SVDIntercept Class Reference

SVDIntercept stores the U,V coordinates and uncertainties of the intersection of a track with an SVD sensor. More...

#include <SVDIntercept.h>

Inheritance diagram for SVDIntercept:

Public Member Functions
double	getCoorU () const
	return the U coordinate of the intercept
double	getCoorV () const
	return the V coordinate of the intercept
double	getSigmaU () const
	return the statistical error on the U coordinate of the intercept
double	getSigmaV () const
	return the statistical error on the V coordinate of the intercept
double	getSigmaUprime () const
	return the statistical error of the extrapolation of U prime
double	getSigmaVprime () const
	return the statistical error of the extrapolation of V prime
double	getLambda () const
	return the length of the track
double	getUprime () const
	return the U direction tangent of the track extrapolated to the sensor
double	getVprime () const
	return the V direction tangent of the track extrapolated to the sensor
VxdID::baseType	getSensorID () const
	return the sensor ID
void	setCoorU (double user_coorU)
	set the U coordinate of the intercept
void	setCoorV (double user_coorV)
	set the V coordinate of the intercept
void	setSigmaU (double user_sigmaU)
	set the statistical error on the U coordinate of the intercept
void	setSigmaV (double user_sigmaV)
	set the statistical error on the V coordinate of the intercept
void	setSigmaUprime (double user_sigmaUprime)
	set the statistical error of the extrapolation of U prime
void	setSigmaVprime (double user_sigmaVprime)
	set the statistical error of the extrapolation of V prime
void	setLambda (double user_lambda)
	set the length of the track
void	setVxdID (VxdID::baseType user_vxdID)
	set the sensor ID
void	setUprime (double user_Uprime)
	set the U direction tangent of the track extrapolated to the sensor
void	setVprime (double user_Vprime)
	set the V direction tangent of the track extrapolated to the sensor
void	addRelationTo (const RelationsInterface< TObject > *object, float weight=1.0, const std::string &namedRelation="") const
	Add a relation from this object to another object (with caching).
void	addRelationTo (const TObject *object, float weight=1.0, const std::string &namedRelation="") const
	Add a relation from this object to another object (no caching, can be quite slow).
void	addRelationTo (const RelationsInterface< TObject > *object, float weight=1.0, const std::string &namedRelation="") const
	Add a relation from this object to another object (with caching).
void	addRelationTo (const TObject *object, float weight=1.0, const std::string &namedRelation="") const
	Add a relation from this object to another object (no caching, can be quite slow).
void	copyRelations (const RelationsInterface< TObject > *sourceObj)
	Copies all relations of sourceObj (pointing from or to sourceObj) to this object (including weights).
void	copyRelations (const RelationsInterface< TObject > *sourceObj)
	Copies all relations of sourceObj (pointing from or to sourceObj) to this object (including weights).
RelationVector< TO >	getRelationsTo (const std::string &name="", const std::string &namedRelation="") const
	Get the relations that point from this object to another store array.
RelationVector< TO >	getRelationsTo (const std::string &name="", const std::string &namedRelation="") const
	Get the relations that point from this object to another store array.
RelationVector< FROM >	getRelationsFrom (const std::string &name="", const std::string &namedRelation="") const
	Get the relations that point from another store array to this object.
RelationVector< FROM >	getRelationsFrom (const std::string &name="", const std::string &namedRelation="") const
	Get the relations that point from another store array to this object.
RelationVector< T >	getRelationsWith (const std::string &name="", const std::string &namedRelation="") const
	Get the relations between this object and another store array.
RelationVector< T >	getRelationsWith (const std::string &name="", const std::string &namedRelation="") const
	Get the relations between this object and another store array.
TO *	getRelatedTo (const std::string &name="", const std::string &namedRelation="") const
	Get the object to which this object has a relation.
TO *	getRelatedTo (const std::string &name="", const std::string &namedRelation="") const
	Get the object to which this object has a relation.
FROM *	getRelatedFrom (const std::string &name="", const std::string &namedRelation="") const
	Get the object from which this object has a relation.
FROM *	getRelatedFrom (const std::string &name="", const std::string &namedRelation="") const
	Get the object from which this object has a relation.
T *	getRelated (const std::string &name="", const std::string &namedRelation="") const
	Get the object to or from which this object has a relation.
T *	getRelated (const std::string &name="", const std::string &namedRelation="") const
	Get the object to or from which this object has a relation.
std::pair< TO *, float >	getRelatedToWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing to an array.
std::pair< TO *, float >	getRelatedToWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing to an array.
std::pair< FROM *, float >	getRelatedFromWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing from an array.
std::pair< FROM *, float >	getRelatedFromWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing from an array.
std::pair< T *, float >	getRelatedWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing from/to an array.
std::pair< T *, float >	getRelatedWithWeight (const std::string &name="", const std::string &namedRelation="") const
	Get first related object & weight of relation pointing from/to an array.
virtual std::string	getName () const
	Return a short name that describes this object, e.g.
virtual std::string	getName () const
	Return a short name that describes this object, e.g.
virtual std::string	getInfoHTML () const
	Return a short summary of this object's contents in HTML format.
virtual std::string	getInfoHTML () const
	Return a short summary of this object's contents in HTML format.
std::string	getInfo () const
	Return a short summary of this object's contents in raw text format.
std::string	getInfo () const
	Return a short summary of this object's contents in raw text format.
std::string	getArrayName () const
	Get name of array this object is stored in, or "" if not found.
std::string	getArrayName () const
	Get name of array this object is stored in, or "" if not found.
int	getArrayIndex () const
	Returns this object's array index (in StoreArray), or -1 if not found.
int	getArrayIndex () const
	Returns this object's array index (in StoreArray), or -1 if not found.

Protected Member Functions
TClonesArray *	getArrayPointer () const
	Returns the pointer to the raw DataStore array holding this object (protected since these arrays are easy to misuse).
TClonesArray *	getArrayPointer () const
	Returns the pointer to the raw DataStore array holding this object (protected since these arrays are easy to misuse).

Private Member Functions
	ClassDef (SVDIntercept, 5)
	Needed to make the ROOT object storable.

Private Attributes
double	m_coorU = 0
	u coordinate of the intercept
double	m_coorV = 0
	v coordinate of the intercept
double	m_sigmaU = 0
	statistical error of the extrapolation along the u coordinate
double	m_sigmaV = 0
	statistical error of the extrapolation along the v coordinate
double	m_sigmaUprime = 0
	statistical error of the extrapolation of U prime
double	m_sigmaVprime = 0
	statistical error of the extrapolation of V prime
double	m_lambda = 0
	length of the track
double	m_Uprime = 0
	U direction tangent of the track extrapolated to the sensor.
double	m_Vprime = 0
	V direction tangent of the track extrapolated to the sensor.
VxdID::baseType	m_sensorID = 0
	sensor ID
DataStore::StoreEntry *	m_cacheDataStoreEntry
	Cache of the data store entry to which this object belongs.
DataStore::StoreEntry *	m_cacheDataStoreEntry
	Cache of the data store entry to which this object belongs.
int	m_cacheArrayIndex
	Cache of the index in the TClonesArray to which this object belongs.
int	m_cacheArrayIndex
	Cache of the index in the TClonesArray to which this object belongs.

Detailed Description

SVDIntercept stores the U,V coordinates and uncertainties of the intersection of a track with an SVD sensor.

Definition at line 22 of file SVDIntercept.h.

Member Function Documentation

addRelationTo() [1/4]

void addRelationTo ( const RelationsInterface< TObject > * object, float weight = 1.0, const std::string & namedRelation = "" ) const

inlineinherited

Add a relation from this object to another object (with caching).

Parameters

object	The object to which the relation should point.
weight	The weight of the relation.
namedRelation	Additional name for the relation, or "" for the default naming

Definition at line 142 of file RelationsObject.h.

    {
      if (object)
        DataStore::Instance().addRelation(this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                          object, object->m_cacheDataStoreEntry, object->m_cacheArrayIndex, weight, namedRelation);
    }

addRelationTo() [2/4]

void addRelationTo ( const RelationsInterface< TObject > * object, float weight = 1.0, const std::string & namedRelation = "" ) const

inlineinherited

Add a relation from this object to another object (with caching).

Parameters

object	The object to which the relation should point.
weight	The weight of the relation.
namedRelation	Additional name for the relation, or "" for the default naming

Definition at line 142 of file RelationsObject.h.

    {
      if (object)
        DataStore::Instance().addRelation(this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                          object, object->m_cacheDataStoreEntry, object->m_cacheArrayIndex, weight, namedRelation);
    }

addRelationTo() [3/4]

void addRelationTo ( const TObject * object, float weight = 1.0, const std::string & namedRelation = "" ) const

inlineinherited

Add a relation from this object to another object (no caching, can be quite slow).

Parameters

object	The object to which the relation should point.
weight	The weight of the relation.
namedRelation	Additional name for the relation, or "" for the default naming

Definition at line 155 of file RelationsObject.h.

    {
      StoreEntry* toEntry = nullptr;
      int toIndex = -1;
      DataStore::Instance().addRelation(this, m_cacheDataStoreEntry, m_cacheArrayIndex, object, toEntry, toIndex, weight, namedRelation);
    }

addRelationTo() [4/4]

void addRelationTo ( const TObject * object, float weight = 1.0, const std::string & namedRelation = "" ) const

inlineinherited

Add a relation from this object to another object (no caching, can be quite slow).

Parameters

object	The object to which the relation should point.
weight	The weight of the relation.
namedRelation	Additional name for the relation, or "" for the default naming

Definition at line 155 of file RelationsObject.h.

    {
      StoreEntry* toEntry = nullptr;
      int toIndex = -1;
      DataStore::Instance().addRelation(this, m_cacheDataStoreEntry, m_cacheArrayIndex, object, toEntry, toIndex, weight, namedRelation);
    }

copyRelations() [1/2]

void copyRelations ( const RelationsInterface< TObject > * sourceObj )

inlineinherited

Copies all relations of sourceObj (pointing from or to sourceObj) to this object (including weights).

Useful if you want to make a complete copy of a StoreArray object to make modifications to it, but retain all information on linked objects.

Note: this only works if sourceObj inherits from the same base (e.g. RelationsObject), and only for related objects that also inherit from the same base.

Definition at line 170 of file RelationsObject.h.

    {
      if (!sourceObj)
        return;
      auto fromRels = sourceObj->getRelationsFrom<RelationsInterface<BASE>>("ALL");
      for (unsigned int iRel = 0; iRel < fromRels.size(); iRel++) {
        fromRels.object(iRel)->addRelationTo(this, fromRels.weight(iRel));
      }
 
      auto toRels = sourceObj->getRelationsTo<RelationsInterface<BASE>>("ALL");
      for (unsigned int iRel = 0; iRel < toRels.size(); iRel++) {
        this->addRelationTo(toRels.object(iRel), toRels.weight(iRel));
      }
    }

copyRelations() [2/2]

void copyRelations ( const RelationsInterface< TObject > * sourceObj )

inlineinherited

Copies all relations of sourceObj (pointing from or to sourceObj) to this object (including weights).

Useful if you want to make a complete copy of a StoreArray object to make modifications to it, but retain all information on linked objects.

Note: this only works if sourceObj inherits from the same base (e.g. RelationsObject), and only for related objects that also inherit from the same base.

Definition at line 170 of file RelationsObject.h.

    {
      if (!sourceObj)
        return;
      auto fromRels = sourceObj->getRelationsFrom<RelationsInterface<BASE>>("ALL");
      for (unsigned int iRel = 0; iRel < fromRels.size(); iRel++) {
        fromRels.object(iRel)->addRelationTo(this, fromRels.weight(iRel));
      }
 
      auto toRels = sourceObj->getRelationsTo<RelationsInterface<BASE>>("ALL");
      for (unsigned int iRel = 0; iRel < toRels.size(); iRel++) {
        this->addRelationTo(toRels.object(iRel), toRels.weight(iRel));
      }
    }

getArrayIndex() [1/2]

int getArrayIndex ( ) const

inlineinherited

Returns this object's array index (in StoreArray), or -1 if not found.

Definition at line 385 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      return m_cacheArrayIndex;
    }

getArrayIndex() [2/2]

int getArrayIndex ( ) const

inlineinherited

Returns this object's array index (in StoreArray), or -1 if not found.

Definition at line 385 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      return m_cacheArrayIndex;
    }

getArrayName() [1/2]

std::string getArrayName ( ) const

inlineinherited

Get name of array this object is stored in, or "" if not found.

Definition at line 377 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      return m_cacheDataStoreEntry ? m_cacheDataStoreEntry->name : "";
    }

getArrayName() [2/2]

std::string getArrayName ( ) const

inlineinherited

Get name of array this object is stored in, or "" if not found.

Definition at line 377 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      return m_cacheDataStoreEntry ? m_cacheDataStoreEntry->name : "";
    }

getArrayPointer() [1/2]

TClonesArray * getArrayPointer ( ) const

inlineprotectedinherited

Returns the pointer to the raw DataStore array holding this object (protected since these arrays are easy to misuse).

Definition at line 418 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      if (!m_cacheDataStoreEntry)
        return nullptr;
      return m_cacheDataStoreEntry->getPtrAsArray();
    }

getArrayPointer() [2/2]

TClonesArray * getArrayPointer ( ) const

inlineprotectedinherited

Returns the pointer to the raw DataStore array holding this object (protected since these arrays are easy to misuse).

Definition at line 418 of file RelationsObject.h.

    {
      DataStore::Instance().findStoreEntry(this, m_cacheDataStoreEntry, m_cacheArrayIndex);
      if (!m_cacheDataStoreEntry)
        return nullptr;
      return m_cacheDataStoreEntry->getPtrAsArray();
    }

getCoorU()

double getCoorU ( ) const

inlineinherited

return the U coordinate of the intercept

Definition at line 53 of file VXDIntercept.h.

getCoorV()

double getCoorV ( ) const

inlineinherited

return the V coordinate of the intercept

Definition at line 54 of file VXDIntercept.h.

getInfo() [1/2]

std::string getInfo ( ) const

inlineinherited

Return a short summary of this object's contents in raw text format.

Returns the contents of getInfoHTML() while translating line-breaks etc.

Note

: You don't need to implement this function (it's not virtual), getInfoHTML() is enough.

Definition at line 370 of file RelationsObject.h.

    {
      return _RelationsInterfaceImpl::htmlToPlainText(getInfoHTML());
    }

getInfo() [2/2]

std::string getInfo ( ) const

inlineinherited

Return a short summary of this object's contents in raw text format.

Returns the contents of getInfoHTML() while translating line-breaks etc.

Note

: You don't need to implement this function (it's not virtual), getInfoHTML() is enough.

Definition at line 370 of file RelationsObject.h.

    {
      return _RelationsInterfaceImpl::htmlToPlainText(getInfoHTML());
    }

getInfoHTML() [1/2]

virtual std::string getInfoHTML ( ) const

inlinevirtualinherited

Return a short summary of this object's contents in HTML format.

Reimplement this in your own class to provide useful output for display or debugging purposes. For example, you might do something like:

std::stringstream out;
out << "<b>PDG</b>: " << m_pdg << "<br>";
out << "<b>Covariance Matrix</b>: " << HTML::getString(getCovariance5()) << "<br>";
return out.str();

See also

Particle::getInfoHTML() for a more complex example.

HTML for some utility functions.

Use getInfo() to get a raw text version of this output.

Reimplemented in Cluster, MCParticle, Particle, PIDLikelihood, RecoTrack, SoftwareTriggerResult, Track, TrackFitResult, and TRGSummary.

Definition at line 362 of file RelationsObject.h.

{ return ""; }

getInfoHTML() [2/2]

virtual std::string getInfoHTML ( ) const

inlinevirtualinherited

Return a short summary of this object's contents in HTML format.

Reimplement this in your own class to provide useful output for display or debugging purposes. For example, you might do something like:

std::stringstream out;
out << "<b>PDG</b>: " << m_pdg << "<br>";
out << "<b>Covariance Matrix</b>: " << HTML::getString(getCovariance5()) << "<br>";
return out.str();

See also

Particle::getInfoHTML() for a more complex example.

HTML for some utility functions.

Use getInfo() to get a raw text version of this output.

Reimplemented in Cluster, MCParticle, Particle, PIDLikelihood, RecoTrack, SoftwareTriggerResult, Track, TrackFitResult, and TRGSummary.

Definition at line 362 of file RelationsObject.h.

{ return ""; }

getLambda()

double getLambda ( ) const

inlineinherited

return the length of the track

Definition at line 59 of file VXDIntercept.h.

getName() [1/2]

virtual std::string getName ( ) const

inlinevirtualinherited

Return a short name that describes this object, e.g.

pi+ for an MCParticle.

Reimplemented in MCParticle, Particle, and SpacePoint.

Definition at line 344 of file RelationsObject.h.

{ return ""; }

getName() [2/2]

virtual std::string getName ( ) const

inlinevirtualinherited

Return a short name that describes this object, e.g.

pi+ for an MCParticle.

Reimplemented in MCParticle, Particle, and SpacePoint.

Definition at line 344 of file RelationsObject.h.

{ return ""; }

getRelated() [1/2]

T * getRelated ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object to or from which this object has a relation.

Template Parameters

T	The class of objects to or from which the relation points.

Parameters

name	The name of the store array to or from which the relation points. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 278 of file RelationsObject.h.

    {
      return static_cast<T*>(DataStore::Instance().getRelationWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                             T::Class(), name, namedRelation).object);
    }

getRelated() [2/2]

T * getRelated ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object to or from which this object has a relation.

Template Parameters

T	The class of objects to or from which the relation points.

Parameters

name	The name of the store array to or from which the relation points. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 278 of file RelationsObject.h.

    {
      return static_cast<T*>(DataStore::Instance().getRelationWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                             T::Class(), name, namedRelation).object);
    }

getRelatedFrom() [1/2]

FROM * getRelatedFrom ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object from which this object has a relation.

Template Parameters

FROM	The class of objects from which the relation points.

Parameters

name	The name of the store array from which the relation points. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 263 of file RelationsObject.h.

    {
      return static_cast<FROM*>(DataStore::Instance().getRelationWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry,
                                m_cacheArrayIndex, FROM::Class(), name, namedRelation).object);
    }

getRelatedFrom() [2/2]

FROM * getRelatedFrom ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object from which this object has a relation.

Template Parameters

FROM	The class of objects from which the relation points.

Parameters

name	The name of the store array from which the relation points. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 263 of file RelationsObject.h.

    {
      return static_cast<FROM*>(DataStore::Instance().getRelationWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry,
                                m_cacheArrayIndex, FROM::Class(), name, namedRelation).object);
    }

getRelatedFromWithWeight() [1/2]

std::pair< FROM *, float > getRelatedFromWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing from an array.

Template Parameters

FROM	The class of objects from which the relation points.

Parameters

name	The name of the store array from which the relation points. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 314 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  FROM::Class(), name, namedRelation);
      return std::make_pair(static_cast<FROM*>(entry.object), entry.weight);
    }

getRelatedFromWithWeight() [2/2]

std::pair< FROM *, float > getRelatedFromWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing from an array.

Template Parameters

FROM	The class of objects from which the relation points.

Parameters

name	The name of the store array from which the relation points. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 314 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  FROM::Class(), name, namedRelation);
      return std::make_pair(static_cast<FROM*>(entry.object), entry.weight);
    }

getRelatedTo() [1/2]

TO * getRelatedTo ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object to which this object has a relation.

Template Parameters

TO	The class of objects to which the relation points.

Parameters

name	The name of the store array to which the relation points. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 248 of file RelationsObject.h.

    {
      return static_cast<TO*>(DataStore::Instance().getRelationWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                              TO::Class(), name, namedRelation).object);
    }

getRelatedTo() [2/2]

TO * getRelatedTo ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the object to which this object has a relation.

Template Parameters

TO	The class of objects to which the relation points.

Parameters

name	The name of the store array to which the relation points. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

The first related object or a null pointer.

Definition at line 248 of file RelationsObject.h.

    {
      return static_cast<TO*>(DataStore::Instance().getRelationWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                              TO::Class(), name, namedRelation).object);
    }

getRelatedToWithWeight() [1/2]

std::pair< TO *, float > getRelatedToWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing to an array.

Template Parameters

TO	The class of objects to which the relation points.

Parameters

name	The name of the store array to which the relation points. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 297 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  TO::Class(), name, namedRelation);
      return std::make_pair(static_cast<TO*>(entry.object), entry.weight);
    }

getRelatedToWithWeight() [2/2]

std::pair< TO *, float > getRelatedToWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing to an array.

Template Parameters

TO	The class of objects to which the relation points.

Parameters

name	The name of the store array to which the relation points. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 297 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  TO::Class(), name, namedRelation);
      return std::make_pair(static_cast<TO*>(entry.object), entry.weight);
    }

getRelatedWithWeight() [1/2]

std::pair< T *, float > getRelatedWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing from/to an array.

Template Parameters

T	The class of objects to or from which the relation points.

Parameters

name	The name of the store array to or from which the relation points. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 331 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  T::Class(), name, namedRelation);
      return std::make_pair(static_cast<T*>(entry.object), entry.weight);
    }

getRelatedWithWeight() [2/2]

std::pair< T *, float > getRelatedWithWeight ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get first related object & weight of relation pointing from/to an array.

Template Parameters

T	The class of objects to or from which the relation points.

Parameters

name	The name of the store array to or from which the relation points. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

Pair of first related object and the relation weight, or (NULL, 1.0) if none found.

Definition at line 331 of file RelationsObject.h.

    {
      RelationEntry entry = DataStore::Instance().getRelationWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry, m_cacheArrayIndex,
                                                                  T::Class(), name, namedRelation);
      return std::make_pair(static_cast<T*>(entry.object), entry.weight);
    }

getRelationsFrom() [1/2]

RelationVector< FROM > getRelationsFrom ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations that point from another store array to this object.

Template Parameters

FROM	The class of objects from which the relations point.

Parameters

name	The name of the store array from which the relations point. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 212 of file RelationsObject.h.

    {
      return RelationVector<FROM>(DataStore::Instance().getRelationsWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry,
                                  m_cacheArrayIndex, FROM::Class(), name, namedRelation));
    }

getRelationsFrom() [2/2]

RelationVector< FROM > getRelationsFrom ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations that point from another store array to this object.

Template Parameters

FROM	The class of objects from which the relations point.

Parameters

name	The name of the store array from which the relations point. If empty the default store array name for class FROM will be used. If the special name "ALL" is given all store arrays containing objects of type FROM are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 212 of file RelationsObject.h.

    {
      return RelationVector<FROM>(DataStore::Instance().getRelationsWith(DataStore::c_FromSide, this, m_cacheDataStoreEntry,
                                  m_cacheArrayIndex, FROM::Class(), name, namedRelation));
    }

getRelationsTo() [1/2]

RelationVector< TO > getRelationsTo ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations that point from this object to another store array.

Template Parameters

TO	The class of objects to which the relations point.

Parameters

name	The name of the store array to which the relations point. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 197 of file RelationsObject.h.

    {
      return RelationVector<TO>(DataStore::Instance().getRelationsWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry,
                                m_cacheArrayIndex, TO::Class(), name, namedRelation));
    }

getRelationsTo() [2/2]

RelationVector< TO > getRelationsTo ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations that point from this object to another store array.

Template Parameters

TO	The class of objects to which the relations point.

Parameters

name	The name of the store array to which the relations point. If empty the default store array name for class TO will be used. If the special name "ALL" is given all store arrays containing objects of type TO are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 197 of file RelationsObject.h.

    {
      return RelationVector<TO>(DataStore::Instance().getRelationsWith(DataStore::c_ToSide, this, m_cacheDataStoreEntry,
                                m_cacheArrayIndex, TO::Class(), name, namedRelation));
    }

getRelationsWith() [1/2]

RelationVector< T > getRelationsWith ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations between this object and another store array.

Relations in both directions are returned.

Template Parameters

T	The class of objects to or from which the relations point.

Parameters

name	The name of the store array to or from which the relations point. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 230 of file RelationsObject.h.

    {
      return RelationVector<T>(DataStore::Instance().getRelationsWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry,
                               m_cacheArrayIndex, T::Class(), name, namedRelation));
    }

getRelationsWith() [2/2]

RelationVector< T > getRelationsWith ( const std::string & name = "", const std::string & namedRelation = "" ) const

inlineinherited

Get the relations between this object and another store array.

Relations in both directions are returned.

Template Parameters

T	The class of objects to or from which the relations point.

Parameters

name	The name of the store array to or from which the relations point. If empty the default store array name for class T will be used. If the special name "ALL" is given all store arrays containing objects of type T are considered.
namedRelation	Additional name for the relation, or "" for the default naming

Returns

A vector of relations.

Definition at line 230 of file RelationsObject.h.

    {
      return RelationVector<T>(DataStore::Instance().getRelationsWith(DataStore::c_BothSides, this, m_cacheDataStoreEntry,
                               m_cacheArrayIndex, T::Class(), name, namedRelation));
    }

getSensorID()

VxdID::baseType getSensorID ( ) const

inlineinherited

return the sensor ID

Definition at line 62 of file VXDIntercept.h.

getSigmaU()

double getSigmaU ( ) const

inlineinherited

return the statistical error on the U coordinate of the intercept

Definition at line 55 of file VXDIntercept.h.

getSigmaUprime()

double getSigmaUprime ( ) const

inlineinherited

return the statistical error of the extrapolation of U prime

Definition at line 57 of file VXDIntercept.h.

getSigmaV()

double getSigmaV ( ) const

inlineinherited

return the statistical error on the V coordinate of the intercept

Definition at line 56 of file VXDIntercept.h.

getSigmaVprime()

double getSigmaVprime ( ) const

inlineinherited

return the statistical error of the extrapolation of V prime

Definition at line 58 of file VXDIntercept.h.

getUprime()

double getUprime ( ) const

inlineinherited

return the U direction tangent of the track extrapolated to the sensor

Definition at line 60 of file VXDIntercept.h.

getVprime()

double getVprime ( ) const

inlineinherited

return the V direction tangent of the track extrapolated to the sensor

Definition at line 61 of file VXDIntercept.h.

setCoorU()

void setCoorU ( double user_coorU )

inlineinherited

set the U coordinate of the intercept

Definition at line 64 of file VXDIntercept.h.

setCoorV()

void setCoorV ( double user_coorV )

inlineinherited

set the V coordinate of the intercept

Definition at line 65 of file VXDIntercept.h.

setLambda()

void setLambda ( double user_lambda )

inlineinherited

set the length of the track

Definition at line 70 of file VXDIntercept.h.

setSigmaU()

void setSigmaU ( double user_sigmaU )

inlineinherited

set the statistical error on the U coordinate of the intercept

Definition at line 66 of file VXDIntercept.h.

setSigmaUprime()

void setSigmaUprime ( double user_sigmaUprime )

inlineinherited

set the statistical error of the extrapolation of U prime

Definition at line 68 of file VXDIntercept.h.

setSigmaV()

void setSigmaV ( double user_sigmaV )

inlineinherited

set the statistical error on the V coordinate of the intercept

Definition at line 67 of file VXDIntercept.h.

setSigmaVprime()

void setSigmaVprime ( double user_sigmaVprime )

inlineinherited

set the statistical error of the extrapolation of V prime

Definition at line 69 of file VXDIntercept.h.

setUprime()

void setUprime ( double user_Uprime )

inlineinherited

set the U direction tangent of the track extrapolated to the sensor

Definition at line 72 of file VXDIntercept.h.

setVprime()

void setVprime ( double user_Vprime )

inlineinherited

set the V direction tangent of the track extrapolated to the sensor

Definition at line 73 of file VXDIntercept.h.

setVxdID()

void setVxdID ( VxdID::baseType user_vxdID )

inlineinherited

set the sensor ID

Definition at line 71 of file VXDIntercept.h.

Member Data Documentation

m_cacheArrayIndex [1/2]

int m_cacheArrayIndex

mutableprivateinherited

Cache of the index in the TClonesArray to which this object belongs.

Definition at line 432 of file RelationsObject.h.

m_cacheArrayIndex [2/2]

int m_cacheArrayIndex

mutableprivateinherited

Cache of the index in the TClonesArray to which this object belongs.

Definition at line 432 of file RelationsObject.h.

m_cacheDataStoreEntry [1/2]

DataStore::StoreEntry* m_cacheDataStoreEntry

mutableprivateinherited

Cache of the data store entry to which this object belongs.

Definition at line 429 of file RelationsObject.h.

m_cacheDataStoreEntry [2/2]

DataStore::StoreEntry* m_cacheDataStoreEntry

mutableprivateinherited

Cache of the data store entry to which this object belongs.

Definition at line 429 of file RelationsObject.h.

m_coorU

double m_coorU = 0

privateinherited

u coordinate of the intercept

Definition at line 77 of file VXDIntercept.h.

m_coorV

double m_coorV = 0

privateinherited

v coordinate of the intercept

Definition at line 78 of file VXDIntercept.h.

m_lambda

double m_lambda = 0

privateinherited

length of the track

Definition at line 83 of file VXDIntercept.h.

m_sensorID

VxdID::baseType m_sensorID = 0

privateinherited

sensor ID

Definition at line 87 of file VXDIntercept.h.

m_sigmaU

double m_sigmaU = 0

privateinherited

statistical error of the extrapolation along the u coordinate

Definition at line 79 of file VXDIntercept.h.

m_sigmaUprime

double m_sigmaUprime = 0

privateinherited

statistical error of the extrapolation of U prime

Definition at line 81 of file VXDIntercept.h.

m_sigmaV

double m_sigmaV = 0

privateinherited

statistical error of the extrapolation along the v coordinate

Definition at line 80 of file VXDIntercept.h.

m_sigmaVprime

double m_sigmaVprime = 0

privateinherited

statistical error of the extrapolation of V prime

Definition at line 82 of file VXDIntercept.h.

m_Uprime

double m_Uprime = 0

privateinherited

U direction tangent of the track extrapolated to the sensor.

Definition at line 84 of file VXDIntercept.h.

m_Vprime

double m_Vprime = 0

privateinherited

V direction tangent of the track extrapolated to the sensor.

Definition at line 85 of file VXDIntercept.h.

---

The documentation for this class was generated from the following file:

• tracking/dataobjects/include/SVDIntercept.h