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Herwig 7.3.0
Herwig::LEPEventShapes Class Reference

The LEPEventShapes class performs the analysis of global event shapes and compares with LEP data. More...

#include <LEPEventShapes.h>

Inheritance diagram for Herwig::LEPEventShapes:

Public Member Functions

Virtual functions required by the AnalysisHandler class.
virtual void analyze (tEventPtr event, long ieve, int loop, int state)
 Analyze a given Event.
 
virtual LorentzRotation transform (tEventPtr event) const
 Transform the event to the desired Lorentz frame and return the corresponding LorentzRotation.
 
virtual void analyze (const tPVector &particles)
 Analyze the given vector of particles.
 
virtual void analyze (tEventPtr event, long ieve, int loop, int state)
 
virtual void analyze (const tPVector &particles)
 
virtual void analyze (const tPVector &particles, double weight)
 
virtual void analyze (tPPtr particle)
 
virtual void analyze (tPPtr particle, double weight)
 
virtual void analyze (tEventPtr event, long ieve, int loop, int state)
 
virtual void analyze (const tPVector &particles)
 
virtual void analyze (const tPVector &particles, double weight)
 
virtual void analyze (tPPtr particle)
 
virtual void analyze (tPPtr particle, double weight)
 
- Public Member Functions inherited from ThePEG::AnalysisHandler
virtual void analyze (tEventPtr event, long ieve, int loop, int state)
 
virtual LorentzRotation transform (tEventPtr event) const
 
virtual LorentzRotation transform (tcEventPtr event) const
 
virtual void analyze (const tPVector &particles)
 
virtual void analyze (const tPVector &particles, double weight)
 
virtual void analyze (tPPtr particle)
 
virtual void analyze (tPPtr particle, double weight)
 
bool checkHistogramFactory (bool warn=false) const
 
FactoryBasehistogramFactory ()
 
const FactoryBasehistogramFactory () const
 
AIDA::IHistogramFactory & iHistogramFactory () const
 
void normalize (tH1DPtr h, CrossSection unit=picobarn) const
 
void unitNormalize (tH1DPtr h) const
 
virtual void analyze (tEventPtr event, long ieve, int loop, int state)
 
virtual LorentzRotation transform (tEventPtr event) const
 
virtual LorentzRotation transform (tcEventPtr event) const
 
virtual void analyze (const tPVector &particles)
 
virtual void analyze (const tPVector &particles, double weight)
 
virtual void analyze (tPPtr particle)
 
virtual void analyze (tPPtr particle, double weight)
 
bool checkHistogramFactory (bool warn=false) const
 
FactoryBasehistogramFactory ()
 
const FactoryBasehistogramFactory () const
 
AIDA::IHistogramFactory & iHistogramFactory () const
 
void normalize (tH1DPtr h, CrossSection unit=picobarn) const
 
void unitNormalize (tH1DPtr h) const
 
void persistentOutput (PersistentOStream &os) const
 
void persistentInput (PersistentIStream &is, int version)
 
- Public Member Functions inherited from ThePEG::HandlerBaseT< UseRandom >
double rnd () const
 
double rnd (double xu) const
 
double rnd (double xl, double xu) const
 
bool rndbool () const
 
bool rndbool (double p) const
 
bool rndbool (double p1, double p2) const
 
int rndsign (double p1, double p2, double p3) const
 
int rnd2 (double p0, double p1) const
 
int rnd3 (double p0, double p1, double p2) const
 
int rnd4 (double p0, double p1, double p2, double p3) const
 
long irnd (long xu=2) const
 
long irnd (long xl, long xu) const
 
const StandardModelBaseSM () const
 
tSMPtr standardModel () const
 
- Public Member Functions inherited from ThePEG::Interfaced
virtual bool defaultInit ()
 
PPtr getParticle (PID) const
 
PDPtr getParticleData (PID) const
 
bool used () const
 
void useMe () const
 
tEGPtr generator () const
 
void persistentOutput (PersistentOStream &os) const
 
void persistentInput (PersistentIStream &is, int version)
 
PPtr getParticle (PID) const
 
PDPtr getParticleData (PID) const
 
bool used () const
 
void useMe () const
 
tEGPtr generator () const
 
- Public Member Functions inherited from ThePEG::InterfacedBase
string fullName () const
 
string name () const
 
string path () const
 
string comment () const
 
void setup (istream &is)
 
void update ()
 
void init ()
 
virtual bool preInitialize () const
 
void initrun ()
 
void finish ()
 
void touch ()
 
void reset ()
 
void clear ()
 
InitState state () const
 
bool locked () const
 
bool touched () const
 
virtual IBPtr fullclone () const
 
void persistentOutput (PersistentOStream &os) const
 
void persistentInput (PersistentIStream &is, int version)
 
virtual void debugme () const
 
void update ()
 
void init ()
 
virtual bool preInitialize () const
 
void initrun ()
 
void finish ()
 
void touch ()
 
void reset ()
 
void clear ()
 
InitState state () const
 
bool locked () const
 
bool touched () const
 
virtual IBPtr fullclone () const
 
- Public Member Functions inherited from ThePEG::Base
void debug () const
 
virtual void debugme () const
 
- Public Member Functions inherited from ThePEG::Pointer::ReferenceCounted
CounterType referenceCount () const
 
- Public Member Functions inherited from ThePEG::Named
 Named (const string &newName=string())
 
 Named (const Named &)=default
 
const string & name () const
 
bool operator== (const Named &other) const
 
bool operator< (const Named &other) const
 

Protected Member Functions

Clone Methods.
virtual IBPtr clone () const
 Make a simple clone of this object.
 
virtual IBPtr fullclone () const
 Make a clone of this object, possibly modifying the cloned object to make it sane.
 
virtual IBPtr clone () const
 
virtual IBPtr fullclone () const
 
- Protected Member Functions inherited from ThePEG::Interfaced
void reporeg (IBPtr object, string name) const
 
bool setDefaultReference (PtrT &ptr, string classname, string objectname)
 
 Interfaced (const string &newName)
 
 Interfaced (const Interfaced &i)
 
void setGenerator (tEGPtr generator)
 
- Protected Member Functions inherited from ThePEG::InterfacedBase
virtual void readSetup (istream &is)
 
virtual void doupdate ()
 
virtual void doinit ()
 
virtual void doinitrun ()
 
virtual void dofinish ()
 
virtual IVector getReferences ()
 
virtual void rebind (const TranslationMap &)
 
virtual IBPtr clone () const=0
 
 InterfacedBase (string newName)
 
 InterfacedBase (const InterfacedBase &i)
 
virtual void readSetup (istream &is)
 
virtual void doupdate ()
 
virtual void doinit ()
 
virtual void doinitrun ()
 
virtual void dofinish ()
 
virtual IVector getReferences ()
 
virtual void rebind (const TranslationMap &)
 
- Protected Member Functions inherited from ThePEG::Pointer::ReferenceCounted
 ReferenceCounted (const ReferenceCounted &)
 
ReferenceCountedoperator= (const ReferenceCounted &)
 
- Protected Member Functions inherited from ThePEG::Named
const Namedoperator= (const Named &other)
 
const string & name (const string &newName)
 

Standard Interfaced functions.

HistogramPtr _omthr
 Histogram for \(1-T\) distribution.
 
HistogramPtr _maj
 Histogram for the major distribution.
 
HistogramPtr _min
 Histogram for the minor distribution.
 
HistogramPtr _obl
 Histogram for the oblateness distribution.
 
HistogramPtr _sph
 Histogram for the sphericity distribution.
 
HistogramPtr _apl
 Histogram for the aplanarity distribution.
 
HistogramPtr _pla
 Histogram for the planarity distribution.
 
HistogramPtr _c
 Histogram for the C distribution.
 
HistogramPtr _d
 Histogram for the D distribution.
 
HistogramPtr _mhi
 Histogram for the \(M_{\rm high}\) distribution.
 
HistogramPtr _mlo
 Histogram for the \(M_{\rm low}\) distribution.
 
HistogramPtr _mdiff
 Histogram for the \(M_{\rm high}-M_{\rm low}\) distribution.
 
HistogramPtr _bmax
 Histogram for the \(B_{\rm max}\) distribution.
 
HistogramPtr _bmin
 Histogram for the \(B_{\rm min}\) distribution.
 
HistogramPtr _bsum
 Histogram for the \(B_{\rm max}+B_{\rm min}\) distribution.
 
HistogramPtr _bdiff
 Histogram for the \(B_{\rm max}-B_{\rm min}\) distribution.
 
EventShapesPtr _shapes
 Pointer to the object which calculates the event shapes.
 
virtual void doinitrun ()
 Initialize this object.
 
virtual void dofinish ()
 Finalize this object.
 
LEPEventShapesoperator= (const LEPEventShapes &)=delete
 The assignment operator is private and must never be called.
 

Functions used by the persistent I/O system.

void persistentOutput (PersistentOStream &os) const
 Function used to write out object persistently.
 
void persistentInput (PersistentIStream &is, int version)
 Function used to read in object persistently.
 
static void Init ()
 The standard Init function used to initialize the interfaces.
 

Additional Inherited Members

- Public Types inherited from ThePEG::AnalysisHandler
typedef FactoryBase::tH1DPtr tH1DPtr
 
typedef FactoryBase::tcH1DPtr tcH1DPtr
 
typedef FactoryBase::tH2DPtr tH2DPtr
 
typedef FactoryBase::tcH2DPtr tcH2DPtr
 
- Public Types inherited from ThePEG::InterfacedBase
enum  InitState
 
- Public Types inherited from ThePEG::Pointer::ReferenceCounted
typedef unsigned int CounterType
 
- Static Public Member Functions inherited from ThePEG::AnalysisHandler
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::HandlerBase
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::Interfaced
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::InterfacedBase
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::Base
static void Init ()
 
- Public Attributes inherited from ThePEG::InterfacedBase
 initializing
 
 uninitialized
 
 initialized
 
 runready
 
- Public Attributes inherited from ThePEG::Pointer::ReferenceCounted
const unsigned long uniqueId
 
- Static Protected Member Functions inherited from ThePEG::Interfaced
static void registerRepository (IBPtr)
 
static void registerRepository (IBPtr, string newName)
 

Detailed Description

The LEPEventShapes class performs the analysis of global event shapes and compares with LEP data.

This handler is solely intended as a slave handler for the EventShapesMasterAnalysis class.

See also
The interfaces defined for LEPEventShapes

Definition at line 32 of file LEPEventShapes.h.

Member Function Documentation

◆ analyze() [1/12]

virtual void Herwig::LEPEventShapes::analyze ( const tPVector particles)
virtual

Analyze the given vector of particles.

The default version calls analyze(tPPtr) for each of the particles.

Parameters
particlesthe vector of pointers to particles to be analyzed

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [2/12]

virtual void ThePEG::AnalysisHandler::analyze ( const tPVector particles)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [3/12]

virtual void ThePEG::AnalysisHandler::analyze ( const tPVector particles)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [4/12]

virtual void ThePEG::AnalysisHandler::analyze ( const tPVector particles,
double  weight 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [5/12]

virtual void ThePEG::AnalysisHandler::analyze ( const tPVector particles,
double  weight 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [6/12]

virtual void Herwig::LEPEventShapes::analyze ( tEventPtr  event,
long  ieve,
int  loop,
int  state 
)
virtual

Analyze a given Event.

Note that a fully generated event may be presented several times, if it has been manipulated in between. The default version of this function will call transform to make a lorentz transformation of the whole event, then extract all final state particles and call analyze(tPVector) of this analysis object and those of all associated analysis objects. The default version will not, however, do anything on events which have not been fully generated, or have been manipulated in any way.

Parameters
eventpointer to the Event to be analyzed.
ievethe event number.
loopthe number of times this event has been presented. If negative the event is now fully generated.
statea number different from zero if the event has been manipulated in some way since it was last presented.

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [7/12]

virtual void ThePEG::AnalysisHandler::analyze ( tEventPtr  event,
long  ieve,
int  loop,
int  state 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [8/12]

virtual void ThePEG::AnalysisHandler::analyze ( tEventPtr  event,
long  ieve,
int  loop,
int  state 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [9/12]

virtual void ThePEG::AnalysisHandler::analyze ( tPPtr  particle)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [10/12]

virtual void ThePEG::AnalysisHandler::analyze ( tPPtr  particle)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [11/12]

virtual void ThePEG::AnalysisHandler::analyze ( tPPtr  particle,
double  weight 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ analyze() [12/12]

virtual void ThePEG::AnalysisHandler::analyze ( tPPtr  particle,
double  weight 
)
virtual

Reimplemented from ThePEG::AnalysisHandler.

◆ clone()

virtual IBPtr Herwig::LEPEventShapes::clone ( ) const
inlineprotectedvirtual

Make a simple clone of this object.

Returns
a pointer to the new object.

Reimplemented from ThePEG::AnalysisHandler.

Definition at line 109 of file LEPEventShapes.h.

◆ dofinish()

virtual void Herwig::LEPEventShapes::dofinish ( )
protectedvirtual

Finalize this object.

Called in the run phase just after a run has ended. Used eg. to write out statistics.

Reimplemented from ThePEG::InterfacedBase.

◆ doinitrun()

virtual void Herwig::LEPEventShapes::doinitrun ( )
protectedvirtual

Initialize this object.

Called in the run phase just before a run begins.

Reimplemented from ThePEG::InterfacedBase.

◆ fullclone()

virtual IBPtr Herwig::LEPEventShapes::fullclone ( ) const
inlineprotectedvirtual

Make a clone of this object, possibly modifying the cloned object to make it sane.

Returns
a pointer to the new object.

Reimplemented from ThePEG::AnalysisHandler.

Definition at line 115 of file LEPEventShapes.h.

◆ Init()

static void Herwig::LEPEventShapes::Init ( )
static

The standard Init function used to initialize the interfaces.

Called exactly once for each class by the class description system before the main function starts or when this class is dynamically loaded.

◆ operator=()

LEPEventShapes & Herwig::LEPEventShapes::operator= ( const LEPEventShapes )
privatedelete

The assignment operator is private and must never be called.

In fact, it should not even be implemented.

◆ persistentInput()

void Herwig::LEPEventShapes::persistentInput ( PersistentIStream is,
int  version 
)

Function used to read in object persistently.

Parameters
isthe persistent input stream read from.
versionthe version number of the object when written.

◆ persistentOutput()

void Herwig::LEPEventShapes::persistentOutput ( PersistentOStream os) const

Function used to write out object persistently.

Parameters
osthe persistent output stream written to.

◆ transform()

virtual LorentzRotation Herwig::LEPEventShapes::transform ( tEventPtr  event) const
virtual

Transform the event to the desired Lorentz frame and return the corresponding LorentzRotation.

Parameters
eventa pointer to the Event to be transformed.
Returns
the LorentzRotation used in the transformation.

Reimplemented from ThePEG::AnalysisHandler.

Member Data Documentation

◆ _apl

HistogramPtr Herwig::LEPEventShapes::_apl
private

Histogram for the aplanarity distribution.

Definition at line 173 of file LEPEventShapes.h.

◆ _bdiff

HistogramPtr Herwig::LEPEventShapes::_bdiff
private

Histogram for the \(B_{\rm max}-B_{\rm min}\) distribution.

Definition at line 223 of file LEPEventShapes.h.

◆ _bmax

HistogramPtr Herwig::LEPEventShapes::_bmax
private

Histogram for the \(B_{\rm max}\) distribution.

Definition at line 208 of file LEPEventShapes.h.

◆ _bmin

HistogramPtr Herwig::LEPEventShapes::_bmin
private

Histogram for the \(B_{\rm min}\) distribution.

Definition at line 213 of file LEPEventShapes.h.

◆ _bsum

HistogramPtr Herwig::LEPEventShapes::_bsum
private

Histogram for the \(B_{\rm max}+B_{\rm min}\) distribution.

Definition at line 218 of file LEPEventShapes.h.

◆ _c

HistogramPtr Herwig::LEPEventShapes::_c
private

Histogram for the C distribution.

Definition at line 183 of file LEPEventShapes.h.

◆ _d

HistogramPtr Herwig::LEPEventShapes::_d
private

Histogram for the D distribution.

Definition at line 188 of file LEPEventShapes.h.

◆ _maj

HistogramPtr Herwig::LEPEventShapes::_maj
private

Histogram for the major distribution.

Definition at line 153 of file LEPEventShapes.h.

◆ _mdiff

HistogramPtr Herwig::LEPEventShapes::_mdiff
private

Histogram for the \(M_{\rm high}-M_{\rm low}\) distribution.

Definition at line 203 of file LEPEventShapes.h.

◆ _mhi

HistogramPtr Herwig::LEPEventShapes::_mhi
private

Histogram for the \(M_{\rm high}\) distribution.

Definition at line 193 of file LEPEventShapes.h.

◆ _min

HistogramPtr Herwig::LEPEventShapes::_min
private

Histogram for the minor distribution.

Definition at line 158 of file LEPEventShapes.h.

◆ _mlo

HistogramPtr Herwig::LEPEventShapes::_mlo
private

Histogram for the \(M_{\rm low}\) distribution.

Definition at line 198 of file LEPEventShapes.h.

◆ _obl

HistogramPtr Herwig::LEPEventShapes::_obl
private

Histogram for the oblateness distribution.

Definition at line 163 of file LEPEventShapes.h.

◆ _omthr

HistogramPtr Herwig::LEPEventShapes::_omthr
private

Histogram for \(1-T\) distribution.

Definition at line 148 of file LEPEventShapes.h.

◆ _pla

HistogramPtr Herwig::LEPEventShapes::_pla
private

Histogram for the planarity distribution.

Definition at line 178 of file LEPEventShapes.h.

◆ _shapes

EventShapesPtr Herwig::LEPEventShapes::_shapes
private

Pointer to the object which calculates the event shapes.

Definition at line 228 of file LEPEventShapes.h.

◆ _sph

HistogramPtr Herwig::LEPEventShapes::_sph
private

Histogram for the sphericity distribution.

Definition at line 168 of file LEPEventShapes.h.


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