rootdoc/html/UnaryOperators_8h_source.html

 // @(#)root/smatrix:$Id$
 // Authors: T. Glebe, L. Moneta    2005

 #ifndef  ROOT_Math_UnaryOperators
 #define  ROOT_Math_UnaryOperators
 //======================================================
 //
 // ATTENTION: This file was automatically generated,
 //            do not edit!
 //
 // author:    Thorsten Glebe
 //            HERA-B Collaboration
 //            Max-Planck-Institut fuer Kernphysik
 //            Saupfercheckweg 1
 //            69117 Heidelberg
 //            Germany
 //            E-mail: T.Glebe@mpi-hd.mpg.de
 //
 //======================================================

 #include <cmath>

 #include "Math/Expression.h"

 namespace ROOT {

   namespace Math {


 template <class T, unsigned int D> class SVector;
 template <class T, unsigned int D1, unsigned int D2, class R> class SMatrix;


 /**
    Unary Minus Operation Class

    @ingroup Expression
  */
 //==============================================================================
 // Minus
 //==============================================================================
 template <class T>
 class Minus {
 public:
   static inline T apply(const T& rhs) {
     return -(rhs);
   }
 };

 //==============================================================================
 // operator- (Expr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D>
 inline VecExpr<UnaryOp<Minus<T>, VecExpr<A,T,D>, T>, T, D>
  operator-(const VecExpr<A,T,D>& rhs) {
   typedef UnaryOp<Minus<T>, VecExpr<A,T,D>, T> MinusUnaryOp;

   return VecExpr<MinusUnaryOp,T,D>(MinusUnaryOp(Minus<T>(),rhs));
 }


 /**
    Unary - operator   v2 = -v1 .
    returning a vector expression

    @ingroup VectFunction
 */
 //==============================================================================
 // operator- (SVector, unary)
 //==============================================================================
 template <class T, unsigned int D>
 inline VecExpr<UnaryOp<Minus<T>, SVector<T,D>, T>, T, D>
  operator-(const SVector<T,D>& rhs) {
   typedef UnaryOp<Minus<T>, SVector<T,D>, T> MinusUnaryOp;

   return VecExpr<MinusUnaryOp,T,D>(MinusUnaryOp(Minus<T>(),rhs));
 }

 //==============================================================================
 // operator- (MatrixExpr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Minus<T>, Expr<A,T,D,D2,R>, T>, T, D, D2,R>
  operator-(const Expr<A,T,D,D2,R>& rhs) {
   typedef UnaryOp<Minus<T>, Expr<A,T,D,D2,R>, T> MinusUnaryOp;

   return Expr<MinusUnaryOp,T,D,D2,R>(MinusUnaryOp(Minus<T>(),rhs));
 }


 /**
    Unary - operator   B  = - A
    returning a matrix expression

    @ingroup MatrixFunctions
 */
 //==============================================================================
 // operator- (SMatrix, unary)
 //==============================================================================
 template <class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Minus<T>, SMatrix<T,D,D2,R>, T>, T, D, D2,R>
  operator-(const SMatrix<T,D,D2,R>& rhs) {
   typedef UnaryOp<Minus<T>, SMatrix<T,D,D2,R>, T> MinusUnaryOp;

   return Expr<MinusUnaryOp,T,D,D2,R>(MinusUnaryOp(Minus<T>(),rhs));
 }


 //==============================================================================
 // Fabs
 //==============================================================================
 /**
    Unary abs Operation Class

    @ingroup Expression
  */
 template <class T>
 class Fabs {
 public:
   static inline T apply(const T& rhs) {
     return std::abs(rhs);
   }
 };

 //==============================================================================
 // fabs (Expr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D>
 inline VecExpr<UnaryOp<Fabs<T>, VecExpr<A,T,D>, T>, T, D>
  fabs(const VecExpr<A,T,D>& rhs) {
   typedef UnaryOp<Fabs<T>, VecExpr<A,T,D>, T> FabsUnaryOp;

   return VecExpr<FabsUnaryOp,T,D>(FabsUnaryOp(Fabs<T>(),rhs));
 }


 /**
    abs of a vector : v2(i) = | v1(i) |
    returning a vector expression

    @ingroup VectFunction
 */
 //==============================================================================
 // fabs (SVector, unary)
 //==============================================================================
 template <class T, unsigned int D>
 inline VecExpr<UnaryOp<Fabs<T>, SVector<T,D>, T>, T, D>
  fabs(const SVector<T,D>& rhs) {
   typedef UnaryOp<Fabs<T>, SVector<T,D>, T> FabsUnaryOp;

   return VecExpr<FabsUnaryOp,T,D>(FabsUnaryOp(Fabs<T>(),rhs));
 }

 //==============================================================================
 // fabs (MatrixExpr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Fabs<T>, Expr<A,T,D,D2,R>, T>, T, D, D2, R>
  fabs(const Expr<A,T,D,D2,R>& rhs) {
   typedef UnaryOp<Fabs<T>, Expr<A,T,D,D2,R>, T> FabsUnaryOp;

   return Expr<FabsUnaryOp,T,D,D2,R>(FabsUnaryOp(Fabs<T>(),rhs));
 }


 /**
    abs of a matrix  m2(i,j) = | m1(i,j) |
    returning a matrix epression

    @ingroup MatrixFunctions
 */
 //==============================================================================
 // fabs (SMatrix, unary)
 //==============================================================================
 template <class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Fabs<T>, SMatrix<T,D,D2,R>, T>, T, D, D2, R>
  fabs(const SMatrix<T,D,D2,R>& rhs) {
   typedef UnaryOp<Fabs<T>, SMatrix<T,D,D2,R>, T> FabsUnaryOp;

   return Expr<FabsUnaryOp,T,D,D2,R>(FabsUnaryOp(Fabs<T>(),rhs));
 }


 /**
    Unary Square Operation Class

    @ingroup Expression
  */
 //==============================================================================
 // Sqr
 //==============================================================================
 template <class T>
 class Sqr {
 public:
   static inline T apply(const T& rhs) {
     return square(rhs);
   }
 };

 //==============================================================================
 // sqr (Expr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D>
 inline VecExpr<UnaryOp<Sqr<T>, VecExpr<A,T,D>, T>, T, D>
  sqr(const VecExpr<A,T,D>& rhs) {
   typedef UnaryOp<Sqr<T>, VecExpr<A,T,D>, T> SqrUnaryOp;

   return VecExpr<SqrUnaryOp,T,D>(SqrUnaryOp(Sqr<T>(),rhs));
 }


 /**
    square of a vector   v2(i) = v1(i)*v1(i) .
    returning a vector expression

    @ingroup VectFunction
 */
 //==============================================================================
 // sqr (SVector, unary)
 //==============================================================================
 template <class T, unsigned int D>
 inline VecExpr<UnaryOp<Sqr<T>, SVector<T,D>, T>, T, D>
  sqr(const SVector<T,D>& rhs) {
   typedef UnaryOp<Sqr<T>, SVector<T,D>, T> SqrUnaryOp;

   return VecExpr<SqrUnaryOp,T,D>(SqrUnaryOp(Sqr<T>(),rhs));
 }

 //==============================================================================
 // sqr (MatrixExpr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Sqr<T>, Expr<A,T,D,D2,R>, T>, T, D, D2, R>
  sqr(const Expr<A,T,D,D2,R>& rhs) {
   typedef UnaryOp<Sqr<T>, Expr<A,T,D,D2,R>, T> SqrUnaryOp;

   return Expr<SqrUnaryOp,T,D,D2,R>(SqrUnaryOp(Sqr<T>(),rhs));
 }


 /**
    square of a matrix B(i,j)  = A(i,j)*A(i,j)
    returning a matrix expression

    @ingroup MatrixFunctions
 */
 //==============================================================================
 // sqr (SMatrix, unary)
 //==============================================================================
 template <class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Sqr<T>, SMatrix<T,D,D2,R>, T>, T, D, D2, R>
  sqr(const SMatrix<T,D,D2,R>& rhs) {
   typedef UnaryOp<Sqr<T>, SMatrix<T,D,D2,R>, T> SqrUnaryOp;

   return Expr<SqrUnaryOp,T,D,D2,R>(SqrUnaryOp(Sqr<T>(),rhs));
 }


 //==============================================================================
 // Sqrt
 //==============================================================================
 /**
    Unary Square Root Operation Class

    @ingroup Expression
  */
 template <class T>
 class Sqrt {
 public:
   static inline T apply(const T& rhs) {
     return std::sqrt(rhs);
   }
 };

 //==============================================================================
 // sqrt (VecExpr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D>
 inline VecExpr<UnaryOp<Sqrt<T>, VecExpr<A,T,D>, T>, T, D>
  sqrt(const VecExpr<A,T,D>& rhs) {
   typedef UnaryOp<Sqrt<T>, VecExpr<A,T,D>, T> SqrtUnaryOp;

   return VecExpr<SqrtUnaryOp,T,D>(SqrtUnaryOp(Sqrt<T>(),rhs));
 }


 /**
    square root of a vector (element by element) v2(i) = sqrt( v1(i) )
    returning a vector expression

    @ingroup VectFunction
 */
 //==============================================================================
 // sqrt (SVector, unary)
 //==============================================================================
 template <class T, unsigned int D>
 inline VecExpr<UnaryOp<Sqrt<T>, SVector<T,D>, T>, T, D>
  sqrt(const SVector<T,D>& rhs) {
   typedef UnaryOp<Sqrt<T>, SVector<T,D>, T> SqrtUnaryOp;

   return VecExpr<SqrtUnaryOp,T,D>(SqrtUnaryOp(Sqrt<T>(),rhs));
 }

 //==============================================================================
 // sqrt (MatrixExpr, unary)
 //==============================================================================
 template <class A, class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Sqrt<T>, Expr<A,T,D,D2,R>, T>, T, D, D2, R>
  sqrt(const Expr<A,T,D,D2,R>& rhs) {
   typedef UnaryOp<Sqrt<T>, Expr<A,T,D,D2,R>, T> SqrtUnaryOp;

   return Expr<SqrtUnaryOp,T,D,D2,R>(SqrtUnaryOp(Sqrt<T>(),rhs));
 }

 /**
    square root of a matrix (element by element) m2(i,j) = sqrt ( m1(i,j) )
    returning a matrix expression

    @ingroup MatrixFunctions
 */
 //==============================================================================
 // sqrt (SMatrix, unary)
 //==============================================================================
 template <class T, unsigned int D, unsigned int D2, class R>
 inline Expr<UnaryOp<Sqrt<T>, SMatrix<T,D,D2,R>, T>, T, D, D2, R>
  sqrt(const SMatrix<T,D,D2,R>& rhs) {
   typedef UnaryOp<Sqrt<T>, SMatrix<T,D,D2,R>, T> SqrtUnaryOp;

   return Expr<SqrtUnaryOp,T,D,D2,R>(SqrtUnaryOp(Sqrt<T>(),rhs));
 }


   }  // namespace Math

 }  // namespace ROOT


 #endif  /* ROOT_Math_UnaryOperators */
ROOT::Math::Minus::apply
static T apply(const T &rhs)
Definition: UnaryOperators.h:46

ROOT
Namespace for new ROOT classes and functions.
Definition: TFoamSampler.h:19

ROOT::Math::Chebyshev::T
double T(double x)
Definition: ChebyshevPol.h:34

ROOT::Math::Sqr
Unary Square Operation Class.
Definition: UnaryOperators.h:194

ROOT::Math::Fabs
Unary abs Operation Class.
Definition: UnaryOperators.h:119

ROOT::Math::sqrt
VecExpr< UnaryOp< Sqrt< T >, VecExpr< A, T, D >, T >, T, D > sqrt(const VecExpr< A, T, D > &rhs)
Definition: UnaryOperators.h:281

sqrt
double sqrt(double)

ROOT::Math::operator-
DisplacementVector2D< CoordSystem1, U > operator-(DisplacementVector2D< CoordSystem1, U > v1, DisplacementVector2D< CoordSystem2, U > const &v2)
Difference between two DisplacementVector2D vectors.
Definition: DisplacementVector2D.h:446

ROOT::Math::SMatrix
SMatrix: a generic fixed size D1 x D2 Matrix class.
Definition: BinaryOperators.h:31

Expression.h

ROOT::Math::Sqrt
Unary Square Root Operation Class.
Definition: UnaryOperators.h:269

ROOT::Math::Minus
Unary Minus Operation Class.
Definition: UnaryOperators.h:44

ROOT::Math::fabs
VecExpr< UnaryOp< Fabs< T >, VecExpr< A, T, D >, T >, T, D > fabs(const VecExpr< A, T, D > &rhs)
Definition: UnaryOperators.h:131

ROOT::Math::Sqr::apply
static T apply(const T &rhs)
Definition: UnaryOperators.h:196

ROOT::Math::Expr
Definition: Expression.h:138

ROOT::Math::UnaryOp
UnaryOperation class A class representing unary operators in the parse tree.
Definition: Expression.h:361

Math
Namespace for new Math classes and functions.

ROOT::Math::Sqrt::apply
static T apply(const T &rhs)
Definition: UnaryOperators.h:271

ROOT::Math::VecExpr
Expression wrapper class for Vector objects.
Definition: Expression.h:64

TMath::R
constexpr Double_t R()
Universal gas constant ( ) in
Definition: TMath.h:299

ROOT::Math::sqr
VecExpr< UnaryOp< Sqr< T >, VecExpr< A, T, D >, T >, T, D > sqr(const VecExpr< A, T, D > &rhs)
Definition: UnaryOperators.h:206

ROOT::Math::Fabs::apply
static T apply(const T &rhs)
Definition: UnaryOperators.h:121

ROOT::Math::SVector
SVector: a generic fixed size Vector class.
Definition: BinaryOperators.h:30