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genie::DMELKinematicsGenerator Class Reference

Generates values for the kinematic variables describing DM elastic interaction events. Is a concrete implementation of the EventRecordVisitorI interface. More...

#include <DMELKinematicsGenerator.h>

Inheritance diagram for genie::DMELKinematicsGenerator:
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Collaboration diagram for genie::DMELKinematicsGenerator:
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Public Member Functions

 DMELKinematicsGenerator ()
 
 DMELKinematicsGenerator (string config)
 
 ~DMELKinematicsGenerator ()
 
void ProcessEventRecord (GHepRecord *event_rec) const
 
void Configure (const Registry &config)
 
void Configure (string config)
 
- Public Member Functions inherited from genie::EventRecordVisitorI
virtual ~EventRecordVisitorI ()
 
- Public Member Functions inherited from genie::Algorithm
virtual ~Algorithm ()
 
virtual void FindConfig (void)
 
virtual const RegistryGetConfig (void) const
 
RegistryGetOwnedConfig (void)
 
virtual const AlgIdId (void) const
 Get algorithm ID. More...
 
virtual AlgStatus_t GetStatus (void) const
 Get algorithm status. More...
 
virtual bool AllowReconfig (void) const
 
virtual AlgCmp_t Compare (const Algorithm *alg) const
 Compare with input algorithm. More...
 
virtual void SetId (const AlgId &id)
 Set algorithm ID. More...
 
virtual void SetId (string name, string config)
 
const AlgorithmSubAlg (const RgKey &registry_key) const
 
void AdoptConfig (void)
 
void AdoptSubstructure (void)
 
virtual void Print (ostream &stream) const
 Print algorithm info. More...
 

Private Member Functions

void SpectralFuncExperimentalCode (GHepRecord *event_rec) const
 
void LoadConfig (void)
 
double ComputeMaxXSec (const Interaction *in) const
 

Additional Inherited Members

- Static Public Member Functions inherited from genie::Algorithm
static string BuildParamVectKey (const std::string &comm_name, unsigned int i)
 
static string BuildParamVectSizeKey (const std::string &comm_name)
 
static string BuildParamMatKey (const std::string &comm_name, unsigned int i, unsigned int j)
 
static string BuildParamMatRowSizeKey (const std::string &comm_name)
 
static string BuildParamMatColSizeKey (const std::string &comm_name)
 
- Protected Member Functions inherited from genie::KineGeneratorWithCache
 KineGeneratorWithCache ()
 
 KineGeneratorWithCache (string name)
 
 KineGeneratorWithCache (string name, string config)
 
 ~KineGeneratorWithCache ()
 
virtual double ComputeMaxXSec (const Interaction *in, const int nkey) const
 
virtual double MaxXSec (GHepRecord *evrec, const int nkey=0) const
 
virtual double FindMaxXSec (const Interaction *in, const int nkey=0) const
 
virtual void CacheMaxXSec (const Interaction *in, double xsec, const int nkey=0) const
 
virtual double Energy (const Interaction *in) const
 
virtual CacheBranchFxAccessCacheBranch (const Interaction *in, const int nkey=0) const
 
virtual void AssertXSecLimits (const Interaction *in, double xsec, double xsec_max) const
 
- Protected Member Functions inherited from genie::EventRecordVisitorI
 EventRecordVisitorI ()
 
 EventRecordVisitorI (string name)
 
 EventRecordVisitorI (string name, string config)
 
- Protected Member Functions inherited from genie::Algorithm
 Algorithm ()
 
 Algorithm (string name)
 
 Algorithm (string name, string config)
 
void Initialize (void)
 
void DeleteConfig (void)
 
void DeleteSubstructure (void)
 
RegistryExtractLocalConfig (const Registry &in) const
 
RegistryExtractLowerConfig (const Registry &in, const string &alg_key) const
 Split an incoming configuration Registry into a block valid for the sub-algo identified by alg_key. More...
 
template<class T >
bool GetParam (const RgKey &name, T &p, bool is_top_call=true) const
 
template<class T >
bool GetParamDef (const RgKey &name, T &p, const T &def) const
 
template<class T >
int GetParamVect (const std::string &comm_name, std::vector< T > &v, bool is_top_call=true) const
 Handle to load vectors of parameters. More...
 
int GetParamVectKeys (const std::string &comm_name, std::vector< RgKey > &k, bool is_top_call=true) const
 
template<class T >
int GetParamMat (const std::string &comm_name, TMatrixT< T > &mat, bool is_top_call=true) const
 Handle to load matrix of parameters. More...
 
template<class T >
int GetParamMatSym (const std::string &comm_name, TMatrixTSym< T > &mat, bool is_top_call=true) const
 
int GetParamMatKeys (const std::string &comm_name, std::vector< RgKey > &k, bool is_top_call=true) const
 
int AddTopRegistry (Registry *rp, bool owns=true)
 add registry with top priority, also update ownership More...
 
int AddLowRegistry (Registry *rp, bool owns=true)
 add registry with lowest priority, also update ownership More...
 
int MergeTopRegistry (const Registry &r)
 
int AddTopRegisties (const vector< Registry * > &rs, bool owns=false)
 Add registries with top priority, also udated Ownerships. More...
 
- Protected Attributes inherited from genie::KineGeneratorWithCache
const XSecAlgorithmIfXSecModel
 
double fSafetyFactor
 ComputeMaxXSec -> ComputeMaxXSec * fSafetyFactor. More...
 
std::vector< double > vSafetyFactors
 MaxXSec -> MaxXSec * fSafetyFactors[nkey]. More...
 
int fNumOfSafetyFactors
 Number of given safety factors. More...
 
std::vector< string > vInterpolatorTypes
 Type of interpolator for each key in a branch. More...
 
int fNumOfInterpolatorTypes
 Number of given interpolators types. More...
 
double fMaxXSecDiffTolerance
 max{100*(xsec-maxxsec)/.5*(xsec+maxxsec)} if xsec>maxxsec More...
 
double fEMin
 min E for which maxxsec is cached - forcing explicit calc. More...
 
bool fGenerateUniformly
 uniform over allowed phase space + event weight? More...
 
- Protected Attributes inherited from genie::Algorithm
bool fAllowReconfig
 
bool fOwnsSubstruc
 true if it owns its substructure (sub-algs,...) More...
 
AlgId fID
 algorithm name and configuration set More...
 
vector< Registry * > fConfVect
 
vector< bool > fOwnerships
 ownership for every registry in fConfVect More...
 
AlgStatus_t fStatus
 algorithm execution status More...
 
AlgMapfOwnedSubAlgMp
 local pool for owned sub-algs (taken out of the factory pool) More...
 

Detailed Description

Generates values for the kinematic variables describing DM elastic interaction events. Is a concrete implementation of the EventRecordVisitorI interface.

Author
Joshua Berger <jberger physics.wisc.edu> University of Wisconsin-Madison Costas Andreopoulos <c.andreopoulos cern.ch> University of Liverpool
Created:
September 4, 2017
License:
Copyright (c) 2003-2024, The GENIE Collaboration For the full text of the license visit http://copyright.genie-mc.org

Definition at line 31 of file DMELKinematicsGenerator.h.

Constructor & Destructor Documentation

DMELKinematicsGenerator::DMELKinematicsGenerator ( )

Definition at line 41 of file DMELKinematicsGenerator.cxx.

41  :
42 KineGeneratorWithCache("genie::DMELKinematicsGenerator")
43 {
44 
45 }
DMELKinematicsGenerator::DMELKinematicsGenerator ( string  config)

Definition at line 47 of file DMELKinematicsGenerator.cxx.

47  :
48 KineGeneratorWithCache("genie::DMELKinematicsGenerator", config)
49 {
50 
51 }
DMELKinematicsGenerator::~DMELKinematicsGenerator ( )

Definition at line 53 of file DMELKinematicsGenerator.cxx.

54 {
55 
56 }

Member Function Documentation

double DMELKinematicsGenerator::ComputeMaxXSec ( const Interaction in) const
privatevirtual

Implements genie::KineGeneratorWithCache.

Definition at line 473 of file DMELKinematicsGenerator.cxx.

References genie::Interaction::AsString(), genie::KineGeneratorWithCache::fSafetyFactor, genie::KineGeneratorWithCache::fXSecModel, genie::controls::kASmallNum, genie::Interaction::KinePtr(), genie::kKVQ2, genie::kPSQ2fE, genie::KPhaseSpace::Limits(), LOG, genie::Range1D_t::max, genie::Range1D_t::min, pDEBUG, genie::Interaction::PhaseSpace(), genie::utils::kinematics::Q2(), genie::Kinematics::SetQ2(), SLOG, and genie::XSecAlgorithmI::XSec().

475 {
476 // Computes the maximum differential cross section in the requested phase
477 // space. This method overloads KineGeneratorWithCache::ComputeMaxXSec
478 // method and the value is cached at a circular cache branch for retrieval
479 // during subsequent event generation.
480 // The computed max differential cross section does not need to be the exact
481 // maximum. The number used in the rejection method will be scaled up by a
482 // safety factor. But it needs to be fast - do not use a very small dQ2 step.
483 
484  double max_xsec = 0.0;
485 
486  const KPhaseSpace & kps = interaction->PhaseSpace();
487  Range1D_t rQ2 = kps.Limits(kKVQ2);
488  LOG("DMELKinematics", pDEBUG) << "Range of Q^2: " << rQ2.min << " to " << rQ2.max;
489  if(rQ2.min <=0 || rQ2.max <= rQ2.min) return 0.;
490 
491  const double logQ2min = TMath::Log(rQ2.min + kASmallNum);
492  const double logQ2max = TMath::Log(rQ2.max - kASmallNum);
493 
494  const int N = 15;
495  const int Nb = 10;
496 
497  double dlogQ2 = (logQ2max - logQ2min) /(N-1);
498  double xseclast = -1;
499  bool increasing;
500 
501  for(int i=0; i<N; i++) {
502  double Q2 = TMath::Exp(logQ2min + i * dlogQ2);
503  interaction->KinePtr()->SetQ2(Q2);
504  double xsec = fXSecModel->XSec(interaction, kPSQ2fE);
505 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
506  LOG("DMELKinematics", pDEBUG) << "xsec(Q2= " << Q2 << ") = " << xsec;
507 #endif
508  max_xsec = TMath::Max(xsec, max_xsec);
509  increasing = xsec-xseclast>=0;
510  xseclast = xsec;
511 
512  // once the cross section stops increasing, I reduce the step size and
513  // step backwards a little bit to handle cases that the max cross section
514  // is grossly underestimated (very peaky distribution & large step)
515  if(!increasing) {
516  dlogQ2/=(Nb+1);
517  for(int ib=0; ib<Nb; ib++) {
518  Q2 = TMath::Exp(TMath::Log(Q2) - dlogQ2);
519  if(Q2 < rQ2.min) continue;
520  interaction->KinePtr()->SetQ2(Q2);
521  xsec = fXSecModel->XSec(interaction, kPSQ2fE);
522 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
523  LOG("DMELKinematics", pDEBUG) << "xsec(Q2= " << Q2 << ") = " << xsec;
524 #endif
525  max_xsec = TMath::Max(xsec, max_xsec);
526  }
527  break;
528  }
529  }//Q^2
530 
531  // Apply safety factor, since value retrieved from the cache might
532  // correspond to a slightly different energy
533  max_xsec *= fSafetyFactor;
534 
535 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
536  SLOG("DMELKinematics", pDEBUG) << interaction->AsString();
537  SLOG("DMELKinematics", pDEBUG) << "Max xsec in phase space = " << max_xsec;
538  SLOG("DMELKinematics", pDEBUG) << "Computed using alg = " << *fXSecModel;
539 #endif
540 
541  return max_xsec;
542 }
double Q2(const Interaction *const i)
Definition: KineUtils.cxx:1077
double fSafetyFactor
ComputeMaxXSec -&gt; ComputeMaxXSec * fSafetyFactor.
A simple [min,max] interval for doubles.
Definition: Range1.h:42
Range1D_t Limits(KineVar_t kvar) const
Return the kinematical variable limits.
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:96
Kinematical phase space.
Definition: KPhaseSpace.h:33
static const double kASmallNum
Definition: Controls.h:40
virtual double XSec(const Interaction *i, KinePhaseSpace_t k=kPSfE) const =0
Compute the cross section for the input interaction.
double max
Definition: Range1.h:53
double min
Definition: Range1.h:52
#define SLOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a short string (using the FUNCTION and...
Definition: Messenger.h:84
#define pDEBUG
Definition: Messenger.h:63
void DMELKinematicsGenerator::Configure ( const Registry config)
virtual

Configure the algorithm with an external registry The registry is merged with the top level registry if it is owned, Otherwise a copy of it is added with the highest priority

Reimplemented from genie::Algorithm.

Definition at line 438 of file DMELKinematicsGenerator.cxx.

References genie::Algorithm::Configure(), and LoadConfig().

439 {
440  Algorithm::Configure(config);
441  this->LoadConfig();
442 }
virtual void Configure(const Registry &config)
Definition: Algorithm.cxx:62
void DMELKinematicsGenerator::Configure ( string  config)
virtual

Configure the algorithm from the AlgoConfigPool based on param_set string given in input An algorithm contains a vector of registries coming from different xml configuration files, which are loaded according a very precise prioriy This methods will load a number registries in order of priority: 1) "Tunable" parameter set from CommonParametes. This is loaded with the highest prioriry and it is designed to be used for tuning procedure Usage not expected from the user. 2) For every string defined in "CommonParame" the corresponding parameter set will be loaded from CommonParameter.xml 3) parameter set specified by the config string and defined in the xml file of the algorithm 4) if config is not "Default" also the Default parameter set from the same xml file will be loaded Effectively this avoids the repetion of a parameter when it is not changed in the requested configuration

Reimplemented from genie::Algorithm.

Definition at line 444 of file DMELKinematicsGenerator.cxx.

References genie::Algorithm::Configure(), and LoadConfig().

445 {
446  Algorithm::Configure(config);
447  this->LoadConfig();
448 }
virtual void Configure(const Registry &config)
Definition: Algorithm.cxx:62
void DMELKinematicsGenerator::LoadConfig ( void  )
private

Definition at line 450 of file DMELKinematicsGenerator.cxx.

References genie::KineGeneratorWithCache::fEMin, genie::KineGeneratorWithCache::fGenerateUniformly, genie::KineGeneratorWithCache::fMaxXSecDiffTolerance, genie::KineGeneratorWithCache::fSafetyFactor, and genie::Algorithm::GetParamDef().

Referenced by Configure().

451 {
452 // Load sub-algorithms and config data to reduce the number of registry
453 // lookups
454 
455  //-- Safety factor for the maximum differential cross section
456  GetParamDef( "MaxXSec-SafetyFactor", fSafetyFactor , 1.25 ) ;
457 
458  //-- Minimum energy for which max xsec would be cached, forcing explicit
459  // calculation for lower eneries
460  GetParamDef( "Cache-MinEnergy", fEMin, 1.00 ) ;
461 
462  //-- Maximum allowed fractional cross section deviation from maxim cross
463  // section used in rejection method
464  GetParamDef( "MaxXSec-DiffTolerance", fMaxXSecDiffTolerance, 999999. ) ;
465  assert(fMaxXSecDiffTolerance>=0);
466 
467  //-- Generate kinematics uniformly over allowed phase space and compute
468  // an event weight?
469  GetParamDef( "UniformOverPhaseSpace", fGenerateUniformly, false ) ;
470 
471 }
bool fGenerateUniformly
uniform over allowed phase space + event weight?
double fSafetyFactor
ComputeMaxXSec -&gt; ComputeMaxXSec * fSafetyFactor.
double fMaxXSecDiffTolerance
max{100*(xsec-maxxsec)/.5*(xsec+maxxsec)} if xsec&gt;maxxsec
double fEMin
min E for which maxxsec is cached - forcing explicit calc.
bool GetParamDef(const RgKey &name, T &p, const T &def) const
void DMELKinematicsGenerator::ProcessEventRecord ( GHepRecord event_rec) const
virtual

Implements genie::EventRecordVisitorI.

Definition at line 58 of file DMELKinematicsGenerator.cxx.

References genie::KineGeneratorWithCache::AssertXSecLimits(), genie::XclsTag::CharmHadronPdg(), genie::Kinematics::ClearRunningValues(), genie::EventGeneratorI::CrossSectionAlg(), genie::GHepRecord::EventFlags(), genie::Interaction::ExclTag(), genie::KineGeneratorWithCache::fGenerateUniformly, genie::PDGLibrary::Find(), genie::KineGeneratorWithCache::fXSecModel, gQ2, genie::GHepRecord::HitNucleon(), genie::Target::HitNucP4(), genie::Interaction::InitState(), genie::Interaction::InitStatePtr(), genie::RunningThreadInfo::Instance(), genie::RandomGen::Instance(), genie::PDGLibrary::Instance(), genie::XclsTag::IsCharmEvent(), genie::XclsTag::IsStrangeEvent(), genie::utils::mec::J(), genie::controls::kASmallNum, genie::kIAssumeFreeNucleon, genie::Interaction::KinePtr(), genie::kISkipKinematicChk, genie::kISkipProcessChk, genie::kKineGenErr, genie::kKVQ2, genie::kPSQ2fE, genie::kRfHitNucRest, genie::controls::kRjMaxIterations, genie::KPhaseSpace::Limits(), LOG, genie::Range1D_t::max, genie::KineGeneratorWithCache::MaxXSec(), genie::Range1D_t::min, pDEBUG, genie::Interaction::PhaseSpace(), genie::utils::kinematics::PhaseSpaceVolume(), pINFO, pNOTICE, genie::InitialState::ProbeE(), pWARN, genie::utils::kinematics::Q2(), genie::Interaction::RecoilNucleonPdg(), genie::RandomGen::RndKine(), genie::RunningThreadInfo::RunningThread(), genie::GHepRecord::SetDiffXSec(), genie::Target::SetHitNucPosition(), genie::Kinematics::SetQ2(), genie::exceptions::EVGThreadException::SetReason(), genie::Kinematics::SetW(), genie::GHepRecord::SetWeight(), genie::Kinematics::Setx(), genie::Kinematics::Sety(), genie::XclsTag::StrangeHadronPdg(), genie::GHepRecord::Summary(), genie::exceptions::EVGThreadException::SwitchOnFastForward(), genie::InitialState::Tgt(), genie::InitialState::TgtPtr(), genie::GHepRecord::Weight(), genie::utils::kinematics::WQ2toXY(), genie::GHepParticle::X4(), genie::XSecAlgorithmI::XSec(), and genie::GHepRecord::XSec().

59 {
60  if(fGenerateUniformly) {
61  LOG("DMELKinematics", pNOTICE)
62  << "Generating kinematics uniformly over the allowed phase space";
63  }
64 
65  //-- Get the random number generators
67 
68  //-- Access cross section algorithm for running thread
70  const EventGeneratorI * evg = rtinfo->RunningThread();
71  fXSecModel = evg->CrossSectionAlg();
72 
73  //-- Get the interaction and set the 'trust' bits
74  Interaction * interaction = evrec->Summary();
75  interaction->SetBit(kISkipProcessChk);
76  interaction->SetBit(kISkipKinematicChk);
77 
78  // store the struck nucleon position for use by the xsec method
79  double hitNucPos = evrec->HitNucleon()->X4()->Vect().Mag();
80  interaction->InitStatePtr()->TgtPtr()->SetHitNucPosition(hitNucPos);
81 
82  //-- Note: The kinematic generator would be using the free nucleon cross
83  // section (even for nuclear targets) so as not to double-count nuclear
84  // suppression. This assumes that a) the nuclear suppression was turned
85  // on when computing the cross sections for selecting the current event
86  // and that b) if the event turns out to be unphysical (Pauli-blocked)
87  // the next attempted event will be forced to DM again.
88  // (discussion with Hugh - GENIE/NeuGEN integration workshop - 07APR2006
89  interaction->SetBit(kIAssumeFreeNucleon);
90 
91  //-- Get the limits for the generated Q2
92  const KPhaseSpace & kps = interaction->PhaseSpace();
93  Range1D_t Q2 = kps.Limits(kKVQ2);
94 
95  if(Q2.max <=0 || Q2.min>=Q2.max) {
96  LOG("DMELKinematics", pWARN) << "No available phase space";
97  evrec->EventFlags()->SetBitNumber(kKineGenErr, true);
99  exception.SetReason("No available phase space");
100  exception.SwitchOnFastForward();
101  throw exception;
102  }
103 
104  //-- For the subsequent kinematic selection with the rejection method:
105  // Calculate the max differential cross section or retrieve it from the
106  // cache. Throw an exception and quit the evg thread if a non-positive
107  // value is found.
108  // If the kinematics are generated uniformly over the allowed phase
109  // space the max xsec is irrelevant
110  LOG("DMELKinematics",pNOTICE) << "Setting max XSec";
111  double xsec_max = (fGenerateUniformly) ? -1 : this->MaxXSec(evrec);
112  LOG("DMELKinematics",pNOTICE) << "Set max XSec to " << xsec_max;
113 
114  //-- Try to select a valid Q2 using the rejection method
115 
116  // kinematical limits
117  double Q2min = Q2.min+kASmallNum;
118  double Q2max = Q2.max-kASmallNum;
119 //double QD2min = utils::kinematics::Q2toQD2(Q2min);
120 //double QD2max = utils::kinematics::Q2toQD2(Q2max);
121  double xsec = -1.;
122  double gQ2 = 0.;
123 
124  unsigned int iter = 0;
125  bool accept = false;
126  while(1) {
127  iter++;
128  if(iter > kRjMaxIterations) {
129  LOG("DMELKinematics", pWARN)
130  << "Couldn't select a valid Q^2 after " << iter << " iterations";
131  evrec->EventFlags()->SetBitNumber(kKineGenErr, true);
133  exception.SetReason("Couldn't select kinematics");
134  exception.SwitchOnFastForward();
135  throw exception;
136  }
137 
138  //-- Generate a Q2 value within the allowed phase space
139 /*
140  if(fGenerateUniformly) {
141  gQ2 = Q2min + (Q2max-Q2min) * rnd->RndKine().Rndm();
142  } else {
143  // In unweighted mode - use transform that takes out the dipole form
144  double gQD2 = QD2min + (QD2max-QD2min) * rnd->RndKine().Rndm();
145  gQ2 = utils::kinematics::QD2toQ2(gQD2);
146  }
147 */
148  LOG("DMELKinematics",pNOTICE) << "Attempting to sample";
149  gQ2 = Q2min + (Q2max-Q2min) * rnd->RndKine().Rndm();
150  interaction->KinePtr()->SetQ2(gQ2);
151  LOG("DMELKinematics", pINFO) << "Trying: Q^2 = " << gQ2;
152 
153  //-- Computing cross section for the current kinematics
154  xsec = fXSecModel->XSec(interaction, kPSQ2fE);
155 
156  //-- Decide whether to accept the current kinematics
157  if(!fGenerateUniformly) {
158  this->AssertXSecLimits(interaction, xsec, xsec_max);
159 
160  double t = xsec_max * rnd->RndKine().Rndm();
161  //double J = kinematics::Jacobian(interaction,kPSQ2fE,kPSQD2fE);
162  double J = 1.;
163 
164 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
165  LOG("DMELKinematics", pDEBUG)
166  << "xsec= " << xsec << ", J= " << J << ", Rnd= " << t;
167 #endif
168  accept = (t < J*xsec);
169  } else {
170  accept = (xsec>0);
171  }
172 
173  //-- If the generated kinematics are accepted, finish-up module's job
174  if(accept) {
175  LOG("DMELKinematics", pINFO) << "Selected: Q^2 = " << gQ2;
176 
177  // reset bits
178  interaction->ResetBit(kISkipProcessChk);
179  interaction->ResetBit(kISkipKinematicChk);
180  interaction->ResetBit(kIAssumeFreeNucleon);
181 
182  // compute the rest of the kinematical variables
183 
184  // get neutrino energy at struck nucleon rest frame and the
185  // struck nucleon mass (can be off the mass shell)
186  const InitialState & init_state = interaction->InitState();
187  double E = init_state.ProbeE(kRfHitNucRest);
188  double M = init_state.Tgt().HitNucP4().M();
189 
190  LOG("DMELKinematics", pNOTICE) << "E = " << E << ", M = "<< M;
191 
192  // The hadronic inv. mass is equal to the recoil nucleon on-shell mass.
193  // For DM/Charm events it is set to be equal to the on-shell mass of
194  // the generated charm baryon (Lamda_c+, Sigma_c+ or Sigma_c++)
195  // Similarly for strange baryons
196  //
197  const XclsTag & xcls = interaction->ExclTag();
198  int rpdgc = 0;
199  if(xcls.IsCharmEvent()) { rpdgc = xcls.CharmHadronPdg(); }
200  else if(xcls.IsStrangeEvent()) { rpdgc = xcls.StrangeHadronPdg(); }
201  else { rpdgc = interaction->RecoilNucleonPdg(); }
202  assert(rpdgc);
203  double gW = PDGLibrary::Instance()->Find(rpdgc)->Mass();
204 
205  LOG("DMELKinematics", pNOTICE) << "Selected: W = "<< gW;
206 
207  // (W,Q2) -> (x,y)
208  double gx=0, gy=0;
209  kinematics::WQ2toXY(E,M,gW,gQ2,gx,gy);
210 
211  // set the cross section for the selected kinematics
212  evrec->SetDiffXSec(xsec,kPSQ2fE);
213 
214  // for uniform kinematics, compute an event weight as
215  // wght = (phase space volume)*(differential xsec)/(event total xsec)
216  if(fGenerateUniformly) {
217  double vol = kinematics::PhaseSpaceVolume(interaction,kPSQ2fE);
218  double totxsec = evrec->XSec();
219  double wght = (vol/totxsec)*xsec;
220  LOG("DMELKinematics", pNOTICE) << "Kinematics wght = "<< wght;
221 
222  // apply computed weight to the current event weight
223  wght *= evrec->Weight();
224  LOG("DMELKinematics", pNOTICE) << "Current event wght = " << wght;
225  evrec->SetWeight(wght);
226  }
227 
228  // lock selected kinematics & clear running values
229  interaction->KinePtr()->SetQ2(gQ2, true);
230  interaction->KinePtr()->SetW (gW, true);
231  interaction->KinePtr()->Setx (gx, true);
232  interaction->KinePtr()->Sety (gy, true);
233  interaction->KinePtr()->ClearRunningValues();
234 
235  return;
236  }
237  }// iterations
238 }
const KPhaseSpace & PhaseSpace(void) const
Definition: Interaction.h:73
bool fGenerateUniformly
uniform over allowed phase space + event weight?
double J(double q0, double q3, double Enu, double ml)
Definition: MECUtils.cxx:147
double Q2(const Interaction *const i)
Definition: KineUtils.cxx:1077
static RandomGen * Instance()
Access instance.
Definition: RandomGen.cxx:71
void SetQ2(double Q2, bool selected=false)
Definition: Kinematics.cxx:255
Kinematics * KinePtr(void) const
Definition: Interaction.h:76
int RecoilNucleonPdg(void) const
recoil nucleon pdg
A simple [min,max] interval for doubles.
Definition: Range1.h:42
virtual void AssertXSecLimits(const Interaction *in, double xsec, double xsec_max) const
int CharmHadronPdg(void) const
Definition: XclsTag.h:52
bool IsStrangeEvent(void) const
Definition: XclsTag.h:53
Defines the EventGeneratorI interface.
virtual double MaxXSec(GHepRecord *evrec, const int nkey=0) const
void SetHitNucPosition(double r)
Definition: Target.cxx:210
A singleton holding random number generator classes. All random number generation in GENIE should tak...
Definition: RandomGen.h:29
Range1D_t Limits(KineVar_t kvar) const
Return the kinematical variable limits.
Contains minimal information for tagging exclusive processes.
Definition: XclsTag.h:39
double PhaseSpaceVolume(const Interaction *const i, KinePhaseSpace_t ps)
Definition: KineUtils.cxx:36
bool IsCharmEvent(void) const
Definition: XclsTag.h:50
Summary information for an interaction.
Definition: Interaction.h:56
const TLorentzVector & HitNucP4(void) const
Definition: Target.h:91
An exception thrown by EventRecordVisitorI when the normal processing sequence has to be disrupted (f...
int StrangeHadronPdg(void) const
Definition: XclsTag.h:55
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:96
void WQ2toXY(double Ev, double M, double W, double Q2, double &x, double &y)
Definition: KineUtils.cxx:1132
Kinematical phase space.
Definition: KPhaseSpace.h:33
static const double kASmallNum
Definition: Controls.h:40
#define pINFO
Definition: Messenger.h:62
TRandom3 & RndKine(void) const
rnd number generator used by kinematics generators
Definition: RandomGen.h:50
#define pWARN
Definition: Messenger.h:60
const UInt_t kISkipKinematicChk
if set, skip kinematic validity checks
Definition: Interaction.h:48
virtual double XSec(const Interaction *i, KinePhaseSpace_t k=kPSfE) const =0
Compute the cross section for the input interaction.
void Setx(double x, bool selected=false)
Definition: Kinematics.cxx:231
static RunningThreadInfo * Instance(void)
double max
Definition: Range1.h:53
void SetW(double W, bool selected=false)
Definition: Kinematics.cxx:279
static PDGLibrary * Instance(void)
Definition: PDGLibrary.cxx:68
void Sety(double y, bool selected=false)
Definition: Kinematics.cxx:243
const UInt_t kIAssumeFreeNucleon
Definition: Interaction.h:49
const XclsTag & ExclTag(void) const
Definition: Interaction.h:72
Target * TgtPtr(void) const
Definition: InitialState.h:67
virtual const XSecAlgorithmI * CrossSectionAlg(void) const =0
double gQ2
Definition: gtestDISSF.cxx:55
InitialState * InitStatePtr(void) const
Definition: Interaction.h:74
const InitialState & InitState(void) const
Definition: Interaction.h:69
double min
Definition: Range1.h:52
TParticlePDG * Find(int pdgc, bool must_exist=true)
Definition: PDGLibrary.cxx:86
#define pNOTICE
Definition: Messenger.h:61
void ClearRunningValues(void)
Definition: Kinematics.cxx:347
const Target & Tgt(void) const
Definition: InitialState.h:66
static const unsigned int kRjMaxIterations
Definition: Controls.h:26
const EventGeneratorI * RunningThread(void)
double ProbeE(RefFrame_t rf) const
Keep info on the event generation thread currently on charge. This is used so that event generation m...
const UInt_t kISkipProcessChk
if set, skip process validity checks
Definition: Interaction.h:47
Initial State information.
Definition: InitialState.h:48
#define pDEBUG
Definition: Messenger.h:63
void DMELKinematicsGenerator::SpectralFuncExperimentalCode ( GHepRecord event_rec) const
private

Definition at line 240 of file DMELKinematicsGenerator.cxx.

References genie::KineGeneratorWithCache::AssertXSecLimits(), genie::XclsTag::CharmHadronPdg(), genie::Kinematics::ClearRunningValues(), genie::EventGeneratorI::CrossSectionAlg(), genie::GHepRecord::EventFlags(), genie::Interaction::ExclTag(), genie::PDGLibrary::Find(), genie::Interaction::FSPrimLepton(), genie::KineGeneratorWithCache::fXSecModel, gQ2, genie::GHepRecord::HitNucleon(), genie::Target::HitNucMass(), genie::Target::HitNucP4(), genie::Target::HitNucP4Ptr(), genie::Interaction::InitState(), genie::Interaction::InitStatePtr(), genie::RunningThreadInfo::Instance(), genie::RandomGen::Instance(), genie::PDGLibrary::Instance(), genie::XclsTag::IsCharmEvent(), genie::controls::kASmallNum, genie::kIAssumeFreeNucleon, genie::Interaction::KinePtr(), genie::kISkipKinematicChk, genie::kISkipProcessChk, genie::kKineGenErr, genie::kKVQ2, genie::kPSQ2fE, genie::kRfHitNucRest, genie::controls::kRjMaxIterations, genie::KPhaseSpace::Limits(), LOG, genie::Range1D_t::max, genie::KineGeneratorWithCache::MaxXSec(), genie::Range1D_t::min, pDEBUG, genie::Interaction::PhaseSpace(), pNOTICE, genie::InitialState::ProbeE(), pWARN, genie::utils::kinematics::Q2(), genie::Interaction::RecoilNucleonPdg(), genie::RandomGen::RndKine(), genie::RunningThreadInfo::RunningThread(), genie::GHepRecord::SetDiffXSec(), genie::Target::SetHitNucPosition(), genie::Kinematics::SetQ2(), genie::exceptions::EVGThreadException::SetReason(), genie::Kinematics::SetW(), genie::Kinematics::Setx(), genie::Kinematics::Sety(), genie::GHepRecord::Summary(), genie::exceptions::EVGThreadException::SwitchOnFastForward(), genie::InitialState::Tgt(), genie::InitialState::TgtPtr(), genie::utils::kinematics::WQ2toXY(), genie::GHepParticle::X4(), and genie::XSecAlgorithmI::XSec().

242 {
243  //-- Get the random number generators
244  RandomGen * rnd = RandomGen::Instance();
245 
246  //-- Access cross section algorithm for running thread
248  const EventGeneratorI * evg = rtinfo->RunningThread();
249  fXSecModel = evg->CrossSectionAlg();
250 
251  //-- Get the interaction and set the 'trust' bits
252  Interaction * interaction = new Interaction(*evrec->Summary());
253  interaction->SetBit(kISkipProcessChk);
254  interaction->SetBit(kISkipKinematicChk);
255 
256  // store the struck nucleon position for use by the xsec method
257  double hitNucPos = evrec->HitNucleon()->X4()->Vect().Mag();
258  interaction->InitStatePtr()->TgtPtr()->SetHitNucPosition(hitNucPos);
259 
260  //-- Note: The kinematic generator would be using the free nucleon cross
261  // section (even for nuclear targets) so as not to double-count nuclear
262  // suppression. This assumes that a) the nuclear suppression was turned
263  // on when computing the cross sections for selecting the current event
264  // and that b) if the event turns out to be unphysical (Pauli-blocked)
265  // the next attempted event will be forced to DM again.
266  // (discussion with Hugh - GENIE/NeuGEN integration workshop - 07APR2006
267  interaction->SetBit(kIAssumeFreeNucleon);
268 
269  //-- Assume scattering off a nucleon on the mass shell (PWIA prescription)
270  double Mn = interaction->InitState().Tgt().HitNucMass(); // PDG mass, take it to be on-shell
271  double pxn = interaction->InitState().Tgt().HitNucP4().Px();
272  double pyn = interaction->InitState().Tgt().HitNucP4().Py();
273  double pzn = interaction->InitState().Tgt().HitNucP4().Pz();
274  double En = interaction->InitState().Tgt().HitNucP4().Energy();
275  double En0 = TMath::Sqrt(pxn*pxn + pyn*pyn + pzn*pzn + Mn*Mn);
276  double Eb = En0 - En;
277  interaction->InitStatePtr()->TgtPtr()->HitNucP4Ptr()->SetE(En0);
278  double ml = interaction->FSPrimLepton()->Mass();
279 
280  //-- Get the limits for the generated Q2
281  const KPhaseSpace & kps = interaction->PhaseSpace();
282  Range1D_t Q2 = kps.Limits(kKVQ2);
283 
284  if(Q2.max <=0 || Q2.min>=Q2.max) {
285  LOG("DMELKinematics", pWARN) << "No available phase space";
286  evrec->EventFlags()->SetBitNumber(kKineGenErr, true);
288  exception.SetReason("No available phase space");
289  exception.SwitchOnFastForward();
290  throw exception;
291  }
292 
293  //-- For the subsequent kinematic selection with the rejection method:
294  // Calculate the max differential cross section or retrieve it from the
295  // cache. Throw an exception and quit the evg thread if a non-positive
296  // value is found.
297  // If the kinematics are generated uniformly over the allowed phase
298  // space the max xsec is irrelevant
299 // double xsec_max = (fGenerateUniformly) ? -1 : this->MaxXSec(evrec);
300  double xsec_max = this->MaxXSec(evrec);
301 
302  // get neutrino energy at struck nucleon rest frame and the
303  // struck nucleon mass (can be off the mass shell)
304  const InitialState & init_state = interaction->InitState();
305  double E = init_state.ProbeE(kRfHitNucRest);
306 
307  LOG("DMELKinematics", pNOTICE) << "E = " << E << ", M = "<< Mn;
308 
309  //-- Try to select a valid Q2 using the rejection method
310 
311  // kinematical limits
312  double Q2min = Q2.min+kASmallNum;
313  double Q2max = Q2.max-kASmallNum;
314  double xsec = -1.;
315  double gQ2 = 0.;
316  double gW = 0.;
317  double gx = 0.;
318  double gy = 0.;
319 
320  unsigned int iter = 0;
321  bool accept = false;
322  while(1) {
323  iter++;
324  if(iter > kRjMaxIterations) {
325  LOG("DMELKinematics", pWARN)
326  << "Couldn't select a valid Q^2 after " << iter << " iterations";
327  evrec->EventFlags()->SetBitNumber(kKineGenErr, true);
329  exception.SetReason("Couldn't select kinematics");
330  exception.SwitchOnFastForward();
331  throw exception;
332  }
333 
334  //-- Generate a Q2 value within the allowed phase space
335  gQ2 = Q2min + (Q2max-Q2min) * rnd->RndKine().Rndm();
336  LOG("DMELKinematics", pNOTICE) << "Trying: Q^2 = " << gQ2;
337 
338  // The hadronic inv. mass is equal to the recoil nucleon on-shell mass.
339  // For DM/Charm events it is set to be equal to the on-shell mass of
340  // the generated charm baryon (Lamda_c+, Sigma_c+ or Sigma_c++)
341  //
342  const XclsTag & xcls = interaction->ExclTag();
343  int rpdgc = 0;
344  if(xcls.IsCharmEvent()) { rpdgc = xcls.CharmHadronPdg(); }
345  else { rpdgc = interaction->RecoilNucleonPdg(); }
346  assert(rpdgc);
347  gW = PDGLibrary::Instance()->Find(rpdgc)->Mass();
348 
349  // (W,Q2) -> (x,y)
350  kinematics::WQ2toXY(E,Mn,gW,gQ2,gx,gy);
351 
352  LOG("DMELKinematics", pNOTICE) << "W = "<< gW;
353  LOG("DMELKinematics", pNOTICE) << "x = "<< gx;
354  LOG("DMELKinematics", pNOTICE) << "y = "<< gy;
355 
356  // v
357  double gv = gy * E;
358  double gv2 = gv*gv;
359 
360  LOG("DMELKinematics", pNOTICE) << "v = "<< gv;
361 
362  // v -> v~
363  double gvtilde = gv + Mn - Eb - TMath::Sqrt(Mn*Mn+pxn*pxn+pyn*pyn+pzn*pzn);
364  double gvtilde2 = gvtilde*gvtilde;
365 
366  LOG("DMELKinematics", pNOTICE) << "v~ = "<< gvtilde;
367 
368  // Q~^2
369  double gQ2tilde = gQ2 - gv2 + gvtilde2;
370 
371  LOG("DMELKinematics", pNOTICE) << "Q~^2 = "<< gQ2tilde;
372 
373  // Set updated Q2
374  interaction->KinePtr()->SetQ2(gQ2tilde);
375 
376  //-- Computing cross section for the current kinematics
377  xsec = fXSecModel->XSec(interaction, kPSQ2fE);
378 
379  //-- Decide whether to accept the current kinematics
380 // if(!fGenerateUniformly) {
381  this->AssertXSecLimits(interaction, xsec, xsec_max);
382 
383  double t = xsec_max * rnd->RndKine().Rndm();
384 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
385  LOG("DMELKinematics", pDEBUG)
386  << "xsec= " << xsec << ", Rnd= " << t;
387 #endif
388  accept = (t < xsec);
389 // } else {
390 // accept = (xsec>0);
391 // }
392 
393  //-- If the generated kinematics are accepted, finish-up module's job
394  if(accept) {
395  LOG("DMELKinematics", pNOTICE) << "Selected: Q^2 = " << gQ2;
396 
397  // reset bits
398 // interaction->ResetBit(kISkipProcessChk);
399 // interaction->ResetBit(kISkipKinematicChk);
400 // interaction->ResetBit(kIAssumeFreeNucleon);
401 
402  // set the cross section for the selected kinematics
403  evrec->SetDiffXSec(xsec,kPSQ2fE);
404 
405  // for uniform kinematics, compute an event weight as
406  // wght = (phase space volume)*(differential xsec)/(event total xsec)
407 // if(fGenerateUniformly) {
408 // double vol = kinematics::PhaseSpaceVolume(interaction,kPSQ2fE);
409 // double totxsec = evrec->XSec();
410 // double wght = (vol/totxsec)*xsec;
411 // LOG("DMELKinematics", pNOTICE) << "Kinematics wght = "<< wght;
412 
413  // apply computed weight to the current event weight
414 // wght *= evrec->Weight();
415 // LOG("DMELKinematics", pNOTICE) << "Current event wght = " << wght;
416 // evrec->SetWeight(wght);
417 // }
418 
419  // lock selected kinematics & clear running values
420 // interaction->KinePtr()->SetQ2(gQ2, true);
421 // interaction->KinePtr()->SetW (gW, true);
422 // interaction->KinePtr()->Setx (gx, true);
423 // interaction->KinePtr()->Sety (gy, true);
424 // interaction->KinePtr()->ClearRunningValues();
425 
426  evrec->Summary()->KinePtr()->SetQ2(gQ2, true);
427  evrec->Summary()->KinePtr()->SetW (gW, true);
428  evrec->Summary()->KinePtr()->Setx (gx, true);
429  evrec->Summary()->KinePtr()->Sety (gy, true);
430  evrec->Summary()->KinePtr()->ClearRunningValues();
431  delete interaction;
432 
433  return;
434  }
435  }// iterations
436 }
const KPhaseSpace & PhaseSpace(void) const
Definition: Interaction.h:73
double Q2(const Interaction *const i)
Definition: KineUtils.cxx:1077
static RandomGen * Instance()
Access instance.
Definition: RandomGen.cxx:71
void SetQ2(double Q2, bool selected=false)
Definition: Kinematics.cxx:255
Kinematics * KinePtr(void) const
Definition: Interaction.h:76
int RecoilNucleonPdg(void) const
recoil nucleon pdg
A simple [min,max] interval for doubles.
Definition: Range1.h:42
virtual void AssertXSecLimits(const Interaction *in, double xsec, double xsec_max) const
double HitNucMass(void) const
Definition: Target.cxx:233
int CharmHadronPdg(void) const
Definition: XclsTag.h:52
Defines the EventGeneratorI interface.
virtual double MaxXSec(GHepRecord *evrec, const int nkey=0) const
void SetHitNucPosition(double r)
Definition: Target.cxx:210
A singleton holding random number generator classes. All random number generation in GENIE should tak...
Definition: RandomGen.h:29
Range1D_t Limits(KineVar_t kvar) const
Return the kinematical variable limits.
Contains minimal information for tagging exclusive processes.
Definition: XclsTag.h:39
bool IsCharmEvent(void) const
Definition: XclsTag.h:50
Summary information for an interaction.
Definition: Interaction.h:56
const TLorentzVector & HitNucP4(void) const
Definition: Target.h:91
An exception thrown by EventRecordVisitorI when the normal processing sequence has to be disrupted (f...
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:96
void WQ2toXY(double Ev, double M, double W, double Q2, double &x, double &y)
Definition: KineUtils.cxx:1132
Kinematical phase space.
Definition: KPhaseSpace.h:33
static const double kASmallNum
Definition: Controls.h:40
TRandom3 & RndKine(void) const
rnd number generator used by kinematics generators
Definition: RandomGen.h:50
#define pWARN
Definition: Messenger.h:60
const UInt_t kISkipKinematicChk
if set, skip kinematic validity checks
Definition: Interaction.h:48
virtual double XSec(const Interaction *i, KinePhaseSpace_t k=kPSfE) const =0
Compute the cross section for the input interaction.
TParticlePDG * FSPrimLepton(void) const
final state primary lepton
static RunningThreadInfo * Instance(void)
double max
Definition: Range1.h:53
TLorentzVector * HitNucP4Ptr(void) const
Definition: Target.cxx:247
static PDGLibrary * Instance(void)
Definition: PDGLibrary.cxx:68
const UInt_t kIAssumeFreeNucleon
Definition: Interaction.h:49
const XclsTag & ExclTag(void) const
Definition: Interaction.h:72
Target * TgtPtr(void) const
Definition: InitialState.h:67
virtual const XSecAlgorithmI * CrossSectionAlg(void) const =0
double gQ2
Definition: gtestDISSF.cxx:55
InitialState * InitStatePtr(void) const
Definition: Interaction.h:74
const InitialState & InitState(void) const
Definition: Interaction.h:69
double min
Definition: Range1.h:52
TParticlePDG * Find(int pdgc, bool must_exist=true)
Definition: PDGLibrary.cxx:86
#define pNOTICE
Definition: Messenger.h:61
const Target & Tgt(void) const
Definition: InitialState.h:66
static const unsigned int kRjMaxIterations
Definition: Controls.h:26
const EventGeneratorI * RunningThread(void)
double ProbeE(RefFrame_t rf) const
Keep info on the event generation thread currently on charge. This is used so that event generation m...
const UInt_t kISkipProcessChk
if set, skip process validity checks
Definition: Interaction.h:47
Initial State information.
Definition: InitialState.h:48
#define pDEBUG
Definition: Messenger.h:63

The documentation for this class was generated from the following files: