Program f08tcfe
! F08TCF Example Program Text
! Mark 26.1 Release. NAG Copyright 2016.
! .. Use Statements ..
Use nag_library, Only: dspgvd, dtpcon, f06rdf, nag_wp, x02ajf
! .. Implicit None Statement ..
Implicit None
! .. Parameters ..
Integer, Parameter :: nin = 5, nout = 6
Character (1), Parameter :: uplo = 'U'
! .. Local Scalars ..
Real (Kind=nag_wp) :: anorm, bnorm, eps, rcond, rcondb, t1
Integer :: aplen, i, info, j, liwork, lwork, n
! .. Local Arrays ..
Real (Kind=nag_wp), Allocatable :: ap(:), bp(:), eerbnd(:), w(:), &
work(:)
Real (Kind=nag_wp) :: dummy(1,1)
Integer :: idum(1)
Integer, Allocatable :: iwork(:)
! .. Intrinsic Procedures ..
Intrinsic :: abs, max, nint
! .. Executable Statements ..
Write (nout,*) 'F08TCF Example Program Results'
Write (nout,*)
! Skip heading in data file
Read (nin,*)
Read (nin,*) n
aplen = (n*(n+1))/2
Allocate (ap(aplen),bp(aplen),eerbnd(n),w(n))
! Use routine workspace query to get optimal workspace.
lwork = -1
liwork = -1
! The NAG name equivalent of dspgvd is f08tcf
Call dspgvd(2,'No vectors',uplo,n,ap,bp,w,dummy,n,dummy,lwork,idum, &
liwork,info)
! Make sure that there is at least minimum workspace.
lwork = max(3*n,nint(dummy(1,1)))
liwork = max(n,idum(1))
Allocate (work(lwork),iwork(liwork))
! Read the upper or lower triangular parts of the matrices A and
! B from data file
If (uplo=='U') Then
Read (nin,*)((ap(i+(j*(j-1))/2),j=i,n),i=1,n)
Read (nin,*)((bp(i+(j*(j-1))/2),j=i,n),i=1,n)
Else If (uplo=='L') Then
Read (nin,*)((ap(i+((2*n-j)*(j-1))/2),j=1,i),i=1,n)
Read (nin,*)((bp(i+((2*n-j)*(j-1))/2),j=1,i),i=1,n)
End If
! Compute the one-norms of the symmetric matrices A and B
anorm = f06rdf('One norm',uplo,n,ap,work)
bnorm = f06rdf('One norm',uplo,n,bp,work)
! Solve the generalized symmetric eigenvalue problem
! A*B*x = lambda*x (itype = 2)
! In the following call the 9th argument is set to n rather
! than 1 to avoid an incorrect error message in some vendor
! versions of LAPACK.
! The NAG name equivalent of dspgvd is f08tcf
Call dspgvd(2,'No vectors',uplo,n,ap,bp,w,dummy,n,work,lwork,iwork, &
liwork,info)
If (info==0) Then
! Print solution
Write (nout,*) 'Eigenvalues'
Write (nout,99999) w(1:n)
! Call DTPCON (F07UGF) to estimate the reciprocal condition
! number of the Cholesky factor of B. Note that:
! cond(B) = 1/rcond**2. DTPCON requires WORK and IWORK to be
! of length at least 3*n and n respectively
Call dtpcon('One norm',uplo,'Non-unit',n,bp,rcond,work,iwork,info)
! Print the reciprocal condition number of B
rcondb = rcond**2
Write (nout,*)
Write (nout,*) 'Estimate of reciprocal condition number for B'
Write (nout,99998) rcondb
! Get the machine precision, eps, and if rcondb is not less
! than eps**2, compute error estimates for the eigenvalues
eps = x02ajf()
If (rcond>=eps) Then
t1 = anorm*bnorm
Do i = 1, n
eerbnd(i) = eps*(t1+abs(w(i))/rcondb)
End Do
! Print the approximate error bounds for the eigenvalues
Write (nout,*)
Write (nout,*) 'Error estimates for the eigenvalues'
Write (nout,99998) eerbnd(1:n)
Else
Write (nout,*)
Write (nout,*) 'B is very ill-conditioned, error ', &
'estimates have not been computed'
End If
Else If (info>n .And. info<=2*n) Then
i = info - n
Write (nout,99997) 'The leading minor of order ', i, &
' of B is not positive definite'
Else
Write (nout,99996) 'Failure in DSPGVD. INFO =', info
End If
99999 Format (3X,(6F11.4))
99998 Format (4X,1P,6E11.1)
99997 Format (1X,A,I4,A)
99996 Format (1X,A,I4)
End Program f08tcfe