/*
Copyright (C) 1996, 1997 John W. Eaton
This file is part of Octave.
Octave is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.
Octave is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with Octave; see the file COPYING. If not, write to the Free
Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
*/
#if defined (__GNUG__) && defined (USE_PRAGMA_INTERFACE_IMPLEMENTATION)
#pragma implementation
#endif
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "EIG.h"
#include "dColVector.h"
#include "f77-fcn.h"
#include "lo-error.h"
extern "C"
{
F77_RET_T
F77_FUNC (dgeev, DGEEV) (F77_CONST_CHAR_ARG_DECL,
F77_CONST_CHAR_ARG_DECL,
const int&, double*, const int&, double*,
double*, double*, const int&, double*,
const int&, double*, const int&, int&
F77_CHAR_ARG_LEN_DECL
F77_CHAR_ARG_LEN_DECL);
F77_RET_T
F77_FUNC (zgeev, ZGEEV) (F77_CONST_CHAR_ARG_DECL,
F77_CONST_CHAR_ARG_DECL,
const int&, Complex*, const int&, Complex*,
Complex*, const int&, Complex*, const int&,
Complex*, const int&, double*, int&
F77_CHAR_ARG_LEN_DECL
F77_CHAR_ARG_LEN_DECL);
F77_RET_T
F77_FUNC (dsyev, DSYEV) (F77_CONST_CHAR_ARG_DECL,
F77_CONST_CHAR_ARG_DECL,
const int&, double*, const int&, double*,
double*, const int&, int&
F77_CHAR_ARG_LEN_DECL
F77_CHAR_ARG_LEN_DECL);
F77_RET_T
F77_FUNC (zheev, ZHEEV) (F77_CONST_CHAR_ARG_DECL,
F77_CONST_CHAR_ARG_DECL,
const int&, Complex*, const int&, double*,
Complex*, const int&, double*, int&
F77_CHAR_ARG_LEN_DECL
F77_CHAR_ARG_LEN_DECL);
}
int
EIG::init (const Matrix& a, bool calc_ev)
{
if (a.is_symmetric ())
return symmetric_init (a, calc_ev);
int n = a.rows ();
if (n != a.cols ())
{
(*current_liboctave_error_handler) ("EIG requires square matrix");
return -1;
}
int info = 0;
Matrix atmp = a;
double *tmp_data = atmp.fortran_vec ();
Array<double> wr (n);
double *pwr = wr.fortran_vec ();
Array<double> wi (n);
double *pwi = wi.fortran_vec ();
volatile int nvr = calc_ev ? n : 0;
Matrix vr (nvr, nvr);
double *pvr = vr.fortran_vec ();
int lwork = -1;
double dummy_work;
double *dummy = 0;
int idummy = 1;
F77_XFCN (dgeev, DGEEV, (F77_CONST_CHAR_ARG2 ("N", 1),
F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
n, tmp_data, n, pwr, pwi, dummy,
idummy, pvr, n, &dummy_work, lwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (! f77_exception_encountered && info == 0)
{
lwork = static_cast<int> (dummy_work);
Array<double> work (lwork);
double *pwork = work.fortran_vec ();
F77_XFCN (dgeev, DGEEV, (F77_CONST_CHAR_ARG2 ("N", 1),
F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
n, tmp_data, n, pwr, pwi, dummy,
idummy, pvr, n, pwork, lwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (f77_exception_encountered || info < 0)
{
(*current_liboctave_error_handler) ("unrecoverable error in dgeev");
return info;
}
if (info > 0)
{
(*current_liboctave_error_handler) ("dgeev failed to converge");
return info;
}
lambda.resize (n);
v.resize (nvr, nvr);
for (int j = 0; j < n; j++)
{
if (wi.elem (j) == 0.0)
{
lambda.elem (j) = Complex (wr.elem (j));
for (int i = 0; i < nvr; i++)
v.elem (i, j) = vr.elem (i, j);
}
else
{
if (j+1 >= n)
{
(*current_liboctave_error_handler) ("EIG: internal error");
return -1;
}
lambda.elem(j) = Complex (wr.elem(j), wi.elem(j));
lambda.elem(j+1) = Complex (wr.elem(j+1), wi.elem(j+1));
for (int i = 0; i < nvr; i++)
{
double real_part = vr.elem (i, j);
double imag_part = vr.elem (i, j+1);
v.elem (i, j) = Complex (real_part, imag_part);
v.elem (i, j+1) = Complex (real_part, -imag_part);
}
j++;
}
}
}
else
(*current_liboctave_error_handler) ("dgeev workspace query failed");
return info;
}
int
EIG::symmetric_init (const Matrix& a, bool calc_ev)
{
int n = a.rows ();
if (n != a.cols ())
{
(*current_liboctave_error_handler) ("EIG requires square matrix");
return -1;
}
int info = 0;
Matrix atmp = a;
double *tmp_data = atmp.fortran_vec ();
ColumnVector wr (n);
double *pwr = wr.fortran_vec ();
int lwork = -1;
double dummy_work;
F77_XFCN (dsyev, DSYEV, (F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
F77_CONST_CHAR_ARG2 ("U", 1),
n, tmp_data, n, pwr, &dummy_work, lwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (! f77_exception_encountered && info == 0)
{
lwork = static_cast<int> (dummy_work);
Array<double> work (lwork);
double *pwork = work.fortran_vec ();
F77_XFCN (dsyev, DSYEV, (F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
F77_CONST_CHAR_ARG2 ("U", 1),
n, tmp_data, n, pwr, pwork, lwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (f77_exception_encountered || info < 0)
{
(*current_liboctave_error_handler) ("unrecoverable error in dsyev");
return info;
}
if (info > 0)
{
(*current_liboctave_error_handler) ("dsyev failed to converge");
return info;
}
lambda = ComplexColumnVector (wr);
v = calc_ev ? ComplexMatrix (atmp) : ComplexMatrix ();
}
else
(*current_liboctave_error_handler) ("dsyev workspace query failed");
return info;
}
int
EIG::init (const ComplexMatrix& a, bool calc_ev)
{
if (a.is_hermitian ())
return hermitian_init (a, calc_ev);
int n = a.rows ();
if (n != a.cols ())
{
(*current_liboctave_error_handler) ("EIG requires square matrix");
return -1;
}
int info = 0;
ComplexMatrix atmp = a;
Complex *tmp_data = atmp.fortran_vec ();
ComplexColumnVector w (n);
Complex *pw = w.fortran_vec ();
int nvr = calc_ev ? n : 0;
ComplexMatrix vtmp (nvr, nvr);
Complex *pv = vtmp.fortran_vec ();
int lwork = -1;
Complex dummy_work;
int lrwork = 2*n;
Array<double> rwork (lrwork);
double *prwork = rwork.fortran_vec ();
Complex *dummy = 0;
int idummy = 1;
F77_XFCN (zgeev, ZGEEV, (F77_CONST_CHAR_ARG2 ("N", 1),
F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
n, tmp_data, n, pw, dummy, idummy,
pv, n, &dummy_work, lwork, prwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (! f77_exception_encountered && info == 0)
{
lwork = static_cast<int> (dummy_work.real ());
Array<Complex> work (lwork);
Complex *pwork = work.fortran_vec ();
F77_XFCN (zgeev, ZGEEV, (F77_CONST_CHAR_ARG2 ("N", 1),
F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
n, tmp_data, n, pw, dummy, idummy,
pv, n, pwork, lwork, prwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (f77_exception_encountered || info < 0)
{
(*current_liboctave_error_handler) ("unrecoverable error in zgeev");
return info;
}
if (info > 0)
{
(*current_liboctave_error_handler) ("zgeev failed to converge");
return info;
}
lambda = w;
v = vtmp;
}
else
(*current_liboctave_error_handler) ("zgeev workspace query failed");
return info;
}
int
EIG::hermitian_init (const ComplexMatrix& a, bool calc_ev)
{
int n = a.rows ();
if (n != a.cols ())
{
(*current_liboctave_error_handler) ("EIG requires square matrix");
return -1;
}
int info = 0;
ComplexMatrix atmp = a;
Complex *tmp_data = atmp.fortran_vec ();
ColumnVector wr (n);
double *pwr = wr.fortran_vec ();
int lwork = -1;
Complex dummy_work;
int lrwork = 3*n;
Array<double> rwork (lrwork);
double *prwork = rwork.fortran_vec ();
F77_XFCN (zheev, ZHEEV, (F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
F77_CONST_CHAR_ARG2 ("U", 1),
n, tmp_data, n, pwr, &dummy_work, lwork,
prwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (! f77_exception_encountered && info == 0)
{
lwork = static_cast<int> (dummy_work.real ());
Array<Complex> work (lwork);
Complex *pwork = work.fortran_vec ();
F77_XFCN (zheev, ZHEEV, (F77_CONST_CHAR_ARG2 (calc_ev ? "V" : "N", 1),
F77_CONST_CHAR_ARG2 ("U", 1),
n, tmp_data, n, pwr, pwork, lwork, prwork, info
F77_CHAR_ARG_LEN (1)
F77_CHAR_ARG_LEN (1)));
if (f77_exception_encountered || info < 0)
{
(*current_liboctave_error_handler) ("unrecoverable error in zheev");
return info;
}
if (info > 0)
{
(*current_liboctave_error_handler) ("zheev failed to converge");
return info;
}
lambda = ComplexColumnVector (wr);
v = calc_ev ? ComplexMatrix (atmp) : ComplexMatrix ();
}
else
(*current_liboctave_error_handler) ("zheev workspace query failed");
return info;
}
/*
;;; Local Variables: ***
;;; mode: C++ ***
;;; End: ***
*/
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