ROOT » MATH » SMATRIX » ROOT::Math::MatRepStd<float,2,2>

class ROOT::Math::MatRepStd<float,2,2>


      MatRepStd
      Standard Matrix representation for a general D1 x D2 matrix.
      This class is itself a template on the contained type T, the number of rows and the number of columns.
      Its data member is an array T[nrows*ncols] containing the matrix data.
      The data are stored in the row-major C convention.
      For example, for a matrix, M, of size 3x3, the data \f$ \left[a_0,a_1,a_2,.......,a_7,a_8 \right] \f$d are stored in the following order:
      \f[
      M = \left( \begin{array}{ccc}
      a_0 & a_1 & a_2  \\
      a_3 & a_4  & a_5  \\
      a_6 & a_7  & a_8   \end{array} \right)
      \f]

      @ingroup MatRep

Function Members (Methods)

public:
~MatRepStd<float,2,2>()
floatapply(unsigned int i) const
float*Array()
const float*Array() const
ROOT::Math::MatRepStd<float,2,2>MatRepStd<float,2,2>()
ROOT::Math::MatRepStd<float,2,2>MatRepStd<float,2,2>(const ROOT::Math::MatRepStd<float,2,2>&)
ROOT::Math::MatRepStd<float,2,2>MatRepStd<float,2,2>(ROOT::Math::MatRepStd<float,2,2>&&)
const float&operator()(unsigned int i, unsigned int j) const
float&operator()(unsigned int i, unsigned int j)
ROOT::Math::MatRepStd<float,2,2>&operator=(const ROOT::Math::MatRepStd<float,2,2>&)
ROOT::Math::MatRepStd<float,2,2>&operator=(ROOT::Math::MatRepStd<float,2,2>&&)
ROOT::Math::MatRepStd<float,2U,2U>&operator=<ROOT::Math::MatRepStd<float, 2, 2> >(const ROOT::Math::MatRepStd<float,2,2>& rhs)
float&operator[](unsigned int i)
const float&operator[](unsigned int i) const

Data Members

public:
static ROOT::Math::MatRepStd<float,2,2>::(anonymous)kCols
static ROOT::Math::MatRepStd<float,2,2>::(anonymous)kRows
static ROOT::Math::MatRepStd<float,2,2>::(anonymous)kSize
private:
floatfArray[4]

Class Charts

Inheritance Inherited Members Includes Libraries
Class Charts

Function documentation

const T& operator()(unsigned int i, unsigned int j) const
T& operator()(unsigned int i, unsigned int j)
T& operator[](unsigned int i)
{ return fArray[i]; }
const T& operator[](unsigned int i) const
{ return fArray[i]; }
T apply(unsigned int i) const
{ return fArray[i]; }
T* Array()
{ return fArray; }
const T* Array() const
{ return fArray; }
MatRepStd<T, D1, D2>& operator=(const R& rhs)
MatRepSym<T, D>& operator=(const R&)
         assignment : only symmetric to symmetric allowed