[u/mrichter/AliRoot.git] / TOF / AliTOFanalyzeMatching.C

void AliTOFanalyzeMatching(const char* datafile)
{

  //
  // Matching efficiency and contamination
  // for different particle species
  // (pions, kaons and protons).
  // All histos are saved into a separate file
  // datafile is assumed to be the file name containing
  // the results of the matching in TNtuple format.
  //
  // Author: F. Pierella | pierella@bo.infn.it
  //
  // Use case:
  // start root
  // root[0] .L AliTOFanalyzeMatching.C
  // root[1] AliTOFanalyzeMatching("matchingNtuple.root")

  // output (histos!) filename
  char outFileName[100];
  strcpy(outFileName,"histo");
  strcat(outFileName,datafile);
  
  // dummy histos (for normalization)
  TH1F* hpitot= new TH1F("hpitot","",12,0.,3.);
  TH1F* hkatot= new TH1F("hkatot","",12,0.,3.);
  TH1F* hprtot= new TH1F("hprtot","",12,0.,3.);
  
  TH1F* hpimatched= new TH1F("hpimatched","",12,0.,3.);
  TH1F* hkamatched= new TH1F("hkamatched","",12,0.,3.);
  TH1F* hprmatched= new TH1F("hprmatched","",12,0.,3.);
  
  
  // matching efficiency histos
  TH1F* hpimatcheff= new TH1F("hpimatcheff","Matching efficiency for pions",12,0.,3.);
  TH1F* hkamatcheff= new TH1F("hkamatcheff","Matching efficiency for kaons",12,0.,3.);
  TH1F* hprmatcheff= new TH1F("hprmatcheff","Matching efficiency for protons",12,0.,3.);

  // matching contamination histos
  TH1F* hpimatchcon= new TH1F("hpimatchcon","Matching contamination for pions",12,0.,3.);
  TH1F* hkamatchcon= new TH1F("hkamatchcon","Matching contamination for kaons",12,0.,3.);
  TH1F* hprmatchcon= new TH1F("hprmatchcon","Matching contamination for protons",12,0.,3.);
  
  
  TFile *file = TFile::Open(datafile,"old");
  TNtuple* fNtuple= (TNtuple*)file->Get("Ntuple"); // get ntuple from file
  Int_t nvar = fNtuple->GetNvar(); cout <<"N of var.="<< nvar << endl;
  fNtuple->GetEvent(0);
  
  file->cd();
  Int_t nparticles = (Int_t)fNtuple->GetEntries();
  
  for (Int_t i=0; i < nparticles; i++) {
    fNtuple->GetEvent(i);
    Int_t event=fNtuple->GetLeaf("event")->GetValue();   
    Int_t pdgcode=fNtuple->GetLeaf("ipart")->GetValue(); 
    Int_t matc=fNtuple->GetLeaf("matc")->GetValue(0);
    Float_t px=fNtuple->GetLeaf("pxvtx")->GetValue(0);
    Float_t py=fNtuple->GetLeaf("pyvtx")->GetValue(0);
    Float_t pz=fNtuple->GetLeaf("pzvtx")->GetValue(0);
    
    Float_t pvtx=TMath::Sqrt(px*px+py*py+pz*pz);  
    Float_t ptvtx=TMath::Sqrt(px*px+py*py);
    Int_t abspdgcode=TMath::Abs(pdgcode);
    

    // N (1+2+3+4+(-4)) cases
    if(matc>=1 || matc==-4){
      switch(abspdgcode){
      case 211:
	hpitot->Fill(pvtx);
	break;
      case 321:
	hkatot->Fill(pvtx);
	break;
      case 2212:
	hprtot->Fill(pvtx);
	break;
      }
    }


    // N_matched (3+4) cases
    if(matc==3 || matc==4){
      switch(abspdgcode){
      case 211:
	hpimatched->Fill(pvtx);
	break;
      case 321:
	hkamatched->Fill(pvtx);
	break;
      case 2212:
	hprmatched->Fill(pvtx);
	break;
      }
    }


    // N_t (3) case
    if(matc==3){
      switch(abspdgcode){
      case 211:
	hpimatcheff->Fill(pvtx);
	break;
      case 321:
	hkamatcheff->Fill(pvtx);
	break;
      case 2212:
	hprmatcheff->Fill(pvtx);
	break;
      }
    }

    // N_w (4) case
    if(matc==4){
      switch(abspdgcode){
      case 211:
	hpimatchcon->Fill(pvtx);
	break;
      case 321:
	hkamatchcon->Fill(pvtx);
	break;
      case 2212:
	hprmatchcon->Fill(pvtx);
	break;
      }
    }

  }

  // histo normalization
  // efficiency
  hpimatcheff->Divide(hpitot);
  hkamatcheff->Divide(hkatot);
  hprmatcheff->Divide(hprtot);

  // contamination
  hpimatchcon->Divide(hpimatched);
  hkamatchcon->Divide(hkamatched);
  hprmatchcon->Divide(hprmatched);


  TFile *houtfile = new TFile(outFileName,"recreate");
  houtfile->cd();

  hpitot->Write();
  hkatot->Write();
  hprtot->Write();
    
  hpimatched->Write();
  hkamatched->Write();
  hprmatched->Write();
    
  hpimatcheff->Write();
  hkamatcheff->Write();
  hprmatcheff->Write();

  hpimatchcon->Write();
  hkamatchcon->Write();
  hprmatchcon->Write();
  houtfile->Close();   

  cout << "File " << outFileName << " with histos has been created" << endl;
}
Commit	Line	Data
b213b8bd	1	void AliTOFanalyzeMatching(const char* datafile)
	2	{
	3
	4	//
	5	// Matching efficiency and contamination
	6	// for different particle species
	7	// (pions, kaons and protons).
	8	// All histos are saved into a separate file
	9	// datafile is assumed to be the file name containing
	10	// the results of the matching in TNtuple format.
	11	//
	12	// Author: F. Pierella \| pierella@bo.infn.it
	13	//
	14	// Use case:
	15	// start root
	16	// root[0] .L AliTOFanalyzeMatching.C
	17	// root[1] AliTOFanalyzeMatching("matchingNtuple.root")
	18
	19	// output (histos!) filename
	20	char outFileName[100];
	21	strcpy(outFileName,"histo");
	22	strcat(outFileName,datafile);
	23
	24	// dummy histos (for normalization)
	25	TH1F* hpitot= new TH1F("hpitot","",12,0.,3.);
	26	TH1F* hkatot= new TH1F("hkatot","",12,0.,3.);
	27	TH1F* hprtot= new TH1F("hprtot","",12,0.,3.);
	28
	29	TH1F* hpimatched= new TH1F("hpimatched","",12,0.,3.);
	30	TH1F* hkamatched= new TH1F("hkamatched","",12,0.,3.);
	31	TH1F* hprmatched= new TH1F("hprmatched","",12,0.,3.);
	32
	33
	34	// matching efficiency histos
	35	TH1F* hpimatcheff= new TH1F("hpimatcheff","Matching efficiency for pions",12,0.,3.);
	36	TH1F* hkamatcheff= new TH1F("hkamatcheff","Matching efficiency for kaons",12,0.,3.);
	37	TH1F* hprmatcheff= new TH1F("hprmatcheff","Matching efficiency for protons",12,0.,3.);
	38
	39	// matching contamination histos
	40	TH1F* hpimatchcon= new TH1F("hpimatchcon","Matching contamination for pions",12,0.,3.);
	41	TH1F* hkamatchcon= new TH1F("hkamatchcon","Matching contamination for kaons",12,0.,3.);
	42	TH1F* hprmatchcon= new TH1F("hprmatchcon","Matching contamination for protons",12,0.,3.);
	43
	44
	45	TFile *file = TFile::Open(datafile,"old");
	46	TNtuple* fNtuple= (TNtuple*)file->Get("Ntuple"); // get ntuple from file
	47	Int_t nvar = fNtuple->GetNvar(); cout <<"N of var.="<< nvar << endl;
	48	fNtuple->GetEvent(0);
	49
	50	file->cd();
	51	Int_t nparticles = (Int_t)fNtuple->GetEntries();
	52
	53	for (Int_t i=0; i < nparticles; i++) {
	54	fNtuple->GetEvent(i);
	55	Int_t event=fNtuple->GetLeaf("event")->GetValue();
	56	Int_t pdgcode=fNtuple->GetLeaf("ipart")->GetValue();
	57	Int_t matc=fNtuple->GetLeaf("matc")->GetValue(0);
	58	Float_t px=fNtuple->GetLeaf("pxvtx")->GetValue(0);
	59	Float_t py=fNtuple->GetLeaf("pyvtx")->GetValue(0);
	60	Float_t pz=fNtuple->GetLeaf("pzvtx")->GetValue(0);
	61
	62	Float_t pvtx=TMath::Sqrt(pxpx+pypy+pz*pz);
	63	Float_t ptvtx=TMath::Sqrt(pxpx+pypy);
	64	Int_t abspdgcode=TMath::Abs(pdgcode);
65
66
67	// N (1+2+3+4+(-4)) cases
68	if(matc>=1 \|\| matc==-4){
69	switch(abspdgcode){
70	case 211:
71	hpitot->Fill(pvtx);
72	break;
73	case 321:
74	hkatot->Fill(pvtx);
75	break;
76	case 2212:
77	hprtot->Fill(pvtx);
78	break;
79	}
80	}
81
82
83	// N_matched (3+4) cases
84	if(matc==3 \|\| matc==4){
85	switch(abspdgcode){
86	case 211:
87	hpimatched->Fill(pvtx);
88	break;
89	case 321:
90	hkamatched->Fill(pvtx);
91	break;
92	case 2212:
93	hprmatched->Fill(pvtx);
94	break;
95	}
96	}
97
98
99	// N_t (3) case
100	if(matc==3){
101	switch(abspdgcode){
102	case 211:
103	hpimatcheff->Fill(pvtx);
104	break;
105	case 321:
106	hkamatcheff->Fill(pvtx);
107	break;
108	case 2212:
109	hprmatcheff->Fill(pvtx);
110	break;
111	}
112	}
113
114	// N_w (4) case
115	if(matc==4){
116	switch(abspdgcode){
117	case 211:
118	hpimatchcon->Fill(pvtx);
119	break;
120	case 321:
121	hkamatchcon->Fill(pvtx);
122	break;
123	case 2212:
124	hprmatchcon->Fill(pvtx);
125	break;
126	}
127	}
128
129	}
130
131	// histo normalization
132	// efficiency
133	hpimatcheff->Divide(hpitot);
134	hkamatcheff->Divide(hkatot);
135	hprmatcheff->Divide(hprtot);
136
137	// contamination
138	hpimatchcon->Divide(hpimatched);
139	hkamatchcon->Divide(hkamatched);
140	hprmatchcon->Divide(hprmatched);
141
142
143	TFile *houtfile = new TFile(outFileName,"recreate");
144	houtfile->cd();
145
146	hpitot->Write();
147	hkatot->Write();
148	hprtot->Write();
149
150	hpimatched->Write();
151	hkamatched->Write();
152	hprmatched->Write();
153
154	hpimatcheff->Write();
155	hkamatcheff->Write();
156	hprmatcheff->Write();
157
158	hpimatchcon->Write();
159	hkamatchcon->Write();
160	hprmatchcon->Write();
161	houtfile->Close();
162
163	cout << "File " << outFileName << " with histos has been created" << endl;
164	}