[u/mrichter/AliRoot.git] / EVGEN / AliGenHIJINGpara.cxx

/**************************************************************************
 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 *                                                                        *
 * Author: The ALICE Off-line Project.                                    *
 * Contributors are mentioned in the code where appropriate.              *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

/*
$Log$
Revision 1.9  2001/07/27 17:09:36  morsch
Use local SetTrack, KeepTrack and SetHighWaterMark methods
to delegate either to local stack or to stack owned by AliRun.
(Piotr Skowronski, A.M.)

Revision 1.8  2001/07/20 11:03:58  morsch
Issue warning message if used outside allowed eta range (-8 to 8).

Revision 1.7  2001/07/17 12:41:01  morsch
- Calculation of fraction of event corresponding to selected pt-range corrected
(R. Turrisi)
- Parent weight corrected.

Revision 1.6  2001/05/16 14:57:10  alibrary
New files for folders and Stack

Revision 1.5  2000/12/21 16:24:06  morsch
Coding convention clean-up

Revision 1.4  2000/11/30 07:12:50  alibrary
Introducing new Rndm and QA classes

Revision 1.3  2000/10/02 21:28:06  fca
Removal of useless dependecies via forward declarations

Revision 1.2  2000/07/11 18:24:55  fca
Coding convention corrections + few minor bug fixes

Revision 1.1  2000/06/09 20:20:30  morsch
Same class as previously in AliSimpleGen.cxx
All coding rule violations except RS3 corrected (AM)

*/

// Parameterisation of pi and K, eta and pt distributions
// used for the ALICE TDRs.
// eta: according to HIJING (shadowing + quenching)
// pT : according to CDF measurement at 1.8 TeV
// Author: andreas.morsch@cern.ch


//Begin_Html
/*
<img src="picts/AliGeneratorClass.gif">
</pre>
<br clear=left>
<font size=+2 color=red>
<p>The responsible person for this module is
<a href="mailto:andreas.morsch@cern.ch">Andreas Morsch</a>.
</font>
<pre>
*/
//End_Html
//                                                               //
///////////////////////////////////////////////////////////////////

#include "AliGenHIJINGpara.h"
#include "AliGenEventHeader.h"
#include "AliRun.h"
#include "AliConst.h"
#include "AliPDG.h"

#include <TF1.h>
#include <TArrayF.h>

ClassImp(AliGenHIJINGpara)

AliGenHIJINGpara::AliGenHIJINGpara(const AliGenHIJINGpara & para)
{
// copy constructor
}

//_____________________________________________________________________________
static Double_t ptpi(Double_t *px, Double_t *)
{
  //
  //     PT-PARAMETERIZATION CDF, PRL 61(88) 1819
  //     POWER LAW FOR PT > 500 MEV
  //     MT SCALING BELOW (T=160 MEV)
  //
  const Double_t kp0 = 1.3;
  const Double_t kxn = 8.28;
  const Double_t kxlim=0.5;
  const Double_t kt=0.160;
  const Double_t kxmpi=0.139;
  const Double_t kb=1.;
  Double_t y, y1, xmpi2, ynorm, a;
  Double_t x=*px;
  //
  y1=TMath::Power(kp0/(kp0+kxlim),kxn);
  xmpi2=kxmpi*kxmpi;
  ynorm=kb*(TMath::Exp(-sqrt(kxlim*kxlim+xmpi2)/kt));
  a=ynorm/y1;
  if (x > kxlim)
    y=a*TMath::Power(kp0/(kp0+x),kxn);
  else
    y=kb*TMath::Exp(-sqrt(x*x+xmpi2)/kt);
  return y*x;
}

//_____________________________________________________________________________
static Double_t ptscal(Double_t pt, Int_t np)
{
    //    SCALING EN MASSE PAR RAPPORT A PTPI
    //     MASS PI,K,ETA,RHO,OMEGA,ETA',PHI
    const Double_t khm[10] = {.13957,.493,.5488,.769,.7826,.958,1.02,0,0,0};
    //     VALUE MESON/PI AT 5 GEV
    const Double_t kfmax[10]={1.,0.3,0.55,1.0,1.0,1.0,1.0,0,0,0};
    np--;
    Double_t f5=TMath::Power(((
	sqrt(100.018215)+2.)/(sqrt(100.+khm[np]*khm[np])+2.0)),12.3);
    Double_t fmax2=f5/kfmax[np];
    // PIONS
    Double_t ptpion=100.*ptpi(&pt, (Double_t*) 0);
    Double_t fmtscal=TMath::Power(((
	sqrt(pt*pt+0.018215)+2.)/ (sqrt(pt*pt+khm[np]*khm[np])+2.0)),12.3)/ 
	fmax2;
    return fmtscal*ptpion;
}

//_____________________________________________________________________________
static Double_t ptka( Double_t *px, Double_t *)
{
    //
    // pt parametrisation for k
    //
    return ptscal(*px,2);
}


//_____________________________________________________________________________
static Double_t etapic( Double_t *py, Double_t *)
{
  //
  // eta parametrisation for pi
  //
    const Double_t ka1    = 4913.;
    const Double_t ka2    = 1819.;
    const Double_t keta1  = 0.22;
    const Double_t keta2  = 3.66;
    const Double_t kdeta1 = 1.47;
    const Double_t kdeta2 = 1.51;
    Double_t y=TMath::Abs(*py);
    //
    Double_t ex1 = (y-keta1)*(y-keta1)/(2*kdeta1*kdeta1);
    Double_t ex2 = (y-keta2)*(y-keta2)/(2*kdeta2*kdeta2);
    return ka1*TMath::Exp(-ex1)+ka2*TMath::Exp(-ex2);
}

//_____________________________________________________________________________
static Double_t etakac( Double_t *py, Double_t *)
{
    //
    // eta parametrisation for ka
    //
    const Double_t ka1    = 497.6;
    const Double_t ka2    = 215.6;
    const Double_t keta1  = 0.79;
    const Double_t keta2  = 4.09;
    const Double_t kdeta1 = 1.54;
    const Double_t kdeta2 = 1.40;
    Double_t y=TMath::Abs(*py);
    //
    Double_t ex1 = (y-keta1)*(y-keta1)/(2*kdeta1*kdeta1);
    Double_t ex2 = (y-keta2)*(y-keta2)/(2*kdeta2*kdeta2);
    return ka1*TMath::Exp(-ex1)+ka2*TMath::Exp(-ex2);
}

//_____________________________________________________________________________
AliGenHIJINGpara::AliGenHIJINGpara()
  :AliGenerator()
{
    //
    // Default constructor
    //
    fPtpi = 0;
    fPtka = 0;
    fETApic = 0;
    fETAkac = 0;
    SetCutVertexZ();
}

//_____________________________________________________________________________
AliGenHIJINGpara::AliGenHIJINGpara(Int_t npart)
  :AliGenerator(npart)
{
  // 
  // Standard constructor
  //
    fName="HIGINGpara";
    fTitle="HIJING Parametrisation Particle Generator";
    fPtpi = 0;
    fPtka = 0;
    fETApic = 0;
    fETAkac = 0;
    SetCutVertexZ();
}

//_____________________________________________________________________________
AliGenHIJINGpara::~AliGenHIJINGpara()
{
  //
  // Standard destructor
  //
    delete fPtpi;
    delete fPtka;
    delete fETApic;
    delete fETAkac;
}

//_____________________________________________________________________________
void AliGenHIJINGpara::Init()
{
  //
  // Initialise the HIJING parametrisation
  //
    Float_t etaMin =-TMath::Log(TMath::Tan(
	TMath::Min((Double_t)fThetaMax/2,TMath::Pi()/2-1.e-10)));
    Float_t etaMax = -TMath::Log(TMath::Tan(
	TMath::Max((Double_t)fThetaMin/2,1.e-10)));
    fPtpi   = new TF1("ptpi",&ptpi,0,20,0);
    fPtka   = new TF1("ptka",&ptka,0,20,0);
    fETApic = new TF1("etapic",&etapic,etaMin,etaMax,0);
    fETAkac = new TF1("etakac",&etakac,etaMin,etaMax,0);

    TF1 *etaPic0 = new TF1("etapic",&etapic,-7,7,0);
    TF1 *etaKac0 = new TF1("etakac",&etakac,-7,7,0);

    TF1 *ptPic0  = new TF1("ptpi",&ptpi,0.,15.,0);
    TF1 *ptKac0  = new TF1("ptka",&ptka,0.,15.,0);

    Float_t intETApi  = etaPic0->Integral(-0.5, 0.5);
    Float_t intETAka  = etaKac0->Integral(-0.5, 0.5);
    Float_t scalePi   = 7316/(intETApi/1.5);
    Float_t scaleKa   =  684/(intETAka/2.0);

//  Fraction of events corresponding to the selected pt-range    
    Float_t intPt    = (0.877*ptPic0->Integral(0, 15)+
			0.123*ptKac0->Integral(0, 15));
    Float_t intPtSel = (0.877*ptPic0->Integral(fPtMin, fPtMax)+
			0.123*ptKac0->Integral(fPtMin, fPtMax));
    Float_t ptFrac   = intPtSel/intPt;

//  Fraction of events corresponding to the selected eta-range    
    Float_t intETASel  = (scalePi*etaPic0->Integral(etaMin, etaMax)+
			  scaleKa*etaKac0->Integral(etaMin, etaMax));
//  Fraction of events corresponding to the selected phi-range    
    Float_t phiFrac    = (fPhiMax-fPhiMin)/2/TMath::Pi();

    fParentWeight = Float_t(fNpart)/(intETASel*ptFrac*phiFrac);
    
    printf("%s: The number of particles in the selected kinematic region corresponds to %f percent of a full event\n ", 
	   ClassName(),100.*fParentWeight);

// Issue warning message if etaMin or etaMax are outside the alowed range 
// of the parametrization
    if (etaMin < -8.001 || etaMax > 8.001) {
	printf("\n \n WARNING FROM AliGenHIJINGPara !");
	printf("\n YOU ARE USING THE PARAMETERISATION OUTSIDE ");	
	printf("\n THE ALLOWED PSEUDORAPIDITY RANGE (-8. - 8.)");	    
	printf("\n YOUR LIMITS: %f %f \n \n ", etaMin, etaMax);
    }
}

//_____________________________________________________________________________
void AliGenHIJINGpara::Generate()
{
  //
  // Generate one trigger
  //

  
    const Float_t kRaKpic=0.14;
    const Float_t kBorne=1/(1+kRaKpic);
    Float_t polar[3]= {0,0,0};
    //
    const Int_t kPions[3] = {kPi0, kPiPlus, kPiMinus};
    const Int_t kKaons[4] = {kK0Long, kK0Short, kKPlus, kKMinus};
    //
    Float_t origin[3];
    Float_t pt, pl, ptot;
    Float_t phi, theta;
    Float_t p[3];
    Int_t i, part, nt, j;
    //
    TF1 *ptf;
    TF1 *etaf;
    //
    Float_t random[6];
    //
    for (j=0;j<3;j++) origin[j]=fOrigin[j];

    if(fVertexSmear == kPerEvent) {
	Float_t dv[3];
	dv[2] = 1.e10;
	while(TMath::Abs(dv[2]) > fCutVertexZ*fOsigma[2]) {
	    Rndm(random,6);
	    for (j=0; j < 3; j++) {
		dv[j] = fOsigma[j]*TMath::Cos(2*random[2*j]*TMath::Pi())*
		    TMath::Sqrt(-2*TMath::Log(random[2*j+1]));
	    }
	}
	for (j=0; j < 3; j++) origin[j] += dv[j];
    } // if kPerEvent
    TArrayF eventVertex;
    eventVertex.Set(3);
    eventVertex[0] = origin[0];
    eventVertex[1] = origin[1];
    eventVertex[2] = origin[2];

    for(i=0;i<fNpart;i++) {
	while(1) {
	    Rndm(random,3);
	    if(random[0]<kBorne) {
		part=kPions[Int_t (random[1]*3)];
		ptf=fPtpi;
	      etaf=fETApic;
	    } else {
		part=kKaons[Int_t (random[1]*4)];
		ptf=fPtka;
		etaf=fETAkac;
	    }
	    phi=fPhiMin+random[2]*(fPhiMax-fPhiMin);
	    theta=2*TMath::ATan(TMath::Exp(-etaf->GetRandom()));
	    if(theta<fThetaMin || theta>fThetaMax) continue;
	    pt=ptf->GetRandom();
	    pl=pt/TMath::Tan(theta);
	    ptot=TMath::Sqrt(pt*pt+pl*pl);
	    if(ptot<fPMin || ptot>fPMax) continue;
	    p[0]=pt*TMath::Cos(phi);
	    p[1]=pt*TMath::Sin(phi);
	    p[2]=pl;
	    if(fVertexSmear==kPerTrack) {
		Rndm(random,6);
		for (j=0;j<3;j++) {
		    origin[j]=fOrigin[j]+fOsigma[j]*TMath::Cos(2*random[2*j]*TMath::Pi())*
			TMath::Sqrt(-2*TMath::Log(random[2*j+1]));
		}
	    }
	    SetTrack(fTrackIt,-1,part,p,origin,polar,0,kPPrimary,nt,fParentWeight);
	    break;
	}
    }
// Header
    AliGenEventHeader* header = new AliGenEventHeader("HIJINGparam");
// Event Vertex
    header->SetPrimaryVertex(eventVertex);
    gAlice->SetGenEventHeader(header); 
}

AliGenHIJINGpara& AliGenHIJINGpara::operator=(const  AliGenHIJINGpara& rhs)
{
// Assignment operator
    return *this;
}
Commit	Line	Data
790bbabf	1	/**************************************************************************
	2	* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	3	* *
	4	* Author: The ALICE Off-line Project. *
	5	* Contributors are mentioned in the code where appropriate. *
	6	* *
	7	* Permission to use, copy, modify and distribute this software and its *
	8	* documentation strictly for non-commercial purposes is hereby granted *
	9	* without fee, provided that the above copyright notice appears in all *
	10	* copies and that both the copyright notice and this permission notice *
	11	* appear in the supporting documentation. The authors make no claims *
	12	* about the suitability of this software for any purpose. It is *
	13	* provided "as is" without express or implied warranty. *
	14	**************************************************************************/
	15
	16	/*
	17	$Log$
971816d4	18	Revision 1.9 2001/07/27 17:09:36 morsch
	19	Use local SetTrack, KeepTrack and SetHighWaterMark methods
	20	to delegate either to local stack or to stack owned by AliRun.
	21	(Piotr Skowronski, A.M.)
	22
a99cf51f	23	Revision 1.8 2001/07/20 11:03:58 morsch
	24	Issue warning message if used outside allowed eta range (-8 to 8).
	25
5b0e4c0f	26	Revision 1.7 2001/07/17 12:41:01 morsch
	27	- Calculation of fraction of event corresponding to selected pt-range corrected
	28	(R. Turrisi)
	29	- Parent weight corrected.
	30
f25521b2	31	Revision 1.6 2001/05/16 14:57:10 alibrary
	32	New files for folders and Stack
	33
9e1a0ddb	34	Revision 1.5 2000/12/21 16:24:06 morsch
	35	Coding convention clean-up
	36
675e9664	37	Revision 1.4 2000/11/30 07:12:50 alibrary
	38	Introducing new Rndm and QA classes
	39
65fb704d	40	Revision 1.3 2000/10/02 21:28:06 fca
	41	Removal of useless dependecies via forward declarations
	42
94de3818	43	Revision 1.2 2000/07/11 18:24:55 fca
	44	Coding convention corrections + few minor bug fixes
	45
aee8290b	46	Revision 1.1 2000/06/09 20:20:30 morsch
	47	Same class as previously in AliSimpleGen.cxx
	48	All coding rule violations except RS3 corrected (AM)
	49
790bbabf	50	*/
675e9664	51
	52	// Parameterisation of pi and K, eta and pt distributions
	53	// used for the ALICE TDRs.
	54	// eta: according to HIJING (shadowing + quenching)
	55	// pT : according to CDF measurement at 1.8 TeV
	56	// Author: andreas.morsch@cern.ch
	57
	58
790bbabf	59	//Begin_Html
	60	/*
	61	<img src="picts/AliGeneratorClass.gif">
	62	</pre>
	63	<br clear=left>
	64	<font size=+2 color=red>
	65	<p>The responsible person for this module is
	66	<a href="mailto:andreas.morsch@cern.ch">Andreas Morsch</a>.
	67	</font>
	68	<pre>
	69	*/
	70	//End_Html
	71	// //
	72	///////////////////////////////////////////////////////////////////
	73
	74	#include "AliGenHIJINGpara.h"
971816d4	75	#include "AliGenEventHeader.h"
790bbabf	76	#include "AliRun.h"
	77	#include "AliConst.h"
	78	#include "AliPDG.h"
	79
971816d4	80	#include <TF1.h>
	81	#include <TArrayF.h>
	82
790bbabf	83	ClassImp(AliGenHIJINGpara)
	84
	85	AliGenHIJINGpara::AliGenHIJINGpara(const AliGenHIJINGpara & para)
	86	{
	87	// copy constructor
	88	}
	89
	90	//_____________________________________________________________________________
	91	static Double_t ptpi(Double_t px, Double_t )
	92	{
	93	//
	94	// PT-PARAMETERIZATION CDF, PRL 61(88) 1819
	95	// POWER LAW FOR PT > 500 MEV
	96	// MT SCALING BELOW (T=160 MEV)
	97	//
	98	const Double_t kp0 = 1.3;
	99	const Double_t kxn = 8.28;
	100	const Double_t kxlim=0.5;
	101	const Double_t kt=0.160;
	102	const Double_t kxmpi=0.139;
	103	const Double_t kb=1.;
	104	Double_t y, y1, xmpi2, ynorm, a;
	105	Double_t x=*px;
	106	//
	107	y1=TMath::Power(kp0/(kp0+kxlim),kxn);
	108	xmpi2=kxmpi*kxmpi;
	109	ynorm=kb(TMath::Exp(-sqrt(kxlimkxlim+xmpi2)/kt));
	110	a=ynorm/y1;
	111	if (x > kxlim)
	112	y=a*TMath::Power(kp0/(kp0+x),kxn);
	113	else
	114	y=kbTMath::Exp(-sqrt(xx+xmpi2)/kt);
	115	return y*x;
	116	}
	117
	118	//_____________________________________________________________________________
	119	static Double_t ptscal(Double_t pt, Int_t np)
	120	{
	121	// SCALING EN MASSE PAR RAPPORT A PTPI
	122	// MASS PI,K,ETA,RHO,OMEGA,ETA',PHI
	123	const Double_t khm[10] = {.13957,.493,.5488,.769,.7826,.958,1.02,0,0,0};
	124	// VALUE MESON/PI AT 5 GEV
	125	const Double_t kfmax[10]={1.,0.3,0.55,1.0,1.0,1.0,1.0,0,0,0};
	126	np--;
	127	Double_t f5=TMath::Power(((
	128	sqrt(100.018215)+2.)/(sqrt(100.+khm[np]*khm[np])+2.0)),12.3);
	129	Double_t fmax2=f5/kfmax[np];
	130	// PIONS
	131	Double_t ptpion=100.ptpi(&pt, (Double_t) 0);
	132	Double_t fmtscal=TMath::Power(((
	133	sqrt(ptpt+0.018215)+2.)/ (sqrt(ptpt+khm[np]*khm[np])+2.0)),12.3)/
	134	fmax2;
	135	return fmtscal*ptpion;
	136	}
	137
	138	//_____________________________________________________________________________
	139	static Double_t ptka( Double_t px, Double_t )
	140	{
	141	//
	142	// pt parametrisation for k
	143	//
	144	return ptscal(*px,2);
	145	}
	146
147
148	//_____________________________________________________________________________
149	static Double_t etapic( Double_t py, Double_t )
150	{
151	//
152	// eta parametrisation for pi
153	//
154	const Double_t ka1 = 4913.;
155	const Double_t ka2 = 1819.;
156	const Double_t keta1 = 0.22;
157	const Double_t keta2 = 3.66;
158	const Double_t kdeta1 = 1.47;
159	const Double_t kdeta2 = 1.51;
160	Double_t y=TMath::Abs(*py);
161	//
162	Double_t ex1 = (y-keta1)(y-keta1)/(2kdeta1*kdeta1);
163	Double_t ex2 = (y-keta2)(y-keta2)/(2kdeta2*kdeta2);
164	return ka1TMath::Exp(-ex1)+ka2TMath::Exp(-ex2);
165	}
166
167	//_____________________________________________________________________________
168	static Double_t etakac( Double_t py, Double_t )
169	{
170	//
171	// eta parametrisation for ka
172	//
173	const Double_t ka1 = 497.6;
174	const Double_t ka2 = 215.6;
175	const Double_t keta1 = 0.79;
176	const Double_t keta2 = 4.09;
177	const Double_t kdeta1 = 1.54;
178	const Double_t kdeta2 = 1.40;
179	Double_t y=TMath::Abs(*py);
180	//
181	Double_t ex1 = (y-keta1)(y-keta1)/(2kdeta1*kdeta1);
182	Double_t ex2 = (y-keta2)(y-keta2)/(2kdeta2*kdeta2);
183	return ka1TMath::Exp(-ex1)+ka2TMath::Exp(-ex2);
184	}
185
186	//_____________________________________________________________________________
187	AliGenHIJINGpara::AliGenHIJINGpara()
188	:AliGenerator()
189	{
190	//
191	// Default constructor
192	//
193	fPtpi = 0;
194	fPtka = 0;
195	fETApic = 0;
196	fETAkac = 0;
971816d4	197	SetCutVertexZ();
790bbabf	198	}
	199
	200	//_____________________________________________________________________________
	201	AliGenHIJINGpara::AliGenHIJINGpara(Int_t npart)
	202	:AliGenerator(npart)
	203	{
	204	//
	205	// Standard constructor
	206	//
	207	fName="HIGINGpara";
	208	fTitle="HIJING Parametrisation Particle Generator";
	209	fPtpi = 0;
	210	fPtka = 0;
	211	fETApic = 0;
	212	fETAkac = 0;
971816d4	213	SetCutVertexZ();
790bbabf	214	}
	215
	216	//_____________________________________________________________________________
	217	AliGenHIJINGpara::~AliGenHIJINGpara()
	218	{
	219	//
	220	// Standard destructor
	221	//
	222	delete fPtpi;
	223	delete fPtka;
	224	delete fETApic;
	225	delete fETAkac;
	226	}
	227
	228	//_____________________________________________________________________________
	229	void AliGenHIJINGpara::Init()
	230	{
	231	//
	232	// Initialise the HIJING parametrisation
	233	//
	234	Float_t etaMin =-TMath::Log(TMath::Tan(
	235	TMath::Min((Double_t)fThetaMax/2,TMath::Pi()/2-1.e-10)));
	236	Float_t etaMax = -TMath::Log(TMath::Tan(
	237	TMath::Max((Double_t)fThetaMin/2,1.e-10)));
f25521b2	238	fPtpi = new TF1("ptpi",&ptpi,0,20,0);
f25521b2	239	fPtka = new TF1("ptka",&ptka,0,20,0);
790bbabf	240	fETApic = new TF1("etapic",&etapic,etaMin,etaMax,0);
790bbabf	241	fETAkac = new TF1("etakac",&etakac,etaMin,etaMax,0);
f25521b2	242
790bbabf	243	TF1 *etaPic0 = new TF1("etapic",&etapic,-7,7,0);
790bbabf	244	TF1 *etaKac0 = new TF1("etakac",&etakac,-7,7,0);
f25521b2	245
	246	TF1 *ptPic0 = new TF1("ptpi",&ptpi,0.,15.,0);
	247	TF1 *ptKac0 = new TF1("ptka",&ptka,0.,15.,0);
	248
790bbabf	249	Float_t intETApi = etaPic0->Integral(-0.5, 0.5);
790bbabf	250	Float_t intETAka = etaKac0->Integral(-0.5, 0.5);
f25521b2	251	Float_t scalePi = 7316/(intETApi/1.5);
	252	Float_t scaleKa = 684/(intETAka/2.0);
	253
	254	// Fraction of events corresponding to the selected pt-range
	255	Float_t intPt = (0.877*ptPic0->Integral(0, 15)+
	256	0.123*ptKac0->Integral(0, 15));
	257	Float_t intPtSel = (0.877*ptPic0->Integral(fPtMin, fPtMax)+
	258	0.123*ptKac0->Integral(fPtMin, fPtMax));
	259	Float_t ptFrac = intPtSel/intPt;
	260
	261	// Fraction of events corresponding to the selected eta-range
790bbabf	262	Float_t intETASel = (scalePi*etaPic0->Integral(etaMin, etaMax)+
790bbabf	263	scaleKa*etaKac0->Integral(etaMin, etaMax));
f25521b2	264	// Fraction of events corresponding to the selected phi-range
	265	Float_t phiFrac = (fPhiMax-fPhiMin)/2/TMath::Pi();
	266
	267	fParentWeight = Float_t(fNpart)/(intETASelptFracphiFrac);
790bbabf	268
9e1a0ddb	269	printf("%s: The number of particles in the selected kinematic region corresponds to %f percent of a full event\n ",
9e1a0ddb	270	ClassName(),100.*fParentWeight);
5b0e4c0f	271
	272	// Issue warning message if etaMin or etaMax are outside the alowed range
	273	// of the parametrization
	274	if (etaMin < -8.001 \|\| etaMax > 8.001) {
	275	printf("\n \n WARNING FROM AliGenHIJINGPara !");
	276	printf("\n YOU ARE USING THE PARAMETERISATION OUTSIDE ");
	277	printf("\n THE ALLOWED PSEUDORAPIDITY RANGE (-8. - 8.)");
	278	printf("\n YOUR LIMITS: %f %f \n \n ", etaMin, etaMax);
	279	}
790bbabf	280	}
	281
	282	//_____________________________________________________________________________
	283	void AliGenHIJINGpara::Generate()
	284	{
	285	//
	286	// Generate one trigger
	287	//
	288
	289
	290	const Float_t kRaKpic=0.14;
	291	const Float_t kBorne=1/(1+kRaKpic);
	292	Float_t polar[3]= {0,0,0};
	293	//
	294	const Int_t kPions[3] = {kPi0, kPiPlus, kPiMinus};
	295	const Int_t kKaons[4] = {kK0Long, kK0Short, kKPlus, kKMinus};
	296	//
	297	Float_t origin[3];
	298	Float_t pt, pl, ptot;
	299	Float_t phi, theta;
	300	Float_t p[3];
	301	Int_t i, part, nt, j;
	302	//
	303	TF1 *ptf;
	304	TF1 *etaf;
	305	//
	306	Float_t random[6];
	307	//
	308	for (j=0;j<3;j++) origin[j]=fOrigin[j];
971816d4	309
	310	if(fVertexSmear == kPerEvent) {
	311	Float_t dv[3];
	312	dv[2] = 1.e10;
	313	while(TMath::Abs(dv[2]) > fCutVertexZ*fOsigma[2]) {
	314	Rndm(random,6);
	315	for (j=0; j < 3; j++) {
	316	dv[j] = fOsigma[j]TMath::Cos(2random[2j]TMath::Pi())*
	317	TMath::Sqrt(-2TMath::Log(random[2j+1]));
	318	}
790bbabf	319	}
971816d4	320	for (j=0; j < 3; j++) origin[j] += dv[j];
	321	} // if kPerEvent
	322	TArrayF eventVertex;
	323	eventVertex.Set(3);
	324	eventVertex[0] = origin[0];
	325	eventVertex[1] = origin[1];
	326	eventVertex[2] = origin[2];
	327
790bbabf	328	for(i=0;i<fNpart;i++) {
790bbabf	329	while(1) {
65fb704d	330	Rndm(random,3);
790bbabf	331	if(random[0]<kBorne) {
	332	part=kPions[Int_t (random[1]*3)];
	333	ptf=fPtpi;
	334	etaf=fETApic;
	335	} else {
	336	part=kKaons[Int_t (random[1]*4)];
	337	ptf=fPtka;
	338	etaf=fETAkac;
	339	}
	340	phi=fPhiMin+random[2]*(fPhiMax-fPhiMin);
	341	theta=2*TMath::ATan(TMath::Exp(-etaf->GetRandom()));
	342	if(theta<fThetaMin \|\| theta>fThetaMax) continue;
	343	pt=ptf->GetRandom();
	344	pl=pt/TMath::Tan(theta);
	345	ptot=TMath::Sqrt(ptpt+plpl);
	346	if(ptot<fPMin \|\| ptot>fPMax) continue;
	347	p[0]=pt*TMath::Cos(phi);
	348	p[1]=pt*TMath::Sin(phi);
	349	p[2]=pl;
aee8290b	350	if(fVertexSmear==kPerTrack) {
65fb704d	351	Rndm(random,6);
790bbabf	352	for (j=0;j<3;j++) {
	353	origin[j]=fOrigin[j]+fOsigma[j]TMath::Cos(2random[2j]TMath::Pi())*
	354	TMath::Sqrt(-2TMath::Log(random[2j+1]));
	355	}
	356	}
a99cf51f	357	SetTrack(fTrackIt,-1,part,p,origin,polar,0,kPPrimary,nt,fParentWeight);
790bbabf	358	break;
	359	}
	360	}
971816d4	361	// Header
	362	AliGenEventHeader* header = new AliGenEventHeader("HIJINGparam");
	363	// Event Vertex
	364	header->SetPrimaryVertex(eventVertex);
	365	gAlice->SetGenEventHeader(header);
790bbabf	366	}
	367
	368	AliGenHIJINGpara& AliGenHIJINGpara::operator=(const AliGenHIJINGpara& rhs)
	369	{
	370	// Assignment operator
	371	return *this;
	372	}
	373
	374