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gen::Pythia6Hadronizer Class Reference

#include <Pythia6Hadronizer.h>

Inheritance diagram for gen::Pythia6Hadronizer:
gen::BaseHadronizer

Public Member Functions

const char * classname () const
 
bool decay ()
 
bool declareSpecialSettings (const std::vector< std::string > &)
 
bool declareStableParticles (const std::vector< int > &)
 
void finalizeEvent ()
 
bool generatePartonsAndHadronize ()
 
bool hadronize ()
 
bool initializeForExternalPartons ()
 
bool initializeForInternalPartons ()
 
 Pythia6Hadronizer (edm::ParameterSet const &ps)
 
bool readSettings (int)
 
bool residualDecay ()
 
void statistics ()
 
 ~Pythia6Hadronizer ()
 
- Public Member Functions inherited from gen::BaseHadronizer
 BaseHadronizer (edm::ParameterSet const &ps)
 
edm::EventgetEDMEvent () const
 
HepMC::GenEvent * getGenEvent ()
 
GenEventInfoProductgetGenEventInfo ()
 
GenRunInfoProductgetGenRunInfo ()
 
const boost::shared_ptr
< lhef::LHERunInfo > & 
getLHERunInfo () const
 
void resetEvent (HepMC::GenEvent *event)
 
void resetEventInfo (GenEventInfoProduct *eventInfo)
 
virtual bool select (HepMC::GenEvent *) const
 
void setEDMEvent (edm::Event &event)
 
void setLHEEvent (lhef::LHEEvent *event)
 
void setLHERunInfo (lhef::LHERunInfo *runInfo)
 
void setRandomEngine (CLHEP::HepRandomEngine *v)
 
std::vector< std::string > const & sharedResources () const
 
 ~BaseHadronizer ()
 

Static Public Member Functions

static JetMatchinggetJetMatching ()
 

Private Types

enum  {
  PP, PPbar, ElectronPositron, ElectronProton,
  PositronProton
}
 

Private Member Functions

virtual void doSetRandomEngine (CLHEP::HepRandomEngine *v) override
 
virtual std::vector
< std::string > const & 
doSharedResources () const override
 
void fillTmpStorage ()
 
void flushTmpStorage ()
 
void imposeProperTime ()
 

Private Attributes

double fBeam1PZ
 
double fBeam2PZ
 
double fCOMEnergy
 
bool fConvertToPDG
 
bool fDisplayPythiaBanner
 
bool fDisplayPythiaCards
 
bool fGluinoHadronsEnabled
 
bool fHepMCVerbosity
 
bool fImposeProperTime
 
int fInitialState
 
unsigned int fMaxEventsToPrint
 
Pythia6ServicefPy6Service
 
unsigned int fPythiaListVerbosity
 
bool fStopHadronsEnabled
 

Static Private Attributes

static JetMatchingfJetMatching = 0
 
static const std::vector
< std::string > 
theSharedResources
 

Additional Inherited Members

- Protected Member Functions inherited from gen::BaseHadronizer
std::auto_ptr< HepMC::GenEvent > & event ()
 
std::auto_ptr
< GenEventInfoProduct > & 
eventInfo ()
 
lhef::LHEEventlheEvent ()
 
lhef::LHERunInfolheRunInfo ()
 
GenRunInfoProductrunInfo ()
 

Detailed Description

Definition at line 42 of file Pythia6Hadronizer.h.

Member Enumeration Documentation

anonymous enum
private

Constructor & Destructor Documentation

gen::Pythia6Hadronizer::Pythia6Hadronizer ( edm::ParameterSet const &  ps)

Definition at line 104 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), edm::errors::Configuration, gather_cfg::cout, gen::JetMatching::create(), ElectronPositron, ElectronProton, edm::hlt::Exception, edm::ParameterSet::exists(), fBeam1PZ, fBeam2PZ, fConvertToPDG, fDisplayPythiaBanner, fDisplayPythiaCards, fGluinoHadronsEnabled, fImposeProperTime, fInitialState, fJetMatching, flushTmpStorage(), fStopHadronsEnabled, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), PositronProton, PP, and PPbar.

105  : BaseHadronizer(ps),
106  fPy6Service( new Pythia6ServiceWithCallback(ps) ), // this will store py6 params for further settings
107  fInitialState(PP),
108  fCOMEnergy(ps.getParameter<double>("comEnergy")),
109  fHepMCVerbosity(ps.getUntrackedParameter<bool>("pythiaHepMCVerbosity",false)),
110  fMaxEventsToPrint(ps.getUntrackedParameter<int>("maxEventsToPrint", 0)),
111  fPythiaListVerbosity(ps.getUntrackedParameter<int>("pythiaPylistVerbosity", 0)),
112  fDisplayPythiaBanner(ps.getUntrackedParameter<bool>("displayPythiaBanner",false)),
113  fDisplayPythiaCards(ps.getUntrackedParameter<bool>("displayPythiaCards",false))
114 {
115 
116 
117  // J.Y.: the following 3 parameters are hacked "for a reason"
118  //
119  if ( ps.exists( "PPbarInitialState" ) )
120  {
121  if ( fInitialState == PP )
122  {
124  edm::LogInfo("GeneratorInterface|Pythia6Interface")
125  << "Pythia6 will be initialized for PROTON-ANTIPROTON INITIAL STATE. "
126  << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
127  std::cout << "Pythia6 will be initialized for PROTON-ANTIPROTON INITIAL STATE." << std::endl;
128  std::cout << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
129  }
130  else
131  {
132  // probably need to throw on attempt to override ?
133  }
134  }
135  else if ( ps.exists( "ElectronPositronInitialState" ) )
136  {
137  if ( fInitialState == PP )
138  {
140  edm::LogInfo("GeneratorInterface|Pythia6Interface")
141  << "Pythia6 will be initialized for ELECTRON-POSITRON INITIAL STATE. "
142  << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
143  std::cout << "Pythia6 will be initialized for ELECTRON-POSITRON INITIAL STATE." << std::endl;
144  std::cout << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
145  }
146  else
147  {
148  // probably need to throw on attempt to override ?
149  }
150  }
151  else if ( ps.exists( "ElectronProtonInitialState" ) )
152  {
153  if ( fInitialState == PP )
154  {
156  fBeam1PZ = (ps.getParameter<edm::ParameterSet>("ElectronProtonInitialState")).getParameter<double>("electronMomentum");
157  fBeam2PZ = (ps.getParameter<edm::ParameterSet>("ElectronProtonInitialState")).getParameter<double>("protonMomentum");
158  edm::LogInfo("GeneratorInterface|Pythia6Interface")
159  << "Pythia6 will be initialized for ELECTRON-PROTON INITIAL STATE. "
160  << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
161  std::cout << "Pythia6 will be initialized for ELECTRON-PROTON INITIAL STATE." << std::endl;
162  std::cout << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
163  }
164  else
165  {
166  // probably need to throw on attempt to override ?
167  }
168  }
169  else if ( ps.exists( "PositronProtonInitialState" ) )
170  {
171  if ( fInitialState == PP )
172  {
174  fBeam1PZ = (ps.getParameter<edm::ParameterSet>("ElectronProtonInitialState")).getParameter<double>("positronMomentum");
175  fBeam2PZ = (ps.getParameter<edm::ParameterSet>("ElectronProtonInitialState")).getParameter<double>("protonMomentum");
176  edm::LogInfo("GeneratorInterface|Pythia6Interface")
177  << "Pythia6 will be initialized for POSITRON-PROTON INITIAL STATE. "
178  << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
179  std::cout << "Pythia6 will be initialized for POSITRON-PROTON INITIAL STATE." << std::endl;
180  std::cout << "This is a user-request change from the DEFAULT PROTON-PROTON initial state." << std::endl;
181  }
182  else
183  {
184  // throw on unknown initial state !
185  throw edm::Exception(edm::errors::Configuration,"Pythia6Interface")
186  <<" UNKNOWN INITIAL STATE. \n The allowed initial states are: PP, PPbar, ElectronPositron, ElectronProton, and PositronProton \n";
187  }
188  }
189 
190 
191  // J.Y.: the following 4 params are "hacked", in the sense
192  // that they're tracked but get in optionally;
193  // this will be fixed once we update all applications
194  //
195 
196  fStopHadronsEnabled = false;
197  if ( ps.exists( "stopHadrons" ) )
198  fStopHadronsEnabled = ps.getParameter<bool>("stopHadrons") ;
199 
200  fGluinoHadronsEnabled = false;
201  if ( ps.exists( "gluinoHadrons" ) )
202  fGluinoHadronsEnabled = ps.getParameter<bool>("gluinoHadrons");
203 
204  fImposeProperTime = false;
205  if ( ps.exists( "imposeProperTime" ) )
206  {
207  fImposeProperTime = ps.getParameter<bool>("imposeProperTime");
208  }
209 
210  fConvertToPDG = false;
211  if ( ps.exists( "doPDGConvert" ) )
212  fConvertToPDG = ps.getParameter<bool>("doPDGConvert");
213 
214  if ( ps.exists("jetMatching") )
215  {
216  edm::ParameterSet jmParams =
218  "jetMatching");
219 
220  fJetMatching = JetMatching::create(jmParams).release();
221  }
222 
223  // first of all, silence Pythia6 banner printout, unless display requested
224  //
225  if ( !fDisplayPythiaBanner )
226  {
227  if (!call_pygive("MSTU(12)=12345"))
228  {
229  throw edm::Exception(edm::errors::Configuration,"PythiaError")
230  <<" Pythia did not accept MSTU(12)=12345";
231  }
232  }
233 
234 // silence printouts from PYGIVE, unless display requested
235 //
236  if ( ! fDisplayPythiaCards )
237  {
238  if (!call_pygive("MSTU(13)=0"))
239  {
240  throw edm::Exception(edm::errors::Configuration,"PythiaError")
241  <<" Pythia did not accept MSTU(13)=0";
242  }
243  }
244 
245  // tmp stuff to deal with EvtGen corrupting pyjets
246  // NPartsBeforeDecays = 0;
247  flushTmpStorage();
248 
249 }
static std::auto_ptr< JetMatching > create(const edm::ParameterSet &params)
Definition: JetMatching.cc:47
T getUntrackedParameter(std::string const &, T const &) const
unsigned int fPythiaListVerbosity
BaseHadronizer(edm::ParameterSet const &ps)
bool call_pygive(const std::string &line)
Pythia6Service * fPy6Service
tuple cout
Definition: gather_cfg.py:121
static JetMatching * fJetMatching
gen::Pythia6Hadronizer::~Pythia6Hadronizer ( )

Definition at line 251 of file Pythia6Hadronizer.cc.

References fJetMatching, and fPy6Service.

252 {
253  if ( fPy6Service != 0 ) delete fPy6Service;
254  if ( fJetMatching != 0 ) delete fJetMatching;
255 }
Pythia6Service * fPy6Service
static JetMatching * fJetMatching

Member Function Documentation

const char * gen::Pythia6Hadronizer::classname ( ) const

Definition at line 1039 of file Pythia6Hadronizer.cc.

1040 {
1041  return "gen::Pythia6Hadronizer";
1042 }
bool gen::Pythia6Hadronizer::decay ( )

Definition at line 566 of file Pythia6Hadronizer.cc.

567 {
568  return true;
569 }
bool gen::Pythia6Hadronizer::declareSpecialSettings ( const std::vector< std::string > &  settings)

Definition at line 912 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), edm::errors::Configuration, edm::hlt::Exception, spr::find(), contentValuesFiles::number, gen::pycomp_(), gen::pydat1_, AlCaHLTBitMon_QueryRunRegistry::string, and relativeConstraints::value.

913 {
914 
915  for ( unsigned int iss=0; iss<settings.size(); iss++ )
916  {
917  if ( settings[iss].find("QED-brem-off") == std::string::npos ) continue;
918  size_t fnd1 = settings[iss].find(":");
919  if ( fnd1 == std::string::npos ) continue;
920 
921  std::string value = settings[iss].substr (fnd1+1);
922 
923  if ( value == "all" )
924  {
925  call_pygive( "MSTJ(41)=3" );
926  }
927  else
928  {
929  int number = atoi(value.c_str());
930  int PyID = HepPID::translatePDTtoPythia( number );
931  int pyCode = pycomp_( PyID );
932  if ( pyCode > 0 )
933  {
934 
935  // first of all, check if mstj(39) is 0 or if we're trying to override user's setting
936  // if so, throw an exception and stop, because otherwise the user will get behaviour
937  // that's different from what she/he expects !
938  if ( pydat1_.mstj[38] > 0 && pydat1_.mstj[38] != pyCode )
939  {
940  throw edm::Exception(edm::errors::Configuration,"Pythia6Interface")
941  << " Fatal conflict: \n mandatory internal directive to set MSTJ(39)=" << pyCode
942  << " overrides user setting MSTJ(39)=" << pydat1_.mstj[38] << " - user will not get expected behaviour \n";
943  }
944  std::ostringstream pyCard ;
945  pyCard << "MSTJ(39)=" << pyCode ;
946  call_pygive( pyCard.str() );
947  }
948  }
949  }
950 
951  return true;
952 
953 }
struct gen::@520 pydat1_
bool call_pygive(const std::string &line)
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
int pycomp_(int &)
bool gen::Pythia6Hadronizer::declareStableParticles ( const std::vector< int > &  pdg)

Definition at line 890 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), i, and gen::pycomp_().

891 {
892 
893  for ( unsigned int i=0; i<pdg.size(); i++ )
894  {
895  int PyID = HepPID::translatePDTtoPythia( pdg[i] );
896  // int PyID = pdg[i];
897  int pyCode = pycomp_( PyID );
898  if ( pyCode > 0 )
899  {
900  std::ostringstream pyCard ;
901  pyCard << "MDCY(" << pyCode << ",1)=0";
902 /* this is a test printout...
903  std::cout << "pdg= " << pdg[i] << " " << pyCard.str() << std::endl;
904 */
905  call_pygive( pyCard.str() );
906  }
907  }
908 
909  return true;
910 }
int i
Definition: DBlmapReader.cc:9
bool call_pygive(const std::string &line)
int pycomp_(int &)
void gen::Pythia6Hadronizer::doSetRandomEngine ( CLHEP::HepRandomEngine *  v)
overrideprivatevirtual

Reimplemented from gen::BaseHadronizer.

Definition at line 257 of file Pythia6Hadronizer.cc.

References fPy6Service, and gen::Pythia6Service::setRandomEngine().

258 {
260 }
double v[5][pyjets_maxn]
Pythia6Service * fPy6Service
void setRandomEngine(CLHEP::HepRandomEngine *v)
virtual std::vector<std::string> const& gen::Pythia6Hadronizer::doSharedResources ( ) const
inlineoverrideprivatevirtual

Reimplemented from gen::BaseHadronizer.

Definition at line 73 of file Pythia6Hadronizer.h.

References theSharedResources.

73 { return theSharedResources; }
static const std::vector< std::string > theSharedResources
void gen::Pythia6Hadronizer::fillTmpStorage ( )
private

Definition at line 280 of file Pythia6Hadronizer.cc.

References i, gen::pyjets_local, and mathSSE::return().

Referenced by generatePartonsAndHadronize(), and hadronize().

281 {
282 
283  pyjets_local.n = pyjets.n;
284  pyjets_local.npad = pyjets.npad;
285  for ( int ip=0; ip<pyjets_maxn; ip++ )
286  {
287  for ( int i=0; i<5; i++ )
288  {
289  pyjets_local.k[i][ip] = pyjets.k[i][ip];
290  pyjets_local.p[i][ip] = pyjets.p[i][ip];
291  pyjets_local.v[i][ip] = pyjets.v[i][ip];
292  }
293  }
294 
295  return ;
296 
297 }
int i
Definition: DBlmapReader.cc:9
return((rh^lh)&mask)
static struct gen::@488 pyjets_local
void gen::Pythia6Hadronizer::finalizeEvent ( )

Definition at line 299 of file Pythia6Hadronizer.cc.

References funct::abs(), gen::call_pylist(), gather_cfg::cout, fwrapper::cs, gen::BaseHadronizer::event(), gen::BaseHadronizer::eventInfo(), fConvertToPDG, fDisplayPythiaCards, fHepMCVerbosity, lhef::LHEEvent::fillEventInfo(), lhef::LHEEvent::fillPdfInfo(), fImposeProperTime, fMaxEventsToPrint, fPythiaListVerbosity, imposeProperTime(), gen::BaseHadronizer::lheEvent(), gen::BaseHadronizer::lheRunInfo(), pydat1, pyint1, pypars, and mathSSE::sqrt().

300 {
301 
302  bool lhe = lheEvent() != 0;
303 
304  HepMC::PdfInfo pdf;
305 
306  // if we are in hadronizer mode, we can pass on information from
307  // the LHE input
308  if (lhe)
309  {
310  lheEvent()->fillEventInfo( event().get() );
311  lheEvent()->fillPdfInfo( &pdf );
312  }
313  else
314  {
315  // filling in factorization "Q scale" now! pthat moved to binningValues()
316  //
317 
318  if ( event()->signal_process_id() <= 0) event()->set_signal_process_id( pypars.msti[0] );
319  if ( event()->event_scale() <=0 ) event()->set_event_scale( pypars.pari[22] );
320  if ( event()->alphaQED() <= 0) event()->set_alphaQED( pyint1.vint[56] );
321  if ( event()->alphaQCD() <= 0) event()->set_alphaQCD( pyint1.vint[57] );
322 
323  // get pdf info directly from Pythia6 and set it up into HepMC::GenEvent
324  // S. Mrenna: Prefer vint block
325  //
326  if ( pdf.id1() <= 0) pdf.set_id1( pyint1.mint[14] == 21 ? 0 : pyint1.mint[14] );
327  if ( pdf.id2() <= 0) pdf.set_id2( pyint1.mint[15] == 21 ? 0 : pyint1.mint[15] );
328  if ( pdf.x1() <= 0) pdf.set_x1( pyint1.vint[40] );
329  if ( pdf.x2() <= 0) pdf.set_x2( pyint1.vint[41] );
330  if ( pdf.pdf1() <= 0) pdf.set_pdf1( pyint1.vint[38] / pyint1.vint[40] );
331  if ( pdf.pdf2() <= 0) pdf.set_pdf2( pyint1.vint[39] / pyint1.vint[41] );
332  if ( pdf.scalePDF() <= 0) pdf.set_scalePDF( pyint1.vint[50] );
333  }
334 
335 /* 9/9/2010 - JVY: This is the old piece of code - I can't remember why we implemented it this way.
336  However, it's causing problems with pdf1 & pdf2 when processing LHE samples,
337  specifically, because both are set to -1, it tries to fill with Py6 numbers that
338  are NOT valid/right at this point !
339  In general, for LHE/ME event processing we should implement the correct calculation
340  of the pdf's, rather than using py6 ones.
341 
342  // filling in factorization "Q scale" now! pthat moved to binningValues()
343 
344  if (!lhe || event()->signal_process_id() < 0) event()->set_signal_process_id( pypars.msti[0] );
345  if (!lhe || event()->event_scale() < 0) event()->set_event_scale( pypars.pari[22] );
346  if (!lhe || event()->alphaQED() < 0) event()->set_alphaQED( pyint1.vint[56] );
347  if (!lhe || event()->alphaQCD() < 0) event()->set_alphaQCD( pyint1.vint[57] );
348 
349  // get pdf info directly from Pythia6 and set it up into HepMC::GenEvent
350  // S. Mrenna: Prefer vint block
351  //
352  if (!lhe || pdf.id1() < 0) pdf.set_id1( pyint1.mint[14] == 21 ? 0 : pyint1.mint[14] );
353  if (!lhe || pdf.id2() < 0) pdf.set_id2( pyint1.mint[15] == 21 ? 0 : pyint1.mint[15] );
354  if (!lhe || pdf.x1() < 0) pdf.set_x1( pyint1.vint[40] );
355  if (!lhe || pdf.x2() < 0) pdf.set_x2( pyint1.vint[41] );
356  if (!lhe || pdf.pdf1() < 0) pdf.set_pdf1( pyint1.vint[38] / pyint1.vint[40] );
357  if (!lhe || pdf.pdf2() < 0) pdf.set_pdf2( pyint1.vint[39] / pyint1.vint[41] );
358  if (!lhe || pdf.scalePDF() < 0) pdf.set_scalePDF( pyint1.vint[50] );
359 */
360 
361  event()->set_pdf_info( pdf ) ;
362 
363  HepMC::GenCrossSection xsec;
364  double cs = pypars.pari[0]; // cross section in mb
365  cs *= 1.0e9; // translate to pb
366  double cserr = cs / sqrt(pypars.msti[4]);
367  xsec.set_cross_section(cs, cserr);
368  event()->set_cross_section(xsec);
369 
370  // this is "standard" Py6 event weight (corresponds to PYINT1/VINT(97)
371  //
372  if (lhe && std::abs(lheRunInfo()->getHEPRUP()->IDWTUP) == 4)
373  // translate mb to pb (CMS/Gen "convention" as of May 2009)
374  event()->weights().push_back( pyint1.vint[96] * 1.0e9 );
375  else
376  event()->weights().push_back( pyint1.vint[96] );
377  //
378  // this is event weight as 1./VINT(99) (PYINT1/VINT(99) is returned by the PYEVWT)
379  //
380  event()->weights().push_back( 1./(pyint1.vint[98]) );
381 
382  // now create the GenEventInfo product from the GenEvent and fill
383  // the missing pieces
384 
385  eventInfo().reset( new GenEventInfoProduct( event().get() ) );
386 
387  // in Pythia6 pthat is used to subdivide samples into different bins
388  // in LHE mode the binning is done by the external ME generator
389  // which is likely not pthat, so only filling it for Py6 internal mode
390  if (!lhe)
391  {
392  eventInfo()->setBinningValues( std::vector<double>(1, pypars.pari[16]) );
393  }
394 
395  // here we treat long-lived particles
396  //
397  if ( fImposeProperTime || pydat1.mstj[21]==3 || pydat1.mstj[21]==4 ) imposeProperTime();
398 
399  // convert particle IDs Py6->PDG, if requested
400  if ( fConvertToPDG ) {
401  for ( HepMC::GenEvent::particle_iterator part = event()->particles_begin();
402  part != event()->particles_end(); ++part) {
403  (*part)->set_pdg_id(HepPID::translatePythiatoPDT((*part)->pdg_id()));
404  }
405  }
406 
407  // service printouts, if requested
408  //
409  if (fMaxEventsToPrint > 0)
410  {
413  if (fHepMCVerbosity)
414  {
415  std::cout << "Event process = " << pypars.msti[0] << std::endl
416  << "----------------------" << std::endl;
417  event()->print();
418  }
419  }
420 
421  // dump of all settings after all initializations
422  if ( fDisplayPythiaCards ) {
423  fDisplayPythiaCards = false;
424  call_pylist(12);
425  call_pylist(13);
426  std::cout << "\n PYPARS \n" << std::endl;
427  std::cout << std::setw(5) << std::fixed << "I"
428  << std::setw(10) << std::fixed << "MSTP(I)"
429  << std::setw(16) << std::fixed << "PARP(I)"
430  << std::setw(10) << std::fixed << "MSTI(I)"
431  << std::setw(16) << std::fixed << "PARI(I)" << std::endl;
432  for ( unsigned int ind=0; ind < 200; ind++ ) {
433  std::cout << std::setw(5) << std::fixed << ind+1
434  << std::setw(10) << std::fixed << pypars.mstp[ind]
435  << std::setw(16) << std::fixed << pypars.parp[ind]
436  << std::setw(10) << std::fixed << pypars.msti[ind]
437  << std::setw(16) << std::fixed << pypars.pari[ind] << std::endl;
438  }
439  }
440 
441  return;
442 }
#define pydat1
auto_ptr< ClusterSequence > cs
unsigned int fPythiaListVerbosity
void fillEventInfo(HepMC::GenEvent *hepmc) const
Definition: LHEEvent.cc:249
std::auto_ptr< HepMC::GenEvent > & event()
void call_pylist(int mode)
lhef::LHEEvent * lheEvent()
T sqrt(T t)
Definition: SSEVec.h:48
void fillPdfInfo(HepMC::PdfInfo *info) const
Definition: LHEEvent.cc:221
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
#define pyint1
std::auto_ptr< GenEventInfoProduct > & eventInfo()
lhef::LHERunInfo * lheRunInfo()
#define pypars
part
Definition: HCALResponse.h:20
tuple cout
Definition: gather_cfg.py:121
void gen::Pythia6Hadronizer::flushTmpStorage ( )
private

Definition at line 262 of file Pythia6Hadronizer.cc.

References i, and gen::pyjets_local.

Referenced by generatePartonsAndHadronize(), hadronize(), and Pythia6Hadronizer().

263 {
264 
265  pyjets_local.n = 0 ;
266  pyjets_local.npad = 0 ;
267  for ( int ip=0; ip<pyjets_maxn; ip++ )
268  {
269  for ( int i=0; i<5; i++ )
270  {
271  pyjets_local.k[i][ip] = 0;
272  pyjets_local.p[i][ip] = 0.;
273  pyjets_local.v[i][ip] = 0.;
274  }
275  }
276  return;
277 
278 }
int i
Definition: DBlmapReader.cc:9
static struct gen::@488 pyjets_local
bool gen::Pythia6Hadronizer::generatePartonsAndHadronize ( )

Definition at line 444 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), conv, gen::BaseHadronizer::event(), fGluinoHadronsEnabled, fillTmpStorage(), flushTmpStorage(), fPy6Service, fStopHadronsEnabled, gen::FortranCallback::getInstance(), gen::pyglfr_(), pyint1, gen::pystfr_(), and gen::FortranCallback::resetIterationsPerEvent().

445 {
446  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
447 
449 
450  // generate event with Pythia6
451  //
452 
454  {
455  // call_pygive("MSTJ(1)=-1");
456  call_pygive("MSTJ(14)=-1");
457  }
458 
459  call_pyevnt();
460 
462  {
463  // call_pygive("MSTJ(1)=1");
464  call_pygive("MSTJ(14)=1");
465  int ierr=0;
466  if ( fStopHadronsEnabled )
467  {
468  pystfr_(ierr);
469  if ( ierr != 0 ) // skip failed events
470  {
471  event().reset();
472  return false;
473  }
474  }
476  }
477 
478  if ( pyint1.mint[50] != 0 ) // skip event if py6 considers it bad
479  {
480  event().reset();
481  return false;
482  }
483 
484  call_pyhepc(1);
485  event().reset( conv.read_next_event() );
486 
487  // this is to deal with post-gen tools & residualDecay() that may reuse PYJETS
488  //
489  flushTmpStorage();
490  fillTmpStorage();
491 
492  return true;
493 }
static HepMC::IO_HEPEVT conv
bool call_pygive(const std::string &line)
std::auto_ptr< HepMC::GenEvent > & event()
#define pyint1
void pystfr_(int &)
static FortranCallback * getInstance()
Pythia6Service * fPy6Service
void pyglfr_()
static JetMatching* gen::Pythia6Hadronizer::getJetMatching ( )
inlinestatic

Definition at line 60 of file Pythia6Hadronizer.h.

References fJetMatching.

Referenced by gen::Pythia6ServiceWithCallback::upEvnt(), and gen::Pythia6ServiceWithCallback::upVeto().

60 { return fJetMatching; }
static JetMatching * fJetMatching
bool gen::Pythia6Hadronizer::hadronize ( )

Definition at line 495 of file Pythia6Hadronizer.cc.

References gen::JetMatching::beforeHadronisation(), gen::call_pygive(), conv, lhef::LHEEvent::count(), gen::BaseHadronizer::event(), fGluinoHadronsEnabled, fillTmpStorage(), fJetMatching, flushTmpStorage(), fPy6Service, fStopHadronsEnabled, gen::FortranCallback::getInstance(), hepeup_, lhef::LHERunInfo::kAccepted, lhef::LHERunInfo::kSelected, gen::BaseHadronizer::lheEvent(), HEPEUP_::nup, gen::pyglfr_(), pyint1, pypars, gen::pystfr_(), gen::FortranCallback::resetIterationsPerEvent(), gen::JetMatching::resetMatchingStatus(), and gen::FortranCallback::setLHEEvent().

496 {
497  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
498 
501  if ( fJetMatching )
502  {
505  }
506 
507  // generate event with Pythia6
508  //
510  {
511  call_pygive("MSTJ(1)=-1");
512  call_pygive("MSTJ(14)=-1");
513  }
514 
515  call_pyevnt();
516 
517  if ( FortranCallback::getInstance()->getIterationsPerEvent() > 1 ||
518  hepeup_.nup <= 0 || pypars.msti[0] == 1 )
519  {
520  // update LHE matching statistics
522 
523  event().reset();
524  return false;
525  }
526 
527  // update LHE matching statistics
528  //
530 
532  {
533  call_pygive("MSTJ(1)=1");
534  call_pygive("MSTJ(14)=1");
535  int ierr = 0;
536  if ( fStopHadronsEnabled )
537  {
538  pystfr_(ierr);
539  if ( ierr != 0 ) // skip failed events
540  {
541  event().reset();
542  return false;
543  }
544  }
545 
547  }
548 
549  if ( pyint1.mint[50] != 0 ) // skip event if py6 considers it bad
550  {
551  event().reset();
552  return false;
553  }
554 
555  call_pyhepc(1);
556  event().reset( conv.read_next_event() );
557 
558  // this is to deal with post-gen tools and/or residualDecay(), that may reuse PYJETS
559  //
560  flushTmpStorage();
561  fillTmpStorage();
562 
563  return true;
564 }
static HepMC::IO_HEPEVT conv
struct HEPEUP_ hepeup_
bool call_pygive(const std::string &line)
void count(LHERunInfo::CountMode count, double weight=1.0, double matchWeight=1.0)
Definition: LHEEvent.cc:207
virtual void beforeHadronisation(const lhef::LHEEvent *event)
Definition: JetMatching.cc:31
std::auto_ptr< HepMC::GenEvent > & event()
void resetMatchingStatus()
Definition: JetMatching.h:75
lhef::LHEEvent * lheEvent()
#define pyint1
void pystfr_(int &)
static FortranCallback * getInstance()
Pythia6Service * fPy6Service
#define pypars
void setLHEEvent(lhef::LHEEvent *lhee)
void pyglfr_()
static JetMatching * fJetMatching
void gen::Pythia6Hadronizer::imposeProperTime ( )
private

Definition at line 955 of file Pythia6Hadronizer.cc.

References funct::abs(), gen::FortranInstance::call(), gen::BaseHadronizer::event(), fPy6Service, cmsBatch::log, gen::pycomp_(), pydat1, gen::pyr_(), mathSSE::sqrt(), edmStreamStallGrapher::t, vbegin, vend, x, detailsBasic3DVector::y, and detailsBasic3DVector::z.

Referenced by finalizeEvent().

956 {
957 
958  // this is practically a copy/paste of the original code by J.Alcaraz,
959  // taken directly from PythiaSource
960 
961  int dumm=0;
962  HepMC::GenEvent::vertex_const_iterator vbegin = event()->vertices_begin();
963  HepMC::GenEvent::vertex_const_iterator vend = event()->vertices_end();
964  HepMC::GenEvent::vertex_const_iterator vitr = vbegin;
965  for (; vitr != vend; ++vitr )
966  {
967  HepMC::GenVertex::particle_iterator pbegin = (*vitr)->particles_begin(HepMC::children);
968  HepMC::GenVertex::particle_iterator pend = (*vitr)->particles_end(HepMC::children);
969  HepMC::GenVertex::particle_iterator pitr = pbegin;
970  for (; pitr != pend; ++pitr)
971  {
972  if ((*pitr)->end_vertex()) continue;
973  if ((*pitr)->status()!=1) continue;
974 
975  int pdgcode= abs((*pitr)->pdg_id());
976  // Do nothing if the particle is not expected to decay
977  if ( pydat3.mdcy[0][pycomp_(pdgcode)-1] !=1 ) continue;
978 
979  double ctau = pydat2.pmas[3][pycomp_(pdgcode)-1];
980  HepMC::FourVector mom = (*pitr)->momentum();
981  HepMC::FourVector vin = (*vitr)->position();
982  double x = 0.;
983  double y = 0.;
984  double z = 0.;
985  double t = 0.;
986  bool decayInRange = false;
987  while (!decayInRange)
988  {
989  double unif_rand = fPy6Service->call(pyr_, &dumm);
990  // Value of 0 is excluded, so following line is OK
991  double proper_length = - ctau * log(unif_rand);
992  double factor = proper_length/mom.m();
993  x = vin.x() + factor * mom.px();
994  y = vin.y() + factor * mom.py();
995  z = vin.z() + factor * mom.pz();
996  t = vin.t() + factor * mom.e();
997  // Decay must be happen outside a cylindrical region
998  if (pydat1.mstj[21]==4) {
999  if (std::sqrt(x*x+y*y)>pydat1.parj[72] || fabs(z)>pydat1.parj[73]) decayInRange = true;
1000  // Decay must be happen outside a given sphere
1001  }
1002  else if (pydat1.mstj[21]==3) {
1003  if (std::sqrt(x*x+y*y+z*z)>pydat1.parj[71]) decayInRange = true;
1004  }
1005  // Decay is always OK otherwise
1006  else {
1007  decayInRange = true;
1008  }
1009  }
1010 
1011  HepMC::GenVertex* vdec = new HepMC::GenVertex(HepMC::FourVector(x,y,z,t));
1012  event()->add_vertex(vdec);
1013  vdec->add_particle_in((*pitr));
1014  }
1015  }
1016 
1017  return;
1018 
1019 }
#define pydat1
void call(void(&fn)())
#define vend()
Definition: vmac.h:41
float float float z
std::auto_ptr< HepMC::GenEvent > & event()
T sqrt(T t)
Definition: SSEVec.h:48
#define vbegin()
Definition: vmac.h:34
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int pycomp_(int &)
Pythia6Service * fPy6Service
Definition: DDAxes.h:10
double pyr_(int *idummy)
tuple log
Definition: cmsBatch.py:347
bool gen::Pythia6Hadronizer::initializeForExternalPartons ( )

Definition at line 764 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), gen::Pythia6Service::closeSLHA(), fGluinoHadronsEnabled, lhef::LHERunInfo::findHeader(), fJetMatching, fPy6Service, fStopHadronsEnabled, gen::FortranCallback::getInstance(), gen::JetMatching::init(), gen::BaseHadronizer::lheRunInfo(), gen::pyglrhad_(), gen::pystrhad_(), gen::FortranCallback::setLHERunInfo(), gen::Pythia6Service::setPYUPDAParams(), and gen::Pythia6Service::setSLHAFromHeader().

765 {
766  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
767 
768  // note: CSA mode is NOT supposed to work with external partons !!!
769 
770  // fPy6Service->setGeneralParams();
771 
773 
775 
776  if ( fStopHadronsEnabled )
777  {
778  // overwrite mstp(111), no matter what
779  call_pygive("MSTP(111)=0");
780  pystrhad_();
781  call_pygive("MWID(302)=0"); // I don't know if this is specific to processing ME/LHE only,
782  call_pygive("MDCY(302,1)=0"); // or this should also be the case for full event...
783  // anyway, this comes from experience of processing MG events
784  }
785 
786  if ( fGluinoHadronsEnabled )
787  {
788  // overwrite mstp(111), no matter what
789  call_pygive("MSTP(111)=0");
790  pyglrhad_();
791  //call_pygive("MWID(309)=0");
792  //call_pygive("MDCY(309,1)=0");
793  }
794 
795  call_pyinit("USER", "", "", 0.0);
796 
798 
799  std::vector<std::string> slha = lheRunInfo()->findHeader("slha");
800  if (!slha.empty()) {
801  edm::LogInfo("Generator|LHEInterface")
802  << "Pythia6 hadronisation found an SLHA header, "
803  << "will be passed on to Pythia." << std::endl;
806  }
807 
808  if ( fJetMatching )
809  {
811 // FIXME: the jet matching routine might not be interested in PS callback
812  call_pygive("MSTP(143)=1");
813  }
814 
815  return true;
816 }
bool call_pygive(const std::string &line)
void setLHERunInfo(lhef::LHERunInfo *lheri)
void pyglrhad_()
void setSLHAFromHeader(const std::vector< std::string > &lines)
void setPYUPDAParams(bool afterPyinit)
lhef::LHERunInfo * lheRunInfo()
static FortranCallback * getInstance()
Pythia6Service * fPy6Service
std::vector< std::string > findHeader(const std::string &tag) const
Definition: LHERunInfo.cc:529
virtual void init(const lhef::LHERunInfo *runInfo)
Definition: JetMatching.cc:27
void pystrhad_()
static JetMatching * fJetMatching
bool gen::Pythia6Hadronizer::initializeForInternalPartons ( )

Definition at line 818 of file Pythia6Hadronizer.cc.

References gen::call_pygive(), gen::Pythia6Service::closeSLHA(), edm::errors::Configuration, ElectronPositron, ElectronProton, edm::hlt::Exception, fBeam1PZ, fBeam2PZ, fCOMEnergy, fGluinoHadronsEnabled, fInitialState, fPy6Service, fStopHadronsEnabled, PositronProton, PP, PPbar, gen::pyglrhad_(), gen::pystrhad_(), and gen::Pythia6Service::setPYUPDAParams().

819 {
820 
821  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
822 
824 
825  if ( fStopHadronsEnabled )
826  {
827  // overwrite mstp(111), no matter what
828  call_pygive("MSTP(111)=0");
829  pystrhad_();
830  }
831 
832  if ( fGluinoHadronsEnabled )
833  {
834  // overwrite mstp(111), no matter what
835  call_pygive("MSTP(111)=0");
836  pyglrhad_();
837  }
838 
839  if ( fInitialState == PP ) // default
840  {
841  call_pyinit("CMS", "p", "p", fCOMEnergy);
842  }
843  else if ( fInitialState == PPbar )
844  {
845  call_pyinit( "CMS", "p", "pbar", fCOMEnergy);
846  }
847  else if ( fInitialState == ElectronPositron )
848  {
849  call_pyinit( "CMS", "e+", "e-", fCOMEnergy );
850  }
851  else if ( fInitialState == ElectronProton)
852  {
853  // set p(1,i) & p(2,i) for the beams in pyjets !
854  pyjets.p[0][0] = 0.;
855  pyjets.p[1][0] = 0.;
856  pyjets.p[2][0] = fBeam1PZ;
857  pyjets.p[0][1] = 0.;
858  pyjets.p[1][1] = 0.;
859  pyjets.p[2][1] = fBeam2PZ;
860  // call "3mon" frame & 0.0 win
861  call_pyinit( "3mom", "e-", "p", 0.0 );
862  }
863  else if ( fInitialState == PositronProton)
864  {
865  // set p(1,i) & p(2,i) for the beams in pyjets !
866  pyjets.p[0][0] = 0.;
867  pyjets.p[1][0] = 0.;
868  pyjets.p[2][0] = fBeam1PZ;
869  pyjets.p[0][1] = 0.;
870  pyjets.p[1][1] = 0.;
871  pyjets.p[2][1] = fBeam2PZ;
872  // call "3mon" frame & 0.0 win
873  call_pyinit( "3mom", "e+", "p", 0.0 );
874  }
875  else
876  {
877  // throw on unknown initial state !
878  throw edm::Exception(edm::errors::Configuration,"Pythia6Interface")
879  <<" UNKNOWN INITIAL STATE. \n The allowed initial states are: PP, PPbar, ElectronPositron, ElectronProton, and PositronProton \n";
880  }
881 
882 
884 
886 
887  return true;
888 }
bool call_pygive(const std::string &line)
void pyglrhad_()
void setPYUPDAParams(bool afterPyinit)
Pythia6Service * fPy6Service
void pystrhad_()
bool gen::Pythia6Hadronizer::readSettings ( int  key)

Definition at line 751 of file Pythia6Hadronizer.cc.

References fPy6Service, gen::Pythia6Service::setCSAParams(), gen::Pythia6Service::setGeneralParams(), and gen::Pythia6Service::setSLHAParams().

752 {
753 
754  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
755 
757  if ( key == 0 ) fPy6Service->setCSAParams();
759 
760  return true;
761 
762 }
Pythia6Service * fPy6Service
bool gen::Pythia6Hadronizer::residualDecay ( )

Definition at line 571 of file Pythia6Hadronizer.cc.

References gen::BaseHadronizer::event(), fPy6Service, GenParticle::GenParticle, i, dbtoconf::parent, gen::pycomp_(), gen::pydecy_(), gen::pyjets_local, and ntuplemaker::status.

572 {
573 
574  // event().get()->print();
575 
576  Pythia6Service::InstanceWrapper guard(fPy6Service); // grab Py6 instance
577 
578  // int nDocLines = pypars.msti[3];
579 
580  int NPartsBeforeDecays = pyjets_local.n ;
581  int NPartsAfterDecays = event().get()->particles_size();
582  int barcode = NPartsAfterDecays;
583 
584  // JVY: well, in principle, it's not a 100% fair to go up to NPartsBeforeDecays,
585  // because Photos will attach gamma's to existing vertexes, i.e. in the middle
586  // of the event rather than at the end; but this will only shift poiters down,
587  // so we'll be going again over a few "original" particle...
588  // in the alternative, we may go all the way up to the beginning of the event
589  // and re-check if anything remains to decay, that's fine even if it'll take
590  // some extra CPU...
591 
592  for ( int ipart=NPartsAfterDecays; ipart>NPartsBeforeDecays; ipart-- )
593  {
594  HepMC::GenParticle* part = event().get()->barcode_to_particle( ipart );
595  int status = part->status();
596  if ( status != 1 ) continue; // check only "stable" particles,
597  // as some undecayed may still be marked as such
598  int pdgid = part->pdg_id();
599  int py6ptr = pycomp_( pdgid );
600  if ( pydat3.mdcy[0][py6ptr-1] != 1 ) continue; // particle is not expected to decay
601  int py6id = HepPID::translatePDTtoPythia( pdgid );
602  //
603  // first, will need to zero out, then fill up PYJETS
604  // I better do it directly (by hands) rather than via py1ent
605  // - to avoid (additional) mass smearing
606  //
607  if ( part->momentum().t() <= part->generated_mass() )
608  {
609  continue ; // e==m --> 0-momentum, nothing to decay...
610  }
611  else
612  {
613  pyjets.n = 0;
614  for ( int i=0; i<5; i++ )
615  {
616  pyjets.k[i][0] = 0;
617  pyjets.p[i][0] = 0.;
618  pyjets.v[i][0] = 0.;
619  }
620  pyjets.k[0][0] = 1;
621  pyjets.k[1][0] = py6id;
622  pyjets.p[4][0] = part->generated_mass();
623  pyjets.p[3][0] = part->momentum().t();
624  pyjets.p[0][0] = part->momentum().x();
625  pyjets.p[1][0] = part->momentum().y();
626  pyjets.p[2][0] = part->momentum().z();
627  HepMC::GenVertex* prod_vtx = part->production_vertex();
628  if ( !prod_vtx ) continue; // in principle, should never happen but...
629  pyjets.v[0][0] = prod_vtx->position().x();
630  pyjets.v[1][0] = prod_vtx->position().y();
631  pyjets.v[2][0] = prod_vtx->position().z();
632  pyjets.v[3][0] = prod_vtx->position().t();
633  pyjets.v[4][0] = 0.;
634  pyjets.n = 1;
635  pyjets.npad = pyjets_local.npad;
636  }
637 
638  // now call Py6 decay routine
639  //
640  int parent = 1; // since we always pass to Py6 a single particle
641  pydecy_( parent );
642 
643  // now attach decay products to mother
644  //
645  for ( int iprt1=1; iprt1<pyjets.n; iprt1++ )
646  {
647  part->set_status( 2 );
648 
649  HepMC::GenVertex* DecVtx = new HepMC::GenVertex( HepMC::FourVector(pyjets.v[0][iprt1],
650  pyjets.v[1][iprt1],
651  pyjets.v[2][iprt1],
652  pyjets.v[3][iprt1]) );
653  DecVtx->add_particle_in( part ); // this will cleanup end_vertex if exists, replace with the new one
654  // I presume (vtx) barcode will be given automatically
655 
656  HepMC::FourVector pmom(pyjets.p[0][iprt1],pyjets.p[1][iprt1],
657  pyjets.p[2][iprt1],pyjets.p[3][iprt1] );
658 
659  int dstatus = 0;
660  if ( pyjets.k[0][iprt1] >= 1 && pyjets.k[0][iprt1] <= 10 )
661  {
662  dstatus = 1;
663  }
664  else if ( pyjets.k[0][iprt1] >= 11 && pyjets.k[0][iprt1] <= 20 )
665  {
666  dstatus = 2;
667  }
668  else if ( pyjets.k[0][iprt1] >= 21 && pyjets.k[0][iprt1] <= 30 )
669  {
670  dstatus = 3;
671  }
672  else if ( pyjets.k[0][iprt1] >= 31 && pyjets.k[0][iprt1] <= 100 )
673  {
674  dstatus = pyjets.k[0][iprt1];
675  }
676  HepMC::GenParticle* daughter = new HepMC::GenParticle(pmom,
677  HepPID::translatePythiatoPDT( pyjets.k[1][iprt1] ),
678  dstatus);
679  barcode++;
680  daughter->suggest_barcode( barcode );
681  DecVtx->add_particle_out( daughter );
682 
683  int iprt2;
684  for ( iprt2=iprt1+1; iprt2<pyjets.n; iprt2++ ) // the pointer is shifted by -1, c++ style
685  {
686  if ( pyjets.k[2][iprt2] != parent )
687  {
688  parent = pyjets.k[2][iprt2];
689  break; // another parent particle; reset & break the loop
690  }
691 
692  HepMC::FourVector pmomN(pyjets.p[0][iprt2],pyjets.p[1][iprt2],
693  pyjets.p[2][iprt2],pyjets.p[3][iprt2] );
694 
695  dstatus = 0;
696  if ( pyjets.k[0][iprt2] >= 1 && pyjets.k[0][iprt2] <= 10 )
697  {
698  dstatus = 1;
699  }
700  else if ( pyjets.k[0][iprt2] >= 11 && pyjets.k[0][iprt2] <= 20 )
701  {
702  dstatus = 2;
703  }
704  else if ( pyjets.k[0][iprt2] >= 21 && pyjets.k[0][iprt2] <= 30 )
705  {
706  dstatus = 3;
707  }
708  else if ( pyjets.k[0][iprt2] >= 31 && pyjets.k[0][iprt2] <= 100 )
709  {
710  dstatus = pyjets.k[0][iprt2];
711  }
712  HepMC::GenParticle* daughterN = new HepMC::GenParticle(pmomN,
713  HepPID::translatePythiatoPDT( pyjets.k[1][iprt2] ),
714  dstatus);
715  barcode++;
716  daughterN->suggest_barcode( barcode );
717  DecVtx->add_particle_out( daughterN );
718  }
719 
720  iprt1 = iprt2-1; // reset counter such that it doesn't go over the same child more than once
721  // don't forget to offset back into c++ counting, as it's already +1 forward
722 
723  event().get()->add_vertex( DecVtx );
724 
725  }
726 
727  }
728 
729  // now restore the very original Py6 event record
730  //
731  if ( pyjets_local.n != pyjets.n )
732  {
733  // restore pyjets to its state as it was before external decays -
734  // might have been jammed by action above or by py1ent calls in EvtGen
735  pyjets.n = pyjets_local.n;
736  pyjets.npad = pyjets_local.npad;
737  for ( int ip=0; ip<pyjets_local.n; ip++ )
738  {
739  for ( int i=0; i<5; i++ )
740  {
741  pyjets.k[i][ip] = pyjets_local.k[i][ip];
742  pyjets.p[i][ip] = pyjets_local.p[i][ip];
743  pyjets.v[i][ip] = pyjets_local.v[i][ip];
744  }
745  }
746  }
747 
748  return true;
749 }
int i
Definition: DBlmapReader.cc:9
list parent
Definition: dbtoconf.py:74
std::auto_ptr< HepMC::GenEvent > & event()
static struct gen::@488 pyjets_local
void pydecy_(int &ip)
int pycomp_(int &)
Pythia6Service * fPy6Service
part
Definition: HCALResponse.h:20
tuple status
Definition: ntuplemaker.py:245
void gen::Pythia6Hadronizer::statistics ( )

Definition at line 1021 of file Pythia6Hadronizer.cc.

References fwrapper::cs, pypars, gen::BaseHadronizer::runInfo(), and GenRunInfoProduct::setInternalXSec().

1022 {
1023 
1024  if ( !runInfo().internalXSec() )
1025  {
1026  // set xsec if not already done (e.g. from LHE cross section collector)
1027  double cs = pypars.pari[0]; // cross section in mb
1028  cs *= 1.0e9; // translate to pb (CMS/Gen "convention" as of May 2009)
1029  runInfo().setInternalXSec( cs );
1030 // FIXME: can we get the xsec statistical error somewhere?
1031  }
1032 
1033  call_pystat(1);
1034 
1035  return;
1036 
1037 }
auto_ptr< ClusterSequence > cs
void setInternalXSec(const XSec &xsec)
GenRunInfoProduct & runInfo()
#define pypars

Member Data Documentation

double gen::Pythia6Hadronizer::fBeam1PZ
private

Definition at line 94 of file Pythia6Hadronizer.h.

Referenced by initializeForInternalPartons(), and Pythia6Hadronizer().

double gen::Pythia6Hadronizer::fBeam2PZ
private

Definition at line 95 of file Pythia6Hadronizer.h.

Referenced by initializeForInternalPartons(), and Pythia6Hadronizer().

double gen::Pythia6Hadronizer::fCOMEnergy
private

Definition at line 92 of file Pythia6Hadronizer.h.

Referenced by initializeForInternalPartons().

bool gen::Pythia6Hadronizer::fConvertToPDG
private

Definition at line 119 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent(), and Pythia6Hadronizer().

bool gen::Pythia6Hadronizer::fDisplayPythiaBanner
private

Definition at line 105 of file Pythia6Hadronizer.h.

Referenced by Pythia6Hadronizer().

bool gen::Pythia6Hadronizer::fDisplayPythiaCards
private

Definition at line 106 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent(), and Pythia6Hadronizer().

bool gen::Pythia6Hadronizer::fGluinoHadronsEnabled
private
bool gen::Pythia6Hadronizer::fHepMCVerbosity
private

Definition at line 99 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent().

bool gen::Pythia6Hadronizer::fImposeProperTime
private

Definition at line 116 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent(), and Pythia6Hadronizer().

int gen::Pythia6Hadronizer::fInitialState
private

Definition at line 91 of file Pythia6Hadronizer.h.

Referenced by initializeForInternalPartons(), and Pythia6Hadronizer().

JetMatching * gen::Pythia6Hadronizer::fJetMatching = 0
staticprivate
unsigned int gen::Pythia6Hadronizer::fMaxEventsToPrint
private

Definition at line 100 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent().

Pythia6Service* gen::Pythia6Hadronizer::fPy6Service
private
unsigned int gen::Pythia6Hadronizer::fPythiaListVerbosity
private

Definition at line 104 of file Pythia6Hadronizer.h.

Referenced by finalizeEvent().

bool gen::Pythia6Hadronizer::fStopHadronsEnabled
private
const std::vector< std::string > gen::Pythia6Hadronizer::theSharedResources
staticprivate