doc/v620/mnteigen_8cxx_source.html

// @(#)root/minuit2:$Id$

// Authors: M. Winkler, F. James, L. Moneta, A. Zsenei   2003-2005


/**********************************************************************

 *                                                                    *

 * Copyright (c) 2005 LCG ROOT Math team,  CERN/PH-SFT                *

 *                                                                    *

 **********************************************************************/


/* mneig.F -- translated by f2c (version 20010320).

   You must link the resulting object file with the libraries:

        -lf2c -lm   (in that order)

*/


#include <math.h>


namespace ROOT {


   namespace Minuit2 {


int mneigen(double* a, unsigned int ndima, unsigned int n, unsigned int mits,

            double* work, double precis) {

   // compute matrix eignevalues (transaltion from mneig.F of Minuit)


   /* System generated locals */

   unsigned int a_dim1, a_offset, i__1, i__2, i__3;

   double r__1, r__2;


   /* Local variables */

   double b, c__, f, h__;

   unsigned int i__, j, k, l, m = 0;

   double r__, s;

   unsigned int i0, i1, j1, m1, n1;

   double hh, gl, pr, pt;


   /*          PRECIS is the machine precision EPSMAC */

   /* Parameter adjustments */

   a_dim1 = ndima;

   a_offset = 1 + a_dim1 * 1;

   a -= a_offset;

   --work;


   /* Function Body */

   int ifault = 1;


   i__ = n;

   i__1 = n;

   for (i1 = 2; i1 <= i__1; ++i1) {

      l = i__ - 2;

      f = a[i__ + (i__ - 1) * a_dim1];

      gl = (double)0.;


      if (l < 1) {

         goto L25;

      }


      i__2 = l;

      for (k = 1; k <= i__2; ++k) {

         /* Computing 2nd power */

         r__1 = a[i__ + k * a_dim1];

         gl += r__1 * r__1;

      }

L25:

         /* Computing 2nd power */

         r__1 = f;

      h__ = gl + r__1 * r__1;


      if (gl > (double)1e-35) {

         goto L30;

      }


      work[i__] = (double)0.;

      work[n + i__] = f;

      goto L65;

L30:

         ++l;


      gl = sqrt(h__);


      if (f >= (double)0.) {

         gl = -gl;

      }


      work[n + i__] = gl;

      h__ -= f * gl;

      a[i__ + (i__ - 1) * a_dim1] = f - gl;

      f = (double)0.;

      i__2 = l;

      for (j = 1; j <= i__2; ++j) {

         a[j + i__ * a_dim1] = a[i__ + j * a_dim1] / h__;

         gl = (double)0.;

         i__3 = j;

         for (k = 1; k <= i__3; ++k) {

            gl += a[j + k * a_dim1] * a[i__ + k * a_dim1];

         }


         if (j >= l) {

            goto L47;

         }


         j1 = j + 1;

         i__3 = l;

         for (k = j1; k <= i__3; ++k) {

            gl += a[k + j * a_dim1] * a[i__ + k * a_dim1];

         }

L47:

            work[n + j] = gl / h__;

         f += gl * a[j + i__ * a_dim1];

      }

      hh = f / (h__ + h__);

      i__2 = l;

      for (j = 1; j <= i__2; ++j) {

         f = a[i__ + j * a_dim1];

         gl = work[n + j] - hh * f;

         work[n + j] = gl;

         i__3 = j;

         for (k = 1; k <= i__3; ++k) {

            a[j + k * a_dim1] = a[j + k * a_dim1] - f * work[n + k] - gl

            * a[i__ + k * a_dim1];

         }

      }

      work[i__] = h__;

L65:

         --i__;

   }

   work[1] = (double)0.;

   work[n + 1] = (double)0.;

   i__1 = n;

   for (i__ = 1; i__ <= i__1; ++i__) {

      l = i__ - 1;


      if (work[i__] == (double)0. || l == 0) {

         goto L100;

      }


      i__3 = l;

      for (j = 1; j <= i__3; ++j) {

         gl = (double)0.;

         i__2 = l;

         for (k = 1; k <= i__2; ++k) {

            gl += a[i__ + k * a_dim1] * a[k + j * a_dim1];

         }

         i__2 = l;

         for (k = 1; k <= i__2; ++k) {

            a[k + j * a_dim1] -= gl * a[k + i__ * a_dim1];

         }

      }

L100:

         work[i__] = a[i__ + i__ * a_dim1];

      a[i__ + i__ * a_dim1] = (double)1.;


      if (l == 0) {

         goto L110;

      }


      i__2 = l;

      for (j = 1; j <= i__2; ++j) {

         a[i__ + j * a_dim1] = (double)0.;

         a[j + i__ * a_dim1] = (double)0.;

      }

L110:

         ;

   }


   n1 = n - 1;

   i__1 = n;

   for (i__ = 2; i__ <= i__1; ++i__) {

      i0 = n + i__ - 1;

      work[i0] = work[i0 + 1];

   }

   work[n + n] = (double)0.;

   b = (double)0.;

   f = (double)0.;

   i__1 = n;

   for (l = 1; l <= i__1; ++l) {

      j = 0;

      h__ = precis * ((r__1 = work[l], fabs(r__1)) + (r__2 = work[n + l],

                                                      fabs(r__2)));


      if (b < h__) {

         b = h__;

      }


      i__2 = n;

      for (m1 = l; m1 <= i__2; ++m1) {

         m = m1;


         if ((r__1 = work[n + m], fabs(r__1)) <= b) {

            goto L150;

         }


      }


L150:

         if (m == l) {

            goto L205;

         }


L160:

         if (j == mits) {

            return ifault;

         }


      ++j;

      pt = (work[l + 1] - work[l]) / (work[n + l] * (double)2.);

      r__ = sqrt(pt * pt + (double)1.);

      pr = pt + r__;


      if (pt < (double)0.) {

         pr = pt - r__;

      }


      h__ = work[l] - work[n + l] / pr;

      i__2 = n;

      for (i__ = l; i__ <= i__2; ++i__) {

         work[i__] -= h__;

      }

      f += h__;

      pt = work[m];

      c__ = (double)1.;

      s = (double)0.;

      m1 = m - 1;

      i__ = m;

      i__2 = m1;

      for (i1 = l; i1 <= i__2; ++i1) {

         j = i__;

         --i__;

         gl = c__ * work[n + i__];

         h__ = c__ * pt;


         if (fabs(pt) >= (r__1 = work[n + i__], fabs(r__1))) {

            goto L180;

         }


         c__ = pt / work[n + i__];

         r__ = sqrt(c__ * c__ + (double)1.);

         work[n + j] = s * work[n + i__] * r__;

         s = (double)1. / r__;

         c__ /= r__;

         goto L190;

L180:

            c__ = work[n + i__] / pt;

         r__ = sqrt(c__ * c__ + (double)1.);

         work[n + j] = s * pt * r__;

         s = c__ / r__;

         c__ = (double)1. / r__;

L190:

            pt = c__ * work[i__] - s * gl;

         work[j] = h__ + s * (c__ * gl + s * work[i__]);

         i__3 = n;

         for (k = 1; k <= i__3; ++k) {

            h__ = a[k + j * a_dim1];

            a[k + j * a_dim1] = s * a[k + i__ * a_dim1] + c__ * h__;

            a[k + i__ * a_dim1] = c__ * a[k + i__ * a_dim1] - s * h__;

         }

      }

      work[n + l] = s * pt;

      work[l] = c__ * pt;


      if ((r__1 = work[n + l], fabs(r__1)) > b) {

         goto L160;

      }


L205:

         work[l] += f;

   }

   i__1 = n1;

   for (i__ = 1; i__ <= i__1; ++i__) {

      k = i__;

      pt = work[i__];

      i1 = i__ + 1;

      i__3 = n;

      for (j = i1; j <= i__3; ++j) {


         if (work[j] >= pt) {

            goto L220;

         }


         k = j;

         pt = work[j];

L220:

            ;

      }


      if (k == i__) {

         goto L240;

      }


      work[k] = work[i__];

      work[i__] = pt;

      i__3 = n;

      for (j = 1; j <= i__3; ++j) {

         pt = a[j + i__ * a_dim1];

         a[j + i__ * a_dim1] = a[j + k * a_dim1];

         a[j + k * a_dim1] = pt;

      }

L240:

         ;

   }

   ifault = 0;


   return ifault;

} /* mneig_ */


   }  // namespace Minuit2


}  // namespace ROOT

b
#define b(i)
Definition: RSha256.hxx:100

f
#define f(i)
Definition: RSha256.hxx:104

e
#define e(i)
Definition: RSha256.hxx:103

sqrt
double sqrt(double)

pt
TPaveText * pt
Definition: entrylist_figure1.C:7

n
const Int_t n
Definition: legend1.C:16

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::Minuit2::mneigen
int mneigen(double *, unsigned int, unsigned int, unsigned int, double *, double)
Definition: mnteigen.cxx:22

ROOT
VSD Structures.
Definition: StringConv.hxx:21

TGeant4Unit::s
static constexpr double s
Definition: TGeant4SystemOfUnits.h:162

m
auto * m
Definition: textangle.C:8

l
auto * l
Definition: textangle.C:4

a
auto * a
Definition: textangle.C:12