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1//*KEEP,CopyRight,T=C.
2/*************************************************************************
3 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
4 * All rights reserved. *
5 * *
6 * For the licensing terms see $ROOTSYS/LICENSE. *
7 * For the list of contributors see $ROOTSYS/README/CREDITS. *
8 *************************************************************************/
9//*KEND.
10
11//* +-------------------------------------------------------------+
12//* | |
13//* | |
14//* | DPMJET 3.0 |
15//* | |
16//* | |
17//* | S. Roesler+), R. Engel#), J. Ranft*) |
18//* | |
19//* | +) CERN, TIS-RP |
20//* | CH-1211 Geneva 23, Switzerland |
21//* | Email: Stefan.Roesler@cern.ch |
22//* | |
23//* | #) University of Delaware, BRI |
24//* | Newark, DE 19716, USA |
25//* | |
26//* | *) University of Siegen, Dept. of Physics |
27//* | D-57068 Siegen, Germany |
28//* | |
29//* | |
30//* | http://home.cern.ch/sroesler/dpmjet3.html |
31//* | |
32//* | |
33//* | Monte Carlo models used for event generation: |
34//* | PHOJET 1.12, JETSET 7.4 and LEPTO 6.5.1 |
35//* | |
36//* +-------------------------------------------------------------+
37
38//*KEEP,TDPMjet.
39#include "TDPMjet.h"
40//*KEEP,DPMCOMMON.
41#include "DPMcommon.h"
42//*KEEP,TParticle,T=C++
43#include "TParticle.h"
44#include "TClonesArray.h"
45//*KEND.
46
47//*KEEP,TROOT.
48#include "TROOT.h"
49//*KEND.
50
51#ifndef WIN32
52# define dt_dtuini dt_dtuini_
53# define dt_getemu de_getemu_
54# define dt_kkinc dt_kkinc_
55# define pho_phist pho_phist_
56# define dt_dtuout dt_dtuout_
57# define dt_rndm dt_rndm_
58# define dt_rndmst dt_rndmst_
59# define dt_rndmin dt_rndmin_
60# define dt_rndmou dt_rndmou_
61# define dpmjet_openinp dpmjet_openinp_
62# define dt_evtout dt_evtout_
63# define type_of_call
64#else
65# define dt_dtuini DT_DTUINI
66# define dt_getemu DT_GETEMU
67# define dt_kkinc DT_KKINC
68# define pho_phist PHO_PHIST
69# define dt_dtuout DT_DTUOUT
70# define dt_rndm DT_RNDM
71# define dt_rndmst DT_RNDMST
72# define dt_rndmin DT_RNDMIN
73# define dt_rndmou DT_RNDMOU
74# define dt_evtout DT_EVTOUT_
75# define dpmjet_openinp DPMJET_OPENINP
76# define type_of_call _stdcall
77#endif
78
79
80#ifndef WIN32
81extern "C" void type_of_call dt_dtuini(Int_t & , Double_t &, Int_t & , Int_t &,
82 Int_t &, Int_t &, Int_t &, Int_t &);
83extern "C" double type_of_call dt_getemu(Int_t &, Int_t &, Int_t &, Int_t &);
84extern "C" void type_of_call dt_kkinc(Int_t &, Int_t &, Int_t &, Int_t &,
85 Int_t &, Double_t &, Int_t &, Int_t &);
86extern "C" void type_of_call pho_phist(Int_t &, Double_t &);
87extern "C" void type_of_call dt_dtuout();
88extern "C" int type_of_call dt_evtout(const Int_t &);
89extern "C" void type_of_call dt_rndm(Int_t &);
90extern "C" void type_of_call dt_rndmst(Int_t &, Int_t &, Int_t &, Int_t &);
91extern "C" void type_of_call dt_rndmin(Int_t &, Int_t &, Int_t &, Int_t &, Int_t &, Int_t &);
92extern "C" void type_of_call dt_rndmou(Int_t &, Int_t &, Int_t &, Int_t &, Int_t &, Int_t &);
93extern "C" void type_of_call dpmjet_openinp();
94
95#else
96
97#endif
98
99ClassImp(TDPMjet)
100
101
102//______________________________________________________________________________
103 TDPMjet::TDPMjet() :
104 TGenerator("dpmjet","dpmjet"),
105 fNEvent(0),
106 fIp(0),
107 fIpz(0),
108 fIt(0),
109 fItz(0),
110 fEpn(0.),
111 fPpn(0.),
112 fCMEn(0.),
113 fIdp(0),
114 fBmin(0.),
115 fBmax(0.),
116 fFCentr(0),
117 fPi0Decay(0),
118 fDecayAll(0),
119 fProcess(kDpmMb)
120{
121// Default Constructor
122}
123
124//______________________________________________________________________________
125TDPMjet::TDPMjet(DpmProcess_t iproc, Int_t Ip=208, Int_t Ipz=82, Int_t It=208, Int_t Itz=82,
126 Double_t Epn=2700., Double_t CMEn=5400.)
127 : TGenerator("dpmjet","dpmjet"),
128 fNEvent(0),
129 fIp(Ip),
130 fIpz(Ipz),
131 fIt(It),
132 fItz(Itz),
133 fEpn(Epn),
134 fPpn(0.),
135 fCMEn(CMEn),
136 fIdp(0),
137 fBmin(0.),
138 fBmax(0.),
139 fFCentr(0),
140 fPi0Decay(0),
141 fDecayAll(0),
142 fProcess(iproc)
143{
144 printf("TDPMJet Constructor %d %d %d %d \n", Ip, Ipz, It, Itz);
145}
146
147
148//______________________________________________________________________________
149Int_t TDPMjet::ImportParticles(TClonesArray *particles, Option_t *option)
150{
151//
152// Default primary creation method. It reads the /HEPEVT/ common block which
153// has been filled by the GenerateEvent method. If the event generator does
154// not use the HEPEVT common block, This routine has to be overloaded by
155// the subclasses.
156// The function loops on the generated particles and store them in
157// the TClonesArray pointed by the argument particles.
158// The default action is to store only the stable particles
159// This can be demanded explicitly by setting the option = "Final"
160// If the option = "All", all the particles are stored.
161//
162 if(particles==0) return 0;
163 TClonesArray &Particles = *particles;
164 Particles.Clear();
165 Int_t numpart = 0; // Total number of produced particles
166 Int_t numStabpart = 0; // Total number of produced stable particles
167 Double_t entot = 0; // Total energy in final state (from stable particles)
168
169 numpart = DTEVT1.nhkk;
170 for(Int_t i=0; i<numpart; i++){
171 if(DTEVT1.isthkk[i]==1 || DTEVT1.isthkk[i]==-1 || DTEVT1.isthkk[i]==1001){
172 numStabpart++;
173 entot += DTEVT1.phkk[i][3]; // PHKK[i][3] <-> PHKK(4,i)
174 }
175 }
176 Int_t nump = 0;
177
178 if(!strcmp(option,"") || !strcmp(option,"Final")){
179 for (Int_t i=0; i < numpart; i++) {
180
181 if (DTEVT1.isthkk[i] == 1) {
182 //
183 // Use the common block values for the TParticle constructor
184 //
185 new(Particles[nump]) TParticle(
186 DTEVT1.idhkk[i],
187 DTEVT1.isthkk[i],
188 -1,
189 -1,
190 -1,
191 -1,
192 DTEVT1.phkk[i][0],
193 DTEVT1.phkk[i][1],
194 DTEVT1.phkk[i][2],
195 DTEVT1.phkk[i][3],
196
197 DTEVT1.vhkk[i][0],
198 DTEVT1.vhkk[i][1],
199 DTEVT1.vhkk[i][2],
200 DTEVT1.vhkk[i][3]);
201 nump++;
202 }
203 }
204 }
205 else if(!strcmp(option,"All")){
206 nump = numpart;
207 for (Int_t i=0; i <= numpart; i++){
208
209 // DTEVT1.JMOHKK[i][0] pointer to the entry of the 1st mother of entry i
210 Int_t iParent = DTEVT1.jmohkk[i][0] - 1;
211
212 if(iParent >= 0){
213 TParticle *mother = (TParticle*) (Particles.UncheckedAt(iParent));
214 mother->SetLastDaughter(i);
215 if(mother->GetFirstDaughter() == -1) mother->SetFirstDaughter(i);
216 }
217 // --- PDGcode for residual nuclei (idhkk=80000)
218 // --- 10000*Z + 10*A
219 // --- DPMJET -> idres = mass #, idxres = charge
220 if(DTEVT1.idhkk[i] == 80000)
221 DTEVT1.idhkk[i] = 10000*DTEVT2.idxres[i]+10*DTEVT2.idres[i];
222/*
223 if(DTEVT2.idxres[i] != 0)
224 printf("\n pc#%d -> A = %d, Z = %d -> PDGcode = %d\n",
225 i,DTEVT2.idres[i],DTEVT2.idxres[i],DTEVT1.idhkk[i]);
226*/
227/*
228 printf("%5d %5d %5d %5d %13.3f %13.3f %13.3f %13.3f \n", i,
229 DTEVT1.idhkk[i],
230 DTEVT1.isthkk[i],
231 iParent,
232 DTEVT1.phkk[i][0],
233 DTEVT1.phkk[i][1],
234 DTEVT1.phkk[i][2],
235 DTEVT1.phkk[i][3]
236 );
237*/
238 new(Particles[i]) TParticle(
239 DTEVT1.idhkk[i],
240 DTEVT1.isthkk[i],
241 iParent,
242 -1,
243 -1,
244 -1,
245
246 DTEVT1.phkk[i][0],
247 DTEVT1.phkk[i][1],
248 DTEVT1.phkk[i][2],
249 DTEVT1.phkk[i][3],
250
251 DTEVT1.vhkk[i][0],
252 DTEVT1.vhkk[i][1],
253 DTEVT1.vhkk[i][2],
254 DTEVT1.vhkk[i][3]);
255 } // Particle loop
256 }
257 return nump;
258
259}
260
261
262//====================== access to dpmjet subroutines =========================
263//______________________________________________________________________________
264void TDPMjet::Initialize()
265{
266//
267// Write standard DPMJET input cards
268//
269 FILE* out = fopen("dpmjet.inp","w");
270// Projectile and Target definition
271 if (fIp == 1 && fIpz ==1) {
272 fprintf(out, "PROJPAR PROTON\n");
273 } else if (fIp == 1 && fIpz == -1) {
274 fprintf(out, "PROJPAR APROTON\n");
275 } else {
276 fprintf(out, "PROJPAR %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n", (Float_t) fIp, (Float_t) fIpz, 0., 0., 0., 0.);
277 }
278
279 if (fIt == 1 && fItz ==1) {
280 fprintf(out, "TARPAR PROTON\n");
281 } else if (fIt == 1 && fItz == -1) {
282 fprintf(out, "TARPAR APROTON\n");
283 } else {
284 fprintf(out, "TARPAR %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n", (Float_t) fIt, (Float_t) fItz, 0., 0., 0., 0.);
285 }
286
287// Beam energy and crossing-angle
288 fprintf(out, "BEAM %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",fEpn, fEpn, 0., 0., 0., 0.);
289// Centrality
290 if (fIp > 1. && fIt > 1)
291 fprintf(out, "CENTRAL %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n",-1., fBmin, fBmax, 0., 0., 0.);
292// Particle decays
293 if (fPi0Decay)
294 fprintf(out, "PARDECAY %10.1f%10.1f%10.1f%10.1f%10.1f%10.1f\n", 2., 0., 0., 0., 0., 0.);
295
296
297//
298// PHOJET specific
299 fprintf(out, "PHOINPUT\n");
300 fprintf(out, "DEBUG 0 0 0 \n");
301
302 if (fProcess == kDpmMb) {
303 fprintf(out, "PROCESS 1 0 1 1 1 1 1 1\n");
304 } else if (fProcess == kDpmMbNonDiffr) {
305 fprintf(out, "PROCESS 1 0 1 0 0 0 0 1\n");
306 } else if (fProcess == kDpmDiffr) {
307 fprintf(out, "PROCESS 0 0 0 1 1 1 1 0\n");
308 }else if (fProcess == kDpmSingleDiffr) {
309 fprintf(out, "PROCESS 0 0 0 0 1 1 0 0\n");
310 }else if (fProcess == kDpmDoubleDiffr) {
311 fprintf(out, "PROCESS 0 0 0 0 0 0 1 0\n");
312 } else if (fProcess == kDpmCentralDiffr){
313 fprintf(out, "PROCESS 0 0 0 1 0 0 0 0\n");
314 }
315
316 Int_t iPDG[18] =
317 {
318// K0s pi0 lam sig+ sig- tet0
319 310, 111, 3122, 3222, 3112, 3322,
320// tet- om- D+ D0 Ds+
321 3312, 3334, 411, 421, 431,
322// etac lamc+ sigc++ sigc+ sigc0 Ksic+
323 441, 4122, 4222, 4212, 4112, 4232,
324// Ksic0 sig0
325 4132
326 };
327
328
329 Int_t iON = (fDecayAll) ? 1:0;
330 for (Int_t i = 0; i < 8; i++) {
331 fprintf(out, "LUND-DECAY%5d %5d\n", iPDG[i], iON);
332 }
333
334 fprintf(out, "LUND-MSTJ %5d %5d\n", 22, 1);
335
336 fprintf(out, "ENDINPUT\n");
337//
338// START card
339 fprintf(out, "START 1.0 0.0\n");
340 fprintf(out, "STOP\n");
341 fclose(out);
342 dpmjet_openinp();
343
344//
345// Call DPMJET initialisation
346 Int_t iemu = 0; // No emulsion (default)
347 Dt_Dtuini(1, fEpn, fIp, fIpz, fIt, fItz, fIdp, iemu);
348
349}
350
351
352//______________________________________________________________________________
353void TDPMjet::GenerateEvent()
354{
355 // Generates one event;
356 fNEvent++;
357 DTEVNO.nevent=fNEvent;
358 Int_t kkmat=-1;
359 Float_t Elab = fEpn;
360 Int_t irej=0;
361 Dt_Kkinc(fIp, fIpz, fIt, fItz, fIdp, Elab, kkmat, irej);
362}
363//______________________________________________________________________________
364void TDPMjet::Dt_Dtuini(int nevts, double epn, int npmass, int npchar,
365 int ntmass, int ntchar, int idp, int iemu)
366{
367 // Call dmpjet routine DT_DTUINI passing the parameters
368 // in a way accepted by Fortran routines
369
370
371 printf("\n-------------------------------------------\n");
372 printf("\n Dt_Dtuini called with:\n\n");
373 printf(" Projectile -> A = %d, Z = %d \n",npmass, npchar);
374 printf(" Target -> A = %d, Z = %d \n",ntmass, ntchar);
375 printf(" Proj. LAB E -> E = %f GeV \n",epn);
376 printf(" nevts = %d, idp = %d, iemu = %d \n",nevts,idp,iemu);
377 printf("\n-------------------------------------------\n");
378
379 dt_dtuini(nevts, epn, npmass, npchar, ntmass, ntchar, idp, iemu);
380
381}
382
383//______________________________________________________________________________
384void TDPMjet::Dt_Kkinc(int npmass, int npchar, int ntmass, int ntchar,
385 int idp, double elab, int kkmat, int irej)
386{
387 // Call dmpjet routine DT_KKINC passing the parameters
388 // in a way accepted by Fortran routines
389 dt_kkinc(npmass, npchar, ntmass, ntchar, idp, elab, kkmat, irej);
390}
391
392//______________________________________________________________________________
393void TDPMjet::Pho_Phist(int imode, double weight)
394{
395 // Call dmpjet routine PHO_PHIST passing the parameters
396 // in a way accepted by Fortran routines
397
398 pho_phist(imode,weight);
399
400}
401
402//______________________________________________________________________________
403void TDPMjet::Dt_Dtuout()
404{
405 // Call dmpjet routine DT_DTUOT passing the parameters
406 // in a way accepted by Fortran routines
407
408 dt_dtuout();
409
410}
411
412//______________________________________________________________________________
413Int_t TDPMjet::GetEvNum() const
414{
415 return DTEVT1.nevhkk;
416}
417//______________________________________________________________________________
418Int_t TDPMjet::GetEntriesNum() const
419{
420 return DTEVT1.nhkk;
421}
422//______________________________________________________________________________
423Int_t TDPMjet::GetNumStablePc() const
424{
425 Int_t NumStablePc = 0;
426 for(Int_t i=0; i<DTEVT1.nhkk; i++){
427 if(DTEVT1.isthkk[i] == 1) NumStablePc++;
428 }
429 return NumStablePc;
430}
431
432//______________________________________________________________________________
433Float_t TDPMjet::GetTotEnergy() const
434{
435 Float_t TotEnergy = 0.;
436 for(Int_t i=0; i<DTEVT1.nhkk; i++){
437 if(DTEVT1.isthkk[i] == 1)
438 TotEnergy += DTEVT1.phkk[i][3]; // PHKK[i][3] <-> PHKK(4,i)
439 }
440 return TotEnergy;
441}
442
443//______________________________________________________________________________
444Int_t TDPMjet::GetStatusCode(Int_t evnum) const
445{
446 return DTEVT1.isthkk[evnum];
447}
448//______________________________________________________________________________
449Int_t TDPMjet::GetPDGCode(Int_t evnum) const
450{
451 return DTEVT1.idhkk[evnum];
452}
453//______________________________________________________________________________
454Double_t TDPMjet::Getpx(Int_t evnum) const
455{
456 return DTEVT1.phkk[evnum][0];
457}
458//______________________________________________________________________________
459Double_t TDPMjet::Getpy(Int_t evnum) const
460{
461 return DTEVT1.phkk[evnum][1];
462}
463//______________________________________________________________________________
464Double_t TDPMjet::Getpz(Int_t evnum) const
465{
466 return DTEVT1.phkk[evnum][2];
467}
468//______________________________________________________________________________
469Double_t TDPMjet::GetEnergy(Int_t evnum) const
470{
471 return DTEVT1.phkk[evnum][3];
472}
473//______________________________________________________________________________
474Double_t TDPMjet::GetMass(Int_t evnum) const
475{
476 return DTEVT1.phkk[evnum][4];
477}
478//______________________________________________________________________________
479Int_t TDPMjet::GetFragmentA(Int_t evnum) const
480{
481 return DTEVT2.idres[evnum];
482}
483//______________________________________________________________________________
484Int_t TDPMjet::GetFragmentZ(Int_t evnum) const
485{
486 return DTEVT2.idxres[evnum];
487}
488//______________________________________________________________________________
489Double_t TDPMjet::GetXSFrac() const
490{
491 return DTIMPA.xsfrac;
492}
493//______________________________________________________________________________
494Double_t TDPMjet::GetBImpac() const
495{
496 return DTGLCP.bimpac;
497}
498//______________________________________________________________________________
499Double_t TDPMjet::GetProjRadius() const
500{
501 return DTGLCP.rproj;
502}
503//______________________________________________________________________________
504Double_t TDPMjet::GetTargRadius() const
505{
506 return DTGLCP.rtarg;
507}
508//______________________________________________________________________________
509Int_t TDPMjet::GetProjWounded() const
510{
511 return DTGLCP.nwasam;
512}
513//______________________________________________________________________________
514Int_t TDPMjet::GetTargWounded() const
515{
516 return DTGLCP.nwbsam;
517}
518
519//______________________________________________________________________________
520Int_t TDPMjet::GetProjParticipants() const
521{
522 return DTGLCP.nwtaac;
523}
524//______________________________________________________________________________
525Int_t TDPMjet::GetTargParticipants() const
526{
527 return DTGLCP.nwtbac;
528}
529//______________________________________________________________________________
530Int_t TDPMjet::GetProcessCode() const
531{
532 return POPRCS.iproce;
533}
534//______________________________________________________________________________
535void TDPMjet::Dt_Rndm(int idummy)
536{
537 dt_rndm(idummy);
538}
539
540//______________________________________________________________________________
541void TDPMjet::Dt_Rndmst(int na1, int na2, int na3, int nb1)
542{
543 dt_rndmst(na1, na2, na3, nb1);
544}
545
546//______________________________________________________________________________
547void TDPMjet::Dt_Rndmin(int u, int c, int cd, int cm, int i, int j)
548{
549 dt_rndmin(u, c, cd, cm, i, j);
550}
551
552//______________________________________________________________________________
553void TDPMjet::Dt_Rndmou(int u, int c, int cd, int cm, int i, int j)
554{
555 dt_rndmou(u, c, cd, cm, i, j);
556}
557
558
559Int_t TDPMjet::NHEP() const {return POEVT1.nhep;}
560Int_t TDPMjet::ISTHEP(Int_t i) const {return POEVT1.isthep[i];}
561Int_t TDPMjet::IDHEP(Int_t i) const {return POEVT1.idhep[i];}
562Double_t TDPMjet::PHEP(Int_t i, Int_t j) const {return POEVT1.phep[i][j];}
563