class Rivet::PromptFinalState

Rivet::PromptFinalState

Find final state particles directly connected to the hard process. More…

#include <PromptFinalState.hh>

Inherits from Rivet::FinalState, Rivet::ParticleFinder, Rivet::Projection, Rivet::ProjectionApplier

Public Types

Name
typedef Particleentity_type
typedef Particlescollection_type

Public Functions

Name
PromptFinalState(bool accepttaudecays =false, bool acceptmudecays =false)
Constructor without cuts.
PromptFinalState(const Cut & c, bool accepttaudecays =false, bool acceptmudecays =false)
Constructor from a Cut.
PromptFinalState(const FinalState & fsp, bool accepttaudecays =false, bool acceptmudecays =false)
DEFAULT_RIVET_PROJ_CLONE(PromptFinalState )
Clone on the heap.
voidacceptMuonDecays(bool acc =true)
Accept leptons from decays of prompt muons as themselves being prompt?
voidacceptTauDecays(bool acc =true)
Accept leptons from decays of prompt taus as themselves being prompt?
virtual voidproject(const Event & e)
Apply the projection on the supplied event.
virtual CmpStatecompare(const Projection & p) const
Compare projections.
DEFAULT_RIVET_PROJ_CLONE(FinalState )
Clone on the heap.
virtual boolaccept(const Particle & p) const
virtual unique_ptr< Projection >clone() const =0
Clone on the heap.
size_tsize() const
Count the final-state particles.
size_tsize(const Cut & c) const
Count the final-state particles after a Cut is applied.
size_tsize(const ParticleSelector & s) const
Count the final-state particles after a selection functor is applied.
boolempty() const
Is this final state empty?
boolempty(const Cut & c) const
Is this final state empty after a Cut is applied?
boolempty(const ParticleSelector & s) const
Is this final state empty after a selection functor is applied?
virtual const Particles &particles() const
Get the particles in no particular order, with no cuts.
Particlesparticles(const Cut & c) const
Get the particles with selection cuts.
Particlesparticles(const ParticleSelector & selector) const
Get the particles with selection cuts via a functor.
Particlesparticles(const ParticleSorter & sorter, const Cut & c =Cuts::open()) const
Particlesparticles(const Cut & c, const ParticleSorter & sorter) const
Particlesparticles(const ParticleSelector & selector, const ParticleSorter & sorter) const
Particlesparticles(const ParticleSorter & sorter, const ParticleSelector & selector) const
ParticlesrawParticles() const
ParticlesparticlesByPt(const Cut & c =Cuts::open()) const
ParticlesparticlesByPt(const ParticleSelector & selector) const
ParticlesparticlesByPt(double ptmin) const
const collection_type &entities() const
Template-usable interface common to JetAlg.
virtual std::stringname() const
Get the name of the projection.
boolvalid() const
Get the state of the projetion.
boolfailed() const
Get the state of the projetion.
boolbefore(const Projection & p) const
virtual const std::set< PdgIdPair >beamPairs() const
Projection &addPdgIdPair(PdgId beam1, PdgId beam2)
std::set< ConstProjectionPtr >getProjections() const
Get the contained projections, including recursion.
boolhasProjection(const std::string & name) const
Does this applier have a projection registered under the name name?
template <typename PROJ >
const PROJ &
getProjection(const std::string & name) const
const Projection &getProjection(const std::string & name) const
template <typename PROJ >
const PROJ &
get(const std::string & name) const
template
std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & >
applyProjection(const Event & evt, const Projection & proj) const
template
std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & >
applyProjection(const Event & evt, const PROJ & proj) const
template
std::enable_if_t< std::is_base_of< Projection, PROJ >::value, const PROJ & >
applyProjection(const Event & evt, const std::string & name) const
template
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).
template
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).
template
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).
template
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).
voidmarkAsOwned() const
Mark this object as owned by a proj-handler.

Protected Functions

Name
Log &getLog() const
Get a Log object based on the getName() property of the calling projection object.
voidsetName(const std::string & name)
Used by derived classes to set their name.
voidfail()
Set the projection in an unvalid state.
Cmp< Projection >mkNamedPCmp(const Projection & otherparent, const std::string & pname) const
Cmp< Projection >mkPCmp(const Projection & otherparent, const std::string & pname) const
ProjectionHandler &getProjHandler() const
Get a reference to the ProjectionHandler for this thread.
template <typename PROJ >
const PROJ &
declareProjection(const PROJ & proj, const std::string & name)
Register a contained projection.
template <typename PROJ >
const PROJ &
declare(const PROJ & proj, const std::string & name)
Register a contained projection (user-facing version)
template <typename PROJ >
const PROJ &
declare(const std::string & name, const PROJ & proj)
Register a contained projection (user-facing, arg-reordered version)

Additional inherited members

Public Functions inherited from Rivet::FinalState

Name
FinalState(const Cut & c =Cuts::open())
Construction using Cuts object.
FinalState(const FinalState & fsp, const Cut & c)
Construction using another FinalState and a Cuts object.

Public Functions inherited from Rivet::ParticleFinder

Name
ParticleFinder(const Cut & c =Cuts::OPEN)
Construction using Cuts object.
virtual~ParticleFinder()
Virtual destructor for inheritance.

Public Functions inherited from Rivet::Projection

Name
Projection()
The default constructor.
virtual~Projection()
The destructor.

Protected Functions inherited from Rivet::Projection

Name
virtual Projection &operator=(const Projection & )
Block Projection copying.

Friends inherited from Rivet::Projection

Name
classEvent
Event is a friend.
classCmp< Projection >
The Cmp specialization for Projection is a friend.

Public Functions inherited from Rivet::ProjectionApplier

Name
ProjectionApplier()
Constructor.
virtual~ProjectionApplier()

Detailed Description

class Rivet::PromptFinalState;

Find final state particles directly connected to the hard process.

Todo:

  • Decide how to treat brem photons off prompt leptons – are they also prompt? “Decay” does not change the lepton PID…
  • Use enums for tau, mu, brem

The definition of “prompt” used in Rivet is that from high-scale physics, i.e. particles directly connected to the hard process in an interaction, regardless of realistic reconstructibility of displaced vertices, etc. By construction hadrons cannot be considered prompt as they will be colour connected to other parts of the event through non-perturbative effects: this projection can return electrons, muons, photons, and exotic particles which do not have a hadron in their post-hadronization ancestor chain. Flags exist to choose whether intermediate tau or muon decays invalidate a particle’s promptness.

Public Types Documentation

typedef entity_type

typedef Particle Rivet::ParticleFinder::entity_type;

typedef collection_type

typedef Particles Rivet::ParticleFinder::collection_type;

Public Functions Documentation

function PromptFinalState

PromptFinalState(
    bool accepttaudecays =false,
    bool acceptmudecays =false
)

Constructor without cuts.

function PromptFinalState

PromptFinalState(
    const Cut & c,
    bool accepttaudecays =false,
    bool acceptmudecays =false
)

Constructor from a Cut.

function PromptFinalState

PromptFinalState(
    const FinalState & fsp,
    bool accepttaudecays =false,
    bool acceptmudecays =false
)

function DEFAULT_RIVET_PROJ_CLONE

DEFAULT_RIVET_PROJ_CLONE(
    PromptFinalState 
)

Clone on the heap.

function acceptMuonDecays

inline void acceptMuonDecays(
    bool acc =true
)

Accept leptons from decays of prompt muons as themselves being prompt?

function acceptTauDecays

inline void acceptTauDecays(
    bool acc =true
)

Accept leptons from decays of prompt taus as themselves being prompt?

function project

virtual void project(
    const Event & e
)

Apply the projection on the supplied event.

Reimplements: Rivet::FinalState::project

function compare

virtual CmpState compare(
    const Projection & p
) const

Compare projections.

Reimplements: Rivet::FinalPartons::compare

function DEFAULT_RIVET_PROJ_CLONE

DEFAULT_RIVET_PROJ_CLONE(
    FinalState 
)

Clone on the heap.

function accept

virtual bool accept(
    const Particle & p
) const

Todo: Rename to _accept or acceptFinal?

Reimplemented by: Rivet::FinalPartons::accept

Decide if a particle is to be accepted or not.

function clone

virtual unique_ptr< Projection > clone() const =0

Clone on the heap.

Reimplements: Rivet::Beam::clone

Reimplemented by: Rivet::ALICE::PrimaryParticles::clone

function size

inline size_t size() const

Count the final-state particles.

function size

inline size_t size(
    const Cut & c
) const

Count the final-state particles after a Cut is applied.

function size

inline size_t size(
    const ParticleSelector & s
) const

Count the final-state particles after a selection functor is applied.

function empty

inline bool empty() const

Is this final state empty?

function empty

inline bool empty(
    const Cut & c
) const

Is this final state empty after a Cut is applied?

function empty

inline bool empty(
    const ParticleSelector & s
) const

Is this final state empty after a selection functor is applied?

function particles

inline virtual const Particles & particles() const

Get the particles in no particular order, with no cuts.

function particles

inline Particles particles(
    const Cut & c
) const

Get the particles with selection cuts.

Note: Returns a copy rather than a reference, due to the cuts.

function particles

inline Particles particles(
    const ParticleSelector & selector
) const

Get the particles with selection cuts via a functor.

Note: Returns a copy rather than a reference, due to the cuts.

function particles

inline Particles particles(
    const ParticleSorter & sorter,
    const Cut & c =Cuts::open()
) const

Note: Returns a copy rather than a reference, due to cuts and sorting.

Get the particles, ordered by supplied sorting function object

function particles

inline Particles particles(
    const Cut & c,
    const ParticleSorter & sorter
) const

Note: Returns a copy rather than a reference, due to cuts and sorting.

Get the particles, ordered by supplied sorting function object

function particles

inline Particles particles(
    const ParticleSelector & selector,
    const ParticleSorter & sorter
) const

Note: Returns a copy rather than a reference, due to cuts and sorting.

Get the particles, ordered by a sorting functor and filtered by a selection functor

function particles

inline Particles particles(
    const ParticleSorter & sorter,
    const ParticleSelector & selector
) const

Note: Returns a copy rather than a reference, due to cuts and sorting.

Get the particles, ordered by a sorting functor and filtered by a selection functor

function rawParticles

inline Particles rawParticles() const

Note: Raw particles are the final-state constituents, as opposed to potentially composite particles returned as the finder’s particles()

Get the raw particles in no particular order, with no cuts

function particlesByPt

inline Particles particlesByPt(
    const Cut & c =Cuts::open()
) const

Get the particles, ordered by decreasing ( p_T ) and with optional cuts

This is a very common use-case, so is available as syntatic sugar for particles(c, cmpMomByPt).

function particlesByPt

inline Particles particlesByPt(
    const ParticleSelector & selector
) const

Get the particles, ordered by decreasing ( p_T ) and with optional cuts

This is a very common use-case, so is available as syntatic sugar for particles(f, cmpMomByPt).

function particlesByPt

inline Particles particlesByPt(
    double ptmin
) const

Get the particles, ordered by decreasing ( p_T ) and with a cut on minimum ( p_T )

This is a very common use-case, so is available as syntatic sugar for particles(Cuts::pT >= ptmin, cmpMomByPt).

function entities

inline const collection_type & entities() const

Template-usable interface common to JetAlg.

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 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.

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 20:17:17 +0100