class Rivet::Spherocity
Rivet::Spherocity
Get the transverse spherocity scalars for hadron-colliders. More…
#include <Spherocity.hh>
Inherits from Rivet::AxesDefinition, Rivet::Projection, Rivet::ProjectionApplier
Public Functions
Name | |
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double | spherocity() const The spherocity scalar, ( S ), (minimum spherocity). |
const Vector3 & | spherocityAxis() const The spherocity axis. |
const Vector3 & | spherocityMajorAxis() const The spherocity major axis (axis of max spherocity perpendicular to spherocity axis). |
const Vector3 & | spherocityMinorAxis() const The spherocity minor axis (axis perpendicular to spherocity and spherocity major). |
virtual const Vector3 & | axis1() const |
virtual const Vector3 & | axis2() const The 2nd most significant (“major”) axis. |
virtual const Vector3 & | axis3() const The least significant (“minor”) axis. |
void | calc(const FinalState & fs) Manually calculate the spherocity, without engaging the caching system. |
void | calc(const vector< Particle > & fsparticles) Manually calculate the spherocity, without engaging the caching system. |
void | calc(const vector< FourMomentum > & fsmomenta) Manually calculate the spherocity, without engaging the caching system. |
void | calc(const vector< Vector3 > & threeMomenta) Manually calculate the spherocity, without engaging the caching system. |
virtual std::string | name() const Get the name of the projection. |
bool | valid() const Get the state of the projetion. |
bool | failed() const Get the state of the projetion. |
bool | before(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. |
bool | hasProjection(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). |
void | markAsOwned() const Mark this object as owned by a proj-handler. |
Spherocity() | |
Spherocity(const FinalState & fsp) Constructor. | |
DEFAULT_RIVET_PROJ_CLONE(Spherocity ) Clone on the heap. | |
virtual unique_ptr< Projection > | clone() const =0 Clone on the heap. |
Protected Functions
Name | |
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Log & | getLog() const Get a Log object based on the getName() property of the calling projection object. |
void | setName(const std::string & name) Used by derived classes to set their name. |
void | fail() 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) |
virtual void | project(const Event & e) Perform the projection on the Event. |
virtual CmpState | compare(const Projection & p) const Compare projections. |
Additional inherited members
Public Functions inherited from Rivet::AxesDefinition
Name | |
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virtual | ~AxesDefinition() Virtual destructor. |
Public Functions inherited from Rivet::Projection
Name | |
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Projection() The default constructor. | |
virtual | ~Projection() The destructor. |
Protected Functions inherited from Rivet::Projection
Name | |
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virtual Projection & | operator=(const Projection & ) Block Projection copying. |
Friends inherited from Rivet::Projection
Name | |
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class | Event Event is a friend. |
class | Cmp< Projection > The Cmp specialization for Projection is a friend. |
Public Functions inherited from Rivet::ProjectionApplier
Name | |
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ProjectionApplier() Constructor. | |
virtual | ~ProjectionApplier() |
Detailed Description
class Rivet::Spherocity;
Get the transverse spherocity scalars for hadron-colliders.
Author: Holger Schulz
The scalar (minimum) transverse spherocity is defined as [ S = \frac{\pi^2}{4} \mathrm{min}{\vec{n}\perp} \left( \frac{\sum_i \left|\vec{p}{\perp,i} \times \vec{n}\perp \right|}{\sum_i |\vec{p}{\perp,i}|} \right)^2 ], with the direction of the unit vector ( \vec{n\perp} ) which minimises ( T ) being identified as the spherocity axis. The unit vector which maximises the spherocity scalar in the plane perpendicular to ( \vec{n} ) is the “spherocity major” direction, and the vector perpendicular to both the spherocity and spherocity major directions is the spherocity minor. Both the major and minor directions have associated spherocity scalars.
Care must be taken in the case of Drell-Yan processes - there we should use the newly proposed observable ( a_T ).
Public Functions Documentation
function spherocity
inline double spherocity() const
The spherocity scalar, ( S ), (minimum spherocity).
function spherocityAxis
inline const Vector3 & spherocityAxis() const
The spherocity axis.
function spherocityMajorAxis
inline const Vector3 & spherocityMajorAxis() const
The spherocity major axis (axis of max spherocity perpendicular to spherocity axis).
function spherocityMinorAxis
inline const Vector3 & spherocityMinorAxis() const
The spherocity minor axis (axis perpendicular to spherocity and spherocity major).
function axis1
inline virtual const Vector3 & axis1() const
Reimplements: Rivet::AxesDefinition::axis1
Axis accessors, in decreasing order of significance. The main axis.
function axis2
inline virtual const Vector3 & axis2() const
The 2nd most significant (“major”) axis.
Reimplements: Rivet::AxesDefinition::axis2
function axis3
inline virtual const Vector3 & axis3() const
The least significant (“minor”) axis.
Reimplements: Rivet::AxesDefinition::axis3
function calc
void calc(
const FinalState & fs
)
Manually calculate the spherocity, without engaging the caching system.
function calc
void calc(
const vector< Particle > & fsparticles
)
Manually calculate the spherocity, without engaging the caching system.
function calc
void calc(
const vector< FourMomentum > & fsmomenta
)
Manually calculate the spherocity, without engaging the caching system.
function calc
void calc(
const vector< Vector3 > & threeMomenta
)
Manually calculate the spherocity, without engaging the caching system.
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.
function Spherocity
inline Spherocity()
function Spherocity
inline Spherocity(
const FinalState & fsp
)
Constructor.
function DEFAULT_RIVET_PROJ_CLONE
DEFAULT_RIVET_PROJ_CLONE(
Spherocity
)
Clone on the heap.
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*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*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
function project
inline virtual void project(
const Event & e
)
Perform the projection on the Event.
Reimplements: Rivet::AxesDefinition::project
function compare
inline virtual CmpState compare(
const Projection & p
) const
Compare projections.
Reimplements: Rivet::AxesDefinition::compare
Updated on 2022-08-07 at 20:17:17 +0100