Public Member Functions | Protected Member Functions | Protected Attributes | Private Member Functions | Private Attributes | List of all members
genie::LwlynSmithQELCCPXSec Class Reference

Computes neutrino-nucleon(nucleus) QELCC differential cross section Is a concrete implementation of the XSecAlgorithmI interface.
. More...

#include "/cvmfs/nova.opensciencegrid.org/externals/genie/v3_00_06_p01/Linux64bit+3.10-2.17-e17-debug/GENIE-Generator/src/Physics/QuasiElastic/XSection/LwlynSmithQELCCPXSec.h"

Inheritance diagram for genie::LwlynSmithQELCCPXSec:
genie::XSecAlgorithmI genie::Algorithm

Public Member Functions

 LwlynSmithQELCCPXSec ()
 
 LwlynSmithQELCCPXSec (string config)
 
virtual ~LwlynSmithQELCCPXSec ()
 
double XSec (const Interaction *i, KinePhaseSpace_t k) const
 Compute the cross section for the input interaction. More...
 
double Integral (const Interaction *i) const
 
bool ValidProcess (const Interaction *i) const
 Can this cross section algorithm handle the input process? More...
 
void Configure (const Registry &config)
 
void Configure (string param_set)
 
virtual bool ValidKinematics (const Interaction *i) const
 Is the input kinematical point a physically allowed one? More...
 
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...
 

Protected Member Functions

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 >
bool GetParamVect (const std::string &comm_name, std::vector< T > &v, unsigned int max, 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

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...
 

Private Member Functions

double FullDifferentialXSec (const Interaction *i) const
 
void LoadConfig (void)
 

Private Attributes

QELFormFactors fFormFactors
 
const QELFormFactorsModelIfFormFactorsModel
 
const XSecIntegratorIfXSecIntegrator
 
double fCos8c2
 cos^2(cabibbo angle) More...
 
double fXSecScale
 external xsec scaling factor More...
 
const NuclearModelIfNuclModel
 
bool fLFG
 If the nuclear model is lfg alway average over nucleons. More...
 
bool fDoAvgOverNucleonMomentum
 Average cross section over hit nucleon monentum? More...
 
double fEnergyCutOff
 
QELEvGen_BindingMode_t fIntegralNucleonBindingMode
 
bool fDoPauliBlocking
 Whether to apply Pauli blocking in FullDifferentialXSec. More...
 
const genie::PauliBlockerfPauliBlocker
 The PauliBlocker instance to use to apply that correction. More...
 

Detailed Description

Computes neutrino-nucleon(nucleus) QELCC differential cross section Is a concrete implementation of the XSecAlgorithmI interface.
.

C.H.Llewellyn Smith, Physics Reports (Sect. C of Physics Letters) 3, No. 5 (1972) 261-379

Author
Costas Andreopoulos <costas.andreopoulos stfc.ac.uk> University of Liverpool & STFC Rutherford Appleton Lab

May 05, 2004

Copyright (c) 2003-2019, The GENIE Collaboration For the full text of the license visit http://copyright.genie-mc.org or see $GENIE/LICENSE

Definition at line 37 of file LwlynSmithQELCCPXSec.h.

Constructor & Destructor Documentation

LwlynSmithQELCCPXSec::LwlynSmithQELCCPXSec ( )

Definition at line 54 of file LwlynSmithQELCCPXSec.cxx.

54  :
55 XSecAlgorithmI("genie::LwlynSmithQELCCPXSec")
56 {
57 
58 }
LwlynSmithQELCCPXSec::LwlynSmithQELCCPXSec ( string  config)

Definition at line 60 of file LwlynSmithQELCCPXSec.cxx.

60  :
61 XSecAlgorithmI("genie::LwlynSmithQELCCPXSec", config)
62 {
63 
64 }
Definition: config.py:1
LwlynSmithQELCCPXSec::~LwlynSmithQELCCPXSec ( )
virtual

Definition at line 66 of file LwlynSmithQELCCPXSec.cxx.

67 {
68 
69 }

Member Function Documentation

int Algorithm::AddLowRegistry ( Registry rp,
bool  owns = true 
)
protectedinherited

add registry with lowest priority, also update ownership

Definition at line 601 of file Algorithm.cxx.

Referenced by genie::EventGenerator::Configure().

601  {
602 
603  fConfVect.push_back( rp ) ;
604  fOwnerships.push_back( own ) ;
605 
606  if ( fConfig ) {
607  delete fConfig ;
608  fConfig = 0 ;
609  }
610 
611  return fConfVect.size() ;
612 
613 }
vector< Registry * > fConfVect
Definition: Algorithm.h:161
vector< bool > fOwnerships
ownership for every registry in fConfVect
Definition: Algorithm.h:164
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
int Algorithm::AddTopRegisties ( const vector< Registry * > &  rs,
bool  owns = false 
)
protectedinherited

Add registries with top priority, also udated Ownerships.

Definition at line 653 of file Algorithm.cxx.

653  {
654 
655  fConfVect.insert( fConfVect.begin(), rs.begin(), rs.end() ) ;
656 
657  fOwnerships.insert( fOwnerships.begin(), rs.size(), own ) ;
658 
659  if ( fConfig ) {
660  delete fConfig ;
661  fConfig = 0 ;
662  }
663 
664  return fConfVect.size() ;
665 
666 }
vector< Registry * > fConfVect
Definition: Algorithm.h:161
vector< bool > fOwnerships
ownership for every registry in fConfVect
Definition: Algorithm.h:164
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
int Algorithm::AddTopRegistry ( Registry rp,
bool  owns = true 
)
protectedinherited

add registry with top priority, also update ownership

Definition at line 585 of file Algorithm.cxx.

Referenced by genie::EventGeneratorListAssembler::AssembleGeneratorList().

585  {
586 
587  fConfVect.insert( fConfVect.begin(), rp ) ;
588  fOwnerships.insert( fOwnerships.begin(), own ) ;
589 
590  if ( fConfig ) {
591  delete fConfig ;
592  fConfig = 0 ;
593  }
594 
595  return fConfVect.size() ;
596 
597 }
vector< Registry * > fConfVect
Definition: Algorithm.h:161
vector< bool > fOwnerships
ownership for every registry in fConfVect
Definition: Algorithm.h:164
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
void Algorithm::AdoptConfig ( void  )
inherited

Clone the configuration registry looked up from the configuration pool and take its ownership

Definition at line 394 of file Algorithm.cxx.

References Configure(), GetConfig(), LOG, and pNOTICE.

Referenced by genie::Algorithm::AllowReconfig().

394  {
395 
396  LOG("Algorithm", pNOTICE)
397  << this->Id().Key() << " is taking ownership of its configuration";
398 
399  // if(fOwnsConfig) {
400  // LOG("Algorithm", pWARN)
401  // << this->Id().Key() << " already owns its configuration!";
402  // return;
403  // }
404 
405  this->Configure( GetConfig() );
406 }
virtual const Registry & GetConfig(void) const
Definition: Algorithm.cxx:254
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
virtual void Configure(const Registry &config)
Definition: Algorithm.cxx:70
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
#define pNOTICE
Definition: Messenger.h:62
string Key(void) const
Definition: AlgId.h:47
void Algorithm::AdoptSubstructure ( void  )
inherited

Take ownership of the algorithms subtructure (sub-algorithms,...) by copying them from the AlgFactory pool to the local pool Also bring all the configuration variables to the top level config Registry. This can be used to group together a series of algorithms & their configurations and extract (a clone of) this group from the shared pools. Having a series of algorithms/configurations behaving as a monolithic block, with a single point of configuration (the top level) is to be used when bits & pieces of GENIE are used in isolation for data fitting or reweighting

Definition at line 408 of file Algorithm.cxx.

References genie::AlgFactory::AdoptAlgorithm(), genie::Algorithm::AdoptSubstructure(), GetConfig(), genie::AlgFactory::Instance(), genie::kRgAlg, LOG, pDEBUG, pNOTICE, and genie::RegistryItemI::TypeInfo().

Referenced by genie::Algorithm::AdoptSubstructure(), genie::Algorithm::AllowReconfig(), main(), and testReconfigInOwnedModules().

409 {
410 // Take ownership of the algorithms subtructure (sub-algorithms,..) by copying
411 // them from the AlgFactory pool to the local pool. Also bring all the
412 // configuration variables to the top level. See the header for more details.
413 // A secial naming convention is required for configuration parameter keys
414 // for parameters belonging to sub-algorithms (or sub-algorithms of these
415 // sub-algorithms and so on...).
416 // The convention is: "sub-alg-key/sub-sub-alg-key/.../original name"
417 // This is a recursive method: The AdoptSubtructure()of all sub-algorithms is
418 // invoked.
419 //
420  LOG("Algorithm", pNOTICE)
421  << "Algorithm: " << this->Id().Key() << " is adopting its substructure";
422 
423 // Registry deep_config;
424 // deep_config.UnLock();
425 // deep_config.SetName(this->Id().Key());
426 
427  // deep_config.SetName(this->Id().Config() + ";D");
428  // fID.SetConfig(this->Id().Config() + ";D");
429 
430  if(fOwnsSubstruc) this->DeleteSubstructure();
431 
432  fOwnedSubAlgMp = new AlgMap;
433  fOwnsSubstruc = true;
434 
435  AlgFactory * algf = AlgFactory::Instance();
436 
437  const RgIMap & rgmap = GetConfig().GetItemMap();
438 
439  RgIMapConstIter iter = rgmap.begin();
440  for( ; iter != rgmap.end(); ++iter) {
441 
442  RgKey reg_key = iter->first;
443  RegistryItemI * ri = iter->second;
444 
445  if(ri->TypeInfo() == kRgAlg) {
446  LOG("Algorithm", pDEBUG)
447  << "Found sub-algorithm pointed to by " << reg_key;
448  RgAlg reg_alg = fConfig->GetAlg(reg_key);
449  AlgId id(reg_alg);
450 
451  LOG("Algorithm", pDEBUG) << "Adopting sub-algorithm = " << id.Key();
452  Algorithm * subalg = algf->AdoptAlgorithm(id.Name(),id.Config());
453  subalg->AdoptSubstructure();
454 
455  LOG("Algorithm", pDEBUG) << "Adding sub-algorithm to local pool";
456  AlgMapPair key_alg_pair(reg_key, subalg);
457  fOwnedSubAlgMp->insert(key_alg_pair);
458 
459  }
460 
461  }
462 
463 
464  if ( fConfig ) {
465  delete fConfig ;
466  fConfig = 0 ;
467  }
468 
469 }
::xsd::cxx::tree::id< char, ncname > id
Definition: Database.h:165
void DeleteSubstructure(void)
Definition: Algorithm.cxx:496
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Algorithm abstract base class.
Definition: Algorithm.h:54
map< string, Algorithm * > AlgMap
Definition: Algorithm.h:49
Registry item pABC.
Definition: RegistryItemI.h:30
virtual const Registry & GetConfig(void) const
Definition: Algorithm.cxx:254
virtual RgType_t TypeInfo(void) const =0
map< RgKey, RegistryItemI * >::const_iterator RgIMapConstIter
Definition: Registry.h:50
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
const RgIMap & GetItemMap(void) const
Definition: Registry.h:162
void AdoptSubstructure(void)
Definition: Algorithm.cxx:408
pair< string, Algorithm * > AlgMapPair
Definition: Algorithm.h:52
Algorithm * AdoptAlgorithm(const AlgId &algid) const
Definition: AlgFactory.cxx:127
Algorithm ID (algorithm name + configuration set name)
Definition: AlgId.h:35
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
static AlgFactory * Instance()
Definition: AlgFactory.cxx:75
string RgKey
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
#define pNOTICE
Definition: Messenger.h:62
The GENIE Algorithm Factory.
Definition: AlgFactory.h:40
string Key(void) const
Definition: AlgId.h:47
RgAlg GetAlg(RgKey key) const
Definition: Registry.cxx:503
#define pDEBUG
Definition: Messenger.h:64
map< RgKey, RegistryItemI * > RgIMap
Definition: Registry.h:46
virtual bool genie::Algorithm::AllowReconfig ( void  ) const
inlinevirtualinherited
AlgCmp_t Algorithm::Compare ( const Algorithm alg) const
virtualinherited

Compare with input algorithm.

Definition at line 294 of file Algorithm.cxx.

References genie::AlgId::Config(), genie::Algorithm::Id(), genie::kAlgCmpDiffAlg, genie::kAlgCmpDiffConfig, genie::kAlgCmpIdentical, genie::kAlgCmpUnknown, and genie::AlgId::Name().

Referenced by genie::Algorithm::AllowReconfig().

295 {
296 // Compares itself with the input algorithm
297 
298  string alg1 = this->Id().Name();
299  string config1 = this->Id().Config();
300  string alg2 = algo->Id().Name();
301  string config2 = algo->Id().Config();
302 
303  if(alg1 == alg2)
304  {
305  if(config1 == config2) return kAlgCmpIdentical;
306  else return kAlgCmpDiffConfig;
307  }
308  else return kAlgCmpDiffAlg;
309 
310  return kAlgCmpUnknown;
311 }
string Name(void) const
Definition: AlgId.h:45
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
string Config(void) const
Definition: AlgId.h:46
void LwlynSmithQELCCPXSec::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 415 of file LwlynSmithQELCCPXSec.cxx.

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

416 {
417  Algorithm::Configure(config);
418  this->LoadConfig();
419 }
virtual void Configure(const Registry &config)
Definition: Algorithm.cxx:70
void LwlynSmithQELCCPXSec::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 421 of file LwlynSmithQELCCPXSec.cxx.

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

422 {
424  this->LoadConfig();
425 }
Definition: config.py:1
virtual void Configure(const Registry &config)
Definition: Algorithm.cxx:70
void Algorithm::DeleteConfig ( void  )
protectedinherited

Definition at line 471 of file Algorithm.cxx.

References MECModelEnuComparisons::i.

Referenced by genie::Algorithm::AllowReconfig().

472 {
473  // there is nothing to delete if the configuration is not owned but is
474  // rather looked up from the configuration pool
475  //
476 
477  for ( unsigned int i = 0 ; i < fConfVect.size() ; ++i ) {
478  if ( fOwnerships[i] ) {
479  delete fConfVect[i] ;
480  }
481  }
482 
483  fConfVect.clear() ;
484  fOwnerships.clear() ;
485 
486  // delete owned configuration registry
487 
488  if(fConfig) {
489  delete fConfig;
490  fConfig=0;
491  }
492 
493 }
vector< Registry * > fConfVect
Definition: Algorithm.h:161
vector< bool > fOwnerships
ownership for every registry in fConfVect
Definition: Algorithm.h:164
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
void Algorithm::DeleteSubstructure ( void  )
protectedinherited

Definition at line 496 of file Algorithm.cxx.

Referenced by genie::Algorithm::AllowReconfig().

497 {
498  // there is nothing to delete if the sub-algorithms are not owned but rather
499  // taken from the AlgFactory's pool
500  //
501  if(!fOwnsSubstruc) return;
502 
503  // delete local algorithm pool
504  //
505  AlgMapIter iter = fOwnedSubAlgMp->begin();
506  for( ; iter != fOwnedSubAlgMp->end(); ++iter) {
507  Algorithm * alg = iter->second;
508  if(alg) {
509  delete alg;
510  alg=0;
511  }
512  }
513  delete fOwnedSubAlgMp;
514  fOwnedSubAlgMp = 0;
515 }
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Algorithm abstract base class.
Definition: Algorithm.h:54
map< string, Algorithm * >::iterator AlgMapIter
Definition: Algorithm.h:50
Registry * Algorithm::ExtractLocalConfig ( const Registry in) const
protectedinherited

Split an incoming configuration Registry into a block valid for this algorithm Ownership of the returned registry belongs to the algo

Definition at line 518 of file Algorithm.cxx.

References genie::RegistryItemI::Clone(), genie::Registry::GetItemMap(), genie::Registry::Name(), and confusionMatrixTree::out.

Referenced by genie::Algorithm::AllowReconfig().

518  {
519 
520  const RgIMap & rgmap = in.GetItemMap();
521  Registry * out = new Registry( in.Name(), false );
522 
523  for( RgIMapConstIter reg_iter = rgmap.begin();
524  reg_iter != rgmap.end(); ++reg_iter ) {
525 
526  RgKey reg_key = reg_iter->first;
527  if( reg_key.find( '/' ) != string::npos) continue;
528 
529  // at this point
530  // this key is referred to the local algorithm
531  // it has to be copied in out;
532 
533  RegistryItemI * ri = reg_iter->second;
534  RgIMapPair key_item_pair( reg_key, ri->Clone() );
535  out -> Set(key_item_pair);
536 
537  }
538 
539  if ( out -> NEntries() <= 0 ) {
540  delete out ;
541  out = 0 ;
542  }
543 
544  return out ;
545 }
Registry item pABC.
Definition: RegistryItemI.h:30
string Name(void) const
get the registry name
Definition: Registry.cxx:612
map< RgKey, RegistryItemI * >::const_iterator RgIMapConstIter
Definition: Registry.h:50
const RgIMap & GetItemMap(void) const
Definition: Registry.h:162
pair< RgKey, RegistryItemI * > RgIMapPair
Definition: Registry.h:47
string RgKey
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
virtual RegistryItemI * Clone(void) const =0
map< RgKey, RegistryItemI * > RgIMap
Definition: Registry.h:46
Registry * Algorithm::ExtractLowerConfig ( const Registry in,
const string alg_key 
) const
protectedinherited

Split an incoming configuration Registry into a block valid for the sub-algo identified by alg_key.

Definition at line 549 of file Algorithm.cxx.

References genie::RegistryItemI::Clone(), genie::Registry::GetItemMap(), genie::Registry::Name(), and confusionMatrixTree::out.

Referenced by genie::Algorithm::AllowReconfig().

549  {
550 
551  const RgIMap & rgmap = in.GetItemMap();
552  Registry * out = new Registry( in.Name(), false );
553 
554  for( RgIMapConstIter reg_iter = rgmap.begin();
555  reg_iter != rgmap.end(); ++reg_iter ) {
556 
557  RgKey reg_key = reg_iter->first;
558  if( reg_key.find(alg_key+"/") == string::npos) continue;
559 
560  // at this point
561  // this key is referred to the sub-algorithm
562  // indicated by alg_key: it has to be copied in out;
563 
564  int new_key_start = reg_key.find_first_of('/')+1;
565  RgKey new_reg_key = reg_key.substr( new_key_start, reg_key.length() );
566 
567  RegistryItemI * ri = reg_iter->second;
568  RgIMapPair key_item_pair(new_reg_key, ri->Clone());
569  out -> Set(key_item_pair);
570 
571  }
572 
573  if ( out -> NEntries() <= 0 ) {
574  delete out ;
575  out = 0 ;
576  }
577 
578  return out ;
579 
580 }
Registry item pABC.
Definition: RegistryItemI.h:30
string Name(void) const
get the registry name
Definition: Registry.cxx:612
map< RgKey, RegistryItemI * >::const_iterator RgIMapConstIter
Definition: Registry.h:50
const RgIMap & GetItemMap(void) const
Definition: Registry.h:162
pair< RgKey, RegistryItemI * > RgIMapPair
Definition: Registry.h:47
string RgKey
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
virtual RegistryItemI * Clone(void) const =0
map< RgKey, RegistryItemI * > RgIMap
Definition: Registry.h:46
void Algorithm::FindConfig ( void  )
virtualinherited

Lookup configuration from the config pool Similar logic from void Configure(string)

Definition at line 135 of file Algorithm.cxx.

References gen_hdf5record::config, exit(), genie::AlgConfigPool::FindRegistry(), genie::Registry::GetItemMap(), genie::Registry::GetString(), MECModelEnuComparisons::i, genie::AlgConfigPool::Instance(), it, genie::Registry::ItemIsLocal(), parse_dependency_file_t::list, LOG, pDEBUG, pFATAL, time_estimates::pool, pWARN, moon_position_table_new3::second, genie::utils::str::Split(), string, and APDHVSetting::temp.

136 {
137 // Finds its configration Registry from the ConfigPool and gets a pointer to
138 // it. If the Registry comes from the ConfigPool then the Algorithm does not
139 // own its configuration (the ConfigPool singleton keeps the ownership and the
140 // responsibility to -eventually- delete all the Registries it instantiates
141 // by parsing the XML config files).
142 
143  DeleteConfig() ;
144 
146 
147  Registry * config = 0 ;
148 
149  // load the Default config if config is not the default
150  if ( fID.Config() != "Default" ) {
151  config = pool -> FindRegistry( fID.Name(), "Default" );
152  if ( config ) {
153  if ( config -> NEntries() > 0 ) {
154  AddTopRegistry( config, false ) ;
155  LOG("Algorithm", pDEBUG) << "\n" << *config;
156  }
157  }
158  }
159 
160  // Load the right config
161  config = pool->FindRegistry(this);
162 
163  if(!config)
164  // notify & keep whatever config Registry was used before.
165  LOG("Algorithm", pWARN)
166  << "No Configuration available for "
167  << this->Id().Key() << " at the ConfigPool";
168  else {
169  if ( config -> NEntries() > 0 ) {
170  AddTopRegistry( config, false ) ;
171  LOG("Algorithm", pDEBUG) << "\n" << config;
172  }
173  }
174 
175  const string common_key_root = "Common" ;
176  std::map<string, string> common_lists;
177 
178  // Load Common Parameters if key that start with "Common" is found
179  for ( unsigned int i = 0 ; i < fConfVect.size() ; ++i ) {
180  const Registry & temp = * fConfVect[i] ;
181  for ( RgIMapConstIter it = temp.GetItemMap().begin() ; it != temp.GetItemMap().end() ; ++it ) {
182 
183  // check if it is a "Common" entry
184  if ( it -> first.find( common_key_root ) == 0 ) {
185  // retrieve the type of the common entry
186  std::string type = it -> first.substr(common_key_root.size() ) ;
187 
188  if ( temp.ItemIsLocal( it -> first ) ) {
189 
190  string temp_list = temp.GetString( it -> first ) ;
191  if ( temp_list.length() > 0 ) {
192  common_lists[type] = temp_list ;
193  }
194  }
195  }
196 
197  }
198 
199  } // loop over the local registries
200 
201 
202  for ( std::map<string, string>::const_iterator it = common_lists.begin() ;
203  it != common_lists.end() ; ++it ) {
204 
205  vector<string> list = str::Split( it -> second , "," ) ;
206 
207  for ( unsigned int i = 0; i < list.size(); ++i ) {
208 
209  config = pool -> CommonList( it -> first, list[i] ) ;
210 
211  if ( ! config ) {
212  LOG("Algorithm", pFATAL)
213  << "No Commom parameters available for " << it -> first << " list "
214  << list[i] << " at the ConfigPool";
215 
216  exit( 78 ) ;
217  }
218  else {
219  AddLowRegistry( config, false ) ;
220  LOG("Algorithm", pDEBUG) << "Loading "
221  << it -> first << " registry "
222  << list[i] << " \n" << config;
223  }
224 
225  }
226 
227  }
228 
229 
230  // Load Tunable from CommonParameters
231  // only if the option is specified in RunOpt
232  config = pool -> CommonList( "Param", "Tunable" ) ;
233  if ( config ) {
234  if ( config -> NEntries() > 0 ) {
235  AddTopRegistry( config, false ) ;
236  LOG("Algorithm", pDEBUG) << "Loading Tunable registry \n" << config;
237  }
238  }
239  else {
240  // notify & keep whatever config Registry was used before.
241  LOG("Algorithm", pWARN)
242  << "No Tunable parameter set available at the ConfigPool";
243  }
244 
245  if ( fConfig ) {
246  delete fConfig ;
247  fConfig = 0 ;
248  }
249 
250 }
set< int >::iterator it
A singleton class holding all configuration registries built while parsing all loaded XML configurati...
Definition: AlgConfigPool.h:41
#define pFATAL
Definition: Messenger.h:57
Definition: config.py:1
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
map< RgKey, RegistryItemI * >::const_iterator RgIMapConstIter
Definition: Registry.h:50
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
const RgIMap & GetItemMap(void) const
Definition: Registry.h:162
string Name(void) const
Definition: AlgId.h:45
bool ItemIsLocal(RgKey key) const
local or global?
Definition: Registry.cxx:193
int AddTopRegistry(Registry *rp, bool owns=true)
add registry with top priority, also update ownership
Definition: Algorithm.cxx:585
#define pWARN
Definition: Messenger.h:61
void DeleteConfig(void)
Definition: Algorithm.cxx:471
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
RgStr GetString(RgKey key) const
Definition: Registry.cxx:496
vector< Registry * > fConfVect
Definition: Algorithm.h:161
vector< string > Split(string input, string delim)
Definition: StringUtils.cxx:42
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
exit(0)
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
Registry * FindRegistry(string key) const
int AddLowRegistry(Registry *rp, bool owns=true)
add registry with lowest priority, also update ownership
Definition: Algorithm.cxx:601
string Key(void) const
Definition: AlgId.h:47
static AlgConfigPool * Instance()
#define pDEBUG
Definition: Messenger.h:64
string Config(void) const
Definition: AlgId.h:46
enum BeamMode string
double LwlynSmithQELCCPXSec::FullDifferentialXSec ( const Interaction i) const
private

Definition at line 177 of file LwlynSmithQELCCPXSec.cxx.

References genie::QELFormFactors::Calculate(), genie::utils::EnergyDeltaFunctionSolutionQEL(), genie::QELFormFactors::F1V(), genie::QELFormFactors::FA(), fCos8c2, fDoPauliBlocking, fFormFactors, genie::QELFormFactors::Fp(), fPauliBlocker, genie::Kinematics::FSLeptonP4(), fXSecScale, genie::PauliBlocker::GetFermiMomentum(), genie::InitialState::GetProbeP4(), h1, h2, h3, genie::Kinematics::HadSystP4(), genie::Target::HitNucMass(), genie::Target::HitNucP4Ptr(), genie::Target::HitNucPdg(), genie::Target::HitNucPosition(), genie::pdg::IsNeutrino(), genie::Target::IsNucleus(), genie::pdg::IsProton(), genie::constants::kGF2, genie::kIAssumeFreeNucleon, kinematics(), genie::Interaction::KinePtr(), kPi, genie::kRfLab, central_limit::l1, LOG, genie::Target::N(), pDEBUG, cet::pow(), genie::InitialState::ProbePdg(), genie::utils::kinematics::Q2(), R, genie::Interaction::RecoilNucleon(), genie::Interaction::RecoilNucleonPdg(), genie::Kinematics::SetQ2(), canMan::sign(), std::sqrt(), genie::InitialState::Tgt(), genie::InitialState::TgtPtr(), genie::QELFormFactors::xiF2V(), xsec, and genie::Target::Z().

Referenced by XSec().

179 {
180  // First we need access to all of the particles in the interaction
181  // The particles were stored in the lab frame
182  const Kinematics& kinematics = interaction -> Kine();
183  const InitialState& init_state = interaction -> InitState();
184 
185  const Target& tgt = init_state.Tgt();
186 
187  const TLorentzVector leptonMom = kinematics.FSLeptonP4();
188  const TLorentzVector outNucleonMom = kinematics.HadSystP4();
189 
190  // Apply Pauli blocking if enabled
191  if ( fDoPauliBlocking && tgt.IsNucleus() && !interaction->TestBit(kIAssumeFreeNucleon) ) {
192  int final_nucleon_pdg = interaction->RecoilNucleonPdg();
193  double kF = fPauliBlocker->GetFermiMomentum(tgt, final_nucleon_pdg,
194  tgt.HitNucPosition());
195  double pNf = outNucleonMom.P();
196  if ( pNf < kF ) return 0.;
197  }
198 
199  // Note that GetProbeP4 defaults to returning the probe 4-momentum in the
200  // struck nucleon rest frame, so we have to explicitly ask for the lab frame
201  // here
202  TLorentzVector * tempNeutrino = init_state.GetProbeP4(kRfLab);
203  TLorentzVector neutrinoMom = *tempNeutrino;
204  delete tempNeutrino;
205  TLorentzVector * inNucleonMom = init_state.TgtPtr()->HitNucP4Ptr();
206 
207  // *** CALCULATION OF "q" and "qTilde" ***
208  // According to the de Forest prescription for handling the off-shell
209  // initial struck nucleon, the cross section calculation should proceed
210  // as if for a free nucleon, except that an effective value of the 4-momentum
211  // transfer qTilde should be used in which the difference between the on-
212  // and off-shell energies of the hit nucleon has been subtracted from the
213  // energy transfer q0.
214 
215  // HitNucMass() looks up the PDGLibrary (on-shell) value for the initial
216  // struck nucleon
217  double mNi = init_state.Tgt().HitNucMass();
218 
219  // Hadronic matrix element for CC neutrino interactions should really use
220  // the "nucleon mass," i.e., the mean of the proton and neutrino masses.
221  // This expression would also work for NC and EM scattering (since the
222  // initial and final on-shell nucleon masses would be the same)
223  double mNucleon = ( mNi + interaction->RecoilNucleon()->Mass() ) / 2.;
224 
225  // Ordinary 4-momentum transfer
226  TLorentzVector qP4 = neutrinoMom - leptonMom;
227 
228  // Initial struck nucleon 4-momentum in which it is forced to be on-shell
229  double inNucleonOnShellEnergy = std::sqrt( std::pow(mNi, 2)
230  + std::pow(inNucleonMom->P(), 2) );
231  TLorentzVector inNucleonMomOnShell( inNucleonMom->Vect(), inNucleonOnShellEnergy );
232 
233  // Effective 4-momentum transfer (according to the deForest prescription) for
234  // use in computing the hadronic tensor
235  TLorentzVector qTildeP4 = outNucleonMom - inNucleonMomOnShell;
236 
237  double Q2 = -1. * qP4.Mag2();
238  double Q2tilde = -1. * qTildeP4.Mag2();
239 
240  // If the binding energy correction causes an unphysical value
241  // of q0Tilde or Q2tilde, just return 0.
242  if ( qTildeP4.E() <= 0. && init_state.Tgt().IsNucleus() &&
243  !interaction->TestBit(kIAssumeFreeNucleon) ) return 0.;
244  if ( Q2tilde <= 0. ) return 0.;
245 
246  // Store Q2tilde in the kinematic variable representing Q2.
247  // This will ensure that the form factors are calculated correctly
248  // using the de Forest prescription (Q2tilde instead of Q2).
249  interaction->KinePtr()->SetQ2(Q2tilde);
250 
251  // Calculate the QEL form factors
252  fFormFactors.Calculate(interaction);
253 
254  double F1V = fFormFactors.F1V();
255  double xiF2V = fFormFactors.xiF2V();
256  double FA = fFormFactors.FA();
257  double Fp = fFormFactors.Fp();
258 
259  // Restore Q2 in the interaction's kinematic variables
260  // now that the form factors have been computed
261  interaction->KinePtr()->SetQ2( Q2 );
262 
263  // Overall factor in the differential cross section
264  double Gfactor = kGF2*fCos8c2 / ( 8. * kPi * kPi * inNucleonOnShellEnergy
265  * neutrinoMom.E() * outNucleonMom.E() * leptonMom.E() );
266 
267  // Now, we can calculate the cross section
268  double tau = Q2tilde / (4 * std::pow(mNucleon, 2));
269  double h1 = FA*FA*(1 + tau) + tau*(F1V + xiF2V)*(F1V + xiF2V);
270  double h2 = FA*FA + F1V*F1V + tau*xiF2V*xiF2V;
271  double h3 = 2.0 * FA * (F1V + xiF2V);
272  double h4 = 0.25 * xiF2V*xiF2V *(1-tau) + 0.5*F1V*xiF2V + FA*Fp - tau*Fp*Fp;
273 
274  bool is_neutrino = pdg::IsNeutrino(init_state.ProbePdg());
275  int sign = (is_neutrino) ? -1 : 1;
276  double l1 = 2*neutrinoMom.Dot(leptonMom)*std::pow(mNucleon, 2);
277  double l2 = 2*(neutrinoMom.Dot(inNucleonMomOnShell)) * (inNucleonMomOnShell.Dot(leptonMom)) - neutrinoMom.Dot(leptonMom)*std::pow(mNucleon, 2);
278  double l3 = (neutrinoMom.Dot(inNucleonMomOnShell) * qTildeP4.Dot(leptonMom)) - (neutrinoMom.Dot(qTildeP4) * leptonMom.Dot(inNucleonMomOnShell));
279  l3 *= sign;
280  double l4 = neutrinoMom.Dot(leptonMom) * qTildeP4.Dot(qTildeP4) - 2*neutrinoMom.Dot(qTildeP4)*leptonMom.Dot(qTildeP4);
281  double l5 = neutrinoMom.Dot(inNucleonMomOnShell) * leptonMom.Dot(qTildeP4) + leptonMom.Dot(inNucleonMomOnShell)*neutrinoMom.Dot(qTildeP4) - neutrinoMom.Dot(leptonMom)*inNucleonMomOnShell.Dot(qTildeP4);
282 
283  double LH = 2 *(l1*h1 + l2*h2 + l3*h3 + l4*h4 + l5*h2);
284 
285  double xsec = Gfactor * LH;
286 
287  // Apply the factor that arises from elimination of the energy-conserving
288  // delta function
289  xsec *= genie::utils::EnergyDeltaFunctionSolutionQEL( *interaction );
290 
291  // Apply given scaling factor
292  xsec *= fXSecScale;
293 
294  // Number of scattering centers in the target
295  const Target & target = init_state.Tgt();
296  int nucpdgc = target.HitNucPdg();
297  int NNucl = (pdg::IsProton(nucpdgc)) ? target.Z() : target.N();
298 
299 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
300  LOG("LwlynSmith", pDEBUG)
301  << "Nuclear suppression factor R(Q2) = " << R << ", NNucl = " << NNucl;
302 #endif
303 
304  xsec *= NNucl; // nuclear xsec
305 
306  return xsec;
307 
308 }
const double kPi
bool IsNeutrino(int pdgc)
Definition: PDGUtils.cxx:108
const XML_Char * target
Definition: expat.h:268
double Q2(const Interaction *const i)
Definition: KineUtils.cxx:991
int HitNucPdg(void) const
Definition: Target.cxx:321
TH1F * h3
Definition: berger.C:36
double HitNucMass(void) const
Definition: Target.cxx:250
T sqrt(T number)
Definition: d0nt_math.hpp:156
bool IsNucleus(void) const
Definition: Target.cxx:289
constexpr T pow(T x)
Definition: pow.h:75
Generated/set kinematical variables for an event.
Definition: Kinematics.h:40
const TLorentzVector & HadSystP4(void) const
Definition: Kinematics.h:67
double fXSecScale
external xsec scaling factor
double GetFermiMomentum(const Target &tgt, int pdg_Nf, double radius=0.0) const
Get the Fermi momentum needed to check Pauli blocking.
bool IsProton(int pdgc)
Definition: PDGUtils.cxx:299
const TLorentzVector & FSLeptonP4(void) const
Definition: Kinematics.h:66
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
double EnergyDeltaFunctionSolutionQEL(const Interaction &inter)
Definition: QELUtils.cxx:51
A Neutrino Interaction Target. Is a transparent encapsulation of quite different physical systems suc...
Definition: Target.h:41
int ProbePdg(void) const
Definition: InitialState.h:65
#define R(x)
int Z(void) const
Definition: Target.h:69
bool fDoPauliBlocking
Whether to apply Pauli blocking in FullDifferentialXSec.
double xiF2V(void) const
Get the computed form factor xi*F2V.
Double_t xsec[nknots]
Definition: testXsec.C:47
TH1F * h2
Definition: plot.C:45
void Calculate(const Interaction *interaction)
Compute the form factors for the input interaction using the attached model.
TH1F * h1
int N(void) const
Definition: Target.h:70
TLorentzVector * HitNucP4Ptr(void) const
Definition: Target.cxx:264
const UInt_t kIAssumeFreeNucleon
Definition: Interaction.h:49
double HitNucPosition(void) const
Definition: Target.h:90
Target * TgtPtr(void) const
Definition: InitialState.h:68
double fCos8c2
cos^2(cabibbo angle)
double F1V(void) const
Get the computed form factor F1V.
const Target & Tgt(void) const
Definition: InitialState.h:67
static const double kGF2
Definition: Constants.h:60
double Fp(void) const
Get the computed form factor Fp.
void kinematics()
Definition: kinematics.C:10
const genie::PauliBlocker * fPauliBlocker
The PauliBlocker instance to use to apply that correction.
double FA(void) const
Get the computed form factor FA.
TLorentzVector * GetProbeP4(RefFrame_t rf=kRfHitNucRest) const
def sign(x)
Definition: canMan.py:197
Initial State information.
Definition: InitialState.h:49
#define pDEBUG
Definition: Messenger.h:64
const Registry & Algorithm::GetConfig ( void  ) const
virtualinherited

Get configuration registry Evaluate the summary of the configuration and returns it The summary of a configuration is a merge of all the registries known to the algorithm (see Configure() methods) but every parameter is appearing only once and in case of repetitions, only the parameter from the registry with the highest prioriry is considered.

Definition at line 254 of file Algorithm.cxx.

References febshutoff_auto::end, genie::Algorithm::GetConfig(), MECModelEnuComparisons::i, LOG, pDEBUG, r(), and moon_position_table_new3::second.

Referenced by genie::EventGeneratorListAssembler::AssembleGeneratorList(), GetAlgorithms(), genie::Algorithm::GetConfig(), genie::GRV98LO::GRV98LO(), genie::NewQELXSec::Integrate(), genie::LHAPDF5::LHAPDF5(), genie::IBDXSecMap::LoadConfig(), genie::Decayer::LoadConfig(), genie::PythiaHadronization::LoadConfig(), genie::FGMBodekRitchie::LoadConfig(), genie::NuclearModelMap::LoadConfig(), genie::SmithMonizUtils::LoadConfig(), main(), genie::AlgFactory::Print(), TestPythiaTauDecays(), testReconfigInOwnedModules(), and genie::P33PaschosLalakulichPXSec::XSec().

254  {
255 
256  if ( fConfig ) return * fConfig ;
257 
258  const_cast<Algorithm*>( this ) -> fConfig = new Registry( fID.Key() + "_summary", false ) ;
259 
260  // loop and append
261  // understand the append mechanism
262  for ( unsigned int i = 0 ; i < fConfVect.size(); ++i ) {
263  fConfig -> Append( * fConfVect[i] ) ;
264  }
265 
266  if ( fOwnsSubstruc ) {
267 
268  for ( AlgMapConstIter iter = fOwnedSubAlgMp -> begin() ;
269  iter != fOwnedSubAlgMp -> end() ; ++iter ) {
270 
271  Algorithm * subalg = iter -> second ;
272 
273  LOG("Algorithm", pDEBUG) << "Appending config from " << iter -> first << " -> " << subalg -> Id() ;
274  const Registry & r = subalg->GetConfig();
275  RgKey prefix = iter -> first + "/";
276  fConfig -> Append(r,prefix);
277 
278  }
279 
280  } //if owned substructure
281 
282  return * fConfig ;
283 }
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Algorithm abstract base class.
Definition: Algorithm.h:54
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
virtual const Registry & GetConfig(void) const
Definition: Algorithm.cxx:254
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
const XML_Char * prefix
Definition: expat.h:380
map< string, Algorithm * >::const_iterator AlgMapConstIter
Definition: Algorithm.h:51
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
vector< Registry * > fConfVect
Definition: Algorithm.h:161
string RgKey
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
TRandom3 r(0)
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
string Key(void) const
Definition: AlgId.h:47
#define pDEBUG
Definition: Messenger.h:64
Registry * Algorithm::GetOwnedConfig ( void  )
inherited

Returns the pointer of the summary registry, see previous method Gives access to the summary so it could be changed. The usage of this method is deprecated as it is mantained only for back compatibility. If you need to add or chage a parter (or more), use the AddTopRegistry() instead

Definition at line 287 of file Algorithm.cxx.

References GetConfig().

Referenced by genie::TransverseEnhancementFFModel::LoadConfig(), and genie::EffectiveSF::LoadConfig().

288 {
289 
290  GetConfig() ;
291  return fConfig;
292 }
virtual const Registry & GetConfig(void) const
Definition: Algorithm.cxx:254
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
template<class T >
bool genie::Algorithm::GetParam ( const RgKey name,
T p,
bool  is_top_call = true 
) const
protectedinherited

Ideal access to a parameter value from the vector of registries Returns true if the value is found and the parameters is set

Referenced by genie::CollinsSpillerFragm::BuildFunction(), genie::PetersonFragm::BuildFunction(), genie::DISXSec::LoadConfig(), genie::INukeDeltaPropg::LoadConfig(), genie::COHXSec::LoadConfig(), genie::HadronTransporter::LoadConfig(), genie::DFRKinematicsGenerator::LoadConfig(), genie::RSHelicityAmplModelNCn::LoadConfig(), genie::RSHelicityAmplModelNCp::LoadConfig(), genie::BaryonResonanceDecayer::LoadConfig(), genie::RESKinematicsGenerator::LoadConfig(), genie::DMDISXSec::LoadConfig(), genie::DipoleAxialFormFactorModel::LoadConfig(), genie::DipoleELFormFactorsModel::LoadConfig(), genie::COHKinematicsGenerator::LoadConfig(), genie::VertexGenerator::LoadConfig(), genie::H3AMNuGammaPXSec::LoadConfig(), genie::RSPPResonanceSelector::LoadConfig(), genie::IBDXSecMap::LoadConfig(), genie::Decayer::LoadConfig(), genie::DISHadronicSystemGenerator::LoadConfig(), genie::EmpiricalMECPXSec2015::LoadConfig(), genie::COHElasticPXSec::LoadConfig(), genie::KuzminNaumov2016AxialFormFactorModel::LoadConfig(), genie::SlowRsclCharmDISPXSecLO::LoadConfig(), genie::UnstableParticleDecayer::LoadConfig(), genie::AhrensNCELPXSec::LoadConfig(), genie::AlamSimoAtharVacasSKPXSec2014::LoadConfig(), genie::PythiaHadronization::LoadConfig(), genie::ReinDFRPXSec::LoadConfig(), genie::DFRXSec::LoadConfig(), genie::RosenbluthPXSec::LoadConfig(), genie::StrumiaVissaniIBDPXSec::LoadConfig(), genie::MECGenerator::LoadConfig(), genie::BYPDF::LoadConfig(), genie::QPMDISPXSec::LoadConfig(), genie::KNOPythiaHadronization::LoadConfig(), genie::P33PaschosLalakulichPXSec::LoadConfig(), genie::AhrensDMELPXSec::LoadConfig(), genie::MECXSec::LoadConfig(), genie::AivazisCharmPXSecLO::LoadConfig(), genie::BergerSehgalFMCOHPiPXSec2015::LoadConfig(), genie::ZExpAxialFormFactorModel::LoadConfig(), genie::QPMDMDISPXSec::LoadConfig(), genie::BBA03ELFormFactorsModel::LoadConfig(), genie::BBA05ELFormFactorsModel::LoadConfig(), genie::BergerSehgalCOHPiPXSec2015::LoadConfig(), LoadConfig(), genie::ReinSehgalRESXSec::LoadConfig(), genie::NuElectronPXSec::LoadConfig(), genie::PrimaryLeptonGenerator::LoadConfig(), genie::SpectralFunc1d::LoadConfig(), genie::ReinSehgalCOHPiPXSec::LoadConfig(), genie::PaisQELLambdaPXSec::LoadConfig(), genie::FGMBodekRitchie::LoadConfig(), genie::OutgoingDarkGenerator::LoadConfig(), genie::LHAPDF6::LoadConfig(), genie::NievesSimoVacasMECPXSec2016::LoadConfig(), genie::CharmHadronization::LoadConfig(), genie::ReinSehgalRESXSecFast::LoadConfig(), genie::NuclearModelMap::LoadConfig(), genie::ReinSehgalSPPXSec::LoadConfig(), genie::EventGenerator::LoadConfig(), genie::ReinSehgalRESPXSec::LoadConfig(), genie::LwlynSmithFF::LoadConfig(), genie::SmithMonizQELCCPXSec::LoadConfig(), genie::QPMDISStrucFuncBase::LoadConfig(), genie::BBA07ELFormFactorsModel::LoadConfig(), genie::HAIntranuke::LoadConfig(), genie::NievesQELCCPXSec::LoadConfig(), genie::HAIntranuke2018::LoadConfig(), genie::HNIntranuke2018::LoadConfig(), genie::LocalFGM::LoadConfig(), genie::BSKLNBaseRESPXSec2014::LoadConfig(), genie::EffectiveSF::LoadConfig(), genie::ReinSehgalSPPPXSec::LoadConfig(), genie::KNOHadronization::LoadConfig(), genie::SmithMonizUtils::LoadConfig(), genie::MECInteractionListGenerator::LoadConfigData(), genie::PhysInteractionSelector::LoadConfigData(), genie::RESInteractionListGenerator::LoadConfigData(), genie::PauliBlocker::LoadModelType(), genie::BYStrucFunc::ReadBYParams(), and genie::LHAPDF5::SetPDFSetFromConfig().

template<class T >
bool genie::Algorithm::GetParamDef ( const RgKey name,
T p,
const T def 
) const
protectedinherited

Ideal access to a parameter value from the vector of registries, With default value. Returns true if the value is set from the registries, false if the value is the default

Referenced by genie::IMDXSec::LoadConfig(), genie::COHXSec::LoadConfig(), genie::RESXSec::LoadConfig(), genie::DISXSec::LoadConfig(), genie::DFRKinematicsGenerator::LoadConfig(), genie::COHXSecAR::LoadConfig(), genie::QELXSec::LoadConfig(), genie::RESKinematicsGenerator::LoadConfig(), genie::DMDISXSec::LoadConfig(), genie::BaryonResonanceDecayer::LoadConfig(), genie::SKKinematicsGenerator::LoadConfig(), genie::COHElKinematicsGenerator::LoadConfig(), genie::NuEKinematicsGenerator::LoadConfig(), genie::COHKinematicsGenerator::LoadConfig(), genie::IBDKinematicsGenerator::LoadConfig(), genie::NuEInteractionListGenerator::LoadConfig(), genie::QELKinematicsGenerator::LoadConfig(), genie::DMELXSec::LoadConfig(), genie::DISHadronicSystemGenerator::LoadConfig(), genie::DISKinematicsGenerator::LoadConfig(), genie::NucBindEnergyAggregator::LoadConfig(), genie::DMELKinematicsGenerator::LoadConfig(), genie::DMDISKinematicsGenerator::LoadConfig(), genie::QPMDISPXSec::LoadConfig(), genie::DFRXSec::LoadConfig(), genie::QELEventGenerator::LoadConfig(), genie::P33PaschosLalakulichPXSec::LoadConfig(), genie::MECXSec::LoadConfig(), genie::FermiMover::LoadConfig(), genie::AlamSimoAtharVacasSKXSec::LoadConfig(), genie::AhrensDMELPXSec::LoadConfig(), genie::NuElectronXSec::LoadConfig(), genie::QPMDMDISPXSec::LoadConfig(), LoadConfig(), genie::ReinSehgalRESXSec::LoadConfig(), genie::FGMBodekRitchie::LoadConfig(), genie::ReinSehgalRESXSecFast::LoadConfig(), genie::KovalenkoQELCharmPXSec::LoadConfig(), genie::SmithMonizQELCCXSec::LoadConfig(), genie::ReinSehgalSPPXSec::LoadConfig(), genie::ReinSehgalRESPXSec::LoadConfig(), genie::QELEventGeneratorSM::LoadConfig(), genie::QPMDISStrucFuncBase::LoadConfig(), genie::SmithMonizQELCCPXSec::LoadConfig(), genie::NievesQELCCPXSec::LoadConfig(), genie::HAIntranuke::LoadConfig(), genie::LocalFGM::LoadConfig(), genie::HNIntranuke2018::LoadConfig(), genie::HAIntranuke2018::LoadConfig(), genie::BSKLNBaseRESPXSec2014::LoadConfig(), genie::EffectiveSF::LoadConfig(), genie::KNOHadronization::LoadConfig(), genie::NewQELXSec::LoadConfig(), genie::QELInteractionListGenerator::LoadConfigData(), genie::MECInteractionListGenerator::LoadConfigData(), genie::DFRInteractionListGenerator::LoadConfigData(), genie::RESInteractionListGenerator::LoadConfigData(), genie::SKInteractionListGenerator::LoadConfigData(), genie::COHInteractionListGenerator::LoadConfigData(), genie::DMELInteractionListGenerator::LoadConfigData(), genie::RSPPInteractionListGenerator::LoadConfigData(), genie::DISInteractionListGenerator::LoadConfigData(), and genie::DMDISInteractionListGenerator::LoadConfigData().

template<class T >
bool genie::Algorithm::GetParamVect ( const std::string comm_name,
std::vector< T > &  v,
unsigned int  max,
bool  is_top_call = true 
) const
protectedinherited

Handle to load vectors of parameters It looks for different registry item with name comm_name0, comm_name1, etc...

virtual AlgStatus_t genie::Algorithm::GetStatus ( void  ) const
inlinevirtualinherited

Get algorithm status.

Definition at line 101 of file Algorithm.h.

References genie::Algorithm::fStatus.

101 { return fStatus; }
AlgStatus_t fStatus
algorithm execution status
Definition: Algorithm.h:166
virtual const AlgId& genie::Algorithm::Id ( void  ) const
inlinevirtualinherited

Get algorithm ID.

Definition at line 98 of file Algorithm.h.

References genie::Algorithm::fID.

Referenced by genie::KineGeneratorWithCache::AccessCacheBranch(), genie::QELEventGeneratorSM::AccessCacheBranch2(), genie::QELEventGeneratorSM::AccessCacheBranchDiffv(), genie::InteractionListAssembler::AssembleInteractionList(), genie::XSecAlgorithmMap::BuildMap(), genie::InteractionGeneratorMap::BuildMap(), genie::XSecSplineList::BuildSplineKey(), genie::DISXSec::CacheBranchName(), genie::ReinSehgalRESXSecWithCache::CacheBranchName(), genie::DMDISXSec::CacheBranchName(), genie::ReinSehgalRESXSecWithCacheFast::CacheBranchName(), genie::Algorithm::Compare(), genie::RESKinematicsGenerator::ComputeMaxXSec(), genie::COHElKinematicsGenerator::ComputeMaxXSec(), genie::SKKinematicsGenerator::ComputeMaxXSec(), genie::COHKinematicsGenerator::ComputeMaxXSec(), genie::Algorithm::Configure(), genie::GEVGDriver::CreateSplines(), genie::QPMDISPXSec::DISRESJoinSuppressionFactor(), genie::QPMDMDISPXSec::DMDISRESJoinSuppressionFactor(), genie::AlgConfigPool::FindRegistry(), genie::AlgFactory::ForceReconfiguration(), genie::GEVGDriver::GenerateEvent(), GetAlgorithms(), Integral(), genie::NievesQELCCPXSec::Integral(), genie::COHXSec::Integrate(), genie::QPMDISPXSec::LoadConfig(), genie::QPMDMDISPXSec::LoadConfig(), genie::EventGenerator::LoadConfig(), genie::EventGeneratorListAssembler::LoadGenerator(), main(), genie::COHKinematicsGenerator::MaxXSec_AlvarezRuso(), genie::XSecAlgorithmMap::Print(), genie::InteractionGeneratorMap::Print(), genie::AlgFactory::Print(), genie::COHHadronicSystemGenerator::ProcessEventRecord(), genie::COHPrimaryLeptonGenerator::ProcessEventRecord(), genie::COHKinematicsGenerator::ProcessEventRecord(), genie::MECGenerator::ProcessEventRecord(), genie::EventGenerator::ProcessEventRecord(), genie::KNOPythiaHadronization::SelectHadronizer(), TestPythiaTauDecays(), and genie::GEVGDriver::UseSplines().

98 { return fID; }
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
void Algorithm::Initialize ( void  )
protectedinherited

Definition at line 343 of file Algorithm.cxx.

Referenced by genie::Algorithm::AllowReconfig().

344 {
345 // Algorithm initialization
346 //
347  fAllowReconfig = true;
348  fOwnsSubstruc = false;
349  fConfig = 0;
350  fOwnedSubAlgMp = 0;
351 }
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
double LwlynSmithQELCCPXSec::Integral ( const Interaction i) const
virtual

Integrate the model over the kinematic phase space available to the input interaction (kinematical cuts can be included)

Implements genie::XSecAlgorithmI.

Definition at line 310 of file LwlynSmithQELCCPXSec.cxx.

References genie::Target::A(), genie::VertexGenerator::Configure(), E, exit(), fDoAvgOverNucleonMomentum, fEnergyCutOff, genie::PDGLibrary::Find(), fLFG, fNuclModel, fXSecIntegrator, genie::NuclearModelI::GenerateNucleon(), genie::VertexGenerator::GenerateVertex(), genie::Target::HitNucP4Ptr(), genie::Target::HitNucPdg(), genie::Algorithm::Id(), genie::Interaction::InitState(), genie::PDGLibrary::Instance(), genie::XSecIntegratorI::Integrate(), genie::pdg::IonPdgCode(), genie::Target::IsNucleus(), genie::pdg::IsProton(), genie::kRfHitNucRest, LOG, genie::utils::res::Mass(), genie::NuclearModelI::Momentum3(), genie::AlgId::Name(), pFATAL, genie::InitialState::ProbeE(), genie::Target::SetHitNucPosition(), ana::Sqrt(), genie::InitialState::Tgt(), genie::InitialState::TgtPtr(), xsec, and genie::Target::Z().

311 {
312  // If we're using the new spline generation method (which integrates
313  // over the kPSQELEvGen phase space used by QELEventGenerator) then
314  // let the cross section integrator do all of the work. It's smart
315  // enough to handle free nucleon vs. nuclear targets, different
316  // nuclear models (including the local Fermi gas model), etc.
317  // TODO: think about doing this in a better way
318  if ( fXSecIntegrator->Id().Name() == "genie::NewQELXSec" ) {
319  return fXSecIntegrator->Integrate(this, in);
320  }
321 
322  // Otherwise, use the old integration method (kept for use with
323  // the historical default G18_00x series of tunes)
324  bool nuclear_target = in->InitState().Tgt().IsNucleus();
325  if(!nuclear_target || !fDoAvgOverNucleonMomentum) {
326  return fXSecIntegrator->Integrate(this,in);
327  }
328 
329  double E = in->InitState().ProbeE(kRfHitNucRest);
330  if(fLFG || E < fEnergyCutOff) {
331  // clone the input interaction so as to tweak the
332  // hit nucleon 4-momentum in the averaging loop
333  Interaction in_curr(*in);
334 
335  // hit target
336  Target * tgt = in_curr.InitState().TgtPtr();
337 
338  // get nuclear masses (init & final state nucleus)
339  int nucleon_pdgc = tgt->HitNucPdg();
340  bool is_p = pdg::IsProton(nucleon_pdgc);
341  int Zi = tgt->Z();
342  int Ai = tgt->A();
343  int Zf = (is_p) ? Zi-1 : Zi;
344  int Af = Ai-1;
345  PDGLibrary * pdglib = PDGLibrary::Instance();
346  TParticlePDG * nucl_i = pdglib->Find( pdg::IonPdgCode(Ai, Zi) );
347  TParticlePDG * nucl_f = pdglib->Find( pdg::IonPdgCode(Af, Zf) );
348  if(!nucl_f) {
349  LOG("LwlynSmith", pFATAL)
350  << "Unknwown nuclear target! No target with code: "
351  << pdg::IonPdgCode(Af, Zf) << " in PDGLibrary!";
352  exit(1);
353  }
354  double Mi = nucl_i -> Mass(); // initial nucleus mass
355  double Mf = nucl_f -> Mass(); // remnant nucleus mass
356 
357  // throw nucleons with fermi momenta and binding energies
358  // generated according to the current nuclear model for the
359  // input target and average the cross section
360  double xsec_sum = 0.;
361  const int nnuc = 2000;
362  // VertexGenerator for generating a position before generating
363  // each nucleon
364  VertexGenerator * vg = new VertexGenerator();
365  vg->Configure("Default");
366  for(int inuc=0;inuc<nnuc;inuc++){
367  // Generate a position in the nucleus
368  TVector3 nucpos = vg->GenerateVertex(&in_curr,tgt->A());
369  tgt->SetHitNucPosition(nucpos.Mag());
370 
371  // Generate a nucleon
372  fNuclModel->GenerateNucleon(*tgt, nucpos.Mag());
373  TVector3 p3N = fNuclModel->Momentum3();
374  double EN = Mi - TMath::Sqrt(p3N.Mag2() + Mf*Mf);
375  TLorentzVector* p4N = tgt->HitNucP4Ptr();
376  p4N->SetPx (p3N.Px());
377  p4N->SetPy (p3N.Py());
378  p4N->SetPz (p3N.Pz());
379  p4N->SetE (EN);
380 
381  double xsec = fXSecIntegrator->Integrate(this,&in_curr);
382  xsec_sum += xsec;
383  }
384  double xsec_avg = xsec_sum / nnuc;
385  delete vg;
386  return xsec_avg;
387  }else{
388  return fXSecIntegrator->Integrate(this,in);
389  }
390 }
TVector3 GenerateVertex(const Interaction *in, double A) const
int HitNucPdg(void) const
Definition: Target.cxx:321
bool fLFG
If the nuclear model is lfg alway average over nucleons.
int A(void) const
Definition: Target.h:71
#define pFATAL
Definition: Messenger.h:57
const NuclearModelI * fNuclModel
double Mass(Resonance_t res)
resonance mass (GeV)
void SetHitNucPosition(double r)
Definition: Target.cxx:227
bool fDoAvgOverNucleonMomentum
Average cross section over hit nucleon monentum?
const TVector3 & Momentum3(void) const
Definition: NuclearModelI.h:67
Summary information for an interaction.
Definition: Interaction.h:56
bool IsProton(int pdgc)
Definition: PDGUtils.cxx:299
const XSecIntegratorI * fXSecIntegrator
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
string Name(void) const
Definition: AlgId.h:45
Float_t E
Definition: plot.C:20
A Neutrino Interaction Target. Is a transparent encapsulation of quite different physical systems suc...
Definition: Target.h:41
int Z(void) const
Definition: Target.h:69
Double_t xsec[nknots]
Definition: testXsec.C:47
void Configure(const Registry &config)
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
ifstream in
Definition: comparison.C:7
TLorentzVector * HitNucP4Ptr(void) const
Definition: Target.cxx:264
static PDGLibrary * Instance(void)
Definition: PDGLibrary.cxx:43
Singleton class to load & serve a TDatabasePDG.
Definition: PDGLibrary.h:30
Var Sqrt(const Var &v)
Use to take sqrt of a var.
Definition: Var.cxx:326
TParticlePDG * Find(int pdgc)
Definition: PDGLibrary.cxx:61
int IonPdgCode(int A, int Z)
Definition: PDGUtils.cxx:69
virtual double Integrate(const XSecAlgorithmI *model, const Interaction *interaction) const =0
exit(0)
virtual bool GenerateNucleon(const Target &) const =0
void LwlynSmithQELCCPXSec::LoadConfig ( void  )
private

Definition at line 427 of file LwlynSmithQELCCPXSec.cxx.

References ana::assert(), fCos8c2, fDoAvgOverNucleonMomentum, fDoPauliBlocking, fEnergyCutOff, fFormFactors, fFormFactorsModel, fIntegralNucleonBindingMode, fLFG, fNuclModel, fPauliBlocker, fXSecIntegrator, fXSecScale, genie::Algorithm::GetParam(), genie::Algorithm::GetParamDef(), genie::kNucmLocalFermiGas, genie::NuclearModelI::ModelType(), genie::QELFormFactors::SetModel(), string, genie::utils::StringToQELBindingMode(), and genie::Algorithm::SubAlg().

Referenced by Configure().

428 {
429  // Cross section scaling factor
430  GetParamDef( "QEL-CC-XSecScale", fXSecScale, 1. ) ;
431 
432  double thc ;
433  GetParam( "CabibboAngle", thc ) ;
434  fCos8c2 = TMath::Power(TMath::Cos(thc), 2);
435 
436  // load QEL form factors model
437  fFormFactorsModel = dynamic_cast<const QELFormFactorsModelI *> (
438  this->SubAlg("FormFactorsAlg"));
440  fFormFactors.SetModel(fFormFactorsModel); // <-- attach algorithm
441 
442  // load XSec Integrator
444  dynamic_cast<const XSecIntegratorI *> (this->SubAlg("XSec-Integrator"));
446 
447  // Get nuclear model for use in Integral()
448  RgKey nuclkey = "IntegralNuclearModel";
449  fNuclModel = dynamic_cast<const NuclearModelI *> (this->SubAlg(nuclkey));
451 
453 
454  bool average_over_nuc_mom ;
455  GetParamDef( "IntegralAverageOverNucleonMomentum", average_over_nuc_mom, false ) ;
456  // Always average over initial nucleons if the nuclear model is LFG
457  fDoAvgOverNucleonMomentum = fLFG || average_over_nuc_mom ;
458 
459  fEnergyCutOff = 0.;
460 
461  // Get averaging cutoff energy
462  GetParamDef("IntegralNuclearInfluenceCutoffEnergy", fEnergyCutOff, 2.0 ) ;
463 
464  // Method to use to calculate the binding energy of the initial hit nucleon when
465  // generating splines
466  std::string temp_binding_mode;
467  GetParamDef( "IntegralNucleonBindingMode", temp_binding_mode, std::string("UseNuclearModel") );
469 
470  // Get PauliBlocker for possible use in FullDifferentialXSec()
471  GetParamDef( "IntegralNucleonBindingMode", temp_binding_mode, std::string("UseNuclearModel") );
472  fPauliBlocker = dynamic_cast<const PauliBlocker*>( this->SubAlg("PauliBlockerAlg") );
474 
475  // Decide whether or not it should be used in FullDifferentialXSec
476  GetParamDef( "DoPauliBlocking", fDoPauliBlocking, true );
477 }
Cross Section Integrator Interface.
bool fLFG
If the nuclear model is lfg alway average over nucleons.
void SetModel(const QELFormFactorsModelI *model)
Attach an algorithm.
Examines whether the generated event should be Pauli blocked. Is a concerete implementation of the Ev...
Definition: PauliBlocker.h:36
const NuclearModelI * fNuclModel
Pure abstract base class. Defines the NuclearModelI interface to be implemented by any physics model ...
Definition: NuclearModelI.h:42
double fXSecScale
external xsec scaling factor
bool fDoAvgOverNucleonMomentum
Average cross section over hit nucleon monentum?
QELEvGen_BindingMode_t fIntegralNucleonBindingMode
virtual NuclearModel_t ModelType(const Target &) const =0
const QELFormFactorsModelI * fFormFactorsModel
const XSecIntegratorI * fXSecIntegrator
Pure abstract base class. Defines the QELFormFactorsModelI interface to be implemented by any algorit...
A Neutrino Interaction Target. Is a transparent encapsulation of quite different physical systems suc...
Definition: Target.h:41
bool fDoPauliBlocking
Whether to apply Pauli blocking in FullDifferentialXSec.
string RgKey
QELEvGen_BindingMode_t StringToQELBindingMode(const std::string &mode_str)
Definition: QELUtils.cxx:195
double fCos8c2
cos^2(cabibbo angle)
assert(nhit_max >=nhit_nbins)
bool GetParamDef(const RgKey &name, T &p, const T &def) const
bool GetParam(const RgKey &name, T &p, bool is_top_call=true) const
const genie::PauliBlocker * fPauliBlocker
The PauliBlocker instance to use to apply that correction.
const Algorithm * SubAlg(const RgKey &registry_key) const
Definition: Algorithm.cxx:353
enum BeamMode string
int Algorithm::MergeTopRegistry ( const Registry r)
protectedinherited

Merge with top level registry if first reg of the vector is owned Otherwise an owned copy is added as a top registry

Definition at line 618 of file Algorithm.cxx.

618  {
619 
620  if ( fOwnerships.empty() ) {
621 
622  // this algorithm is not configured right now, the incoming registry is the only configuration
623  Registry * p = new Registry( r ) ;
624  AddTopRegistry( p ) ;
625 
626  return 1 ;
627  }
628 
629  if ( fOwnerships[0] ) {
630  //the top registry is owned: it can be changed with no consequences for other algorithms
631  fConfVect[0] -> Merge( r ) ;
632  }
633  else {
634  // The top registry is not owned so it cannot be changed
635  // The registry will be added with top priority
636 
637  Registry * p = new Registry( r ) ;
638  AddTopRegistry( p ) ;
639  }
640 
641  // The configuration has changed so the summary is not updated anymore and must be deleted
642  if ( fConfig ) {
643  delete fConfig ;
644  fConfig = 0 ;
645  }
646 
647  return fConfVect.size() ;
648 }
const char * p
Definition: xmltok.h:285
int AddTopRegistry(Registry *rp, bool owns=true)
add registry with top priority, also update ownership
Definition: Algorithm.cxx:585
vector< Registry * > fConfVect
Definition: Algorithm.h:161
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
vector< bool > fOwnerships
ownership for every registry in fConfVect
Definition: Algorithm.h:164
Registry * fConfig
Summary configuration derived from fConvVect, not necessarily allocated.
Definition: Algorithm.h:194
void Algorithm::Print ( ostream &  stream) const
virtualinherited

Print algorithm info.

Definition at line 323 of file Algorithm.cxx.

References GetConfig(), and r().

Referenced by genie::Algorithm::AllowReconfig(), and genie::operator<<().

324 {
325  // print algorithm name & parameter-set
326  stream << "\nAlgorithm Key: " << this->fID.Key();
327  stream << " - Owns Substruc: " << ((fOwnsSubstruc) ? "[true]" : "[false]");
328 
329  // print algorithm configuration
330  const Registry & r = this->GetConfig();
331  stream << r;
332 
333  if(fOwnsSubstruc) {
334  AlgMapConstIter iter = fOwnedSubAlgMp->begin();
335  for(; iter!=fOwnedSubAlgMp->end(); ++iter) {
336  Algorithm * alg = iter->second;
337  stream << "<Next algorithm is owned by : " << this->fID.Key() << ">";
338  stream << *alg;
339  }
340  }
341 }
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Algorithm abstract base class.
Definition: Algorithm.h:54
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
virtual const Registry & GetConfig(void) const
Definition: Algorithm.cxx:254
map< string, Algorithm * >::const_iterator AlgMapConstIter
Definition: Algorithm.h:51
A registry. Provides the container for algorithm configuration parameters.
Definition: Registry.h:66
TRandom3 r(0)
string Key(void) const
Definition: AlgId.h:47
void Algorithm::SetId ( const AlgId id)
virtualinherited

Set algorithm ID.

Definition at line 313 of file Algorithm.cxx.

Referenced by genie::Algorithm::AllowReconfig().

314 {
315  fID.Copy(id);
316 }
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
void Copy(const AlgId &id)
Definition: AlgId.cxx:78
void Algorithm::SetId ( string  name,
string  config 
)
virtualinherited

Definition at line 318 of file Algorithm.cxx.

319 {
320  fID.SetId(name, config);
321 }
const XML_Char * name
Definition: expat.h:151
Definition: config.py:1
AlgId fID
algorithm name and configuration set
Definition: Algorithm.h:156
void SetId(string name, string config="")
Definition: AlgId.cxx:70
const Algorithm * Algorithm::SubAlg ( const RgKey registry_key) const
inherited

Access the sub-algorithm pointed to by the input key, either from the local pool or from AlgFactory's pool

Definition at line 353 of file Algorithm.cxx.

References ana::assert(), genie::AlgFactory::GetAlgorithm(), genie::AlgFactory::Instance(), LOG, pERROR, and pINFO.

Referenced by genie::Algorithm::AllowReconfig(), genie::utils::gsl::FullQELdXSec::FullQELdXSec(), genie::NewQELXSec::Integrate(), genie::HadronTransporter::LoadConfig(), genie::NucleonDecayPrimaryVtxGenerator::LoadConfig(), genie::IBDXSecMap::LoadConfig(), genie::EmpiricalMECPXSec2015::LoadConfig(), genie::COHElasticPXSec::LoadConfig(), genie::DISHadronicSystemGenerator::LoadConfig(), genie::SlowRsclCharmDISPXSecLO::LoadConfig(), genie::AhrensNCELPXSec::LoadConfig(), genie::AlamSimoAtharVacasSKPXSec2014::LoadConfig(), genie::UnstableParticleDecayer::LoadConfig(), genie::ReinDFRPXSec::LoadConfig(), genie::PythiaHadronization::LoadConfig(), genie::BYPDF::LoadConfig(), genie::QPMDISPXSec::LoadConfig(), genie::AlvarezRusoCOHPiPXSec::LoadConfig(), genie::RosenbluthPXSec::LoadConfig(), genie::StrumiaVissaniIBDPXSec::LoadConfig(), genie::MECGenerator::LoadConfig(), genie::NNBarOscPrimaryVtxGenerator::LoadConfig(), genie::FermiMover::LoadConfig(), genie::AhrensDMELPXSec::LoadConfig(), genie::IMDAnnihilationPXSec::LoadConfig(), genie::QELEventGenerator::LoadConfig(), genie::KNOPythiaHadronization::LoadConfig(), genie::AivazisCharmPXSecLO::LoadConfig(), genie::RESHadronicSystemGenerator::LoadConfig(), genie::P33PaschosLalakulichPXSec::LoadConfig(), genie::BergerSehgalFMCOHPiPXSec2015::LoadConfig(), genie::QPMDMDISPXSec::LoadConfig(), genie::BergerSehgalCOHPiPXSec2015::LoadConfig(), LoadConfig(), genie::NuElectronPXSec::LoadConfig(), genie::PaisQELLambdaPXSec::LoadConfig(), genie::ReinSehgalCOHPiPXSec::LoadConfig(), genie::NievesSimoVacasMECPXSec2016::LoadConfig(), genie::KovalenkoQELCharmPXSec::LoadConfig(), genie::CharmHadronization::LoadConfig(), genie::NuclearModelMap::LoadConfig(), genie::EventGenerator::LoadConfig(), genie::SmithMonizQELCCXSec::LoadConfig(), genie::BardinIMDRadCorPXSec::LoadConfig(), genie::ReinSehgalRESPXSec::LoadConfig(), genie::MartiniEricsonChanfrayMarteauMECPXSec2016::LoadConfig(), genie::LwlynSmithFF::LoadConfig(), genie::QELEventGeneratorSM::LoadConfig(), genie::QPMDISStrucFuncBase::LoadConfig(), genie::SmithMonizQELCCPXSec::LoadConfig(), genie::NievesQELCCPXSec::LoadConfig(), genie::HAIntranuke::LoadConfig(), genie::HAIntranuke2018::LoadConfig(), genie::HNIntranuke2018::LoadConfig(), genie::BSKLNBaseRESPXSec2014::LoadConfig(), genie::ReinSehgalSPPPXSec::LoadConfig(), genie::KNOHadronization::LoadConfig(), and genie::EventGeneratorListAssembler::LoadGenerator().

354 {
355 // Returns the sub-algorithm pointed to this algorithm's XML config file using
356 // the the values of the key.
357 // This method asserts the existence of these keys in the XML config.
358 // Note: Since only 1 parameter is used, the key value should contain both the
359 // algorithm name and its configuration set according to the usual scheme:
360 // namespace::algorithm_name/configuration_set
361 //
362  LOG("Algorithm", pINFO)
363  << "Fetching sub-alg within alg: " << this->Id().Key()
364  << " pointed to by key: " << registry_key;
365 
366  //-- if the algorithm owns its substructure:
367  // return the sub-algorithm from the local pool
368  //
369  if(fOwnsSubstruc) {
370  AlgMapConstIter iter = fOwnedSubAlgMp->find(registry_key);
371  if(iter!=fOwnedSubAlgMp->end()) return iter->second;
372  LOG("Algorithm", pERROR)
373  << "Owned sub-alg pointed to by key: " << registry_key
374  << " was not found within alg: " << this->Id().Key();
375  return 0;
376  }
377 
378  //-- if the algorithm does not own its substructure:
379  // return the sub-algorithm from the AlgFactory's pool
380  RgAlg alg ;
381  GetParam( registry_key, alg ) ;
382 
383  LOG("Algorithm", pINFO)
384  << "Registry key: " << registry_key << " points to algorithm: " << alg;
385 
386  // retrieve the Algorithm object from the the Algorithm factory
387  AlgFactory * algf = AlgFactory::Instance();
388  const Algorithm * algbase = algf->GetAlgorithm(alg.name, alg.config);
389  assert(algbase);
390 
391  return algbase;
392 }
#define pERROR
Definition: Messenger.h:60
AlgMap * fOwnedSubAlgMp
local pool for owned sub-algs (taken out of the factory pool)
Definition: Algorithm.h:167
bool fOwnsSubstruc
true if it owns its substructure (sub-algs,...)
Definition: Algorithm.h:155
Algorithm abstract base class.
Definition: Algorithm.h:54
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
const Algorithm * GetAlgorithm(const AlgId &algid)
Definition: AlgFactory.cxx:86
#define pINFO
Definition: Messenger.h:63
map< string, Algorithm * >::const_iterator AlgMapConstIter
Definition: Algorithm.h:51
virtual const AlgId & Id(void) const
Get algorithm ID.
Definition: Algorithm.h:98
static AlgFactory * Instance()
Definition: AlgFactory.cxx:75
assert(nhit_max >=nhit_nbins)
bool GetParam(const RgKey &name, T &p, bool is_top_call=true) const
The GENIE Algorithm Factory.
Definition: AlgFactory.h:40
string Key(void) const
Definition: AlgId.h:47
bool XSecAlgorithmI::ValidKinematics ( const Interaction i) const
virtualinherited

Is the input kinematical point a physically allowed one?

Reimplemented in genie::KovalenkoQELCharmPXSec, genie::PaisQELLambdaPXSec, genie::NuElectronPXSec, genie::KLVOxygenIBDPXSec, genie::IMDAnnihilationPXSec, genie::StrumiaVissaniIBDPXSec, genie::H3AMNuGammaPXSec, genie::GLRESPXSec, and genie::IBDXSecMap.

Definition at line 46 of file XSecAlgorithmI.cxx.

References genie::KPhaseSpace::IsAboveThreshold(), genie::KPhaseSpace::IsAllowed(), genie::kISkipKinematicChk, LOG, genie::Interaction::PhaseSpace(), and pINFO.

Referenced by genie::IBDXSecMap::ValidKinematics(), genie::COHElasticPXSec::XSec(), genie::SlowRsclCharmDISPXSecLO::XSec(), genie::AlamSimoAtharVacasSKPXSec2014::XSec(), genie::ReinDFRPXSec::XSec(), genie::AhrensNCELPXSec::XSec(), genie::RosenbluthPXSec::XSec(), genie::AivazisCharmPXSecLO::XSec(), genie::QPMDISPXSec::XSec(), genie::AlvarezRusoCOHPiPXSec::XSec(), genie::P33PaschosLalakulichPXSec::XSec(), genie::AhrensDMELPXSec::XSec(), genie::BergerSehgalFMCOHPiPXSec2015::XSec(), XSec(), genie::QPMDMDISPXSec::XSec(), genie::BergerSehgalCOHPiPXSec2015::XSec(), genie::ReinSehgalCOHPiPXSec::XSec(), genie::BardinIMDRadCorPXSec::XSec(), genie::ReinSehgalRESPXSec::XSec(), genie::BSKLNBaseRESPXSec2014::XSec(), genie::NievesQELCCPXSec::XSec(), and genie::ReinSehgalSPPPXSec::XSec().

47 {
48 // can offer common implementation for all concrete x-section models because
49 // the input interaction is aware of its kinematic limits
50 
51  if ( interaction->TestBit(kISkipKinematicChk) ) return true;
52 
53  const KPhaseSpace& kps = interaction->PhaseSpace();
54 
55  if ( ! kps.IsAboveThreshold() ) {
56  LOG("XSecBase", pINFO) << "*** Below energy threshold";
57  return false;
58  }
59  if ( ! kps.IsAllowed() ) {
60  LOG("XSecBase", pINFO) << "*** Not in allowed kinematical space";
61  return false;
62  }
63  return true;
64 }
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
Kinematical phase space.
Definition: KPhaseSpace.h:34
#define pINFO
Definition: Messenger.h:63
const UInt_t kISkipKinematicChk
if set, skip kinematic validity checks
Definition: Interaction.h:48
bool IsAllowed(void) const
Check whether the current kinematics is in the allowed phase space.
bool IsAboveThreshold(void) const
Checks whether the interaction is above the energy threshold.
bool LwlynSmithQELCCPXSec::ValidProcess ( const Interaction i) const
virtual

Can this cross section algorithm handle the input process?

Implements genie::XSecAlgorithmI.

Definition at line 392 of file LwlynSmithQELCCPXSec.cxx.

References genie::Target::HitNucPdg(), genie::Interaction::InitState(), genie::pdg::IsAntiNeutrino(), genie::pdg::IsNeutrino(), genie::pdg::IsNeutron(), genie::pdg::IsProton(), genie::ProcessInfo::IsQuasiElastic(), genie::ProcessInfo::IsWeakCC(), genie::kISkipProcessChk, genie::InitialState::ProbePdg(), genie::Interaction::ProcInfo(), and genie::InitialState::Tgt().

Referenced by XSec().

393 {
394  if(interaction->TestBit(kISkipProcessChk)) return true;
395 
396  const InitialState & init_state = interaction->InitState();
397  const ProcessInfo & proc_info = interaction->ProcInfo();
398 
399  if(!proc_info.IsQuasiElastic()) return false;
400 
401  int nuc = init_state.Tgt().HitNucPdg();
402  int nu = init_state.ProbePdg();
403 
404  bool isP = pdg::IsProton(nuc);
405  bool isN = pdg::IsNeutron(nuc);
406  bool isnu = pdg::IsNeutrino(nu);
407  bool isnub = pdg::IsAntiNeutrino(nu);
408 
409  bool prcok = proc_info.IsWeakCC() && ((isP&&isnub) || (isN&&isnu));
410  if(!prcok) return false;
411 
412  return true;
413 }
bool IsWeakCC(void) const
bool IsNeutrino(int pdgc)
Definition: PDGUtils.cxx:108
int HitNucPdg(void) const
Definition: Target.cxx:321
bool IsQuasiElastic(void) const
Definition: ProcessInfo.cxx:67
bool IsNeutron(int pdgc)
Definition: PDGUtils.cxx:304
bool IsProton(int pdgc)
Definition: PDGUtils.cxx:299
A class encapsulating an enumeration of interaction types (EM, Weak-CC, Weak-NC) and scattering types...
Definition: ProcessInfo.h:44
bool IsAntiNeutrino(int pdgc)
Definition: PDGUtils.cxx:116
int ProbePdg(void) const
Definition: InitialState.h:65
const Target & Tgt(void) const
Definition: InitialState.h:67
const UInt_t kISkipProcessChk
if set, skip process validity checks
Definition: Interaction.h:47
Initial State information.
Definition: InitialState.h:49
double LwlynSmithQELCCPXSec::XSec ( const Interaction i,
KinePhaseSpace_t  k 
) const
virtual

Compute the cross section for the input interaction.

Implements genie::XSecAlgorithmI.

Definition at line 71 of file LwlynSmithQELCCPXSec.cxx.

References genie::units::A, genie::KinePhaseSpace::AsString(), C, genie::QELFormFactors::Calculate(), E, genie::QELFormFactors::F1V(), genie::QELFormFactors::FA(), fCos8c2, fFormFactors, genie::QELFormFactors::Fp(), genie::Interaction::FSPrimLepton(), FullDifferentialXSec(), fXSecScale, genie::Target::HitNucMass(), genie::Target::HitNucPdg(), genie::pdg::IsNeutrino(), genie::pdg::IsProton(), genie::utils::mec::J(), genie::utils::kinematics::Jacobian(), genie::constants::kGF2, genie::kIAssumeFreeNucleon, kinematics(), kPi, genie::kPSQ2fE, genie::kPSQELEvGen, genie::kRfHitNucRest, LOG, genie::Target::N(), genie::utils::nuclear::NuclQELXSecSuppression(), pDEBUG, genie::InitialState::ProbeE(), genie::InitialState::ProbePdg(), pWARN, genie::Kinematics::q2(), q2, R, canMan::sign(), genie::InitialState::Tgt(), genie::XSecAlgorithmI::ValidKinematics(), ValidProcess(), genie::QELFormFactors::xiF2V(), xsec, and genie::Target::Z().

73 {
74  if(! this -> ValidProcess (interaction) ) {LOG("LwlynSmith",pWARN) << "not a valid process"; return 0.;}
75  if(! this -> ValidKinematics (interaction) ) {LOG("LwlynSmith",pWARN) << "not valid kinematics"; return 0.;}
76 
77  // If computing the full differential cross section, then all four momentum
78  // four-vectors (probe, hit nucleon, final lepton, and final nucleon) should
79  // have been set already, with the hit nucleon off-shell as appropriate.
80  if (kps == kPSQELEvGen) {
81  return this->FullDifferentialXSec(interaction);
82  }
83 
84  // Get kinematics & init-state parameters
85  const Kinematics & kinematics = interaction -> Kine();
86  const InitialState & init_state = interaction -> InitState();
87  const Target & target = init_state.Tgt();
88 
89  double E = init_state.ProbeE(kRfHitNucRest);
90  double E2 = TMath::Power(E,2);
91  double ml = interaction->FSPrimLepton()->Mass();
92  double M = target.HitNucMass();
93  double q2 = kinematics.q2();
94 
95  // One of the xsec terms changes sign for antineutrinos
96  bool is_neutrino = pdg::IsNeutrino(init_state.ProbePdg());
97  int sign = (is_neutrino) ? -1 : 1;
98 
99  // Calculate the QEL form factors
100  fFormFactors.Calculate(interaction);
101 
102  double F1V = fFormFactors.F1V();
103  double xiF2V = fFormFactors.xiF2V();
104  double FA = fFormFactors.FA();
105  double Fp = fFormFactors.Fp();
106 
107 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
108  LOG("LwlynSmith", pDEBUG) << "\n" << fFormFactors;
109 #endif
110 
111  // Calculate auxiliary parameters
112  double ml2 = TMath::Power(ml, 2);
113  double M2 = TMath::Power(M, 2);
114  double M4 = TMath::Power(M2, 2);
115  double FA2 = TMath::Power(FA, 2);
116  double Fp2 = TMath::Power(Fp, 2);
117  double F1V2 = TMath::Power(F1V, 2);
118  double xiF2V2 = TMath::Power(xiF2V, 2);
119  double Gfactor = M2*kGF2*fCos8c2 / (8*kPi*E2);
120  double s_u = 4*E*M + q2 - ml2;
121  double q2_M2 = q2/M2;
122 
123  // Compute free nucleon differential cross section
124  double A = (0.25*(ml2-q2)/M2) * (
125  (4-q2_M2)*FA2 - (4+q2_M2)*F1V2 - q2_M2*xiF2V2*(1+0.25*q2_M2)
126  -4*q2_M2*F1V*xiF2V - (ml2/M2)*(
127  (F1V2+xiF2V2+2*F1V*xiF2V)+(FA2+4*Fp2+4*FA*Fp)+(q2_M2-4)*Fp2));
128  double B = -1 * q2_M2 * FA*(F1V+xiF2V);
129  double C = 0.25*(FA2 + F1V2 - 0.25*q2_M2*xiF2V2);
130 
131  double xsec = Gfactor * (A + sign*B*s_u/M2 + C*s_u*s_u/M4);
132 
133  // Apply given scaling factor
134  xsec *= fXSecScale;
135 
136 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
137  LOG("LwlynSmith", pDEBUG)
138  << "dXSec[QEL]/dQ2 [FreeN](E = "<< E << ", Q2 = "<< -q2 << ") = "<< xsec;
139  LOG("LwlynSmith", pDEBUG)
140  << "A(Q2) = " << A << ", B(Q2) = " << B << ", C(Q2) = " << C;
141 #endif
142 
143  //----- The algorithm computes dxsec/dQ2
144  // Check whether variable tranformation is needed
145  if(kps!=kPSQ2fE) {
146  double J = utils::kinematics::Jacobian(interaction,kPSQ2fE,kps);
147 
148 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
149  LOG("LwlynSmith", pDEBUG)
150  << "Jacobian for transformation to: "
151  << KinePhaseSpace::AsString(kps) << ", J = " << J;
152 #endif
153  xsec *= J;
154  }
155 
156  //----- if requested return the free nucleon xsec even for input nuclear tgt
157  if( interaction->TestBit(kIAssumeFreeNucleon) ) return xsec;
158 
159  //----- compute nuclear suppression factor
160  // (R(Q2) is adapted from NeuGEN - see comments therein)
161  double R = nuclear::NuclQELXSecSuppression("Default", 0.5, interaction);
162 
163  //----- number of scattering centers in the target
164  int nucpdgc = target.HitNucPdg();
165  int NNucl = (pdg::IsProton(nucpdgc)) ? target.Z() : target.N();
166 
167 #ifdef __GENIE_LOW_LEVEL_MESG_ENABLED__
168  LOG("LwlynSmith", pDEBUG)
169  << "Nuclear suppression factor R(Q2) = " << R << ", NNucl = " << NNucl;
170 #endif
171 
172  xsec *= (R*NNucl); // nuclear xsec
173 
174  return xsec;
175 }
double FullDifferentialXSec(const Interaction *i) const
const double kPi
bool IsNeutrino(int pdgc)
Definition: PDGUtils.cxx:108
const XML_Char * target
Definition: expat.h:268
double J(double q0, double q3, double Enu, double ml)
Definition: MECUtils.cxx:141
int HitNucPdg(void) const
Definition: Target.cxx:321
double HitNucMass(void) const
Definition: Target.cxx:250
Generated/set kinematical variables for an event.
Definition: Kinematics.h:40
double fXSecScale
external xsec scaling factor
Double_t q2[12][num]
Definition: f2_nu.C:137
const double C
virtual bool ValidKinematics(const Interaction *i) const
Is the input kinematical point a physically allowed one?
double q2(bool selected=false) const
Definition: Kinematics.cxx:151
bool IsProton(int pdgc)
Definition: PDGUtils.cxx:299
#define LOG(stream, priority)
A macro that returns the requested log4cpp::Category appending a string (using the FILE...
Definition: Messenger.h:97
Float_t E
Definition: plot.C:20
static string AsString(KinePhaseSpace_t kps)
A Neutrino Interaction Target. Is a transparent encapsulation of quite different physical systems suc...
Definition: Target.h:41
int ProbePdg(void) const
Definition: InitialState.h:65
#define R(x)
int Z(void) const
Definition: Target.h:69
double xiF2V(void) const
Get the computed form factor xi*F2V.
Double_t xsec[nknots]
Definition: testXsec.C:47
#define pWARN
Definition: Messenger.h:61
void Calculate(const Interaction *interaction)
Compute the form factors for the input interaction using the attached model.
static const double A
Definition: Units.h:82
int N(void) const
Definition: Target.h:70
const UInt_t kIAssumeFreeNucleon
Definition: Interaction.h:49
bool ValidProcess(const Interaction *i) const
Can this cross section algorithm handle the input process?
double fCos8c2
cos^2(cabibbo angle)
double Jacobian(const Interaction *const i, KinePhaseSpace_t f, KinePhaseSpace_t t)
Definition: KineUtils.cxx:128
double F1V(void) const
Get the computed form factor F1V.
const Target & Tgt(void) const
Definition: InitialState.h:67
static const double kGF2
Definition: Constants.h:60
double Fp(void) const
Get the computed form factor Fp.
void kinematics()
Definition: kinematics.C:10
double ProbeE(RefFrame_t rf) const
double FA(void) const
Get the computed form factor FA.
def sign(x)
Definition: canMan.py:197
double NuclQELXSecSuppression(string kftable, double pmax, const Interaction *in)
Initial State information.
Definition: InitialState.h:49
#define pDEBUG
Definition: Messenger.h:64

Member Data Documentation

bool genie::Algorithm::fAllowReconfig
protectedinherited
vector<Registry*> genie::Algorithm::fConfVect
protectedinherited

ideally these members should go private Registry will be access only through the GetParam method configurations registries from various sources the order of the vector is the precedence in case of repeated parameters position 0 -> Highest precedence

Definition at line 161 of file Algorithm.h.

double genie::LwlynSmithQELCCPXSec::fCos8c2
private

cos^2(cabibbo angle)

Definition at line 62 of file LwlynSmithQELCCPXSec.h.

Referenced by FullDifferentialXSec(), LoadConfig(), and XSec().

bool genie::LwlynSmithQELCCPXSec::fDoAvgOverNucleonMomentum
private

Average cross section over hit nucleon monentum?

Definition at line 69 of file LwlynSmithQELCCPXSec.h.

Referenced by Integral(), and LoadConfig().

bool genie::LwlynSmithQELCCPXSec::fDoPauliBlocking
private

Whether to apply Pauli blocking in FullDifferentialXSec.

Definition at line 78 of file LwlynSmithQELCCPXSec.h.

Referenced by FullDifferentialXSec(), and LoadConfig().

double genie::LwlynSmithQELCCPXSec::fEnergyCutOff
private

Average only for energies below this cutoff defining the region where nuclear modeling details do matter

Definition at line 70 of file LwlynSmithQELCCPXSec.h.

Referenced by Integral(), and LoadConfig().

QELFormFactors genie::LwlynSmithQELCCPXSec::fFormFactors
mutableprivate

Definition at line 59 of file LwlynSmithQELCCPXSec.h.

Referenced by FullDifferentialXSec(), LoadConfig(), and XSec().

const QELFormFactorsModelI* genie::LwlynSmithQELCCPXSec::fFormFactorsModel
private

Definition at line 60 of file LwlynSmithQELCCPXSec.h.

Referenced by LoadConfig().

AlgId genie::Algorithm::fID
protectedinherited

algorithm name and configuration set

Definition at line 156 of file Algorithm.h.

Referenced by genie::Algorithm::Id().

QELEvGen_BindingMode_t genie::LwlynSmithQELCCPXSec::fIntegralNucleonBindingMode
private

Enum specifying the method to use when calculating the binding energy of the initial hit nucleon during spline generation

Definition at line 75 of file LwlynSmithQELCCPXSec.h.

Referenced by LoadConfig().

bool genie::LwlynSmithQELCCPXSec::fLFG
private

If the nuclear model is lfg alway average over nucleons.

Definition at line 68 of file LwlynSmithQELCCPXSec.h.

Referenced by Integral(), and LoadConfig().

const NuclearModelI* genie::LwlynSmithQELCCPXSec::fNuclModel
private

Definition at line 67 of file LwlynSmithQELCCPXSec.h.

Referenced by Integral(), and LoadConfig().

AlgMap* genie::Algorithm::fOwnedSubAlgMp
protectedinherited

local pool for owned sub-algs (taken out of the factory pool)

Definition at line 167 of file Algorithm.h.

vector<bool> genie::Algorithm::fOwnerships
protectedinherited

ownership for every registry in fConfVect

Definition at line 164 of file Algorithm.h.

bool genie::Algorithm::fOwnsSubstruc
protectedinherited

true if it owns its substructure (sub-algs,...)

Definition at line 155 of file Algorithm.h.

const genie::PauliBlocker* genie::LwlynSmithQELCCPXSec::fPauliBlocker
private

The PauliBlocker instance to use to apply that correction.

Definition at line 80 of file LwlynSmithQELCCPXSec.h.

Referenced by FullDifferentialXSec(), and LoadConfig().

AlgStatus_t genie::Algorithm::fStatus
protectedinherited

algorithm execution status

Definition at line 166 of file Algorithm.h.

Referenced by genie::Algorithm::GetStatus().

const XSecIntegratorI* genie::LwlynSmithQELCCPXSec::fXSecIntegrator
private

Definition at line 61 of file LwlynSmithQELCCPXSec.h.

Referenced by Integral(), and LoadConfig().

double genie::LwlynSmithQELCCPXSec::fXSecScale
private

external xsec scaling factor

Definition at line 64 of file LwlynSmithQELCCPXSec.h.

Referenced by FullDifferentialXSec(), LoadConfig(), and XSec().


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