gen::Hydjet2Hadronizer Class Reference

#include <Hydjet2Hadronizer.h>

Inheritance diagram for gen::Hydjet2Hadronizer:

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 ()
	Hydjet2Hadronizer (const edm::ParameterSet &, edm::ConsumesCollector &&)
bool	initializeForExternalPartons ()
bool	initializeForInternalPartons ()
bool	readSettings (int)
bool	residualDecay ()
void	statistics ()
	~Hydjet2Hadronizer () override
Public Member Functions inherited from gen::BaseHadronizer
	BaseHadronizer (edm::ParameterSet const &ps)
void	cleanLHE ()
void	generateLHE (edm::LuminosityBlock const &lumi, CLHEP::HepRandomEngine *rengine, unsigned int ncpu)
edm::Event &	getEDMEvent () const
std::unique_ptr< HepMC::GenEvent >	getGenEvent ()
std::unique_ptr< HepMC3::GenEvent >	getGenEvent3 ()
std::unique_ptr< GenEventInfoProduct >	getGenEventInfo ()
std::unique_ptr< GenEventInfoProduct3 >	getGenEventInfo3 ()
virtual std::unique_ptr< GenLumiInfoHeader >	getGenLumiInfoHeader () const
GenRunInfoProduct &	getGenRunInfo ()
std::unique_ptr< lhef::LHEEvent >	getLHEEvent ()
const std::shared_ptr< lhef::LHERunInfo > &	getLHERunInfo () const
unsigned int	getVHepMC ()
const std::string &	gridpackPath () const
int	randomIndex () const
const std::string &	randomInitConfigDescription () const
void	randomizeIndex (edm::LuminosityBlock const &lumi, CLHEP::HepRandomEngine *rengine)
void	resetEvent (std::unique_ptr< HepMC::GenEvent > event)
void	resetEvent3 (std::unique_ptr< HepMC3::GenEvent > event3)
void	resetEventInfo (std::unique_ptr< GenEventInfoProduct > eventInfo)
void	resetEventInfo3 (std::unique_ptr< GenEventInfoProduct3 > eventInfo)
virtual bool	select (HepMC::GenEvent *) const
void	setEDMEvent (edm::Event &event)
void	setLHEEvent (std::unique_ptr< lhef::LHEEvent > event)
void	setLHERunInfo (std::unique_ptr< lhef::LHERunInfo > runInfo)
void	setRandomEngine (CLHEP::HepRandomEngine *v)
std::vector< std::string > const &	sharedResources () const
virtual	~BaseHadronizer () noexcept(false)

Private Member Functions
void	add_heavy_ion_rec (HepMC::GenEvent *evt)
HepMC::GenParticle *	build_hyjet2 (int index, int barcode)
HepMC::GenVertex *	build_hyjet2_vertex (int i, int id)
int	convertStatus (int)
int	convertStatusForComponents (int, int, int)
void	doSetRandomEngine (CLHEP::HepRandomEngine *v) override
std::vector< std::string > const &	doSharedResources () const override
bool	get_particles (HepMC::GenEvent *evt)
double	nuclear_radius () const
void	rotateEvtPlane ()

Private Attributes
double	cosphi0_
bool	ev = false
HepMC::GenEvent *	evt
InitialParamsHydjet_t	fParams
HepMC::FourVector *	fVertex_
Hydjet2 *	hj2
unsigned int	maxEventsToPrint_
int	nhard_
int	nsoft_
int	nsub_
double	phi0_
edm::ParameterSet	pset
Pythia6Service *	pythia6Service_
unsigned int	pythiaPylistVerbosity_
bool	rotate_
bool	separateHydjetComponents_
double	Sigin
double	Sigjet
std::vector< double >	signalVtx_
double	sinphi0_
edm::EDGetTokenT< CrossingFrame< edm::HepMCProduct > >	src_

Static Private Attributes
static const std::vector< std::string >	theSharedResources = {edm::SharedResourceNames::kPythia6}

Additional Inherited Members
Protected Member Functions inherited from gen::BaseHadronizer
std::unique_ptr< HepMC::GenEvent > &	event ()
std::unique_ptr< HepMC3::GenEvent > &	event3 ()
std::unique_ptr< GenEventInfoProduct > &	eventInfo ()
std::unique_ptr< GenEventInfoProduct3 > &	eventInfo3 ()
lhef::LHEEvent *	lheEvent ()
lhef::LHERunInfo *	lheRunInfo ()
GenRunInfoProduct &	runInfo ()
Protected Attributes inherited from gen::BaseHadronizer
unsigned int	ivhepmc = 2
std::string	lheFile_
int	randomIndex_

Detailed Description

Definition at line 44 of file Hydjet2Hadronizer.h.

Constructor & Destructor Documentation

Hydjet2Hadronizer()

Hydjet2Hadronizer::Hydjet2Hadronizer	(	const edm::ParameterSet &	pset,
		edm::ConsumesCollector &&	iC
	)

Definition at line 82 of file Hydjet2Hadronizer.cc.

References edm::ParameterSet::exists(), DeadROC_duringRun::f1, DeadROC_duringRun::f2, fParams, fVertex_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), ProducerED_cfi::InputTag, LogDebug, maxEventsToPrint_, pset, pythiaPylistVerbosity_, separateHydjetComponents_, signalVtx_, and src_.

    : BaseHadronizer(pset),
      rotate_(pset.getParameter<bool>("rotateEventPlane")),
      evt(nullptr),
      nsub_(0),
      nhard_(0),
      nsoft_(0),
      phi0_(0.),
      sinphi0_(0.),
      cosphi0_(1.),
      fVertex_(nullptr),
      pythia6Service_(new Pythia6Service(pset))

{
  fParams.doPrintInfo = false;
  fParams.allowEmptyEvent = false;
  fParams.fNevnt = 0;                                      //not used in CMSSW
  fParams.femb = pset.getParameter<int>("embeddingMode");  //
  fParams.fSqrtS = pset.getParameter<double>("fSqrtS");    // C.m.s. energy per nucleon pair
  fParams.fAw = pset.getParameter<double>("fAw");          // Atomic weigth of nuclei, fAw
  fParams.fIfb = pset.getParameter<int>(
      "fIfb");  // Flag of type of centrality generation, fBfix (=0 is fixed by fBfix, >0 distributed [fBfmin, fBmax])
  fParams.fBmin = pset.getParameter<double>("fBmin");  // Minimum impact parameter in units of nuclear radius, fBmin
  fParams.fBmax = pset.getParameter<double>("fBmax");  // Maximum impact parameter in units of nuclear radius, fBmax
  fParams.fBfix = pset.getParameter<double>("fBfix");  // Fixed impact parameter in units of nuclear radius, fBfix
  fParams.fT = pset.getParameter<double>("fT");        // Temperature at chemical freeze-out, fT [GeV]
  fParams.fMuB = pset.getParameter<double>("fMuB");    // Chemical baryon potential per unit charge, fMuB [GeV]
  fParams.fMuS = pset.getParameter<double>("fMuS");    // Chemical strangeness potential per unit charge, fMuS [GeV]
  fParams.fMuC = pset.getParameter<double>(
      "fMuC");  // Chemical charm potential per unit charge, fMuC [GeV] (used if charm production is turned on)
  fParams.fMuI3 = pset.getParameter<double>("fMuI3");  // Chemical isospin potential per unit charge, fMuI3 [GeV]
  fParams.fThFO = pset.getParameter<double>("fThFO");  // Temperature at thermal freeze-out, fThFO [GeV]
  fParams.fMu_th_pip =
      pset.getParameter<double>("fMu_th_pip");  // Chemical potential of pi+ at thermal freeze-out, fMu_th_pip [GeV]
  fParams.fTau = pset.getParameter<double>(
      "fTau");  // Proper time proper at thermal freeze-out for central collisions, fTau [fm/c]
  fParams.fSigmaTau = pset.getParameter<double>(
      "fSigmaTau");  // Duration of emission at thermal freeze-out for central collisions, fSigmaTau [fm/c]
  fParams.fR = pset.getParameter<double>(
      "fR");  // Maximal transverse radius at thermal freeze-out for central collisions, fR [fm]
  fParams.fYlmax =
      pset.getParameter<double>("fYlmax");  // Maximal longitudinal flow rapidity at thermal freeze-out, fYlmax
  fParams.fUmax = pset.getParameter<double>(
      "fUmax");  // Maximal transverse flow rapidity at thermal freeze-out for central collisions, fUmax
  fParams.frhou2 = pset.getParameter<double>("fRhou2");  //parameter to swich ON/OFF = 0) rhou2
  fParams.frhou3 = pset.getParameter<double>("fRhou3");  //parameter to swich ON/OFF(0) rhou3
  fParams.frhou4 = pset.getParameter<double>("fRhou4");  //parameter to swich ON/OFF(0) rhou4
  fParams.fDelta =
      pset.getParameter<double>("fDelta");  // Momentum azimuthal anizotropy parameter at thermal freeze-out, fDelta
  fParams.fEpsilon =
      pset.getParameter<double>("fEpsilon");  // Spatial azimuthal anisotropy parameter at thermal freeze-out, fEpsilon
  fParams.fv2 = pset.getParameter<double>("fKeps2");  //parameter to swich ON/OFF(0) epsilon2 fluctuations
  fParams.fv3 = pset.getParameter<double>("fKeps3");  //parameter to swich ON/OFF(0) epsilon3 fluctuations
  fParams.fIfDeltaEpsilon = pset.getParameter<double>(
      "fIfDeltaEpsilon");  // Flag to specify fDelta and fEpsilon values, fIfDeltaEpsilon (=0 user's ones, >=1 calculated)
  fParams.fDecay =
      pset.getParameter<int>("fDecay");  // Flag to switch on/off hadron decays, fDecay (=0 decays off, >=1 decays on)
  fParams.fWeakDecay = pset.getParameter<double>(
      "fWeakDecay");  // Low decay width threshold fWeakDecay[GeV]: width<fWeakDecay decay off, width>=fDecayWidth decay on; can be used to switch off weak decays
  fParams.fEtaType = pset.getParameter<double>(
      "fEtaType");  // Flag to choose longitudinal flow rapidity distribution, fEtaType (=0 uniform, >0 Gaussian with the dispersion Ylmax)
  fParams.fTMuType = pset.getParameter<double>(
      "fTMuType");  // Flag to use calculated T_ch, mu_B and mu_S as a function of fSqrtS, fTMuType (=0 user's ones, >0 calculated)
  fParams.fCorrS = pset.getParameter<double>(
      "fCorrS");  // Strangeness supression factor gamma_s with fCorrS value (0<fCorrS <=1, if fCorrS <= 0 then it is calculated)
  fParams.fCharmProd = pset.getParameter<int>(
      "fCharmProd");  // Flag to include thermal charm production, fCharmProd (=0 no charm production, >=1 charm production)
  fParams.fCorrC = pset.getParameter<double>(
      "fCorrC");  // Charmness enhancement factor gamma_c with fCorrC value (fCorrC >0, if fCorrC<0 then it is calculated)
  fParams.fNhsel = pset.getParameter<int>(
      "fNhsel");  //Flag to include jet (J)/jet quenching (JQ) and hydro (H) state production, fNhsel (0 H on & J off, 1 H/J on & JQ off, 2 H/J/HQ on, 3 J on & H/JQ off, 4 H off & J/JQ on)
  fParams.fPyhist = pset.getParameter<int>(
      "fPyhist");  // Flag to suppress the output of particle history from PYTHIA, fPyhist (=1 only final state particles; =0 full particle history from PYTHIA)
  fParams.fIshad = pset.getParameter<int>(
      "fIshad");  // Flag to switch on/off nuclear shadowing, fIshad (0 shadowing off, 1 shadowing on)
  fParams.fPtmin =
      pset.getParameter<double>("fPtmin");  // Minimal pt of parton-parton scattering in PYTHIA event, fPtmin [GeV/c]
  fParams.fT0 = pset.getParameter<double>(
      "fT0");  // Initial QGP temperature for central Pb+Pb collisions in mid-rapidity, fT0 [GeV]
  fParams.fTau0 = pset.getParameter<double>("fTau0");  // Proper QGP formation time in fm/c, fTau0 (0.01<fTau0<10)
  fParams.fNf = pset.getParameter<int>("fNf");         // Number of active quark flavours in QGP, fNf (0, 1, 2 or 3)
  fParams.fIenglu = pset.getParameter<int>(
      "fIenglu");  // Flag to fix type of partonic energy loss, fIenglu (0 radiative and collisional loss, 1 radiative loss only, 2 collisional loss only)
  fParams.fIanglu = pset.getParameter<int>(
      "fIanglu");  // Flag to fix type of angular distribution of in-medium emitted gluons, fIanglu (0 small-angular, 1 wide-angular, 2 collinear).

  edm::FileInPath f1("externals/hydjet2/particles.data");
  strcpy(fParams.partDat, (f1.fullPath()).c_str());

  edm::FileInPath f2("externals/hydjet2/tabledecay.txt");
  strcpy(fParams.tabDecay, (f2.fullPath()).c_str());

  fParams.fPythiaTune = false;

  if (pset.exists("signalVtx"))
    signalVtx_ = pset.getUntrackedParameter<std::vector<double>>("signalVtx");

  if (signalVtx_.size() == 4) {
    if (!fVertex_)
      fVertex_ = new HepMC::FourVector();
    LogDebug("EventSignalVertex") << "Setting event signal vertex "
                                  << " x = " << signalVtx_.at(0) << " y = " << signalVtx_.at(1)
                                  << "  z= " << signalVtx_.at(2) << " t = " << signalVtx_.at(3) << endl;
    fVertex_->set(signalVtx_.at(0), signalVtx_.at(1), signalVtx_.at(2), signalVtx_.at(3));
  }

  // PYLIST Verbosity Level
  // Valid PYLIST arguments are: 1, 2, 3, 5, 7, 11, 12, 13
  pythiaPylistVerbosity_ = pset.getUntrackedParameter<int>("pythiaPylistVerbosity", 0);
  LogDebug("PYLISTverbosity") << "Pythia PYLIST verbosity level = " << pythiaPylistVerbosity_;
  //Max number of events printed on verbosity level
  maxEventsToPrint_ = pset.getUntrackedParameter<int>("maxEventsToPrint", 0);
  LogDebug("Events2Print") << "Number of events to be printed = " << maxEventsToPrint_;
  if (fParams.femb == 1) {
    fParams.fIfb = 0;
    src_ = iC.consumes<CrossingFrame<edm::HepMCProduct>>(
        pset.getUntrackedParameter<edm::InputTag>("backgroundLabel", edm::InputTag("mix", "generatorSmeared")));
  }

  separateHydjetComponents_ = pset.getUntrackedParameter<bool>("separateHydjetComponents", false);
}

~Hydjet2Hadronizer()

Hydjet2Hadronizer::~Hydjet2Hadronizer ( )

override

Definition at line 204 of file Hydjet2Hadronizer.cc.

References pythia6Service_.

                                      {
  call_pystat(1);
  delete pythia6Service_;
}

Member Function Documentation

add_heavy_ion_rec()

void Hydjet2Hadronizer::add_heavy_ion_rec ( HepMC::GenEvent *  evt )

private

Definition at line 516 of file Hydjet2Hadronizer.cc.

References evt, hj2, nsub_, nuclear_radius(), phi0_, and Sigin.

Referenced by generatePartonsAndHadronize().

                                                            {
  // heavy ion record in the final CMSSW Event
  int nproj = static_cast<int>((hj2->GetNpart()) / 2);
  int ntarg = static_cast<int>((hj2->GetNpart()) - nproj);

  HepMC::HeavyIon *hi = new HepMC::HeavyIon(nsub_,                              // Ncoll_hard/N of SubEvents
                                            nproj,                              // Npart_proj
                                            ntarg,                              // Npart_targ
                                            hj2->GetNbcol(),                    // Ncoll
                                            0,                                  // spectator_neutrons
                                            0,                                  // spectator_protons
                                            0,                                  // N_Nwounded_collisions
                                            0,                                  // Nwounded_N_collisions
                                            0,                                  // Nwounded_Nwounded_collisions
                                            hj2->GetBgen() * nuclear_radius(),  // impact_parameter in [fm]
                                            phi0_,                              // event_plane_angle
                                            hj2->GetPsiv3(),                    // eccentricity <<<---- psi for v3!!!
                                            Sigin                               // sigma_inel_NN
  );

  evt->set_heavy_ion(*hi);
  delete hi;
}

build_hyjet2()

HepMC::GenParticle * Hydjet2Hadronizer::build_hyjet2 ( int  index, int  barcode  )

private

Definition at line 475 of file Hydjet2Hadronizer.cc.

References convertStatusForComponents(), cosphi0_, GenParticle::GenParticle, hj2, gen::p, multPhiCorr_741_25nsDY_cfi::px, multPhiCorr_741_25nsDY_cfi::py, and sinphi0_.

Referenced by get_particles().

                                                                        {
  // Build particle object corresponding to index in hyjets (soft+hard)
  double px0 = (hj2->GetPx()).at(index);
  double py0 = (hj2->GetPy()).at(index);

  double px = px0 * cosphi0_ - py0 * sinphi0_;
  double py = py0 * cosphi0_ + px0 * sinphi0_;

  HepMC::GenParticle *p = new HepMC::GenParticle(
      HepMC::FourVector(px,                        // px
                        py,                        // py
                        (hj2->GetPz()).at(index),  // pz
                        (hj2->GetE()).at(index)),  // E
      (hj2->GetPdg()).at(index),                   // id
      convertStatusForComponents(
          (hj2->GetFinal()).at(index), (hj2->GetType()).at(index), (hj2->GetPythiaStatus()).at(index))  // status
  );

  p->suggest_barcode(barcode);
  return p;
}

build_hyjet2_vertex()

HepMC::GenVertex * Hydjet2Hadronizer::build_hyjet2_vertex ( int  i, int  id  )

private

Definition at line 498 of file Hydjet2Hadronizer.cc.

References cosphi0_, MillePedeFileConverter_cfg::e, hj2, mps_fire::i, sinphi0_, submitPVValidationJobs::t, bphysicsOniaDQM_cfi::vertex, and x.

Referenced by get_particles().

                                                                    {
  // build verteces for the hyjets stored events
  double x0 = (hj2->GetX()).at(i);
  double y0 = (hj2->GetY()).at(i);

  // convert to mm (as in PYTHIA6)
  const double fm_to_mm = 1e-12;
  double x = fm_to_mm * (x0 * cosphi0_ - y0 * sinphi0_);
  double y = fm_to_mm * (y0 * cosphi0_ + x0 * sinphi0_);
  double z = fm_to_mm * (hj2->GetZ()).at(i);
  double t = fm_to_mm * (hj2->GetT()).at(i);

  HepMC::GenVertex *vertex = new HepMC::GenVertex(HepMC::FourVector(x, y, z, t), id);

  return vertex;
}

classname()

const char * Hydjet2Hadronizer::classname

(

)

const

Definition at line 385 of file Hydjet2Hadronizer.cc.

{ return "gen::Hydjet2Hadronizer"; }

convertStatus()

int Hydjet2Hadronizer::convertStatus ( int  st )

private

Definition at line 66 of file Hydjet2Hadronizer.cc.

Referenced by get_particles().

                                           {
  if (st <= 0)
    return 0;
  if (st <= 10)
    return 1;
  if (st <= 20)
    return 2;
  if (st <= 30)
    return 3;
  else
    return -1;
}

convertStatusForComponents()

int Hydjet2Hadronizer::convertStatusForComponents ( int  sta, int  typ, int  pySta  )

private

Definition at line 43 of file Hydjet2Hadronizer.cc.

References Exception.

Referenced by build_hyjet2(), and get_particles().

                                                                             {
  int st = -1;
  if (typ == 0)  //soft
    st = 2 - sta;
  else if (typ == 1)
    st = convertStatus(pySta);

  if (st == -1)
    throw cms::Exception("ConvertStatus") << "Wrong status code!" << endl;

  if (separateHydjetComponents_) {
    if (st == 1 && typ == 0)
      return 6;
    if (st == 1 && typ == 1)
      return 7;
    if (st == 2 && typ == 0)
      return 16;
    if (st == 2 && typ == 1)
      return 17;
  }
  return st;
}

decay()

bool Hydjet2Hadronizer::decay

(

)

Definition at line 381 of file Hydjet2Hadronizer.cc.

{ return true; }

declareSpecialSettings()

bool gen::Hydjet2Hadronizer::declareSpecialSettings ( const std::vector< std::string > &  )

inline

Definition at line 50 of file Hydjet2Hadronizer.h.

{ return true; }

declareStableParticles()

bool Hydjet2Hadronizer::declareStableParticles

(

const std::vector< int > &

_pdg

)

Definition at line 368 of file Hydjet2Hadronizer.cc.

References gen::call_pygive(), gather_cfg::cout, mps_fire::i, and gen::pycomp_().

                                                                         {
  std::vector<int> pdg = _pdg;
  for (size_t i = 0; i < pdg.size(); i++) {
    int pyCode = pycomp_(pdg[i]);
    std::ostringstream pyCard;
    pyCard << "MDCY(" << pyCode << ",1)=0";
    std::cout << pyCard.str() << std::endl;
    call_pygive(pyCard.str());
  }
  return true;
}

doSetRandomEngine()

void Hydjet2Hadronizer::doSetRandomEngine ( CLHEP::HepRandomEngine *  v )

overrideprivatevirtual

Reimplemented from gen::BaseHadronizer.

Definition at line 210 of file Hydjet2Hadronizer.cc.

References hjRandomEngine, pythia6Service_, gen::Pythia6Service::setRandomEngine(), and gen::v.

                                                                 {
  pythia6Service_->setRandomEngine(v);
  hjRandomEngine = v;
}

doSharedResources()

std::vector<std::string> const& gen::Hydjet2Hadronizer::doSharedResources ( ) const

inlineoverrideprivatevirtual

Reimplemented from gen::BaseHadronizer.

Definition at line 71 of file Hydjet2Hadronizer.h.

References theSharedResources.

{ return theSharedResources; }

finalizeEvent()

void Hydjet2Hadronizer::finalizeEvent

(

)

Definition at line 383 of file Hydjet2Hadronizer.cc.

{}

generatePartonsAndHadronize()

bool Hydjet2Hadronizer::generatePartonsAndHadronize

(

)

Definition at line 244 of file Hydjet2Hadronizer.cc.

References add_heavy_ion_rec(), funct::cos(), cosphi0_, MillePedeFileConverter_cfg::e, ev, gen::BaseHadronizer::event(), edm::errors::EventCorruption, evt, Exception, fParams, fVertex_, get_particles(), gen::BaseHadronizer::getEDMEvent(), edm::HepMCProduct::GetEvent(), hj2, edm::HepMCProduct::isVtxGenApplied(), LogDebug, GeneratorMix_cff::mix, eostools::move(), nhard_, nsoft_, nsub_, nuclear_radius(), phi0_, edm::Handle< T >::product(), pypars, pythia6Service_, rotate_, rotateEvtPlane(), Sigin, Sigjet, funct::sin(), sinphi0_, and src_.

                                                    {
  Pythia6Service::InstanceWrapper guard(pythia6Service_);

  // generate single event
  if (fParams.femb == 1) {
    const edm::Event &e = getEDMEvent();
    HepMC::GenVertex *genvtx = nullptr;
    const HepMC::GenEvent *inev = nullptr;
    Handle<CrossingFrame<HepMCProduct>> cf;
    e.getByToken(src_, cf);
    MixCollection<HepMCProduct> mix(cf.product());
    if (mix.size() < 1) {
      throw cms::Exception("MatchVtx") << "Mixing has " << mix.size() << " sub-events, should have been at least 1"
                                       << endl;
    }
    const HepMCProduct &bkg = mix.getObject(0);
    if (!(bkg.isVtxGenApplied())) {
      throw cms::Exception("MatchVtx") << "Input background does not have smeared vertex!" << endl;
    } else {
      inev = bkg.GetEvent();
    }

    genvtx = inev->signal_process_vertex();

    if (!genvtx)
      throw cms::Exception("MatchVtx") << "Input background does not have signal process vertex!" << endl;

    double aX, aY, aZ, aT;

    aX = genvtx->position().x();
    aY = genvtx->position().y();
    aZ = genvtx->position().z();
    aT = genvtx->position().t();

    if (!fVertex_) {
      fVertex_ = new HepMC::FourVector();
    }
    LogInfo("MatchVtx") << " setting vertex "
                        << " aX " << aX << " aY " << aY << " aZ " << aZ << " aT " << aT << endl;
    fVertex_->set(aX, aY, aZ, aT);

    const HepMC::HeavyIon *hi = inev->heavy_ion();

    if (hi) {
      fParams.fBfix = (hi->impact_parameter()) / nuclear_radius();
      phi0_ = hi->event_plane_angle();
      sinphi0_ = sin(phi0_);
      cosphi0_ = cos(phi0_);
    } else {
      LogWarning("EventEmbedding") << "Background event does not have heavy ion record!";
    }

  } else if (rotate_)
    rotateEvtPlane();

  nsoft_ = 0;
  nhard_ = 0;

  // generate one HYDJET event
  int ntry = 0;

  while (nsoft_ == 0 && nhard_ == 0) {
    if (ntry > 100) {
      LogError("Hydjet2EmptyEvent") << "##### HYDJET2: No Particles generated, Number of tries =" << ntry;
      // Throw an exception. Use the EventCorruption exception since it maps onto SkipEvent
      // which is what we want to do here.
      std::ostringstream sstr;
      sstr << "Hydjet2HadronizerProducer: No particles generated after " << ntry << " tries.\n";
      edm::Exception except(edm::errors::EventCorruption, sstr.str());
      throw except;
    } else {
      hj2->GenerateEvent(fParams.fBfix);

      if (hj2->IsEmpty()) {
        continue;
      }

      nsoft_ = hj2->GetNhyd();
      nsub_ = hj2->GetNjet();
      nhard_ = hj2->GetNpyt();

      //100 trys
      ++ntry;
    }
  }

  if (ev == 0) {
    Sigin = hj2->GetSigin();
    Sigjet = hj2->GetSigjet();
  }
  ev = true;

  if (fParams.fNhsel < 3)
    nsub_++;

  // event information
  std::unique_ptr<HepMC::GenEvent> evt = std::make_unique<HepMC::GenEvent>();
  std::unique_ptr<edm::HepMCProduct> HepMCEvt = std::make_unique<edm::HepMCProduct>();

  if (nhard_ > 0 || nsoft_ > 0)
    get_particles(evt.get());

  evt->set_signal_process_id(pypars.msti[0]);  // type of the process
  evt->set_event_scale(pypars.pari[16]);       // Q^2
  add_heavy_ion_rec(evt.get());

  if (fVertex_) {
    // generate new vertex & apply the shift
    // Copy the HepMC::GenEvent
    HepMCEvt = std::make_unique<edm::HepMCProduct>(evt.get());
    HepMCEvt->applyVtxGen(fVertex_);
    evt = std::make_unique<HepMC::GenEvent>(*HepMCEvt->GetEvent());
  }

  HepMC::HEPEVT_Wrapper::check_hepevt_consistency();
  LogDebug("HEPEVT_info") << "Ev numb: " << HepMC::HEPEVT_Wrapper::event_number()
                          << " Entries number: " << HepMC::HEPEVT_Wrapper::number_entries() << " Max. entries "
                          << HepMC::HEPEVT_Wrapper::max_number_entries() << std::endl;

  event() = std::move(evt);
  return kTRUE;
}

get_particles()

bool Hydjet2Hadronizer::get_particles ( HepMC::GenEvent *  evt )

private

Definition at line 396 of file Hydjet2Hadronizer.cc.

References funct::abs(), build_hyjet2(), build_hyjet2_vertex(), convertStatus(), convertStatusForComponents(), evt, GenParticle::GenParticle, hj2, LogDebug, nhard_, nsoft_, and nsub_.

Referenced by generatePartonsAndHadronize().

                                                        {
  LogDebug("Hydjet2") << " Number of sub events " << nsub_;
  LogDebug("Hydjet2") << " Number of hard events " << hj2->GetNjet();
  LogDebug("Hydjet2") << " Number of hard particles " << nhard_;
  LogDebug("Hydjet2") << " Number of soft particles " << nsoft_;
  LogDebug("Hydjet2") << " nhard_ + nsoft_ = " << nhard_ + nsoft_ << " Ntot = " << hj2->GetNtot() << endl;

  int ihy = 0;
  int isub_l = -1;
  int stab = 0;

  vector<HepMC::GenParticle *> particle(hj2->GetNtot());
  HepMC::GenVertex *sub_vertices = nullptr;

  while (ihy < hj2->GetNtot()) {
    if ((hj2->GetiJet().at(ihy)) != isub_l) {
      sub_vertices = new HepMC::GenVertex(HepMC::FourVector(0, 0, 0, 0), hj2->GetiJet().at(ihy));
      evt->add_vertex(sub_vertices);
      if (!evt->signal_process_vertex())
        evt->set_signal_process_vertex(sub_vertices);
      isub_l = hj2->GetiJet().at(ihy);
    }

    if ((convertStatusForComponents(
            (hj2->GetFinal()).at(ihy), (hj2->GetType()).at(ihy), (hj2->GetPythiaStatus().at(ihy)))) == 1)
      stab++;
    LogDebug("Hydjet2_array") << ihy << " MULTin ev.:" << hj2->GetNtot() << " SubEv.#" << hj2->GetiJet().at(ihy)
                              << " Part #" << ihy + 1 << ", PDG: " << hj2->GetPdg().at(ihy) << " (st. "
                              << convertStatus(hj2->GetPythiaStatus().at(ihy))
                              << ") mother=" << hj2->GetMotherIndex().at(ihy) + 1 << ", childs ("
                              << hj2->GetFirstDaughterIndex().at(ihy) + 1 << "-"
                              << hj2->GetLastDaughterIndex().at(ihy) + 1 << "), vtx (" << hj2->GetX().at(ihy) << ","
                              << hj2->GetY().at(ihy) << "," << hj2->GetZ().at(ihy) << ") " << std::endl;

    if ((hj2->GetMotherIndex().at(ihy)) <= 0) {
      particle.at(ihy) = build_hyjet2(ihy, ihy + 1);
      if (!sub_vertices)
        LogError("Hydjet2_array") << "##### HYDJET2: Vertex not initialized!";
      else
        sub_vertices->add_particle_out(particle.at(ihy));
      LogDebug("Hydjet2_array") << " ---> " << ihy + 1 << std::endl;
    } else {
      particle.at(ihy) = build_hyjet2(ihy, ihy + 1);
      int mid = hj2->GetMotherIndex().at(ihy);

      while (((mid + 1) < ihy) && (std::abs(hj2->GetPdg().at(mid)) < 100) &&
             ((hj2->GetFirstDaughterIndex().at(mid + 1)) <= ihy)) {
        mid++;
        LogDebug("Hydjet2_array") << "======== MID changed to " << mid
                                  << " ======== PDG(mid) = " << hj2->GetPdg().at(mid) << std::endl;
      }

      if (std::abs(hj2->GetPdg().at(mid)) < 100) {
        mid = hj2->GetMotherIndex().at(ihy);
        LogDebug("Hydjet2_array") << "======== MID changed BACK to " << mid
                                  << " ======== PDG(mid) = " << hj2->GetPdg().at(mid) << std::endl;
      }

      HepMC::GenParticle *mother = particle.at(mid);
      HepMC::GenVertex *prod_vertex = mother->end_vertex();

      if (!prod_vertex) {
        prod_vertex = build_hyjet2_vertex(ihy, (hj2->GetiJet().at(ihy)));
        prod_vertex->add_particle_in(mother);
        LogDebug("Hydjet2_array") << " <--- " << mid + 1 << std::endl;
        evt->add_vertex(prod_vertex);
      }
      prod_vertex->add_particle_out(particle.at(ihy));
      LogDebug("Hydjet2_array") << " ---" << mid + 1 << "---> " << ihy + 1 << std::endl;
    }
    ihy++;
  }

  LogDebug("Hydjet2_array") << " MULTin ev.:" << hj2->GetNtot() << ", last index: " << ihy - 1
                            << ", stable particles: " << stab << std::endl;
  return kTRUE;
}

hadronize()

bool Hydjet2Hadronizer::hadronize

(

)

Definition at line 380 of file Hydjet2Hadronizer.cc.

{ return false; }

initializeForExternalPartons()

bool gen::Hydjet2Hadronizer::initializeForExternalPartons

(

)

initializeForInternalPartons()

bool Hydjet2Hadronizer::initializeForInternalPartons

(

)

Definition at line 228 of file Hydjet2Hadronizer.cc.

References fParams, hj2, nuclear_radius(), and pythia6Service_.

                                                     {
  Pythia6Service::InstanceWrapper guard(pythia6Service_);

  // the input impact parameter (bxx_) is in [fm]; transform in [fm/RA] for hydjet usage
  const double ra = nuclear_radius();
  LogInfo("Hydjet2Hadronizer|RAScaling") << "Nuclear radius(RA) =  " << ra;
  fParams.fBmin /= ra;
  fParams.fBmax /= ra;
  fParams.fBfix /= ra;

  hj2 = new Hydjet2(fParams);

  return kTRUE;
}

nuclear_radius()

double gen::Hydjet2Hadronizer::nuclear_radius ( ) const

inlineprivate

Definition at line 107 of file Hydjet2Hadronizer.h.

References fParams, and funct::pow().

Referenced by add_heavy_ion_rec(), generatePartonsAndHadronize(), and initializeForInternalPartons().

                                                 {
    // Return the nuclear radius derived from the
    // beam/target atomic mass number.

    return 1.15 * pow((double)fParams.fAw, 1. / 3.);
  }

readSettings()

bool Hydjet2Hadronizer::readSettings

(

int

)

Definition at line 216 of file Hydjet2Hadronizer.cc.

References fParams, hjRandomEngine, pythia6Service_, and gen::Pythia6Service::setGeneralParams().

                                        {
  Pythia6Service::InstanceWrapper guard(pythia6Service_);
  pythia6Service_->setGeneralParams();

  fParams.fSeed = hjRandomEngine->CLHEP::HepRandomEngine::getSeed();
  LogInfo("Hydjet2Hadronizer|GenSeed") << "Seed for random number generation: "
                                       << hjRandomEngine->CLHEP::HepRandomEngine::getSeed();

  return kTRUE;
}

residualDecay()

bool Hydjet2Hadronizer::residualDecay

(

)

Definition at line 382 of file Hydjet2Hadronizer.cc.

{ return true; }

rotateEvtPlane()

void Hydjet2Hadronizer::rotateEvtPlane ( )

private

Definition at line 388 of file Hydjet2Hadronizer.cc.

References funct::cos(), cosphi0_, phi0_, pi, gen::pyr_(), funct::sin(), and sinphi0_.

Referenced by generatePartonsAndHadronize().

                                       {
  const double pi = 3.14159265358979;
  phi0_ = 2. * pi * gen::pyr_(nullptr) - pi;
  sinphi0_ = sin(phi0_);
  cosphi0_ = cos(phi0_);
}

statistics()

void Hydjet2Hadronizer::statistics

(

)

Definition at line 384 of file Hydjet2Hadronizer.cc.

{}

Member Data Documentation

cosphi0_

double gen::Hydjet2Hadronizer::cosphi0_

private

Definition at line 91 of file Hydjet2Hadronizer.h.

Referenced by build_hyjet2(), build_hyjet2_vertex(), generatePartonsAndHadronize(), and rotateEvtPlane().

ev

bool gen::Hydjet2Hadronizer::ev = false

private

Definition at line 82 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize().

evt

HepMC::GenEvent* gen::Hydjet2Hadronizer::evt

private

Definition at line 85 of file Hydjet2Hadronizer.h.

Referenced by add_heavy_ion_rec(), generatePartonsAndHadronize(), and get_particles().

fParams

InitialParamsHydjet_t gen::Hydjet2Hadronizer::fParams

private

Definition at line 79 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize(), Hydjet2Hadronizer(), initializeForInternalPartons(), nuclear_radius(), and readSettings().

fVertex_

HepMC::FourVector* gen::Hydjet2Hadronizer::fVertex_

private

Definition at line 99 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize(), and Hydjet2Hadronizer().

hj2

Hydjet2* gen::Hydjet2Hadronizer::hj2

private

Definition at line 80 of file Hydjet2Hadronizer.h.

Referenced by add_heavy_ion_rec(), build_hyjet2(), build_hyjet2_vertex(), generatePartonsAndHadronize(), get_particles(), and initializeForInternalPartons().

maxEventsToPrint_

unsigned int gen::Hydjet2Hadronizer::maxEventsToPrint_

private

Definition at line 94 of file Hydjet2Hadronizer.h.

Referenced by Hydjet2Hadronizer().

nhard_

int gen::Hydjet2Hadronizer::nhard_

private

Definition at line 87 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize(), and get_particles().

nsoft_

int gen::Hydjet2Hadronizer::nsoft_

private

Definition at line 88 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize(), and get_particles().

nsub_

int gen::Hydjet2Hadronizer::nsub_

private

Definition at line 86 of file Hydjet2Hadronizer.h.

Referenced by add_heavy_ion_rec(), generatePartonsAndHadronize(), and get_particles().

phi0_

double gen::Hydjet2Hadronizer::phi0_

private

Definition at line 89 of file Hydjet2Hadronizer.h.

Referenced by add_heavy_ion_rec(), generatePartonsAndHadronize(), and rotateEvtPlane().

pset

edm::ParameterSet gen::Hydjet2Hadronizer::pset

private

Definition at line 96 of file Hydjet2Hadronizer.h.

Referenced by Hydjet2Hadronizer().

pythia6Service_

Pythia6Service* gen::Hydjet2Hadronizer::pythia6Service_

private

Definition at line 103 of file Hydjet2Hadronizer.h.

Referenced by doSetRandomEngine(), generatePartonsAndHadronize(), initializeForInternalPartons(), readSettings(), and ~Hydjet2Hadronizer().

pythiaPylistVerbosity_

unsigned int gen::Hydjet2Hadronizer::pythiaPylistVerbosity_

private

Definition at line 93 of file Hydjet2Hadronizer.h.

Referenced by Hydjet2Hadronizer().

rotate_

bool gen::Hydjet2Hadronizer::rotate_

private

Definition at line 84 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize().

separateHydjetComponents_

bool gen::Hydjet2Hadronizer::separateHydjetComponents_

private

Definition at line 83 of file Hydjet2Hadronizer.h.

Referenced by Hydjet2Hadronizer().

Sigin

double gen::Hydjet2Hadronizer::Sigin

private

Definition at line 97 of file Hydjet2Hadronizer.h.

Referenced by add_heavy_ion_rec(), and generatePartonsAndHadronize().

Sigjet

double gen::Hydjet2Hadronizer::Sigjet

private

Definition at line 97 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize().

signalVtx_

std::vector<double> gen::Hydjet2Hadronizer::signalVtx_

private

Definition at line 101 of file Hydjet2Hadronizer.h.

Referenced by Hydjet2Hadronizer().

sinphi0_

double gen::Hydjet2Hadronizer::sinphi0_

private

Definition at line 90 of file Hydjet2Hadronizer.h.

Referenced by build_hyjet2(), build_hyjet2_vertex(), generatePartonsAndHadronize(), and rotateEvtPlane().

src_

edm::EDGetTokenT<CrossingFrame<edm::HepMCProduct> > gen::Hydjet2Hadronizer::src_

private

Definition at line 104 of file Hydjet2Hadronizer.h.

Referenced by generatePartonsAndHadronize(), and Hydjet2Hadronizer().

theSharedResources

const std::vector< std::string > Hydjet2Hadronizer::theSharedResources = {edm::SharedResourceNames::kPythia6}

staticprivate

Definition at line 72 of file Hydjet2Hadronizer.h.

Referenced by doSharedResources().