ROOT::Math::Cartesian3D<Double32

Function Members (Methods)

public:

	~Cartesian3D<Double32_t>()
ROOT::Math::Cartesian3D<Double32_t>	Cartesian3D<Double32_t>()
ROOT::Math::Cartesian3D<Double32_t>	Cartesian3D<Double32_t>(const ROOT::Math::Cartesian3D<Double32_t>& v)
ROOT::Math::Cartesian3D<Double32_t>	Cartesian3D<Double32_t>(ROOT::Math::Cartesian3D<Double32_t>::Scalar xx, ROOT::Math::Cartesian3D<Double32_t>::Scalar yy, ROOT::Math::Cartesian3D<Double32_t>::Scalar zz)
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Eta() const
void	GetCoordinates(ROOT::Math::Cartesian3D<Double32_t>::Scalar* dest) const
void	GetCoordinates(ROOT::Math::Cartesian3D<Double32_t>::Scalar& xx, ROOT::Math::Cartesian3D<Double32_t>::Scalar& yy, ROOT::Math::Cartesian3D<Double32_t>::Scalar& zz) const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Mag2() const
void	Negate()
bool	operator!=(const ROOT::Math::Cartesian3D<Double32_t>& rhs) const
ROOT::Math::Cartesian3D<Double32_t>&	operator=(const ROOT::Math::Cartesian3D<Double32_t>& v)
bool	operator==(const ROOT::Math::Cartesian3D<Double32_t>& rhs) const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Perp2() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Phi() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	R() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Rho() const
void	Scale(ROOT::Math::Cartesian3D<Double32_t>::Scalar a)
void	SetCoordinates(const ROOT::Math::Cartesian3D<Double32_t>::Scalar* src)
void	SetCoordinates(ROOT::Math::Cartesian3D<Double32_t>::Scalar xx, ROOT::Math::Cartesian3D<Double32_t>::Scalar yy, ROOT::Math::Cartesian3D<Double32_t>::Scalar zz)
void	SetEta(ROOT::Math::Cartesian3D<Double32_t>::Scalar eta)
void	SetPhi(ROOT::Math::Cartesian3D<Double32_t>::Scalar phi)
void	SetR(ROOT::Math::Cartesian3D<Double32_t>::Scalar r)
void	SetRho(ROOT::Math::Cartesian3D<Double32_t>::Scalar rho)
void	SetTheta(ROOT::Math::Cartesian3D<Double32_t>::Scalar theta)
void	SetX(ROOT::Math::Cartesian3D<Double32_t>::Scalar xx)
void	SetXYZ(ROOT::Math::Cartesian3D<Double32_t>::Scalar xx, ROOT::Math::Cartesian3D<Double32_t>::Scalar yy, ROOT::Math::Cartesian3D<Double32_t>::Scalar zz)
void	SetY(ROOT::Math::Cartesian3D<Double32_t>::Scalar yy)
void	SetZ(ROOT::Math::Cartesian3D<Double32_t>::Scalar zz)
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Theta() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	X() const
Double32_t	x() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Y() const
Double32_t	y() const
ROOT::Math::Cartesian3D<Double32_t>::Scalar	Z() const
Double32_t	z() const

Double32_t	fX	x coordinate
Double32_t	fY	y coordinate
Double32_t	fZ	z coordinate

Class Charts

Function documentation

void SetCoordinates(const ROOT::Math::Cartesian3D<Double32_t>::Scalar* src)

      Set internal data based on an array of 3 Scalar numbers

{ fX=src[0]; fY=src[1]; fZ=src[2]; }

void GetCoordinates(ROOT::Math::Cartesian3D<Double32_t>::Scalar* dest) const

      get internal data into an array of 3 Scalar numbers

{ dest[0] = fX; dest[1] = fY; dest[2] = fZ; }

void SetX(ROOT::Math::Cartesian3D<Double32_t>::Scalar xx)

       set the x coordinate value keeping y and z constant

{ fX = xx; }

void SetY(ROOT::Math::Cartesian3D<Double32_t>::Scalar yy)

       set the y coordinate value keeping x and z constant

{ fY = yy; }

void SetZ(ROOT::Math::Cartesian3D<Double32_t>::Scalar zz)

       set the z coordinate value keeping x and y constant

{ fZ = zz; }

void Scale(ROOT::Math::Cartesian3D<Double32_t>::Scalar a)

      scale the vector by a scalar quantity a

{ fX *= a; fY *= a; fZ *= a; }

void Negate()

      negate the vector

{ fX = -fX; fY = -fY; fZ = -fZ; }

T x()

 ============= Compatibility section ==================
 The following make this coordinate system look enough like a CLHEP
 vector that an assignment member template can work with either

{ return X();}

class ROOT::Math::Cartesian3D<Double32_t>

This class is also known as (typedefs to this class)

Function Members (Methods)

Data Members

Class Charts

Function documentation