subroutine ch(nm,n,ar,ai,w,matz,zr,zi,fv1,fv2,fm1,ierr) c integer i,j,n,nm,ierr,matz double precision ar(nm,n),ai(nm,n),w(n),zr(nm,n),zi(nm,n), x fv1(n),fv2(n),fm1(2,n) 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 complex hermitian matrix. c c on input c c nm must be set to the row dimension of the two-dimensional c array parameters as declared in the calling program c dimension statement. c c n is the order of the matrix a=(ar,ai). c c ar and ai contain the real and imaginary parts, c respectively, of the complex hermitian matrix. c c matz is an integer variable set equal to zero if c only eigenvalues are desired. otherwise it is set to c any non-zero integer for both eigenvalues and eigenvectors. c c on output c c w contains the eigenvalues in ascending order. c c zr and zi contain the real and imaginary parts, c respectively, of the eigenvectors if matz is not zero. c c ierr is an integer output variable set equal to an error c completion code described in the documentation for tqlrat c and tql2. the normal completion code is zero. c c fv1, fv2, and fm1 are temporary storage arrays. c c questions and comments should be directed to burton s. garbow, c mathematics and computer science div, argonne national laboratory c c this version dated august 1983. c c ------------------------------------------------------------------ c if (n .le. nm) go to 10 ierr = 10 * n go to 50 c 10 call htridi(nm,n,ar,ai,w,fv1,fv2,fm1) 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 zr(j,i) = 0.0d0 30 continue c zr(i,i) = 1.0d0 40 continue c call tql2(nm,n,w,fv1,zr,ierr) if (ierr .ne. 0) go to 50 call htribk(nm,n,ar,ai,fm1,n,zr,zi) 50 return end