PYTHIA  8.303
Classes | Public Member Functions | List of all members
MBReconUserHooks Class Reference

Class for colour reconnection models of general validity. More...

#include <ColourReconnectionHooks.h>

Inheritance diagram for MBReconUserHooks:
UserHooks PhysicsBase

Public Member Functions

 MBReconUserHooks (int modeIn=0, int flipIn=0, double dLamCutIn=0., double fracGluonIn=1.)
 
virtual bool canReconnectResonanceSystems ()
 Allow colour reconnection after resonance decays (early or late)...
 
virtual bool doReconnectResonanceSystems (int, Event &event)
 ...which gives access to the event, for modification. More...
 
- Public Member Functions inherited from UserHooks
virtual ~UserHooks ()
 Destructor.
 
virtual bool initAfterBeams ()
 Initialisation after beams have been set by Pythia::init().
 
virtual bool canModifySigma ()
 Possibility to modify cross section of process.
 
virtual double multiplySigmaBy (const SigmaProcess *sigmaProcessPtr, const PhaseSpace *phaseSpacePtr, bool inEvent)
 Multiplicative factor modifying the cross section of a hard process. More...
 
virtual bool canBiasSelection ()
 Possibility to bias selection of events, compensated by a weight.
 
virtual double biasSelectionBy (const SigmaProcess *sigmaProcessPtr, const PhaseSpace *phaseSpacePtr, bool inEvent)
 Multiplicative factor in the phase space selection of a hard process. More...
 
virtual double biasedSelectionWeight ()
 Event weight to compensate for selection weight above.
 
virtual bool canVetoProcessLevel ()
 Possibility to veto event after process-level selection.
 
virtual bool doVetoProcessLevel (Event &)
 
virtual bool canVetoResonanceDecays ()
 Possibility to veto resonance decay chain.
 
virtual bool doVetoResonanceDecays (Event &)
 
virtual bool canVetoPT ()
 
virtual double scaleVetoPT ()
 Transverse-momentum scale for veto test.
 
virtual bool doVetoPT (int, const Event &)
 
virtual bool canVetoStep ()
 
virtual int numberVetoStep ()
 Up to how many ISR + FSR steps of hardest interaction should be checked.
 
virtual bool doVetoStep (int, int, int, const Event &)
 
virtual bool canVetoMPIStep ()
 
virtual int numberVetoMPIStep ()
 Up to how many MPI steps should be checked.
 
virtual bool doVetoMPIStep (int, const Event &)
 
virtual bool canVetoPartonLevelEarly ()
 
virtual bool doVetoPartonLevelEarly (const Event &)
 
virtual bool retryPartonLevel ()
 
virtual bool canVetoPartonLevel ()
 Possibility to veto event after parton-level selection.
 
virtual bool doVetoPartonLevel (const Event &)
 
virtual bool canSetResonanceScale ()
 Possibility to set initial scale in TimeShower for resonance decay.
 
virtual double scaleResonance (int, const Event &)
 
virtual bool canVetoISREmission ()
 Possibility to veto an emission in the ISR machinery.
 
virtual bool doVetoISREmission (int, const Event &, int)
 
virtual bool canVetoFSREmission ()
 Possibility to veto an emission in the FSR machinery.
 
virtual bool doVetoFSREmission (int, const Event &, int, bool=false)
 
virtual bool canVetoMPIEmission ()
 Possibility to veto an MPI.
 
virtual bool doVetoMPIEmission (int, const Event &)
 
virtual bool canEnhanceEmission ()
 Enhance emission rates (sec. 4 in EPJC (2013) 73).
 
virtual double enhanceFactor (string)
 
virtual double vetoProbability (string)
 
void setEnhancedEventWeight (double wt)
 
double getEnhancedEventWeight ()
 
virtual bool canEnhanceTrial ()
 
void setEnhancedTrial (double pTIn, double wtIn)
 
double getEnhancedTrialPT ()
 
double getEnhancedTrialWeight ()
 
virtual bool canChangeFragPar ()
 Can change fragmentation parameters.
 
virtual void setStringEnds (const StringEnd *, const StringEnd *, vector< int >)
 
virtual bool doChangeFragPar (StringFlav *, StringZ *, StringPT *, int, double, vector< int >, const StringEnd *)
 
virtual bool doVetoFragmentation (Particle, const StringEnd *)
 
virtual bool doVetoFragmentation (Particle, Particle, const StringEnd *, const StringEnd *)
 
virtual bool canSetImpactParameter () const
 Can set the overall impact parameter for the MPI treatment.
 
virtual double doSetImpactParameter ()
 Set the overall impact parameter for the MPI treatment.
 
- Public Member Functions inherited from PhysicsBase
void initInfoPtr (Info &infoPtrIn)
 This function is called from above for physics objects used in a run. More...
 
virtual ~PhysicsBase ()
 Empty virtual destructor.
 
bool flag (string key) const
 Shorthand to read settings values.
 
int mode (string key) const
 
double parm (string key) const
 
string word (string key) const
 

Additional Inherited Members

- Public Types inherited from PhysicsBase
enum  Status {
  INCOMPLETE = -1, COMPLETE = 0, CONSTRUCTOR_FAILED, INIT_FAILED,
  LHEF_END, LOWENERGY_FAILED, PROCESSLEVEL_FAILED, PROCESSLEVEL_USERVETO,
  MERGING_FAILED, PARTONLEVEL_FAILED, PARTONLEVEL_USERVETO, HADRONLEVEL_FAILED,
  CHECK_FAILED, OTHER_UNPHYSICAL, HEAVYION_FAILED
}
 Enumerate the different status codes the event generation can have.
 
- Protected Member Functions inherited from UserHooks
 UserHooks ()
 Constructor.
 
virtual void onInitInfoPtr () override
 After initInfoPtr, initialize workEvent. More...
 
void omitResonanceDecays (const Event &process, bool finalOnly=false)
 omitResonanceDecays omits resonance decay chains from process record. More...
 
void subEvent (const Event &event, bool isHardest=true)
 subEvent extracts currently resolved partons in the hard process. More...
 
- Protected Member Functions inherited from PhysicsBase
 PhysicsBase ()
 Default constructor.
 
virtual void onBeginEvent ()
 This function is called in the very beginning of each Pythia::next call.
 
virtual void onEndEvent (Status)
 
virtual void onStat ()
 This function is called from the Pythia::stat() call.
 
void registerSubObject (PhysicsBase &pb)
 Register a sub object that should have its information in sync with this.
 
- Protected Attributes inherited from UserHooks
Event workEvent = {}
 Have one event object around as work area.
 
double selBias = 1.
 User-imposed selection bias.
 
double enhancedEventWeight = {}
 Bookkept quantities for boosted event weights.
 
double pTEnhanced = {}
 
double wtEnhanced = {}
 
- Protected Attributes inherited from PhysicsBase
InfoinfoPtr = {}
 
SettingssettingsPtr = {}
 Pointer to the settings database.
 
ParticleDataparticleDataPtr = {}
 Pointer to the particle data table.
 
HadronWidthshadronWidthsPtr = {}
 Pointer to the hadron widths data table.
 
RndmrndmPtr = {}
 Pointer to the random number generator.
 
CoupSMcoupSMPtr = {}
 Pointers to SM and SUSY couplings.
 
CoupSUSYcoupSUSYPtr = {}
 
BeamParticlebeamAPtr = {}
 
BeamParticlebeamBPtr = {}
 
BeamParticlebeamPomAPtr = {}
 
BeamParticlebeamPomBPtr = {}
 
BeamParticlebeamGamAPtr = {}
 
BeamParticlebeamGamBPtr = {}
 
BeamParticlebeamVMDAPtr = {}
 
BeamParticlebeamVMDBPtr = {}
 
PartonSystemspartonSystemsPtr = {}
 Pointer to information on subcollision parton locations.
 
SigmaTotalsigmaTotPtr = {}
 Pointer to the total/elastic/diffractive cross sections.
 
set< PhysicsBase * > subObjects
 
UserHooksPtr userHooksPtr
 

Detailed Description

Class for colour reconnection models of general validity.

Constructor & Destructor Documentation

MBReconUserHooks ( int  modeIn = 0,
int  flipIn = 0,
double  dLamCutIn = 0.,
double  fracGluonIn = 1. 
)
inline

Constructor and destructor. mode = 0: no reconnection (dummy option, does nothing); = 1: swap gluons to minimize lambda. = 2: move gluons to minimize lambda. flip = 0: no flip between quark-antiquark ends. = 1: flip between quark-antiquark ends, excluding junction systems. = 2: flip between quark-antiquark ends, including junction systems. dLamCut: smallest -delta-lambda value for which to swap/mode (positive). fracGluon: the fraction of gluons that will be studied for reconnection. m2Ref : squared reference mass scale for lambda measure calculation.

Member Function Documentation

virtual bool doReconnectResonanceSystems ( int  ,
Event event 
)
inlinevirtual

...which gives access to the event, for modification.

Return without action for relevant mode numbers.

Double diffraction not yet implemented, so return without action. (But works for internal move implementation.)

Initial setup: relevant gluons and coloured partons.

Done if not enough gluons.

Colour reconnect. Return if failed.

Colour flip afterburner.

Reimplemented from UserHooks.


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