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

 c
 c     dposl solves the double precision symmetric positive definite
 c     system a * x = b
 c     using the factors computed by dpoco or dpofa.
 c
 c     on entry
 c
 c        a       double precision(lda, n)
 c                the output from dpoco or dpofa.
 c
 c        lda     integer
 c                the leading dimension of the array  a .
 c
 c        n       integer
 c                the order of the matrix  a .
 c
 c        b       double precision(n)
 c                the right hand side vector.
 c
 c     on return
 c
 c        b       the solution vector  x .
 c
 c     error condition
 c
 c        a division by zero will occur if the input factor contains
 c        a zero on the diagonal.  technically this indicates
 c        singularity but it is usually caused by improper subroutine
 c        arguments.  it will not occur if the subroutines are called
 c        correctly and  info .eq. 0 .
 c
 c     to compute  inverse(a) * c  where  c  is a matrix
 c     with  p  columns
 c           call dpoco(a,lda,n,rcond,z,info)
 c           if (rcond is too small .or. info .ne. 0) go to ...
 c           do 10 j = 1, p
 c              call dposl(a,lda,n,c(1,j))
 c        10 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 daxpy,ddot
 c
       subroutine dposl(a,lda,n,b)
       integer lda,n
       double precision a(lda,n),b(n)
 c
 c     internal variables
 c
       double precision ddot,t
       integer k,kb
 c
 c     solve trans(r)*y = b
 c
       do 10 k = 1, n
          t = ddot(k-1,a(1,k),1,b(1),1)
          b(k) = (b(k) - t)/a(k,k)
    10 continue
 c
 c     solve r*x = y
 c
       do 20 kb = 1, n
          k = n + 1 - kb
          b(k) = b(k)/a(k,k)
          t = -b(k)
          call daxpy(k-1,t,a(1,k),1,b(1),1)
    20 continue
       return
       end
	c
	c dposl solves the double precision symmetric positive definite
	c system a * x = b
	c using the factors computed by dpoco or dpofa.
	c
	c on entry
	c
	c a double precision(lda, n)
	c the output from dpoco or dpofa.
	c
	c lda integer
	c the leading dimension of the array a .
	c
	c n integer
	c the order of the matrix a .
	c
	c b double precision(n)
	c the right hand side vector.
	c
	c on return
	c
	c b the solution vector x .
	c
	c error condition
	c
	c a division by zero will occur if the input factor contains
	c a zero on the diagonal. technically this indicates
	c singularity but it is usually caused by improper subroutine
	c arguments. it will not occur if the subroutines are called
	c correctly and info .eq. 0 .
	c
	c to compute inverse(a) * c where c is a matrix
	c with p columns
	c call dpoco(a,lda,n,rcond,z,info)
	c if (rcond is too small .or. info .ne. 0) go to ...
	c do 10 j = 1, p
	c call dposl(a,lda,n,c(1,j))
	c 10 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 daxpy,ddot
	c
	subroutine dposl(a,lda,n,b)
	integer lda,n
	double precision a(lda,n),b(n)
	c
	c internal variables
	c
	double precision ddot,t
	integer k,kb
	c
	c solve trans(r)*y = b
	c
	do 10 k = 1, n
	t = ddot(k-1,a(1,k),1,b(1),1)
	b(k) = (b(k) - t)/a(k,k)
	10 continue
	c
	c solve r*x = y
	c
	do 20 kb = 1, n
	k = n + 1 - kb
	b(k) = b(k)/a(k,k)
	t = -b(k)
	call daxpy(k-1,t,a(1,k),1,b(1),1)
	20 continue
	return
	end