! F12FAF Example Program Text
! Mark 25 Release. NAG Copyright 2014.
Module f12fafe_mod
! F12FAF Example Program Module:
! Parameters and User-defined Routines
! .. Use Statements ..
Use nag_library, Only: nag_wp
! .. Implicit None Statement ..
Implicit None
! .. Accessibility Statements ..
Private
Public :: av
! .. Parameters ..
Real (Kind=nag_wp), Parameter :: one = 1.0_nag_wp
Integer, Parameter, Public :: imon = 0, ipoint = 0, &
licomm = 140, nin = 5, nout = 6
Contains
Subroutine tv(nx,x,y)
! Compute the matrix vector multiplication y<---T*x where T is a nx
! by nx tridiagonal matrix.
! .. Scalar Arguments ..
Integer, Intent (In) :: nx
! .. Array Arguments ..
Real (Kind=nag_wp), Intent (In) :: x(nx)
Real (Kind=nag_wp), Intent (Out) :: y(nx)
! .. Local Scalars ..
Real (Kind=nag_wp) :: dd, dl, du
Integer :: j
! .. Executable Statements ..
dd = 4.0_nag_wp
dl = -one
du = -one
y(1) = dd*x(1) + du*x(2)
Do j = 2, nx - 1
y(j) = dl*x(j-1) + dd*x(j) + du*x(j+1)
End Do
y(nx) = dl*x(nx-1) + dd*x(nx)
Return
End Subroutine tv
Subroutine av(nx,v,w)
! .. Use Statements ..
Use nag_library, Only: daxpy, dscal
! .. Scalar Arguments ..
Integer, Intent (In) :: nx
! .. Array Arguments ..
Real (Kind=nag_wp), Intent (In) :: v(nx*nx)
Real (Kind=nag_wp), Intent (Out) :: w(nx*nx)
! .. Local Scalars ..
Real (Kind=nag_wp) :: h2
Integer :: j, lo, n
! .. Intrinsic Procedures ..
Intrinsic :: real
! .. Executable Statements ..
h2 = one/real((nx+1)*(nx+1),kind=nag_wp)
Call tv(nx,v(1),w(1))
! The NAG name equivalent of daxpy is f06ecf
Call daxpy(nx,-one,v(nx+1),1,w(1),1)
Do j = 2, nx - 1
lo = (j-1)*nx
Call tv(nx,v(lo+1),w(lo+1))
Call daxpy(nx,-one,v(lo-nx+1),1,w(lo+1),1)
Call daxpy(nx,-one,v(lo+nx+1),1,w(lo+1),1)
End Do
lo = (nx-1)*nx
Call tv(nx,v(lo+1),w(lo+1))
Call daxpy(nx,-one,v(lo-nx+1),1,w(lo+1),1)
n = nx*nx
! The NAG name equivalent of dscal is f06edf
Call dscal(n,one/h2,w,1)
Return
End Subroutine av
End Module f12fafe_mod
Program f12fafe
! F12FAF Example Main Program
! .. Use Statements ..
Use nag_library, Only: dnrm2, f12faf, f12fbf, f12fcf, f12fdf, f12fef, &
nag_wp
Use f12fafe_mod, Only: av, imon, ipoint, licomm, nin, nout
! .. Implicit None Statement ..
Implicit None
! .. Local Scalars ..
Real (Kind=nag_wp) :: sigma
Integer :: ifail, irevcm, j, lcomm, ldv, n, &
nconv, ncv, nev, niter, nshift, nx
! .. Local Arrays ..
Real (Kind=nag_wp), Allocatable :: ax(:), comm(:), d(:,:), mx(:), &
resid(:), v(:,:), x(:)
Integer :: icomm(licomm)
! .. Executable Statements ..
Write (nout,*) 'F12FAF Example Program Results'
Write (nout,*)
! Skip heading in data file
Read (nin,*)
Read (nin,*) nx, nev, ncv
n = nx*nx
ldv = n
lcomm = 3*n + ncv*ncv + 8*ncv + 60
Allocate (ax(n),comm(lcomm),d(ncv,2),mx(n),resid(n),v(ldv,ncv),x(n))
ifail = 0
Call f12faf(n,nev,ncv,icomm,licomm,comm,lcomm,ifail)
ifail = 0
Call f12fdf('SMALLEST MAGNITUDE',icomm,comm,ifail)
! Increase the iteration limit if required.
Call f12fdf('ITERATION LIMIT=500',icomm,comm,ifail)
If (ipoint==1) Then
! Use pointers to Workspace in calculating matrix vector
! products rather than interfacing through the array X.
Call f12fdf('POINTERS=YES',icomm,comm,ifail)
End If
irevcm = 0
ifail = -1
revcm: Do
Call f12fbf(irevcm,resid,v,ldv,x,mx,nshift,comm,icomm,ifail)
If (irevcm==5) Then
Exit revcm
Else If (irevcm==-1 .Or. irevcm==1) Then
! Perform matrix vector multiplication y <--- Op*x
If (ipoint==0) Then
Call av(nx,x,ax)
x(1:n) = ax(1:n)
Else
Call av(nx,comm(icomm(1)),comm(icomm(2)))
End If
Else If (irevcm==4 .And. imon/=0) Then
! Output monitoring information
Call f12fef(niter,nconv,d,d(1,2),icomm,comm)
! The NAG name equivalent of dnrm2 is f06ejf
Write (6,99999) niter, nconv, dnrm2(nev,d(1,2),1)
End If
End Do revcm
If (ifail==0) Then
! Post-Process using F12FCF to compute eigenvalue/vectors.
ifail = 0
Call f12fcf(nconv,d,v,ldv,sigma,resid,v,ldv,comm,icomm,ifail)
Write (nout,99998) nconv
Write (nout,99997)(j,d(j,1),j=1,nconv)
End If
99999 Format (1X,'Iteration',1X,I3,', No. converged =',1X,I3,', norm o', &
'f estimates =',E16.8)
99998 Format (1X/' The ',I4,' Ritz values of smallest magnitude are:'/)
99997 Format (1X,I8,5X,F12.4)
End Program f12fafe