CLHEP 2.4.6.4
C++ Class Library for High Energy Physics
Loading...
Searching...
No Matches
HepGeom::Point3D< float > Class Reference

#include <Point3D.h>

+ Inheritance diagram for HepGeom::Point3D< float >:

Public Member Functions

 Point3D ()=default
 
 Point3D (float x1, float y1, float z1)
 
 Point3D (const float *a)
 
 Point3D (const Point3D< float > &)=default
 
 Point3D (Point3D< float > &&)=default
 
 Point3D (const BasicVector3D< float > &v)
 
 ~Point3D ()=default
 
Point3D< float > & operator= (const Point3D< float > &)=default
 
Point3D< float > & operator= (const BasicVector3D< float > &v)
 
Point3D< float > & operator= (Point3D< float > &&)=default
 
float distance2 () const
 
float distance2 (const Point3D< float > &p) const
 
float distance () const
 
float distance (const Point3D< float > &p) const
 
Point3D< float > & transform (const Transform3D &m)
 
- Public Member Functions inherited from HepGeom::BasicVector3D< float >
 BasicVector3D (float x1, float y1, float z1)
 
 BasicVector3D (const BasicVector3D< float > &)=default
 
 BasicVector3D (const BasicVector3D< float > &v)
 
 BasicVector3D (BasicVector3D< float > &&)=default
 
virtual ~BasicVector3D ()=default
 
 operator float * ()
 
 operator const float * () const
 
 operator CLHEP::Hep3Vector () const
 
BasicVector3D< float > & operator= (const BasicVector3D< float > &)=default
 
BasicVector3D< float > & operator= (BasicVector3D< float > &&)=default
 
BasicVector3D< float > & operator+= (const BasicVector3D< float > &v)
 
BasicVector3D< float > & operator-= (const BasicVector3D< float > &v)
 
BasicVector3D< float > & operator*= (double a)
 
BasicVector3D< float > & operator/= (double a)
 
float operator() (int i) const
 
float & operator() (int i)
 
float operator[] (int i) const
 
float & operator[] (int i)
 
float x () const
 
float y () const
 
float z () const
 
void setX (float a)
 
void setY (float a)
 
void setZ (float a)
 
void set (float x1, float y1, float z1)
 
float perp2 () const
 
float perp2 (const BasicVector3D< float > &v) const
 
float perp () const
 
float perp (const BasicVector3D< float > &v) const
 
float rho () const
 
void setPerp (float rh)
 
float mag2 () const
 
float mag () const
 
float r () const
 
float phi () const
 
float theta () const
 
float cosTheta () const
 
float getR () const
 
float getPhi () const
 
float getTheta () const
 
void setMag (float ma)
 
void setR (float ma)
 
void setPhi (float ph)
 
void setTheta (float th)
 
float pseudoRapidity () const
 
float pseudoRapidity () const
 
double pseudoRapidity () const
 
float eta () const
 
float getEta () const
 
void setEta (float a)
 
void setEta (float a)
 
void setEta (double a)
 
float dot (const BasicVector3D< float > &v) const
 
BasicVector3D< float > cross (const BasicVector3D< float > &v) const
 
float angle (const BasicVector3D< float > &v) const
 
float angle (const BasicVector3D< float > &v) const
 
double angle (const BasicVector3D< double > &v) const
 
BasicVector3D< float > unit () const
 
BasicVector3D< float > orthogonal () const
 
BasicVector3D< float > & rotateX (float a)
 
BasicVector3D< float > & rotateX (float a)
 
BasicVector3D< double > & rotateX (double a)
 
BasicVector3D< float > & rotateY (float a)
 
BasicVector3D< float > & rotateY (float a)
 
BasicVector3D< double > & rotateY (double a)
 
BasicVector3D< float > & rotateZ (float a)
 
BasicVector3D< float > & rotateZ (float a)
 
BasicVector3D< double > & rotateZ (double a)
 
BasicVector3D< float > & rotate (float a, const BasicVector3D< float > &v)
 
BasicVector3D< float > & rotate (float a, const BasicVector3D< float > &v)
 
BasicVector3D< double > & rotate (double a, const BasicVector3D< double > &v)
 

Additional Inherited Members

- Public Types inherited from HepGeom::BasicVector3D< float >
enum  
 
- Protected Member Functions inherited from HepGeom::BasicVector3D< float >
 BasicVector3D ()
 
- Protected Attributes inherited from HepGeom::BasicVector3D< float >
float v_ [3]
 

Detailed Description

Geometrical 3D Point with components of float type.

Author
Evgeni Chernyaev Evgue.nosp@m.ni.T.nosp@m.chern.nosp@m.iaev.nosp@m.@cern.nosp@m..ch

Definition at line 44 of file Point3D.h.

Constructor & Destructor Documentation

◆ Point3D() [1/6]

HepGeom::Point3D< float >::Point3D ( )
default

Default constructor.

◆ Point3D() [2/6]

HepGeom::Point3D< float >::Point3D ( float  x1,
float  y1,
float  z1 
)
inline

Constructor from three numbers.

Definition at line 52 of file Point3D.h.

52: BasicVector3D<float>(x1,y1,z1) {}

◆ Point3D() [3/6]

HepGeom::Point3D< float >::Point3D ( const float *  a)
inlineexplicit

Constructor from array of floats.

Definition at line 56 of file Point3D.h.

57 : BasicVector3D<float>(a[0],a[1],a[2]) {}

◆ Point3D() [4/6]

HepGeom::Point3D< float >::Point3D ( const Point3D< float > &  )
default

Copy constructor.

◆ Point3D() [5/6]

HepGeom::Point3D< float >::Point3D ( Point3D< float > &&  )
default

Move constructor.

◆ Point3D() [6/6]

HepGeom::Point3D< float >::Point3D ( const BasicVector3D< float > &  v)
inline

Constructor from BasicVector3D<float>.

Definition at line 69 of file Point3D.h.

69: BasicVector3D<float>(v) {}

◆ ~Point3D()

HepGeom::Point3D< float >::~Point3D ( )
default

Destructor.

Member Function Documentation

◆ distance() [1/2]

float HepGeom::Point3D< float >::distance ( ) const
inline

Returns distance to the origin.

Definition at line 103 of file Point3D.h.

103{ return std::sqrt(distance2()); }
float distance2() const
Definition: Point3D.h:92

◆ distance() [2/2]

float HepGeom::Point3D< float >::distance ( const Point3D< float > &  p) const
inline

Returns distance to the point.

Definition at line 107 of file Point3D.h.

107 {
108 return std::sqrt(distance2(p));
109 }

◆ distance2() [1/2]

float HepGeom::Point3D< float >::distance2 ( ) const
inline

Returns distance to the origin squared.

Definition at line 92 of file Point3D.h.

92{ return mag2(); }

◆ distance2() [2/2]

float HepGeom::Point3D< float >::distance2 ( const Point3D< float > &  p) const
inline

Returns distance to the point squared.

Definition at line 96 of file Point3D.h.

96 {
97 float dx = p.x()-x(), dy = p.y()-y(), dz = p.z()-z();
98 return dx*dx + dy*dy + dz*dz;
99 }

◆ operator=() [1/3]

Point3D< float > & HepGeom::Point3D< float >::operator= ( const BasicVector3D< float > &  v)
inline

Assignment from BasicVector3D<float>.

Definition at line 81 of file Point3D.h.

81 {
83 return *this;
84 }
BasicVector3D< T > & operator=(const BasicVector3D< T > &)=default

◆ operator=() [2/3]

Point3D< float > & HepGeom::Point3D< float >::operator= ( const Point3D< float > &  )
default

Assignment.

◆ operator=() [3/3]

Point3D< float > & HepGeom::Point3D< float >::operator= ( Point3D< float > &&  )
default

Move assignment.

◆ transform()

Point3D< float > & HepGeom::Point3D< float >::transform ( const Transform3D m)

Transformation by Transform3D.

Definition at line 12 of file Point3D.cc.

12 {
13 double vx = x(), vy = y(), vz = z();
14 set(m.xx()*vx + m.xy()*vy + m.xz()*vz + m.dx(),
15 m.yx()*vx + m.yy()*vy + m.yz()*vz + m.dy(),
16 m.zx()*vx + m.zy()*vy + m.zz()*vz + m.dz());
17 return *this;
18 }
void set(float x1, float y1, float z1)

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