#include <Boost.h>

Collaboration diagram for CLHEP::HepBoost:

Public Member Functions
	HepBoost ()

	HepBoost (const HepBoost &m)

HepBoost &	operator= (const HepBoost &m)

HepBoost &	set (double betaX, double betaY, double betaZ)

	HepBoost (double betaX, double betaY, double betaZ)

HepBoost &	set (const HepRep4x4Symmetric &m)

	HepBoost (const HepRep4x4Symmetric &m)

HepBoost &	set (Hep3Vector direction, double beta)

	HepBoost (Hep3Vector direction, double beta)

HepBoost &	set (const Hep3Vector &boost)

	HepBoost (const Hep3Vector &boost)

HepBoost &	set (const HepBoostX &boost)

HepBoost &	set (const HepBoostY &boost)

HepBoost &	set (const HepBoostZ &boost)

	HepBoost (const HepBoostX &boost)

	HepBoost (const HepBoostY &boost)

	HepBoost (const HepBoostZ &boost)

double	beta () const

double	gamma () const

Hep3Vector	boostVector () const

Hep3Vector	getDirection () const

Hep3Vector	direction () const

double	xx () const

double	xy () const

double	xz () const

double	xt () const

double	yx () const

double	yy () const

double	yz () const

double	yt () const

double	zx () const

double	zy () const

double	zz () const

double	zt () const

double	tx () const

double	ty () const

double	tz () const

double	tt () const

HepLorentzVector	col1 () const

HepLorentzVector	col2 () const

HepLorentzVector	col3 () const

HepLorentzVector	col4 () const

HepLorentzVector	row1 () const

HepLorentzVector	row2 () const

HepLorentzVector	row3 () const

HepLorentzVector	row4 () const

HepRep4x4	rep4x4 () const

HepRep4x4Symmetric	rep4x4Symmetric () const

void	decompose (HepRotation &rotation, HepBoost &boost) const

void	decompose (HepAxisAngle &rotation, Hep3Vector &boost) const

void	decompose (HepBoost &boost, HepRotation &rotation) const

void	decompose (Hep3Vector &boost, HepAxisAngle &rotation) const

int	compare (const HepBoost &b) const

bool	operator== (const HepBoost &b) const

bool	operator!= (const HepBoost &b) const

bool	operator<= (const HepBoost &b) const

bool	operator>= (const HepBoost &b) const

bool	operator< (const HepBoost &b) const

bool	operator> (const HepBoost &b) const

bool	isIdentity () const

double	distance2 (const HepBoost &b) const

double	distance2 (const HepBoostX &bx) const

double	distance2 (const HepBoostY &by) const

double	distance2 (const HepBoostZ &bz) const

double	distance2 (const HepRotation &r) const

double	distance2 (const HepLorentzRotation &lt) const

double	howNear (const HepBoost &b) const

bool	isNear (const HepBoost &b, double epsilon=Hep4RotationInterface::tolerance) const

double	howNear (const HepRotation &r) const

double	howNear (const HepLorentzRotation &lt) const

bool	isNear (const HepRotation &r, double epsilon=Hep4RotationInterface::tolerance) const

bool	isNear (const HepLorentzRotation &lt, double epsilon=Hep4RotationInterface::tolerance) const

double	norm2 () const

void	rectify ()

HepLorentzVector	operator() (const HepLorentzVector &p) const

HepLorentzVector	operator* (const HepLorentzVector &p) const

HepLorentzRotation	operator* (const HepBoost &b) const

HepLorentzRotation	operator* (const HepRotation &r) const

HepLorentzRotation	operator* (const HepLorentzRotation &lt) const

HepBoost	inverse () const

HepBoost &	invert ()

std::ostream &	print (std::ostream &os) const

Static Public Member Functions
static double	getTolerance ()

static double	setTolerance (double tol)

Protected Member Functions
HepLorentzVector	vectorMultiplication (const HepLorentzVector &w) const

HepLorentzRotation	matrixMultiplication (const HepRep4x4 &m) const

HepLorentzRotation	matrixMultiplication (const HepRep4x4Symmetric &m) const

	HepBoost (double xx, double xy, double xz, double xt, double yy, double yz, double yt, double zz, double zt, double tt)

void	setBoost (double bx, double by, double bz)

Protected Attributes
HepRep4x4Symmetric	rep_

Friends
HepBoost	inverseOf (const HepBoost &lt)

Detailed Description

Author

Definition at line 42 of file Boost.h.

Constructor & Destructor Documentation

CLHEP::HepBoost::HepBoost ( )

inline

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CLHEP::HepBoost::HepBoost ( const HepBoost & m )

inline

CLHEP::HepBoost::HepBoost	(	double	betaX,
		double	betaY,
		double	betaZ
	)

inline

CLHEP::HepBoost::HepBoost ( const HepRep4x4Symmetric & m )

inline

CLHEP::HepBoost::HepBoost	(	Hep3Vector	direction,
		double	beta
	)

inline

CLHEP::HepBoost::HepBoost ( const Hep3Vector & boost )

inline

CLHEP::HepBoost::HepBoost ( const HepBoostX & boost )

inline

CLHEP::HepBoost::HepBoost ( const HepBoostY & boost )

inline

CLHEP::HepBoost::HepBoost ( const HepBoostZ & boost )

inline

CLHEP::HepBoost::HepBoost	(	double	xx,
		double	xy,
		double	xz,
		double	xt,
		double	yy,
		double	yz,
		double	yt,
		double	zz,
		double	zt,
		double	tt
	)

inlineprotected

Member Function Documentation

double CLHEP::HepBoost::beta ( ) const

inline

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Hep3Vector CLHEP::HepBoost::boostVector ( ) const

inline

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HepLorentzVector CLHEP::HepBoost::col1 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::col2 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::col3 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::col4 ( ) const

inline

int CLHEP::HepBoost::compare ( const HepBoost & b ) const

inline

void CLHEP::HepBoost::decompose	(	HepRotation &	rotation,
		HepBoost &	boost
	)		const

Definition at line 69 of file Boost.cc.

                                                                         {
   HepAxisAngle vdelta = HepAxisAngle();
   rotation = HepRotation(vdelta);
   Hep3Vector bbeta = boostVector();
   boost = HepBoost(bbeta);
 }

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void CLHEP::HepBoost::decompose	(	HepAxisAngle &	rotation,
		Hep3Vector &	boost
	)		const

Definition at line 76 of file Boost.cc.

                                                                            {
   rotation = HepAxisAngle();
   boost = boostVector();
 }

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void CLHEP::HepBoost::decompose	(	HepBoost &	boost,
		HepRotation &	rotation
	)		const

Definition at line 81 of file Boost.cc.

                                                                         {
   HepAxisAngle vdelta = HepAxisAngle();
   rotation = HepRotation(vdelta);
   Hep3Vector bbeta = boostVector();
   boost = HepBoost(bbeta);
 }

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void CLHEP::HepBoost::decompose	(	Hep3Vector &	boost,
		HepAxisAngle &	rotation
	)		const

Definition at line 88 of file Boost.cc.

                                                                            {
   rotation = HepAxisAngle();
   boost = boostVector();
 }

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Hep3Vector CLHEP::HepBoost::direction ( ) const

inline

double CLHEP::HepBoost::distance2 ( const HepBoost & b ) const

inline

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double CLHEP::HepBoost::distance2 ( const HepBoostX & bx ) const

inline

double CLHEP::HepBoost::distance2 ( const HepBoostY & by ) const

inline

double CLHEP::HepBoost::distance2 ( const HepBoostZ & bz ) const

inline

double CLHEP::HepBoost::distance2 ( const HepRotation & r ) const

Definition at line 95 of file Boost.cc.

                                                         {
   double db2 = norm2();
   double dr2  = r.norm2();
   return (db2 + dr2);
 }

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double CLHEP::HepBoost::distance2 ( const HepLorentzRotation & lt ) const

Definition at line 101 of file Boost.cc.

                                                                 {
   HepBoost b1;
   HepRotation r1;
   lt.decompose(b1,r1);
   double db2 = distance2(b1);
   double dr2  = r1.norm2();
   return (db2 + dr2);
 }

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double CLHEP::HepBoost::gamma ( ) const

inline

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Hep3Vector CLHEP::HepBoost::getDirection ( ) const

inline

static double CLHEP::HepBoost::getTolerance ( )

inlinestatic

double CLHEP::HepBoost::howNear ( const HepBoost & b ) const

inline

double CLHEP::HepBoost::howNear ( const HepRotation & r ) const

Definition at line 110 of file Boost.cc.

                                                         {
   return std::sqrt(distance2(r));
 }

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double CLHEP::HepBoost::howNear ( const HepLorentzRotation & lt ) const

Definition at line 114 of file Boost.cc.

                                                                 {
   return std::sqrt(distance2(lt));
 }

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HepBoost CLHEP::HepBoost::inverse ( ) const

inline

HepBoost& CLHEP::HepBoost::invert ( )

inline

bool CLHEP::HepBoost::isIdentity ( ) const

inline

bool CLHEP::HepBoost::isNear	(	const HepBoost &	b,
		double	epsilon = `Hep4RotationInterface::tolerance`
	)		const

inline

bool CLHEP::HepBoost::isNear	(	const HepRotation &	r,
		double	epsilon = `Hep4RotationInterface::tolerance`
	)		const

Definition at line 118 of file Boost.cc.

                                                                   {
   double db2 = norm2();
   if (db2 > epsilon*epsilon) return false;
   double dr2  = r.norm2();
   return (db2+dr2 <= epsilon*epsilon);
 }

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bool CLHEP::HepBoost::isNear	(	const HepLorentzRotation &	lt,
		double	epsilon = `Hep4RotationInterface::tolerance`
	)		const

Definition at line 125 of file Boost.cc.

                                              {
   HepBoost b1;
   HepRotation r1;
   double db2 = distance2(b1);
   lt.decompose(b1,r1);
   if (db2 > epsilon*epsilon) return false;
   double dr2  = r1.norm2();
   return (db2 + dr2);
 }

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HepLorentzRotation CLHEP::HepBoost::matrixMultiplication ( const HepRep4x4 & m ) const

protected

Definition at line 180 of file Boost.cc.

                                                          {
   HepRep4x4Symmetric r = rep4x4Symmetric();
   return HepLorentzRotation( HepRep4x4 (
     r.xx_*m1.xx_ + r.xy_*m1.yx_ + r.xz_*m1.zx_ + r.xt_*m1.tx_,
     r.xx_*m1.xy_ + r.xy_*m1.yy_ + r.xz_*m1.zy_ + r.xt_*m1.ty_,
     r.xx_*m1.xz_ + r.xy_*m1.yz_ + r.xz_*m1.zz_ + r.xt_*m1.tz_,
     r.xx_*m1.xt_ + r.xy_*m1.yt_ + r.xz_*m1.zt_ + r.xt_*m1.tt_,
 
     r.xy_*m1.xx_ + r.yy_*m1.yx_ + r.yz_*m1.zx_ + r.yt_*m1.tx_,
     r.xy_*m1.xy_ + r.yy_*m1.yy_ + r.yz_*m1.zy_ + r.yt_*m1.ty_,
     r.xy_*m1.xz_ + r.yy_*m1.yz_ + r.yz_*m1.zz_ + r.yt_*m1.tz_,
     r.xy_*m1.xt_ + r.yy_*m1.yt_ + r.yz_*m1.zt_ + r.yt_*m1.tt_,
 
     r.xz_*m1.xx_ + r.yz_*m1.yx_ + r.zz_*m1.zx_ + r.zt_*m1.tx_,
     r.xz_*m1.xy_ + r.yz_*m1.yy_ + r.zz_*m1.zy_ + r.zt_*m1.ty_,
     r.xz_*m1.xz_ + r.yz_*m1.yz_ + r.zz_*m1.zz_ + r.zt_*m1.tz_,
     r.xz_*m1.xt_ + r.yz_*m1.yt_ + r.zz_*m1.zt_ + r.zt_*m1.tt_,
 
     r.xt_*m1.xx_ + r.yt_*m1.yx_ + r.zt_*m1.zx_ + r.tt_*m1.tx_,
     r.xt_*m1.xy_ + r.yt_*m1.yy_ + r.zt_*m1.zy_ + r.tt_*m1.ty_,
     r.xt_*m1.xz_ + r.yt_*m1.yz_ + r.zt_*m1.zz_ + r.tt_*m1.tz_,
     r.xt_*m1.xt_ + r.yt_*m1.yt_ + r.zt_*m1.zt_ + r.tt_*m1.tt_) );
 }

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HepLorentzRotation CLHEP::HepBoost::matrixMultiplication ( const HepRep4x4Symmetric & m ) const

protected

Definition at line 205 of file Boost.cc.

                                                                   {
   HepRep4x4Symmetric r = rep4x4Symmetric();
   return HepLorentzRotation( HepRep4x4 (
     r.xx_*m1.xx_ + r.xy_*m1.xy_ + r.xz_*m1.xz_ + r.xt_*m1.xt_,
     r.xx_*m1.xy_ + r.xy_*m1.yy_ + r.xz_*m1.yz_ + r.xt_*m1.yt_,
     r.xx_*m1.xz_ + r.xy_*m1.yz_ + r.xz_*m1.zz_ + r.xt_*m1.zt_,
     r.xx_*m1.xt_ + r.xy_*m1.yt_ + r.xz_*m1.zt_ + r.xt_*m1.tt_,
 
     r.xy_*m1.xx_ + r.yy_*m1.xy_ + r.yz_*m1.xz_ + r.yt_*m1.xt_,
     r.xy_*m1.xy_ + r.yy_*m1.yy_ + r.yz_*m1.yz_ + r.yt_*m1.yt_,
     r.xy_*m1.xz_ + r.yy_*m1.yz_ + r.yz_*m1.zz_ + r.yt_*m1.zt_,
     r.xy_*m1.xt_ + r.yy_*m1.yt_ + r.yz_*m1.zt_ + r.yt_*m1.tt_,
 
     r.xz_*m1.xx_ + r.yz_*m1.xy_ + r.zz_*m1.xz_ + r.zt_*m1.xt_,
     r.xz_*m1.xy_ + r.yz_*m1.yy_ + r.zz_*m1.yz_ + r.zt_*m1.yt_,
     r.xz_*m1.xz_ + r.yz_*m1.yz_ + r.zz_*m1.zz_ + r.zt_*m1.zt_,
     r.xz_*m1.xt_ + r.yz_*m1.yt_ + r.zz_*m1.zt_ + r.zt_*m1.tt_,
 
     r.xt_*m1.xx_ + r.yt_*m1.xy_ + r.zt_*m1.xz_ + r.tt_*m1.xt_,
     r.xt_*m1.xy_ + r.yt_*m1.yy_ + r.zt_*m1.yz_ + r.tt_*m1.yt_,
     r.xt_*m1.xz_ + r.yt_*m1.yz_ + r.zt_*m1.zz_ + r.tt_*m1.zt_,
     r.xt_*m1.xt_ + r.yt_*m1.yt_ + r.zt_*m1.zt_ + r.tt_*m1.tt_) );
 }

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double CLHEP::HepBoost::norm2 ( ) const

Definition at line 138 of file Boost.cc.

                              {
   double bgx = rep_.xt_;
   double bgy = rep_.yt_;
   double bgz = rep_.zt_;
   return bgx*bgx+bgy*bgy+bgz*bgz;
 }

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bool CLHEP::HepBoost::operator!= ( const HepBoost & b ) const

inline

HepLorentzVector CLHEP::HepBoost::operator() ( const HepLorentzVector & p ) const

inline

HepLorentzVector CLHEP::HepBoost::operator* ( const HepLorentzVector & p ) const

inline

HepLorentzRotation CLHEP::HepBoost::operator* ( const HepBoost & b ) const

Definition at line 235 of file Boost.cc.

                                              {
   return matrixMultiplication(b.rep_);
 }

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HepLorentzRotation CLHEP::HepBoost::operator* ( const HepRotation & r ) const

Definition at line 240 of file Boost.cc.

                                                 {
   return matrixMultiplication(r.rep4x4());
 }

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HepLorentzRotation CLHEP::HepBoost::operator* ( const HepLorentzRotation & lt ) const

Definition at line 230 of file Boost.cc.

                                                         {
   return matrixMultiplication(lt.rep4x4());
 }

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bool CLHEP::HepBoost::operator< ( const HepBoost & b ) const

inline

bool CLHEP::HepBoost::operator<= ( const HepBoost & b ) const

inline

HepBoost& CLHEP::HepBoost::operator= ( const HepBoost & m )

inline

bool CLHEP::HepBoost::operator== ( const HepBoost & b ) const

inline

bool CLHEP::HepBoost::operator> ( const HepBoost & b ) const

inline

bool CLHEP::HepBoost::operator>= ( const HepBoost & b ) const

inline

std::ostream & CLHEP::HepBoost::print ( std::ostream & os ) const

Definition at line 246 of file Boost.cc.

                                                     {
   if ( rep_.tt_ <= 1 ) {
     os << "Lorentz Boost( IDENTITY )";
   } else {
     double norm = boostVector().mag();
     os << "\nLorentz Boost " << boostVector()/norm <<
           "\n{beta = " << beta() << " gamma = " << gamma() << "}\n";
   }
   return os;
 }

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void CLHEP::HepBoost::rectify ( )

Definition at line 145 of file Boost.cc.

                        {
   // Assuming the representation of this is close to a true pure boost,
   // but may have drifted due to round-off error from many operations,
   // this forms an "exact" pure boost matrix for the LT again.
 
   // The natural way to do this is to use the t column as a boost and set 
   // based on that boost vector.
   
   // There is perhaps danger that this boost vector will appear equal to or 
   // greater than a unit vector; the best we can do for such a case is use
   // a boost in that direction but rescaled to just less than one.
 
   // There is in principle no way that gamma could have become negative,
   // but if that happens, we ZMthrow and (if continuing) just rescale, which
   // will change the sign of the last column when computing the boost.
 
   double gam = tt();
   if (gam <= 0) {                   // 4/12/01 mf 
     std::cerr << "HepBoost::rectify() - "
       << "Attempt to rectify a boost with non-positive gamma." << std::endl;
     if (gam==0) return;                 // NaN-proofing
   }    
   Hep3Vector boost (xt(), yt(), zt());
   boost /= tt();
   if ( boost.mag2() >= 1 ) {                // NaN-proofing:
     boost /= ( boost.mag() * ( 1.0 + 1.0e-16 ) );   // used to just check > 1
   }
   set ( boost );
 }

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HepRep4x4 CLHEP::HepBoost::rep4x4 ( ) const

inline

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HepRep4x4Symmetric CLHEP::HepBoost::rep4x4Symmetric ( ) const

inline

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HepLorentzVector CLHEP::HepBoost::row1 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::row2 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::row3 ( ) const

inline

HepLorentzVector CLHEP::HepBoost::row4 ( ) const

inline

HepBoost & CLHEP::HepBoost::set	(	double	betaX,
		double	betaY,
		double	betaZ
	)

Definition at line 21 of file Boost.cc.

                                                          {
   double bp2 = bx*bx + by*by + bz*bz;
 //  if (bp2 >= 1) {
 //    std::cerr << "HepBoost::set() - "
 //      << "Boost Vector supplied to set HepBoost represents speed >= c." << std::endl;
 //  }    
   double ggamma = 1.0 / std::sqrt(1.0 - bp2);
   double bgamma = ggamma * ggamma / (1.0 + ggamma);
   rep_.xx_ = 1.0 + bgamma * bx * bx;
   rep_.yy_ = 1.0 + bgamma * by * by;
   rep_.zz_ = 1.0 + bgamma * bz * bz;
   rep_.xy_ = bgamma * bx * by;
   rep_.xz_ = bgamma * bx * bz;
   rep_.yz_ = bgamma * by * bz;
   rep_.xt_ = ggamma * bx;
   rep_.yt_ = ggamma * by;
   rep_.zt_ = ggamma * bz;
   rep_.tt_ = ggamma;
   return *this;
 }

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HepBoost & CLHEP::HepBoost::set ( const HepRep4x4Symmetric & m )

Definition at line 42 of file Boost.cc.

                                                        {
   rep_ = m1;
   return *this;
 }

HepBoost & CLHEP::HepBoost::set	(	Hep3Vector	direction,
		double	beta
	)

Definition at line 47 of file Boost.cc.

                                                              {
   double length = ddirection.mag();
   if (length <= 0) {                // Nan-proofing
     std::cerr << "HepBoost::set() - "
       << "Direction supplied to set HepBoost is zero." << std::endl;
     set (0,0,0);
     return *this;
   }    
   set(bbeta*ddirection.x()/length,
       bbeta*ddirection.y()/length,
       bbeta*ddirection.z()/length);
   return *this;
 }

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HepBoost & CLHEP::HepBoost::set ( const Hep3Vector & boost )

Definition at line 61 of file Boost.cc.

                                                    {
   return set (bboost.x(), bboost.y(), bboost.z());
 }

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HepBoost& CLHEP::HepBoost::set ( const HepBoostX & boost )

inline

HepBoost& CLHEP::HepBoost::set ( const HepBoostY & boost )

inline

HepBoost& CLHEP::HepBoost::set ( const HepBoostZ & boost )

inline

void CLHEP::HepBoost::setBoost	(	double	bx,
		double	by,
		double	bz
	)

inlineprotected

static double CLHEP::HepBoost::setTolerance ( double tol )

inlinestatic

double CLHEP::HepBoost::tt ( ) const

inline

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double CLHEP::HepBoost::tx ( ) const

inline

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double CLHEP::HepBoost::ty ( ) const

inline

double CLHEP::HepBoost::tz ( ) const

inline

HepLorentzVector CLHEP::HepBoost::vectorMultiplication ( const HepLorentzVector & w ) const

inlineprotected

double CLHEP::HepBoost::xt ( ) const

inline

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double CLHEP::HepBoost::xx ( ) const

inline

double CLHEP::HepBoost::xy ( ) const

inline

double CLHEP::HepBoost::xz ( ) const

inline

double CLHEP::HepBoost::yt ( ) const

inline

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double CLHEP::HepBoost::yx ( ) const

inline

double CLHEP::HepBoost::yy ( ) const

inline

double CLHEP::HepBoost::yz ( ) const

inline

double CLHEP::HepBoost::zt ( ) const

inline

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double CLHEP::HepBoost::zx ( ) const

inline

double CLHEP::HepBoost::zy ( ) const

inline

double CLHEP::HepBoost::zz ( ) const

inline

Friends And Related Function Documentation

HepBoost inverseOf ( const HepBoost & lt )

friend

Member Data Documentation

HepRep4x4Symmetric CLHEP::HepBoost::rep_

protected

Definition at line 235 of file Boost.h.

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

source/geant4.10.03.p03/source/externals/clhep/include/CLHEP/Vector/Boost.h
source/geant4.10.03.p03/source/externals/clhep/src/Boost.cc

Public Member Functions

Static Public Member Functions

Protected Member Functions

Protected Attributes

Friends

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Friends And Related Function Documentation

Member Data Documentation