-//Author: Anders Strand Vestbo
-//Last Modified: 5.01.2001
+//$Id$
-#include <stdio.h>
+// Author: Anders Vestbo <mailto:vestbo@fi.uib.no>
+//*-- Copyright © ASV
+
+#include "AliL3StandardIncludes.h"
#include <TFile.h>
#include <TH1.h>
#include <TParticle.h>
#include <TTree.h>
#include <TClonesArray.h>
-#include "AliRun.h"
-#include "AliSimDigits.h"
-#include "AliTPC.h"
-#include "AliTPCClustersArray.h"
-#include "AliTPCClustersRow.h"
-#include "AliTPCcluster.h"
-#include "AliTPCParam.h"
-#include "AliComplexCluster.h"
+#include <AliRun.h>
+#include <AliSimDigits.h>
+#include <AliTPC.h>
+#include <AliTPCcluster.h>
+#include <AliTPCClustersArray.h>
+#include <AliTPCClustersRow.h>
+#include <AliTPCParam.h>
+#include <AliComplexCluster.h>
+
+#if GCCVERSION == 3
+#include <fstream>
+#include <iosfwd>
+#else
+#include <fstream.h>
+#endif
-#include "AliL3Defs.h"
+#include "AliL3Logging.h"
#include "AliL3Transform.h"
#include "AliL3SpacePointData.h"
#include "AliL3Track.h"
#include "AliL3FileHandler.h"
#include "AliL3TrackArray.h"
#include "AliL3Evaluate.h"
-#include "AliL3Logging.h"
-//AliL3Evaluate
-//Class for tracking evaluation.
+#if GCCVERSION == 3
+using namespace std;
+#endif
+
+//_____________________________________________________________
+// AliL3Evaluate
+//
+// Evaluation class for tracking. Plots efficiencies etc..
+//
+
ClassImp(AliL3Evaluate)
AliL3Evaluate::AliL3Evaluate()
{
- fDigitsFile = NULL;
- fTracks = NULL;
- fMCclusterfile = NULL;
+ fTracks = 0;
fNFastPoints = 0;
fMcIndex = 0;
fMcId = 0;
fMinSlice=0;
fMaxSlice=0;
- fTransform = new AliL3Transform();
+ fGoodTracks=0;
}
-AliL3Evaluate::AliL3Evaluate(Char_t *mcfile,Char_t *digitsfile,Int_t *slice)
+AliL3Evaluate::AliL3Evaluate(Char_t *datapath,Int_t min_clusters,Int_t minhits,Double_t minpt,Int_t *slice)
{
- //Normal constructor. Input are the rootfile containing the
- //original MC information of the simulated event.
-
- fDigitsFile = new TFile(digitsfile,"READ");
- fEventFile = new TFile(mcfile,"READ");
- if(!fDigitsFile->IsOpen())
+
+ if(slice)
{
- LOG(AliL3Log::kError,"AliL3Evaluation::AliL3Evaluation","File Open")
- <<"Inputfile "<<mcfile<<" does not exist"<<ENDLOG;
- return;
+ fMinSlice=slice[0];
+ fMaxSlice=slice[1];
}
-
- fParam = (AliTPCParam*)fEventFile->Get("75x40_100x60");
- fTransform = new AliL3Transform();
-
- fMinSlice = slice[0];
- fMaxSlice = slice[1];
- fNoOverlap = kFALSE;
-}
-
-AliL3Evaluate::AliL3Evaluate(Int_t *slice)
-{
- //ctor to use if you do not need any rootfile.
-
-
- fMinSlice = slice[0];
- fMaxSlice = slice[1];
- fTransform = new AliL3Transform();
-
-}
-
-AliL3Evaluate::~AliL3Evaluate()
-{
- if(fDigitsTree) fDigitsTree->Delete();
- if(fDigitsFile) {
- fDigitsFile->Close();
- delete fDigitsFile;
- }
- if(fTransform) delete fTransform;
- if(fTracks) delete fTracks;
- if(fPtRes) delete fPtRes;
- if(fNGoodTracksPt) delete fNGoodTracksPt;
- if(fNFoundTracksPt) delete fNFoundTracksPt;
- if(fNFakeTracksPt) delete fNFakeTracksPt;
- if(fTrackEffPt) delete fTrackEffPt;
- if(fFakeTrackEffPt) delete fFakeTrackEffPt;
- if(fNGoodTracksEta) delete fNGoodTracksEta;
- if(fNFoundTracksEta) delete fNFoundTracksEta;
- if(fNFakeTracksEta) delete fNFakeTracksEta;
- if(fTrackEffEta) delete fTrackEffEta;
- if(fFakeTrackEffEta) delete fFakeTrackEffEta;
- if(fMcIndex) delete [] fMcIndex;
- if(fMcId) delete [] fMcId;
- if(fNtuppel) delete fNtuppel;
-}
-
-void AliL3Evaluate::Setup(Char_t *trackfile,Char_t *path)
-{
- //Read in the hit and track information from produced files.
-
+ else
+ {
+ fMinSlice=0;
+ fMaxSlice=35;
+ }
+ fMaxFalseClusters = 0.1;
fGoodFound = 0;
fGoodGen = 0;
- Char_t fname[256];
- AliL3FileHandler *clusterfile[36][5];
+ fMinPointsOnTrack = min_clusters;
+ fMinHitsFromParticle = minhits;
+ fMinGoodPt = minpt;
+ Char_t fname[1024];
+ AliL3FileHandler *clusterfile[36][6];
for(Int_t s=fMinSlice; s<=fMaxSlice; s++)
{
- for(Int_t p=0; p<5; p++)
+ for(Int_t p=0; p<AliL3Transform::GetNPatches(); p++)
{
fClusters[s][p] = 0;
clusterfile[s][p] = new AliL3FileHandler();
- sprintf(fname,"%s/points_%d_%d.raw",path,s,p);
+ sprintf(fname,"%s/points_%d_%d.raw",datapath,s,p);
if(!clusterfile[s][p]->SetBinaryInput(fname))
{
LOG(AliL3Log::kError,"AliL3Evaluation::Setup","File Open")
}
}
-
+ sprintf(fname,"%s/tracks.raw",datapath);
AliL3FileHandler *tfile = new AliL3FileHandler();
- if(!tfile->SetBinaryInput(trackfile)){
+ if(!tfile->SetBinaryInput(fname)){
LOG(AliL3Log::kError,"AliL3Evaluation::Setup","File Open")
- <<"Inputfile "<<trackfile<<" does not exist"<<ENDLOG;
+ <<"Inputfile "<<fname<<" does not exist"<<ENDLOG;
return;
}
fTracks = new AliL3TrackArray();
delete tfile;
}
-void AliL3Evaluate::SetupSlow(Char_t *trackfile,Char_t *path)
-{
- //Setup for using the slow simulator.
-
- fIsSlow = true;
- Setup(trackfile,path);
-
- if(!InitMC())
- LOG(AliL3Log::kError,"AliL3Evaluation::SetupSlow","Digits Tree")
- <<"Error setting up digits tree"<<ENDLOG;
-
-}
-
-void AliL3Evaluate::SetupFast(Char_t *trackfile,Char_t *mcClusterfile,Char_t *path)
-{
- //Setup for using the fast simulator.
-
- fIsSlow = false;
- GetFastClusterIDs(path);
-
- fMCclusterfile = new TFile(mcClusterfile);
- if(!fMCclusterfile->IsOpen())
- LOG(AliL3Log::kError,"AliL3Evaluation::SetupFast","File Open")
- <<"Inputfile "<<mcClusterfile<<" does not exist"<<ENDLOG;
-
- Setup(trackfile,path);
- InitMC();
-}
-
-Bool_t AliL3Evaluate::InitMC()
-{
- if(fIsSlow)
- {
- fDigitsFile->cd();
- fDigitsTree = (TTree*)fDigitsFile->Get("TreeD_75x40_100x60");
- if(!fDigitsTree) return false;
- fDigitsTree->GetBranch("Segment")->SetAddress(&fDigits);
- for(Int_t i=0; i<fDigitsTree->GetEntries(); i++)
- {
- if(!fDigitsTree->GetEvent(i)) continue;
- Int_t se,ro,slice,slicerow;
- fParam->AdjustSectorRow(fDigits->GetID(),se,ro);
- fTransform->Sector2Slice(slice,slicerow,se,ro);
- fRowid[slice][slicerow] = i;
- }
- }
-
- fEventFile->cd();
- AliRun *gAlice = (AliRun*)fEventFile->Get("gAlice");
- if (!gAlice)
- {
- LOG(AliL3Log::kError,"AliL3Evaluate::SetParticleArray","gAlice")
- <<"AliRun object non existing on file"<<ENDLOG;
- return false;
- }
-
- gAlice->GetEvent(0);
-
- return true;
-
-}
-
-
-void AliL3Evaluate::DefineGoodTracks(Int_t *slice,Int_t *padrow,Int_t good_number)
-{
- //Loop over MC particles, and mark the good ones
- //(which the tracker should find...)
-
- AliTPC *TPC = (AliTPC*)gAlice->GetDetector("TPC");
-
- TPC->SetParam(fParam);
-
- Int_t ver = TPC->IsVersion();
- LOG(AliL3Log::kInformational,"AliL3Evaluate::DefineGoodTracks","TPC version")
- <<"TPC version "<<ver<<" found on file"<<ENDLOG;
-
- Int_t zero=TPC->GetParam()->GetZeroSup();
-
- Int_t np = gAlice->GetNtrack();
- Int_t *good = new Int_t[np];
- for(Int_t ii=0; ii<np; ii++)
- good[ii] = 0;
-
- if(ver==1)
- {
- if(fIsSlow)
- LOG(AliL3Log::kError,"AliL3Evaluate::DefineGoodTracks","TPC version")
- <<"TPC version "<<ver<<" does not match."<<ENDLOG;
- fMCclusterfile->cd();
- AliTPCClustersArray carray;
- carray.Setup(fParam);
- carray.SetClusterType("AliTPCcluster");
- Bool_t clusterok = carray.ConnectTree("Segment Tree");
- if(!clusterok)
- LOG(AliL3Log::kError,"AliL3Evaluate::DefineGoodTracks","Cluster Array")
- <<"Error loading clusters from rootfile"<<ENDLOG;
-
- for(Int_t i=0; i<carray.GetTree()->GetEntries(); i++)
- {
- Int_t sec,row,sl,lr;
- AliSegmentID *s = carray.LoadEntry(i);
- fParam->AdjustSectorRow(s->GetID(),sec,row);
- fTransform->Sector2Slice(sl,lr,sec,row);
-
- if(sl != slice[0]) {carray.ClearRow(sec,row); continue;}
- if(lr < padrow[0]) {carray.ClearRow(sec,row); continue;}
- if(lr > padrow[1]) {carray.ClearRow(sec,row); continue;}
- AliTPCClustersRow *cRow = carray.GetRow(sec,row);
- for(Int_t j=0; j<cRow->GetArray()->GetEntriesFast(); j++)
- {
- AliTPCcluster *cluster=(AliTPCcluster*)(*cRow)[j];
- Int_t lab=cluster->GetLabel(0);
- if(lab<0) continue;
- lab=TMath::Abs(lab);
- good[lab]++;
- }
- if(carray.GetRow(sec,row))
- carray.ClearRow(sec,row);
- }
- }
- else if(ver==2)
- {
- if(!fIsSlow)
- LOG(AliL3Log::kError,"AliL3Evaluate::DefineGoodTracks","TPC version")
- <<"TPC version "<<ver<<" does not match."<<ENDLOG;
- Int_t *count = new Int_t[np]; //np number of particles.
- Int_t i;
- for (i=0; i<np; i++) count[i]=0;
- for(Int_t sl=slice[0]; sl<=slice[1]; sl++)
- {
- for (i=padrow[0]; i<=padrow[1]; i++) {
- Int_t index = fRowid[sl][i];
- if (!fDigitsTree->GetEvent(index)) continue;
- Int_t sec,row;
- fParam->AdjustSectorRow(fDigits->GetID(),sec,row);
- fDigits->First();
- do {
- Int_t it=fDigits->CurrentRow(), ip=fDigits->CurrentColumn();
- Short_t dig = fDigits->GetDigit(it,ip);
- Int_t idx0=fDigits->GetTrackID(it,ip,0);
- Int_t idx1=fDigits->GetTrackID(it,ip,1);
- Int_t idx2=fDigits->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;
- } while (fDigits->Next());
-
- for (Int_t j=0; j<np; j++)
- {
- if (count[j]>1) //at least two digits at this padrow
- good[j]++;
-
- count[j]=0;
- }
- }
- }
- delete[] count;
- }
-
- else
- {
- LOG(AliL3Log::kError,"AliL3Evaluation::FillEffHistos","TPC version")
- <<"No valid TPC version found"<<ENDLOG;
- return;
- }
-
-
- //The following code has been taken from offlinemacro->AliTPCComparison.C
-
- TTree *TH=gAlice->TreeH();
- Int_t npart=(Int_t)TH->GetEntries();
- Int_t nt=0;
- Int_t max = 15000;
- while (npart--) {
- AliTPChit *hit0=0;
-
- 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);
- printf("Checking particle %d\n",npart);
- if (p->GetFirstMother()>=0) continue; //secondary particle
- if (good[i] < good_number) continue;
- if (p->Pt()<0.100) continue;
- if (TMath::Abs(p->Pz()/p->Pt())>0.999) continue;
-
- fGoodGen++;
- fGoodTracks[nt].label=i;
- fGoodTracks[nt].code=p->GetPdgCode();
- //**** px py pz - in global coordinate system, x y z - in local !
- fGoodTracks[nt].px=hit->X(); fGoodTracks[nt].py=hit->Y(); fGoodTracks[nt].pz=hit->Z();
-
- nt++;
- if (hit0) delete hit0;
- if (nt==max) {cerr<<"Too many good tracks !n"; break;}
- }
- /*
- TObjArray *good_part = new TObjArray();
-
- for(Int_t i=0; i<fParticles->GetEntriesFast(); i++)
- {
- TParticle *p = (TParticle*)fParticles->UncheckedAt(i);
- if(p->GetFirstMother()>0) continue; //secondary particle
- if(good[i] < good_number) {continue;}
-
- Double_t ptg=p->Pt(),pxg=p->Px(),pyg=p->Py(),pzg=p->Pz();
- //Double_t phi_part = TMath::ATan2(pyg,pxg);
- // if (phi_part < 0) phi_part += 2*TMath::Pi();
- //if(phi_part < phi_min*torad || phi_part > phi_max*torad) {continue;}
- if(ptg<0.100) continue;
- if(fabs(pzg/ptg)>0.999) {continue;}
- //if(ptg < 4.5 || ptg > 5.5) continue;
- printf("ptg %f\n",ptg);
- fGoodGen++;
- Int_t entries = good_part->GetEntriesFast();
- good_part->AddLast(p);
- particle_id[entries] = i;
- }
- */
- delete [] good;
-
-}
-
-void AliL3Evaluate::EvaluatePatch(Int_t slice,Int_t patch,Int_t min_points,Int_t good_number)
+AliL3Evaluate::~AliL3Evaluate()
{
- //Make efficiency plots for tracking on patch level (before any merging).
-
- Int_t row[5][2] = {{ 0, 45},{46,77},{78,109},{110,141},{142,175}};
- Int_t sl[2] ={slice,slice};
- DefineGoodTracks(sl,row[patch],good_number);
- SetMinPoints(min_points);
- AssignIDs();
- CreateHistos();
- FillEffHistos();
- CalcEffHistos();
+ if(fGoodTracks) delete fGoodTracks;
+ if(fDigitsTree) fDigitsTree->Delete();
+ if(fTracks) delete fTracks;
+ if(fPtRes) delete fPtRes;
+ if(fNGoodTracksPt) delete fNGoodTracksPt;
+ if(fNFoundTracksPt) delete fNFoundTracksPt;
+ if(fNFakeTracksPt) delete fNFakeTracksPt;
+ if(fTrackEffPt) delete fTrackEffPt;
+ if(fFakeTrackEffPt) delete fFakeTrackEffPt;
+ if(fNGoodTracksEta) delete fNGoodTracksEta;
+ if(fNFoundTracksEta) delete fNFoundTracksEta;
+ if(fNFakeTracksEta) delete fNFakeTracksEta;
+ if(fTrackEffEta) delete fTrackEffEta;
+ if(fFakeTrackEffEta) delete fFakeTrackEffEta;
+ if(fMcIndex) delete [] fMcIndex;
+ if(fMcId) delete [] fMcId;
+ if(fNtuppel) delete fNtuppel;
}
-void AliL3Evaluate::EvaluateSlice(Int_t slice,Int_t min_points,Int_t good_number)
-{
- //Make efficiency plots for tracking on a slice (after merging).
- //min_points = minimum points on track to be considered for evaluation
- //good_number = minimum hits (padrows) produced by simulated track for consideration.
-
- Int_t row[2] = {0,175};
- Int_t sl[2] ={slice,slice};
- DefineGoodTracks(sl,row,good_number);
-
- SetMinPoints(min_points);
-
- AssignIDs();
- CreateHistos();
- FillEffHistos();
- CalcEffHistos();
-}
-
-void AliL3Evaluate::EvaluateGlobal(Int_t min_points,Int_t good_number)
-{
- //Make efficiency plots for tracking on several slices.
-
- Int_t row[2] = {0,175};
- SetMinPoints(min_points);
- Int_t slice[2] = {fMinSlice,fMaxSlice};
- DefineGoodTracks(slice,row,good_number);
- AssignIDs();
- CreateHistos(20,0,5);
- FillEffHistos();
- CalcEffHistos();
-}
void AliL3Evaluate::AssignIDs()
{
//Assign MC id to the tracks.
+#ifndef do_mc
+ cerr<<"AliL3Evaluate::AssignIDs() : You need to compile with the do_mc flag!"<<endl;
+ return;
+#endif
fTracks->QSort();
LOG(AliL3Log::kDebug,"AliL3Evaluate::AssignIDs","Track Loop")
fGoodFound++;
Int_t tID = GetMCTrackLabel(track);
track->SetMCid(tID);
- printf("track %i id %d\n",i,tID);
}
+ cout<<"Found "<<fGoodFound<<" good tracks "<<endl;
}
//Returns the MCtrackID of the belonging clusters.
//If MCLabel < 0, means that track is fake.
//Fake track means that more than 10 percent of clusters are assigned incorrectly.
-
+
+#ifdef do_mc
Int_t num_of_clusters = track->GetNumberOfPoints();
S *s=new S[num_of_clusters];
Int_t i;
UInt_t *hitnum = track->GetHitNumbers();
UInt_t id;
- Int_t **trackID = GetClusterIDs(track);
-
Int_t lab=123456789;
for (i=0; i<num_of_clusters; i++)
{
}
//Get the label of the cluster:
- //printf("label %d %d %d\n",trackID[i][0],trackID[i][1],trackID[i][2]);
- lab=abs(trackID[i][0]);
+
+ lab=abs(points[pos].fTrackID[0]);
+ if(lab < 0)
+ cout<<"Track had negative id : "<<lab<<" padrow "<<(Int_t)points[pos].fPadRow<<" nhits "<<num_of_clusters<<" pt "<<track->GetPt()<<endl;
+
Int_t j;
for (j=0; j<num_of_clusters; j++)
if (s[j].lab==lab || s[j].max==0) break;
continue;
}
- if (abs(trackID[i][1]) == lab ||
- abs(trackID[i][2]) == lab ) max++;
+ if (abs(points[pos].fTrackID[1]) == lab ||
+ abs(points[pos].fTrackID[2]) == lab ) max++;
}
- //check if more than 10% of the clusters are incorrectly assigned (fake track):
- if (1.-Float_t(max)/num_of_clusters > 0.10)
+ if (1.-Float_t(max)/num_of_clusters > fMaxFalseClusters)
{
return -lab;
}
- delete [] trackID;
return lab;
-}
-
+#else //If we are running with mc_ids or not
+ return 0;
+#endif
-Int_t **AliL3Evaluate::GetClusterIDs(AliL3Track *track)
-{
- //Return the MC information of all clusters belonging to track.
-
- Int_t num_of_clusters = track->GetNumberOfPoints();
- Int_t **trackID = new Int_t*[num_of_clusters];
-
- UInt_t *hitnum = track->GetHitNumbers();
- UInt_t id;
-
- Float_t xyz[3];
- Int_t padrow;
- for(Int_t i=0; i<num_of_clusters; i++)
- {
- id = hitnum[i];
- Int_t slice = (id>>25) & 0x7f;
- Int_t patch = (id>>22) & 0x7;
- UInt_t pos = id&0x3fffff;
-
- AliL3SpacePointData *points = fClusters[slice][patch];
-
- if(!points)
- {
- LOG(AliL3Log::kError,"AliL3Evaluate::GetClusterIDs","Clusterarray")
- <<"No points at slice "<<slice<<" patch "<<patch<<" pos "<<pos<<ENDLOG;
- continue;
- }
- if(pos>=fNcl[slice][patch])
- {
- LOG(AliL3Log::kError,"AliL3Evaluate::GetClusterIDs","Clusterarray")
- <<AliL3Log::kDec<<"ERROR"<<ENDLOG;
- continue;
- }
-
- xyz[0] = points[pos].fX;
- xyz[1] = points[pos].fY;
- xyz[2] = points[pos].fZ;
- //sector = points[pos].fSector;
- padrow = points[pos].fPadRow;
- Int_t se,ro;
- fTransform->Slice2Sector(slice,padrow,se,ro);
- fTransform->Global2Raw(xyz,se,ro);
-
- if(fIsSlow)
- {
- Int_t p = fRowid[slice][padrow];
- if(!fDigitsTree->GetEvent(p))
- LOG(AliL3Log::kError,"AliL3Evaluate::GetClusterIDs","Digits Tree")
- <<"Error reading digits tree"<<ENDLOG;
-
- trackID[i] = new Int_t[3];
- trackID[i][0] = fDigits->GetTrackID((Int_t)xyz[2],(Int_t)xyz[1],0);
- trackID[i][1] = fDigits->GetTrackID((Int_t)xyz[2],(Int_t)xyz[1],1);
- trackID[i][2] = fDigits->GetTrackID((Int_t)xyz[2],(Int_t)xyz[1],2);
- if(trackID[i][0]<0)
- printf("trackID %d, padrow %d pad %d time %d\n",trackID[i][0],padrow,(Int_t)xyz[1],(Int_t)xyz[2]);
- }
- else
- {
- Int_t tmp_pid=0;
- for(Int_t ii=0; ii<fNFastPoints; ii++)
- {
- tmp_pid = fMcId[ii];
- if(fMcIndex[ii] == id) break;
- }
- trackID[i] = new Int_t[3];
- trackID[i][0] = tmp_pid;
- trackID[i][1] = -1;
- trackID[i][2] = -1;
- }
- }
- return trackID;
}
void AliL3Evaluate::GetFastClusterIDs(Char_t *path)
fclose(infile);
}
-void AliL3Evaluate::CreateHistos(Int_t nbin,Int_t xlow,Int_t xup)
+void AliL3Evaluate::CreateHistos(Int_t nbin,Float_t xlow,Float_t xup)
{
//Create the histograms
+ LOG(AliL3Log::kInformational,"AliL3Evaluate::CreateHistos","Allocating")
+ <<"Creating histograms..."<<ENDLOG;
+
fNtuppel = new TNtuple("fNtuppel","Pt resolution","pt_gen:pt_found:nHits");
fPtRes = new TH1F("fPtRes","Relative Pt resolution",30,-10.,10.);
fNFakeTracksEta = new TH1F("fNFakeTracksEta","Fake tracks vs eta",20,-50,50);
fTrackEffEta = new TH1F("fTrackEffEta","Tracking efficienct vs eta",20,-50,50);
fFakeTrackEffEta = new TH1F("fFakeTrackEffEta","Efficiency for fake tracks vs eta",20,-50,50);
+
+}
+
+void AliL3Evaluate::GetGoodParticles(Char_t *path)
+{
+ //Read the good particles from file. This file should already have been
+ //generated by macro AliTPCComparison.C.
+
+ Char_t filename[1024];
+ sprintf(filename,"%s/good_tracks_tpc",path);
+ ifstream in(filename);
+ if(!in)
+ {
+ cerr<<"AliL3Evaluate::GetGoodParticles : Problems opening file :"<<filename<<endl;
+ return;
+ }
+ Int_t MaxTracks=20000;
+ fGoodTracks = new GoodTrack[MaxTracks];
+
+ while (in>>fGoodTracks[fGoodGen].label>>fGoodTracks[fGoodGen].code>>
+ fGoodTracks[fGoodGen].px>>fGoodTracks[fGoodGen].py>>fGoodTracks[fGoodGen].pz>>
+ fGoodTracks[fGoodGen].x>>fGoodTracks[fGoodGen].y >>fGoodTracks[fGoodGen].z>>fGoodTracks[fGoodGen].nhits)
+
+ {
+ fGoodGen++;
+ if (fGoodGen==MaxTracks)
+ {
+ cerr<<"AliL3Evaluate::GetGoodParticles : Too many good tracks !\n";
+ break;
+ }
+ }
+
}
void AliL3Evaluate::FillEffHistos()
{
- //Fill the efficiency histograms.
-
+ if(!fGoodTracks)
+ {
+ cerr<<"AliL3Evaluate::FillEffHistos : No good tracks"<<endl;
+ return;
+ }
+ cout<<"Comparing..."<<endl;
for(Int_t i=0; i<fGoodGen; i++)
{
- Double_t ptg=fGoodTracks[i].pt,pzg=fGoodTracks[i].pz;
+ //cout<<"Checking particle "<<i<<endl;
+ if(fGoodTracks[i].nhits < fMinHitsFromParticle) continue;
+ Float_t ptg = TMath::Sqrt(fGoodTracks[i].px*fGoodTracks[i].px + fGoodTracks[i].py*fGoodTracks[i].py);
+ Float_t pzg=fGoodTracks[i].pz;
Float_t dipangle=TMath::ATan2(pzg,ptg)*180./TMath::Pi();
+
fNGoodTracksPt->Fill(ptg);
fNGoodTracksEta->Fill(dipangle);
Int_t found = 0;
+
for(Int_t k=0; k<fTracks->GetNTracks(); k++)
{
AliL3Track *track = fTracks->GetCheckedTrack(k);
if(!track) continue;
Int_t nHits = track->GetNumberOfPoints();
if(nHits < fMinPointsOnTrack) break;
-
Int_t tracklabel;
tracklabel = track->GetMCid();
else {fNFakeTracksPt->Fill(ptg); fNFakeTracksEta->Fill(dipangle);}
Float_t pt=track->GetPt();
fPtRes->Fill((pt-ptg)/ptg*100.);
- fNtuppel->Fill(ptg,pt,nHits);
+ //fNtuppel->Fill(ptg,pt,nHits);
break;
}
}
}
+void AliL3Evaluate::FillEffHistosNAIVE()
+{
+ //Fill the efficiency histograms.
+
+ cout<<endl<<"Note: Doing NAIVE evaluation "<<endl;
+ for(Int_t i=0; i<fGoodGen; i++)
+ {
+ Double_t ptg=TMath::Sqrt(fGoodTracks[i].px*fGoodTracks[i].px + fGoodTracks[i].py*fGoodTracks[i].py);
+ Double_t pzg=fGoodTracks[i].pz;
+ Float_t dipangle=TMath::ATan2(pzg,ptg)*180./TMath::Pi();
+ //printf("filling particle with pt %f and dipangle %f\n",ptg,dipangle);
+ fNGoodTracksPt->Fill(ptg);
+ fNGoodTracksEta->Fill(dipangle);
+
+ }
+
+ for(Int_t k=0; k<fTracks->GetNTracks(); k++)
+ {
+ AliL3Track *track = fTracks->GetCheckedTrack(k);
+ if(!track) continue;
+ Int_t nHits = track->GetNumberOfPoints();
+ if(nHits < fMinPointsOnTrack) break;
+ if(track->GetPt()<fMinGoodPt) continue;
+ if(fabs(track->GetPseudoRapidity())>0.9) continue;
+
+ fNFoundTracksPt->Fill(track->GetPt()); fNFoundTracksEta->Fill(track->GetPseudoRapidity());
+ //Float_t pt=track->GetPt();
+ //fPtRes->Fill((pt-ptg)/ptg*100.);
+ //fNtuppel->Fill(ptg,pt,nHits);
+
+ }
+}
+
void AliL3Evaluate::CalcEffHistos(){
Stat_t ngood=fNGoodTracksPt->GetEntries();
LOG(AliL3Log::kInformational,"AliL3Evaluate::FillEffHistos","Efficiency")
<<AliL3Log::kDec<<"Fake tracks relative is about "<<nfake/ngood*100<<ENDLOG;
+ LOG(AliL3Log::kInformational,"AliL3Evaluate::FillEffHistos","Efficiency")
+ <<AliL3Log::kDec<<"Naive efficiency "<<(Double_t)fGoodFound/(Double_t)fGoodGen<<ENDLOG;
+
+
fNFoundTracksPt->Sumw2(); fNGoodTracksPt->Sumw2();
fTrackEffPt->Divide(fNFoundTracksPt,fNGoodTracksPt,1,1.,"b");
fFakeTrackEffPt->Divide(fNFakeTracksPt,fNGoodTracksPt,1,1.,"b");
{
//Write histograms to file:
- TFile *of = new TFile(outputfile,"RECREATE");
+ TFile *of = TFile::Open(outputfile,"RECREATE");
if(!of->IsOpen())
{
LOG(AliL3Log::kError,"AliL3Evaluate::Write2File","File Open")
fFakeTrackEffEta->Write();
of->Close();
- delete of;
}
xyz[1] = points[pos].fY;
xyz[2] = points[pos].fZ;
padrow = points[pos].fPadRow;
- //fTransform->Global2Local(xyz,slice);
+ //AliL3Transform::Global2Local(xyz,slice);
Float_t xyz_cross[3];
track->GetCrossingPoint(padrow,xyz_cross);
TNtuple *AliL3Evaluate::EvaluatePoints(Char_t *rootfile)
{
//Compare points to the exact crossing points of track and padrows.
- //This assumes that you ran AliTPC::Hits2ExactClusters();
+ //The input file to this function, contains the exact clusters calculated
+ //in AliTPC::Hits2ExactClusters.
-
+ cout<<"Evaluating points"<<endl;
TNtuple *ntuppel = new TNtuple("ntuppel","residuals","slice:padrow:resy:resz:zHit:pt");
- TFile *exfile = new TFile(rootfile);
-
- AliTPCParam *param = (AliTPCParam*)exfile->Get("75x40_100x60");
+ TFile *exfile = TFile::Open(rootfile);
+ if(!exfile)
+ {
+ cerr<<"Error opening rootfile "<<rootfile<<endl;
+ return 0;
+ }
+
+ AliTPCParam *param = (AliTPCParam*)exfile->Get(AliL3Transform::GetParamName());
//Get the exact clusters from file:
AliTPCClustersArray *arr = new AliTPCClustersArray;
arr->SetClusterType("AliComplexCluster");
char treeName[500];
sprintf(treeName,"TreeCExact_%s",param->GetTitle());
- Bool_t clusterok = arr->ConnectTree(treeName);
+ Bool_t clusterok = arr->ConnectTree(treeName);//Segment Tree (for offline clusters)
if(!clusterok) {printf("AliL3Evaluate::EvaluatePoints : Error in clusterloading\n"); return 0;}
+ cout<<"Entering loop with "<<(Int_t)arr->GetTree()->GetEntries()<<endl;
for(Int_t i=0; i<arr->GetTree()->GetEntries(); i++)
{
//Get the exact clusters for this row:
//Get the found clusters:
Int_t slice,padrow;
- fTransform->Sector2Slice(slice,padrow,cursec,currow);
+ AliL3Transform::Sector2Slice(slice,padrow,cursec,currow);
if(slice<fMinSlice || slice>fMaxSlice) continue;
AliL3SpacePointData *points = fClusters[slice][0];
+
+ Int_t index = fRowid[slice][padrow];
+ if(!fDigitsTree->GetEvent(index))
+ printf("AliL3Evaluate::EvaluatePoints : ERROR IN DIGITSTREE\n");
+ printf("Checking slice %d padrow %d with %d clusters\n",slice,padrow,num_of_offline);
+
for(UInt_t c=0; c<fNcl[slice][0]; c++)
{
if(points[c].fPadRow!=padrow) continue;
- Int_t index = fRowid[slice][padrow];
- if(!fDigitsTree->GetEvent(index))
- printf("AliL3Evaluate::EvaluatePoints : ERROR IN DIGITSTREE\n");
for(Int_t m=0; m<num_of_offline; m++)
{
AliComplexCluster *cluster = (AliComplexCluster *)clusters->UncheckedAt(m);
Int_t mcId = cluster->fTracks[0];
+ //Int_t mcId = cluster->GetLabel(0);
+ if(mcId <0) continue;
TParticle *part = gAlice->Particle(mcId);
+
Float_t xyz_cl[3] = {points[c].fX,points[c].fY,points[c].fZ};
- fTransform->Global2Raw(xyz_cl,cursec,currow);
- if(fDigits->GetTrackID((Int_t)xyz_cl[2],(Int_t)xyz_cl[1],0)!=mcId &&
- fDigits->GetTrackID((Int_t)xyz_cl[2],(Int_t)xyz_cl[1],1)!=mcId &&
- fDigits->GetTrackID((Int_t)xyz_cl[2],(Int_t)xyz_cl[1],2)!=mcId)
+ Float_t xyz_ex[3];
+ AliL3Transform::Global2Raw(xyz_cl,cursec,currow);
+ if(fDigits->GetTrackID((Int_t)rint(xyz_cl[2]),(Int_t)rint(xyz_cl[1]),0)!=mcId &&
+ fDigits->GetTrackID((Int_t)rint(xyz_cl[2]),(Int_t)rint(xyz_cl[1]),1)!=mcId &&
+ fDigits->GetTrackID((Int_t)rint(xyz_cl[2]),(Int_t)rint(xyz_cl[1]),2)!=mcId)
continue;
+ AliL3Transform::Raw2Local(xyz_ex,cursec,currow,cluster->fY,cluster->fX);
+ AliL3Transform::Raw2Local(xyz_cl,cursec,currow,xyz_cl[1],xyz_cl[2]);
+ Float_t resy = xyz_cl[1] - xyz_ex[1];//cluster->GetY()
+ Float_t resz = xyz_cl[2] - xyz_ex[2];//cluster->GetZ()
- Float_t resy = xyz_cl[1]-cluster->fY;
- Float_t resz = xyz_cl[2]-cluster->fX;
- ntuppel->Fill(slice,padrow,resy,resz,cluster->fX,part->Pt());
+ ntuppel->Fill(slice,padrow,resy,resz,xyz_ex[2],part->Pt());
}
}
+ arr->ClearRow(cursec,currow);
}
return ntuppel;
}
-/*
-TNtuple *AliL3Evaluate::EvaluateGEANT()
+
+void AliL3Evaluate::GetCFeff(Char_t *outfile)
{
- TNtuple *ntuppel = new TNtuple("ntuppel","residuals","resy:ptgen:padrow:zHit:slice");
- Int_t good_number=175;
- Int_t row[2] = {0,175};
-
- Float_t xyz_cross[3];
- Float_t xyz_cl[3];
+ TNtuple *ntuppel = new TNtuple("ntuppel","Cluster finder efficiency","row:ncrossings:nclusters");
+
+ AliTPC *TPC = (AliTPC*)gAlice->GetDetector("TPC");
+
+ TPC->SetParam(fParam);
+
+ Int_t ver = TPC->IsVersion();
+ LOG(AliL3Log::kInformational,"AliL3Evaluate::GetCFeff","TPC version")
+ <<"TPC version "<<ver<<" found on file"<<ENDLOG;
+
+ Int_t zero=TPC->GetParam()->GetZeroSup();
+
+ Int_t np = gAlice->GetNtrack();
- for(Int_t slice=fMinSlice; slice<=fMaxSlice; slice++)
+ Int_t crossed,recs;
+ Int_t *count = new Int_t[np]; //np number of particles.
+ Int_t i;
+ Float_t xyz[3];
+ for (i=0; i<np; i++) count[i]=0;
+ for(Int_t sl=fMinSlice; sl<=fMaxSlice; sl++)
{
- Int_t *particle_id = new Int_t[fParticles->GetEntriesFast()];
- TObjArray *good_particles = DefineGoodTracks(slice,row,good_number,particle_id);
-
- if(fMCclusterfile)
+ for (i=0; i<=175; i++)
{
- fMCclusterfile->Close();
- delete fMCclusterfile;
- fMCclusterfile = new TFile("/nfs/david/subatom/alice/data/V3.04/fast/clusters/hg_8k_v0_s1-3_e0_cl.root");
- fMCclusterfile->cd();
- }
- AliTPCClustersArray arr;
- arr.Setup(fParam);
- arr.SetClusterType("AliTPCcluster");
- Bool_t clusterok = arr.ConnectTree("Segment Tree");
- if(!clusterok)
- LOG(AliL3Log::kError,"AliL3Evaluate::DefineGoodTracks","Cluster Array")
- <<"Error loading clusters from rootfile"<<ENDLOG;
-
- for(Int_t ci=0; ci<arr.GetTree()->GetEntries(); ci++)
- {
- Int_t sec,row,sl,lr;
- AliSegmentID *s = arr.LoadEntry(ci);
- fParam->AdjustSectorRow(s->GetID(),sec,row);
- fTransform->Sector2Slice(sl,lr,sec,row);
- if(sl != slice) {arr.ClearRow(sec,row); continue;}
- //if(lr!=pr) {carray.ClearRow(sec,row); continue;}
- AliTPCClustersRow *cRow = arr.GetRow(sec,row);
- printf("evaluating slice %d row %d\n",slice,lr);
- for(Int_t j=0; j<cRow->GetArray()->GetEntriesFast(); j++)
+ crossed=0;
+ recs=0;
+ Int_t index = fRowid[sl][i];
+ if (!fDigitsTree->GetEvent(index)) continue;
+ Int_t sec,row;
+ fParam->AdjustSectorRow(fDigits->GetID(),sec,row);
+ fDigits->First();
+ do {
+ Int_t it=fDigits->CurrentRow(), ip=fDigits->CurrentColumn();
+ Short_t dig = fDigits->GetDigit(it,ip);
+
+ if(dig<=fParam->GetZeroSup()) continue;
+ if(it < fParam->GetMaxTBin()-1 && it > 0)
+ if(fDigits->GetDigit(it+1,ip) <= fParam->GetZeroSup()
+ && fDigits->GetDigit(it-1,ip) <= fParam->GetZeroSup())
+ continue;
+
+ AliL3Transform::Raw2Local(xyz,sec,row,ip,it);
+ if(fParam->GetPadRowRadii(sec,row)<230./250.*fabs(xyz[2]))
+ continue;
+
+
+ Int_t idx0=fDigits->GetTrackID(it,ip,0);
+ Int_t idx1=fDigits->GetTrackID(it,ip,1);
+ Int_t idx2=fDigits->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;
+ } while (fDigits->Next());
+
+ for (Int_t j=0; j<np; j++)
{
-
- AliTPCcluster *cluster=(AliTPCcluster*)(*cRow)[j];
- xyz_cl[1] = cluster->GetY();
- xyz_cl[2] = cluster->GetZ();
- Int_t lab=cluster->GetLabel(0);
- if(lab<0) continue;
-
- for(Int_t pa=0; pa<good_particles->GetEntriesFast(); pa++)
+ if (count[j]>1) //at least two digits at this padrow
{
- if(particle_id[pa]!=lab) continue;
- TParticle *part = (TParticle*)good_particles->UncheckedAt(pa);
- GetParticleCrossingPoint(part,slice,lr,xyz_cross);
- Double_t yres = xyz_cl[1] - xyz_cross[1];
- ntuppel->Fill(yres,part->Pt(),lr,xyz_cl[2],slice);
+ crossed++;
+ count[j]=0;
}
}
- if(arr.GetRow(sec,row))
- arr.ClearRow(sec,row);
+ AliL3SpacePointData *points = fClusters[sl][0];
+ for(UInt_t k=0; k<fNcl[sl][0]; k++)
+ {
+ if(points[k].fPadRow!=i) continue;
+ recs++;
+ }
+ ntuppel->Fill(i,crossed,recs);
}
- delete [] particle_id;
- delete good_particles;
+
}
- return ntuppel;
-}
-*/
-Bool_t AliL3Evaluate::GetParticleCrossingPoint(TParticle *part,Int_t slice,Int_t padrow,Float_t *xyz)
-{
- //Calcluate the crossing point between a generated particle and given padrow.
-
-
- Double_t kappa = 0.2*0.0029980/part->Pt();
-
- Double_t radius = 1/fabs(kappa);
- if(part->GetPdgCode() > 0) kappa = -kappa;
-
- Int_t charg;
- if(kappa>0)
- charg=-1;
- else
- charg=1;
+ delete[] count;
- Float_t angl[1] = {part->Phi()};
+ TFile *file = TFile::Open(outfile,"RECREATE");
+ ntuppel->Write();
+ file->Close();
- fTransform->Global2LocalAngle(angl,slice);
-
- Double_t charge = -1.*kappa;
- Double_t trackPhi0 = angl[0] + charge*0.5*Pi/fabs(charge);
-
- Double_t x0=0;
- Double_t y0=0;
- Double_t xc = x0 - radius * cos(trackPhi0);
- Double_t yc = y0 - radius * sin(trackPhi0);
-
- //printf("radius %f xc %f yc %f\n",radius,xc,yc);
-
- Double_t xHit = fTransform->Row2X(padrow);
- xyz[0] = xHit;
- Double_t aa = (xHit - xc)*(xHit - xc);
- Double_t r2 = radius*radius;
- if(aa > r2)
- return false;
-
- Double_t aa2 = sqrt(r2 - aa);
- Double_t y1 = yc + aa2;
- Double_t y2 = yc - aa2;
- xyz[1] = y1;
- if(fabs(y2) < fabs(y1)) xyz[1] = y2;
-
- Double_t tgl = part->Pz()/part->Pt();
-
- Double_t yHit = xyz[1];
- Double_t angle1 = atan2((yHit - yc),(xHit - xc));
- if(angle1 < 0) angle1 += 2.*Pi;
- Double_t angle2 = atan2((0 - yc),(0 - xc));
- if(angle2 < 0) angle2 += 2.*Pi;
- Double_t diff_angle = angle1 - angle2;
- diff_angle = fmod(diff_angle,2*Pi);
- if((charg*diff_angle) > 0) diff_angle = diff_angle - charg*2.*Pi;
- Double_t s_tot = fabs(diff_angle)*radius;
- Double_t zHit = 0 + s_tot*tgl;
- xyz[2] = zHit;
-
- return true;
}