[u/mrichter/AliRoot.git] / EVGEN / TestPrimaries.C

void TestPrimaries(Int_t evNumber1=0, Int_t evNumber2=0) 
{
// Dynamically link some shared libs                    
    if (gClassTable->GetID("AliRun") < 0) {
	gROOT->LoadMacro("loadlibs.C");
	loadlibs();
    }
// Connect the Root Galice file containing Geometry, Kine and Hits

    TFile *file = (TFile*)gROOT->GetListOfFiles()->FindObject("galice.root");
    
    if (!file) {
	printf("\n Creating galice.root \n");
	file = new TFile("galice.root");
    } else {
	printf("\n galice.root found in file list");
    }
    file->ls();
//
    TDatabasePDG*  DataBase = new TDatabasePDG();
    
// 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) {
	    printf("\n create new gAlice object");
	    gAlice = new AliRun("gAlice","Alice test program");
	}
    }
    
//  Create some histograms

    TH1F *thetaH   =  new TH1F("thetaH","Theta distribution",180,0,180);
    TH1F *phiH     =  new TH1F("phiH","Phi distribution"  ,180,-180,180);
    TH1F *etaH     =  new TH1F("etaH","Pseudorapidity",120,-12,12);
    TH1F *yH       =  new TH1F("yH","Rapidity distribution",120,-12,12);
    TH1F *eH       =  new TH1F("eH","Energy distribution",100,0,100);
    TH1F *eetaH    =  new TH1F("eetaH","Pseudorapidity",120,0,12);
    TH1F *ptH      =  new TH1F("ptH","Pt distribution",150,0,15);
//
//   Loop over events 
//
    
    for (Int_t nev=0; nev<= evNumber2; nev++) {
	Int_t nparticles = gAlice->GetEvent(nev);
	if (nev < evNumber1) continue;
	if (nparticles <= 0) return;
	TClonesArray *fPartArray = gAlice->Particles();       
	Int_t npart = fPartArray->GetEntriesFast();
//
// Loop over primary particles (jpsi. upsilon, ...)
//       
	for (Int_t part=0; part<npart; part++) {
	    TParticle *MPart = (TParticle*) fPartArray->UncheckedAt(part);
	    Int_t mpart  = MPart->GetPdgCode();
	    Int_t child1 = MPart->GetFirstDaughter();
	    Int_t child2 = MPart->GetLastDaughter();	
	    Int_t mother = MPart->GetFirstMother();	   
	    
	    Float_t Pt = MPart->Pt();
	    Float_t E  = MPart->Energy();
	    Float_t Pz = MPart->Pz();
	    Float_t Py = MPart->Py();
	    Float_t Px = MPart->Px();
	    Float_t pT = TMath::Sqrt(Px*Px+Py*Py);
	    Float_t theta = MPart->Theta();
	    Float_t phi   = MPart->Phi()-TMath::Pi();
	    Float_t eta   = -TMath::Log(TMath::Tan(theta/2.));
	    Float_t y     = 0.5*TMath::Log((E+Pz)/(E-Pz+1.e-13));
	    
	    if (child1 >= 0) continue;
	    if (mpart == kPi0 || mpart == kGamma) continue;
	    Float_t wgt = 1./(Float_t ((evNumber2-evNumber1)+1.));
	    thetaH->Fill(theta*180./TMath::Pi(),wgt);
	    phiH->Fill(phi*180./TMath::Pi(),wgt);
	    etaH->Fill(eta,5.*wgt);    
	    eetaH->Fill(eta,E);    
	    yH->Fill(y,5.*wgt);      
	    eH->Fill(E,wgt);      
	    ptH->Fill(pT,wgt);     
	} // primary loop
    }
    
//Create a canvas, set the view range, show histograms
    TCanvas *c1 = new TCanvas("c1","Canvas 1",400,10,600,700);
    c1->Divide(2,2);
    c1->cd(1); ptH->Draw();
    c1->cd(2); etaH->Draw();
    c1->cd(3); yH->Draw();
    c1->cd(4


); eH->Draw();

    TCanvas *c2 = new TCanvas("c2","Canvas 1",400,10,600,700);
    c2->Divide(2,2);
    c2->cd(1); phiH->Draw();
    c2->cd(2); thetaH->Draw();
    c2->cd(3); eetaH->Draw();
    Float_t i0,i1,i2,i3,i4,i5;
    Float_t ne = Float_t ((evNumber2-evNumber1)+1.);
    
    i0=eetaH->Integral(01,25)/1000./ne;
    i1=eetaH->Integral(25,40)/1000./ne;
    i2=eetaH->Integral(40,50)/1000./ne;
    i3=eetaH->Integral(50,60)/1000./ne;
    i4=eetaH->Integral(60,70)/1000./ne;
    i5=eetaH->Integral(70,120)/1000./ne;

    printf("  0 < eta < 2.5 %f \n",i0);
    printf("2.5 < eta < 4.0 %f \n",i1);
    printf("4.0 < eta < 5.0 %f \n",i2);
    printf("5.0 < eta < 6.0 %f \n",i3);
    printf("6.0 < eta < 7.0 %f \n",i4);
    printf("7.0 < eta <12.0 %f \n",i5);

}
Commit	Line	Data
754a67f2	1	void TestPrimaries(Int_t evNumber1=0, Int_t evNumber2=0)
	2	{
	3	// Dynamically link some shared libs
	4	if (gClassTable->GetID("AliRun") < 0) {
	5	gROOT->LoadMacro("loadlibs.C");
	6	loadlibs();
	7	}
	8	// Connect the Root Galice file containing Geometry, Kine and Hits
	9
	10	TFile file = (TFile)gROOT->GetListOfFiles()->FindObject("galice.root");
	11
	12	if (!file) {
	13	printf("\n Creating galice.root \n");
	14	file = new TFile("galice.root");
	15	} else {
	16	printf("\n galice.root found in file list");
	17	}
	18	file->ls();
	19	//
	20	TDatabasePDG* DataBase = new TDatabasePDG();
	21
	22	// Get AliRun object from file or create it if not on file
	23	if (!gAlice) {
	24	gAlice = (AliRun*)(file->Get("gAlice"));
	25	if (gAlice) printf("AliRun object found on file\n");
	26	if (!gAlice) {
	27	printf("\n create new gAlice object");
	28	gAlice = new AliRun("gAlice","Alice test program");
	29	}
	30	}
	31
	32	// Create some histograms
	33
	34	TH1F *thetaH = new TH1F("thetaH","Theta distribution",180,0,180);
	35	TH1F *phiH = new TH1F("phiH","Phi distribution" ,180,-180,180);
	36	TH1F *etaH = new TH1F("etaH","Pseudorapidity",120,-12,12);
	37	TH1F *yH = new TH1F("yH","Rapidity distribution",120,-12,12);
	38	TH1F *eH = new TH1F("eH","Energy distribution",100,0,100);
a78c8623	39	TH1F *eetaH = new TH1F("eetaH","Pseudorapidity",120,0,12);
754a67f2	40	TH1F *ptH = new TH1F("ptH","Pt distribution",150,0,15);
	41	//
	42	// Loop over events
	43	//
	44
	45	for (Int_t nev=0; nev<= evNumber2; nev++) {
	46	Int_t nparticles = gAlice->GetEvent(nev);
	47	if (nev < evNumber1) continue;
	48	if (nparticles <= 0) return;
	49	TClonesArray *fPartArray = gAlice->Particles();
	50	Int_t npart = fPartArray->GetEntriesFast();
	51	//
	52	// Loop over primary particles (jpsi. upsilon, ...)
	53	//
	54	for (Int_t part=0; part<npart; part++) {
	55	TParticle MPart = (TParticle) fPartArray->UncheckedAt(part);
	56	Int_t mpart = MPart->GetPdgCode();
	57	Int_t child1 = MPart->GetFirstDaughter();
	58	Int_t child2 = MPart->GetLastDaughter();
	59	Int_t mother = MPart->GetFirstMother();
	60
	61	Float_t Pt = MPart->Pt();
	62	Float_t E = MPart->Energy();
	63	Float_t Pz = MPart->Pz();
	64	Float_t Py = MPart->Py();
	65	Float_t Px = MPart->Px();
	66	Float_t pT = TMath::Sqrt(PxPx+PyPy);
	67	Float_t theta = MPart->Theta();
	68	Float_t phi = MPart->Phi()-TMath::Pi();
	69	Float_t eta = -TMath::Log(TMath::Tan(theta/2.));
a78c8623	70	Float_t y = 0.5*TMath::Log((E+Pz)/(E-Pz+1.e-13));
	71
	72	if (child1 >= 0) continue;
	73	if (mpart == kPi0 \|\| mpart == kGamma) continue;
	74	Float_t wgt = 1./(Float_t ((evNumber2-evNumber1)+1.));
	75	thetaH->Fill(theta*180./TMath::Pi(),wgt);
	76	phiH->Fill(phi*180./TMath::Pi(),wgt);
	77	etaH->Fill(eta,5.*wgt);
754a67f2	78	eetaH->Fill(eta,E);
a78c8623	79	yH->Fill(y,5.*wgt);
	80	eH->Fill(E,wgt);
	81	ptH->Fill(pT,wgt);
754a67f2	82	} // primary loop
	83	}
	84
	85	//Create a canvas, set the view range, show histograms
	86	TCanvas *c1 = new TCanvas("c1","Canvas 1",400,10,600,700);
	87	c1->Divide(2,2);
	88	c1->cd(1); ptH->Draw();
	89	c1->cd(2); etaH->Draw();
	90	c1->cd(3); yH->Draw();
	91	c1->cd(4
	92
	93
	94
	95	); eH->Draw();
	96
	97	TCanvas *c2 = new TCanvas("c2","Canvas 1",400,10,600,700);
	98	c2->Divide(2,2);
	99	c2->cd(1); phiH->Draw();
	100	c2->cd(2); thetaH->Draw();
	101	c2->cd(3); eetaH->Draw();
a78c8623	102	Float_t i0,i1,i2,i3,i4,i5;
	103	Float_t ne = Float_t ((evNumber2-evNumber1)+1.);
	104
	105	i0=eetaH->Integral(01,25)/1000./ne;
	106	i1=eetaH->Integral(25,40)/1000./ne;
	107	i2=eetaH->Integral(40,50)/1000./ne;
	108	i3=eetaH->Integral(50,60)/1000./ne;
	109	i4=eetaH->Integral(60,70)/1000./ne;
	110	i5=eetaH->Integral(70,120)/1000./ne;
	111
	112	printf(" 0 < eta < 2.5 %f \n",i0);
	113	printf("2.5 < eta < 4.0 %f \n",i1);
	114	printf("4.0 < eta < 5.0 %f \n",i2);
	115	printf("5.0 < eta < 6.0 %f \n",i3);
	116	printf("6.0 < eta < 7.0 %f \n",i4);
	117	printf("7.0 < eta <12.0 %f \n",i5);
	118
754a67f2	119	}
	120
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