WSJT-X/libm65/afc65b.f

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subroutine afc65b(cx,cy,npts,fsample,nflip,ipol,xpol,a,
+ ccfbest,dtbest)
logical xpol
complex cx(npts)
complex cy(npts)
real a(5),deltaa(5)
a(1)=0.
a(2)=0.
a(3)=0.
a(4)=45.0*(ipol-1.0)
deltaa(1)=2.0
deltaa(2)=2.0
deltaa(3)=2.0
deltaa(4)=22.5
deltaa(5)=0.05
nterms=3
if(xpol) nterms=4
chisqr=0.
C Start the iteration
chisqr0=1.e6
do iter=1,3 !One iteration is enough?
do j=1,nterms
chisq1=fchisq(cx,cy,npts,fsample,nflip,a,ccfmax,dtmax)
fn=0.
delta=deltaa(j)
10 a(j)=a(j)+delta
chisq2=fchisq(cx,cy,npts,fsample,nflip,a,ccfmax,dtmax)
if(chisq2.eq.chisq1) go to 10
if(chisq2.gt.chisq1) then
delta=-delta !Reverse direction
a(j)=a(j)+delta
tmp=chisq1
chisq1=chisq2
chisq2=tmp
endif
20 fn=fn+1.0
a(j)=a(j)+delta
chisq3=fchisq(cx,cy,npts,fsample,nflip,a,ccfmax,dtmax)
if(chisq3.lt.chisq2) then
chisq1=chisq2
chisq2=chisq3
go to 20
endif
C Find minimum of parabola defined by last three points
delta=delta*(1./(1.+(chisq1-chisq2)/(chisq3-chisq2))+0.5)
a(j)=a(j)-delta
deltaa(j)=deltaa(j)*fn/3.
enddo
chisqr=fchisq(cx,cy,npts,fsample,nflip,a,ccfmax,dtmax)
if(chisqr/chisqr0.gt.0.9999) go to 30
chisqr0=chisqr
enddo
30 ccfbest=ccfmax * (1378.125/fsample)**2
dtbest=dtmax
if(a(4).lt.0.0) a(4)=a(4)+180.0
if(a(4).ge.180.0) a(4)=a(4)-180.0
if(nint(a(4)).eq.180) a(4)=0.
ipol=nint(a(4)/45.0) + 1
if(ipol.gt.4) ipol=ipol-4
return
end