c9ln2r.f
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complex function c9ln2r (z)
c april 1978 edition. w. fullerton c3, los alamos scientific lab.
c
c evaluate clog(1+z) from 2-nd order with relative error accuracy so
c that clog(1+z) = z - z**2/2 + z**3*c9ln2r(z).
c
c now clog(1+z) = 0.5*alog(1+2*x+cabs(z)**2) + i*carg(1+z),
c where x = real(z) and y = aimag(z).
c we find
c z**3 * c9ln2r(z) = -x*cabs(z)**2 - 0.25*cabs(z)**4
c + (2*x+cabs(z)**2)**3 * r9ln2r(2*x+cabs(z)**2)
c + i * (carg(1+z) + (x-1)*y)
c the imaginary part must be evaluated carefully as
c (atan(y/(1+x)) - y/(1+x)) + y/(1+x) - (1-x)*y
c = (y/(1+x))**3 * r9atn1(y/(1+x)) + x**2*y/(1+x)
c
c now we divide through by z**3 carefully. write
c 1/z**3 = (x-i*y)/cabs(z)**3 * (1/cabs(z)**3)
c then c9ln2r(z) = ((x-i*y)/cabs(z))**3 * (-x/cabs(z) - cabs(z)/4
c + 0.5*((2*x+cabs(z)**2)/cabs(z))**3 * r9ln2r(2*x+cabs(z)**2)
c + i*y/(cabs(z)*(1+x)) * ((x/cabs(z))**2 +
c + (y/(cabs(z)*(1+x)))**2 * r9atn1(y/(1+x)) ) )
c
c if we let xz = x/cabs(z) and yz = y/cabs(z) we may write
c c9ln2r(z) = (xz-i*yz)**3 * (-xz - cabs(z)/4
c + 0.5*(2*xz+cabs(z))**3 * r9ln2r(2*x+cabs(z)**2)
c + i*yz/(1+x) * (xz**2 + (yz/(1+x))**2*r9atn1(y/(1+x)) ))
c
complex z, clog
external r9atn1, r9ln2r
c
x = real (z)
y = aimag (z)
c
cabsz = cabs(z)
if (cabsz.gt.0.8125) go to 20
c
c9ln2r = cmplx (1.0/3.0, 0.0)
if (cabsz.eq.0.0) return
c
xz = x/cabsz
yz = y/cabsz
c
arg = 2.0*xz + cabsz
rpart = 0.5*arg**3*r9ln2r(cabsz*arg) - xz - 0.25*cabsz
y1x = yz/(1.0+x)
aipart = y1x * (xz**2 + y1x**2*r9atn1(cabsz*y1x) )
c
c9ln2r = cmplx(xz,-yz)**3 * cmplx(rpart,aipart)
return
c
20 c9ln2r = (clog(1.0+z) - z*(1.0-0.5*z)) / z**3
return
c
end