SUBROUTINE FIGI2(NM,N,T,D,E,Z,IERR) C***BEGIN PROLOGUE FIGI2 C***DATE WRITTEN 760101 (YYMMDD) C***REVISION DATE 830518 (YYMMDD) C***CATEGORY NO. D4C1C C***KEYWORDS EIGENVALUES,EIGENVECTORS,EISPACK C***AUTHOR SMITH, B. T., ET AL. C***PURPOSE Transforms certain real non-symmetric tridiagonal matrix C to symmetric tridiagonal matrix. C***DESCRIPTION C C Given a NONSYMMETRIC TRIDIAGONAL matrix such that the products C of corresponding pairs of off-diagonal elements are all C non-negative, and zero only when both factors are zero, this C subroutine reduces it to a SYMMETRIC TRIDIAGONAL matrix C using and accumulating diagonal similarity transformations. C C On INPUT C C NM must be set to the row dimension of two-dimensional C array parameters as declared in the calling program C dimension statement. C C N is the order of the matrix. C C T contains the input matrix. Its subdiagonal is C stored in the last N-1 positions of the first column, C its diagonal in the N positions of the second column, C and its superdiagonal in the first N-1 positions of C the third column. T(1,1) and T(N,3) are arbitrary. C C On OUTPUT C C T is unaltered. C C D contains the diagonal elements of the symmetric matrix. C C E contains the subdiagonal elements of the symmetric C matrix in its last N-1 positions. E(1) is not set. C C Z contains the transformation matrix produced in C the reduction. C C IERR is set to C Zero for normal return, C N+I if T(I,1)*T(I-1,3) is negative, C 2*N+I if T(I,1)*T(I-1,3) is zero with C one factor non-zero. C C Questions and comments should be directed to B. S. Garbow, C APPLIED MATHEMATICS DIVISION, ARGONNE NATIONAL LABORATORY C ------------------------------------------------------------------ C***REFERENCES B. T. SMITH, J. M. BOYLE, J. J. DONGARRA, B. S. GARBOW, C Y. IKEBE, V. C. KLEMA, C. B. MOLER, *MATRIX EIGEN- C SYSTEM ROUTINES - EISPACK GUIDE*, SPRINGER-VERLAG, C 1976. C***ROUTINES CALLED (NONE) C***END PROLOGUE FIGI2