/* rg.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 rg_(integer *nm, integer *n, doublereal *a, doublereal * wr, doublereal *wi, integer *matz, doublereal *z__, integer *iv1, doublereal *fv1, integer *ierr) { /* System generated locals */ integer a_dim1, a_offset, z_dim1, z_offset; /* Local variables */ extern /* Subroutine */ int balbak_(integer *, integer *, integer *, integer *, doublereal *, integer *, doublereal *), balanc_( integer *, integer *, doublereal *, integer *, integer *, doublereal *), elmhes_(integer *, integer *, integer *, integer *, doublereal *, integer *), eltran_(integer *, integer *, integer * , integer *, doublereal *, integer *, doublereal *); static integer is1, is2; extern /* Subroutine */ int hqr_(integer *, integer *, integer *, integer *, doublereal *, doublereal *, doublereal *, integer *), hqr2_( integer *, integer *, integer *, integer *, doublereal *, doublereal *, doublereal *, doublereal *, integer *); /* THIS SUBROUTINE CALLS THE RECOMMENDED SEQUENCE OF */ /* SUBROUTINES FROM THE EIGENSYSTEM SUBROUTINE PACKAGE (EISPACK) */ /* TO FIND THE EIGENVALUES AND EIGENVECTORS (IF DESIRED) */ /* OF A REAL GENERAL MATRIX. */ /* ON INPUT */ /* NM MUST BE SET TO THE ROW DIMENSION OF THE TWO-DIMENSIONAL */ /* ARRAY PARAMETERS AS DECLARED IN THE CALLING PROGRAM */ /* DIMENSION STATEMENT. */ /* N IS THE ORDER OF THE MATRIX A. */ /* A CONTAINS THE REAL GENERAL MATRIX. */ /* MATZ IS AN INTEGER VARIABLE SET EQUAL TO ZERO IF */ /* ONLY EIGENVALUES ARE DESIRED. OTHERWISE IT IS SET TO */ /* ANY NON-ZERO INTEGER FOR BOTH EIGENVALUES AND EIGENVECTORS. */ /* ON OUTPUT */ /* WR AND WI CONTAIN THE REAL AND IMAGINARY PARTS, */ /* RESPECTIVELY, OF THE EIGENVALUES. COMPLEX CONJUGATE */ /* PAIRS OF EIGENVALUES APPEAR CONSECUTIVELY WITH THE */ /* EIGENVALUE HAVING THE POSITIVE IMAGINARY PART FIRST. */ /* Z CONTAINS THE REAL AND IMAGINARY PARTS OF THE EIGENVECTORS */ /* IF MATZ IS NOT ZERO. IF THE J-TH EIGENVALUE IS REAL, THE */ /* J-TH COLUMN OF Z CONTAINS ITS EIGENVECTOR. IF THE J-TH */ /* EIGENVALUE IS COMPLEX WITH POSITIVE IMAGINARY PART, THE */ /* J-TH AND (J+1)-TH COLUMNS OF Z CONTAIN THE REAL AND */ /* IMAGINARY PARTS OF ITS EIGENVECTOR. THE CONJUGATE OF THIS */ /* VECTOR IS THE EIGENVECTOR FOR THE CONJUGATE EIGENVALUE. */ /* IERR IS AN INTEGER OUTPUT VARIABLE SET EQUAL TO AN ERROR */ /* COMPLETION CODE DESCRIBED IN THE DOCUMENTATION FOR HQR */ /* AND HQR2. THE NORMAL COMPLETION CODE IS ZERO. */ /* IV1 AND FV1 ARE TEMPORARY STORAGE ARRAYS. */ /* 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 */ --fv1; --iv1; z_dim1 = *nm; z_offset = z_dim1 + 1; z__ -= z_offset; --wi; --wr; a_dim1 = *nm; a_offset = a_dim1 + 1; a -= a_offset; /* Function Body */ if (*n <= *nm) { goto L10; } *ierr = *n * 10; goto L50; L10: balanc_(nm, n, &a[a_offset], &is1, &is2, &fv1[1]); elmhes_(nm, n, &is1, &is2, &a[a_offset], &iv1[1]); if (*matz != 0) { goto L20; } /* .......... FIND EIGENVALUES ONLY .......... */ hqr_(nm, n, &is1, &is2, &a[a_offset], &wr[1], &wi[1], ierr); goto L50; /* .......... FIND BOTH EIGENVALUES AND EIGENVECTORS .......... */ L20: eltran_(nm, n, &is1, &is2, &a[a_offset], &iv1[1], &z__[z_offset]); hqr2_(nm, n, &is1, &is2, &a[a_offset], &wr[1], &wi[1], &z__[z_offset], ierr); if (*ierr != 0) { goto L50; } balbak_(nm, n, &is1, &is2, &fv1[1], n, &z__[z_offset]); L50: return 0; } /* rg_ */