More code cleanup. Rename sync66a to sync66.

2024-09-27 07:36:38 -04:00 · 2020-08-04 13:13:49 -04:00 · 2020-08-04 13:13:49 -04:00 · 335cc41faa
commit 335cc41faa
parent 2e893e8994
4 changed files with 92 additions and 152 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -577,7 +577,7 @@ set (wsjt_FSRCS
  lib/symspec65.f90
  lib/sync4.f90
  lib/sync64.f90
-  lib/sync66a.f90
+  lib/sync66.f90
  lib/sync65.f90
  lib/ft4/getcandidates4.f90
  lib/ft4/get_ft4_bitmetrics.f90
--- a/lib/qra66_decode.f90
+++ b/lib/qra66_decode.f90
@ -92,7 +92,7 @@ contains
    call four2a(c0,nfft2,1,1,1)            !Inverse c2c FFT
    call timer('sync66  ',0)
-    call sync66a(iwave,15*12000,nsps,nfqso,ntol,xdt,f0,snr1)
+    call sync66(iwave,15*12000,nsps,nfqso,ntol,xdt,f0,snr1)
    call timer('sync66  ',1)
    jpk=(xdt+0.5)*6000 - 384               !### Empirical ###
    if(jpk.lt.0) jpk=0
--- a/lib/sync66.f90
+++ b/lib/sync66.f90
@ -1,60 +1,98 @@
-subroutine sync66(c0,f0,jpk,sync)
+subroutine sync66(iwave,nmax,nsps,nfqso,ntol,xdt,f0,snr1)
-! Use the sync vector to find xdt (and improved f0 ?)
+  parameter (NSTEP=4)                      !Quarter-symbol steps
  parameter (IZ=1600,JZ=352,NSPSMAX=1920)
  integer*2 iwave(0:nmax-1)                !Raw data
  integer b11(11)                          !Barker 11 code
  integer ijpk(2)                          !Indices i and j at peak of sync_sig
  real s1(IZ,JZ)                           !Symbol spectra
  real x(JZ)                               !Work array; 2FSK sync modulation
  real sync(4*85)                          !sync vector
  real sync_sig(-64:64,-15:15)
  complex c0(0:NSPSMAX)                    !Complex spectrum of symbol
  data b11/1,1,1,0,0,0,1,0,0,1,0/          !Barker 11 code
  data sync(1)/99.0/
  save sync
-  PARAMETER (NMAX=15*6000)
+  if(sync(1).eq.99.0) then
-  parameter (NSPS=960)                       !Samples per symbol at 6000 Hz
+     sync=0.
  complex c0(0:NMAX-1)                       !Complex data at 6000 S/s
  complex csync0(0:NSPS-1)
  complex csync1(0:NSPS-1)
  complex z
  integer b11(11)                            !Barker 11 code
  data b11/1,1,1,0,0,0,1,0,0,1,0/            !Barker 11 definition
  data mode66z/-1/
  save
  twopi=8.0*atan(1.0)
  baud=6000.0/NSPS
  dt=1.0/6000.0
  dphi0=twopi*f0**dt
  dphi1=twopi*(f0+baud)*dt
  phi0=0.
  phi1=0.
  do i=0,NSPS-1                           !Compute csync for f0 and f0+baud
     csync0(i)=cmplx(cos(phi0),sin(phi0))
     csync1(i)=cmplx(cos(phi1),sin(phi1))
     phi0=phi0 + dphi0
     phi1=phi1 + dphi1
     if(phi0.gt.twopi) phi0=phi0-twopi
     if(phi1.gt.twopi) phi1=phi1-twopi
  enddo
  sqmax=0.
  jstep=NSPS/8  
  do j0=0,6000,jstep
     sq=0.
     do k=1,22
-        i=k
+        kk=k
-        if(i.gt.11) i=i-11
+        if(kk.gt.11) kk=k-11
-        j1=j0 + 4*(k-1)*NSPS
+        sync(16*k-15)=2.0*b11(kk) - 1.0
-        if(b11(i).eq.0) then
+     enddo
-           z=dot_product(c0(j1:j1+NSPS-1),csync0)
+  endif
-        else
+
-           z=dot_product(c0(j1:j1+NSPS-1),csync1)
+  nfft=2*NSPS
-        endif
+  df=12000.0/nfft                            !3.125 Hz
-        z=0.001*z
+  istep=nsps/NSTEP
-        sq=sq + real(z)**2 + aimag(z)**2
+  fac=1/32767.0
  do j=1,JZ                                  !Compute symbol spectra
     ia=(j-1)*istep
     ib=ia+nsps-1
     k=-1
     do i=ia,ib,2
        xx=iwave(i)
        yy=iwave(i+1)
        k=k+1
        c0(k)=fac*cmplx(xx,yy)
     enddo
     c0(k+1:nfft/2)=0.
     call four2a(c0,nfft,1,-1,0)              !r2c FFT
     do i=1,IZ
        s1(i,j)=real(c0(i))**2 + aimag(c0(i))**2
     enddo
     write(52,3052) j0/6000.0,sq,j0,j1
 3052 format(f10.6,f12.3,2i8)
     if(sq.gt.smax) then
        smax=sq
        jpk=j0
     endif
  enddo
-  sync=smax
+
  i0=nint(nfqso/df)
  call pctile(s1(i0-64:i0+192,1:JZ),129*JZ,40,base)
  s1=s1/base
  s1max=20.0
 ! Apply AGC
  do j=1,JZ
     x(j)=maxval(s1(i0-64:i0+192,j))
     if(x(j).gt.s1max) s1(i0-64:i0+192,j)=s1(i0-64:i0+192,j)*s1max/x(j)
  enddo
  dt4=nsps/(NSTEP*12000.0)
  j0=0.5/dt4
  sync_sig=0.
  ia=min(64,nint(ntol/df))
  do i=-ia,ia
     x=s1(i0+2+i,:)-s1(i0+i,:)
     do lag=-15,15
 ! Make this simpler: just add the 22 nonzero values?
        do n=1,4*85
           j=n+lag+11
           if(j.ge.1 .and. j.le.JZ) sync_sig(i,lag)=sync_sig(i,lag) + sync(n)*x(j)
        enddo
     enddo
  enddo
  ijpk=maxloc(sync_sig)
  ii=ijpk(1)-65
  jj=ijpk(2)-16
 ! Use peakup() here?
  f0=nfqso + ii*df
  jdt=jj
  tsym=nsps/12000.0
  xdt=jdt*tsym/4.0
  snr1=maxval(sync_sig)/22.0
 !  do i=-64,64
 !     write(62,3062) nfqso+i*df,sync_sig(i,jj)
 !3062 format(2f12.3)
 !  enddo
 !  do j=-15,15
 !     write(63,3063) j,j*dt4,sync_sig(ii,j)
 !3063 format(i5,2f12.3)
 !  enddo
  return
 end subroutine sync66
--- a/lib/sync66a.f90
+++ b/lib/sync66a.f90
@ -1,98 +0,0 @@
 subroutine sync66a(iwave,nmax,nsps,nfqso,ntol,xdt,f0,snr1)
  parameter (NSTEP=4)                      !Quarter-symbol steps
  parameter (IZ=1600,JZ=352,NSPSMAX=1920)
  integer*2 iwave(0:nmax-1)                !Raw data
  integer b11(11)                          !Barker 11 code
  integer ijpk(2)                          !Indices i and j at peak of sync_sig
  real s1(IZ,JZ)                           !Symbol spectra
  real x(JZ)                               !Work array; 2FSK sync modulation
  real sync(4*85)                          !sync vector
  real sync_sig(-64:64,-15:15)
  complex c0(0:NSPSMAX)                    !Complex spectrum of symbol
  data b11/1,1,1,0,0,0,1,0,0,1,0/          !Barker 11 code
  data sync(1)/99.0/
  save sync
  if(sync(1).eq.99.0) then
     sync=0.
     do k=1,22
        kk=k
        if(kk.gt.11) kk=k-11
        sync(16*k-15)=2.0*b11(kk) - 1.0
     enddo
  endif
  nfft=2*NSPS
  df=12000.0/nfft                            !3.125 Hz
  istep=nsps/NSTEP
  fac=1/32767.0
  do j=1,JZ                                  !Compute symbol spectra
     ia=(j-1)*istep
     ib=ia+nsps-1
     k=-1
     do i=ia,ib,2
        xx=iwave(i)
        yy=iwave(i+1)
        k=k+1
        c0(k)=fac*cmplx(xx,yy)
     enddo
     c0(k+1:nfft/2)=0.
     call four2a(c0,nfft,1,-1,0)              !r2c FFT
     do i=1,IZ
        s1(i,j)=real(c0(i))**2 + aimag(c0(i))**2
     enddo
  enddo
  i0=nint(nfqso/df)
  call pctile(s1(i0-64:i0+192,1:JZ),129*JZ,40,base)
  s1=s1/base
  s1max=20.0
 ! Apply AGC
  do j=1,JZ
     x(j)=maxval(s1(i0-64:i0+192,j))
     if(x(j).gt.s1max) s1(i0-64:i0+192,j)=s1(i0-64:i0+192,j)*s1max/x(j)
  enddo
  dt4=nsps/(NSTEP*12000.0)
  j0=0.5/dt4
  sync_sig=0.
  ia=min(64,nint(ntol/df))
  do i=-ia,ia
     x=s1(i0+2+i,:)-s1(i0+i,:)
     do lag=-15,15
 ! Make this simpler: just add the 22 nonzero values?
        do n=1,4*85
           j=n+lag+11
           if(j.ge.1 .and. j.le.JZ) sync_sig(i,lag)=sync_sig(i,lag) + sync(n)*x(j)
        enddo
     enddo
  enddo
  ijpk=maxloc(sync_sig)
  ii=ijpk(1)-65
  jj=ijpk(2)-16
 ! Use peakup() here?
  f0=nfqso + ii*df
  jdt=jj
  tsym=nsps/12000.0
  xdt=jdt*tsym/4.0
  snr1=maxval(sync_sig)/22.0
 !  do i=-64,64
 !     write(62,3062) nfqso+i*df,sync_sig(i,jj)
 !3062 format(2f12.3)
 !  enddo
 !  do j=-15,15
 !     write(63,3063) j,j*dt4,sync_sig(ii,j)
 !3063 format(i5,2f12.3)
 !  enddo
  return
 end subroutine sync66a