template<class CoordSystem, class Tag = DefaultCoordinateSystemTag>
class ROOT::Math::PositionVector2D< CoordSystem, Tag >

Class describing a generic position vector (point) in 2 dimensions.

Class describing a 2D Position vector.

This class is templated on the type of Coordinate system. One example is the XYPoint which is a vector based on double precision x,y data members by using the ROOT::Math::Cartesian2D<double> Coordinate system. The class is having also an extra template parameter, the coordinate system tag, to be able to identify (tag) vector described in different reference coordinate system, like global or local coordinate systems.

See also: Overview of the physics vector library

Definition at line 50 of file PositionVector2D.h.

Public Types
typedef Tag	CoordinateSystemTag

typedef CoordSystem	CoordinateType

typedef CoordSystem::Scalar	Scalar

Public Member Functions
	PositionVector2D ()
	Default constructor.

template<class T >
	PositionVector2D (const DisplacementVector2D< T, Tag > &p)
	Construct from an arbitrary displacement vector.

template<class ForeignVector >
	PositionVector2D (const ForeignVector &v)
	Construct from a foreign 2D vector type, for example, Hep2Vector Precondition: v must implement methods x() and y()

template<class T >
	PositionVector2D (const PositionVector2D< T, Tag > &v)
	Construct from a position vector expressed in different coordinates, or using a different Scalar type.

	PositionVector2D (const Scalar &a, const Scalar &b)
	Construct from three values of type Scalar.

const CoordSystem &	Coordinates () const
	Retrieve a copy of the coordinates object.

template<class OtherCoords >
Scalar	Dot (const DisplacementVector2D< OtherCoords, Tag > &v) const
	Return the scalar (Dot) product of this with a displacement vector in any coordinate system, but with the same tag.

void	GetCoordinates (Scalar &a, Scalar &b) const
	get internal data into 2 Scalar numbers.

Scalar	Mag2 () const
	Magnitute squared ( r^2 in spherical coordinate)

Scalar	mag2 () const

bool	operator!= (const PositionVector2D &rhs) const

PositionVector2D	operator* (Scalar a) const
	Multiply a vector by a real number.

PositionVector2D &	operator*= (Scalar a)
	multiply this vector by a scalar quantity

template<class OtherCoords >
PositionVector2D &	operator+= (const DisplacementVector2D< OtherCoords, Tag > &v)
	Self Addition with a displacement vector.

template<class OtherCoords >
PositionVector2D &	operator-= (const DisplacementVector2D< OtherCoords, Tag > &v)
	Self Difference with a displacement vector.

PositionVector2D	operator/ (Scalar a) const
	Division of a vector with a real number.

PositionVector2D &	operator/= (Scalar a)
	divide this vector by a scalar quantity

template<class OtherCoords >
PositionVector2D &	operator= (const DisplacementVector2D< OtherCoords, Tag > &v)
	Assignment operator from a displacement vector of arbitrary type.

template<class ForeignVector >
PositionVector2D &	operator= (const ForeignVector &v)
	Assignment from a foreign 2D vector type, for example, Hep2Vector Precondition: v must implement methods x() and y()

template<class OtherCoords >
PositionVector2D &	operator= (const PositionVector2D< OtherCoords, Tag > &v)
	Assignment operator from a position vector of arbitrary type.

bool	operator== (const PositionVector2D &rhs) const
	Exact equality.

Scalar	Phi () const
	Polar phi, converting if necessary from internal coordinate system.

Scalar	phi () const

Scalar	R () const
	Polar R, converting if necessary from internal coordinate system.

Scalar	r () const

void	Rotate (Scalar angle)
	Rotate by an angle.

PositionVector2D< CoordSystem, Tag > &	SetCoordinates (Scalar a, Scalar b)
	Set internal data based on 2 Scalar numbers.

PositionVector2D< CoordSystem, Tag > &	SetPhi (Scalar ang)
	Change Phi - Polar2D coordinates.

PositionVector2D< CoordSystem, Tag > &	SetR (Scalar a)
	Change R - Polar2D coordinates only.

PositionVector2D< CoordSystem, Tag > &	SetX (Scalar a)
	Change X - Cartesian2D coordinates only.

PositionVector2D< CoordSystem, Tag > &	SetXY (Scalar a, Scalar b)
	set the values of the vector from the cartesian components (x,y) (if the vector is held in polar coordinates, then (x, y) are converted to that form)

PositionVector2D< CoordSystem, Tag > &	SetY (Scalar a)
	Change Y - Cartesian2D coordinates only.

Scalar	X () const
	Cartesian X, converting if necessary from internal coordinate system.

Scalar	x () const

Scalar	Y () const
	Cartesian Y, converting if necessary from internal coordinate system.

Scalar	y () const

Private Member Functions
template<class OtherCoords , class OtherTag >
	PositionVector2D (const DisplacementVector2D< OtherCoords, OtherTag > &)

template<class OtherCoords , class OtherTag >
	PositionVector2D (const PositionVector2D< OtherCoords, OtherTag > &)

template<class OtherCoords , class OtherTag >
PositionVector2D &	operator+= (const DisplacementVector2D< OtherCoords, OtherTag > &)

template<class OtherCoords , class OtherTag >
PositionVector2D &	operator-= (const DisplacementVector2D< OtherCoords, OtherTag > &)

template<class OtherCoords , class OtherTag >
PositionVector2D &	operator= (const DisplacementVector2D< OtherCoords, OtherTag > &)

template<class OtherCoords , class OtherTag >
PositionVector2D &	operator= (const PositionVector2D< OtherCoords, OtherTag > &)

Private Attributes
CoordSystem	fCoordinates

#include <Math/GenVector/PositionVector2D.h>

Member Typedef Documentation

◆ CoordinateSystemTag

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

typedef Tag ROOT::Math::PositionVector2D< CoordSystem, Tag >::CoordinateSystemTag

Definition at line 56 of file PositionVector2D.h.

◆ CoordinateType

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

typedef CoordSystem ROOT::Math::PositionVector2D< CoordSystem, Tag >::CoordinateType

Definition at line 55 of file PositionVector2D.h.

◆ Scalar

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

typedef CoordSystem::Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::Scalar

Definition at line 54 of file PositionVector2D.h.

Constructor & Destructor Documentation

◆ PositionVector2D() [1/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( )

inline

Default constructor.

Construct an empty object with zero values

Definition at line 64 of file PositionVector2D.h.

◆ PositionVector2D() [2/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D	(	const Scalar &	a,
		const Scalar &	b
	)

inline

Construct from three values of type Scalar.

In the case of a XYPoint the values are x,y In the case of a polar vector they are r,phi

Definition at line 71 of file PositionVector2D.h.

◆ PositionVector2D() [3/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class T >

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( const PositionVector2D< T, Tag > & v )

inlineexplicit

Construct from a position vector expressed in different coordinates, or using a different Scalar type.

Definition at line 79 of file PositionVector2D.h.

◆ PositionVector2D() [4/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class T >

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( const DisplacementVector2D< T, Tag > & p )

inlineexplicit

Construct from an arbitrary displacement vector.

Definition at line 86 of file PositionVector2D.h.

◆ PositionVector2D() [5/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class ForeignVector >

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( const ForeignVector & v )

inlineexplicit

Construct from a foreign 2D vector type, for example, Hep2Vector Precondition: v must implement methods x() and y()

Definition at line 94 of file PositionVector2D.h.

◆ PositionVector2D() [6/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( const PositionVector2D< OtherCoords, OtherTag > & )

explicitprivate

◆ PositionVector2D() [7/7]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

ROOT::Math::PositionVector2D< CoordSystem, Tag >::PositionVector2D ( const DisplacementVector2D< OtherCoords, OtherTag > & )

explicitprivate

Member Function Documentation

◆ Coordinates()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

const CoordSystem & ROOT::Math::PositionVector2D< CoordSystem, Tag >::Coordinates ( ) const

inline

Retrieve a copy of the coordinates object.

Definition at line 134 of file PositionVector2D.h.

◆ Dot()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords >

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::Dot ( const DisplacementVector2D< OtherCoords, Tag > & v ) const

inline

Return the scalar (Dot) product of this with a displacement vector in any coordinate system, but with the same tag.

Definition at line 253 of file PositionVector2D.h.

◆ GetCoordinates()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

void ROOT::Math::PositionVector2D< CoordSystem, Tag >::GetCoordinates	(	Scalar &	a,
		Scalar &	b
	)		const

inline

get internal data into 2 Scalar numbers.

These are for example (x,y) for a cartesian vector or (r,phi) for a polar vector

Definition at line 152 of file PositionVector2D.h.

◆ Mag2()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::Mag2 ( ) const

inline

Magnitute squared ( r^2 in spherical coordinate)

Definition at line 203 of file PositionVector2D.h.

◆ mag2()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::mag2 ( ) const

inline

Definition at line 331 of file PositionVector2D.h.

◆ operator!=()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

bool ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator!= ( const PositionVector2D< CoordSystem, Tag > & rhs ) const

inline

Definition at line 174 of file PositionVector2D.h.

◆ operator*()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator* ( Scalar a ) const

inline

Multiply a vector by a real number.

Definition at line 303 of file PositionVector2D.h.

◆ operator*=()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator*= ( Scalar a )

inline

multiply this vector by a scalar quantity

Definition at line 285 of file PositionVector2D.h.

◆ operator+=() [1/2]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator+= ( const DisplacementVector2D< OtherCoords, OtherTag > & )

private

◆ operator+=() [2/2]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator+= ( const DisplacementVector2D< OtherCoords, Tag > & v )

inline

Self Addition with a displacement vector.

Definition at line 266 of file PositionVector2D.h.

◆ operator-=() [1/2]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator-= ( const DisplacementVector2D< OtherCoords, OtherTag > & )

private

◆ operator-=() [2/2]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator-= ( const DisplacementVector2D< OtherCoords, Tag > & v )

inline

Self Difference with a displacement vector.

Definition at line 276 of file PositionVector2D.h.

◆ operator/()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator/ ( Scalar a ) const

inline

Division of a vector with a real number.

Definition at line 312 of file PositionVector2D.h.

◆ operator/=()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator/= ( Scalar a )

inline

divide this vector by a scalar quantity

Definition at line 293 of file PositionVector2D.h.

◆ operator=() [1/5]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator= ( const DisplacementVector2D< OtherCoords, OtherTag > & )

private

◆ operator=() [2/5]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator= ( const DisplacementVector2D< OtherCoords, Tag > & v )

inline

Assignment operator from a displacement vector of arbitrary type.

Definition at line 115 of file PositionVector2D.h.

◆ operator=() [3/5]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class ForeignVector >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator= ( const ForeignVector & v )

inline

Assignment from a foreign 2D vector type, for example, Hep2Vector Precondition: v must implement methods x() and y()

Definition at line 126 of file PositionVector2D.h.

◆ operator=() [4/5]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords , class OtherTag >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator= ( const PositionVector2D< OtherCoords, OtherTag > & )

private

◆ operator=() [5/5]

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

template<class OtherCoords >

PositionVector2D & ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator= ( const PositionVector2D< OtherCoords, Tag > & v )

inline

Assignment operator from a position vector of arbitrary type.

Definition at line 105 of file PositionVector2D.h.

◆ operator==()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

bool ROOT::Math::PositionVector2D< CoordSystem, Tag >::operator== ( const PositionVector2D< CoordSystem, Tag > & rhs ) const

inline

Exact equality.

Definition at line 171 of file PositionVector2D.h.

◆ Phi()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::Phi ( ) const

inline

Polar phi, converting if necessary from internal coordinate system.

Definition at line 198 of file PositionVector2D.h.

◆ phi()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::phi ( ) const

inline

Definition at line 330 of file PositionVector2D.h.

◆ R()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::R ( ) const

inline

Polar R, converting if necessary from internal coordinate system.

Definition at line 193 of file PositionVector2D.h.

◆ r()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::r ( ) const

inline

Definition at line 329 of file PositionVector2D.h.

◆ Rotate()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

void ROOT::Math::PositionVector2D< CoordSystem, Tag >::Rotate ( Scalar angle )

inline

Rotate by an angle.

Definition at line 321 of file PositionVector2D.h.

◆ SetCoordinates()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetCoordinates	(	Scalar	a,
		Scalar	b
	)

inline

Set internal data based on 2 Scalar numbers.

These are for example (x,y) for a cartesian vector or (r,phi) for a polar vector

Definition at line 142 of file PositionVector2D.h.

◆ SetPhi()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetPhi ( Scalar ang )

inline

Change Phi - Polar2D coordinates.

Definition at line 239 of file PositionVector2D.h.

◆ SetR()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetR ( Scalar a )

inline

Change R - Polar2D coordinates only.

Definition at line 231 of file PositionVector2D.h.

◆ SetX()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetX ( Scalar a )

inline

Change X - Cartesian2D coordinates only.

Definition at line 214 of file PositionVector2D.h.

◆ SetXY()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetXY	(	Scalar	a,
		Scalar	b
	)

inline

set the values of the vector from the cartesian components (x,y) (if the vector is held in polar coordinates, then (x, y) are converted to that form)

Definition at line 161 of file PositionVector2D.h.

◆ SetY()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

PositionVector2D< CoordSystem, Tag > & ROOT::Math::PositionVector2D< CoordSystem, Tag >::SetY ( Scalar a )

inline

Change Y - Cartesian2D coordinates only.

Definition at line 222 of file PositionVector2D.h.

◆ X()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::X ( ) const

inline

Cartesian X, converting if necessary from internal coordinate system.

Definition at line 183 of file PositionVector2D.h.

◆ x()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::x ( ) const

inline

Definition at line 327 of file PositionVector2D.h.

◆ Y()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::Y ( ) const

inline

Cartesian Y, converting if necessary from internal coordinate system.

Definition at line 188 of file PositionVector2D.h.

◆ y()

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

Scalar ROOT::Math::PositionVector2D< CoordSystem, Tag >::y ( ) const

inline

Definition at line 328 of file PositionVector2D.h.

Member Data Documentation

◆ fCoordinates

template<class CoordSystem , class Tag = DefaultCoordinateSystemTag>

CoordSystem ROOT::Math::PositionVector2D< CoordSystem, Tag >::fCoordinates

private

Definition at line 335 of file PositionVector2D.h.

math/genvector/inc/Math/GenVector/PositionVector2D.h

Public Types

Public Member Functions

Private Member Functions

Private Attributes

Member Typedef Documentation

◆ CoordinateSystemTag

◆ CoordinateType

◆ Scalar

Constructor & Destructor Documentation

◆ PositionVector2D() [1/7]

◆ PositionVector2D() [2/7]

◆ PositionVector2D() [3/7]

◆ PositionVector2D() [4/7]

◆ PositionVector2D() [5/7]

◆ PositionVector2D() [6/7]

◆ PositionVector2D() [7/7]

Member Function Documentation

◆ Coordinates()

◆ Dot()

◆ GetCoordinates()

◆ Mag2()

◆ mag2()

◆ operator!=()

◆ operator*()

◆ operator*=()

◆ operator+=() [1/2]

◆ operator+=() [2/2]

◆ operator-=() [1/2]

◆ operator-=() [2/2]

◆ operator/()

◆ operator/=()

◆ operator=() [1/5]

◆ operator=() [2/5]

◆ operator=() [3/5]

◆ operator=() [4/5]

◆ operator=() [5/5]

◆ operator==()

◆ Phi()

◆ phi()

◆ R()

◆ r()

◆ Rotate()

◆ SetCoordinates()

◆ SetPhi()

◆ SetR()

◆ SetX()

◆ SetXY()

◆ SetY()

◆ X()

◆ x()

◆ Y()

◆ y()

Member Data Documentation

◆ fCoordinates