Program f08yefe
! F08YEF Example Program Text
! Mark 30.0 Release. NAG Copyright 2024.
! .. Use Statements ..
Use nag_library, Only: dggsvp, dtgsja, f06raf, nag_wp, x02ajf, x04cbf
! .. Implicit None Statement ..
Implicit None
! .. Parameters ..
Integer, Parameter :: nin = 5, nout = 6
! .. Local Scalars ..
Real (Kind=nag_wp) :: eps, tola, tolb
Integer :: i, ifail, info, irank, j, k, l, lda, &
ldb, ldq, ldu, ldv, m, n, ncycle, p
! .. Local Arrays ..
Real (Kind=nag_wp), Allocatable :: a(:,:), alpha(:), b(:,:), beta(:), &
q(:,:), tau(:), u(:,:), v(:,:), &
work(:)
Integer, Allocatable :: iwork(:)
Character (1) :: clabs(1), rlabs(1)
! .. Intrinsic Procedures ..
Intrinsic :: max, real
! .. Executable Statements ..
Write (nout,*) 'F08YEF Example Program Results'
Write (nout,*)
Flush (nout)
! Skip heading in data file
Read (nin,*)
Read (nin,*) m, n, p
lda = m
ldb = p
ldq = n
ldu = m
ldv = p
Allocate (a(lda,n),alpha(n),b(ldb,n),beta(n),q(ldq,n),tau(n),u(ldu,m), &
v(ldv,p),work(m+3*n+p),iwork(n))
! Read the m by n matrix A and p by n matrix B from data file
Read (nin,*)(a(i,1:n),i=1,m)
Read (nin,*)(b(i,1:n),i=1,p)
! Compute tola and tolb as
! tola = max(m,n)*norm(A)*macheps
! tolb = max(p,n)*norm(B)*macheps
eps = x02ajf()
tola = real(max(m,n),kind=nag_wp)*f06raf('One-norm',m,n,a,lda,work)*eps
tolb = real(max(p,n),kind=nag_wp)*f06raf('One-norm',p,n,b,ldb,work)*eps
! Compute the factorization of (A, B)
! (A = U1*S*(Q1**T), B = V1*T*(Q1**T))
! The NAG name equivalent of dggsvp is f08vef
Call dggsvp('U','V','Q',m,p,n,a,lda,b,ldb,tola,tolb,k,l,u,ldu,v,ldv,q, &
ldq,iwork,tau,work,info)
! Compute the generalized singular value decomposition of (A, B)
! (A = U*D1*(0 R)*(Q**T), B = V*D2*(0 R)*(Q**T))
! The NAG name equivalent of dtgsja is f08yef
Call dtgsja('U','V','Q',m,p,n,k,l,a,lda,b,ldb,tola,tolb,alpha,beta,u, &
ldu,v,ldv,q,ldq,work,ncycle,info)
If (info==0) Then
! Print solution
irank = k + l
Write (nout,*) 'Number of infinite generalized singular values (K)'
Write (nout,99999) k
Write (nout,*) 'Number of finite generalized singular values (L)'
Write (nout,99999) l
Write (nout,*) ' Effective Numerical rank of (A**T B**T)**T (K+L)'
Write (nout,99999) irank
Write (nout,*)
Write (nout,*) 'Finite generalized singular values'
Write (nout,99998)(alpha(j)/beta(j),j=k+1,irank)
Write (nout,*)
Flush (nout)
! ifail: behaviour on error exit
! =0 for hard exit, =1 for quiet-soft, =-1 for noisy-soft
ifail = 0
Call x04cbf('General',' ',m,m,u,ldu,'1P,E12.4','Orthogonal matrix U', &
'Integer',rlabs,'Integer',clabs,80,0,ifail)
Write (nout,*)
Flush (nout)
Call x04cbf('General',' ',p,p,v,ldv,'1P,E12.4','Orthogonal matrix V', &
'Integer',rlabs,'Integer',clabs,80,0,ifail)
Write (nout,*)
Flush (nout)
Call x04cbf('General',' ',n,n,q,ldq,'1P,E12.4','Orthogonal matrix Q', &
'Integer',rlabs,'Integer',clabs,80,0,ifail)
Write (nout,*)
Flush (nout)
Call x04cbf('Upper triangular','Non-unit',irank,irank,a(1,n-irank+1), &
lda,'1P,E12.4','Nonsingular upper triangular matrix R','Integer', &
rlabs,'Integer',clabs,80,0,ifail)
Write (nout,*)
Write (nout,*) 'Number of cycles of the Kogbetliantz method'
Write (nout,99999) ncycle
Else
Write (nout,99997) 'Failure in DTGSJA. INFO =', info
End If
99999 Format (1X,I5)
99998 Format (3X,8(1P,E12.4))
99997 Format (1X,A,I4)
End Program f08yefe