d9chm.f 1.47 KB
double precision function d9chm (a, c, x)
      double precision a, c, x, aa(4), bb(4), ct1, ct2, eps,
     1  g1, g2, g3, x2, xn0, xn1, xn2, xn3, d1mach
      external d1mach
      double precision bmax
c
      data eps /0.0d0/
c
      if (eps.eq.0.0d0) eps = 4.0d0*d1mach(4)
c
 10   aa(1) = 1.0d0
      bb(1) = 1.0d0
c
      x2 = -0.5d0*x
      bb(2) = 1.0d0 + (1.0d0+a)*x2/c
      aa(2) = bb(2) + a*x/c
c
      ct2 = x2/(1.0d0+c)
      bb(3) = 1.0d0 + (2.0d0+bb(2))*(2.0d0+a)*ct2/3.0d0
      aa(3) = bb(3) + (1.0d0+ct2)*a*x/c
      bmax = dmax1 (bb(1), bb(2), bb(3))
c
      do 30 i=3,300
        xn0 = i
        xn1 = i - 1
        xn2 = i - 2
        xn3 = i - 3
        ct1 = 2*i - 3
c
        ct2 = x2/(ct1*(c+xn1))
        g1 = 1.0d0 + ct2*(xn2-a)
        ct2 = ct2*(a+xn1)/(c+xn2)
        g2 = ct2*(c-xn1+(a+xn0)*x2/(ct1+2.0d0))
        g3 = ct2*x2*x2*(a+xn2)*(a-xn2)/(ct1*(ct1-2.0d0)*(c+xn3))
c
        bb(4) = g1*bb(3) + g2*bb(2) + g3*bb(1)
        aa(4) = g1*aa(3) + g2*aa(2) + g3*aa(1)
        bmax = dmax1 (bb(4), bmax)
c
        d9chm = aa(4)/bb(4)
        if (dabs(d9chm-aa(1)/bb(1)).lt.eps*dabs(d9chm)) go to 40
c
        do 20 j=1,3
          aa(j) = aa(j+1)
          bb(j) = bb(j+1)
 20     continue
 30   continue
      call seteru (40hd9chm   no convergence in 300 iterations, 40,
     1    1, 2)
c
 40   continue
      errest = d1mach(4)*dmax1(dabs(d9chm), 1.0d0)
      print 500, i, aa(4), bb(4), d9chm, bmax, errest
 500  format (1x, i3, 3d15.5, 2e15.5)
c
      return
      end