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EvtGenInterface.cc
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1 // Class Based on EvtGenInterface(LHC).
2 //
3 // Created March 2014
4 //
5 // This class is a modification of the original EvtGenInterface which was developed for EvtGenLHC 9.1.
6 // The modifications for EvtGen 1.3.0 are implemented by Ian M. Nugent
7 // I would like to thank the EvtGen developers, in particular John Black, and Mikhail Kirsanov for their assistance.
8 //
9 // January 2015: Setting of coherent or incoherent B mixing included by Eduard Burelo
10 // January 2015: Adding new feature to allow users to provide new evtgen models
11 
14 
17 
29 
30 #include "CLHEP/Random/RandFlat.h"
32 
33 #include "EvtGen/EvtGen.hh"
34 #include "EvtGenExternal/EvtExternalGenList.hh"
35 #include "EvtGenBase/EvtAbsRadCorr.hh"
36 #include "EvtGenBase/EvtDecayBase.hh"
37 #include "EvtGenBase/EvtId.hh"
38 #include "EvtGenBase/EvtDecayTable.hh"
39 #include "EvtGenBase/EvtParticle.hh"
40 #include "EvtGenBase/EvtParticleFactory.hh"
41 #include "EvtGenBase/EvtHepMCEvent.hh"
42 
43 #include "HepPID/ParticleIDTranslations.hh"
44 
45 #include "TString.h"
46 #include <string>
47 #include <stdlib.h>
48 
49 using namespace gen;
50 using namespace edm;
51 
52 CLHEP::HepRandomEngine* EvtGenInterface::fRandomEngine;
53 
55  fPSet=new ParameterSet(pset);
56  the_engine = new myEvtRandomEngine(nullptr);
57 }
58 
60  // fill up default list of particles to be declared stable in the "master generator"
61  // these are assumed to be PDG ID's
62  //
63  // Note: Pythia6's kc=43, 44, and 84 commented out because they're obsolete (per S.Mrenna)
64  //
65  m_PDGs.push_back( 300553 ) ;
66  m_PDGs.push_back( 511 ) ;
67  m_PDGs.push_back( 521 ) ;
68  m_PDGs.push_back( 523 ) ;
69  m_PDGs.push_back( 513 ) ;
70  m_PDGs.push_back( 533 ) ;
71  m_PDGs.push_back( 531 ) ; //B_s0
72 
73  m_PDGs.push_back( 15 ) ;
74 
75  m_PDGs.push_back( 413 ) ;
76  m_PDGs.push_back( 423 ) ;
77  m_PDGs.push_back( 433 ) ;
78  m_PDGs.push_back( 411 ) ;
79  m_PDGs.push_back( 421 ) ;
80  m_PDGs.push_back( 431 ) ;
81  m_PDGs.push_back( 10411 );
82  m_PDGs.push_back( 10421 );
83  m_PDGs.push_back( 10413 );
84  m_PDGs.push_back( 10423 );
85  m_PDGs.push_back( 20413 );
86  m_PDGs.push_back( 20423 );
87 
88  m_PDGs.push_back( 415 );
89  m_PDGs.push_back( 425 );
90  m_PDGs.push_back( 10431 );
91  m_PDGs.push_back( 20433 );
92  m_PDGs.push_back( 10433 );
93  m_PDGs.push_back( 435 );
94 
95  m_PDGs.push_back( 310 );
96  m_PDGs.push_back( 311 );
97  m_PDGs.push_back( 313 );
98  m_PDGs.push_back( 323 );
99  m_PDGs.push_back( 10321 );
100  m_PDGs.push_back( 10311 );
101  m_PDGs.push_back( 10313 );
102  m_PDGs.push_back( 10323 );
103  m_PDGs.push_back( 20323 );
104  m_PDGs.push_back( 20313 );
105  m_PDGs.push_back( 325 );
106  m_PDGs.push_back( 315 );
107 
108  m_PDGs.push_back( 100313 );
109  m_PDGs.push_back( 100323 );
110  m_PDGs.push_back( 30313 );
111  m_PDGs.push_back( 30323 );
112  m_PDGs.push_back( 30343 );
113  m_PDGs.push_back( 30353 );
114  m_PDGs.push_back( 30363 );
115 
116  m_PDGs.push_back( 111 );
117  m_PDGs.push_back( 221 );
118  m_PDGs.push_back( 113 );
119  m_PDGs.push_back( 213 );
120  m_PDGs.push_back( 223 );
121  m_PDGs.push_back( 331 );
122  m_PDGs.push_back( 333 );
123  m_PDGs.push_back( 20213 );
124  m_PDGs.push_back( 20113 );
125  m_PDGs.push_back( 215 );
126  m_PDGs.push_back( 115 );
127  m_PDGs.push_back( 10213 );
128  m_PDGs.push_back( 10113 );
129  m_PDGs.push_back( 9000111 ); // PDG ID = 9000111, Pythia6 ID = 10111
130  m_PDGs.push_back( 9000211 ); // PDG ID = 9000211, Pythia6 ID = 10211
131  m_PDGs.push_back( 9010221 ); // PDG ID = 9010211, Pythia6 ID = ???
132  m_PDGs.push_back( 10221 );
133  m_PDGs.push_back( 20223 );
134  m_PDGs.push_back( 20333 );
135  m_PDGs.push_back( 225 );
136  m_PDGs.push_back( 9020221 ); // PDG ID = 9020211, Pythia6 ID = ???
137  m_PDGs.push_back( 335 );
138  m_PDGs.push_back( 10223 );
139  m_PDGs.push_back( 10333 );
140  m_PDGs.push_back( 100213 );
141  m_PDGs.push_back( 100113 );
142 
143  m_PDGs.push_back( 441 );
144  m_PDGs.push_back( 100441 );
145  m_PDGs.push_back( 443 );
146  m_PDGs.push_back( 100443 );
147  m_PDGs.push_back( 9000443 );
148  m_PDGs.push_back( 9010443 );
149  m_PDGs.push_back( 9020443 );
150  m_PDGs.push_back( 10441 );
151  m_PDGs.push_back( 20443 );
152  m_PDGs.push_back( 445 );
153 
154  m_PDGs.push_back( 30443 );
155  m_PDGs.push_back( 551 );
156  m_PDGs.push_back( 553 );
157  m_PDGs.push_back( 100553 );
158  m_PDGs.push_back( 200553 );
159  m_PDGs.push_back( 10551 );
160  m_PDGs.push_back( 20553 );
161  m_PDGs.push_back( 555 );
162  m_PDGs.push_back( 10553 );
163 
164  m_PDGs.push_back( 110551 );
165  m_PDGs.push_back( 120553 );
166  m_PDGs.push_back( 100555 );
167  m_PDGs.push_back( 210551 );
168  m_PDGs.push_back( 220553 );
169  m_PDGs.push_back( 200555 );
170  m_PDGs.push_back( 30553 );
171  m_PDGs.push_back( 20555 );
172 
173  m_PDGs.push_back( 557 );
174  m_PDGs.push_back( 130553 );
175  m_PDGs.push_back( 120555 );
176  m_PDGs.push_back( 100557 );
177  m_PDGs.push_back( 110553 );
178  m_PDGs.push_back( 210553 );
179  m_PDGs.push_back( 10555 );
180  m_PDGs.push_back( 110555 );
181 
182  m_PDGs.push_back( 4122 );
183  m_PDGs.push_back( 4132 );
184  // m_PDGs.push_back( 84 ); // obsolete
185  m_PDGs.push_back( 4112 );
186  m_PDGs.push_back( 4212 );
187  m_PDGs.push_back( 4232 );
188  m_PDGs.push_back( 4222 );
189  m_PDGs.push_back( 4322 );
190  m_PDGs.push_back( 4312 );
191 
192  m_PDGs.push_back( 13122 );
193  m_PDGs.push_back( 13124 );
194  m_PDGs.push_back( 23122 );
195  m_PDGs.push_back( 33122 );
196  m_PDGs.push_back( 43122 );
197  m_PDGs.push_back( 53122 );
198  m_PDGs.push_back( 13126 );
199  m_PDGs.push_back( 13212 );
200  //m_PDGs.push_back( 13241 ); unknown particle -typo?
201 
202  m_PDGs.push_back( 3126 );
203  m_PDGs.push_back( 3124 );
204  m_PDGs.push_back( 3122 );
205  m_PDGs.push_back( 3222 );
206  m_PDGs.push_back( 2214 );
207  m_PDGs.push_back( 2224 );
208  m_PDGs.push_back( 3324 );
209  m_PDGs.push_back( 2114 );
210  m_PDGs.push_back( 1114 );
211  m_PDGs.push_back( 3112 );
212  m_PDGs.push_back( 3212 );
213  m_PDGs.push_back( 3114 );
214  m_PDGs.push_back( 3224 );
215  m_PDGs.push_back( 3214 );
216  m_PDGs.push_back( 3216 );
217  m_PDGs.push_back( 3322 );
218  m_PDGs.push_back( 3312 );
219  m_PDGs.push_back( 3314 );
220  m_PDGs.push_back( 3334 );
221 
222  m_PDGs.push_back( 4114 );
223  m_PDGs.push_back( 4214 );
224  m_PDGs.push_back( 4224 );
225  m_PDGs.push_back( 4314 );
226  m_PDGs.push_back( 4324 );
227  m_PDGs.push_back( 4332 );
228  m_PDGs.push_back( 4334 );
229  //m_PDGs.push_back( 43 ); // obsolete (?)
230  //m_PDGs.push_back( 44 ); // obsolete (?)
231  m_PDGs.push_back( 10443 );
232 
233  m_PDGs.push_back( 5122 );
234  m_PDGs.push_back( 5132 );
235  m_PDGs.push_back( 5232 );
236  m_PDGs.push_back( 5332 );
237  m_PDGs.push_back( 5222 );
238  m_PDGs.push_back( 5112 );
239  m_PDGs.push_back( 5212 );
240  m_PDGs.push_back( 541 );
241  m_PDGs.push_back( 14122 );
242  m_PDGs.push_back( 14124 );
243  m_PDGs.push_back( 5312 );
244  m_PDGs.push_back( 5322 );
245  m_PDGs.push_back( 10521 );
246  m_PDGs.push_back( 20523 );
247  m_PDGs.push_back( 10523 );
248 
249  m_PDGs.push_back( 525 );
250  m_PDGs.push_back( 10511 );
251  m_PDGs.push_back( 20513 );
252  m_PDGs.push_back( 10513 );
253  m_PDGs.push_back( 515 );
254  m_PDGs.push_back( 10531 );
255  m_PDGs.push_back( 20533 );
256  m_PDGs.push_back( 10533 );
257  m_PDGs.push_back( 535 );
258  m_PDGs.push_back( 543 );
259  m_PDGs.push_back( 545 );
260  m_PDGs.push_back( 5114 );
261  m_PDGs.push_back( 5224 );
262  m_PDGs.push_back( 5214 );
263  m_PDGs.push_back( 5314 );
264  m_PDGs.push_back( 5324 );
265  m_PDGs.push_back( 5334 );
266  m_PDGs.push_back( 10541 );
267  m_PDGs.push_back( 10543 );
268  m_PDGs.push_back( 20543 );
269 
270  m_PDGs.push_back( 4424 );
271  m_PDGs.push_back( 4422 );
272  m_PDGs.push_back( 4414 );
273  m_PDGs.push_back( 4412 );
274  m_PDGs.push_back( 4432 );
275  m_PDGs.push_back( 4434 );
276 
277  m_PDGs.push_back( 130 );
278 
279 
280  for(unsigned int i=0; i<m_PDGs.size();i++){
281  int pdt=HepPID::translatePythiatoPDT (m_PDGs.at(i));
282  if(pdt!=m_PDGs.at(i))m_PDGs.at(i)=pdt;
283  }
284 }
285 
287 }
288 
290  // flags for pythia8
291  fSpecialSettings.push_back("Pythia8:ParticleDecays:mixB = off");
292  //
293 
294  edm::FileInPath decay_table(fPSet->getParameter<std::string>("decay_table"));
295  edm::FileInPath pdt(fPSet->getParameter<edm::FileInPath>("particle_property_file"));
296 
297  bool usePythia = fPSet->getUntrackedParameter<bool>("use_internal_pythia",true);
298  bool useTauola = fPSet->getUntrackedParameter<bool>("use_internal_tauola",true);
299  bool usePhotos = fPSet->getUntrackedParameter<bool>("use_internal_photos",true);
300 
301  //Setup evtGen following instructions on http://evtgen.warwick.ac.uk/docs/external/
302  bool convertPythiaCodes=fPSet->getUntrackedParameter<bool>("convertPythiaCodes",true); // Specify if we want to use Pythia 6 physics codes for decays
303  std::string pythiaDir = getenv ("PYTHIA8DATA"); // Specify the pythia xml data directory to use the default PYTHIA8DATA location
304  if(pythiaDir==NULL){
305  edm::LogError("EvtGenInterface::~EvtGenInterface") << "EvtGenInterface::init() PYTHIA8DATA not defined. Terminating program ";
306  exit(0);
307  }
308  std::string photonType("gamma"); // Specify the photon type for Photos
309  bool useEvtGenRandom(true); // Specify if we want to use the EvtGen random number engine for these generators
310 
311  // Set up the default external generator list: Photos, Pythia and/or Tauola
312  EvtExternalGenList genList(convertPythiaCodes, pythiaDir, photonType, useEvtGenRandom);
313  EvtAbsRadCorr* radCorrEngine=0;
314  if(usePhotos) radCorrEngine = genList.getPhotosModel(); // Get interface to radiative correction engine
315  std::list<EvtDecayBase*> extraModels = genList.getListOfModels(); // get interface to Pythia and Tauola
316  std::list<EvtDecayBase*> myExtraModels;
317  for(unsigned int i=0; i<extraModels.size();i++){
318  std::list<EvtDecayBase*>::iterator it = extraModels.begin();
319  std::advance(it,i);
320  TString name=(*it)->getName();
321  if(name.Contains("PYTHIA") && usePythia) myExtraModels.push_back(*it);
322  if(name.Contains("TAUOLA") && useTauola) myExtraModels.push_back(*it);
323  }
324 
325  //Set up user evtgen models
326 
327  EvtModelUserReg userList;
328  std::list<EvtDecayBase*> userModels = userList.getUserModels(); // get interface to user models
329  for(unsigned int i=0; i<userModels.size();i++){
330  std::list<EvtDecayBase*>::iterator it = userModels.begin();
331  std::advance(it,i);
332  TString name=(*it)->getName();
333  edm::LogInfo("EvtGenInterface::~EvtGenInterface") << "Adding user model: "<<name;
334  myExtraModels.push_back(*it);
335  }
336 
337 
338 
339  // Set up the incoherent (1) or coherent (0) B mixing option
340  BmixingOption = fPSet->getUntrackedParameter<int>("B_Mixing",1);
341  if(BmixingOption!=0 && BmixingOption!=1){
342  throw cms::Exception("Configuration") << "EvtGenProducer requires B_Mixing to be 0 (coherent) or 1 (incoherent) \n"
343  "Please fix this in your configuration.";
344  }
345 
347  // Create the EvtGen generator object, passing the external generators
348  m_EvtGen = new EvtGen(decay_table.fullPath().c_str(),pdt.fullPath().c_str(),the_engine,radCorrEngine,&myExtraModels,BmixingOption);
349 
350  // Add additional user information
351  if (fPSet->exists("user_decay_file")){
352  std::vector<std::string> user_decays = fPSet->getParameter<std::vector<std::string> >("user_decay_file");
353  for(unsigned int i=0;i<user_decays.size();i++){
354  edm::FileInPath user_decay(user_decays.at(i));
355  m_EvtGen->readUDecay(user_decay.fullPath().c_str());
356  }
357  }
358 
359  // setup pdgid which the generator/hadronizer should not decay
360  if (fPSet->exists("operates_on_particles")){
361  std::vector<int> tmpPIDs = fPSet->getParameter< std::vector<int> >("operates_on_particles");
362  m_PDGs.clear();
363  bool goodinput=false;
364  if(tmpPIDs.size()>0){ if(tmpPIDs.size()==1 && tmpPIDs[0]==0) goodinput=false;
365  else goodinput=true;
366  }
367  else{goodinput=false;}
368  if(goodinput) m_PDGs = tmpPIDs;
369  else SetDefault_m_PDGs();
370  }
371  else SetDefault_m_PDGs();
372 
373  for(unsigned int i=0;i<m_PDGs.size();i++){
374  edm::LogInfo("EvtGenInterface::~EvtGenInterface") << "EvtGenInterface::init() Particles to Operate on: " << m_PDGs[i];
375  }
376 
377  // Obtain information to set polarization of particles
378  polarize_ids = fPSet->getUntrackedParameter<std::vector<int> >("particles_to_polarize",std::vector<int>());
379  polarize_pol = fPSet->getUntrackedParameter<std::vector<double> >("particle_polarizations",std::vector<double>());
380  if (polarize_ids.size() != polarize_pol.size()) {
381  throw cms::Exception("Configuration") << "EvtGenProducer requires that the particles_to_polarize and particle_polarization\n"
382  "vectors be the same size. Please fix this in your configuration.";
383  }
384  for (unsigned int ndx = 0; ndx < polarize_ids.size(); ndx++) {
385  if (polarize_pol[ndx] < -1. || polarize_pol[ndx] > 1.) {
386  throw cms::Exception("Configuration") << "EvtGenProducer error: particle polarizations must be in the range -1 < P < 1";
387  }
388  polarizations.insert(std::pair<int, float>(polarize_ids[ndx], polarize_pol[ndx]));
389  }
390 
391  // Forced decays are particles that are aliased and forced to be decayed by EvtGen
392  if (fPSet->exists("list_forced_decays")){
393  std::vector<std::string> forced_names = fPSet->getParameter< std::vector<std::string> >("list_forced_decays");
394  for(unsigned int i=0;i<forced_names.size();i++){
395  EvtId found = EvtPDL::getId(forced_names[i]);
396  if(found.getId() == -1) throw cms::Exception("Configuration") << "name in part list for ignored decays not found: " << forced_names[i];
397  if(found.getId() == found.getAlias()) throw cms::Exception("Configuration") << "name of ignored decays is not an alias: " << forced_names[i];
398  forced_id.push_back(found);
399  forced_pdgids.push_back(EvtPDL::getStdHep(found)); // force_pdgids is the list of stdhep codes
400  }
401  }
402  edm::LogInfo("EvtGenInterface::~EvtGenInterface") << "Number of Forced Paricles is: " << forced_pdgids.size() << std::endl;
403  for(unsigned int j=0;j<forced_id.size();j++){
404  edm::LogInfo("EvtGenInterface::~EvtGenInterface") << "Forced Paricles are: " << forced_pdgids.at(j) << " " << forced_id.at(j) << std::endl;
405  }
406  // Ignore decays are particles that are not to be decayed by EvtGen
407  if (fPSet->exists("list_ignored_pdgids")){
408  ignore_pdgids = fPSet->getUntrackedParameter< std::vector<int> >("list_ignored_pdgids");
409  }
410 
411  return;
412 }
413 
414 HepMC::GenEvent* EvtGenInterface::decay( HepMC::GenEvent* evt ){
415  if(the_engine->engine() == nullptr){
417  << "The EvtGen code attempted to use a random number engine while\n"
418  << "the engine pointer was null in EvtGenInterface::decay. This might\n"
419  << "mean that the code was modified to generate a random number outside\n"
420  << "the event and beginLuminosityBlock methods, which is not allowed.\n";
421  }
422  CLHEP::RandFlat m_flat(*the_engine->engine(), 0., 1.);
423 
424  // decay all request unforced particles and store the forced decays to later decay one per event
425  unsigned int nisforced=0;
426  std::vector<std::vector<HepMC::GenParticle*> > forcedparticles;
427  for(unsigned int i=0;i<forced_pdgids.size();i++) forcedparticles.push_back(std::vector<HepMC::GenParticle*>());
428 
429  // notice this is a dynamic loop
430  for (HepMC::GenEvent::particle_const_iterator p= evt->particles_begin(); p != evt->particles_end(); ++p){
431  if((*p)->status()==1){ // all particles to be decays are set to status 1 by generator.hadronizer
432  int idHep = (*p)->pdg_id();
433  bool isignore=false;
434  for(unsigned int i=0;i<ignore_pdgids.size();i++){
435  if(idHep==ignore_pdgids[i])isignore=true;
436  }
437  if (!isignore){
438  bool isforced=false;
439  for(unsigned int i=0;i<forced_pdgids.size();i++){
440  if(idHep==forced_pdgids[i]){
441  forcedparticles.at(i).push_back(*p); // storing and counting forced decays.
442  nisforced++;
443  isforced=true;
444  break;
445  }
446  }
447  bool isDefaultEvtGen=false;
448  for(unsigned int i=0;i<m_PDGs.size();i++){
449  if(abs(idHep)==abs(m_PDGs[i])){
450  isDefaultEvtGen=true;
451  break;
452  }
453  }
454  EvtId idEvt = EvtPDL::evtIdFromStdHep(idHep);
455  int ipart = idEvt.getId();
456  EvtDecayTable *evtDecayTable=EvtDecayTable::getInstance();
457  if(!isforced && isDefaultEvtGen && ipart!=-1 && evtDecayTable->getNMode(ipart)!=0){
458  addToHepMC(*p,idEvt,evt,true); // generate decay and remove daugther if they are forced
459  }
460  }
461  }
462  }
463 
464  // decay all forced particles (only 1/event is forced)... with no mixing allowed
465  unsigned int which = (unsigned int)(nisforced*flat());
466  if(which==nisforced && nisforced>0) which=nisforced-1;
467 
468  unsigned int idx=0;
469  for (unsigned int i=0; i<forcedparticles.size(); i++){
470  for (unsigned int j=0; j<forcedparticles.at(i).size(); j++){
471  EvtId idEvt = EvtPDL::evtIdFromStdHep(forcedparticles.at(i).at(j)->pdg_id()); // "standard" decay Id
472  if ( idx==which ) {
473  idEvt = forced_id[i]; // force decay Id
474  edm::LogInfo("EvtGenInterface::decay ") << EvtPDL::getStdHep(idEvt) << " will force to decay " << idx+1
475  << " out of " << nisforced << std::endl;
476  }
477  bool decayed = false;
478  while(!decayed){decayed=addToHepMC(forcedparticles.at(i).at(j),idEvt,evt,false);}
479  idx++;
480  }
481  }
482 
483  // add code to ensure all particles have an end vertex and if they are undecayed with no end vertes set to status 1
484  for (HepMC::GenEvent::particle_const_iterator p= evt->particles_begin(); p != evt->particles_end(); ++p){
485  if((*p)->end_vertex() && (*p)->status() == 1)edm::LogWarning("EvtGenInterface::decay error: incorrect status!"); //(*p)->set_status(2);
486  if((*p)->end_vertex() && (*p)->end_vertex()->particles_out_size()==0) edm::LogWarning("EvtGenInterface::decay error: empty end vertex!");
487  }
488  return evt;
489 }
490 
491 // Add particle to MC
492 bool EvtGenInterface::addToHepMC(HepMC::GenParticle* partHep,const EvtId &idEvt, HepMC::GenEvent* theEvent, bool del_daug) {
493  // Set up the parent particle from the HepMC GenEvent tree.
494  //EvtVector4R pInit(EvtPDL::getMass(idEvt),partHep->momentum().px(),partHep->momentum().py(),partHep->momentum().pz());
495  EvtVector4R pInit(partHep->momentum().e(),partHep->momentum().px(),partHep->momentum().py(),partHep->momentum().pz());
496  EvtParticle* parent = EvtParticleFactory::particleFactory(idEvt, pInit);
497  HepMC::FourVector posHep = (partHep->production_vertex())->position();
498  EvtVector4R vInit(posHep.t(),posHep.x(),posHep.y(),posHep.z());
499  // Reset polarization if requested....
500  if(EvtPDL::getSpinType(idEvt) == EvtSpinType::DIRAC && polarizations.count(partHep->pdg_id())>0){
501  HepMC::FourVector momHep = partHep->momentum();
502  EvtVector4R momEvt;
503  momEvt.set(momHep.t(),momHep.x(),momHep.y(),momHep.z());
504  // Particle is spin 1/2, so we can polarize it. Check polarizations map for particle, grab its polarization if it exists
505  // and make the spin density matrix
506  float pol = polarizations.find(partHep->pdg_id())->second;
507  GlobalVector pPart(momHep.x(), momHep.y(), momHep.z());
508  GlobalVector zHat(0., 0., 1.);
509  GlobalVector zCrossP = zHat.cross(pPart);
510  GlobalVector polVec = pol * zCrossP.unit();
511  EvtSpinDensity theSpinDensity;
512  theSpinDensity.setDim(2);
513  theSpinDensity.set(0, 0, EvtComplex(1./2. + polVec.z()/2., 0.));
514  theSpinDensity.set(0, 1, EvtComplex(polVec.x()/2., -polVec.y()/2.));
515  theSpinDensity.set(1, 0, EvtComplex(polVec.x()/2., polVec.y()/2.));
516  theSpinDensity.set(1, 1, EvtComplex(1./2. - polVec.z()/2., 0.));
517  parent->setSpinDensityForwardHelicityBasis(theSpinDensity);
518  }
519  if(parent){
520  // Generate the event
521  m_EvtGen->generateDecay(parent);
522  if (del_daug) go_through_daughters(parent); // will delete all daugthers which are listed as forced, to allow decay them later
523 
524  // create HepMCTree
525  EvtHepMCEvent evtHepMCEvent;
526  evtHepMCEvent.constructEvent(parent,vInit);
527  HepMC::GenEvent* evtGenHepMCTree = evtHepMCEvent.getEvent();
528  parent->deleteTree();
529 
530  // update the event using a recursive function
531  if(!evtGenHepMCTree->particles_empty()) update_particles(partHep,theEvent,(*evtGenHepMCTree->particles_begin()));
532 
533  } else {
534  // this should never hapend, in such case, speak out.
535  return false;
536  }
537  return true;
538 }
539 
540 //Recursivley add EvtGen decay to to Event Decy tree
542  if(p->end_vertex()){
543  if(!partHep->end_vertex()){
544  HepMC::GenVertex* vtx = new HepMC::GenVertex(p->end_vertex()->position());
545  theEvent->add_vertex(vtx);
546  vtx->add_particle_in(partHep);
547  }
548  if ( p->end_vertex()->particles_out_size()!=0 ){
549 
550  for ( HepMC::GenVertex::particles_out_const_iterator d=p->end_vertex()->particles_out_const_begin();
551  d!=p->end_vertex()->particles_out_const_end();d++ ){
552 
553  HepMC::GenParticle *daughter = new HepMC::GenParticle((*d)->momentum(),(*d)->pdg_id(),(*d)->status());
554  daughter->suggest_barcode(theEvent->particles_size()+1);
555  partHep->end_vertex()->add_particle_out(daughter);
556  if((*d)->end_vertex()) update_particles(daughter,theEvent,(*d)); // if daugthers add them as well
557  }
558  partHep->set_status(p->status());
559  }
560  }
561 }
562 
563 void EvtGenInterface::setRandomEngine(CLHEP::HepRandomEngine* v) {
564  the_engine->setRandomEngine(v);
565  fRandomEngine=v;
566 }
567 
569  if ( !fRandomEngine ) {
570  throw cms::Exception("LogicError")
571  << "EvtGenInterface::flat: Attempt to generate random number when engine pointer is null\n"
572  << "This might mean that the code was modified to generate a random number outside the\n"
573  << "event and beginLuminosityBlock methods, which is not allowed.\n";
574  }
575  return fRandomEngine->flat();
576 }
577 
578 
580  if(p->end_vertex()){
581  if(p->end_vertex()->particles_out_size()!=0){
582  for(HepMC::GenVertex::particles_out_const_iterator d=p->end_vertex()->particles_out_const_begin(); d!=p->end_vertex()->particles_out_const_end();d++){
583  if(abs((*d)->pdg_id())==abs(p->pdg_id())){
584  p=*d;
585  findLastinChain(p);
586  return false;
587  }
588  }
589  }
590  }
591  return true;
592 }
593 
595  if(p->end_vertex()){
596  if(p->end_vertex()->particles_out_size()!=0){
597  return false;
598  }
599  }
600  return true;
601 }
602 
604  int NDaug=part->getNDaug();
605  if (NDaug) {
606  EvtParticle* Daughter;
607  for (int i=0;i<NDaug;i++) {
608  Daughter=part->getDaug(i);
609  int idHep = Daughter->getPDGId();
610  int found=0;
611  for (unsigned int j=0;j<forced_pdgids.size();j++) {
612  if (idHep == forced_pdgids[j]) {
613  found = 1;
614  Daughter->deleteDaughters();
615  break;
616  }
617  }
618  if (!found) go_through_daughters(Daughter);
619  }
620  }
621 }
622 
int i
Definition: DBlmapReader.cc:9
virtual HepMC::GenEvent * decay(HepMC::GenEvent *)
list parent
Definition: dbtoconf.py:74
static unsigned int getId(void)
T y() const
Definition: PV3DBase.h:63
#define NULL
Definition: scimark2.h:8
static double flat()
double v[5][pyjets_maxn]
void go_through_daughters(EvtParticle *part)
virtual void setRandomEngine(CLHEP::HepRandomEngine *v)
bool addToHepMC(HepMC::GenParticle *partHep, const EvtId &idEvt, HepMC::GenEvent *theEvent, bool del_daug)
U second(std::pair< T, U > const &p)
double p[5][pyjets_maxn]
static CLHEP::HepRandomEngine * fRandomEngine
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T z() const
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Abs< T >::type abs(const T &t)
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Vector3DBase unit() const
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void update_particles(HepMC::GenParticle *partHep, HepMC::GenEvent *theEvent, HepMC::GenParticle *p)
EvtGenInterface(const edm::ParameterSet &)
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T x() const
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