File List

Here is a list of all documented files with brief descriptions:

BaseConstraint.cc	Implements class BaseConstraint
BaseConstraint.h	Declares class BaseConstraint
BaseDefs.h
BaseEvent.h	Declares class BaseEvent
BaseFitObject.cc	Implements class BaseFitObject
BaseFitObject.h	Declares class BaseFitObject
BaseFitter.cc	Implements class BaseFitter
BaseFitter.h	Declares class BaseFitter
BaseHardConstraint.cc	Implements class BaseHardConstraint
BaseHardConstraint.h	Declares class BaseHardConstraint
BaseJetPairing.h	Declares class BaseJetPairing
BaseSoftConstraint.cc	Implements class BaseSoftConstraint
BaseSoftConstraint.h	Declares class BaseSoftConstraint
BaseTracer.cc	Implements class BaseTracer
BaseTracer.h	Declares class BaseTracer
DijetEventILC.h
FourJetPairing.h	Declares class FourJetPairing
FourJetZHPairing.h
FourVector.h	Declares class FourVector
ISRPhotonFitObject.cc	Implements class ISRPhotonFitObject
ISRPhotonFitObject.h
IterationScanner.cc	Implements class IterationScanner
IterationScanner.h	Declares class IterationScanner
JBLHelix.cc	Implements class JBLHelix
JBLHelix.h	Declares class JBLHelix
JetFitObject.cc	Implements class JetFitObject
JetFitObject.h	Declares class JetFitObject
LeptonFitObject.cc	Implements class LeptonFitObject LeptonFitObject works similiar to JetFitObject, but it uses a q/pt, theta, phi parametrization for the leptons, which is e.g. more appropriate for muons and other particles reconstructed from track helices. The covariance matrix differs from the common E, theta, phi parametrization. Updated so that q/pt (ptinv) includes the sign of the geometric curvature (scaled version of Omega)
LeptonFitObject.h	Declares class LeptonFitObject
MassConstraint.cc	Implements class MassConstraint
MassConstraint.h	Declares class MassConstraint
MomentumConstraint.cc	Implements class MomentumConstraint
MomentumConstraint.h	Declares class MomentumConstraint
NeutrinoFitObject.h
NewFitterGSL.cc	Implements class NewFitterGSL
NewFitterGSL.h	Declares class NewFitterGSL
NewtonFitterGSL.cc	Implements class NewtonFitterGSL
NewtonFitterGSL.h	Declares class NewtonFitterGSL
OPALFitterGSL.cc	Implements class OPALFitterGSL
OPALFitterGSL.h	Declares class OPALFitterGSL
ParameterScanner.cc	Implements class ParameterScanner
ParameterScanner.h	Declares class ParameterScanner
ParticleConstraint.cc	Implements class ParticleConstraint
ParticleConstraint.h	Declares class ParticleConstraint
ParticleFitObject.cc	Implements class ParticleFitObject
ParticleFitObject.h	Declares class ParticleFitObject
RootTracer.cc	Implements class RootTracer
RootTracer.h	Declares class RootTracer
SimplePhotonFitObject.cc	Implements class SimplePhotonFitObject
SimplePhotonFitObject.h
SoftBWMassConstraint.cc	Implements class SoftBWMassConstraint
SoftBWMassConstraint.h	Declares class SoftBWMassConstraint
SoftBWParticleConstraint.cc	Implements class SoftBWParticleConstraint
SoftBWParticleConstraint.h	Declares class SoftBWParticleConstraint
SoftGaussMassConstraint.cc	Implements class SoftGaussMassConstraint
SoftGaussMassConstraint.h	Declares class SoftGaussMassConstraint
SoftGaussMomentumConstraint.cc	Implements class SoftGaussMomentumConstraint
SoftGaussMomentumConstraint.h	Declares class SoftGaussMomentumConstraint
SoftGaussParticleConstraint.cc	Implements class SoftGaussParticleConstraint
SoftGaussParticleConstraint.h	Declares class SoftGaussParticleConstraint
TextTracer.cc	Implements class TextTracer
TextTracer.h	Declares class TextTracer
ThreeVector.h
TopEventILC.h
TrackConstraint.h	Declares class TrackConstraint
TrackParticleFitObject.cc	Implements class TrackParticleFitObject TrackParticleFitObject takes an LCIO track or trackstate (parameters & covariance) as input. it knows about the 4-momentum and "decay plane" of the TrackParticleObject "decay plane" is the plane defined by the IP and the tangent to the track at PCA At present it considers the track only at the PCA: i.e. the momentum/decay plane are considered only at the PCA, not at a general position along the helix this means it's no good for fitting (significantly) displaced vertices in which the tracks have bent significantly between the PCA and vertex positions this should be improved in a future update by including extra parameters (as was done for the original Track-based classes)
TrackParticleFitObject.h	Declares class TrackParticleFitObject
TwoB4JPairing.h
TwoVector.h
VertexConstraint.h	Declares class VertexConstraint
VertexFitObject.cc	Implements class VertexFitObject
VertexFitObject.h	Declares class VertexFitObject
ZinvisibleFitObject.cc	Implements clsss ZinvisibleFitObject class for Z->neutrinos with (E, theta, phi) in kinematic fit Zinvisible works similar to NeutrinoFitObject, but its mass is set to 91.1876 developed for ZHH->vvHH, ZinvisibleFO represents Z->vv in fit
ZinvisibleFitObject.h	Declares class ZinvisibleFitObject