class Rivet::AxesDefinition

Rivet::AxesDefinition #

Base class for projections which define a spatial basis. More…

#include <AxesDefinition.hh>

Inherits from Rivet::Projection, Rivet::ProjectionApplier

Inherited by Rivet::Sphericity, Rivet::Spherocity, Rivet::Thrust

Public Functions ##

Protected Functions ##

Additional inherited members ##

Public Functions inherited from Rivet::Projection

Protected Functions inherited from Rivet::Projection

Friends inherited from Rivet::Projection

Public Functions inherited from Rivet::ProjectionApplier

Detailed Description ##

class Rivet::AxesDefinition;

Base class for projections which define a spatial basis.

Author: Andy Buckley

A pure virtual interface for projections which define a set of 3 basis vectors. This allows e.g. Thrust and Sphericity to be used interchangeably as defining bases for e.g. hemisphere mass and broadening calculations.

Public Functions Documentation ##

function axis1 ##

virtual const Vector3 & axis1() const =0

Reimplemented by: Rivet::Sphericity::axis1, Rivet::Spherocity::axis1, Rivet::Thrust::axis1

Axis accessors, in decreasing order of significance. The main axis.

function axis2 ##

virtual const Vector3 & axis2() const =0

The 2nd most significant (“major”) axis.

Reimplemented by: Rivet::Sphericity::axis2, Rivet::Spherocity::axis2, Rivet::Thrust::axis2

function axis3 ##

virtual const Vector3 & axis3() const =0

The least significant (“minor”) axis.

Reimplemented by: Rivet::Sphericity::axis3, Rivet::Spherocity::axis3, Rivet::Thrust::axis3

function name ##

inline virtual std::string name() const

Get the name of the projection.

Reimplements: Rivet::ProjectionApplier::name

function valid ##

inline bool valid() const

Get the state of the projetion.

function failed ##

inline bool failed() const

Get the state of the projetion.

function project ##

virtual void project(
    const Event & e
) =0

Reimplemented by: Rivet::MC_SumETFwdPbCentrality::project, Rivet::ALICE::V0Multiplicity::project, Rivet::ALICE::CLMultiplicity::project, Rivet::ALICE::V0Trigger::project, Rivet::ALICE::V0AndTrigger::project, Rivet::Beam::project, Rivet::BeamThrust::project, Rivet::CentralEtHCM::project, Rivet::CentralityProjection::project, Rivet::ChargedFinalState::project, Rivet::DISDiffHadron::project, Rivet::DISFinalState::project, Rivet::DISKinematics::project, Rivet::DISLepton::project, Rivet::DISRapidityGap::project, Rivet::DressedLeptons::project, Rivet::EventMixingBase::project, Rivet::FastJets::project, Rivet::FinalPartons::project, Rivet::FinalState::project, Rivet::FParameter::project, Rivet::GammaGammaFinalState::project, Rivet::GammaGammaKinematics::project, Rivet::GammaGammaLeptons::project, Rivet::GeneratedPercentileProjection::project, Rivet::HadronicFinalState::project, Rivet::HeavyHadrons::project, Rivet::Hemispheres::project, Rivet::HepMCHeavyIon::project, Rivet::IdentifiedFinalState::project, Rivet::ImpactParameterProjection::project, Rivet::InitialQuarks::project, Rivet::InvisibleFinalState::project, Rivet::InvMassFinalState::project, Rivet::JetShape::project, Rivet::LeadingParticlesFinalState::project, Rivet::ConstLossyFinalState::project, Rivet::ConstLossyFinalState::project, Rivet::MergedFinalState::project, Rivet::MissingMomentum::project, Rivet::NeutralFinalState::project, Rivet::NonHadronicFinalState::project, Rivet::NonPromptFinalState::project, Rivet::ParisiTensor::project, Rivet::PercentileProjection::project, Rivet::PrimaryHadrons::project, Rivet::PrimaryParticles::project, Rivet::PromptFinalState::project, Rivet::SmearedJets::project, Rivet::SmearedMET::project, Rivet::SmearedParticles::project, Rivet::Sphericity::project, Rivet::Spherocity::project, Rivet::TauFinder::project, Rivet::Thrust::project, Rivet::TriggerProjection::project, Rivet::UndressBeamLeptons::project, Rivet::UnstableParticles::project, Rivet::UserCentEstimate::project, Rivet::VetoedFinalState::project, Rivet::VisibleFinalState::project, Rivet::WFinder::project, Rivet::ZFinder::project, Rivet::ATLAS::SumET_PB_Centrality::project, Rivet::ATLAS::SumET_PBPB_Centrality::project, Rivet::CentralityEstimator::project, Rivet::GeneratedCentrality::project, Rivet::Correlators::project, Rivet::STAR_BES_Centrality::project, Rivet::BRAHMSCentrality::project, Rivet::JetFinder::project, Rivet::ParticleFinder::project, Rivet::MC_pPbMinBiasTrigger::project, Rivet::PartonicTops::project, Rivet::ATLAS::MinBiasTrigger::project, Rivet::ChargedLeptons::project, Rivet::TriggerCDFRun0Run1::project, Rivet::TriggerCDFRun2::project, Rivet::TriggerUA5::project

Take the information available in the Event and make the calculations necessary to obtain the projection. Note that this function must never be called except inside the Event::applyProjection(Projection *) function.

function compare ##

virtual CmpState compare(
    const Projection & p
) const =0

Reimplemented by: Rivet::Beam::compare, Rivet::TriggerCDFRun0Run1::compare, Rivet::TriggerCDFRun2::compare, Rivet::TriggerProjection::compare, Rivet::TriggerUA5::compare, Rivet::ChargedLeptons::compare, Rivet::MC_SumETFwdPbCentrality::compare, Rivet::MC_pPbMinBiasTrigger::compare, Rivet::ALICE::V0Multiplicity::compare, Rivet::ALICE::CLMultiplicity::compare, Rivet::ALICE::V0Trigger::compare, Rivet::ALICE::V0AndTrigger::compare, Rivet::ALICE::PrimaryParticles::compare, Rivet::BeamThrust::compare, Rivet::CentralEtHCM::compare, Rivet::CentralityProjection::compare, Rivet::ChargedFinalState::compare, Rivet::DISDiffHadron::compare, Rivet::DISFinalState::compare, Rivet::DISKinematics::compare, Rivet::DISLepton::compare, Rivet::DISRapidityGap::compare, Rivet::DressedLeptons::compare, Rivet::EventMixingBase::compare, Rivet::FastJets::compare, Rivet::FinalPartons::compare, Rivet::FParameter::compare, Rivet::GammaGammaFinalState::compare, Rivet::GammaGammaKinematics::compare, Rivet::GammaGammaLeptons::compare, Rivet::GeneratedPercentileProjection::compare, Rivet::HadronicFinalState::compare, Rivet::HeavyHadrons::compare, Rivet::Hemispheres::compare, Rivet::HepMCHeavyIon::compare, Rivet::IdentifiedFinalState::compare, Rivet::ImpactParameterProjection::compare, Rivet::InitialQuarks::compare, Rivet::InvisibleFinalState::compare, Rivet::InvMassFinalState::compare, Rivet::JetShape::compare, Rivet::LeadingParticlesFinalState::compare, Rivet::ConstLossyFinalState::compare, Rivet::ConstLossyFinalState::compare, Rivet::MergedFinalState::compare, Rivet::MissingMomentum::compare, Rivet::NeutralFinalState::compare, Rivet::NonHadronicFinalState::compare, Rivet::NonPromptFinalState::compare, Rivet::ParisiTensor::compare, Rivet::ParticleFinder::compare, Rivet::PartonicTops::compare, Rivet::PercentileProjection::compare, Rivet::PrimaryParticles::compare, Rivet::PromptFinalState::compare, Rivet::SmearedJets::compare, Rivet::SmearedMET::compare, Rivet::SmearedParticles::compare, Rivet::Sphericity::compare, Rivet::Spherocity::compare, Rivet::TauFinder::compare, Rivet::Thrust::compare, Rivet::UndressBeamLeptons::compare, Rivet::UserCentEstimate::compare, Rivet::VetoedFinalState::compare, Rivet::VisibleFinalState::compare, Rivet::WFinder::compare, Rivet::ZFinder::compare, Rivet::ATLAS::SumET_PB_Centrality::compare, Rivet::ATLAS::SumET_PBPB_Centrality::compare, Rivet::ATLAS::MinBiasTrigger::compare, Rivet::CentralityEstimator::compare, Rivet::GeneratedCentrality::compare, Rivet::Correlators::compare, Rivet::STAR_BES_Centrality::compare, Rivet::BRAHMSCentrality::compare, Rivet::JetFinder::compare

This function is used to define a unique ordering between different Projection objects of the same class. If this is considered to be equivalent to the Projector object, p, in the argument the function should return 0. If this object should be ordered before p a negative value should be returned, otherwise a positive value should be returned. This function must never be called explicitly, but should only be called from the operator<(const Projection &). When implementing the function in concrete sub-classes, it is then guaranteed that the Projection object p in the argument is of the same class as the sub-class and can be safely dynamically casted to that class.

When implementing this function in a sub-class, the immediate base class version of the function should be called first. If the base class function returns a non-zero value, that value should be returned immediately. Only if zero is returned should this function check the member variables of the sub-class to determine whether this should be ordered before or after p, or if it is equivalent with p.

function before ##

bool before(
    const Projection & p
) const

Determine whether this object should be ordered before the object p given as argument. If p is of a different class than this, the before() function of the corresponding type_info objects is used. Otherwise, if the objects are of the same class, the virtual compare(const Projection &) will be returned.

function beamPairs ##

virtual const std::set< PdgIdPair > beamPairs() const

Todo: Remove the beam constraints system from projections.

Return the allowed beam pairs on which this projection can operate, not including recursion. Derived classes should ensure that all contained projections are registered in the _projections set for the beam constraint chaining to work.

function addPdgIdPair ##

inline Projection & addPdgIdPair(
    PdgId beam1,
    PdgId beam2
)

Todo: This deserves a better name!

Add a colliding beam pair.

function getProjections ##

inline std::set< ConstProjectionPtr > getProjections() const

Get the contained projections, including recursion.

function hasProjection ##

inline bool hasProjection(
    const std::string & name
) const

Does this applier have a projection registered under the name name?

function getProjection ##

template <typename PROJ >
inline const PROJ & getProjection(
    const std::string & name
) const

Todo: Add SFINAE to require that PROJ inherit from Projection

Get the named projection, specifying return type via a template argument.

function getProjection ##

inline const Projection & getProjection(
    const std::string & name
) const

Get the named projection (non-templated, so returns as a reference to a Projection base class).

function get ##

template <typename PROJ >
inline const PROJ & get(
    const std::string & name
) const

Todo: Add SFINAE to require that PROJ inherit from Projection

Get the named projection, specifying return type via a template argument (user-facing alias).

function applyProjection ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > applyProjection(
    const Event & evt,
    const Projection & proj
) const

Deprecated:

Prefer the simpler apply<> form

Apply the supplied projection on event evt.

function applyProjection ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > applyProjection(
    const Event & evt,
    const PROJ & proj
) const

Deprecated:

Prefer the simpler apply<> form

Apply the supplied projection on event evt.

function applyProjection ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > applyProjection(
    const Event & evt,
    const std::string & name
) const

Deprecated:

Prefer the simpler apply<> form

Apply the named projection on event evt.

function apply ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > apply(
    const Event & evt,
    const Projection & proj
) const

Apply the supplied projection on event evt (user-facing alias).

function apply ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > apply(
    const Event & evt,
    const PROJ & proj
) const

Apply the supplied projection on event evt (user-facing alias).

function apply ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > apply(
    const Event & evt,
    const std::string & name
) const

Apply the supplied projection on event evt (user-facing alias).

function apply ##

template <typename PROJ  =Projection>
inline std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & > apply(
    const std::string & name,
    const Event & evt
) const

Apply the supplied projection on event evt (convenience arg-reordering alias).

function markAsOwned ##

inline void markAsOwned() const

Mark this object as owned by a proj-handler.

function ~AxesDefinition ##

inline virtual ~AxesDefinition()

Virtual destructor.

function clone ##

virtual unique_ptr< Projection > clone() const =0

Clone on the heap.

Reimplements: Rivet::Beam::clone

Protected Functions Documentation ##

function getLog ##

inline Log & getLog() const

Get a Log object based on the getName() property of the calling projection object.

function setName ##

inline void setName(
    const std::string & name
)

Used by derived classes to set their name.

function fail ##

inline void fail()

Set the projection in an unvalid state.

function mkNamedPCmp ##

Cmp< Projection > mkNamedPCmp(
    const Projection & otherparent,
    const std::string & pname
) const

Shortcut to make a named Cmp comparison with the *this object automatically passed as one of the parent projections.

function mkPCmp ##

Cmp< Projection > mkPCmp(
    const Projection & otherparent,
    const std::string & pname
) const

Note: Alias for mkNamedPCmp

Shortcut to make a named Cmp comparison with the *this object automatically passed as one of the parent projections.

function getProjHandler ##

inline ProjectionHandler & getProjHandler() const

Get a reference to the ProjectionHandler for this thread.

function declareProjection ##

template <typename PROJ >
inline const PROJ & declareProjection(
    const PROJ & proj,
    const std::string & name
)

Register a contained projection.

Todo: Add SFINAE to require that PROJ inherit from Projection

The type of the argument is used to instantiate a new projection internally: this new object is applied to events rather than the argument object. Hence you are advised to only use locally-scoped Projection objects in your Projection and Analysis constructors, and to avoid polymorphism (e.g. handling ConcreteProjection via a pointer or reference to type Projection) since this will screw up the internal type management.

function declare ##

template <typename PROJ >
inline const PROJ & declare(
    const PROJ & proj,
    const std::string & name
)

Register a contained projection (user-facing version)

Todo: Add SFINAE to require that PROJ inherit from Projection

function declare ##

template <typename PROJ >
inline const PROJ & declare(
    const std::string & name,
    const PROJ & proj
)

Register a contained projection (user-facing, arg-reordered version)

Todo: Add SFINAE to require that PROJ inherit from Projection

Updated on 2022-08-07 at 20:17:16 +0100