src/appl/dpbfa.f - R - Git at Google

       subroutine dpbfa(abd,lda,n,m,info)

       integer lda,n,m,info
       double precision abd(lda,n)
 c
 c     dpbfa factors a double precision symmetric positive definite
 c     matrix stored in band form.
 c
 c     dpbfa is usually called by dpbco, but it can be called
 c     directly with a saving in time if  rcond  is not needed.
 c
 c     on entry
 c
 c        abd     double precision(lda, n)
 c                the matrix to be factored.  the columns of the upper
 c                triangle are stored in the columns of abd and the
 c                diagonals of the upper triangle are stored in the
 c                rows of abd .  see the comments below for details.
 c
 c        lda     integer
 c                the leading dimension of the array  abd .
 c                lda must be .ge. m + 1 .
 c
 c        n       integer
 c                the order of the matrix  a .
 c
 c        m       integer
 c                the number of diagonals above the main diagonal.
 c                0 .le. m .lt. n .
 c
 c     on return
 c
 c        abd     an upper triangular matrix  r , stored in band
 c                form, so that  a = trans(r)*r .
 c
 c        info    integer
 c                = 0  for normal return.
 c                = k  if the leading minor of order  k  is not
 c                     positive definite.
 c
 c     band storage
 c
 c           if  a  is a symmetric positive definite band matrix,
 c           the following program segment will set up the input.
 c
 c                   m = (band width above diagonal)
 c                   do 20 j = 1, n
 c                      i1 = max0(1, j-m)
 c                      do 10 i = i1, j
 c                         k = i-j+m+1
 c                         abd(k,j) = a(i,j)
 c                10    continue
 c                20 continue
 c
 c     linpack.  this version dated 08/14/78 .
 c     cleve moler, university of new mexico, argonne national lab.
 c
 c     subroutines and functions
 c
 c     blas ddot
 c     fortran max0,sqrt
 c
 c     internal variables
 c
       double precision ddot,t
       double precision s
       integer ik,j,jk,k,mu
 c     begin block with ...exits to 40
 c
 c
          do 30 j = 1, n
             info = j
             s = 0.0d0
             ik = m + 1
             jk = max0(j-m,1)
             mu = max0(m+2-j,1)
             if (m .lt. mu) go to 20
             do 10 k = mu, m

                t = abd(k,j) - ddot(k-mu,abd(ik,jk),1,abd(mu,j),1)
                t = t/abd(m+1,jk)
                abd(k,j) = t
                s = s + t*t
                ik = ik - 1
                jk = jk + 1
    10       continue
    20       continue

             s = abd(m+1,j) - s
 c     ......exit
             if (s .le. 0.0d0) go to 40

             abd(m+1,j) = sqrt(s)

    30    continue
          info = 0
    40 continue
       return
       end
	subroutine dpbfa(abd,lda,n,m,info)

	integer lda,n,m,info
	double precision abd(lda,n)
	c
	c dpbfa factors a double precision symmetric positive definite
	c matrix stored in band form.
	c
	c dpbfa is usually called by dpbco, but it can be called
	c directly with a saving in time if rcond is not needed.
	c
	c on entry
	c
	c abd double precision(lda, n)
	c the matrix to be factored. the columns of the upper
	c triangle are stored in the columns of abd and the
	c diagonals of the upper triangle are stored in the
	c rows of abd . see the comments below for details.
	c
	c lda integer
	c the leading dimension of the array abd .
	c lda must be .ge. m + 1 .
	c
	c n integer
	c the order of the matrix a .
	c
	c m integer
	c the number of diagonals above the main diagonal.
	c 0 .le. m .lt. n .
	c
	c on return
	c
	c abd an upper triangular matrix r , stored in band
	c form, so that a = trans(r)*r .
	c
	c info integer
	c = 0 for normal return.
	c = k if the leading minor of order k is not
	c positive definite.
	c
	c band storage
	c
	c if a is a symmetric positive definite band matrix,
	c the following program segment will set up the input.
	c
	c m = (band width above diagonal)
	c do 20 j = 1, n
	c i1 = max0(1, j-m)
	c do 10 i = i1, j
	c k = i-j+m+1
	c abd(k,j) = a(i,j)
	c 10 continue
	c 20 continue
	c
	c linpack. this version dated 08/14/78 .
	c cleve moler, university of new mexico, argonne national lab.
	c
	c subroutines and functions
	c
	c blas ddot
	c fortran max0,sqrt
	c
	c internal variables
	c
	double precision ddot,t
	double precision s
	integer ik,j,jk,k,mu
	c begin block with ...exits to 40
	c
	c
	do 30 j = 1, n
	info = j
	s = 0.0d0
	ik = m + 1
	jk = max0(j-m,1)
	mu = max0(m+2-j,1)
	if (m .lt. mu) go to 20
	do 10 k = mu, m

	t = abd(k,j) - ddot(k-mu,abd(ik,jk),1,abd(mu,j),1)
	t = t/abd(m+1,jk)
	abd(k,j) = t
	s = s + t*t
	ik = ik - 1
	jk = jk + 1
	10 continue
	20 continue

	s = abd(m+1,j) - s
	c ......exit
	if (s .le. 0.0d0) go to 40

	abd(m+1,j) = sqrt(s)

	30 continue
	info = 0
	40 continue
	return
	end