[u/mrichter/AliRoot.git] / MUON / MUONcombi.C

void MUONcombi (Int_t evNumber=0) 
{
/////////////////////////////////////////////////////////////////////////
//   This macro is a small example of a ROOT macro
//   illustrating how to read the output of GALICE
//   and fill some histograms.
//   
//     Root > .L anal.C   //this loads the macro in memory
//     Root > anal();     //by default process first event   
//     Root > anal(2);    //process third event
//Begin_Html
/*
<img src="picts/anal.gif">
*/
//End_Html
/////////////////////////////////////////////////////////////////////////
// Dynamically link some shared libs
    if (gClassTable->GetID("AliRun") < 0) {
	gSystem->Load("$ALITOP/cern.so/lib/libpdfDUMMY.so");
	gSystem->Load("$ALITOP/cern.so/lib/libPythia.so");
	gSystem->Load("$ROOTSYS/lib/libEG.so");       
	gSystem->Load("$ROOTSYS/lib/libEGPythia.so");       
	gSystem->Load("libGeant3Dummy.so");    //a dummy version of Geant3
	gSystem->Load("PHOS/libPHOSdummy.so"); //the standard Alice classes 
	gSystem->Load("libgalice.so");         // the standard Alice classes 
    }
//
// Connect the Root Galice file containing Geometry, Kine and Hits
   TFile *file = (TFile*)gROOT->GetListOfFiles()->FindObject("galice.root");
   if (!file) file = new TFile("galice.root");

// Get AliRun object from file or create it if not on file
   if (!gAlice) {
      gAlice = (AliRun*)file->Get("gAlice");
      if (gAlice) printf("AliRun object found on file\n");
      if (!gAlice) gAlice = new AliRun("gAlice","Alice test program");
   }
//   TClonesArray &Partarray = *(gAlice->Particles());
   TClonesArray *PartArray = gAlice->Particles();
   GParticle *Part;
   

// Import the Kine and Hits Trees for the event evNumber in the file
   Int_t nparticles = gAlice->GetEvent(evNumber);
   if (nparticles <= 0) return;
//
//
   TH1F *dmass = new TH1F("dmass","Dimuon-Mass Distribution"
			 ,50,0.,10.);
   TH1F *pt    = new TH1F("pt","pT-single"
			 ,50,0.,10.);
//
//  Generator Loop
//
   
   
   AliGenCocktailEntry *Entry, *e1, *e2;
   AliGenCocktail*  Cocktail = (AliGenCocktail*) gAlice->Generator();
//                   Single Generator
   for (Entry=Cocktail->FirstGenerator();
	Entry;
	Entry=Cocktail->NextGenerator()
       ) {
       Entry->PrintInfo();
     }
//                   Pairs of Generators

//
// Initialize Combinator 
   DimuonCombinator Combinator = DimuonCombinator(PartArray);
   Combinator->SetEtaCut(-4, 4);
   Combinator->SetPtMin(0.5);   

   Int_t i=0;
//
// Single Muon  Loop  
//
/*

   for(Muon=Combinator.FirstMuon();
       Muon; 
       Muon=Combinator.NextMuon()) {
//
       Int_t chfirst= Muon->GetFirstChild();
       Int_t chlast = Muon->GetLastChild();
       Int_t parent = Muon->GetParent();
       Float_t ptm  = Muon->GetPT();
       Float_t eta  = Muon->GetEta();
       
       printf("\n Particle %d Parent %d first child %d last child %d",
	      i,parent, chfirst, chlast);
       printf("\n Particle pt, eta: %f , %f ",pt,eta);
       i++;       
   }
*/
//
// Di-Muon Loop

   Float_t pt1,pt2;
   GParticle* Muon1, *Muon2;
/*
   Combinator->ResetRange();
   for (Combinator->FirstMuonPairSelected(Muon1,Muon2);
	(Muon1 && Muon2);
	Combinator->NextMuonPairSelected(Muon1,Muon2))
   {
       pt1=Muon1->GetPT();
       pt2=Muon2->GetPT();       
       Float_t mass=Combinator->Mass(Muon1, Muon2);
       Float_t wgt =Combinator->Weight(Muon1, Muon2);
       pt->Fill(pt1, wgt);
       pt->Fill(pt2, wgt);
       Float_t smeared_mass=mass;
       Combinator->SmearGauss(0.05*mass, smeared_mass);
       dmass->Fill(smeared_mass , wgt);
    }
*/
//
//   Dimuon Loop controlled by Generator Loop
//
   for (Cocktail->FirstGeneratorPair(e1,e2);
	(e1&&e2);
	Cocktail->NextGeneratorPair(e1,e2)
       ){
       printf("\n ----------------------------------------------------");
       e1->PrintInfo();
       e2->PrintInfo();
       printf("\n ----------------------------------------------------");
       Combinator->SetFirstRange (e1->GetFirst(), e1->GetLast());
       Combinator->SetSecondRange(e2->GetFirst(), e2->GetLast());
       Combinator->SetRate(e1->Rate(), e2->Rate());
       for (Combinator->FirstMuonPairSelected(Muon1,Muon2);
	    (Muon1 && Muon2);
	    Combinator->NextMuonPairSelected(Muon1,Muon2))
       {
	   pt1=Muon1->GetPT();
	   pt2=Muon2->GetPT();       
	   Float_t mass=Combinator->Mass(Muon1, Muon2);
	   Float_t wgt =Combinator->Weight(Muon1, Muon2);
	   pt->Fill(pt1, wgt);
	   pt->Fill(pt2, wgt);
	   Float_t smeared_mass=mass;
	   Combinator->SmearGauss(0.05*mass, smeared_mass);
	   dmass->Fill(smeared_mass , wgt);
       } // Dimuon Loop
   }// Generator Loop

//
//Create a canvas, set the view range, show histograms
//
   TCanvas *c1 = new TCanvas("c1","Dimuon Plots",400,10,600,700);
   TPad* pad11 = new TPad("pad11"," ",0.01,0.51,0.49,0.99);
   TPad* pad12 = new TPad("pad12"," ",0.51,0.51,0.99,0.99);
   TPad* pad13 = new TPad("pad13"," ",0.01,0.01,0.49,0.49);
   TPad* pad14 = new TPad("pad14"," ",0.51,0.01,0.99,0.49);
   pad11->SetFillColor(11);
   pad12->SetFillColor(11);
   pad13->SetFillColor(11);
   pad14->SetFillColor(11);
   pad11->Draw();
   pad12->Draw();
   pad13->Draw();
   pad14->Draw();
   
   pad11->cd();
   pt->SetFillColor(42);
   pt->SetXTitle("pT (GeV)");
   pt->Draw();

   pad12->cd();
   dmass->SetFillColor(42);
   dmass->SetXTitle("m (GeV)");
   dmass->Draw();
}
Commit	Line	Data
fe4da5cc	1	void MUONcombi (Int_t evNumber=0)
	2	{
	3	/////////////////////////////////////////////////////////////////////////
	4	// This macro is a small example of a ROOT macro
	5	// illustrating how to read the output of GALICE
	6	// and fill some histograms.
	7	//
	8	// Root > .L anal.C //this loads the macro in memory
	9	// Root > anal(); //by default process first event
	10	// Root > anal(2); //process third event
	11	//Begin_Html
	12	/*
1439f98e	13	<img src="picts/anal.gif">
fe4da5cc	14	*/
	15	//End_Html
	16	/////////////////////////////////////////////////////////////////////////
	17	// Dynamically link some shared libs
	18	if (gClassTable->GetID("AliRun") < 0) {
	19	gSystem->Load("$ALITOP/cern.so/lib/libpdfDUMMY.so");
	20	gSystem->Load("$ALITOP/cern.so/lib/libPythia.so");
	21	gSystem->Load("$ROOTSYS/lib/libEG.so");
	22	gSystem->Load("$ROOTSYS/lib/libEGPythia.so");
	23	gSystem->Load("libGeant3Dummy.so"); //a dummy version of Geant3
	24	gSystem->Load("PHOS/libPHOSdummy.so"); //the standard Alice classes
	25	gSystem->Load("libgalice.so"); // the standard Alice classes
	26	}
	27	//
	28	// Connect the Root Galice file containing Geometry, Kine and Hits
	29	TFile file = (TFile)gROOT->GetListOfFiles()->FindObject("galice.root");
	30	if (!file) file = new TFile("galice.root");
	31
	32	// Get AliRun object from file or create it if not on file
	33	if (!gAlice) {
	34	gAlice = (AliRun*)file->Get("gAlice");
	35	if (gAlice) printf("AliRun object found on file\n");
	36	if (!gAlice) gAlice = new AliRun("gAlice","Alice test program");
	37	}
	38	// TClonesArray &Partarray = *(gAlice->Particles());
	39	TClonesArray *PartArray = gAlice->Particles();
	40	GParticle *Part;
	41
	42
	43	// Import the Kine and Hits Trees for the event evNumber in the file
	44	Int_t nparticles = gAlice->GetEvent(evNumber);
	45	if (nparticles <= 0) return;
	46	//
	47	//
	48	TH1F *dmass = new TH1F("dmass","Dimuon-Mass Distribution"
	49	,50,0.,10.);
	50	TH1F *pt = new TH1F("pt","pT-single"
	51	,50,0.,10.);
	52	//
	53	// Generator Loop
	54	//
	55
	56
	57	AliGenCocktailEntry Entry, e1, *e2;
	58	AliGenCocktail* Cocktail = (AliGenCocktail*) gAlice->Generator();
	59	// Single Generator
	60	for (Entry=Cocktail->FirstGenerator();
	61	Entry;
	62	Entry=Cocktail->NextGenerator()
	63	) {
	64	Entry->PrintInfo();
	65	}
	66	// Pairs of Generators
	67
	68	//
	69	// Initialize Combinator
	70	DimuonCombinator Combinator = DimuonCombinator(PartArray);
	71	Combinator->SetEtaCut(-4, 4);
	72	Combinator->SetPtMin(0.5);
	73
	74	Int_t i=0;
	75	//
	76	// Single Muon Loop
	77	//
78	/*
79
80	for(Muon=Combinator.FirstMuon();
81	Muon;
82	Muon=Combinator.NextMuon()) {
83	//
84	Int_t chfirst= Muon->GetFirstChild();
85	Int_t chlast = Muon->GetLastChild();
86	Int_t parent = Muon->GetParent();
87	Float_t ptm = Muon->GetPT();
88	Float_t eta = Muon->GetEta();
89
90	printf("\n Particle %d Parent %d first child %d last child %d",
91	i,parent, chfirst, chlast);
92	printf("\n Particle pt, eta: %f , %f ",pt,eta);
93	i++;
94	}
95	*/
96	//
97	// Di-Muon Loop
98
99	Float_t pt1,pt2;
100	GParticle* Muon1, *Muon2;
101	/*
102	Combinator->ResetRange();
103	for (Combinator->FirstMuonPairSelected(Muon1,Muon2);
104	(Muon1 && Muon2);
105	Combinator->NextMuonPairSelected(Muon1,Muon2))
106	{
107	pt1=Muon1->GetPT();
108	pt2=Muon2->GetPT();
109	Float_t mass=Combinator->Mass(Muon1, Muon2);
110	Float_t wgt =Combinator->Weight(Muon1, Muon2);
111	pt->Fill(pt1, wgt);
112	pt->Fill(pt2, wgt);
113	Float_t smeared_mass=mass;
114	Combinator->SmearGauss(0.05*mass, smeared_mass);
115	dmass->Fill(smeared_mass , wgt);
116	}
117	*/
118	//
119	// Dimuon Loop controlled by Generator Loop
120	//
121	for (Cocktail->FirstGeneratorPair(e1,e2);
122	(e1&&e2);
123	Cocktail->NextGeneratorPair(e1,e2)
124	){
125	printf("\n ----------------------------------------------------");
126	e1->PrintInfo();
127	e2->PrintInfo();
128	printf("\n ----------------------------------------------------");
129	Combinator->SetFirstRange (e1->GetFirst(), e1->GetLast());
130	Combinator->SetSecondRange(e2->GetFirst(), e2->GetLast());
131	Combinator->SetRate(e1->Rate(), e2->Rate());
132	for (Combinator->FirstMuonPairSelected(Muon1,Muon2);
133	(Muon1 && Muon2);
134	Combinator->NextMuonPairSelected(Muon1,Muon2))
135	{
136	pt1=Muon1->GetPT();
137	pt2=Muon2->GetPT();
138	Float_t mass=Combinator->Mass(Muon1, Muon2);
139	Float_t wgt =Combinator->Weight(Muon1, Muon2);
140	pt->Fill(pt1, wgt);
141	pt->Fill(pt2, wgt);
142	Float_t smeared_mass=mass;
143	Combinator->SmearGauss(0.05*mass, smeared_mass);
144	dmass->Fill(smeared_mass , wgt);
145	} // Dimuon Loop
146	}// Generator Loop
147
148	//
149	//Create a canvas, set the view range, show histograms
150	//
151	TCanvas *c1 = new TCanvas("c1","Dimuon Plots",400,10,600,700);
152	TPad* pad11 = new TPad("pad11"," ",0.01,0.51,0.49,0.99);
153	TPad* pad12 = new TPad("pad12"," ",0.51,0.51,0.99,0.99);
154	TPad* pad13 = new TPad("pad13"," ",0.01,0.01,0.49,0.49);
155	TPad* pad14 = new TPad("pad14"," ",0.51,0.01,0.99,0.49);
156	pad11->SetFillColor(11);
157	pad12->SetFillColor(11);
158	pad13->SetFillColor(11);
159	pad14->SetFillColor(11);
160	pad11->Draw();
161	pad12->Draw();
162	pad13->Draw();
163	pad14->Draw();
164
165	pad11->cd();
166	pt->SetFillColor(42);
167	pt->SetXTitle("pT (GeV)");
168	pt->Draw();
169
170	pad12->cd();
171	dmass->SetFillColor(42);
172	dmass->SetXTitle("m (GeV)");
173	dmass->Draw();
174	}
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