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gen::Cascade2Hadronizer Class Reference

#include <Cascade2Hadronizer.h>

Inheritance diagram for gen::Cascade2Hadronizer:
gen::BaseHadronizer

Public Member Functions

 Cascade2Hadronizer (edm::ParameterSet const &ps)
 
void cascadePrintParameters ()
 
bool cascadeReadParameters (const std::string &ParameterString)
 
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 ()
 
void pythia6PrintParameters ()
 
bool readSettings (int)
 
bool residualDecay ()
 
void statistics ()
 
 ~Cascade2Hadronizer ()
 
- 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)
 
 ~BaseHadronizer ()
 

Private Member Functions

void fillTmpStorage ()
 
void flushTmpStorage ()
 
void imposeProperTime ()
 

Private Attributes

double fComEnergy
 
bool fConvertToPDG
 
bool fDisplayPythiaBanner
 
bool fDisplayPythiaCards
 
double fextCrossSection
 
double fextCrossSectionError
 
double fFilterEfficiency
 
CLHEP::RandFlat * fFlat
 
bool fHepMCVerbosity
 
unsigned int fMaxEventsToPrint
 
edm::ParameterSet fParameters
 
Pythia6ServicefPy6Service
 
unsigned int fPythiaListVerbosity
 

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 23 of file Cascade2Hadronizer.h.

Constructor & Destructor Documentation

gen::Cascade2Hadronizer::Cascade2Hadronizer ( edm::ParameterSet const &  ps)

Definition at line 85 of file Cascade2Hadronizer.cc.

References gen::call_pygive(), edm::errors::Configuration, gather_cfg::cout, debug, edm::hlt::Exception, edm::ParameterSet::exists(), fConvertToPDG, fDisplayPythiaBanner, fDisplayPythiaCards, fFlat, fFlat_extern, flushTmpStorage(), fParameters, and edm::ParameterSet::getParameter().

86  : BaseHadronizer(pset),
87  fPy6Service(new Pythia6ServiceWithCallback(pset)), //-- this will store py6 parameters for further settings
88 
89  //-- fRandomEngine(&getEngineReference()),
90 
91  //-- defined in GeneratorInterface/Core/src/RNDMEngineAccess.cc
92  //-- CLHEP::HepRandomEngine& gen::getEngineReference()
93  //-- { edm::Service<edm::RandomNumberGenerator> rng;
94  //-- return rng->getEngine(); }
95 
96  fComEnergy(pset.getParameter<double>("comEnergy")),
97  fextCrossSection(pset.getUntrackedParameter<double>("crossSection",-1.)),
98  fextCrossSectionError(pset.getUntrackedParameter<double>("crossSectionError",-1.)),
99  fFilterEfficiency(pset.getUntrackedParameter<double>("filterEfficiency",-1.)),
100 
101  fMaxEventsToPrint(pset.getUntrackedParameter<int>("maxEventsToPrint",0)),
102  fHepMCVerbosity(pset.getUntrackedParameter<bool>("pythiaHepMCVerbosity",false)),
103  fPythiaListVerbosity(pset.getUntrackedParameter<int>("pythiaPylistVerbosity",0)),
104 
105  fDisplayPythiaBanner(pset.getUntrackedParameter<bool>("displayPythiaBanner",false)),
106  fDisplayPythiaCards(pset.getUntrackedParameter<bool>("displayPythiaCards",false)){
107 
108  fParameters = pset.getParameter<ParameterSet>("Cascade2Parameters");
109 
111  if(debug) cout<<"seed: "<<rng->mySeed()<<endl;
112  CLHEP::HepRandomEngine& engine = rng->getEngine();
113  fFlat = new CLHEP::RandFlat(engine);
115 
116  fConvertToPDG = false;
117  if(pset.exists("doPDGConvert"))
118  fConvertToPDG = pset.getParameter<bool>("doPDGConvert");
119 
120  //-- silence Pythia6 banner printout, unless display requested
121 
123  if(!call_pygive("MSTU(12)=12345")){
124  throw edm::Exception(edm::errors::Configuration,"PythiaError")
125  <<" Pythia did not accept MSTU(12)=12345";
126  }
127  }
128 
129  //-- silence printouts from PYGIVE, unless display requested
130 
131  if(!fDisplayPythiaCards){
132  if(!call_pygive("MSTU(13)=0")){
133  throw edm::Exception(edm::errors::Configuration,"PythiaError")
134  <<" Pythia did not accept MSTU(13)=0";
135  }
136  }
137 
138  //-- tmp stuff to deal with EvtGen corrupting pyjets
139  flushTmpStorage();
140  }
T getParameter(std::string const &) const
Pythia6Service * fPy6Service
BaseHadronizer(edm::ParameterSet const &ps)
bool call_pygive(const std::string &line)
CLHEP::RandFlat * fFlat_extern
edm::ParameterSet fParameters
tuple cout
Definition: gather_cfg.py:121
#define debug
Definition: MEtoEDMFormat.h:34
gen::Cascade2Hadronizer::~Cascade2Hadronizer ( )

Definition at line 142 of file Cascade2Hadronizer.cc.

References fPy6Service.

142  {
143  if(fPy6Service != 0) delete fPy6Service;
144  }
Pythia6Service * fPy6Service

Member Function Documentation

void gen::Cascade2Hadronizer::cascadePrintParameters ( )

Definition at line 741 of file Cascade2Hadronizer.cc.

References cagluon, cahflav, cainpu, caluco, capar1, capar6, captcut, cascol, cashower, caspdf, casprre, casshwr, gather_cfg::cout, fComEnergy, fextCrossSection, fextCrossSectionError, fFilterEfficiency, integr, jpsi, and scalf.

Referenced by initializeForInternalPartons().

741  {
742 
743  cout<<""<<endl;
744  cout<<"----------------------------------"<<endl;
745  cout<<"---- Cascade Parameters ----"<<endl;
746  cout<<"----------------------------------"<<endl;
747  cout<<""<<endl;
748 
749  cout<<"computation switch: "<<endl;
750  cout<<"number of calls per iteration for bases: "<<integr.ncb<<endl;
751  cout<<"relative precision for grid optimisation: "<<integr.acc1<<" %"<<endl;
752  cout<<"relative precision for integration: "<<integr.acc2<<" %"<<endl;
753  cout<<""<<endl;
754 
755  cout<<"kinematics: "<<endl;
756  cout<<"flavour code of beam 1: "<<caluco.ke<<endl;
757  cout<<"direct or resolved particle 1: "<<capar6.ires[0]<<endl;
758  cout<<"pz of incoming beam 1: "<<cainpu.plepin<<" GeV"<<endl;
759  cout<<"flavour code of beam 2: "<<caluco.kp<<endl;
760  cout<<"direct or resolved particle 2: "<<capar6.ires[1]<<endl;
761  cout<<"pz of incoming beam 2: "<<cainpu.ppin<<" GeV"<<endl;
762  cout<<"number of active flavors: "<<caluco.nflav<<endl;
763  cout<<""<<endl;
764 
765  cout<<"hard subprocess selection: "<<endl;
766  cout<<"hard subprocess number (IPRO): "<<capar1.ipro<<endl;
767  cout<<"IPRO = 10, switch to select QCD process g* g* -> q qbar: "<<cascol.irpa<<endl;
768  cout<<"IPRO = 10, switch to select QCD process g* g -> g g: "<<cascol.irpb<<endl;
769  cout<<"IPRO = 10, switch to select QCD process g* q -> g q: "<<cascol.irpc<<endl;
770  cout<<"flavor of heavy quark produced (IPRO = 11, 504, 514): "<<cahflav.ihfla<<endl;
771  // cout<<"select vector meson state: "<<jpsi.i23s<<endl;
772  cout<<"use matrix element including J/psi (Upsilon) polarisation: "<<jpsi.ipsipol<<endl;
773  cout<<"pt2 cut in matrix element for massless partons: "<<captcut.pt2cut[capar1.ipro-1]<<" GeV^2"<<endl;
774  cout<<""<<endl;
775 
776  cout<<"parton shower and fragmentation: "<<endl;
777  cout<<"switch for fragmentation: "<<cainpu.nfrag<<endl;
778  cout<<"switch for parton shower (0 off - 1 initial state - 2 final state - 3 initial & final state): "<<cainpu.ifps<<endl;
779  cout<<"switch for time like parton shower in initial state: "<<casshwr.itimshr<<endl;
780  cout<<"select CCFM (1) or DGLAP (0) evolution: "<<casshwr.iccfm<<endl;
781  cout<<"scale switch for final state parton shower: "<<cainpu.ifinal<<endl;
782  cout<<"scale factor for final state parton shower: "<<scalf.scalfaf<<endl;
783  cout<<"switch for proton remnant treatment: "<<casprre.irspl<<endl;
784  cout<<"keep track of intermediate state in parton shower: "<<cashower.ipst<<endl;
785  cout<<"mode of interaction for e p: "<<cainpu.inter<<endl;
786  cout<<""<<endl;
787 
788  cout<<"pdfs, couplings and scales: "<<endl;
789  cout<<"switch for running alphaem: "<<capar1.irunaem<<endl;
790  cout<<"switch for running alphas: "<<capar1.iruna<<endl;
791  cout<<"scale in alphas: "<<capar1.iq2<<endl;
792  cout<<"scale factor for scale in alphas: "<<scalf.scalfa<<endl;
793  cout<<"unintegrated pdf: "<<cagluon.iglu<<endl;
794  cout<<"path where updf are stored: "<<caspdf.pdfpath<<endl;
795  cout<<""<<endl;
796 
797  cout<<"center of mass energy, cross section, filter efficiency: "<<endl;
798  cout<<"center of mass energy: "<<fComEnergy<<" GeV"<<endl;
799  cout<<"external LO cross section: "<<fextCrossSection<<" +/- "<<fextCrossSectionError<<" pb"<<endl;
800  cout<<"filter efficiency: "<<fFilterEfficiency<<endl;
801  cout<<""<<endl;
802  }
#define cainpu
#define captcut
#define cahflav
#define caluco
#define cagluon
#define integr
#define cascol
#define caspdf
#define scalf
#define capar6
#define capar1
#define cashower
#define casshwr
#define jpsi
#define casprre
tuple cout
Definition: gather_cfg.py:121
bool gen::Cascade2Hadronizer::cascadeReadParameters ( const std::string &  ParameterString)

Definition at line 641 of file Cascade2Hadronizer.cc.

References cagluon, cahflav, cainpu, caluco, capar1, capar6, captcut, cascol, cashower, casprre, casshwr, integr, jpsi, and scalf.

Referenced by initializeForInternalPartons().

641  {
642 
643  bool accepted = 1;
644 
645  if(!strncmp(ParameterString.c_str(),"KE",2))
646  caluco.ke = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
647 
648  else if(!strncmp(ParameterString.c_str(),"IRES(1)",7))
649  capar6.ires[0] = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
650 
651  else if(!strncmp(ParameterString.c_str(),"KP",2))
652  caluco.kp = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
653 
654  else if(!strncmp(ParameterString.c_str(),"IRES(2)",7))
655  capar6.ires[1] = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
656 
657  else if(!strncmp(ParameterString.c_str(),"NFRAG",5))
658  cainpu.nfrag = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
659 
660  else if(!strncmp(ParameterString.c_str(),"IPST",4))
661  cashower.ipst = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
662 
663  else if(!strncmp(ParameterString.c_str(),"IPSIPOL",7))
664  jpsi.ipsipol = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
665 
666  //-- from version 2.2.03 on
667  // else if(!strncmp(ParameterString.c_str(),"I23S",4))
668  // jpsi.i23s = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
669 
670  else if(!strncmp(ParameterString.c_str(),"IFPS",4))
671  cainpu.ifps = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
672 
673  else if(!strncmp(ParameterString.c_str(),"ITIMSHR",7))
674  casshwr.itimshr = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
675 
676  else if(!strncmp(ParameterString.c_str(),"IRUNAEM",7))
677  capar1.irunaem = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
678 
679  else if(!strncmp(ParameterString.c_str(),"IRUNA",5))
680  capar1.iruna = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
681 
682  else if(!strncmp(ParameterString.c_str(),"IQ2",3))
683  capar1.iq2 = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
684 
685  else if(!strncmp(ParameterString.c_str(),"IPRO",4))
686  capar1.ipro = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
687 
688  else if(!strncmp(ParameterString.c_str(),"NFLAV",5))
689  caluco.nflav = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
690 
691  else if(!strncmp(ParameterString.c_str(),"INTER",5))
692  cainpu.inter = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
693 
694  else if(!strncmp(ParameterString.c_str(),"IHFLA",5))
695  cahflav.ihfla = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
696 
697  else if(!strncmp(ParameterString.c_str(),"IRPA",4))
698  cascol.irpa = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
699 
700  else if(!strncmp(ParameterString.c_str(),"IRPB",4))
701  cascol.irpb = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
702 
703  else if(!strncmp(ParameterString.c_str(),"IRPC",4))
704  cascol.irpc = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
705 
706  else if(!strncmp(ParameterString.c_str(),"ICCFM",5))
707  casshwr.iccfm = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
708 
709  else if(!strncmp(ParameterString.c_str(),"IFINAL",6))
710  cainpu.ifinal = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
711 
712  else if(!strncmp(ParameterString.c_str(),"IGLU",4))
713  cagluon.iglu = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
714 
715  else if(!strncmp(ParameterString.c_str(),"IRspl",5))
716  casprre.irspl = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
717 
718  else if(!strncmp(ParameterString.c_str(),"PT2CUT",6))
719  captcut.pt2cut[capar1.ipro-1] = atof(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
720 
721  else if(!strncmp(ParameterString.c_str(),"NCB",3))
722  integr.ncb = atoi(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
723 
724  else if(!strncmp(ParameterString.c_str(),"ACC1",4))
725  integr.acc1 = atof(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
726 
727  else if(!strncmp(ParameterString.c_str(),"ACC2",4))
728  integr.acc2 = atof(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
729 
730  else if(!strncmp(ParameterString.c_str(),"SCALFAF",7))
731  scalf.scalfaf = atof(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
732 
733  else if(!strncmp(ParameterString.c_str(),"SCALFA",6))
734  scalf.scalfa = atof(&ParameterString[strcspn(ParameterString.c_str(),"=")+1]);
735 
736  else accepted = 0;
737 
738  return accepted;
739  }
#define cainpu
#define captcut
#define cahflav
#define caluco
#define cagluon
#define integr
#define cascol
#define scalf
#define capar6
#define capar1
#define cashower
#define casshwr
#define jpsi
#define casprre
const char * gen::Cascade2Hadronizer::classname ( ) const

Definition at line 635 of file Cascade2Hadronizer.cc.

635  {
636  return "gen::Cascade2Hadronizer";
637  }
bool gen::Cascade2Hadronizer::decay ( )

Definition at line 283 of file Cascade2Hadronizer.cc.

283  {
284  return true;
285  }
bool gen::Cascade2Hadronizer::declareSpecialSettings ( const std::vector< std::string > &  )
inline

Definition at line 39 of file Cascade2Hadronizer.h.

39 { return true; }
bool gen::Cascade2Hadronizer::declareStableParticles ( const std::vector< int > &  _pdg)

Definition at line 529 of file Cascade2Hadronizer.cc.

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

529  {
530  vector<int> pdg = _pdg;
531  for(size_t i=0; i<pdg.size(); i++){
532  int PyID = HepPID::translatePDTtoPythia(pdg[i]);
533  int pyCode = pycomp_( PyID );
534 
535  if(pyCode > 0){
536  ostringstream pyCard ;
537  pyCard << "MDCY(" << pyCode << ",1)=0";
538  //-- cout << "pdg= " << pdg[i] << " " << pyCard.str() << endl;
539 
540  call_pygive(pyCard.str());
541  }
542  }
543 
544  return true;
545  }
int i
Definition: DBlmapReader.cc:9
bool call_pygive(const std::string &line)
int pycomp_(int &)
void gen::Cascade2Hadronizer::fillTmpStorage ( )
private

Definition at line 161 of file Cascade2Hadronizer.cc.

References i, gen::pyjets_local, and hitfit::return.

Referenced by generatePartonsAndHadronize().

161  {
162 
163  pyjets_local.n = pyjets.n;
164  pyjets_local.npad = pyjets.npad;
165 
166  for(int ip=0; ip<pyjets_maxn; ip++){
167  for(int i=0; i<5; i++){
168  pyjets_local.k[i][ip] = pyjets.k[i][ip];
169  pyjets_local.p[i][ip] = pyjets.p[i][ip];
170  pyjets_local.v[i][ip] = pyjets.v[i][ip];
171  }
172  }
173  return ;
174  }
int i
Definition: DBlmapReader.cc:9
static struct gen::@316 pyjets_local
void gen::Cascade2Hadronizer::finalizeEvent ( )

Definition at line 176 of file Cascade2Hadronizer.cc.

References gen::call_pylist(), gather_cfg::cout, debug, gen::BaseHadronizer::event(), gen::BaseHadronizer::eventInfo(), fConvertToPDG, fHepMCVerbosity, fMaxEventsToPrint, fPythiaListVerbosity, imposeProperTime(), pydat1, pyint1, and pypars.

176  {
177 
178  HepMC::PdfInfo pdf;
179 
180  //-- filling factorization "Q scale" now! pthat moved to binningValues()
181 
182  if(event()->signal_process_id() <= 0) event()->set_signal_process_id(pypars.msti[0]);
183  if(event()->event_scale() <=0 ) event()->set_event_scale(pypars.pari[22]);
184  if(event()->alphaQED() <= 0) event()->set_alphaQED(pyint1.vint[56]);
185  if(event()->alphaQCD() <= 0) event()->set_alphaQCD(pyint1.vint[57]);
186 
187  //-- get pdf info directly from Pythia6 and set it up into HepMC::GenEvent
188  //-- S. Mrenna: Prefer vint block
189 
190  if(pdf.id1() <= 0) pdf.set_id1(pyint1.mint[14] == 21 ? 0 : pyint1.mint[14]);
191  if(pdf.id2() <= 0) pdf.set_id2(pyint1.mint[15] == 21 ? 0 : pyint1.mint[15]);
192  if(pdf.x1() <= 0) pdf.set_x1(pyint1.vint[40]);
193  if(pdf.x2() <= 0) pdf.set_x2(pyint1.vint[41]);
194  if(pdf.pdf1() <= 0) pdf.set_pdf1(pyint1.vint[38] / pyint1.vint[40]);
195  if(pdf.pdf2() <= 0) pdf.set_pdf2(pyint1.vint[39] / pyint1.vint[41]);
196  if(pdf.scalePDF() <= 0) pdf.set_scalePDF(pyint1.vint[50]);
197 
198  event()->set_pdf_info(pdf) ;
199 
200  if(debug) {
201  cout<<"standard Py6 event weight: pyint1.vint[96]: "<<pyint1.vint[96]<<endl;
202  cout<<"event weight returned by PYEVWT: 1./(pyint1.vint[98]): "<<1./(pyint1.vint[98])<<endl;
203  }
204 
205  //-- this is "standard" Py6 event weight (corresponds to PYINT1/VINT(97))
206  // event()->weights().push_back(pyint1.vint[96]);
207 
208  //-- this is event weight as 1./VINT(99) (PYINT1/VINT(99) is returned by the PYEVWT)
209  // event()->weights().push_back(1./(pyint1.vint[98]));
210 
211  //-- all cascade events have weight = 1
212  event()->weights().push_back(1.);
213 
214  //-- now create the GenEventInfo product from the GenEvent and fill the missing pieces
215 
216  eventInfo().reset(new GenEventInfoProduct(event().get()));
217 
218  //-- in Pythia6 pthat is used to subdivide samples into different bins
219  //-- in LHE mode the binning is done by the external ME generator
220  //-- which is likely not pthat, so only filling it for Py6 internal mode
221 
222  eventInfo()->setBinningValues(vector<double>(1,pypars.pari[16]));
223 
224  //-- here we treat long-lived particles
225 
226  if (pydat1.mstj[21]==3 || pydat1.mstj[21]==4) imposeProperTime();
227 
228  //-- convert particle IDs Py6 -> PDG (if requested)
229 
230  if(fConvertToPDG){
231  for(HepMC::GenEvent::particle_iterator part = event()->particles_begin();
232  part != event()->particles_end(); ++part){
233  (*part)->set_pdg_id(HepPID::translatePythiatoPDT((*part)->pdg_id()));
234  }
235  }
236 
237  //-- service printouts, if requested
238  if(fMaxEventsToPrint > 0){
241  if(fHepMCVerbosity){
242  cout <<"Event process = "<<pypars.msti[0]<<endl<<"----------------------"<<endl;
243  event()->print();
244  }
245  }
246 
247  return;
248  }
#define pydat1
std::auto_ptr< HepMC::GenEvent > & event()
void call_pylist(int mode)
#define pyint1
std::auto_ptr< GenEventInfoProduct > & eventInfo()
#define pypars
part
Definition: HCALResponse.h:20
tuple cout
Definition: gather_cfg.py:121
#define debug
Definition: MEtoEDMFormat.h:34
void gen::Cascade2Hadronizer::flushTmpStorage ( )
private

Definition at line 146 of file Cascade2Hadronizer.cc.

References i, and gen::pyjets_local.

Referenced by Cascade2Hadronizer(), and generatePartonsAndHadronize().

146  {
147 
148  pyjets_local.n = 0 ;
149  pyjets_local.npad = 0 ;
150 
151  for(int ip=0; ip<pyjets_maxn; ip++){
152  for(int i=0; i<5; i++){
153  pyjets_local.k[i][ip] = 0;
154  pyjets_local.p[i][ip] = 0.;
155  pyjets_local.v[i][ip] = 0.;
156  }
157  }
158  return;
159  }
int i
Definition: DBlmapReader.cc:9
static struct gen::@316 pyjets_local
bool gen::Cascade2Hadronizer::generatePartonsAndHadronize ( )

Definition at line 254 of file Cascade2Hadronizer.cc.

References call_event(), gen::BaseHadronizer::event(), fillTmpStorage(), flushTmpStorage(), fPy6Service, gen::FortranCallback::getInstance(), hepevtio, pyint1, and gen::FortranCallback::resetIterationsPerEvent().

254  {
255 
256  //-- grab Py6 instance
257  Pythia6Service::InstanceWrapper guard(fPy6Service);
258 
260 
261  //-- skip event if py6 considers it bad
262  if(pyint1.mint[50] != 0 ){
263  event().reset();
264  return false;
265  }
266 
267  //-- generation of the event with CASCADE
268  call_event();
269 
270  //-- pythia pyhepc routine converts common PYJETS in common HEPEVT
271  call_pyhepc(1);
272 
273  //-- delete the created event from memory
274  event().reset(hepevtio.read_next_event());
275 
276  //-- this is to deal with post-gen tools & residualDecay() that may reuse PYJETS
277  flushTmpStorage();
278  fillTmpStorage();
279 
280  return true;
281  }
Pythia6Service * fPy6Service
std::auto_ptr< HepMC::GenEvent > & event()
#define pyint1
static FortranCallback * getInstance()
void call_event()
HepMC::IO_HEPEVT hepevtio
bool gen::Cascade2Hadronizer::hadronize ( )

Definition at line 250 of file Cascade2Hadronizer.cc.

250  {
251  return false;
252  }
void gen::Cascade2Hadronizer::imposeProperTime ( )
private

Definition at line 547 of file Cascade2Hadronizer.cc.

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

Referenced by finalizeEvent().

547  {
548 
549  // this is practically a copy/paste of the original code by J.Alcaraz,
550  // taken directly from PythiaSource
551 
552  int dumm=0;
553  HepMC::GenEvent::vertex_const_iterator vbegin = event()->vertices_begin();
554  HepMC::GenEvent::vertex_const_iterator vend = event()->vertices_end();
555  HepMC::GenEvent::vertex_const_iterator vitr = vbegin;
556 
557  for(; vitr != vend; ++vitr){
558 
559  HepMC::GenVertex::particle_iterator pbegin = (*vitr)->particles_begin(HepMC::children);
560  HepMC::GenVertex::particle_iterator pend = (*vitr)->particles_end(HepMC::children);
561  HepMC::GenVertex::particle_iterator pitr = pbegin;
562 
563  for(; pitr != pend; ++pitr){
564 
565  if((*pitr)->end_vertex()) continue;
566  if((*pitr)->status()!=1) continue;
567 
568  int pdgcode= abs((*pitr)->pdg_id());
569  // Do nothing if the particle is not expected to decay
570  if ( pydat3.mdcy[0][pycomp_(pdgcode)-1] !=1 ) continue;
571 
572  double ctau = pydat2.pmas[3][pycomp_(pdgcode)-1];
573  HepMC::FourVector mom = (*pitr)->momentum();
574  HepMC::FourVector vin = (*vitr)->position();
575  double x = 0.;
576  double y = 0.;
577  double z = 0.;
578  double t = 0.;
579  bool decayInRange = false;
580  while(!decayInRange){
581 
582  double unif_rand = fPy6Service->call(pyr_, &dumm);
583  // Value of 0 is excluded, so following line is OK
584  double proper_length = - ctau * log(unif_rand);
585  double factor = proper_length/mom.m();
586  x = vin.x() + factor * mom.px();
587  y = vin.y() + factor * mom.py();
588  z = vin.z() + factor * mom.pz();
589  t = vin.t() + factor * mom.e();
590 
591  // Decay must be happen outside a cylindrical region
592  if(pydat1.mstj[21]==4){
593  if (sqrt(x*x+y*y)>pydat1.parj[72] || fabs(z)>pydat1.parj[73]) decayInRange = true;
594  // Decay must be happen outside a given sphere
595  }
596  else if (pydat1.mstj[21]==3){
597  if (sqrt(x*x+y*y+z*z)>pydat1.parj[71]) decayInRange = true;
598  }
599  // Decay is always OK otherwise
600  else {
601  decayInRange = true;
602  }
603  }
604 
605  HepMC::GenVertex* vdec = new HepMC::GenVertex(HepMC::FourVector(x,y,z,t));
606  event()->add_vertex(vdec);
607  vdec->add_particle_in((*pitr));
608  }
609  }
610 
611  return;
612  }
#define pydat1
void call(void(&fn)())
Pythia6Service * fPy6Service
#define abs(x)
Definition: mlp_lapack.h:159
#define vend()
Definition: vmac.h:42
float float float z
std::auto_ptr< HepMC::GenEvent > & event()
T sqrt(T t)
Definition: SSEVec.h:48
#define vbegin()
Definition: vmac.h:35
int pycomp_(int &)
Definition: DDAxes.h:10
double pyr_(int *idummy)
bool gen::Cascade2Hadronizer::initializeForExternalPartons ( )

Definition at line 452 of file Cascade2Hadronizer.cc.

452  {
453  return false;
454  }
bool gen::Cascade2Hadronizer::initializeForInternalPartons ( )

Definition at line 456 of file Cascade2Hadronizer.cc.

References cainpu, call_caend(), call_cascade(), call_cascha(), call_casini(), cascadePrintParameters(), cascadeReadParameters(), gen::Pythia6Service::closeSLHA(), edm::errors::Configuration, edm::hlt::Exception, fComEnergy, fParameters, fPy6Service, edm::ParameterSet::getParameter(), i, pythia6PrintParameters(), gen::Pythia6Service::setCSAParams(), gen::Pythia6Service::setGeneralParams(), gen::Pythia6Service::setPYUPDAParams(), and gen::Pythia6Service::setSLHAParams().

456  {
457 
458  //-- grab Py6 instance
459  Pythia6Service::InstanceWrapper guard(fPy6Service);
460 
461  //-- change standard parameters of JETSET/PYTHIA - replace call_pytcha()
462 
464 
468 
470 
471  //-- mstu(8) is set to NMXHEP in this dummy call (version >=6.404)
472  call_pyhepc(1);
473 
474  //-- initialise random number generator: has been changed to be CMSSW compliant
475  //-- dcasrn overloaded: call to rluxgo not needed anymore
476  //-- call_rluxgo(4,314159265,0,0);
477 
478  //-- initialise CASCADE parameters (default values)
479  call_casini();
480 
481  //-- Read the parameters and pass them to the common blocks
482  //-- call_steer();
483 
484  //-- initialise CASCADE parameters (user values)
485 
486  //-- retrieve all the different sets
487  vector<string> AllSets = fParameters.getParameter<vector<string> >("parameterSets");
488 
489  //-- loop over the different sets
490  for(unsigned i=0; i<AllSets.size();++i) {
491 
492  string Set = AllSets[i];
493  vector<string> Para_Set = fParameters.getParameter<vector<string> >(Set);
494 
495  //-- loop over all the parameters and stop in case of mistake
496  for(vector<string>::const_iterator itPara = Para_Set.begin(); itPara != Para_Set.end(); ++itPara) {
497 
498  if(!cascadeReadParameters(*itPara)) {
499  throw edm::Exception(edm::errors::Configuration,"CascadeError")
500  <<" Cascade did not accept the following parameter: \""<<*itPara<<"\""<<endl;
501  }
502  } //-- end loop over all the parameters
503  } //-- end loop over the different sets
504 
505  cainpu.plepin = -fComEnergy/2;
506  cainpu.ppin = fComEnergy/2;
507 
509 
510  //-- change standard parameters of CASCADE
511  call_cascha();
512 
513  //-- change standard parameters of JETSET/PYTHIA
514  //-- call_pytcha();
515 
516  //-- set up for running CASCADE (integration of the cross-section)
517  call_cascade();
518 
519  //-- print cross-section result from integration
520  call_caend(1);
521 
523 
525 
526  return true;
527  }
#define cainpu
T getParameter(std::string const &) const
int i
Definition: DBlmapReader.cc:9
Pythia6Service * fPy6Service
void call_casini()
edm::ParameterSet fParameters
void call_cascade()
void call_caend(int mode)
void setPYUPDAParams(bool afterPyinit)
bool cascadeReadParameters(const std::string &ParameterString)
void call_cascha()
void gen::Cascade2Hadronizer::pythia6PrintParameters ( )

Definition at line 804 of file Cascade2Hadronizer.cc.

References gather_cfg::cout, and pydat1.

Referenced by initializeForInternalPartons().

804  {
805 
806  cout<<""<<endl;
807  cout<<"----------------------------------"<<endl;
808  cout<<"---- Pythia6 Parameters ----"<<endl;
809  cout<<"----------------------------------"<<endl;
810  cout<<""<<endl;
811 
812  cout<<"charm mass: "<<pydat2.pmas[0][3]<<" GeV (default value = 1.5 GeV)"<<endl;
813  cout<<"bottom mass: "<<pydat2.pmas[0][4]<<" GeV (default value = 4.8 GeV)"<<endl;
814  cout<<"Higgs mass: "<<pydat2.pmas[0][24]<<" GeV (default value = 115 GeV)"<<endl;
815 
816  cout<<"lambda QCD: "<<pydat1.paru[111]<<" GeV (default value = 0.25 GeV)"<<endl;
817 
818  cout<<"alphas behaviour: "<<pydat1.mstu[110]<<" (default value = 1)"<<endl;
819  cout<<"nr of flavours wrt lambda QCD: "<<pydat1.mstu[111]<<" (default value = 5)"<<endl;
820  cout<<"min nr of flavours for alphas: "<<pydat1.mstu[112]<<" (default value = 3)"<<endl;
821  cout<<"max nr of flavours for alphas: "<<pydat1.mstu[113]<<" (default value = 5)"<<endl;
822 
823  cout<<"maximum angle settings: "<<pydat1.mstj[47]<<" (default value = 0)"<<endl;
824 
825  cout<<""<<endl;
826  }
#define pydat1
tuple cout
Definition: gather_cfg.py:121
bool gen::Cascade2Hadronizer::readSettings ( int  key)

Definition at line 439 of file Cascade2Hadronizer.cc.

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

439  {
440 
441  //-- grab Py6 instance
442  Pythia6Service::InstanceWrapper guard(fPy6Service);
443 
445 
446  if (key == 0) fPy6Service->setCSAParams();
448 
449  return true;
450  }
Pythia6Service * fPy6Service
list key
Definition: combine.py:13
bool gen::Cascade2Hadronizer::residualDecay ( )

Definition at line 287 of file Cascade2Hadronizer.cc.

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

287  {
288 
289  //-- grab Py6 instance
290  Pythia6Service::InstanceWrapper guard(fPy6Service);
291 
292  int NPartsBeforeDecays = pyjets_local.n ;
293  int NPartsAfterDecays = event().get()->particles_size();
294  int barcode = NPartsAfterDecays;
295 
296  // JVY: well, in principle, it's not a 100% fair to go up to NPartsBeforeDecays,
297  // because Photos will attach gamma's to existing vertices, i.e. in the middle
298  // of the event rather than at the end; but this will only shift pointers down,
299  // so we'll be going again over a few "original" particle...
300  // in the alternative, we may go all the way up to the beginning of the event
301  // and re-check if anything remains to decay, that's fine even if it'll take
302  // some extra CPU...
303 
304  for(int ipart=NPartsAfterDecays; ipart>NPartsBeforeDecays; ipart-- ){
305 
306  HepMC::GenParticle* part = event().get()->barcode_to_particle( ipart );
307  int status = part->status();
308  if ( status != 1 ) continue; // check only "stable" particles,
309  // as some undecayed may still be marked as such
310  int pdgid = part->pdg_id();
311  int py6ptr = pycomp_( pdgid );
312 
313  if(pydat3.mdcy[0][py6ptr-1] != 1) continue; // particle is not expected to decay
314 
315  int py6id = HepPID::translatePDTtoPythia(pdgid);
316 
317  // first, will need to zero out, then fill up PYJETS
318  // I better do it directly (by hands) rather than via py1ent
319  // - to avoid (additional) mass smearing
320 
321  if(part->momentum().t() <= part->generated_mass()){
322  continue ; // e == m -> 0-momentum, nothing to decay...
323  }
324 
325  else{
326  pyjets.n = 0;
327 
328  for(int i=0; i<5; i++){
329  pyjets.k[i][0] = 0;
330  pyjets.p[i][0] = 0.;
331  pyjets.v[i][0] = 0.;
332  }
333 
334  pyjets.k[0][0] = 1;
335  pyjets.k[1][0] = py6id;
336  pyjets.p[4][0] = part->generated_mass();
337  pyjets.p[3][0] = part->momentum().t();
338  pyjets.p[0][0] = part->momentum().x();
339  pyjets.p[1][0] = part->momentum().y();
340  pyjets.p[2][0] = part->momentum().z();
341  HepMC::GenVertex* prod_vtx = part->production_vertex();
342  if ( !prod_vtx ) continue; // in principle, should never happen but...
343  pyjets.v[0][0] = prod_vtx->position().x();
344  pyjets.v[1][0] = prod_vtx->position().y();
345  pyjets.v[2][0] = prod_vtx->position().z();
346  pyjets.v[3][0] = prod_vtx->position().t();
347  pyjets.v[4][0] = 0.;
348  pyjets.n = 1;
349  pyjets.npad = pyjets_local.npad;
350  }
351 
352  //-- now call Py6 decay routine
353 
354  int parent = 1; // since we always pass to Py6 a single particle
355  pydecy_(parent);
356 
357  //-- now attach decay products to mother
358 
359  for(int iprt1=1; iprt1<pyjets.n; iprt1++){
360 
361  part->set_status( 2 );
362 
363  HepMC::GenVertex* DecVtx = new HepMC::GenVertex( HepMC::FourVector(pyjets.v[0][iprt1],
364  pyjets.v[1][iprt1],
365  pyjets.v[2][iprt1],
366  pyjets.v[3][iprt1]) );
367  DecVtx->add_particle_in( part ); // this will cleanup end_vertex if exists, replace with the new one
368  // I presume (vtx) barcode will be given automatically
369 
370  HepMC::FourVector pmom(pyjets.p[0][iprt1],pyjets.p[1][iprt1],
371  pyjets.p[2][iprt1],pyjets.p[3][iprt1] );
372 
373  int dstatus = 0;
374  if(pyjets.k[0][iprt1] >= 1 && pyjets.k[0][iprt1] <= 10) dstatus = 1;
375  else if(pyjets.k[0][iprt1] >= 11 && pyjets.k[0][iprt1] <= 20) dstatus = 2;
376  else if(pyjets.k[0][iprt1] >= 21 && pyjets.k[0][iprt1] <= 30) dstatus = 3;
377  else if(pyjets.k[0][iprt1] >= 31 && pyjets.k[0][iprt1] <= 100) dstatus = pyjets.k[0][iprt1];
378 
379  HepMC::GenParticle* daughter = new HepMC::GenParticle(pmom,
380  HepPID::translatePythiatoPDT(pyjets.k[1][iprt1]),
381  dstatus);
382  barcode++;
383  daughter->suggest_barcode( barcode );
384  DecVtx->add_particle_out( daughter );
385 
386  int iprt2;
387  for(iprt2=iprt1+1; iprt2<pyjets.n; iprt2++){ // the pointer is shifted by -1, c++ style
388 
389  if(pyjets.k[2][iprt2] != parent){
390  parent = pyjets.k[2][iprt2];
391  break; // another parent particle; reset & break the loop
392  }
393 
394  HepMC::FourVector pmomN(pyjets.p[0][iprt2],pyjets.p[1][iprt2],
395  pyjets.p[2][iprt2],pyjets.p[3][iprt2] );
396 
397  dstatus = 0;
398  if(pyjets.k[0][iprt2] >= 1 && pyjets.k[0][iprt2] <= 10) dstatus = 1;
399  else if(pyjets.k[0][iprt2] >= 11 && pyjets.k[0][iprt2] <= 20) dstatus = 2;
400  else if(pyjets.k[0][iprt2] >= 21 && pyjets.k[0][iprt2] <= 30) dstatus = 3;
401  else if(pyjets.k[0][iprt2] >= 31 && pyjets.k[0][iprt2] <= 100) dstatus = pyjets.k[0][iprt2];
402 
403  HepMC::GenParticle* daughterN = new HepMC::GenParticle(pmomN,
404  HepPID::translatePythiatoPDT( pyjets.k[1][iprt2] ),
405  dstatus);
406  barcode++;
407  daughterN->suggest_barcode( barcode );
408  DecVtx->add_particle_out( daughterN );
409  } //-- end iprt2 loop
410 
411  iprt1 = iprt2-1; // reset counter such that it doesn't go over the same child more than once
412  // don't forget to offset back into c++ counting, as it's already +1 forward
413 
414  event().get()->add_vertex( DecVtx );
415  } //-- end iprt1 loop
416  } //-- end loop over decay products
417 
418  // now restore the very original Py6 event record
419 
420  if(pyjets_local.n != pyjets.n){
421 
422  // restore pyjets to its state as it was before external decays -
423  // might have been jammed by action above or by py1ent calls in EvtGen
424 
425  pyjets.n = pyjets_local.n;
426  pyjets.npad = pyjets_local.npad;
427  for(int ip=0; ip<pyjets_local.n; ip++){
428  for(int i=0; i<5; i++){
429  pyjets.k[i][ip] = pyjets_local.k[i][ip];
430  pyjets.p[i][ip] = pyjets_local.p[i][ip];
431  pyjets.v[i][ip] = pyjets_local.v[i][ip];
432  }
433  }
434  }
435 
436  return true;
437  }
int i
Definition: DBlmapReader.cc:9
static struct gen::@316 pyjets_local
list parent
Definition: dbtoconf.py:74
Pythia6Service * fPy6Service
std::auto_ptr< HepMC::GenEvent > & event()
void pydecy_(int &ip)
int pycomp_(int &)
part
Definition: HCALResponse.h:20
tuple status
Definition: ntuplemaker.py:245
void gen::Cascade2Hadronizer::statistics ( )

Definition at line 614 of file Cascade2Hadronizer.cc.

References caeffic, call_caend(), fextCrossSection, fextCrossSectionError, gen::BaseHadronizer::runInfo(), GenRunInfoProduct::setExternalXSecLO(), GenRunInfoProduct::setExternalXSecNLO(), and GenRunInfoProduct::setInternalXSec().

614  {
615 
617 
619 
620  if(!runInfo().internalXSec()){
621  double sigma_CMS = 0.001 * caeffic.avgi;
622  double error_CMS = 0.001 * caeffic.sd;
623  runInfo().setInternalXSec(GenRunInfoProduct::XSec(sigma_CMS,error_CMS));
624  }
625 
626  //-- print out generated event summary
627  call_caend(2);
628 
629  //-- write out some information from Pythia to the screen
630  call_pystat(1);
631 
632  return;
633  }
void setInternalXSec(const XSec &xsec)
GenRunInfoProduct & runInfo()
void call_caend(int mode)
void setExternalXSecNLO(const XSec &xsec)
void setExternalXSecLO(const XSec &xsec)
#define caeffic

Member Data Documentation

double gen::Cascade2Hadronizer::fComEnergy
private

Definition at line 66 of file Cascade2Hadronizer.h.

Referenced by cascadePrintParameters(), and initializeForInternalPartons().

bool gen::Cascade2Hadronizer::fConvertToPDG
private

Definition at line 78 of file Cascade2Hadronizer.h.

Referenced by Cascade2Hadronizer(), and finalizeEvent().

bool gen::Cascade2Hadronizer::fDisplayPythiaBanner
private

Definition at line 75 of file Cascade2Hadronizer.h.

Referenced by Cascade2Hadronizer().

bool gen::Cascade2Hadronizer::fDisplayPythiaCards
private

Definition at line 76 of file Cascade2Hadronizer.h.

Referenced by Cascade2Hadronizer().

double gen::Cascade2Hadronizer::fextCrossSection
private

Definition at line 67 of file Cascade2Hadronizer.h.

Referenced by cascadePrintParameters(), and statistics().

double gen::Cascade2Hadronizer::fextCrossSectionError
private

Definition at line 68 of file Cascade2Hadronizer.h.

Referenced by cascadePrintParameters(), and statistics().

double gen::Cascade2Hadronizer::fFilterEfficiency
private

Definition at line 69 of file Cascade2Hadronizer.h.

Referenced by cascadePrintParameters().

CLHEP::RandFlat* gen::Cascade2Hadronizer::fFlat
private

Definition at line 64 of file Cascade2Hadronizer.h.

Referenced by Cascade2Hadronizer().

bool gen::Cascade2Hadronizer::fHepMCVerbosity
private

Definition at line 72 of file Cascade2Hadronizer.h.

Referenced by finalizeEvent().

unsigned int gen::Cascade2Hadronizer::fMaxEventsToPrint
private

Definition at line 71 of file Cascade2Hadronizer.h.

Referenced by finalizeEvent().

edm::ParameterSet gen::Cascade2Hadronizer::fParameters
private

Definition at line 60 of file Cascade2Hadronizer.h.

Referenced by Cascade2Hadronizer(), and initializeForInternalPartons().

Pythia6Service* gen::Cascade2Hadronizer::fPy6Service
private
unsigned int gen::Cascade2Hadronizer::fPythiaListVerbosity
private

Definition at line 73 of file Cascade2Hadronizer.h.

Referenced by finalizeEvent().