Updates in LC->Kos+proton code (Annalisa)
[u/mrichter/AliRoot.git] / THijing / THijing.cxx
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3010c308 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/* $Id$ */
17
7dffa423 18////////////////////////////////////////////////////////////////////////////////
19// //
20// THijing //
21// //
22// THijing is an interface class to F77 version of Hijing 1.36 //
23// event generator, written by X.N. Wang and M. Gyulassy. //
24// For details see http://nta2.lbl.gov/~xnwang //
25// //
26// ************************************************** //
27// * | _______ / ------/ * //
28// * ----- ------ |_____| /_/ / * //
29// * || / |_____| / / * //
30// * /| /_/ /_______ /_ / _ * //
31// * / | / / / / / | ------- * //
32// * | / / / / | / | * //
33// * | / / / / _| / ------- * //
34// * * //
35// ************************************************** //
36// HIJING //
37// Heavy Ion Jet INteraction Generator //
38// by //
39// X. N. Wang and M. Gyulassy //
40// Lawrence Berkeley Laboratory //
41//****************************************************************************//
42
c627bfa0 43
3010c308 44#include <TClonesArray.h>
45#include <TObjArray.h>
46#include <TParticle.h>
47#include <TROOT.h>
48
7dffa423 49#include "Hcommon.h"
3010c308 50#include "THijing.h"
7dffa423 51
52#ifndef WIN32
53# define hijset hijset_
54# define hijing hijing_
ce5a1dbd 55# define profile profile_
10074e0d 56# define rluget_hijing rluget_hijing_
57# define rluset_hijing rluset_hijing_
0f07b55b 58# define lulist_hijing lulist_hijing_
cc197d27 59# define luupda_hijing luupda_hijing_
60# define opendecaytable_hijing opendecaytable_hijing_
61# define closedecaytable_hijing closedecaytable_hijing_
7dffa423 62# define type_of_call
63#else
64# define hijset HIJSET
65# define hijing HIJING
ce5a1dbd 66# define profile PROFILE
6b759e67 67# define rluget_hijing RLUGET_HIJING
68# define rluset_hijing RLUSET_HIJING
0f07b55b 69# define lulist_hijing LULIST_HIJING
cc197d27 70# define luupda_hijing LUUPDA_HIJING
71# define opendecaytable_hijing OPENDECAYTABLE_HIJING
72# define closedecaytable_hijing CLOSEDECAYTABLE_HIJING
7dffa423 73# define type_of_call _stdcall
74#endif
75
76#ifndef WIN32
7dffa423 77extern "C" void type_of_call hijset(Float_t & , const char *,
78 const char *, const char *,
79 Int_t & , Int_t &, Int_t &,
80 Int_t &, const int,
81 const int, const int);
ce5a1dbd 82extern "C" float type_of_call profile(Float_t &);
ce5a1dbd 83extern "C" void type_of_call hijing(const char *, Float_t &,
7dffa423 84 Float_t &, const int);
6b759e67 85extern "C" void type_of_call rluget_hijing(Int_t & lfn, Int_t & move);
86
87extern "C" void type_of_call rluset_hijing(Int_t & lfn, Int_t & move);
0f07b55b 88extern "C" void type_of_call lulist_hijing(Int_t &);
cc197d27 89extern "C" void type_of_call luupda_hijing(Int_t &, Int_t &);
90extern "C" void type_of_call
91 opendecaytable_hijing(Int_t&);
92extern "C" void type_of_call
93 closedecaytable_hijing(Int_t&);
6b759e67 94
7dffa423 95#else
7dffa423 96#endif
97
ce5a1dbd 98
99
7dffa423 100ClassImp(THijing)
101
9d89c88d 102
103THijing::THijing():
104 TGenerator("Hijing","Hijing"),
105 fEfrm(5500.),
106 fFrame("CMS"),
107 fProj("A"),
108 fTarg("A"),
109 fIap(208),
110 fIzp(82),
111 fIat(208),
112 fIzt(82),
113 fBmin(0.),
114 fBmax(5.)
7dffa423 115{
c627bfa0 116// Default constructor
7dffa423 117}
118
119//______________________________________________________________________________
120THijing::THijing(Float_t efrm, const char *frame="CMS",
9d89c88d 121 const char *proj="A", const char *targ="A",
122 Int_t iap=207, Int_t izp=82, Int_t iat=207, Int_t izt=82,
123 Float_t bmin=0, Float_t bmax=20):
124 TGenerator("Hijing","Hijing"),
125 fEfrm(efrm),
126 fFrame(frame),
127 fProj(proj),
128 fTarg(targ),
129 fIap(iap),
130 fIzp(izp),
131 fIat(iat),
132 fIzt(izt),
133 fBmin(bmin),
134 fBmax(bmax)
7dffa423 135{
c627bfa0 136// THijing constructor:
137// Note that there may be only one functional THijing object
7dffa423 138// at a time, so it's not use to create more than one instance of it.
cc197d27 139//
140// Read decaytable
141 Int_t lun = 15;
142 opendecaytable_hijing(lun);
143 Luupda(2,lun);
144 closedecaytable_hijing(lun);
145
7dffa423 146}
147
148//______________________________________________________________________________
149THijing::~THijing()
150{
c627bfa0 151// Destructor
7dffa423 152}
153
7dffa423 154
dd63ae11 155TObjArray* THijing::ImportParticles(Option_t *option)
156{
157//
158// Default primary creation method. It reads the /HEPEVT/ common block which
159// has been filled by the GenerateEvent method. If the event generator does
160// not use the HEPEVT common block, This routine has to be overloaded by
161// the subclasses.
162// The function loops on the generated particles and store them in
163// the TClonesArray pointed by the argument particles.
164// The default action is to store only the stable particles (ISTHEP = 1)
165// This can be demanded explicitly by setting the option = "Final"
166// If the option = "All", all the particles are stored.
167//
168 fParticles->Clear();
169 Int_t numpart = HIMAIN1.natt;
170 printf("\n THijing: HIJING stack contains %d particles.", numpart);
171 printf("\n THijing: Total energy: %f ", HIMAIN1.eatt);
172 printf("\n THijing: Number of hard scatterings: %d ", HIMAIN1.jatt);
173 Int_t nump = 0;
174 if (!strcmp(option,"") || !strcmp(option,"Final")) {
175 for (Int_t i = 0; i < numpart; i++) {
176
177 if (HIMAIN2.katt[3][i] == 1) {
178//
179// Use the common block values for the TParticle constructor
180//
181 nump++;
182 TParticle* p = new TParticle(
ebae626c 183 HIMAIN2.katt[0][i], HIMAIN2.katt[3][i] ,
dd63ae11 184 -1, -1, -1, -1,
185 HIMAIN2.patt[0][i], HIMAIN2.patt[1][i], HIMAIN2.patt[2][i], HIMAIN2.patt[3][i] ,
186 HIMAIN2.vatt[0][i], HIMAIN2.vatt[1][i], HIMAIN2.vatt[2][i], HIMAIN2.vatt[3][i]
187 );
ebae626c 188 p->SetUniqueID(HIMAIN2.katt[1][i]);
dd63ae11 189 fParticles->Add(p);
190 }
191 }
192 }
193 else if (!strcmp(option,"All")) {
194 nump = numpart;
195 for (Int_t i = 0; i < numpart; i++) {
196
197 Int_t iParent = HIMAIN2.katt[2][i]-1;
198
199 if (iParent >= 0) {
200 TParticle *mother = (TParticle*) (fParticles->UncheckedAt(iParent));
201 mother->SetLastDaughter(i);
202 if (mother->GetFirstDaughter()==-1)
203 mother->SetFirstDaughter(i);
204 }
205
206 TParticle* p = new TParticle(
ebae626c 207 HIMAIN2.katt[0][i], HIMAIN2.katt[3][i], iParent,
dd63ae11 208 -1, -1, -1,
209 HIMAIN2.patt[0][i], HIMAIN2.patt[1][i], HIMAIN2.patt[2][i], HIMAIN2.patt[3][i] ,
210 HIMAIN2.vatt[0][i], HIMAIN2.vatt[1][i], HIMAIN2.vatt[2][i], HIMAIN2.vatt[3][i]
211 );
ebae626c 212 p->SetUniqueID(HIMAIN2.katt[1][i]);
dd63ae11 213 fParticles->Add(p);
214 }
215 }
216 return fParticles;
217}
7dffa423 218
7dffa423 219Int_t THijing::ImportParticles(TClonesArray *particles, Option_t *option)
220{
221//
222// Default primary creation method. It reads the /HEPEVT/ common block which
223// has been filled by the GenerateEvent method. If the event generator does
224// not use the HEPEVT common block, This routine has to be overloaded by
225// the subclasses.
226// The function loops on the generated particles and store them in
227// the TClonesArray pointed by the argument particles.
228// The default action is to store only the stable particles (ISTHEP = 1)
229// This can be demanded explicitly by setting the option = "Final"
230// If the option = "All", all the particles are stored.
231//
232 if (particles == 0) return 0;
c627bfa0 233 TClonesArray &particlesR = *particles;
234 particlesR.Clear();
7dffa423 235 Int_t numpart = HIMAIN1.natt;
835a6822 236 printf("\n THijing: HIJING stack contains %d particles.", numpart);
237 printf("\n THijing: Total energy: %f ", HIMAIN1.eatt);
238 printf("\n THijing: Number of hard scatterings: %d ", HIMAIN1.jatt);
92903f9d 239 Int_t nump = 0;
7dffa423 240 if (!strcmp(option,"") || !strcmp(option,"Final")) {
41bb41a6 241 for (Int_t i = 0; i < numpart; i++) {
ce5a1dbd 242
243 if (HIMAIN2.katt[3][i] == 1) {
7dffa423 244//
245// Use the common block values for the TParticle constructor
246//
92903f9d 247 nump++;
c627bfa0 248 new(particlesR[i]) TParticle(
ce5a1dbd 249 HIMAIN2.katt[0][i] ,
ebae626c 250 HIMAIN2.katt[3][i] ,
92903f9d 251 -1 ,
ce5a1dbd 252 -1,
253 -1,
254 -1,
255
256 HIMAIN2.patt[0][i] ,
257 HIMAIN2.patt[1][i] ,
258 HIMAIN2.patt[2][i] ,
259 HIMAIN2.patt[3][i] ,
af615bc3 260
261 HIMAIN2.vatt[0][i] ,
262 HIMAIN2.vatt[1][i] ,
263 HIMAIN2.vatt[2][i] ,
264 HIMAIN2.vatt[3][i]
265 );
ebae626c 266 particlesR[i]->SetUniqueID(HIMAIN2.katt[1][i]);
ce5a1dbd 267 }
268 }
7dffa423 269 }
270 else if (!strcmp(option,"All")) {
c627bfa0 271 nump = numpart;
41bb41a6 272 for (Int_t i = 0; i < numpart; i++) {
ce5a1dbd 273
274 Int_t iParent = HIMAIN2.katt[2][i]-1;
275
276 if (iParent >= 0) {
c627bfa0 277 TParticle *mother = (TParticle*) (particlesR.UncheckedAt(iParent));
ce5a1dbd 278 mother->SetLastDaughter(i);
279 if (mother->GetFirstDaughter()==-1)
280 mother->SetFirstDaughter(i);
281 }
282
c627bfa0 283 new(particlesR[i]) TParticle(
ce5a1dbd 284 HIMAIN2.katt[0][i] ,
ebae626c 285 HIMAIN2.katt[3][i] ,
ce5a1dbd 286 iParent,
287 -1,
288 -1,
289 -1,
290
291 HIMAIN2.patt[0][i] ,
292 HIMAIN2.patt[1][i] ,
293 HIMAIN2.patt[2][i] ,
294 HIMAIN2.patt[3][i] ,
295
af615bc3 296 HIMAIN2.vatt[0][i] ,
297 HIMAIN2.vatt[1][i] ,
298 HIMAIN2.vatt[2][i] ,
299 HIMAIN2.vatt[3][i]
300 );
ebae626c 301 particlesR[i]->SetUniqueID(HIMAIN2.katt[1][i]);
ce5a1dbd 302 }
7dffa423 303 }
92903f9d 304 return nump;
7dffa423 305}
306
307//______________________________________________________________________________
308void THijing::SetEFRM(Float_t efrm)
309{
c627bfa0 310// Set the centre of mass (CMS) or lab-energy (LAB)
7dffa423 311 fEfrm=efrm;
312}
313//______________________________________________________________________________
314void THijing::SetFRAME(const char* frame)
315{
c627bfa0 316// Set the frame type ("CMS" or "LAB")
7dffa423 317 fFrame=frame;
318}
319//______________________________________________________________________________
320void THijing::SetPROJ(const char* proj)
321{
c627bfa0 322// Set the projectile type
7dffa423 323 fProj=proj;
324}
325//______________________________________________________________________________
326void THijing::SetTARG(const char* targ)
327{
c627bfa0 328// Set the target type
7dffa423 329 fTarg=targ;
330}
331//______________________________________________________________________________
332void THijing::SetIAP(Int_t iap)
333{
c627bfa0 334// Set the projectile atomic number
7dffa423 335 fIap=iap;
336}
337//______________________________________________________________________________
338void THijing::SetIZP(Int_t izp)
339{
c627bfa0 340// Set the projectile charge number
7dffa423 341 fIzp=izp;
342}
343//______________________________________________________________________________
344void THijing::SetIAT(Int_t iat)
345{
c627bfa0 346// Set the target atomic number
7dffa423 347 fIat=iat;
348}
349//______________________________________________________________________________
350void THijing::SetIZT(Int_t izt)
351{
c627bfa0 352// Set the target charge number
7dffa423 353 fIzt=izt;
354}
355//______________________________________________________________________________
356void THijing::SetBMIN(Float_t bmin)
357{
c627bfa0 358// Set the minimum impact parameter
7dffa423 359 fBmin=bmin;
360}
361//______________________________________________________________________________
362void THijing::SetBMAX(Float_t bmax)
363{
c627bfa0 364// Set the maximum impact parameter
7dffa423 365 fBmax=bmax;
366}
367//______________________________________________________________________________
368Float_t THijing::GetEFRM() const
369{
c627bfa0 370// Get the centre of mass (CMS) or lab-energy (LAB)
7dffa423 371 return fEfrm;
372}
373//______________________________________________________________________________
374const char* THijing::GetFRAME() const
375{
c627bfa0 376// Get the frame type ("CMS" or "LAB")
7dffa423 377 return fFrame.Data();
378}
379//______________________________________________________________________________
380const char* THijing::GetPROJ() const
381{
c627bfa0 382// Get the projectile type
7dffa423 383 return fProj;
384}
385//______________________________________________________________________________
386const char* THijing::GetTARG() const
387{
c627bfa0 388// Set the target type
7dffa423 389 return fTarg;
390}
391//______________________________________________________________________________
392Int_t THijing::GetIAP() const
393{
c627bfa0 394// Get the projectile atomic number
7dffa423 395 return fIap;
396}
397//______________________________________________________________________________
398Int_t THijing::GetIZP() const
399{
c627bfa0 400// Get the projectile charge number
7dffa423 401 return fIzp;
402}
403//______________________________________________________________________________
404Int_t THijing::GetIAT() const
405{
c627bfa0 406// Get the target atomic number
7dffa423 407 return fIat;
408}
409//______________________________________________________________________________
410Int_t THijing::GetIZT() const
411{
c627bfa0 412// Get the target charge number
7dffa423 413 return fIzt;
414}
415//______________________________________________________________________________
416Float_t THijing::GetBMIN() const
417{
c627bfa0 418// Get the minimum impact parameter
7dffa423 419 return fBmin;
420}
421//______________________________________________________________________________
422Float_t THijing::GetBMAX() const
423{
c627bfa0 424// Get the maximum impact parameter
7dffa423 425 return fBmax;
426}
427
428//====================== access to common HIPARNT ===============================
429
430//______________________________________________________________________________
431void THijing::SetHIPR1(Int_t key,Float_t value)
432{
c627bfa0 433// Set the values of array HIPR1 in common HIPARNT
7dffa423 434 if ( key<1 || key>100 ) {
435 printf ("ERROR in THijing:SetHIPR1(key,value): \n ");
436 printf (" key=%i is out of range [1..100]!\n",key);
437 return;
438 }
439
440 HIPARNT.hipr1[key-1]=value;
441
442}
443
444//______________________________________________________________________________
445Float_t THijing::GetHIPR1(Int_t key) const
446{
c627bfa0 447// Get the values of array HIPR1 in common HIPARNT
7dffa423 448 if ( key<1 || key>100 ) {
449 printf ("ERROR in THijing:GetHIPR1(key): \n ");
450 printf (" key=%i is out of range [1..100]!\n",key);
451 return 0;
452 }
453
454 return HIPARNT.hipr1[key-1];
455
456}
457
458//______________________________________________________________________________
459void THijing::SetIHPR2(Int_t key,Int_t value)
460{
c627bfa0 461// Set the values of array HIPR2 in common HIPARNT
7dffa423 462 if ( key<1 || key>50 ) {
463 printf ("ERROR in THijing:SetIHPR2(key,value): \n ");
464 printf (" key=%i is out of range [1..50]!\n",key);
465 return;
466 }
467
468 HIPARNT.ihpr2[key-1]=value;
469
470}
471
472//______________________________________________________________________________
473Int_t THijing::GetIHPR2(Int_t key) const
474{
c627bfa0 475// Get the values of array HIPR2 in common HIPARNT
7dffa423 476 if ( key<1 || key>50 ) {
477 printf ("ERROR in THijing:GetIHPR2(key): \n ");
478 printf (" key=%i is out of range [1..50]!\n",key);
479 return 0;
480 }
481
482 return HIPARNT.ihpr2[key-1];
483
484}
485
486
487//______________________________________________________________________________
488Float_t THijing::GetHINT1(Int_t key) const
489{
c627bfa0 490// Get the values of array HINT1 in common HIPARNT
7dffa423 491 if ( key<1 || key>100 ) {
492 printf ("ERROR in THijing:GetHINT1(key): \n ");
493 printf (" key=%i is out of range [1..100]!\n",key);
494 return 0;
495 }
496
497 return HIPARNT.hint1[key-1];
498
499}
500
501
502//______________________________________________________________________________
503Int_t THijing::GetIHNT2(Int_t key) const
504{
c627bfa0 505// Get the values of array HINT2 in common HIPARNT
7dffa423 506 if ( key<1 || key>50 ) {
507 printf ("ERROR in THijing:GetIHNT2(key): \n ");
508 printf (" key=%i is out of range [1..50]!\n",key);
509 return 0;
510 }
511
512 return HIPARNT.ihnt2[key-1];
513
514}
515
516
517//====================== access to common HIMAIN1 ===============================
518
519//______________________________________________________________________________
520Int_t THijing::GetNATT() const
521{
c627bfa0 522// Get the number of particles produces
7dffa423 523 return HIMAIN1.natt;
524
525}
526
369eeebb 527Int_t THijing::GetNPART() const
528{
529// Get true number of participants
530 return HIMAIN1.npart;
531
532}
533
7dffa423 534//______________________________________________________________________________
535Float_t THijing::GetEATT() const
536{
c627bfa0 537// Get total energy of particles
7dffa423 538
539 return HIMAIN1.eatt;
540
541}
542
543//______________________________________________________________________________
544Int_t THijing::GetJATT() const
545{
c627bfa0 546// Get number of hard scatterings
7dffa423 547
548 return HIMAIN1.jatt;
549
550}
551
552//______________________________________________________________________________
553Int_t THijing::GetNT() const
554{
c627bfa0 555// Get number of target participants
7dffa423 556
557 return HIMAIN1.nt;
558
559}
560
561//______________________________________________________________________________
562Int_t THijing::GetNP() const
563{
c627bfa0 564// Get number of projectile participants
7dffa423 565 return HIMAIN1.np;
566
567}
568
569
570//______________________________________________________________________________
571Int_t THijing::GetN0() const
572{
c627bfa0 573// Get number of N-N collisions
7dffa423 574 return HIMAIN1.n0;
575
576}
577//______________________________________________________________________________
578Int_t THijing::GetN01() const
579{
c627bfa0 580// Get number of N-wounded collisions
7dffa423 581
582 return HIMAIN1.n01;
583
584}
585
586//______________________________________________________________________________
587Int_t THijing::GetN10() const
588{
c627bfa0 589// Get number of wounded-N collisions
7dffa423 590
591 return HIMAIN1.n10;
592
593}
594
595//______________________________________________________________________________
596Int_t THijing::GetN11() const
597{
c627bfa0 598// Get number of wounded-wounded collisions
7dffa423 599
600 return HIMAIN1.n11;
601
602}
603
604//______________________________________________________________________________
605Float_t THijing::GetBB() const
606{
c627bfa0 607// Get impact parameter
7dffa423 608
609 return HIMAIN1.bb;
610
611}
612
613//====================== access to common HIMAIN2 ===============================
614
615//______________________________________________________________________________
616Int_t THijing::GetKATT(Int_t key1, Int_t key2) const
617{
c627bfa0 618// Get values of array KATT in common HIMAIN2
835a6822 619 if ( key1<1 || key1>200000 ) {
7dffa423 620 printf("ERROR in THijing::GetKATT(key1,key2):\n");
835a6822 621 printf(" key1=%i is out of range [1..200000]\n",key1);
7dffa423 622 return 0;
623 }
624
625 if ( key2<1 || key2>4 ) {
626 printf("ERROR in THijing::GetKATT(key1,key2):\n");
627 printf(" key2=%i is out of range [1..4]\n",key2);
628 return 0;
629 }
630
631 return HIMAIN2.katt[key2-1][key1-1];
632}
633
634//______________________________________________________________________________
635Float_t THijing::GetPATT(Int_t key1, Int_t key2) const
636{
c627bfa0 637// Get values of array PATT in common HIMAIN2
af615bc3 638 if ( key1<1 || key1>200000 ) {
7dffa423 639 printf("ERROR in THijing::GetPATT(key1,key2):\n");
640 printf(" key1=%i is out of range [1..130000]\n",key1);
641 return 0;
642 }
643
644 if ( key2<1 || key2>4 ) {
645 printf("ERROR in THijing::GetPATT(key1,key2):\n");
646 printf(" key2=%i is out of range [1..4]\n",key2);
647 return 0;
648 }
649
650 return HIMAIN2.patt[key2-1][key1-1];
651}
652
af615bc3 653Float_t THijing::GetVATT(Int_t key1, Int_t key2) const
654{
c627bfa0 655// Get values of array VATT in common HIMAIN2
af615bc3 656 if ( key1<1 || key1>200000 ) {
657 printf("ERROR in THijing::GetVATT(key1,key2):\n");
658 printf(" key1=%i is out of range [1..130000]\n",key1);
659 return 0;
660 }
661
662 if ( key2<1 || key2>4 ) {
663 printf("ERROR in THijing::GetVATT(key1,key2):\n");
664 printf(" key2=%i is out of range [1..4]\n",key2);
665 return 0;
666 }
667
668 return HIMAIN2.vatt[key2-1][key1-1];
669}
670
7dffa423 671//====================== access to common HIJJET1 ===============================
672
673//______________________________________________________________________________
674Int_t THijing::GetNPJ(Int_t key) const
675{
c627bfa0 676// Get values of array NPJ of common HIJJET1
7dffa423 677 if ( key<1 || key>300 ) {
678 printf("ERROR in THijing::GetNPJ(key):\n");
679 printf(" key=%i is out of range [1..300]\n",key);
680 return 0;
681 }
682 return HIJJET1.npj[key-1];
683}
684
685//______________________________________________________________________________
686Int_t THijing::GetKFPJ(Int_t key1, Int_t key2) const
687{
c627bfa0 688// Get values of array KFPJ in common HIJJET1
7dffa423 689 if ( key1<1 || key1>300 ) {
690 printf("ERROR in THijing::GetKFPJ(key1):\n");
691 printf(" key1=%i is out of range [1..300]\n",key1);
692 return 0;
693 }
694 if ( key2<1 || key2>500 ) {
695 printf("ERROR in THijing::GetKFPJ(key1,key2):\n");
696 printf(" key2=%i is out of range [1..500]\n",key2);
697 return 0;
698 }
699
700 return HIJJET1.kfpj[key2-1][key1-1];
701}
702
703//______________________________________________________________________________
704Float_t THijing::GetPJPX(Int_t key1, Int_t key2) const
705{
c627bfa0 706// Get values of array PJPX in common HIJJET1
7dffa423 707 if ( key1<1 || key1>300 ) {
708 printf("ERROR in THijing::GetPJPX(key1):\n");
709 printf(" key1=%i is out of range [1..300]\n",key1);
710 return 0;
711 }
712 if ( key2<1 || key2>500 ) {
713 printf("ERROR in THijing::GetPJPX(key1,key2):\n");
714 printf(" key2=%i is out of range [1..500]\n",key2);
715 return 0;
716 }
717
718 return HIJJET1.pjpx[key2-1][key1-1];
719}
720
721//______________________________________________________________________________
722Float_t THijing::GetPJPY(Int_t key1, Int_t key2) const
723{
c627bfa0 724// Get values of array PJPY in common HIJJET1
7dffa423 725 if ( key1<1 || key1>300 ) {
726 printf("ERROR in THijing::GetPJPY(key1):\n");
727 printf(" key1=%i is out of range [1..300]\n",key1);
728 return 0;
729 }
730 if ( key2<1 || key2>500 ) {
731 printf("ERROR in THijing::GetPJPY(key1,key2):\n");
732 printf(" key2=%i is out of range [1..500]\n",key2);
733 return 0;
734 }
735
736 return HIJJET1.pjpy[key2-1][key1-1];
737}
738
739//______________________________________________________________________________
740Float_t THijing::GetPJPZ(Int_t key1, Int_t key2) const
741{
c627bfa0 742// Get values of array PJPZ in common HIJJET1
7dffa423 743 if ( key1<1 || key1>300 ) {
744 printf("ERROR in THijing::GetPJPZ(key1):\n");
745 printf(" key1=%i is out of range [1..300]\n",key1);
746 return 0;
747 }
748 if ( key2<1 || key2>500 ) {
749 printf("ERROR in THijing::GetPJPZ(key1,key2):\n");
750 printf(" key2=%i is out of range [1..500]\n",key2);
751 return 0;
752 }
753
754 return HIJJET1.pjpz[key2-1][key1-1];
755}
756
757//______________________________________________________________________________
758Float_t THijing::GetPJPE(Int_t key1, Int_t key2) const
759{
c627bfa0 760// Get values of array PJPE in common HIJJET1
7dffa423 761 if ( key1<1 || key1>300 ) {
762 printf("ERROR in THijing::GetPJPE(key1):\n");
763 printf(" key1=%i is out of range [1..300]\n",key1);
764 return 0;
765 }
766 if ( key2<1 || key2>500 ) {
767 printf("ERROR in THijing::GetPJPE(key1,key2):\n");
768 printf(" key2=%i is out of range [1..500]\n",key2);
769 return 0;
770 }
771
772 return HIJJET1.pjpe[key2-1][key1-1];
773}
774
775//______________________________________________________________________________
776Float_t THijing::GetPJPM(Int_t key1, Int_t key2) const
777{
c627bfa0 778// Get values of array PJPM in common HIJJET1
7dffa423 779 if ( key1<1 || key1>300 ) {
780 printf("ERROR in THijing::GetPJPM(key1):\n");
781 printf(" key1=%i is out of range [1..300]\n",key1);
782 return 0;
783 }
784 if ( key2<1 || key2>500 ) {
785 printf("ERROR in THijing::GetPJPM(key1,key2):\n");
786 printf(" key2=%i is out of range [1..500]\n",key2);
787 return 0;
788 }
789
790 return HIJJET1.pjpm[key2-1][key1-1];
791}
792
793//______________________________________________________________________________
794Int_t THijing::GetNTJ(Int_t key) const
795{
c627bfa0 796// Get values of array NTJ in common HIJJET1
7dffa423 797 if ( key<1 || key>300 ) {
798 printf("ERROR in THijing::GetNTJ(key):\n");
799 printf(" key=%i is out of range [1..300]\n",key);
800 return 0;
801 }
802 return HIJJET1.ntj[key-1];
803}
804
805//______________________________________________________________________________
806Int_t THijing::GetKFTJ(Int_t key1, Int_t key2) const
807{
c627bfa0 808// Get values of array KFTJ in common HIJJET1
7dffa423 809 if ( key1<1 || key1>300 ) {
810 printf("ERROR in THijing::GetKFTJ(key1):\n");
811 printf(" key1=%i is out of range [1..300]\n",key1);
812 return 0;
813 }
814 if ( key2<1 || key2>500 ) {
815 printf("ERROR in THijing::GetKFTJ(key1,key2):\n");
816 printf(" key2=%i is out of range [1..500]\n",key2);
817 return 0;
818 }
819
820 return HIJJET1.kftj[key2-1][key1-1];
821}
822
823//______________________________________________________________________________
824Float_t THijing::GetPJTX(Int_t key1, Int_t key2) const
825{
c627bfa0 826// Get values of array PJTX in common HIJJET1
7dffa423 827 if ( key1<1 || key1>300 ) {
828 printf("ERROR in THijing::GetPJTX(key1):\n");
829 printf(" key1=%i is out of range [1..300]\n",key1);
830 return 0;
831 }
832 if ( key2<1 || key2>500 ) {
833 printf("ERROR in THijing::GetPJTX(key1,key2):\n");
834 printf(" key2=%i is out of range [1..500]\n",key2);
835 return 0;
836 }
837
838 return HIJJET1.pjtx[key2-1][key1-1];
839}
840
841//______________________________________________________________________________
842Float_t THijing::GetPJTY(Int_t key1, Int_t key2) const
843{
c627bfa0 844// Get values of array PJTY in common HIJJET1
7dffa423 845 if ( key1<1 || key1>300 ) {
846 printf("ERROR in THijing::GetPJTY(key1):\n");
847 printf(" key1=%i is out of range [1..300]\n",key1);
848 return 0;
849 }
850 if ( key2<1 || key2>500 ) {
851 printf("ERROR in THijing::GetPJTY(key1,key2):\n");
852 printf(" key2=%i is out of range [1..500]\n",key2);
853 return 0;
854 }
855
856 return HIJJET1.pjty[key2-1][key1-1];
857}
858
859//______________________________________________________________________________
860Float_t THijing::GetPJTZ(Int_t key1, Int_t key2) const
861{
c627bfa0 862// Get values of array PJTZ in common HIJJET1
7dffa423 863 if ( key1<1 || key1>300 ) {
864 printf("ERROR in THijing::GetPJTZ(key1):\n");
865 printf(" key1=%i is out of range [1..300]\n",key1);
866 return 0;
867 }
868 if ( key2<1 || key2>500 ) {
869 printf("ERROR in THijing::GetPJTZ(key1,key2):\n");
870 printf(" key2=%i is out of range [1..500]\n",key2);
871 return 0;
872 }
873
874 return HIJJET1.pjtz[key2-1][key1-1];
875}
876
877//______________________________________________________________________________
878Float_t THijing::GetPJTE(Int_t key1, Int_t key2) const
879{
c627bfa0 880// Get values of array PJTE in common HIJJET1
7dffa423 881 if ( key1<1 || key1>300 ) {
882 printf("ERROR in THijing::GetPJTE(key1):\n");
883 printf(" key1=%i is out of range [1..300]\n",key1);
884 return 0;
885 }
886 if ( key2<1 || key2>500 ) {
887 printf("ERROR in THijing::GetPJTE(key1,key2):\n");
888 printf(" key2=%i is out of range [1..500]\n",key2);
889 return 0;
890 }
891
892 return HIJJET1.pjte[key2-1][key1-1];
893}
894
895//______________________________________________________________________________
896Float_t THijing::GetPJTM(Int_t key1, Int_t key2) const
897{
c627bfa0 898// Get values of array PJTM in common HIJJET1
7dffa423 899 if ( key1<1 || key1>300 ) {
900 printf("ERROR in THijing::GetPJTM(key1):\n");
901 printf(" key1=%i is out of range [1..300]\n",key1);
902 return 0;
903 }
904 if ( key2<1 || key2>500 ) {
905 printf("ERROR in THijing::GetPJTM(key1,key2):\n");
906 printf(" key2=%i is out of range [1..500]\n",key2);
907 return 0;
908 }
909
910 return HIJJET1.pjtm[key2-1][key1-1];
911}
912
913//====================== access to common HIJJET1 ===============================
914
915//______________________________________________________________________________
916Int_t THijing::GetNSG() const
917{
c627bfa0 918// Get value of NSG in common HIJJET2
7dffa423 919 return HIJJET2.nsg;
920}
921
922//______________________________________________________________________________
923Int_t THijing::GetNJSG(Int_t key) const
924{
c627bfa0 925// Get values of array NJSG in common HIJJET2
7dffa423 926 if ( key<1 || key>900 ) {
927 printf ("ERROR in THijing:GetNJSG(key): \n ");
928 printf (" key=%i is out of range [1..900]!\n",key);
929 return 0;
930 }
931
932 return HIJJET2.njsg[key-1];
933
934}
935
936//______________________________________________________________________________
937Int_t THijing::GetIASG(Int_t key1, Int_t key2) const
938{
c627bfa0 939// Get values of IASG in common HIJJET2
7dffa423 940 if ( key1<1 || key1>900 ) {
941 printf("ERROR in THijing::GetIASG(key1):\n");
942 printf(" key1=%i is out of range [1..900]\n",key1);
943 return 0;
944 }
945 if ( key2<1 || key2>3 ) {
946 printf("ERROR in THijing::GetIASG(key1,key2):\n");
947 printf(" key2=%i is out of range [1..3]\n",key2);
948 return 0;
949 }
950
951 return HIJJET2.iasg[key2-1][key1-1];
952}
953
954//______________________________________________________________________________
955Int_t THijing::GetK1SG(Int_t key1, Int_t key2) const
956{
c627bfa0 957// Get values of K1SG in common HIJJET2
7dffa423 958 if ( key1<1 || key1>900 ) {
959 printf("ERROR in THijing::GetK1SG(key1):\n");
960 printf(" key1=%i is out of range [1..900]\n",key1);
961 return 0;
962 }
963 if ( key2<1 || key2>100 ) {
964 printf("ERROR in THijing::GetK1SG(key1,key2):\n");
965 printf(" key2=%i is out of range [1..100]\n",key2);
966 return 0;
967 }
968
969 return HIJJET2.k1sg[key2-1][key1-1];
970}
971
972//______________________________________________________________________________
973Int_t THijing::GetK2SG(Int_t key1, Int_t key2) const
974{
c627bfa0 975// Get values of K2SG in common HIJJET2
7dffa423 976 if ( key1<1 || key1>900 ) {
977 printf("ERROR in THijing::GetK2SG(key1):\n");
978 printf(" key1=%i is out of range [1..900]\n",key1);
979 return 0;
980 }
981 if ( key2<1 || key2>100 ) {
982 printf("ERROR in THijing::GetK2SG(key1,key2):\n");
983 printf(" key2=%i is out of range [1..100]\n",key2);
984 return 0;
985 }
986
987 return HIJJET2.k2sg[key2-1][key1-1];
988}
989
990//______________________________________________________________________________
991Float_t THijing::GetPXSG(Int_t key1, Int_t key2) const
992{
c627bfa0 993// Get values of PXSG in common HIJJET2
7dffa423 994 if ( key1<1 || key1>900 ) {
995 printf("ERROR in THijing::GetPXSG(key1):\n");
996 printf(" key1=%i is out of range [1..900]\n",key1);
997 return 0;
998 }
999 if ( key2<1 || key2>100 ) {
1000 printf("ERROR in THijing::GetPXSG(key1,key2):\n");
1001 printf(" key2=%i is out of range [1..100]\n",key2);
1002 return 0;
1003 }
1004
1005 return HIJJET2.pxsg[key2-1][key1-1];
1006}
1007
1008//______________________________________________________________________________
1009Float_t THijing::GetPYSG(Int_t key1, Int_t key2) const
1010{
c627bfa0 1011// Get values of PYSG in common HIJJET2
7dffa423 1012 if ( key1<1 || key1>900 ) {
1013 printf("ERROR in THijing::GetPYSG(key1):\n");
1014 printf(" key1=%i is out of range [1..900]\n",key1);
1015 return 0;
1016 }
1017 if ( key2<1 || key2>100 ) {
1018 printf("ERROR in THijing::GetPYSG(key1,key2):\n");
1019 printf(" key2=%i is out of range [1..100]\n",key2);
1020 return 0;
1021 }
1022
1023 return HIJJET2.pysg[key2-1][key1-1];
1024}
1025
1026//______________________________________________________________________________
1027Float_t THijing::GetPZSG(Int_t key1, Int_t key2) const
1028{
c627bfa0 1029// Get values of PZSG in common HIJJET2
7dffa423 1030 if ( key1<1 || key1>900 ) {
1031 printf("ERROR in THijing::GetPZSG(key1):\n");
1032 printf(" key1=%i is out of range [1..900]\n",key1);
1033 return 0;
1034 }
1035 if ( key2<1 || key2>100 ) {
1036 printf("ERROR in THijing::GetPZSG(key1,key2):\n");
1037 printf(" key2=%i is out of range [1..100]\n",key2);
1038 return 0;
1039 }
1040
1041 return HIJJET2.pzsg[key2-1][key1-1];
1042}
1043
1044//______________________________________________________________________________
1045Float_t THijing::GetPESG(Int_t key1, Int_t key2) const
1046{
c627bfa0 1047// Get values of PESG in common HIJJET2
7dffa423 1048 if ( key1<1 || key1>900 ) {
1049 printf("ERROR in THijing::GetPESG(key1):\n");
1050 printf(" key1=%i is out of range [1..900]\n",key1);
1051 return 0;
1052 }
1053 if ( key2<1 || key2>100 ) {
1054 printf("ERROR in THijing::GetPESG(key1,key2):\n");
1055 printf(" key2=%i is out of range [1..100]\n",key2);
1056 return 0;
1057 }
1058
1059 return HIJJET2.pesg[key2-1][key1-1];
1060}
1061
1062//______________________________________________________________________________
1063Float_t THijing::GetPMSG(Int_t key1, Int_t key2) const
1064{
c627bfa0 1065// Get values of PMSG in common HIJJET2
7dffa423 1066 if ( key1<1 || key1>900 ) {
1067 printf("ERROR in THijing::GetPMSG(key1):\n");
1068 printf(" key1=%i is out of range [1..900]\n",key1);
1069 return 0;
1070 }
1071 if ( key2<1 || key2>100 ) {
1072 printf("ERROR in THijing::GetPMSG(key1,key2):\n");
1073 printf(" key2=%i is out of range [1..100]\n",key2);
1074 return 0;
1075 }
1076
1077 return HIJJET2.pmsg[key2-1][key1-1];
1078}
1079
1080//====================== access to common HISTRNG ===============================
1081
1082//______________________________________________________________________________
1083Int_t THijing::GetNFP(Int_t key1, Int_t key2) const
1084{
c627bfa0 1085// Get values of array NFP in common HISTRNG
7dffa423 1086 if ( key1<1 || key1>300 ) {
1087 printf("ERROR in THijing::GetNFP(key1):\n");
1088 printf(" key1=%i is out of range [1..300]\n",key1);
1089 return 0;
1090 }
1091 if ( key2<1 || key2>15 ) {
1092 printf("ERROR in THijing::GetNFP(key1,key2):\n");
1093 printf(" key2=%i is out of range [1..15]\n",key2);
1094 return 0;
1095 }
1096
1097 return HISTRNG.nfp[key2-1][key1-1];
1098}
1099
1100//______________________________________________________________________________
1101Float_t THijing::GetPP(Int_t key1, Int_t key2) const
1102{
c627bfa0 1103// Get values of array PP in common HISTRNG
7dffa423 1104 if ( key1<1 || key1>300 ) {
1105 printf("ERROR in THijing::GetPP(key1):\n");
1106 printf(" key1=%i is out of range [1..300]\n",key1);
1107 return 0;
1108 }
1109 if ( key2<1 || key2>15 ) {
1110 printf("ERROR in THijing::GetPP(key1,key2):\n");
1111 printf(" key2=%i is out of range [1..15]\n",key2);
1112 return 0;
1113 }
1114
1115 return HISTRNG.pp[key2-1][key1-1];
1116}
1117
1118//______________________________________________________________________________
1119Int_t THijing::GetNFT(Int_t key1, Int_t key2) const
1120{
c627bfa0 1121// Get values of array NFT in common HISTRNG
7dffa423 1122 if ( key1<1 || key1>300 ) {
1123 printf("ERROR in THijing::GetNFT(key1):\n");
1124 printf(" key1=%i is out of range [1..300]\n",key1);
1125 return 0;
1126 }
1127 if ( key2<1 || key2>15 ) {
1128 printf("ERROR in THijing::GetNFT(key1,key2):\n");
1129 printf(" key2=%i is out of range [1..15]\n",key2);
1130 return 0;
1131 }
1132
1133 return HISTRNG.nft[key2-1][key1-1];
1134}
1135
1136//______________________________________________________________________________
1137Float_t THijing::GetPT(Int_t key1, Int_t key2) const
1138{
c627bfa0 1139// Get values of array PT in common HISTRNG
7dffa423 1140 if ( key1<1 || key1>300 ) {
1141 printf("ERROR in THijing::GetPT(key1):\n");
1142 printf(" key1=%i is out of range [1..300]\n",key1);
1143 return 0;
1144 }
1145 if ( key2<1 || key2>15 ) {
1146 printf("ERROR in THijing::GetPT(key1,key2):\n");
1147 printf(" key2=%i is out of range [1..15]\n",key2);
1148 return 0;
1149 }
1150
1151 return HISTRNG.pt[key2-1][key1-1];
1152}
1153
c9080d26 1154void THijing::SetPARJ(Int_t key, Float_t parm)
1155{
c627bfa0 1156// Set values of array PARJ in common HISTRNG
c9080d26 1157 if ( key < 1 || key > 200) {
1158 printf("ERROR in THijing::SetPARJ(key,parm):\n");
1159 printf(" key=%i is out of range [1..200]\n",key);
8f64c44f 1160 } else {
1161 LUDAT1_HIJING.parj[key-1] = parm;
c9080d26 1162 }
c9080d26 1163}
1164
1165
1166void THijing::SetMSTJ(Int_t key, Int_t parm)
1167{
c627bfa0 1168// Set values of array MSTJ in common HISTRNG
c9080d26 1169 if ( key < 1 || key > 200) {
1170 printf("ERROR in THijing::SetMSTJ(key,parm):\n");
1171 printf(" key=%i is out of range [1..200]\n",key);
8f64c44f 1172 } else {
1173 LUDAT1_HIJING.mstj[key-1] = parm;
c9080d26 1174 }
c9080d26 1175}
7dffa423 1176
0f07b55b 1177void THijing::SetMDCY(Int_t key1, Int_t key2, Int_t parm)
1178{
1179 // Set value of array MDCY
1180 if ( key1 < 1 || key1 > 500) {
1181 printf("ERROR in THijing::SetMDCY(key1, key2, parm):\n");
e9b09fa2 1182 printf(" key1=%i is out of range [1..500]\n", key1);
0f07b55b 1183 } else if ( key2 < 1 || key2 > 3) {
1184 printf("ERROR in THijing::SetMDCY(key1, key2, parm):\n");
e9b09fa2 1185 printf(" key2=%i is out of range [1..3]\n", key2);
0f07b55b 1186 } else {
1187 LUDAT3_HIJING.mdcy[key2-1][key1-1] = parm;
1188 }
1189
1190}
1191
e9b09fa2 1192void THijing::SetMDME(Int_t key1, Int_t key2, Int_t parm)
1193{
1194 // Set value of array MDME
1195 if ( key1 < 1 || key1 > 2000) {
1196 printf("ERROR in THijing::SetMDME(key1, key2, parm):\n");
1197 printf(" key1=%i is out of range [1..2000]\n", key1);
cba9ef30 1198 } else if ( key2 < 1 || key2 > 2) {
e9b09fa2 1199 printf("ERROR in THijing::SetMDME(key1, key2, parm):\n");
1200 printf(" key2=%i is out of range [1..3]\n", key2);
1201 } else {
1202 LUDAT3_HIJING.mdme[key2-1][key1-1] = parm;
1203 }
1204
1205}
1206
0f07b55b 1207Int_t THijing::GetMDCY(Int_t key1, Int_t key2)
1208{
1209 // Get value of array MDCY
e9b09fa2 1210
0f07b55b 1211 if ( key1 < 1 || key1 > 500) {
1212 printf("ERROR in THijing::GetMDCY(key1, key2, parm):\n");
1213 printf(" key1=%i is out of range [1..200]\n", key1);
1214 return -1;
1215 } else if ( key2 < 1 || key2 > 3) {
1216 printf("ERROR in THijing::GetMDCY(key1, key2, parm):\n");
1217 printf(" key2=%i is out of range [1..200]\n", key2);
1218 return -1;
1219 } else {
1220 return (LUDAT3_HIJING.mdcy[key2-1][key1-1]);
1221 }
7dffa423 1222
e9b09fa2 1223
0f07b55b 1224}
7dffa423 1225//====================== access to Hijing subroutines =========================
1226
1227
1228//______________________________________________________________________________
1229void THijing::Initialize()
1230{
1231//////////////////////////////////////////////////////////////////////////////////
1232// Calls Hijset with the either default parameters or the ones set by the user //
1233// via SetEFRM, SetFRAME, SetPROJ, SetTARG, SetIAP, SetIZP, SetIAT, SetIZT //
1234//////////////////////////////////////////////////////////////////////////////////
1235
ce5a1dbd 1236 if ( (!strcmp(fFrame.Data(), "CMS " )) &&
1237 (!strcmp(fFrame.Data(), "LAB " ))){
7dffa423 1238 printf("WARNING! In THijing:Initialize():\n");
1239 printf(" specified frame=%s is neither CMS or LAB\n",fFrame.Data());
1240 printf(" resetting to default \"CMS\" .");
1241 fFrame="CMS";
1242 }
1243
ce5a1dbd 1244 if ( (!strcmp(fProj.Data(), "A " )) &&
1245 (!strcmp(fProj.Data(), "P " )) &&
1246 (!strcmp(fProj.Data(), "PBAR " ))){
7dffa423 1247 printf("WARNING! In THijing:Initialize():\n");
1248 printf(" specified projectile=%s is neither A, P or PBAR\n",fProj.Data());
1249 printf(" resetting to default \"A\" .");
1250 fProj="A";
1251 }
1252
ce5a1dbd 1253 if ( (!strcmp(fTarg.Data(), "A " )) &&
1254 (!strcmp(fTarg.Data(), "P " )) &&
1255 (!strcmp(fTarg.Data(), "PBAR " ))){
7dffa423 1256 printf("WARNING! In THijing:Initialize():\n");
1257 printf(" specified target=%s is neither A, P or PBAR\n",fTarg.Data());
1258 printf(" resetting to default \"A\" .");
1259 fTarg="A";
1260 }
1261
ce5a1dbd 1262 printf(" %s-%s at %f GeV \n",fProj.Data(),fTarg.Data(),fEfrm);
7dffa423 1263
1264 Hijset(fEfrm,fFrame.Data(),fProj.Data(),fTarg.Data(),fIap,fIzp,fIat,fIzt);
1265
1266 printf(" %s-%s at %f GeV \n",fProj.Data(),fTarg.Data(),fEfrm);
1267}
1268
1269
1270//______________________________________________________________________________
1271void THijing::GenerateEvent()
1272{
1273// Generates one event;
1274
1275 Hijing(fFrame.Data(),fBmin,fBmax);
1276
1277}
1278//______________________________________________________________________________
1279void THijing::Hijset(float efrm, const char *frame, const char *proj,
1280 const char *targ, int iap, int izp, int iat, int izt)
1281{
1282// Call HIJING routine HIJSET passing the parameters in a way accepted by
1283// Fortran routines
1284
1285 int s1 = strlen(frame);
1286 int s2 = strlen(proj);
1287 int s3 = strlen(targ);
1288 printf("s1 = %d s2 = %d s3 = %d\n",s1,s2,s3);
1289#ifndef WIN32
1290 hijset(efrm, frame, proj, targ, iap, izp, iat, izt, s1, s2, s3);
1291#else
1292 hijset(efrm, frame, s1, proj, s2, targ, s3, iap, izp, iat, izt);
1293#endif
1294}
1295//______________________________________________________________________________
1296void THijing::Hijing(const char *frame, float bmin, float bmax)
1297{
1298// Call HIJING routine HIJSET passing the parameters in a way accepted by
1299// Fortran routines
1300
1301 int s1 = strlen(frame);
1302
1303#ifndef WIN32
1304 hijing(frame, bmin, bmax, s1);
1305#else
1306 hijing(frame, s1, bmin, bmax);
1307#endif
1308}
ce5a1dbd 1309
1310
1311Float_t THijing::Profile(float b)
1312{
1313// Call HIJING routine PROFILE
1314 return profile(b);
1315}
1316
1317
6b759e67 1318void THijing::Rluget(Int_t lfn, Int_t move)
1319{
1320// write seed to file
1321 rluget_hijing(lfn, move);
1322}
1323
1324
1325void THijing::Rluset(Int_t lfn, Int_t move)
1326{
1327// read seed from file
1328 rluset_hijing(lfn, move);
1329}
ce5a1dbd 1330
0f07b55b 1331void THijing::Pylist(Int_t flag)
1332{
1333// call lulist
1334 lulist_hijing(flag);
1335}
cc197d27 1336
1337void THijing::Luupda(Int_t mupda, Int_t lfn)
1338{
1339// call luupda
1340 luupda_hijing(mupda, lfn);
1341}