*DECK RSP SUBROUTINE RSP (NM, N, NV, A, W, MATZ, Z, FV1, FV2, IERR) C***BEGIN PROLOGUE RSP C***PURPOSE Compute the eigenvalues and, optionally, the eigenvectors C of a real symmetric matrix packed into a one dimensional C array. C***LIBRARY SLATEC (EISPACK) C***CATEGORY D4A1 C***TYPE SINGLE PRECISION (RSP-S) C***KEYWORDS EIGENVALUES, EIGENVECTORS, EISPACK C***AUTHOR Smith, B. T., et al. C***DESCRIPTION C C This subroutine calls the recommended sequence of C subroutines from the eigensystem subroutine package (EISPACK) C to find the eigenvalues and eigenvectors (if desired) C of a REAL SYMMETRIC PACKED matrix. C C On Input C C NM must be set to the row dimension of the two-dimensional C array parameter, Z, as declared in the calling program C dimension statement. NM is an INTEGER variable. C C N is the order of the matrix A. N is an INTEGER variable. C N must be less than or equal to NM. C C NV is an INTEGER variable set equal to the dimension of the C array A as specified in the calling program. NV must not C be less than N*(N+1)/2. C C A contains the lower triangle, stored row-wise, of the real C symmetric packed matrix. A is a one-dimensional REAL C array, dimensioned A(NV). C C MATZ is an INTEGER variable set equal to zero if only C eigenvalues are desired. Otherwise, it is set to any C non-zero integer for both eigenvalues and eigenvectors. C C On Output C C A has been destroyed. C C W contains the eigenvalues in ascending order. W is a C one-dimensional REAL array, dimensioned W(N). C C Z contains the eigenvectors if MATZ is not zero. The eigen- C vectors are orthonormal. Z is a two-dimensional REAL array, C dimensioned Z(NM,N). C C IERR is an INTEGER flag set to C Zero for normal return, C 10*N if N is greater than NM, C 20*N if NV is less than N*(N+1)/2, C J if the J-th eigenvalue has not been C determined after 30 iterations. C The eigenvalues and eigenvectors in the W and Z C arrays should be correct for indices C 1, 2, ..., IERR-1. C C FV1 and FV2 are one-dimensional REAL arrays used for temporary C storage, dimensioned FV1(N) and FV2(N). C C Questions and comments should be directed to B. S. Garbow, C APPLIED MATHEMATICS DIVISION, ARGONNE NATIONAL LABORATORY C ------------------------------------------------------------------ C C***REFERENCES B. T. Smith, J. M. Boyle, J. J. Dongarra, B. S. Garbow, C Y. Ikebe, V. C. Klema and C. B. Moler, Matrix Eigen- C system Routines - EISPACK Guide, Springer-Verlag, C 1976. C***ROUTINES CALLED TQL2, TQLRAT, TRBAK3, TRED3 C***REVISION HISTORY (YYMMDD) C 760101 DATE WRITTEN C 890831 Modified array declarations. (WRB) C 890831 REVISION DATE from Version 3.2 C 891214 Prologue converted to Version 4.0 format. (BAB) C 920501 Reformatted the REFERENCES section. (WRB) C***END PROLOGUE RSP C INTEGER I,J,N,NM,NV,IERR,MATZ REAL A(*),W(*),Z(NM,*),FV1(*),FV2(*) C C***FIRST EXECUTABLE STATEMENT RSP IF (N .LE. NM) GO TO 5 IERR = 10 * N GO TO 50 5 IF (NV .GE. (N * (N + 1)) / 2) GO TO 10 IERR = 20 * N GO TO 50 C 10 CALL TRED3(N,NV,A,W,FV1,FV2) IF (MATZ .NE. 0) GO TO 20 C .......... FIND EIGENVALUES ONLY .......... CALL TQLRAT(N,W,FV2,IERR) GO TO 50 C .......... FIND BOTH EIGENVALUES AND EIGENVECTORS .......... 20 DO 40 I = 1, N C DO 30 J = 1, N Z(J,I) = 0.0E0 30 CONTINUE C Z(I,I) = 1.0E0 40 CONTINUE C CALL TQL2(NM,N,W,FV1,Z,IERR) IF (IERR .NE. 0) GO TO 50 CALL TRBAK3(NM,N,NV,A,N,Z) 50 RETURN END