mountcontrol/cxx/fitpack/profil.f

      recursive subroutine profil(iopt,tx,nx,ty,ny,c,kx,ky,u,nu,cu,ier)
      implicit none
c  if iopt=0 subroutine profil calculates the b-spline coefficients of
c  the univariate spline f(y) = s(u,y) with s(x,y) a bivariate spline of
c  degrees kx and ky, given in the b-spline representation.
c  if iopt = 1 it calculates the b-spline coefficients of the univariate
c  spline g(x) = s(x,u)
c
c  calling sequence:
c     call profil(iopt,tx,nx,ty,ny,c,kx,ky,u,nu,cu,ier)
c
c  input parameters:
c   iopt  : integer flag, specifying whether the profile f(y) (iopt=0)
c           or the profile g(x) (iopt=1) must be determined.
c   tx    : real array, length nx, which contains the position of the
c           knots in the x-direction.
c   nx    : integer, giving the total number of knots in the x-direction
c   ty    : real array, length ny, which contains the position of the
c           knots in the y-direction.
c   ny    : integer, giving the total number of knots in the y-direction
c   c     : real array, length (nx-kx-1)*(ny-ky-1), which contains the
c           b-spline coefficients.
c   kx,ky : integer values, giving the degrees of the spline.
c   u     : real value, specifying the requested profile.
c           tx(kx+1)<=u<=tx(nx-kx), if iopt=0.
c           ty(ky+1)<=u<=ty(ny-ky), if iopt=1.
c   nu    : on entry nu must specify the dimension of the array cu.
c           nu >= ny if iopt=0, nu >= nx if iopt=1.
c
c  output parameters:
c   cu    : real array of dimension (nu).
c           on successful exit this array contains the b-spline
c   ier   : integer error flag
c    ier=0 : normal return
c    ier=10: invalid input data (see restrictions)
c
c  restrictions:
c   if iopt=0 : tx(kx+1) <= u <= tx(nx-kx), nu >=ny.
c   if iopt=1 : ty(ky+1) <= u <= ty(ny-ky), nu >=nx.
c
c  other subroutines required:
c    fpbspl
c
c  author :
c    p.dierckx
c    dept. computer science, k.u.leuven
c    celestijnenlaan 200a, b-3001 heverlee, belgium.
c    e-mail : Paul.Dierckx@cs.kuleuven.ac.be
c
c  latest update : march 1987
c
c  ..scalar arguments..
      integer iopt,nx,ny,kx,ky,nu,ier
      real*8 u
c  ..array arguments..
      real*8 tx(nx),ty(ny),c((nx-kx-1)*(ny-ky-1)),cu(nu)
c  ..local scalars..
      integer i,j,kx1,ky1,l,l1,m,m0,nkx1,nky1
      real*8 sum
c  ..local array
      real*8 h(6)
c  ..
c  before starting computations a data check is made. if the input data
c  are invalid control is immediately repassed to the calling program.
      kx1 = kx+1
      ky1 = ky+1
      nkx1 = nx-kx1
      nky1 = ny-ky1
      ier = 10
      if(iopt.ne.0) go to 200
      if(nu.lt.ny) go to 300
      if(u.lt.tx(kx1) .or. u.gt.tx(nkx1+1)) go to 300
c  the b-splinecoefficients of f(y) = s(u,y).
      ier = 0
      l = kx1
      l1 = l+1
 110  if(u.lt.tx(l1) .or. l.eq.nkx1) go to 120
      l = l1
      l1 = l+1
      go to 110
 120  call fpbspl(tx,nx,kx,u,l,h)
      m0 = (l-kx1)*nky1+1
      do 140 i=1,nky1
        m = m0
        sum = 0.
        do 130 j=1,kx1
          sum = sum+h(j)*c(m)
          m = m+nky1
 130    continue
        cu(i) = sum
        m0 = m0+1
 140  continue
      go to 300
 200  if(nu.lt.nx) go to 300
      if(u.lt.ty(ky1) .or. u.gt.ty(nky1+1)) go to 300
c  the b-splinecoefficients of g(x) = s(x,u).
      ier = 0
      l = ky1
      l1 = l+1
 210  if(u.lt.ty(l1) .or. l.eq.nky1) go to 220
      l = l1
      l1 = l+1
      go to 210
 220  call fpbspl(ty,ny,ky,u,l,h)
      m0 = l-ky
      do 240 i=1,nkx1
        m = m0
        sum = 0.
        do 230 j=1,ky1
          sum = sum+h(j)*c(m)
          m = m+1
 230    continue
        cu(i) = sum
        m0 = m0+nky1
 240  continue
 300  return
      end