Coverity fixes (Roberta, Ivana)
[u/mrichter/AliRoot.git] / TTherminator / AliGenTherminator.cxx
CommitLineData
2e967919 1// ALICE event generator based on the THERMINATOR model
2// It reads the test output of the model and puts it onto
3// the stack
ae89e57a 4// It has an option to use the Lhyquid3D input freeze-out
5// hypersurface
2e967919 6// Author: Adam.Kisiel@cern.ch
7
8#include <iostream>
9#include <fstream>
10#include <sstream>
11#include <TClonesArray.h>
12#include <TMCProcess.h>
13#include <TDatabasePDG.h>
14#include <TParticle.h>
15
16#include "AliConst.h"
17#include "AliDecayer.h"
18#include "AliGenEventHeader.h"
9abb118d 19#include "AliGenHijingEventHeader.h"
2e967919 20#include "AliGenTherminator.h"
21#include "AliLog.h"
22#include "AliRun.h"
23
24ClassImp(AliGenTherminator)
25
26using namespace std;
27
28AliGenTherminator::AliGenTherminator():
29 AliGenMC(),
30 fNt(0),
31 fEventNumber(0),
32 fFileName(""),
33 fFreezeOutModel(""),
9368eb75 34 fFOHSlocation(""),
2e967919 35 fTemperature(0.1656),
36 fMiuI(-0.0009),
37 fMiuS(0.0),
38 fMiuB(0.0008),
39 fAlfaRange(6.0),
40 fRapRange(4.0),
41 fRhoMax(8.0),
42 fTau(8.0),
43 fBWA(0.0),
44 fBWVt(1.41),
45 fBWDelay(0.0)
46{
47 // Default constructor
9368eb75 48 fFOHSlocation = "";
49
50 fEnergyCMS = 5500.;
51 fAProjectile = 208;
52 fZProjectile = 82;
53 fProjectile = "A";
54 fATarget = 208;
55 fZTarget = 82;
56 fTarget = "A";
2e967919 57}
58AliGenTherminator::AliGenTherminator(Int_t npart):
59 AliGenMC(npart),
60 fNt(0),
61 fEventNumber(0),
62 fFileName(""),
63 fFreezeOutModel(""),
9368eb75 64 fFOHSlocation(""),
2e967919 65 fTemperature(0.1656),
66 fMiuI(-0.0009),
67 fMiuS(0.0),
68 fMiuB(0.0008),
69 fAlfaRange(6.0),
70 fRapRange(4.0),
71 fRhoMax(8.0),
72 fTau(8.0),
73 fBWA(0.0),
74 fBWVt(1.41),
75 fBWDelay(0.0)
76{
77 // Constructor specifying the size of the particle table
2e967919 78 fNprimaries = 0;
9368eb75 79 fEnergyCMS = 5500.;
80 fAProjectile = 208;
81 fZProjectile = 82;
82 fProjectile = "A";
83 fATarget = 208;
84 fZTarget = 82;
85 fTarget = "A";
2e967919 86}
87
88AliGenTherminator::~AliGenTherminator()
89{
90 // AliGenMC::~AliGenMC();
91 // if (fTherminator) delete fTherminator;
92}
93
94void AliGenTherminator::Generate()
95{
96 // Run single event generation with the Therminator model
97 AliWarning("Generating event from AliGenTherminator");
98
99 Float_t polar[3] = {0,0,0};
100 Float_t origin[3] = {0,0,0};
101 Float_t origin0[3] = {0,0,0};
102 Float_t p[3];
103 Float_t mass, energy;
104
105 Int_t nt = 0;
106 Int_t j, kf, ks, imo;
107 kf = 0;
108
109 Vertex();
110 for (j=0; j < 3; j++) origin0[j] = fVertex[j];
111
112 // Generate one event
113
114 ((TTherminator *) fMCEvGen)->GenerateEvent();
115 AliWarning("Generated");
8507138f 116 ((TTherminator *) fMCEvGen)->ImportParticles(&fParticles);
2e967919 117
8507138f 118 Int_t np = fParticles.GetEntriesFast();
2e967919 119 AliWarning(Form("Imported %d particles", np));
120
deb008f3 121 Int_t *idsOnStack;
122 idsOnStack = new Int_t[np];
123
2e967919 124 TParticle *iparticle;
9abb118d 125 Double_t evrot = gRandom->Rndm()*TMath::Pi();
2e967919 126
127 for (int i = 0; i < np; i++) {
8507138f 128 iparticle = (TParticle *) fParticles.At(i);
2e967919 129 Bool_t hasMother = (iparticle->GetFirstMother() >=0);
130 Bool_t hasDaughter = (iparticle->GetFirstDaughter() >=0);
131
c9a371fc 132 if (hasDaughter) {
133 // This particle has decayed
134 // It will not be tracked
135 // Add it only once with coorduinates not
136 // smeared with primary vertex position
137
138 kf = iparticle->GetPdgCode();
139 ks = iparticle->GetStatusCode();
140 Double_t aphi = TMath::ATan2(iparticle->Py(), iparticle->Px());
141 Double_t arho = TMath::Hypot(iparticle->Px(), iparticle->Py());
142 p[0] = arho*TMath::Cos(aphi + evrot);
143 p[1] = arho*TMath::Sin(aphi + evrot);
144 // p[0] = iparticle->Px();
145 // p[1] = iparticle->Py();
146 p[2] = iparticle->Pz();
147 mass = TDatabasePDG::Instance()->GetParticle(kf)->Mass();
148 energy = sqrt(mass*mass + p[0]*p[0] + p[1]*p[1] + p[2]*p[2]);
149
150 Double_t vphi = TMath::ATan2(iparticle->Vy(), iparticle->Vx());
151 Double_t vrho = TMath::Hypot(iparticle->Vx(), iparticle->Vy());
c9c8970c 152 origin[0] = vrho*TMath::Cos(vphi + evrot);
153 origin[1] = vrho*TMath::Sin(vphi + evrot);
154 origin[2] = iparticle->Vz();
c9a371fc 155
156 imo = -1;
157 TParticle* mother = 0;
158 if (hasMother) {
159 imo = iparticle->GetFirstMother();
20c79170 160 // mother = (TParticle *) fParticles.At(imo);
c9a371fc 161 } // if has mother
162 Bool_t tFlag = (!hasDaughter);
163
9368eb75 164 // printf("Pushing Track %d with status %d mother %d\n", kf, tFlag, imo>=0?idsOnStack[imo]:imo);
d75811a6 165 PushTrack(tFlag,imo>=0?idsOnStack[imo]:imo,kf,
c9a371fc 166 p[0],p[1],p[2],energy,
c9c8970c 167 origin[0],origin[1],origin[2],iparticle->T(),
c9a371fc 168 polar[0],polar[1],polar[2],
169 hasMother ? kPDecay:kPNoProcess,nt);
deb008f3 170 idsOnStack[i] = nt;
c9a371fc 171 fNprimaries++;
172 KeepTrack(nt);
173 }
174 else {
175 // This is a final state particle
176 // It will be tracked
177 // Add it TWICE to the stack !!!
178 // First time with event-wide coordicates (for femtoscopy) -
179 // this one will not be tracked
180 // Second time with event-wide ccordiantes and vertex smearing
181 // this one will be tracked
182
183 kf = iparticle->GetPdgCode();
184 ks = iparticle->GetStatusCode();
185 Double_t aphi = TMath::ATan2(iparticle->Py(), iparticle->Px());
186 Double_t arho = TMath::Hypot(iparticle->Px(), iparticle->Py());
187 p[0] = arho*TMath::Cos(aphi + evrot);
188 p[1] = arho*TMath::Sin(aphi + evrot);
189 // p[0] = iparticle->Px();
190 // p[1] = iparticle->Py();
191 p[2] = iparticle->Pz();
192 mass = TDatabasePDG::Instance()->GetParticle(kf)->Mass();
193 energy = sqrt(mass*mass + p[0]*p[0] + p[1]*p[1] + p[2]*p[2]);
194
195 Double_t vphi = TMath::ATan2(iparticle->Vy(), iparticle->Vx());
196 Double_t vrho = TMath::Hypot(iparticle->Vx(), iparticle->Vy());
197 origin[0] = vrho*TMath::Cos(vphi + evrot);
198 origin[1] = vrho*TMath::Sin(vphi + evrot);
199 origin[2] = iparticle->Vz();
200
201 imo = -1;
202 TParticle* mother = 0;
203 if (hasMother) {
204 imo = iparticle->GetFirstMother();
c9c8970c 205 mother = (TParticle *) fParticles.At(imo);
c9a371fc 206 } // if has mother
207 Bool_t tFlag = (hasDaughter);
208
9368eb75 209// printf("Found mother %i with true id %i\n", imo, imo>=0?idsOnStack[imo]:imo);
210// printf("Pushing Track %d with status %d mother %d\n", kf, tFlag, imo>=0?idsOnStack[imo]:imo);
d75811a6 211 PushTrack(tFlag,imo>=0?idsOnStack[imo]:imo,kf,
c9a371fc 212 p[0],p[1],p[2],energy,
c9c8970c 213 origin[0],origin[1],origin[2],iparticle->T(),
c9a371fc 214 polar[0],polar[1],polar[2],
215 hasMother ? kPDecay:kPNoProcess,nt);
deb008f3 216 idsOnStack[i] = nt;
c9a371fc 217 fNprimaries++;
218 KeepTrack(nt);
219
220 origin[0] = origin0[0]+vrho*TMath::Cos(vphi + evrot);
221 origin[1] = origin0[1]+vrho*TMath::Sin(vphi + evrot);
222 origin[2] = origin0[2]+iparticle->Vz();
223
224 imo = nt;
deb008f3 225 // mother = (TParticle *) fParticles.At(nt);
c9a371fc 226 tFlag = (!hasDaughter);
227
9368eb75 228// printf("Pushing Track %d with status %d mother %d\n", kf, tFlag, imo);
c9a371fc 229 PushTrack(tFlag,imo,kf,
230 p[0],p[1],p[2],energy,
c9c8970c 231 origin[0],origin[1],origin[2],iparticle->T(),
c9a371fc 232 polar[0],polar[1],polar[2],
233 hasMother ? kPDecay:kPNoProcess,nt);
234 fNprimaries++;
235 KeepTrack(nt);
236 }
2e967919 237 }
238
deb008f3 239
240
2e967919 241 SetHighWaterMark(fNprimaries);
242
243 TArrayF eventVertex;
244 eventVertex.Set(3);
245 eventVertex[0] = origin0[0];
246 eventVertex[1] = origin0[1];
247 eventVertex[2] = origin0[2];
248
9abb118d 249// Builds the event header, to be called after each event
250 AliGenEventHeader* header = new AliGenHijingEventHeader("Therminator");
251
2e967919 252 // Header
9abb118d 253 // AliGenEventHeader* header = new AliGenEventHeader("Therminator");
2e967919 254 // Event Vertex
9abb118d 255// header->SetPrimaryVertex(eventVertex);
256// header->SetNProduced(fNprimaries);
257
258 ((AliGenHijingEventHeader*) header)->SetNProduced(fNprimaries);
259 ((AliGenHijingEventHeader*) header)->SetPrimaryVertex(eventVertex);
260 ((AliGenHijingEventHeader*) header)->SetImpactParameter(0.0);
261 ((AliGenHijingEventHeader*) header)->SetTotalEnergy(0.0);
262 ((AliGenHijingEventHeader*) header)->SetHardScatters(0);
263 ((AliGenHijingEventHeader*) header)->SetParticipants(0, 0);
264 ((AliGenHijingEventHeader*) header)->SetCollisions(0, 0, 0, 0);
265 ((AliGenHijingEventHeader*) header)->SetSpectators(0, 0, 0, 0);
266 ((AliGenHijingEventHeader*) header)->SetReactionPlaneAngle(evrot);
267
268
269// 4-momentum vectors of the triggered jets.
270//
271// Before final state gluon radiation.
272// TLorentzVector* jet1 = new TLorentzVector(fHijing->GetHINT1(21),
273// fHijing->GetHINT1(22),
274// fHijing->GetHINT1(23),
275// fHijing->GetHINT1(24));
276
277// TLorentzVector* jet2 = new TLorentzVector(fHijing->GetHINT1(31),
278// fHijing->GetHINT1(32),
279// fHijing->GetHINT1(33),
280// fHijing->GetHINT1(34));
281// // After final state gluon radiation.
282// TLorentzVector* jet3 = new TLorentzVector(fHijing->GetHINT1(26),
283// fHijing->GetHINT1(27),
284// fHijing->GetHINT1(28),
285// fHijing->GetHINT1(29));
286
287// TLorentzVector* jet4 = new TLorentzVector(fHijing->GetHINT1(36),
288// fHijing->GetHINT1(37),
289// fHijing->GetHINT1(38),
290// fHijing->GetHINT1(39));
291// ((AliGenHijingEventHeader*) header)->SetJets(jet1, jet2, jet3, jet4);
292// Bookkeeping for kinematic bias
293// ((AliGenHijingEventHeader*) header)->SetTrials(fTrials);
294// Event Vertex
295 header->SetPrimaryVertex(fVertex);
296 AddHeader(header);
297 fCollisionGeometry = (AliGenHijingEventHeader*) header;
298
4ce766eb 299 delete [] idsOnStack;
deb008f3 300
c9a371fc 301 // gAlice->SetGenEventHeader(header);
2e967919 302}
303
304void AliGenTherminator::Init()
305{
306 // Initialize global variables and
307 // particle and decay tables
308 if (fFileName.Length() == 0)
309 fFileName = "event.out";
310 ReadShareParticleTable();
311
312 SetMC(new TTherminator());
313
314 AliGenMC::Init();
315 ((TTherminator *) fMCEvGen)->Initialize();
316}
317void AliGenTherminator::SetFileName(const char *infilename)
318{
319 // Set parameter filename
320 fFileName = infilename;
321}
322void AliGenTherminator::SetEventNumberInFile(int evnum)
323{
324 // Set number of events to generate - default: 1
325 fEventNumber = evnum;
326}
327
328void AliGenTherminator::ReadShareParticleTable()
329{
330 // Read in particle table from share
331 // and add missing particle type to TDatabasePDG
332
333 char str[50];
334 char str1[200];
335
336 TDatabasePDG *tInstance = TDatabasePDG::Instance();
337 TParticlePDG *tParticleType;
338
339 AliWarning(Form("Reading particle types from particles.data"));
ae89e57a 340
341 TString aroot = gSystem->Getenv("ALICE_ROOT");
342 ifstream in((aroot+"/TTherminator/data/SHARE/particles.data").Data());
343 // ifstream in("particles.data");
2e967919 344
345 int charge;
346
347 int number=0;
348 if ((in) && (in.is_open()))
349 {
350 //START OF HEAD-LINE
351 in.ignore(200,'\n');
352 in.ignore(200,'\n');
353 in.ignore(200,'\n');
354 //END OF HEAD-LINE
355
356 while (in>>str)
357 {
358 if (/*(*str == '#')||*/(*str<65)||(*str>122))
359 {
360 in.getline(str1,200);
361 continue;
362 }
363 double mass, gamma, spin, tI3, tI, q, s, aq, as, c, ac, mc;
364
365 in>>mass>>gamma>>spin>>tI>>tI3>>q>>s>>aq>>as>>c>>ac>>mc;
366 number++;
367 tParticleType = tInstance->GetParticle((int) mc);
368 if (!tParticleType) {
369 charge = 0;
370 if (strstr(str, "plu")) charge = 1;
371 if (strstr(str, "min")) charge = -1;
372 if (strstr(str, "plb")) charge = -1;
373 if (strstr(str, "mnb")) charge = 1;
374 if (strstr(str, "plp")) charge = 2;
375 if (strstr(str, "ppb")) charge = -2;
376 tInstance->AddParticle(str, str, mass, gamma == 0.0 ? 1:0, gamma, charge , "meson", (int) mc);
377 AliWarning(Form("Added particle %s with PDG PID %d charge %d", str, (int) mc, charge));
378 // AliWarning(Form("Quantum numbers q s c aq as ac tI3 %lf %lf %lf %lf %lf %lf %lf", q, s, c, aq, as, ac, tI3));
379
380 }
381 }
382 in.close();
383 }
384 CreateTherminatorInputFile();
385}
386
387void AliGenTherminator::CreateTherminatorInputFile()
388{
389 // Create Therminator input file
ae89e57a 390 const char *aroot = gSystem->Getenv("ALICE_ROOT");
2e967919 391 ofstream *ostr = new ofstream("therminator.in");
392 (*ostr) << "NumberOfEvents = 1" << endl;
393 (*ostr) << "Randomize = 1" << endl;
394 (*ostr) << "TableType = SHARE" << endl;
ae89e57a 395 (*ostr) << "InputDirSHARE = "<< aroot << "/TTherminator/data/SHARE" << endl;
2e967919 396 (*ostr) << "EventOutputFile = " << fFileName.Data() << endl;
ae89e57a 397 (*ostr) << "FOHSLocation = " << fFOHSlocation.Data() << endl;
2e967919 398 (*ostr) << "FreezeOutModel = " << fFreezeOutModel.Data() << endl;
399 (*ostr) << "BWVt = " << fBWVt << endl;
400 (*ostr) << "Tau = " << fTau << endl;
401 (*ostr) << "RhoMax = " << fRhoMax << endl;
402 (*ostr) << "Temperature = " << fTemperature << endl;
403 (*ostr) << "MiuI = " << fMiuI << endl;
404 (*ostr) << "MiuS = " << fMiuS << endl;
405 (*ostr) << "MiuB = " << fMiuB << endl;
406 (*ostr) << "AlphaRange = " << fAlfaRange << endl;
407 (*ostr) << "RapidityRange = " << fRapRange << endl;
408 (*ostr) << "NumberOfIntegrateSamples = 1000000" << endl;
409}
410
411void AliGenTherminator::SetModel(const char *model)
412{
413 // Set the freeze-out model to use
414 fFreezeOutModel = model;
9368eb75 415 AliWarning(Form("Selected model %s", fFreezeOutModel.Data()));
416 AliWarning(Form("FOHSLocation is %s", fFOHSlocation.Data()));
2e967919 417}
ae89e57a 418
419void AliGenTherminator::SetLhyquidSet(const char *set)
420{
421 // Select one of pregenerated Lhyquid hypersurfaces
422 const char *aroot = gSystem->Getenv("ALICE_ROOT");
423 if (strstr(set, "LHC500C0005")) {
424 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
7d4c52b2 425 AliWarning(Form(" Pb-Pb collisions, centrality 0-5 percent"));
ae89e57a 426 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
427 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
428 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C0005/FO.txt"));
9368eb75 429 fFOHSlocation.Append(aroot);
430 fFOHSlocation.Append("/TTherminator/data/LHC500C0005");
431 }
432 if (strstr(set, "LHC500C0510")) {
433 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
434 AliWarning(Form(" Pb-Pb collisions, centrality 5-10 percent"));
435 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
436 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
437 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C0510/FO.txt"));
438 fFOHSlocation.Append(aroot);
439 fFOHSlocation.Append("/TTherminator/data/LHC500C0510");
440 }
441 if (strstr(set, "LHC500C1020")) {
442 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
443 AliWarning(Form(" Pb-Pb collisions, centrality 10-20 percent"));
444 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
445 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
446 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C1020/FO.txt"));
447 fFOHSlocation.Append(aroot);
448 fFOHSlocation.Append("/TTherminator/data/LHC500C1020");
ae89e57a 449 }
450 else if (strstr(set, "LHC500C2030")) {
451 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
7d4c52b2 452 AliWarning(Form(" Pb-Pb collisions, centrality 20-30 percent"));
ae89e57a 453 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
454 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
455 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C2030/FO.txt"));
9368eb75 456 fFOHSlocation.Append(aroot);
457 fFOHSlocation.Append("/TTherminator/data/LHC500C2030");
458 }
459 else if (strstr(set, "LHC500C3040")) {
460 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
461 AliWarning(Form(" Pb-Pb collisions, centrality 30-40 percent"));
462 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
463 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
464 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C3040/FO.txt"));
465 fFOHSlocation.Append(aroot);
466 fFOHSlocation.Append("/TTherminator/data/LHC500C3040");
467 }
468 else if (strstr(set, "LHC500C4050")) {
469 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
470 AliWarning(Form(" Pb-Pb collisions, centrality 40-50 percent"));
471 AliWarning(Form(" initial temperature at tau=1 fm in the center Ti=500 MeV"));
472 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
473 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC500C4050/FO.txt"));
474 fFOHSlocation.Append(aroot);
475 fFOHSlocation.Append("/TTherminator/data/LHC500C4050");
ae89e57a 476 }
269312f5 477 else if (strstr(set, "LHC276TC0005")) {
478 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
479 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 00-05 percent"));
480 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
481 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC0005/FO.txt"));
482 fFOHSlocation.Append(aroot);
483 fFOHSlocation.Append("/TTherminator/data/LHC276TC0005");
484 }
485 else if (strstr(set, "LHC276TC0510")) {
486 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
487 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 05-10 percent"));
488 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
489 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC0510/FO.txt"));
490 fFOHSlocation.Append(aroot);
491 fFOHSlocation.Append("/TTherminator/data/LHC276TC0510");
492 }
493 else if (strstr(set, "LHC276TC1020")) {
494 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
495 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 10-20 percent"));
496 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
497 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC1020/FO.txt"));
498 fFOHSlocation.Append(aroot);
499 fFOHSlocation.Append("/TTherminator/data/LHC276TC1020");
500 }
501 else if (strstr(set, "LHC276TC2030")) {
502 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
503 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 20-30 percent"));
504 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
505 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC2030/FO.txt"));
506 fFOHSlocation.Append(aroot);
507 fFOHSlocation.Append("/TTherminator/data/LHC276TC2030");
508 }
509 else if (strstr(set, "LHC276TC3040")) {
510 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
511 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 30-40 percent"));
512 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
513 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC3040/FO.txt"));
514 fFOHSlocation.Append(aroot);
515 fFOHSlocation.Append("/TTherminator/data/LHC276TC3040");
516 }
517 else if (strstr(set, "LHC276TC4050")) {
518 AliWarning(Form("AliGenTherminator: Selected default Lhyquid hypersurface"));
519 AliWarning(Form(" Pb-Pb collisions, 2.76TeV, centrality 40-50 percent"));
520 AliWarning(Form(" freeze-out criteria Tf=145 MeV"));
521 AliWarning(Form(" for details see $(ALICE_ROOT)/TTherminator/data/LHC276TC4050/FO.txt"));
522 fFOHSlocation.Append(aroot);
523 fFOHSlocation.Append("/TTherminator/data/LHC276TC4050");
524 }
ae89e57a 525 else {
526 AliWarning(Form("Did not find Lhyquid set %s", set));
527 AliWarning(Form("Reverting to default: current directory"));
9368eb75 528 fFOHSlocation += "";
ae89e57a 529 }
9368eb75 530
ae89e57a 531}
532
533void AliGenTherminator::SetLhyquidInputDir(const char *inputdir)
534{
535 // Select Your own Lhyquid hypersurface
536 fFOHSlocation = inputdir;
537}