fastjet

package
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Published: Nov 13, 2019 License: BSD-3-Clause, BSD-3-Clause Imports: 5 Imported by: 0

README

fastjet

GoDoc

Simple Go-based implementation of the C++ FastJet library.

Documentation

Overview

Package fastjet is a Go-based implementation of the C++ FastJet library.

Index

Constants

View Source
const (
	N2MinHeapTiledStrategy Strategy = -4
	N2TiledStrategy                 = -3
	N2PoorTiledStrategy             = -2
	N2PlainStrategy                 = -1
	N3DumbStrategy                  = 0
	BestStrategy                    = 1
	NlnNStrategy                    = 2
	NlnN3piStrategy                 = 3
	NlnN4piStrategy                 = 4
	NlnNCam4piStrategy              = 14
	NlnNCam2pi2RStrategy            = 13
	NlnNCamStrategy                 = 12

	PluginStrategy Strategy = 999
)
View Source
const (
	// Used to protect against parton-level events where pt can be zero
	// for some partons, giving rapidity=infinity. KtJet fails in those cases.
	MaxRap = 1e5
)

Variables

This section is empty.

Functions

func Distance

func Distance(j1, j2 *Jet) float64

Distance returns the squared cylinder (rapidity-phi) distance between 2 jets

func Register

func Register(name string, plugin Plugin)

Types

type AreaDefinition

type AreaDefinition struct{}

type Builder

type Builder interface {
	// InclusiveJets returns all jets (in the sense of
	// the inclusive algorithm) with pt >= ptmin
	InclusiveJets(ptmin float64) ([]Jet, error)

	// Constituents retrieves the constituents of a jet
	Constituents(jet *Jet) ([]Jet, error)
}

Builder builds jets out of 4-vectors

type ByPt

type ByPt []Jet

ByPt sorts jets by descending Pt

func (ByPt) Len

func (p ByPt) Len() int

func (ByPt) Less

func (p ByPt) Less(i, j int) bool

func (ByPt) Swap

func (p ByPt) Swap(i, j int)

type ClusterSequence

type ClusterSequence struct {
	// contains filtered or unexported fields
}

func NewClusterSequence

func NewClusterSequence(jets []Jet, def JetDefinition) (*ClusterSequence, error)

func (*ClusterSequence) Constituents

func (cs *ClusterSequence) Constituents(jet *Jet) ([]Jet, error)

Constituents retrieves the list of constituents of a given jet

func (*ClusterSequence) ExclusiveJets

func (cs *ClusterSequence) ExclusiveJets(dcut float64) ([]Jet, error)

func (*ClusterSequence) ExclusiveJetsUpTo

func (cs *ClusterSequence) ExclusiveJetsUpTo(njets int) ([]Jet, error)

func (*ClusterSequence) InclusiveJets

func (cs *ClusterSequence) InclusiveJets(ptmin float64) ([]Jet, error)

func (*ClusterSequence) NumExclusiveJets

func (cs *ClusterSequence) NumExclusiveJets(dcut float64) int

NumExclusiveJets returns the number of exclusive jets that would have been obtained running the algorithm in exclusive mode with the given dcut

type ClusterSequenceArea

type ClusterSequenceArea struct {
	// contains filtered or unexported fields
}

func NewClusterSequenceArea

func NewClusterSequenceArea(jets []Jet, def JetDefinition, area AreaDefinition) (*ClusterSequenceArea, error)

func (*ClusterSequenceArea) Area

func (csa *ClusterSequenceArea) Area(jet *Jet) float64

func (*ClusterSequenceArea) AreaErr

func (csa *ClusterSequenceArea) AreaErr(jet *Jet) float64

func (*ClusterSequenceArea) ExclusiveJets

func (cs *ClusterSequenceArea) ExclusiveJets(dcut float64) ([]Jet, error)

func (*ClusterSequenceArea) ExclusiveJetsUpTo

func (cs *ClusterSequenceArea) ExclusiveJetsUpTo(njets int) ([]Jet, error)

func (*ClusterSequenceArea) InclusiveJets

func (csa *ClusterSequenceArea) InclusiveJets(ptmin float64) ([]Jet, error)

func (*ClusterSequenceArea) NumExclusiveJets

func (csa *ClusterSequenceArea) NumExclusiveJets(dcut float64) int

type ClusterSequenceStructure

type ClusterSequenceStructure struct {
	// contains filtered or unexported fields
}

ClusterSequenceStructure is a ClusterSequence that implements the JetStructure interface.

func (ClusterSequenceStructure) Constituents

func (css ClusterSequenceStructure) Constituents(jet *Jet) ([]Jet, error)

type DefaultRecombiner

type DefaultRecombiner struct {
	// contains filtered or unexported fields
}

func NewRecombiner

func NewRecombiner(scheme RecombinationScheme) DefaultRecombiner

func (DefaultRecombiner) Description

func (rec DefaultRecombiner) Description() string

func (DefaultRecombiner) Preprocess

func (rec DefaultRecombiner) Preprocess(jet *Jet) error

func (DefaultRecombiner) Recombine

func (rec DefaultRecombiner) Recombine(j1, j2 *Jet) (Jet, error)

func (DefaultRecombiner) Scheme

type Jet

type Jet struct {
	fmom.PxPyPzE

	UserInfo UserInfo // holds extra user information for this Jet
	// contains filtered or unexported fields
}

Jet holds minimal information of use for jet-clustering routines

func NewJet

func NewJet(px, py, pz, e float64) Jet

func (*Jet) Constituents

func (jet *Jet) Constituents() []Jet

Constituents returns the list of constituents for this jet.

func (*Jet) Phi

func (jet *Jet) Phi() float64

func (*Jet) Pt2

func (jet *Jet) Pt2() float64

func (*Jet) Rapidity

func (jet *Jet) Rapidity() float64

type JetAlgorithm

type JetAlgorithm int

JetAlgorithm defines the algorithm used for clustering jets

const (
	UndefinedJetAlgorithm JetAlgorithm = iota
	KtAlgorithm
	CambridgeAlgorithm
	AntiKtAlgorithm
	GenKtAlgorithm
	CambridgeForPassiveAlgorithm
	GenKtForPassiveAlgorithm
	EeKtAlgorithm
	EeGenKtAlgorithm
	PluginAlgorithm

	AachenAlgorithm          = CambridgeAlgorithm
	CambridgeAachenAlgorithm = CambridgeAlgorithm
)

type JetDefinition

type JetDefinition struct {
	// contains filtered or unexported fields
}

JetDefinition contains a full specification of how to carry out jet clustering.

func NewJetDefinition

func NewJetDefinition(alg JetAlgorithm, r float64, scheme RecombinationScheme, strategy Strategy) JetDefinition

NewJetDefinition returns a new JetDefinition with the provided configuration.

func NewJetDefinitionExtra

func NewJetDefinitionExtra(alg JetAlgorithm, r float64, scheme RecombinationScheme, strategy Strategy, extra float64) JetDefinition

NewJetDefinitionExtra returns a new JetDefinition with an extra float64 parameter.

func (JetDefinition) Algorithm

func (def JetDefinition) Algorithm() JetAlgorithm

func (JetDefinition) Description

func (def JetDefinition) Description() string

Description returns a string description of the current JetDefinition matching the one from C++ FastJet.

func (JetDefinition) ExtraParam

func (def JetDefinition) ExtraParam() float64

func (JetDefinition) Plugin

func (def JetDefinition) Plugin() Plugin

func (JetDefinition) R

func (def JetDefinition) R() float64

func (JetDefinition) RecombinationScheme

func (def JetDefinition) RecombinationScheme() RecombinationScheme

func (JetDefinition) Recombiner

func (def JetDefinition) Recombiner() Recombiner

func (JetDefinition) Strategy

func (def JetDefinition) Strategy() Strategy

type JetStructure

type JetStructure interface {
	Constituents(jet *Jet) ([]Jet, error)
}

JetStructure allows to retrieve information related to the clustering.

type Plugin

type Plugin interface {
	Description() string
	RunClustering(builder Builder) error
	R() float64
}

func GetPlugin

func GetPlugin(name string) (Plugin, error)

type RecombinationScheme

type RecombinationScheme int

RecombinationScheme defines the recombination choice for the 4-momenta of pseudo-jets during the clustering procedure

const (
	EScheme   RecombinationScheme = iota // summing the 4-momenta
	PtScheme                             // pt-weighted recombination of y,phi
	Pt2Scheme                            // pt^2 weighted recombination of y,phi
	EtScheme
	Et2Scheme
	BIPtScheme
	BIPt2Scheme

	ExternalScheme RecombinationScheme = 99
)

func (RecombinationScheme) String

func (s RecombinationScheme) String() string

type Recombiner

type Recombiner interface {
	Description() string
	Recombine(j1, j2 *Jet) (Jet, error)
	Preprocess(jet *Jet) error
	Scheme() RecombinationScheme
}

type Strategy

type Strategy int

Strategy defines the algorithmic strategy used while clustering.

func (Strategy) String

func (s Strategy) String() string

type UserInfo

type UserInfo interface{}

UserInfo holds extra user information in a Jet

Directories

Path Synopsis
internal
delaunay
package delaunay contains functions to compute a Delaunay Triangulation
package delaunay contains functions to compute a Delaunay Triangulation
heap
package heap implements a min-heap for pairs of jets.
package heap implements a min-heap for pairs of jets.
plot
package plot contains functions to plot the Delaunay Triangulation and the Voronoi Diagram.
package plot contains functions to plot the Delaunay Triangulation and the Voronoi Diagram.
predicates
package predicates handles the geometric predicates for a delaunay triangulation
package predicates handles the geometric predicates for a delaunay triangulation

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