# define dt_rndmin dt_rndmin_
# define dt_rndmou dt_rndmou_
# define dpmjet_openinp dpmjet_openinp_
+# define dt_evtout dt_evtout_
# define type_of_call
#else
# define dt_dtuini DT_DTUINI
# define dt_rndmst DT_RNDMST
# define dt_rndmin DT_RNDMIN
# define dt_rndmou DT_RNDMOU
+# define dt_evtout DT_EVTOUT_
# define dpmjet_openinp DPMJET_OPENINP
# define type_of_call _stdcall
#endif
+
#ifndef WIN32
extern "C" void type_of_call dt_dtuini(Int_t & , Double_t &, Int_t & , Int_t &,
Int_t &, Int_t &, Int_t &, Int_t &);
Int_t &, Double_t &, Int_t &, Int_t &);
extern "C" void type_of_call pho_phist(Int_t &, Double_t &);
extern "C" void type_of_call dt_dtuout();
+extern "C" int type_of_call dt_evtout(const Int_t &);
extern "C" void type_of_call dt_rndm(Int_t &);
extern "C" void type_of_call dt_rndmst(Int_t &, Int_t &, Int_t &, Int_t &);
extern "C" void type_of_call dt_rndmin(Int_t &, Int_t &, Int_t &, Int_t &, Int_t &, Int_t &);
fFCentr(0),
fPi0Decay(0),
fDecayAll(0),
- fProcess(kDpmMb)
+ fProcess(kDpmMb),
+ fFragmentation(kFALSE)
{
// Default Constructor
}
fFCentr(0),
fPi0Decay(0),
fDecayAll(0),
- fProcess(iproc)
+ fProcess(iproc),
+ fFragmentation(kFALSE)
{
printf("TDPMJet Constructor %d %d %d %d \n", Ip, Ipz, It, Itz);
}
entot += DTEVT1.phkk[i][3]; // PHKK[i][3] <-> PHKK(4,i)
}
}
- //printf("\n TDPMjet: DPMJET stack contains %d particles", numpart);
- // printf("\n TDPMjet: Final not decayed particles: %d", numStabpart);
- //printf("\n TDPMjet: Total energy: %f GeV \n", entot);
Int_t nump = 0;
if(!strcmp(option,"") || !strcmp(option,"Final")){
printf("\n pc#%d -> A = %d, Z = %d -> PDGcode = %d\n",
i,DTEVT2.idres[i],DTEVT2.idxres[i],DTEVT1.idhkk[i]);
*/
+/*
+ printf("%5d %5d %5d %5d %13.3f %13.3f %13.3f %13.3f \n", i,
+ DTEVT1.idhkk[i],
+ DTEVT1.isthkk[i],
+ iParent,
+ DTEVT1.phkk[i][0],
+ DTEVT1.phkk[i][1],
+ DTEVT1.phkk[i][2],
+ DTEVT1.phkk[i][3]
+ );
+*/
new(Particles[i]) TParticle(
DTEVT1.idhkk[i],
DTEVT1.isthkk[i],
} // Particle loop
}
return nump;
+
}
//
// Write standard DPMJET input cards
//
+ if(fFragmentation) printf("\tTDPMJet fragmentation/evaporation applied\n");
+
FILE* out = fopen("dpmjet.inp","w");
// Projectile and Target definition
if (fIp == 1 && fIpz ==1) {
}
// Beam energy and crossing-angle
- fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",fEpn, fEpn, 0., 0., 0., 0.);
+ fprintf(out, "CMENERGY %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",fCMEn, 0., 0., 0., 0., 0.);
+ if(fIt == 1 && fIp ==1){
+ fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",fEpn, fEpn, 0., 0., 0., 0.); //p-p
+ }
+ else if(fIp > 1 || fIt > 1){
+ if(fIp>1 && fIt>1) fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",fEpn, fEpn, 0., 0., 0., 0.);//A-A
+ else if(fIp==1 && fIt>1){ // proton towards A side (directed z>0)
+ fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n", fEpn,fEpn*fItz/fIt, 0., 0., 0., 0.);//pA
+ printf("\n TDPMjet::Initialize() -> p-A: projectile (p) energy = %10.1f, CMS energy = %10.1f\n\n",fEpn,fCMEn);
+ }
+ else if(fIt==1 && fIp>1){ // proton towards C side (directed z<0)
+ fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n", fEpn, fEpn*fIp/fIpz, 0., 0., 0., 0.);//A-p
+ printf("\n TDPMjet::Initialize() -> A-p: projectile (A) energy = %10.1f, CMS energy = %10.1f\n\n",fEpn,fCMEn);
+ }
+ }
// Centrality
- if (fIp > 1. && fIt > 1)
+ if((fIp > 1 || fIt > 1) && fFragmentation)
+ fprintf(out, "CENTRAL %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",-2., fBmin, fBmax, 0., 0., 0.);
+ else if((fIp > 1 || fIt > 1) && !fFragmentation)
fprintf(out, "CENTRAL %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",-1., fBmin, fBmax, 0., 0., 0.);
// Particle decays
if (fPi0Decay)
if (fProcess == kDpmMb) {
fprintf(out, "PROCESS 1 0 1 1 1 1 1 1\n");
} else if (fProcess == kDpmMbNonDiffr) {
- fprintf(out, "PROCESS 1 0 1 1 0 0 0 1\n");
+ fprintf(out, "PROCESS 1 0 1 0 0 0 0 1\n");
} else if (fProcess == kDpmDiffr) {
- fprintf(out, "PROCESS 0 0 0 0 1 1 1 0\n");
+ fprintf(out, "PROCESS 0 0 0 1 1 1 1 0\n");
}else if (fProcess == kDpmSingleDiffr) {
fprintf(out, "PROCESS 0 0 0 0 1 1 0 0\n");
}else if (fProcess == kDpmDoubleDiffr) {
fprintf(out, "PROCESS 0 0 0 0 0 0 1 0\n");
+ } else if (fProcess == kDpmCentralDiffr){
+ fprintf(out, "PROCESS 0 0 0 1 0 0 0 0\n");
}
- Int_t iPDG[19] =
+ Int_t iPDG[18] =
{
// K0s pi0 lam sig+ sig- tet0
310, 111, 3122, 3222, 3112, 3322,
// etac lamc+ sigc++ sigc+ sigc0 Ksic+
441, 4122, 4222, 4212, 4112, 4232,
// Ksic0 sig0
- 4132, 3212
+ 4132
};
Int_t iON = (fDecayAll) ? 1:0;
- for (Int_t i = 0; i < 19; i++) {
+ for (Int_t i = 0; i < 8; i++) {
fprintf(out, "LUND-DECAY%5d %5d\n", iPDG[i], iON);
}
Float_t Elab = fEpn;
Int_t irej=0;
Dt_Kkinc(fIp, fIpz, fIt, fItz, fIdp, Elab, kkmat, irej);
- if(irej!=0) return;
}
//______________________________________________________________________________
void TDPMjet::Dt_Dtuini(int nevts, double epn, int npmass, int npchar,
{
return DTGLCP.nwbsam;
}
+
//______________________________________________________________________________
-Int_t TDPMjet::GetProjSpectators() const
+Int_t TDPMjet::GetProjParticipants() const
{
return DTGLCP.nwtaac;
}
//______________________________________________________________________________
-Int_t TDPMjet::GetTargSpectators() const
+Int_t TDPMjet::GetTargParticipants() const
{
return DTGLCP.nwtbac;
}
dt_rndmou(u, c, cd, cm, i, j);
}
+
+Int_t TDPMjet::NHEP() const {return POEVT1.nhep;}
+Int_t TDPMjet::ISTHEP(Int_t i) const {return POEVT1.isthep[i];}
+Int_t TDPMjet::IDHEP(Int_t i) const {return POEVT1.idhep[i];}
+Double_t TDPMjet::PHEP(Int_t i, Int_t j) const {return POEVT1.phep[i][j];}
+