doc/v612/Dfact_8h_source.html

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

 #ifndef ROOT_Math_Dfact
 #define ROOT_Math_Dfact
 // ********************************************************************
 //
 // source:
 //
 // type:      source code
 //
 // created:   02. Apr 2001
 //
 // author:    Thorsten Glebe
 //            HERA-B Collaboration
 //            Max-Planck-Institut fuer Kernphysik
 //            Saupfercheckweg 1
 //            69117 Heidelberg
 //            Germany
 //            E-mail: T.Glebe@mpi-hd.mpg.de
 //
 // Description: Determinant of a square matrix
 //              Code was taken from CERNLIB::kernlib dfact function, translated
 //              from FORTRAN to C++ and optimized.
 //
 // changes:
 // 02 Apr 2001 (TG) creation
 //
 // ********************************************************************

 #include <cmath>

 #include "Math/MatrixRepresentationsStatic.h"

 namespace ROOT {

   namespace Math {


 /**
     Detrminant for a general squared matrix
     Function to compute the determinant from a square matrix (\f$ \det(A)\f$) of
     dimension idim and order n.

     @author T. Glebe
 */
 template <unsigned int n, unsigned int idim = n>
 class Determinant {
 public:

 template <class T>
 static bool Dfact(MatRepStd<T,n,idim>& rhs, T& det) {

 #ifdef XXX
   if (idim < n || n <= 0) {
     return false;
   }
 #endif


   /* Initialized data */
   //  const typename MatrixRep::value_type* A = rhs.Array();
   //typename MatrixRep::value_type* a = rhs.Array();

   /* Local variables */
   unsigned int nxch, i, j, k, l;
   //static typename MatrixRep::value_type p, q, tf;
   T p, q, tf;

   /* Parameter adjustments */
   //  a -= idim + 1;
   const int arrayOffset = - int(idim+1);
   /* Function Body */

   // fact.inc

    nxch = 0;
    det = 1.;
    for (j = 1; j <= n; ++j) {
       const unsigned int ji = j * idim;
       const unsigned int jj = j + ji;

       k = j;
       p = std::abs(rhs[jj + arrayOffset]);

       if (j != n) {
          for (i = j + 1; i <= n; ++i) {
             q = std::abs(rhs[i + ji + arrayOffset]);
             if (q > p) {
                k = i;
                p = q;
             }
          } // for i
          if (k != j) {
             for (l = 1; l <= n; ++l) {
                const unsigned int li = l*idim;
                const unsigned int jli = j + li;
                const unsigned int kli = k + li;
                tf = rhs[jli + arrayOffset];
                rhs[jli + arrayOffset] = rhs[kli + arrayOffset];
                rhs[kli + arrayOffset] = tf;
             } // for l
             ++nxch;
          } // if k != j
       } // if j!=n

       if (p <= 0.) {
          det = 0;
          return false;
       }

       det *= rhs[jj + arrayOffset];
 #ifdef XXX
       t = std::abs(det);
       if (t < 1e-19 || t > 1e19) {
          det = 0;
          return false;
       }
 #endif
       // using 1.0f removes a warning on Windows (1.0f is still the same  as 1.0)
       rhs[jj + arrayOffset] = 1.0f / rhs[jj + arrayOffset];
       if (j == n) {
          continue;
       }

       const unsigned int jm1 = j - 1;
       const unsigned int jpi = (j + 1) * idim;
       const unsigned int jjpi = j + jpi;

       for (k = j + 1; k <= n; ++k) {
          const unsigned int ki  = k * idim;
          const unsigned int jki = j + ki;
          const unsigned int kji = k + jpi;
          if (j != 1) {
             for (i = 1; i <= jm1; ++i) {
                const unsigned int ii = i * idim;
                rhs[jki + arrayOffset] -= rhs[i + ki + arrayOffset] * rhs[j + ii + arrayOffset];
                rhs[kji + arrayOffset] -= rhs[i + jpi + arrayOffset] * rhs[k + ii + arrayOffset];
             } // for i
          }
          rhs[jki + arrayOffset] *= rhs[jj + arrayOffset];
          rhs[kji + arrayOffset] -= rhs[jjpi + arrayOffset] * rhs[k + ji + arrayOffset];
       } // for k
    } // for j

    if (nxch % 2 != 0) {
       det = -(det);
   }
   return true;
 } // end of Dfact


    // t.b.d re-implement methods for symmetric
   // symmetric function (copy in a general  one)
   template <class T>
   static bool Dfact(MatRepSym<T,n> & rhs, T & det) {
     // not very efficient but need to re-do Dsinv for new storage of
     // symmetric matrices
     MatRepStd<T,n> tmp;
     for (unsigned int i = 0; i< n*n; ++i)
       tmp[i] = rhs[i];
     if (! Determinant<n>::Dfact(tmp,det) ) return false;
 //     // recopy the data
 //     for (int i = 0; i< idim*n; ++i)
 //       rhs[i] = tmp[i];

     return true;
   }

 };


   }  // namespace Math

 }  // namespace ROOT


 #endif /* ROOT_Math_Dfact */
ROOT
Namespace for new ROOT classes and functions.
Definition: StringConv.hxx:21

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

ROOT::Math::MatRepSym
MatRepSym Matrix storage representation for a symmetric matrix of dimension NxN This class is a templ...
Definition: HelperOps.h:35

MatrixRepresentationsStatic.h

ROOT::Math::Determinant::Dfact
static bool Dfact(MatRepSym< T, n > &rhs, T &det)
Definition: Dfact.h:157

ROOT::Math::MatRepStd
Expression wrapper class for Matrix objects.
Definition: Expression.h:134

ROOT::Math::Determinant
Detrminant for a general squared matrix Function to compute the determinant from a square matrix ( ) ...
Definition: Dfact.h:49

Math
Namespace for new Math classes and functions.

l
auto * l
Definition: textangle.C:4

ROOT::Math::Determinant::Dfact
static bool Dfact(MatRepStd< T, n, idim > &rhs, T &det)
Definition: Dfact.h:53

q
float * q
Definition: THbookFile.cxx:87

n
const Int_t n
Definition: legend1.C:16