04:51 barbera
+Some vector dimensions increased to cope with full events
+
+Revision 1.37 2001/03/07 12:36:35 barbera
+A change added in the tracking part to manage delta rays
+
Revision 1.36 2001/03/02 19:44:11 barbera
modified to taking into account new version tracking v1
#include "AliITSRawCluster.h"
#include "AliMC.h"
#include "stdlib.h"
+#include "AliKalmanTrack.h"
+#include "AliMagF.h"
#include "AliITStrack.h"
#include "AliITSiotrack.h"
#include "AliITStracking.h"
#include "AliITSRad.h"
-#include "../TPC/AliTPC.h"
-#include "../TPC/AliTPCParam.h"
-
+#include "AliTPC.h"
+#include "AliTPCParam.h"
+#include "AliTPCtracker.h"
ClassImp(AliITS)
Int_t i;
for(i=0;i<kNTYPES;i++) {
- (*fDetTypes)[i]=new AliITSDetType();
+ fDetTypes->AddAt(new AliITSDetType(),i);
fNdtype[i]=0;
fNctype[i]=0;
}
{
// sets the default segmentation, response, digit and raw cluster classes
- printf("SetDefaults\n");
+ if(fDebug) printf("%s: SetDefaults\n",ClassName());
AliITSDetType *iDetType;
}
}
-
-
-
//_____________________________________________________________________________
void AliITS::SetDefaultSimulation()
{
{
// create a separate tree to store the clusters
- cout << "AliITS::MakeTreeC" << endl;
+// cout << "AliITS::MakeTreeC" << endl;
- char *optC = strstr(option,"C");
+ const char *optC = strstr(option,"C");
if (optC && !fTreeC) fTreeC = new TTree("TC","Clusters in ITS");
else return;
else sprintf(branchname,"%sClusters%d",GetName(),i+1);
if (fCtype && fTreeC) {
TreeC()->Branch(branchname,&((*fCtype)[i]), buffersize);
- cout << "Making Branch " << branchname;
- cout << " for Clusters of detector type " << i+1 << endl;
+// cout << "Making Branch " << branchname;
+// cout << " for Clusters of detector type " << i+1 << endl;
}
}
void AliITS::GetTreeC(Int_t event)
{
- cout << "AliITS::GetTreeC" << endl;
+// cout << "AliITS::GetTreeC" << endl;
// get the clusters tree for this event and set the branch address
char treeName[20];
}
//_____________________________________________________________________________
-void AliITS::MakeBranch(Option_t* option, char *file)
+void AliITS::MakeBranch(Option_t* option, const char *file)
{
//
// Creates Tree branches for the ITS.
AliDetector::MakeBranch(option,file);
- char *cD = strstr(option,"D");
- char *cR = strstr(option,"R");
+ const char *cD = strstr(option,"D");
+ const char *cR = strstr(option,"R");
if (cD) {
//
if (kNTYPES==3) sprintf(branchname,"%sDigits%s",GetName(),det[i]);
else sprintf(branchname,"%sDigits%d",GetName(),i+1);
if (fDtype && gAlice->TreeD()) {
- gAlice->MakeBranchInTree(gAlice->TreeD(),
+ MakeBranchInTree(gAlice->TreeD(),
branchname, &((*fDtype)[i]), buffersize, file);
- cout << "Making Branch " << branchname;
- cout << " for digits of type "<< i+1 << endl;
+// cout << "Making Branch " << branchname;
+// cout << " for digits of type "<< i+1 << endl;
}
}
}
if(!fRecPoints) fRecPoints=new TClonesArray("AliITSRecPoint",10000);
if (fRecPoints && gAlice->TreeR()) {
- gAlice->MakeBranchInTree(gAlice->TreeR(),
+ MakeBranchInTree(gAlice->TreeR(),
branchname, &fRecPoints, buffersize, file) ;
- cout << "Making Branch " << branchname;
- cout << " for reconstructed space points" << endl;
+// cout << "Making Branch " << branchname;
+// cout << " for reconstructed space points" << endl;
}
}
}
static Bool_t first=kTRUE;
static TFile *file;
- char *addBgr = strstr(option,"Add");
+ const char *addBgr = strstr(option,"Add");
if (addBgr ) {
if(first) {
- cout<<"filename "<<filename<<endl;
+// cout<<"filename "<<filename<<endl;
file=new TFile(filename);
- cout<<"I have opened "<<filename<<" file "<<endl;
+// cout<<"I have opened "<<filename<<" file "<<endl;
fHits2 = new TClonesArray("AliITShit",1000 );
}
first=kFALSE;
//
// SDD
//Set response functions
- Float_t baseline = 10.;
- Float_t noise = 1.75;
-
// SDD compression param: 2 fDecrease, 2fTmin, 2fTmax or disable, 2 fTolerance
iDetType=DetType(1);
res1=new AliITSresponseSDD();
SetResponseModel(1,res1);
}
- res1->SetMagicValue(900.);
- Float_t maxadc = res1->MaxAdc();
- Float_t topValue = res1->MagicValue();
- Float_t norm = maxadc/topValue;
-
- Float_t fCutAmp = baseline + 2.*noise;
- fCutAmp *= norm;
- Int_t cp[8]={0,0,(int)fCutAmp,(int)fCutAmp,0,0,0,0}; //1D
-
- //res1->SetZeroSupp("2D");
- res1->SetZeroSupp("1D");
- res1->SetNoiseParam(noise,baseline);
- res1->SetDo10to8(kTRUE);
+ Float_t noise, baseline;
+ res1->GetNoiseParam(noise,baseline);
+ Float_t noise_after_el = res1->GetNoiseAfterElectronics();
+ Float_t fCutAmp = baseline + 2.*noise_after_el;
+ Int_t cp[8]={0,0,(int)fCutAmp,(int)fCutAmp,0,0,0,0}; //1D
res1->SetCompressParam(cp);
- res1->SetMinVal(4);
- res1->SetDiffCoeff(3.6,40.);
- //res1->SetMagicValue(96.95);
AliITSsegmentationSDD *seg1=(AliITSsegmentationSDD*)iDetType->GetSegmentationModel();
if (!seg1) {
seg1 = new AliITSsegmentationSDD(geom,res1);
SetSegmentationModel(1,seg1);
}
AliITSsimulationSDD *sim1=new AliITSsimulationSDD(seg1,res1);
- sim1->SetDoFFT(1);
- sim1->SetCheckNoise(kFALSE);
SetSimulationModel(1,sim1);
// SSD
TStopwatch timer;
timer.Start();
- HitsToDigits(0,0,-1," ","All"," ");
+ HitsToDigits(gAlice->GetEvNumber(),0,-1," ","All"," ");
timer.Stop(); timer.Print();
delete sim0;
// initialised for all versions - for the moment it is only for v5 !
// 7 is the SDD beam test version
Int_t ver = this->IsVersion();
- if(ver!=5 && ver!=7) return;
-
- char *all = strstr(opt,"All");
- char *det[3] = {strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
+ if(ver!=5 && ver!=7 && ver!=8 && ver!=9) return;
+ const char *all = strstr(opt,"All");
+ const char *det[3] = {strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
+// cout<<" 1 AliITS "<<endl;
Int_t nmodules;
InitModules(size,nmodules);
+// cout<<" 2 AliITS "<<endl;
FillModules(evNumber,bgrev,nmodules,option,filename);
+// cout<<" 3 AliITS "<<endl;
//TBranch *branch;
AliITSsimulation* sim;
AliITSgeom *geom = GetITSgeom();
Int_t id,module;
+// Int_t lay, lad, detect;
Int_t first,last;
for (id=0;id<kNTYPES;id++) {
if (!all && !det[id]) continue;
//branch = (TBranch*)branches->UncheckedAt(id);
AliITSDetType *iDetType=DetType(id);
sim = (AliITSsimulation*)iDetType->GetSimulationModel();
+
if (!sim) {
Error("HitsToDigits","The simulation class was not instantiated!");
exit(1);
// or SetDefaultSimulation();
}
+
if(geom) {
first = geom->GetStartDet(id);
last = geom->GetLastDet(id);
} else first=last=0;
- cout << "det type " << id << " first, last "<< first << last << endl;
+// cout << "det type " << id << " first, last "<< first << last << endl;
for(module=first;module<=last;module++) {
AliITSmodule *mod = (AliITSmodule *)fITSmodules->At(module);
+/*
+ geom->GetModuleId(module,lay, lad, detect);
+ if ( lay == 6 )
+ ((AliITSsegmentationSSD*)(((AliITSsimulationSSD*)sim)->GetSegmentation()))->SetLayer(6);
+ if ( lay == 5 )
+ ((AliITSsegmentationSSD*)(((AliITSsimulationSSD*)sim)->GetSegmentation()))->SetLayer(5);
+*/
sim->DigitiseModule(mod,module,evNumber);
// fills all branches - wasted disk space
gAlice->TreeD()->Fill();
ClearModules();
- Int_t nentries=(Int_t)gAlice->TreeD()->GetEntries();
- cout << "nentries in TreeD" << nentries << endl;
+// Int_t nentries=(Int_t)
+ gAlice->TreeD()->GetEntries();
+// cout << "nentries in TreeD" << nentries << endl;
char hname[30];
sprintf(hname,"TreeD%d",evNumber);
// initialised for all versions - for the moment it is only for v5 !
// 7 is the SDD beam test version
Int_t ver = this->IsVersion();
- if(ver!=5) return;
+ if(ver!=5 && ver!=8 && ver!=9) return;
- char *all = strstr(opt,"All");
- char *det[3] = {strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
+ const char *all = strstr(opt,"All");
+ const char *det[3] = {strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
static Bool_t first=kTRUE;
if (!TreeC() && first) {
first = geom->GetStartDet(id);
last = geom->GetLastDet(id);
} else first=last=0;
- //printf("first last %d %d\n",first,last);
+ printf("first module - last module %d %d\n",first,last);
for(module=first;module<=last;module++) {
this->ResetDigits();
if (all) gAlice->TreeD()->GetEvent(lastentry+module);
else gAlice->TreeD()->GetEvent(lastentry+(module-first));
Int_t ndigits = itsDigits->GetEntriesFast();
- if (ndigits) rec->FindRawClusters();
+ if (ndigits) rec->FindRawClusters(module);
gAlice->TreeR()->Fill();
ResetRecPoints();
treeC->Fill();
} // loop over detector types
- Int_t nentries=(Int_t)gAlice->TreeR()->GetEntries();
- Int_t ncentries=(Int_t)treeC->GetEntries();
- cout << " nentries ncentries " << nentries << ncentries << endl;
+// Int_t nentries=(Int_t)
+ gAlice->TreeR()->GetEntries();
+// Int_t ncentries=(Int_t)
+ treeC->GetEntries();
+// cout << " nentries ncentries " << nentries << ncentries << endl;
char hname[30];
sprintf(hname,"TreeR%d",evNumber);
treeC->Write(hname,TObject::kOverwrite);
treeC->Reset();
}
-
-
//____________________________________________________________________________
void AliITS::HitsToFastRecPoints(Int_t evNumber,Int_t bgrev,Int_t size,
Option_t *option,Option_t *opt,Text_t *filename)
// the condition below will disappear when the geom class will be
// initialised for all versions - for the moment it is only for v5 !
Int_t ver = this->IsVersion();
- if(ver!=5) return;
+ if(ver!=5 && ver!=8 && ver!=9) return;
+ //if(ver!=5) return;
- char *all = strstr(opt,"All");
- char *det[3] = {strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
+ const char *all = strstr(opt,"All");
+ const char *det[3] ={strstr(opt,"SPD"),strstr(opt,"SDD"),strstr(opt,"SSD")};
Int_t nmodules;
InitModules(size,nmodules);
AliITSDetType *iDetType=DetType(id);
sim = (AliITSsimulation*)iDetType->GetSimulationModel();
if (!sim) {
- Error("HitsToFastPoints","The simulation class was not instantiated!");
+ Error("HitsToFastPoints",
+ "The simulation class was not instantiated!");
exit(1);
// or SetDefaultSimulation();
}
- Int_t first = geom->GetStartDet(id);
- Int_t last = geom->GetLastDet(id);
+
+ Int_t first,last;
+ if(geom) {
+ first = geom->GetStartDet(id);
+ last = geom->GetLastDet(id);
+ } else first=last=0;
+ printf("first module - last module %d %d\n",first,last);
for(module=first;module<=last;module++) {
AliITSmodule *mod = (AliITSmodule *)fITSmodules->At(module);
sim->CreateFastRecPoints(mod,module,random);
delete [] random;
}
-
//________________________________________________________________
+AliITStrack AliITS::Tracking(AliITStrack &track, AliITStrack *reference,
+ TObjArray *fastpoints, Int_t **vettid,
+ Bool_t flagvert, AliITSRad *rl ) {
+// Origin A. Badala' and G.S. Pappalardo: e-mail Angela.Badala@ct.infn.it,
+// Giuseppe.S.Pappalardo@ct.infn.it
-AliITStrack AliITS::Tracking(AliITStrack &track, AliITStrack *reference,TObjArray *fastpoints, Int_t
-**vettid, Bool_t flagvert, AliITSRad *rl ) {
-
-//Origin A. Badala' and G.S. Pappalardo: e-mail Angela.Badala@ct.infn.it, Giuseppe.S.Pappalardo@ct.infn.it
-
-
TList *list= new TList();
AliITStrack tr(track);
list->AddLast(&tr);
Double_t Pt=(tr).GetPt();
- //cout << "\n Pt = " << Pt <<"\n";
+// cout << "\n Pt = " << Pt <<"\n"; //stampa
- AliITStracking obj(list, reference, this, fastpoints,TMath::Abs(Pt),vettid, flagvert, rl);
+ AliITStracking obj(list, reference, this, fastpoints,
+ TMath::Abs(Pt),vettid, flagvert, rl);
list->Delete();
delete list;
for(lay=5; lay>=0; lay--) {
TVector VecLabref(3);
VecLabref=(*reference).GetLabTrack(lay);
- Float_t ClustZ=(*reference).GetZclusterTrack( lay); //modified il 5-3-2001
- for(k=0; k<3; k++) { // {itot++; VecTotLabref(itot)=VecLabref(k);} // modified 5-3-2002
-
+ Float_t ClustZ=(*reference).GetZclusterTrack( lay); //aggiunta il 5-3-2001
+ for(k=0; k<3; k++){
+ //{itot++; VecTotLabref(itot)=VecLabref(k);} //cambiata il 5-3-2001
Int_t lpp=(Int_t)VecLabref(k);
if(lpp>=0) {
- TParticle *p=(TParticle*) gAlice->Particle(lpp);
- Int_t pcode=p->GetPdgCode();
- if(pcode==11) VecLabref(k)=p->GetFirstMother();
- }
-
- itot++; VecTotLabref(itot)=VecLabref(k);
- if(VecLabref(k)==0. && ClustZ == 0.) VecTotLabref(itot) =-3.;
- }
- }
+ TParticle *p=(TParticle*) gAlice->Particle(lpp);
+ Int_t pcode=p->GetPdgCode();
+ if(pcode==11) VecLabref(k)=p->GetFirstMother();
+ } // end if lpp>=0
+ itot++; VecTotLabref(itot)=VecLabref(k);
+ if(VecLabref(k)==0. && ClustZ == 0.) VecTotLabref(itot) =-3.; }
+ } // end for lay
Long_t labref;
Int_t freq;
(*reference).Search(VecTotLabref, labref, freq);
- if(freq < 5) labref=-labref;
+ //if(freq < 4) labref=-labref;
+ //if(freq < 6) labref=-labref; // cinque - sei
+ if(freq < 5) labref=-labref; // cinque - sei
(*reference).SetLabel(labref);
return *reference;
}
+//________________________________________________________________------
+void AliITS::DoTracking(Int_t evNumber, Int_t min_t, Int_t max_t,
+ TFile *file, Bool_t flagvert) {
+ // ex macro for tracking ITS
+ printf("begin DoTracking - file %p\n",file);
-
-//________________________________________________________________
-
-
-
-void AliITS::DoTracking(Int_t evNumber, Int_t min_t, Int_t max_t, TFile *file, Bool_t flagvert) {
-
-// ex macro for tracking ITS
-
- printf("begin DoTracking - file %p\n",file);
-
- const char *pname="75x40_100x60";
-
- Int_t imax=200,jmax=450;
- AliITSRad *rl = new AliITSRad(imax,jmax);
- //cout<<" dopo costruttore AliITSRad\n"; getchar();
-
- struct GoodTrack {
- Int_t lab,code;
- Float_t px,py,pz,x,y,z,pxg,pyg,pzg,ptg;
- Bool_t flag;
- };
+ //const char *pname="75x40_100x60";
-
- gAlice->GetEvent(0);
-
- AliTPC *TPC=(AliTPC*)gAlice->GetDetector("TPC");
- AliTPCParam *digp = (AliTPCParam*)file->Get(pname);
- if (digp!=0) TPC->SetParam(digp);
-
- GoodTrack gt[7000];
- Int_t ngood=0;
- ifstream in("itsgood_tracks");
-
- cerr<<"Reading itsgood tracks...\n";
- while (in>>gt[ngood].lab>>gt[ngood].code
- >>gt[ngood].px >>gt[ngood].py>>gt[ngood].pz
- >>gt[ngood].x >>gt[ngood].y >>gt[ngood].z
- >>gt[ngood].pxg >>gt[ngood].pyg >>gt[ngood].pzg
- >>gt[ngood].ptg >>gt[ngood].flag) {
- ngood++;
- cerr<<ngood<<'\r';
- if (ngood==7000) {
- cerr<<"Too many good tracks !\n";
- break;
- }
- }
- if (!in.eof()) cerr<<"Read error (itsgood_tracks) !\n";
-
-
-// Load tracks
- TFile *tf=TFile::Open("tpctracks.root");
- if (!tf->IsOpen()) {cerr<<"Can't open tpctracks.root !\n"; return ;}
- TObjArray tracks(200000);
- TTree *tracktree=(TTree*)tf->Get("TreeT");
- TBranch *tbranch=tracktree->GetBranch("tracks");
- Int_t nentr=(Int_t)tracktree->GetEntries();
- Int_t kk;
- for (kk=0; kk<nentr; kk++) {
- AliTPCtrack *iotrack=new AliTPCtrack;
- tbranch->SetAddress(&iotrack);
- tracktree->GetEvent(kk);
- tracks.AddLast(iotrack);
- }
- tf->Close();
-
-
- Int_t nt = tracks.GetEntriesFast();
- cerr<<"Number of found tracks "<<nt<<endl;
-
- TVector DataOut(9);
- Int_t kkk=0;
-
- Double_t ptg=0.,pxg=0.,pyg=0.,pzg=0.;
-
- ////////////////////////////// good tracks definition in TPC ////////////////////////////////
-
- ofstream out1 ("AliITSTrag.out");
- Int_t i;
- for (i=0; i<ngood; i++) out1 << gt[i].ptg << "\n";
- out1.close();
-
-
- TVector vec(5);
- TTree *TR=gAlice->TreeR();
- Int_t nent=(Int_t)TR->GetEntries();
- TClonesArray *recPoints = RecPoints();
- Int_t numbpoints;
- Int_t totalpoints=0;
- Int_t *np = new Int_t[nent];
- Int_t **vettid = new Int_t* [nent];
- Int_t mod;
- for (mod=0; mod<nent; mod++) {
- vettid[mod]=0;
- this->ResetRecPoints();
- //gAlice->TreeR()->GetEvent(mod+1); //first entry in TreeR is empty
- gAlice->TreeR()->GetEvent(mod); //first entry in TreeR is empty
- numbpoints = recPoints->GetEntries();
- totalpoints+=numbpoints;
- np[mod] = numbpoints;
- //cout<<" mod = "<<mod<<" numbpoints = "<<numbpoints<<"\n"; getchar();
- vettid[mod] = new Int_t[numbpoints];
- Int_t ii;
- for (ii=0;ii<numbpoints; ii++) *(vettid[mod]+ii)=0;
- }
-
- AliTPCtrack *track;
-
-
- if(min_t < 0) {min_t = 0; max_t = nt-1;}
+ Int_t imax=200,jmax=450;
+ AliITSRad *rl = new AliITSRad(imax,jmax);
+ //cout<<" dopo costruttore AliITSRad\n"; getchar();
+
+ struct GoodTrack {
+ Int_t lab,code;
+ Float_t px,py,pz,x,y,z,pxg,pyg,pzg,ptg;
+ Bool_t flag;
+ };
+
+ gAlice->GetEvent(0);
+
+ AliKalmanTrack *kkprov;
+ kkprov->SetConvConst(100/0.299792458/0.2/gAlice->Field()->Factor());
+
+ /* //modificato il 26-4-2001
+ AliTPC *TPC=(AliTPC*)gAlice->GetDetector("TPC");
+ AliTPCParam *digp = (AliTPCParam*)file->Get(pname);
+ if (digp!=0) TPC->SetParam(digp);
+ */
+ TFile *cf=TFile::Open("AliTPCclusters.root");
+ AliTPCParam *digp= (AliTPCParam*)cf->Get("75x40_100x60");
+ if (!digp) { cerr<<"TPC parameters have not been found !\n"; getchar();}
+
+ AliTPCtracker *tracker = new AliTPCtracker(digp); //aggiunto il 23-5
+ //aggiunto il 23-5
+ // Load clusters
+ tracker->LoadInnerSectors();
+ tracker->LoadOuterSectors();
+
+ GoodTrack gt[15000];
+ Int_t ngood=0;
+ ifstream in("itsgood_tracks");
+
+ cerr<<"Reading itsgood tracks...\n";
+ while (in>>gt[ngood].lab>>gt[ngood].code
+ >>gt[ngood].px >>gt[ngood].py>>gt[ngood].pz
+ >>gt[ngood].x >>gt[ngood].y >>gt[ngood].z
+ >>gt[ngood].pxg >>gt[ngood].pyg >>gt[ngood].pzg
+ >>gt[ngood].ptg >>gt[ngood].flag) {
+ ngood++;
+ cerr<<ngood<<'\r';
+ if (ngood==15000) {
+ cerr<<"Too many good tracks !\n";
+ break;
+ } // end if ngood==1500
+ } // end while
+ if (!in.eof()) cerr<<"Read error (itsgood_tracks) !\n";
+
+ // Load tracks
+ // TFile *tf=TFile::Open("tpctracks.root"); //commentato 26-4-2001
+ TFile *tf=TFile::Open("AliTPCtracks.root");
+ if (!tf->IsOpen()) {cerr<<"Can't open AliTPCtracks.root !\n"; return ;}
+ TObjArray tracks(200000);
+ //TTree *tracktree=(TTree*)tf->Get("TreeT");
+ TTree *tracktree=(TTree*)tf->Get("TPCf"); //aggiunto il 23-5
+ if (!tracktree) {cerr<<"Can't get a tree with TPC tracks !\n";}
+ TBranch *tbranch=tracktree->GetBranch("tracks");
+ Int_t nentr=(Int_t)tracktree->GetEntries();
+ Int_t kk;
+ /* commentato il 26-4-2001
+ for (kk=0; kk<nentr; kk++) {
+ AliTPCtrack *iotrack=new AliTPCtrack;
+ tbranch->SetAddress(&iotrack);
+ tracktree->GetEvent(kk);
+ tracks.AddLast(iotrack);
+ }
+ */
+ AliTPCtrack *iotracktpc=0;
+ for (kk=0; kk<nentr; kk++) {
+ iotracktpc=new AliTPCtrack;
+ tbranch->SetAddress(&iotracktpc);
+ tracktree->GetEvent(kk);
+ tracker->CookLabel(iotracktpc,0.1); //aggiunto 23-5
+ tracks.AddLast(iotracktpc);
+ } // end for kk
+ delete tracker;
+ tf->Close();
+
+ Int_t nt = tracks.GetEntriesFast();
+ cerr<<"Number of found tracks "<<nt<<endl;
+
+ TVector DataOut(9);
+ Int_t kkk=0;
+
+ Double_t ptg=0.,pxg=0.,pyg=0.,pzg=0.;
+
+ ////////////// good tracks definition in TPC ///////////////
+
+ ofstream out1 ("AliITSTrag.out");
+ Int_t i;
+ for (i=0; i<ngood; i++) out1 << gt[i].ptg << "\n";
+ out1.close();
+
+
+ TVector vec(5);
+ TTree *TR=gAlice->TreeR();
+ Int_t nent=(Int_t)TR->GetEntries();
+ TClonesArray *recPoints = RecPoints();
+ Int_t numbpoints;
+ Int_t totalpoints=0;
+ Int_t *np = new Int_t[nent];
+ Int_t **vettid = new Int_t* [nent];
+ Int_t mod;
+ for (mod=0; mod<nent; mod++) {
+ vettid[mod]=0;
+ this->ResetRecPoints();
+ //gAlice->TreeR()->GetEvent(mod+1); //first entry in TreeR is empty
+ gAlice->TreeR()->GetEvent(mod); //first entry in TreeR is empty
+ numbpoints = recPoints->GetEntries();
+ totalpoints+=numbpoints;
+ np[mod] = numbpoints;
+ //cout<<" mod = "<<mod<<" numbpoints = "<<numbpoints<<"\n";getchar();
+ vettid[mod] = new Int_t[numbpoints];
+ Int_t ii;
+ for (ii=0;ii<numbpoints; ii++) *(vettid[mod]+ii)=0;
+ } // end for mod
+
+ AliTPCtrack *track=0;
+
+ if(min_t < 0) {min_t = 0; max_t = nt-1;}
/*
- ///////////////////////////////// Definition of vertex end its error ////////////////////////////
- ////////////////////////// In the future it will be given by a method ///////////////////////////
+ //////////////////// Definition of vertex end its error ////////////////////
+ ////////////// In the future it will be given by a method //////////////////
Double_t Vx=0.;
Double_t Vy=0.;
Double_t Vz=0.;
-
+
Float_t sigmavx=0.0050; // 50 microns
Float_t sigmavy=0.0050; // 50 microns
Float_t sigmavz=0.010; // 100 microns
TVector vertex(3), ervertex(3)
vertex(0)=Vx; vertex(1)=Vy; vertex(2)=Vz;
ervertex(0)=sigmavx; ervertex(1)=sigmavy; ervertex(2)=sigmavz;
- /////////////////////////////////////////////////////////////////////////////////////////////////
-*/
-
- //TDirectory *savedir=gDirectory;
-
- TTree tracktree1("TreeT","Tree with ITS tracks");
- AliITSiotrack *iotrack=0;
- tracktree1.Branch("ITStracks","AliITSiotrack",&iotrack,32000,0);
+ //////////////////////////////////////////////////////////////////////////
+*/
- ofstream out ("AliITSTra.out");
-
- Int_t j;
- for (j=min_t; j<=max_t; j++) {
- track=(AliTPCtrack*)tracks.UncheckedAt(j);
- Int_t flaglab=0;
- if (!track) continue;
- ////// elimination of not good tracks ////////////
- Int_t ilab=TMath::Abs(track->GetLabel());
- Int_t iii;
- for (iii=0;iii<ngood;iii++) {
- //cout<<" ilab, gt[iii].lab = "<<ilab<<" "<<gt[iii].lab<<"\n"; getchar();
- if (ilab==gt[iii].lab) {
- flaglab=1;
- ptg=gt[iii].ptg;
- pxg=gt[iii].pxg;
- pyg=gt[iii].pyg;
- pzg=gt[iii].pzg;
- break;
- }
- }
- //cout<<" j flaglab = " <<j<<" "<<flaglab<<"\n"; getchar();
- if (!flaglab) continue;
- //cout<<" j = " <<j<<"\n"; getchar();
- /*
- ////// old propagation to the end of TPC //////////////
- Double_t xk=76.;
- track->PropagateTo(xk);
- xk-=0.11;
- track->PropagateTo(xk,42.7,2.27); //C
- xk-=2.6;
- track->PropagateTo(xk,36.2,1.98e-3); //C02
- xk-=0.051;
- track->PropagateTo(xk,42.7,2.27); //C
- ///////////////////////////////////////////////////
- */
-
- ////// new propagation to the end of TPC //////////////
- Double_t xk=77.415;
- track->PropagateTo(xk, 28.94, 1.204e-3); //Ne
- xk -=0.01;
- track->PropagateTo(xk, 44.77, 1.71); //Tedlar
- xk -=0.04;
- track->PropagateTo(xk, 44.86, 1.45); //Kevlar
- xk -=2.0;
- track->PropagateTo(xk, 41.28, 0.029); //Nomex
- xk-=16;
- track->PropagateTo(xk,36.2,1.98e-3); //C02
- xk -=0.01;
- track->PropagateTo(xk, 24.01, 2.7); //Al
- xk -=0.01;
- track->PropagateTo(xk, 44.77, 1.71); //Tedlar
- xk -=0.04;
- track->PropagateTo(xk, 44.86, 1.45); //Kevlar
- xk -=0.5;
- track->PropagateTo(xk, 41.28, 0.029); //Nomex
-
- ///////////////////////////////////////////////////////////////
-
- ///////////////////////////////////////////////////////////////
- AliITStrack trackITS(*track);
- AliITStrack result(*track);
- AliITStrack primarytrack(*track);
+ TTree tracktree1("TreeT","Tree with ITS tracks");
+ AliITSiotrack *iotrack=0;
+ tracktree1.Branch("ITStracks","AliITSiotrack",&iotrack,32000,0);
+
+ ofstream out ("AliITSTra.out");
+ //ofstream outprova ("AliITSprova.out"); //commentato il 26-4-2001
+
+ Int_t j;
+ for (j=min_t; j<=max_t; j++) {
+ track=(AliTPCtrack*)tracks.UncheckedAt(j);
+ Int_t flaglab=0;
+ if (!track) continue;
+ ////// elimination of not good tracks ////////////
+ Int_t ilab=TMath::Abs(track->GetLabel());
+ Int_t iii;
+ for (iii=0;iii<ngood;iii++) {
+ //cout<<" ilab, gt[iii].lab = "<<ilab<<" "<<gt[iii].lab<<"\n";getchar();
+ if (ilab==gt[iii].lab) {
+ flaglab=1;
+ ptg=gt[iii].ptg;
+ pxg=gt[iii].pxg;
+ pyg=gt[iii].pyg;
+ pzg=gt[iii].pzg;
+ break;
+ } // end if ilab==
+ } // end for iii
+ //cout<<" j flaglab = " <<j<<" "<<flaglab<<"\n"; getchar();
+ if (!flaglab) continue;
+ //cout<<" j = " <<j<<"\n"; getchar();
+ /*
+ ////// old propagation to the end of TPC //////////////
+ Double_t xk=76.;
+ track->PropagateTo(xk);
+ xk-=0.11;
+ track->PropagateTo(xk,42.7,2.27); //C
+ xk-=2.6;
+ track->PropagateTo(xk,36.2,1.98e-3); //C02
+ xk-=0.051;
+ track->PropagateTo(xk,42.7,2.27); //C
+ ///////////////////////////////////////////////////
+ */
+ ////// new propagation to the end of TPC //////////////
+ Double_t xk=77.415;
+ track->PropagateTo(xk, 28.94, 1.204e-3); //Ne
+ xk -=0.01;
+ track->PropagateTo(xk, 44.77, 1.71); //Tedlar
+ xk -=0.04;
+ track->PropagateTo(xk, 44.86, 1.45); //Kevlar
+ xk -=2.0;
+ track->PropagateTo(xk, 41.28, 0.029); //Nomex
+ xk-=16;
+ track->PropagateTo(xk,36.2,1.98e-3); //C02
+ xk -=0.01;
+ track->PropagateTo(xk, 24.01, 2.7); //Al
+ xk -=0.01;
+ track->PropagateTo(xk, 44.77, 1.71); //Tedlar
+ xk -=0.04;
+ track->PropagateTo(xk, 44.86, 1.45); //Kevlar
+ xk -=0.5;
+ track->PropagateTo(xk, 41.28, 0.029); //Nomex
+ ///////////////////////////////////////////////////////////////
+
+ ///////////////////////////////////////////////////////////////
+ AliITStrack trackITS(*track);
+ AliITStrack result(*track);
+ AliITStrack primarytrack(*track);
-///////////////////////////////////////////////////////////////////////////////////////////////
- TVector Vgeant(3);
- Vgeant=result.GetVertex();
-
- // Definition of Dv and Zv for vertex constraint
- Double_t sigmaDv=0.0050; Double_t sigmaZv=0.010;
- //Double_t sigmaDv=0.0015; Double_t sigmaZv=0.0015;
+ /////////////////////////////////////////////////////////////////
+ TVector Vgeant(3);
+ Vgeant=result.GetVertex();
+
+ // Definition of Dv and Zv for vertex constraint
+ Double_t sigmaDv=0.0050; Double_t sigmaZv=0.010;
+ //Double_t sigmaDv=0.0015; Double_t sigmaZv=0.0015;
Double_t uniform= gRandom->Uniform();
Double_t signdv;
if(uniform<=0.5) signdv=-1.;
- else
- signdv=1.;
-
- Double_t Vr=TMath::Sqrt(Vgeant(0)*Vgeant(0)+ Vgeant(1)*Vgeant(1));
- Double_t Dv=gRandom->Gaus(signdv*Vr,(Float_t)sigmaDv);
- Double_t Zv=gRandom->Gaus(Vgeant(2),(Float_t)sigmaZv);
-
- //cout<<" Dv e Zv = "<<Dv<<" "<<Zv<<"\n";
- trackITS.SetDv(Dv); trackITS.SetZv(Zv);
- trackITS.SetsigmaDv(sigmaDv); trackITS.SetsigmaZv(sigmaZv);
- result.SetDv(Dv); result.SetZv(Zv);
- result.SetsigmaDv(sigmaDv); result.SetsigmaZv(sigmaZv);
- primarytrack.SetDv(Dv); primarytrack.SetZv(Zv);
- primarytrack.SetsigmaDv(sigmaDv); primarytrack.SetsigmaZv(sigmaZv);
-
-/////////////////////////////////////////////////////////////////////////////////////////////////
-
- primarytrack.PrimaryTrack(rl);
- TVector d2=primarytrack.Getd2();
- TVector tgl2=primarytrack.Gettgl2();
- TVector dtgl=primarytrack.Getdtgl();
- trackITS.Setd2(d2); trackITS.Settgl2(tgl2); trackITS.Setdtgl(dtgl);
- result.Setd2(d2); result.Settgl2(tgl2); result.Setdtgl(dtgl);
- /*
- trackITS.SetVertex(vertex); trackITS.SetErrorVertex(ervertex);
- result.SetVertex(vertex); result.SetErrorVertex(ervertex);
- */
- Tracking(trackITS,&result,recPoints,vettid, flagvert,rl);
-
- // cout<<" progressive track number = "<<j<<"\r";
- // cout<<j<<"\r";
- // cout<<" progressive track number = "<<j<<"\n";
- Long_t labITS=result.GetLabel();
- // cout << " ITS track label = " << labITS << "\n";
- int lab=track->GetLabel();
- // cout << " TPC track label = " << lab <<"\n";
- //result.GetClusters(); getchar(); //to print the cluster matrix
-
-//propagation to vertex
-
- Double_t rbeam=3.;
-
- result.Propagation(rbeam);
-
- TMatrix *cov;
- cov=&result.GetCMatrix();
- Double_t pt=TMath::Abs(result.GetPt());
- Double_t Dr=result.GetD();
- Double_t Z=result.GetZ();
- Double_t tgl=result.GetTgl();
- Double_t C=result.GetC();
- Double_t Cy=C/2.;
- Double_t Dz=Z-(tgl/Cy)*TMath::ASin(result.arga(rbeam));
- Dz-=Vgeant(2);
-
- // cout<<" Dr e dz alla fine = "<<Dr<<" "<<Dz<<"\n"; getchar();
- Double_t phi=result.Getphi();
- Double_t phivertex = phi - TMath::ASin(result.argA(rbeam));
- Double_t duepi=2.*TMath::Pi();
- if(phivertex>duepi) phivertex-=duepi;
- if(phivertex<0.) phivertex+=duepi;
- Double_t Dtot=TMath::Sqrt(Dr*Dr+Dz*Dz);
-
-//////////////////////////////////////////////////////////////////////////////////////////
- Int_t NumofCluster, idmodule,idpoint;
- NumofCluster=result.GetNumClust();
- if(NumofCluster >=5) {
-
-
- AliITSiotrack outtrack;
-
- iotrack=&outtrack;
-
- iotrack->SetStatePhi(phi);
- iotrack->SetStateZ(Z);
- iotrack->SetStateD(Dr);
- iotrack->SetStateTgl(tgl);
- iotrack->SetStateC(C);
- Double_t radius=result.Getrtrack();
- iotrack->SetRadius(radius);
- Int_t charge;
- if(C>0.) charge=-1; else charge=1;
- iotrack->SetCharge(charge);
-
-
+ else
+ signdv=1.;
- iotrack->SetCovMatrix(cov);
-
- Double_t px=pt*TMath::Cos(phi);
- Double_t py=pt*TMath::Sin(phi);
- Double_t pz=pt*tgl;
-
- Double_t xtrack=Dr*TMath::Sin(phi);
- Double_t ytrack=Dr*TMath::Cos(phi);
- Double_t ztrack=Dz+Vgeant(2);
-
-
- iotrack->SetPx(px);
- iotrack->SetPy(py);
- iotrack->SetPz(pz);
- iotrack->SetX(xtrack);
- iotrack->SetY(ytrack);
- iotrack->SetZ(ztrack);
- iotrack->SetLabel(labITS);
-
- Int_t il;
- for(il=0;il<6; il++){
- iotrack->SetIdPoint(il,result.GetIdPoint(il));
- iotrack->SetIdModule(il,result.GetIdModule(il));
- }
- tracktree1.Fill();
-
- //cout<<" labITS = "<<labITS<<"\n";
- //cout<<" phi z Dr tgl C = "<<phi<<" "<<Z<<" "<<Dr<<" "<<tgl<<" "<<C<<"\n"; getchar();
-
- DataOut(kkk) = ptg; kkk++; DataOut(kkk)=labITS; kkk++; DataOut(kkk)=lab; kkk++;
-
- for (il=0;il<6;il++) {
- idpoint=result.GetIdPoint(il);
- idmodule=result.GetIdModule(il);
- *(vettid[idmodule]+idpoint)=1;
- iotrack->SetIdPoint(il,idpoint);
- iotrack->SetIdModule(il,idmodule);
- }
-
- // cout<<" +++++++++++++ pt e ptg = "<<pt<<" "<<ptg<<" ++++++++++\n";
- Double_t difpt= (pt-ptg)/ptg*100.;
- DataOut(kkk)=difpt; kkk++;
- Double_t lambdag=TMath::ATan(pzg/ptg);
- Double_t lam=TMath::ATan(tgl);
- Double_t diflam = (lam - lambdag)*1000.;
- DataOut(kkk) = diflam; kkk++;
- Double_t phig=TMath::ATan(pyg/pxg);
- Double_t phi=phivertex;
- Double_t difphi = (phi - phig)*1000.;
- DataOut(kkk)=difphi; kkk++;
- DataOut(kkk)=Dtot*1.e4; kkk++;
- DataOut(kkk)=Dr*1.e4; kkk++;
- DataOut(kkk)=Dz*1.e4; kkk++;
- Int_t r;
- for (r=0; r<9; r++) { out<<DataOut(r)<<" ";}
- out<<"\n";
- kkk=0;
+ Double_t Vr=TMath::Sqrt(Vgeant(0)*Vgeant(0)+ Vgeant(1)*Vgeant(1));
+ Double_t Dv=gRandom->Gaus(signdv*Vr,(Float_t)sigmaDv);
+ Double_t Zv=gRandom->Gaus(Vgeant(2),(Float_t)sigmaZv);
-
- } // end if on NumofCluster
- //gObjectTable->Print(); // stampa memoria
- } // end for (int j=min_t; j<=max_t; j++)
-
- out.close();
-
+ //cout<<" Dv e Zv = "<<Dv<<" "<<Zv<<"\n";
+ trackITS.SetDv(Dv); trackITS.SetZv(Zv);
+ trackITS.SetsigmaDv(sigmaDv); trackITS.SetsigmaZv(sigmaZv);
+ result.SetDv(Dv); result.SetZv(Zv);
+ result.SetsigmaDv(sigmaDv); result.SetsigmaZv(sigmaZv);
+ primarytrack.SetDv(Dv); primarytrack.SetZv(Zv);
+ primarytrack.SetsigmaDv(sigmaDv); primarytrack.SetsigmaZv(sigmaZv);
+
+ ////////////////////////////////////////////////////////////////
+
+ primarytrack.PrimaryTrack(rl);
+ TVector d2=primarytrack.Getd2();
+ TVector tgl2=primarytrack.Gettgl2();
+ TVector dtgl=primarytrack.Getdtgl();
+ trackITS.Setd2(d2); trackITS.Settgl2(tgl2); trackITS.Setdtgl(dtgl);
+ result.Setd2(d2); result.Settgl2(tgl2); result.Setdtgl(dtgl);
+ /*
+ trackITS.SetVertex(vertex); trackITS.SetErrorVertex(ervertex);
+ result.SetVertex(vertex); result.SetErrorVertex(ervertex);
+ */
+
+
+ Tracking(trackITS,&result,recPoints,vettid, flagvert,rl);
+ // cout<<" progressive track number = "<<j<<"\r";
+ // cout<<j<<"\r";
+ Int_t NumofCluster=result.GetNumClust();
+ // cout<<" progressive track number = "<<j<<"\n"; // stampa
+ Long_t labITS=result.GetLabel();
+ // cout << " ITS track label = " << labITS << "\n"; // stampa
+ int lab=track->GetLabel();
+ // cout << " TPC track label = " << lab <<"\n"; // stampa
+
+ //propagation to vertex
+
+ Double_t rbeam=3.;
+
+ result.Propagation(rbeam);
+
+ Double_t C00,C10,C11,C20,C21,C22,C30,C31,C32,C33,C40,C41,C42,C43,C44;
+ result.GetCElements(C00,C10,C11,C20,C21,C22,C30,C31,C32,C33,C40,C41,C42,C43,C44);
+ Double_t pt=TMath::Abs(result.GetPt());
+ Double_t Dr=result.GetD();
+ Double_t Z=result.GetZ();
+ Double_t tgl=result.GetTgl();
+ Double_t C=result.GetC();
+ Double_t Cy=C/2.;
+ Double_t Dz=Z-(tgl/Cy)*TMath::ASin(result.arga(rbeam));
+ Dz-=Vgeant(2);
+
+ // cout<<" Dr e dz alla fine = "<<Dr<<" "<<Dz<<"\n"; getchar();
+ Double_t phi=result.Getphi();
+ Double_t phivertex = phi - TMath::ASin(result.argA(rbeam));
+ Double_t duepi=2.*TMath::Pi();
+ if(phivertex>duepi) phivertex-=duepi;
+ if(phivertex<0.) phivertex+=duepi;
+ Double_t Dtot=TMath::Sqrt(Dr*Dr+Dz*Dz);
+
+ /////////////////////////////////////////////////////////////////////
+
+ Int_t idmodule,idpoint;
+ if(NumofCluster >=5) { // cinque - sei
+ //if(NumofCluster ==6) { // cinque - sei
+
+ AliITSiotrack outtrack;
+
+ iotrack=&outtrack;
+
+ iotrack->SetStatePhi(phi);
+ iotrack->SetStateZ(Z);
+ iotrack->SetStateD(Dr);
+ iotrack->SetStateTgl(tgl);
+ iotrack->SetStateC(C);
+ Double_t radius=result.Getrtrack();
+ iotrack->SetRadius(radius);
+ Int_t charge;
+ if(C>0.) charge=-1; else charge=1;
+ iotrack->SetCharge(charge);
+
+
+ iotrack->SetCovMatrix(C00,C10,C11,C20,C21,C22,C30,C31,C32,C33,C40,C41,C42,C43,C44);
+
+ Double_t px=pt*TMath::Cos(phivertex);
+ Double_t py=pt*TMath::Sin(phivertex);
+ Double_t pz=pt*tgl;
+
+ Double_t xtrack=Dr*TMath::Sin(phivertex);
+ Double_t ytrack=Dr*TMath::Cos(phivertex);
+ Double_t ztrack=Dz+Vgeant(2);
+
+
+ iotrack->SetPx(px);
+ iotrack->SetPy(py);
+ iotrack->SetPz(pz);
+ iotrack->SetX(xtrack);
+ iotrack->SetY(ytrack);
+ iotrack->SetZ(ztrack);
+ iotrack->SetLabel(labITS);
+
+ Int_t il;
+ for(il=0;il<6; il++){
+ iotrack->SetIdPoint(il,result.GetIdPoint(il));
+ iotrack->SetIdModule(il,result.GetIdModule(il));
+ } // end for il
+ tracktree1.Fill();
+
+ //cout<<" labITS = "<<labITS<<"\n";
+ //cout<<" phi z Dr tgl C = "<<phi<<" "<<Z<<" "<<Dr<<" "<<tgl<<" "<<C<<"\n"; getchar();
+
+ DataOut(kkk) = ptg; kkk++; DataOut(kkk)=labITS; kkk++; DataOut(kkk)=lab; kkk++;
+
+ for (il=0;il<6;il++) {
+ idpoint=result.GetIdPoint(il);
+ idmodule=result.GetIdModule(il);
+ *(vettid[idmodule]+idpoint)=1;
+ iotrack->SetIdPoint(il,idpoint);
+ iotrack->SetIdModule(il,idmodule);
+ } // end for il
+
+ // cout<<" +++++++++++++ pt e ptg = "<<pt<<" "<<ptg<<" ++++++++++\n";
+ /* /// provvisorio il 23-5-2001
+ Double_t pg=TMath::Sqrt(pxg*pxg+pyg*pyg+pzg*pzg);
+ Double_t cosl=TMath::Sqrt(1./(1.+tgl*tgl));
+ Double_t ptot=pt/cosl;
+ cout<<"ptot e pg = "<<ptot<<" "<<pg<<"\n";
+ Double_t difpt= (ptot-pg)/pg*100.;
+ */
+ ///////////////////////////////
+ Double_t difpt= (pt-ptg)/ptg*100.; //coomentato prov il 23-5-2001
+ DataOut(kkk)=difpt; kkk++;
+ Double_t lambdag=TMath::ATan(pzg/ptg);
+ Double_t lam=TMath::ATan(tgl);
+ Double_t diflam = (lam - lambdag)*1000.;
+ DataOut(kkk) = diflam; kkk++;
+ Double_t phig=TMath::ATan2(pyg,pxg);
+ if(phig<0) phig=2.*TMath::Pi()+phig;
+ Double_t phi=phivertex;
+
+ Double_t difphi = (phi - phig)*1000.;
+ DataOut(kkk)=difphi; kkk++;
+ DataOut(kkk)=Dtot*1.e4; kkk++;
+ DataOut(kkk)=Dr*1.e4; kkk++;
+ DataOut(kkk)=Dz*1.e4; kkk++;
+ Int_t r;
+ for (r=0; r<9; r++) { out<<DataOut(r)<<" ";}
+ out<<"\n";
+ kkk=0;
+
+ } // end if on NumofCluster
+ //gObjectTable->Print(); // stampa memoria
+ } // end for (int j=min_t; j<=max_t; j++)
+
+ out.close();
+ //outprova.close();
- static Bool_t first=kTRUE;
- static TFile *tfile;
+ static Bool_t first=kTRUE;
+ static TFile *tfile;
- if(first) {
- tfile=new TFile("itstracks.root","RECREATE");
- //cout<<"I have opened itstracks.root file "<<endl;
- }
- first=kFALSE;
- tfile->cd();
- tfile->ls();
+ if(first) {
+ tfile=new TFile("itstracks.root","RECREATE");
+ //cout<<"I have opened itstracks.root file "<<endl;
+ } // end if first
+ first=kFALSE;
+ tfile->cd();
+ tfile->ls();
- char hname[30];
- sprintf(hname,"TreeT%d",evNumber);
+ char hname[30];
+ sprintf(hname,"TreeT%d",evNumber);
- tracktree1.Write(hname);
+ tracktree1.Write(hname);
- TTree *fAli=gAlice->TreeK();
- TFile *fileAli=0;
+ TTree *fAli=gAlice->TreeK();
+ TFile *fileAli=0;
- if (fAli) fileAli =fAli->GetCurrentFile();
- fileAli->cd();
+ if (fAli) fileAli =fAli->GetCurrentFile();
+ fileAli->cd();
- ////////////////////////////////////////////////////////////////////////////////////////////////
+ ///////////////////////////////////////////////////////////////////
- printf("delete vectors\n");
- if(np) delete [] np;
- if(vettid) delete [] vettid;
-
+ printf("delete vectors\n");
+ if(np) delete [] np;
+ if(vettid) delete [] vettid;
}