+/****************************************************************************
+ * Very important, delicate and rather obscure macro. *
+ * *
+ * Creates list of "trackable" tracks, *
+ * calculates efficiency, resolutions etc. *
+ * *
+ * Origin: I.Belikov, CERN, Jouri.Belikov@cern.ch *
+ * with several nice improvements by: M.Ivanov, GSI, m.ivanov@gsi.de *
+ ****************************************************************************/
+
#ifndef __CINT__
#include "alles.h"
#include "AliTPCtracker.h"
#endif
-struct GoodTrack {
+struct GoodTrackTPC {
Int_t lab;
Int_t code;
Float_t px,py,pz;
Float_t x,y,z;
};
-Int_t good_tracks(GoodTrack *gt, Int_t max);
-Int_t AliTPCComparison() {
+Int_t AliTPCComparison(Int_t event=0) {
+
cerr<<"Doing comparison...\n";
- Int_t i;
- gBenchmark->Start("AliTPCComparison");
- TFile *cf=TFile::Open("AliTPCclusters.root");
- if (!cf->IsOpen()) {cerr<<"Can't open AliTPCclusters.root !\n"; return 1;}
- AliTPCParam *digp= (AliTPCParam*)cf->Get("75x40_100x60");
- if (!digp) { cerr<<"TPC parameters have not been found !\n"; return 2; }
- AliTPCtracker *tracker = new AliTPCtracker(digp);
+ const Int_t MAX=20000;
+ Int_t good_tracks_tpc(GoodTrackTPC *gt, const Int_t max, const Int_t event);
-// Load clusters
- tracker->LoadInnerSectors();
- tracker->LoadOuterSectors();
+ gBenchmark->Start("AliTPCComparison");
-// Load tracks
+ Int_t nentr=0,i=0; TObjArray tarray(MAX);
+ { /*Load tracks*/
TFile *tf=TFile::Open("AliTPCtracks.root");
if (!tf->IsOpen()) {cerr<<"Can't open AliTPCtracks.root !\n"; return 3;}
- TObjArray tarray(2000);
- TTree *tracktree=(TTree*)tf->Get("TPCf");
+
+ char tname[100]; sprintf(tname,"TreeT_TPC_%d",event);
+ TTree *tracktree=(TTree*)tf->Get(tname);
if (!tracktree) {cerr<<"Can't get a tree with TPC tracks !\n"; return 4;}
+
TBranch *tbranch=tracktree->GetBranch("tracks");
- Int_t nentr=(Int_t)tracktree->GetEntries();
-
+ nentr=(Int_t)tracktree->GetEntries();
AliTPCtrack *iotrack=0;
for (i=0; i<nentr; i++) {
iotrack=new AliTPCtrack;
tbranch->SetAddress(&iotrack);
tracktree->GetEvent(i);
- tracker->CookLabel(iotrack,0.1);
tarray.AddLast(iotrack);
}
-
- delete tracker;
-
+ delete tracktree; //Thanks to Mariana Bondila
tf->Close();
- cf->Close();
+ }
-/////////////////////////////////////////////////////////////////////////
- GoodTrack gt[15000];
+ /* Generate a list of "good" tracks */
+ GoodTrackTPC gt[MAX];
Int_t ngood=0;
ifstream in("good_tracks_tpc");
if (in) {
gt[ngood].x >>gt[ngood].y >>gt[ngood].z) {
ngood++;
cerr<<ngood<<'\r';
- if (ngood==15000) {
+ if (ngood==MAX) {
cerr<<"Too many good tracks !\n";
break;
}
if (!in.eof()) cerr<<"Read error (good_tracks_tpc) !\n";
} else {
cerr<<"Marking good tracks (this will take a while)...\n";
- ngood=good_tracks(gt,15000);
+ ngood=good_tracks_tpc(gt,MAX, event);
ofstream out("good_tracks_tpc");
if (out) {
for (Int_t ngd=0; ngd<ngood; ngd++)
gt[ngd].x <<' '<<gt[ngd].y <<' '<<gt[ngd].z <<endl;
} else cerr<<"Can not open file (good_tracks_tpc) !\n";
out.close();
-
- cerr<<"Preparing tracks for matching with the ITS...\n";
- tarray.Sort();
- tf=TFile::Open("AliTPCtracks.root","recreate");
- tracktree=new TTree("TPCf","Tree with TPC tracks");
- tracktree->Branch("tracks","AliTPCtrack",&iotrack,32000,0);
- for (i=0; i<nentr; i++) {
- iotrack=(AliTPCtrack*)tarray.UncheckedAt(i);
- tracktree->Fill();
- }
- tracktree->Write();
- tf->Close();
}
- cerr<<"Number of good tracks : "<<ngood<<endl;
+
+
TH1F *hp=new TH1F("hp","PHI resolution",50,-20.,20.); hp->SetFillColor(4);
TH1F *hl=new TH1F("hl","LAMBDA resolution",50,-20,20);hl->SetFillColor(4);
TH1F *hmpt=new TH1F("hmpt","Relative Pt resolution (pt>4GeV/c)",30,-60,60);
hmpt->SetFillColor(6);
- AliTPCtrack *trk=(AliTPCtrack*)tarray.UncheckedAt(0);
- Double_t pmin=0.1*(100/0.299792458/0.2/trk->GetConvConst());
- Double_t pmax=6.0+pmin;
-
- TH1F *hgood=new TH1F("hgood","Good tracks",30,pmin,pmax);
- TH1F *hfound=new TH1F("hfound","Found tracks",30,pmin,pmax);
- TH1F *hfake=new TH1F("hfake","Fake tracks",30,pmin,pmax);
- TH1F *hg=new TH1F("hg","",30,pmin,pmax); //efficiency for good tracks
+ TH1F *hgood=new TH1F("hgood","Good tracks",30,0.1,6.1);
+ TH1F *hfound=new TH1F("hfound","Found tracks",30,0.1,6.1);
+ TH1F *hfake=new TH1F("hfake","Fake tracks",30,0.1,6.1);
+ TH1F *hg=new TH1F("hg","",30,0.1,6.1); //efficiency for good tracks
hg->SetLineColor(4); hg->SetLineWidth(2);
- TH1F *hf=new TH1F("hf","Efficiency for fake tracks",30,pmin,pmax);
+ TH1F *hf=new TH1F("hf","Efficiency for fake tracks",30,0.1,6.1);
hf->SetFillColor(1); hf->SetFillStyle(3013); hf->SetLineWidth(2);
TH1F *he =new TH1F("he","dE/dX for pions with 0.4<p<0.5 GeV/c",50,0.,100.);
- TH2F *hep=new TH2F("hep","dE/dX vs momentum",50,0.,2.,50,0.,250.);
+ TH2F *hep=new TH2F("hep","dE/dX vs momentum",50,0.,2.,50,0.,400.);
hep->SetMarkerStyle(8);
hep->SetMarkerSize(0.4);
- Int_t mingood = ngood; //MI change
- Int_t * track_notfound = new Int_t[ngood];
- Int_t itrack_notfound =0;
- Int_t * track_fake = new Int_t[ngood];
- Int_t itrack_fake = 0;
- Int_t * track_multifound = new Int_t[ngood];
- Int_t * track_multifound_n = new Int_t[ngood];
- Int_t itrack_multifound =0;
+ //MI change
+ Int_t mingood=ngood;
+ Int_t track_notfound[MAX], itrack_notfound=0;
+ Int_t track_fake[MAX], itrack_fake=0;
+ Int_t track_multifound[MAX], track_multifound_n[MAX], itrack_multifound=0;
while (ngood--) {
Int_t lab=gt[ngood].lab,tlab=-1;
Float_t ptg=
TMath::Sqrt(gt[ngood].px*gt[ngood].px + gt[ngood].py*gt[ngood].py);
- if (ptg<pmin) continue;
+ if (ptg<1e-33) continue; // for those not crossing 0 pad row
hgood->Fill(ptg);
if (lab==TMath::Abs(tlab)) break;
}
if (i==nentr) {
- //cerr<<"Track "<<lab<<" was not found !\n";
track_notfound[itrack_notfound++]=lab;
continue;
}
if (lab==TMath::Abs(mitrack->GetLabel())) micount++;
}
if (micount>1) {
- //cout<<"Track no. "<<lab<<" found "<<micount<<" times\n";
track_multifound[itrack_multifound]=lab;
track_multifound_n[itrack_multifound]=micount;
itrack_multifound++;
}
-
- //
- Double_t xk=gt[ngood].x;//digp->GetPadRowRadii(0,0);
+ Double_t xk=gt[ngood].x;
track->PropagateTo(xk);
if (lab==tlab) hfound->Fill(ptg);
else {
track_fake[itrack_fake++]=lab;
hfake->Fill(ptg);
- //cerr<<lab<<" fake\n";
}
Double_t par[5]; track->GetExternalParameters(xk,par);
}
-
- Stat_t ng=hgood->GetEntries(); cerr<<"Good tracks "<<ng<<endl;
- Stat_t nf=hfound->GetEntries();
- if (ng!=0)
- cerr<<"\n\n\nIntegral efficiency is about "<<nf/ng*100.<<" %\n";
-
- //MI change - addition
- cout<<"Total number of found tracks ="<<nentr<<"\n";
- cout<<"Total number of \"good\" tracks ="<<mingood<<"\n";
-
-
cout<<"\nList of Not found tracks :\n";
- // Int_t i;
for ( i = 0; i< itrack_notfound; i++){
cout<<track_notfound[i]<<"\t";
if ((i%5)==4) cout<<"\n";
}
cout<<"\nList of multiple found tracks :\n";
for ( i=0; i<itrack_multifound; i++) {
- cout<<"id. "<<track_multifound[i]<<" found - "<<track_multifound_n[i]<<"times\n";
+ cout<<"id. "<<track_multifound[i]
+ <<" found - "<<track_multifound_n[i]<<"times\n";
}
- cout<<"\n\n\n";
-
+ Stat_t ng=hgood->GetEntries(), nf=hfound->GetEntries();
+ if (ng!=0) cerr<<"\n\nIntegral efficiency is about "<<nf/ng*100.<<" %\n";
+ cout<<"Total number of found tracks ="<<nentr<<endl;
+ cout<<"Total number of \"good\" tracks ="
+ <<mingood<<" (selected for comparison: "<<ng<<')'<<endl<<endl;
+
+
gStyle->SetOptStat(111110);
gStyle->SetOptFit(1);
hg->SetXTitle("Pt (GeV/c)");
hg->Draw();
- TLine *line1 = new TLine(pmin,1.0,pmax,1.0); line1->SetLineStyle(4);
+ TLine *line1 = new TLine(0.1,1.0,6.1,1.0); line1->SetLineStyle(4);
line1->Draw("same");
- TLine *line2 = new TLine(pmin,0.9,pmax,0.9); line2->SetLineStyle(4);
+ TLine *line2 = new TLine(0.1,0.9,6.1,0.9); line2->SetLineStyle(4);
line2->Draw("same");
hf->SetFillColor(1);
}
-Int_t good_tracks(GoodTrack *gt, Int_t max) {
+Int_t good_tracks_tpc(GoodTrackTPC *gt, const Int_t max, const Int_t event) {
Int_t nt=0;
TFile *file=TFile::Open("galice.root");
exit(5);
}
- Int_t np=gAlice->GetEvent(0);
+ Int_t np=gAlice->GetEvent(event);
AliTPC *TPC=(AliTPC*)gAlice->GetDetector("TPC");
Int_t ver = TPC->IsVersion();
cerr<<"TPC version "<<ver<<" has been found !\n";
- AliTPCParam *digp=(AliTPCParam*)file->Get("75x40_100x60");
+ AliTPCParamSR *digp=(AliTPCParamSR*)file->Get("75x40_100x60_150x60");
if (!digp) { cerr<<"TPC parameters have not been found !\n"; exit(6); }
TPC->SetParam(digp);
+
+
Int_t nrow_up=digp->GetNRowUp();
Int_t nrows=digp->GetNRowLow()+nrow_up;
Int_t zero=digp->GetZeroSup();
- Int_t gap=Int_t(0.125*nrows);
+ Int_t gap=Int_t(0.125*nrows), shift=Int_t(0.5*gap);
Int_t good_number=Int_t(0.4*nrows);
Int_t *good=new Int_t[np];
- for (Int_t ii=0; ii<np; ii++) good[ii]=0;
+ Int_t i;
+ for (i=0; i<np; i++) good[i]=0;
- //MI change to be possible compile macro
- //definition out of the swith statemnet
- Int_t sectors_by_rows=0;
- TTree *TD=0;
- AliSimDigits da, *digits=&da;
- Int_t *count=0;
switch (ver) {
case 1:
{
+ char cname[100]; sprintf(cname,"TreeC_TPC_%d",event);
TFile *cf=TFile::Open("AliTPCclusters.root");
if (!cf->IsOpen()){cerr<<"Can't open AliTPCclusters.root !\n";exit(5);}
- AliTPCClustersArray *ca=new AliTPCClustersArray;
- ca->Setup(digp);
- ca->SetClusterType("AliTPCcluster");
- ca->ConnectTree("Segment Tree");
- Int_t nrows=Int_t(ca->GetTree()->GetEntries());
+ AliTPCClustersArray *pca=new AliTPCClustersArray, &ca=*pca;
+ ca.Setup(digp);
+ ca.SetClusterType("AliTPCcluster");
+ ca.ConnectTree(cname);
+ Int_t nrows=Int_t(ca.GetTree()->GetEntries());
for (Int_t n=0; n<nrows; n++) {
- AliSegmentID *s=ca->LoadEntry(n);
+ AliSegmentID *s=ca.LoadEntry(n);
Int_t sec,row;
digp->AdjustSectorRow(s->GetID(),sec,row);
- AliTPCClustersRow &clrow = *ca->GetRow(sec,row);
+ AliTPCClustersRow &clrow = *ca.GetRow(sec,row);
Int_t ncl=clrow.GetArray()->GetEntriesFast();
while (ncl--) {
AliTPCcluster *c=(AliTPCcluster*)clrow[ncl];
Int_t lab=c->GetLabel(0);
if (lab<0) continue; //noise cluster
lab=TMath::Abs(lab);
+
+ if (sec>=digp->GetNInnerSector())
+ if (row==nrow_up-1) good[lab]|=0x4000;
+ if (sec>=digp->GetNInnerSector())
+ if (row==nrow_up-1-gap) good[lab]|=0x1000;
+
if (sec>=digp->GetNInnerSector())
- if (row==nrow_up-1 ) good[lab]|=0x1000;
+ if (row==nrow_up-1-shift) good[lab]|=0x2000;
if (sec>=digp->GetNInnerSector())
- if (row==nrow_up-1-gap) good[lab]|=0x800;
+ if (row==nrow_up-1-gap-shift) good[lab]|=0x800;
+
good[lab]++;
}
- ca->ClearRow(sec,row);
+ ca.ClearRow(sec,row);
}
+ delete pca;
cf->Close();
}
- break;
+ break;
case 2:
- TD=(TTree*)gDirectory->Get("TreeD_75x40_100x60");
+ {
+ char dname[100]; sprintf(dname,"TreeD_75x40_100x60_150x60_%d",event);
+ TTree *TD=(TTree*)gDirectory->Get(dname);
+ AliSimDigits da, *digits=&da;
TD->GetBranch("Segment")->SetAddress(&digits);
- count = new Int_t[np];
+
+ Int_t *count = new Int_t[np];
Int_t i;
for (i=0; i<np; i++) count[i]=0;
- sectors_by_rows=(Int_t)TD->GetEntries();
+
+ Int_t sectors_by_rows=(Int_t)TD->GetEntries();
for (i=0; i<sectors_by_rows; i++) {
if (!TD->GetEvent(i)) continue;
Int_t sec,row;
Int_t idx0=digits->GetTrackID(it,ip,0);
Int_t idx1=digits->GetTrackID(it,ip,1);
Int_t idx2=digits->GetTrackID(it,ip,2);
- if (idx0>=0 && dig>=zero) count[idx0]+=1;
- if (idx1>=0 && dig>=zero) count[idx1]+=1;
- if (idx2>=0 && dig>=zero) count[idx2]+=1;
+ if (idx0>=0 && dig>=zero && idx0<np) count[idx0]+=1;
+ if (idx1>=0 && dig>=zero && idx1<np) count[idx1]+=1;
+ if (idx2>=0 && dig>=zero && idx2<np) count[idx2]+=1;
} while (digits->Next());
for (Int_t j=0; j<np; j++) {
if (count[j]>1) {
if (sec>=digp->GetNInnerSector())
- if (row==nrow_up-1 ) good[j]|=0x1000;
+ if (row==nrow_up-1 ) good[j]|=0x4000;
+ if (sec>=digp->GetNInnerSector())
+ if (row==nrow_up-1-gap) good[j]|=0x1000;
+
if (sec>=digp->GetNInnerSector())
- if (row==nrow_up-1-gap) good[j]|=0x800;
+ if (row==nrow_up-1-shift) good[j]|=0x2000;
+ if (sec>=digp->GetNInnerSector())
+ if (row==nrow_up-1-gap-shift) good[j]|=0x800;
good[j]++;
}
count[j]=0;
}
}
delete[] count;
+ delete TD; //Thanks to Mariana Bondila
+ }
break;
default:
cerr<<"Invalid TPC version !\n";
exit(7);
}
- TTree *TH=gAlice->TreeH();
- Int_t npart=(Int_t)TH->GetEntries();
- while (npart--) {
- AliTPChit *hit0=0;
+ /** select tracks which are "good" enough **/
+ for (i=0; i<np; i++) {
+ if ((good[i]&0x5000) != 0x5000)
+ if ((good[i]&0x2800) != 0x2800) continue;
+ if ((good[i]&0x7FF ) < good_number) continue;
- TPC->ResetHits();
- TH->GetEvent(npart);
- AliTPChit * hit = (AliTPChit*) TPC->FirstHit(-1);
- while (hit){
- if (hit->fQ==0.) break;
- hit = (AliTPChit*) TPC->NextHit();
- }
- if (hit) {
- hit0 = new AliTPChit(*hit); //Make copy of hit
- hit = hit0;
- }
- else continue;
- AliTPChit *hit1=(AliTPChit*)TPC->NextHit();
- if (hit1==0) continue;
- if (hit1->fQ != 0.) continue;
- Int_t i=hit->Track();
TParticle *p = (TParticle*)gAlice->Particle(i);
- if (p->GetFirstMother()>=0) continue; //secondary particle
- if (good[i] < 0x1000+0x800+2+good_number) continue;
if (p->Pt()<0.100) continue;
if (TMath::Abs(p->Pz()/p->Pt())>0.999) continue;
+ Int_t j=p->GetFirstMother();
+ if (j>=0) {
+ TParticle *pp = (TParticle*)gAlice->Particle(j);
+ if (pp->GetFirstMother()>=0) continue;//only one decay is allowed
+ /* for cascade hyperons only
+ Int_t jj=pp->GetFirstMother();
+ if (jj>=0) {
+ TParticle *ppp = (TParticle*)gAlice->Particle(jj);
+ if (ppp->GetFirstMother()>=0) continue;//two decays are allowed
+ }
+ */
+ }
+
gt[nt].lab=i;
gt[nt].code=p->GetPdgCode();
-//**** px py pz - in global coordinate system, x y z - in local !
- gt[nt].px=hit->X(); gt[nt].py=hit->Y(); gt[nt].pz=hit->Z();
- Float_t cs,sn; digp->AdjustCosSin(hit1->fSector,cs,sn);
- gt[nt].x = hit1->X()*cs + hit1->Y()*sn;
- gt[nt].y =-hit1->X()*sn + hit1->Y()*cs;
- gt[nt].z = hit1->Z();
- nt++;
- if (hit0) delete hit0;
- cerr<<i<<" \r";
+ gt[nt].px=0.; gt[nt].py=0.; gt[nt].pz=0.;
+ gt[nt].x=0.; gt[nt].y=0.; gt[nt].z=0.;
+ nt++;
if (nt==max) {cerr<<"Too many good tracks !\n"; break;}
+ cerr<<np-i<<" \r";
+ }
+
+ /** check if there is also information at the entrance of the TPC **/
+ TTree *TH=gAlice->TreeH(); np=(Int_t)TH->GetEntries();
+ for (i=0; i<np; i++) {
+ TPC->ResetHits();
+ TH->GetEvent(i);
+ AliTPChit *phit = (AliTPChit*)TPC->FirstHit(-1);
+ for ( ; phit; phit=(AliTPChit*)TPC->NextHit() ) {
+ if (phit->fQ !=0. ) continue;
+
+ Double_t px=phit->X(), py=phit->Y(), pz=phit->Z();
+
+ if ((phit=(AliTPChit*)TPC->NextHit())==0) break;
+ if (phit->fQ != 0.) continue;
+
+ Double_t x=phit->X(), y=phit->Y(), z=phit->Z();
+ if (TMath::Sqrt(x*x+y*y)>90.) continue;
+
+ Int_t j, lab=phit->Track();
+ for (j=0; j<nt; j++) {if (gt[j].lab==lab) break;}
+ if (j==nt) continue;
+
+ // (px,py,pz) - in global coordinate system, (x,y,z) - in local !
+ gt[j].px=px; gt[j].py=py; gt[j].pz=pz;
+ Float_t cs,sn; digp->AdjustCosSin(phit->fSector,cs,sn);
+ gt[j].x = x*cs + y*sn;
+ gt[j].y =-x*sn + y*cs;
+ gt[j].z = z;
+ }
+ cerr<<np-i<<" \r";
}
+
delete[] good;
delete gAlice; gAlice=0;