WSJT-X/lib/xcor4.f90

subroutine xcor4(s2,ipk,nsteps,nsym,ich,mode4)

! Computes ccf of the 4-FSK spectral array s2 and the pseudo-random 
! array pr2.  Returns peak of CCF and the lag at which peak occurs.  
! The CCF peak may be either positive or negative, with negative
! implying a message with report.

  use jt4
  parameter (NHMAX=1260)           !Max length of power spectra
  parameter (NSMAX=525)            !Max number of half-symbol steps
  real s2(NHMAX,NSMAX)             !2d spectrum, stepped by half-symbols
  real a(NSMAX)
  save

  nw=nch(ich)
  do j=1,nsteps
     n=2*mode4
     if(mode4.eq.1) then
        a(j)=max(s2(ipk+n,j),s2(ipk+3*n,j)) - max(s2(ipk  ,j),s2(ipk+2*n,j))
     else
        kz=max(1,nw/2)
        ss0=0.
        ss1=0.
        ss2=0.
        ss3=0.
        wsum=0.
        do k=-kz+1,kz-1
           w=float(kz-iabs(k))/nw
           wsum=wsum+w
           ss0=ss0 + w*s2(ipk    +k,j)
           ss1=ss1 + w*s2(ipk+  n+k,j)
           ss2=ss2 + w*s2(ipk+2*n+k,j)
           ss3=ss3 + w*s2(ipk+3*n+k,j)
        enddo
        a(j)=(max(ss1,ss3) - max(ss0,ss2))/sqrt(wsum)
     endif
  enddo

  do lag=1,65
     x=0.
     do i=1,nsym
        j=2*i-1+lag
        if(j.ge.1 .and. j.le.nsteps) x=x+a(j)*float(2*npr(i)-1)
     enddo
     zz(ipk,lag,ich)=x
  enddo

  return
end subroutine xcor4
Reintegrate Joe's experimental VHF & up features As at ^/branches/wsjtx_exp@5271 git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@5272 ab8295b8-cf94-4d9e-aec4-7959e3be5d79 2015-04-22 17:48:03 +00:00			`subroutine xcor4(s2,ipk,nsteps,nsym,ich,mode4)`

			`! Computes ccf of the 4-FSK spectral array s2 and the pseudo-random`
			`! array pr2. Returns peak of CCF and the lag at which peak occurs.`
			`! The CCF peak may be either positive or negative, with negative`
			`! implying a message with report.`

			`use jt4`
			`parameter (NHMAX=1260) !Max length of power spectra`
			`parameter (NSMAX=525) !Max number of half-symbol steps`
			`real s2(NHMAX,NSMAX) !2d spectrum, stepped by half-symbols`
			`real a(NSMAX)`
			`save`

			`nw=nch(ich)`
			`do j=1,nsteps`
			`n=2*mode4`
			`if(mode4.eq.1) then`
			`a(j)=max(s2(ipk+n,j),s2(ipk+3n,j)) - max(s2(ipk ,j),s2(ipk+2n,j))`
			`else`
			`kz=max(1,nw/2)`
			`ss0=0.`
			`ss1=0.`
			`ss2=0.`
			`ss3=0.`
			`wsum=0.`
			`do k=-kz+1,kz-1`
			`w=float(kz-iabs(k))/nw`
			`wsum=wsum+w`
			`ss0=ss0 + w*s2(ipk +k,j)`
			`ss1=ss1 + w*s2(ipk+ n+k,j)`
			`ss2=ss2 + ws2(ipk+2n+k,j)`
			`ss3=ss3 + ws2(ipk+3n+k,j)`
			`enddo`
			`a(j)=(max(ss1,ss3) - max(ss0,ss2))/sqrt(wsum)`
			`endif`
			`enddo`

			`do lag=1,65`
			`x=0.`
			`do i=1,nsym`
			`j=2*i-1+lag`
			`if(j.ge.1 .and. j.le.nsteps) x=x+a(j)float(2npr(i)-1)`
			`enddo`
			`zz(ipk,lag,ich)=x`
			`enddo`

			`return`
			`end subroutine xcor4`