/* trbak3.f -- translated by f2c (version 19961017).
You must link the resulting object file with the libraries:
-lf2c -lm (in that order)
*/
#include "f2c.h"
/* Subroutine */ int trbak3_(integer *nm, integer *n, integer *nv, doublereal
*a, integer *m, doublereal *z__)
{
/* System generated locals */
integer z_dim1, z_offset, i__1, i__2, i__3;
/* Local variables */
static doublereal h__;
static integer i__, j, k, l;
static doublereal s;
static integer ik, iz;
/* THIS SUBROUTINE IS A TRANSLATION OF THE ALGOL PROCEDURE TRBAK3, */
/* NUM. MATH. 11, 181-195(1968) BY MARTIN, REINSCH, AND WILKINSON. */
/* HANDBOOK FOR AUTO. COMP., VOL.II-LINEAR ALGEBRA, 212-226(1971). */
/* THIS SUBROUTINE FORMS THE EIGENVECTORS OF A REAL SYMMETRIC */
/* MATRIX BY BACK TRANSFORMING THOSE OF THE CORRESPONDING */
/* SYMMETRIC TRIDIAGONAL MATRIX DETERMINED BY TRED3. */
/* ON INPUT */
/* NM MUST BE SET TO THE ROW DIMENSION OF TWO-DIMENSIONAL */
/* ARRAY PARAMETERS AS DECLARED IN THE CALLING PROGRAM */
/* DIMENSION STATEMENT. */
/* N IS THE ORDER OF THE MATRIX. */
/* NV MUST BE SET TO THE DIMENSION OF THE ARRAY PARAMETER A */
/* AS DECLARED IN THE CALLING PROGRAM DIMENSION STATEMENT. */
/* A CONTAINS INFORMATION ABOUT THE ORTHOGONAL TRANSFORMATIONS */
/* USED IN THE REDUCTION BY TRED3 IN ITS FIRST */
/* N*(N+1)/2 POSITIONS. */
/* M IS THE NUMBER OF EIGENVECTORS TO BE BACK TRANSFORMED. */
/* Z CONTAINS THE EIGENVECTORS TO BE BACK TRANSFORMED */
/* IN ITS FIRST M COLUMNS. */
/* ON OUTPUT */
/* Z CONTAINS THE TRANSFORMED EIGENVECTORS */
/* IN ITS FIRST M COLUMNS. */
/* NOTE THAT TRBAK3 PRESERVES VECTOR EUCLIDEAN NORMS. */
/* QUESTIONS AND COMMENTS SHOULD BE DIRECTED TO BURTON S. GARBOW, */
/* MATHEMATICS AND COMPUTER SCIENCE DIV, ARGONNE NATIONAL LABORATORY
*/
/* THIS VERSION DATED AUGUST 1983. */
/* ------------------------------------------------------------------
*/
/* Parameter adjustments */
--a;
z_dim1 = *nm;
z_offset = z_dim1 + 1;
z__ -= z_offset;
/* Function Body */
if (*m == 0) {
goto L200;
}
if (*n == 1) {
goto L200;
}
i__1 = *n;
for (i__ = 2; i__ <= i__1; ++i__) {
l = i__ - 1;
iz = i__ * l / 2;
ik = iz + i__;
h__ = a[ik];
if (h__ == 0.) {
goto L140;
}
i__2 = *m;
for (j = 1; j <= i__2; ++j) {
s = 0.;
ik = iz;
i__3 = l;
for (k = 1; k <= i__3; ++k) {
++ik;
s += a[ik] * z__[k + j * z_dim1];
/* L110: */
}
/* .......... DOUBLE DIVISION AVOIDS POSSIBLE UNDERFLOW ......
.... */
s = s / h__ / h__;
ik = iz;
i__3 = l;
for (k = 1; k <= i__3; ++k) {
++ik;
z__[k + j * z_dim1] -= s * a[ik];
/* L120: */
}
/* L130: */
}
L140:
;
}
L200:
return 0;
} /* trbak3_ */
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