WSJT-X/map65a.f90

subroutine map65a

!  Processes timf2 data from Linrad to find and decode JT65 signals.

  parameter (NSMAX=60*96000)          !Samples per 60 s file
  parameter (MAXMSG=1000)            !Size of decoded message list
  integer*2 id(4,NSMAX)               !46 MB: raw data from Linrad timf2
  parameter (NFFT=32768)             !Half symbol = 17833 samples;
  real savg(4,NFFT)
  real tavg(-50:50)                  !Temp for finding local base level
  real base(4)                       !Local basel level at 4 pol'ns
  real tmp (200)                     !Temp storage for pctile sorting
  real short(3,NFFT)                 !SNR dt ipol for potential shorthands
  real sig(MAXMSG,30)                !Parameters of detected signals
  real a(5)
  character*22 msg(MAXMSG)
  character*3 shmsg0(4),shmsg
  character arg*12,infile*11,outfile*11
  integer indx(MAXMSG),nsiz(MAXMSG)
  logical done(MAXMSG)
  integer rfile3
  character decoded*22,blank*22,cbad*1
  common/spcom/ss(4,322,NFFT)                !169 MB: half-symbol spectra
  data blank/'                      '/
  data shmsg0/'ATT','RO ','RRR','73 '/

  include 'gcom2.f90'

  tskip=0.
  fselect=0.
  fselect=104.5303
  nmin=1
  infile='061111.0745'

  open(23,file='CALL3.TXT',status='unknown')

  df=96000.0/NFFT                    !df = 96000/NFFT = 2.930 Hz
  fa=0.0
  fb=60000.0
  ia=nint((fa+23000.0)/df + 1.0)     ! 23000 = 48000 - 25000
  ib=nint((fb+23000.0)/df + 1.0)
  ftol=0.020                          !Frequency tolerance (kHz)
  kk=0
  nkk=1

  do nfile=1,nmin
     n=8*NSMAX
     call rfile3a(infile,id,n,ierr)
     newdat=1
     nz=n/8
     read(infile(8:11),*) nutc
     if(fselect.gt.0.0) then

!  nfilt=2 should be faster (but doesn't work right?)
        nfilt=1                      !nfilt=2 is faster for selected freq
!            freq=fselect+1.600
        freq=fselect
        nflip=-1                     !May need to try both +/- 1
        ipol=4                       !Try all four?
        dt=2.314240                  !Not needed?

        call decode1a(id,newdat,nfilt,freq,nflip,ipol,sync2,        &
             a,dt,pol,nkv,nhist,qual,decoded)
        nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###
        nw=0
!  Insert 'OOO' if flip<0.
        write(11,1010) nutc,nsync1,nsync2,dt,ndf,nw,decoded,        &
             nkv,nqual
1010    format(i4.4,i3,i4,f5.1,i5,i3,2x,a22,2i3)
        ndecdone=1
     endif

     nfilt=1
     do i=1,NFFT
        short(1,i)=0.
        short(2,i)=0.
        short(3,i)=0.
     enddo

     call symspec(id,nz,ss,savg)
     newspec=1
     
     freq0=-999.
     sync10=-999.
     fshort0=-999.
     sync20=-999.
     ntry=0
     do i=ia,ib                               !Search over freq range
        freq=0.001*((i-1)*df - 23000) + 100.0

!  Find the local base level for each polarization; update every 10 bins.
        if(mod(i-ia,10).eq.0) then
           do jp=1,4
              do ii=-50,50
                 tavg(ii)=savg(jp,i+ii)
              enddo
              call pctile(tavg,tmp,101,50,base(jp))
           enddo
        endif

!  Find max signal at this frequency
        smax=0.
        do jp=1,4
           if(savg(jp,i)/base(jp).gt.smax) smax=savg(jp,i)/base(jp)
        enddo

        if(smax.gt.1.1) then
           ntry=ntry+1
!  Look for JT65 sync patterns and shorthand square-wave patterns.
           call ccf65(ss(1,1,i),sync1,ipol,dt,flipk,                  &
                syncshort,snr2,ipol2,dt2)

           shmsg='   '
!  Is there a shorthand tone above threshold?
           if(syncshort.gt.1.0) then
              
! ### Do shorthand AFC here (or maybe after finding a pair?) ###

              short(1,i)=syncshort
              short(2,i)=dt2
              short(3,i)=ipol2
!  Check to see if lower tone of shorthand pair was found.
              do j=2,4
                 i0=i-nint(j*53.8330078/df)
!  Should this be i0 +/- 1, or just i0?
!  Should we also insist that difference in DT be either 1.5 or -1.5 s?
                 if(short(1,i0).gt.1.0) then
                    fshort=0.001*((i0-1)*df - 23000) + 100.0

!  Keep only the best candidate within ftol.
                    if(fshort-fshort0.le.ftol .and. sync2.gt.sync20    &
                         .and. nkk.eq.2) kk=kk-1
                    if(fshort-fshort0.gt.ftol .or.                     &
                         sync2.gt.sync20) then
                       kk=kk+1
                       sig(kk,1)=nfile
                       sig(kk,2)=nutc
                       sig(kk,3)=fshort
                       sig(kk,4)=syncshort
                       sig(kk,5)=dt2
                       sig(kk,6)=45*(ipol2-1)/57.2957795
                       sig(kk,7)=0
                       sig(kk,8)=snr2
                       sig(kk,9)=0
                       sig(kk,10)=0
!                           sig(kk,11)=rms0
                       sig(kk,12)=savg(ipol2,i)
                       sig(kk,13)=0
                       sig(kk,14)=0
                       sig(kk,15)=0
                       sig(kk,16)=0
!                           sig(kk,17)=0
                       sig(kk,18)=0
                       msg(kk)=shmsg0(j)
                       fshort0=fshort
                       sync20=sync2
                       nkk=2
                    endif
                 endif
              enddo
           endif

!  Is sync1 above threshold?
           if(sync1.gt.1.0) then

!  Keep only the best candidate within ftol.
!  (Am I deleting any good decodes by doing this?  Any harm in omitting
!  these statements??)
              if(freq-freq0.le.ftol .and. sync1.gt.sync10 .and.         &
                   nkk.eq.1) kk=kk-1

              if(freq-freq0.gt.ftol .or. sync1.gt.sync10) then
                 nflip=nint(flipk)
                 call decode1a(id,newdat,nfilt,freq,nflip,ipol,         &
                      sync2,a,dt,pol,nkv,nhist,qual,decoded)
                 kk=kk+1
                 sig(kk,1)=nfile
                 sig(kk,2)=nutc
                 sig(kk,3)=freq
                 sig(kk,4)=sync1
                 sig(kk,5)=dt
                 sig(kk,6)=pol
                 sig(kk,7)=flipk
                 sig(kk,8)=sync2
                 sig(kk,9)=nkv
                 sig(kk,10)=qual
!                     sig(kk,11)=rms0                  
                 sig(kk,12)=savg(ipol,i)
                 sig(kk,13)=a(1)
                 sig(kk,14)=a(2)
                 sig(kk,15)=a(3)
                 sig(kk,16)=a(4)
!                     sig(kk,17)=a(5)
                 sig(kk,18)=nhist
                 msg(kk)=decoded
                 freq0=freq
                 sync10=sync1
                 nkk=1
              endif
           endif
        endif
     enddo

!         write(*,1010)

!  Trim the list and produce a sorted index and sizes of groups.
!  (Should trimlist remove all but best SNR for given UTC and message content?)
     call trimlist(sig,kk,indx,nsiz,nz)

     do i=1,kk
        done(i)=.false.
     enddo
     j=0
     ilatest=-1
     do n=1,nz
        ifile0=0
        do m=1,nsiz(n)
           i=indx(j+m)
           ifile=sig(i,1)
           if(ifile.gt.ifile0 .and.msg(i).ne.blank) then
              ilatest=i
              ifile0=ifile
           endif
        enddo
        i=ilatest
        if(i.ge.1) then
           if(.not.done(i)) then
              done(i)=.true.
              nutc=sig(i,2)
              freq=sig(i,3)
              sync1=sig(i,4)
              dt=sig(i,5)
              npol=nint(57.2957795*sig(i,6))
              flip=sig(i,7)
              sync2=sig(i,8)
              nkv=sig(i,9)
              nqual=min(sig(i,10),10.0)
!                  rms0=sig(i,11)
              nsavg=sig(i,12)                   !Was used for diagnostic ...
              do k=1,5
                 a(k)=sig(i,12+k)
              enddo
              nhist=sig(i,18)
              decoded=msg(i)

              if(flip.lt.0.0) then
                 do i=22,1,-1
                    if(decoded(i:i).ne.' ') go to 10
                 enddo
                 stop 'Error in message format'
10               if(i.le.18) decoded(i+2:i+4)='OOO'
              endif
              nkHz=nint(freq-1.600)
              f0=144.0+0.001*nkHz
              ndf=nint(1000.0*(freq-1.600-nkHz))
              ndf0=nint(a(1))
              ndf1=nint(a(2))
              ndf2=nint(a(3))
              nsync1=sync1
              nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###
              cbad=' '

!                  if(abs(f0-144.103).lt.0.001) then
!                     write(11,1010) nutc,nsync1,nsync2,dt,ndf,decoded,
!     +                    nkv,nqual
!                  endif

              write(19,1012) f0,ndf,npol,nutc,decoded
1012          format(f7.3,i5,i4,i5.4,2x,a22)

              write(26,1014) f0,ndf,ndf0,ndf1,ndf2,dt,npol,nsync1,       &
                   nsync2,nutc,decoded,nkv,nqual,nhist
1014          format(f7.3,i5,3i3,f5.1,i5,i3,i4,i5.4,2x,a22,3i3)

           endif
        endif
        j=j+nsiz(n)
     enddo
     call display(nutc)
!         if(nfile.ge.1) go to 999
100  continue
  enddo
  
999 return
end subroutine map65a
Many changes. Starting to work on preparing spectra for waterfall display. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/map65@345 ab8295b8-cf94-4d9e-aec4-7959e3be5d79 2007-01-12 12:57:41 -05:00			`subroutine map65a`

			`! Processes timf2 data from Linrad to find and decode JT65 signals.`

			`parameter (NSMAX=60*96000) !Samples per 60 s file`
			`parameter (MAXMSG=1000) !Size of decoded message list`
			`integer*2 id(4,NSMAX) !46 MB: raw data from Linrad timf2`
			`parameter (NFFT=32768) !Half symbol = 17833 samples;`
			`real savg(4,NFFT)`
			`real tavg(-50:50) !Temp for finding local base level`
			`real base(4) !Local basel level at 4 pol'ns`
			`real tmp (200) !Temp storage for pctile sorting`
			`real short(3,NFFT) !SNR dt ipol for potential shorthands`
			`real sig(MAXMSG,30) !Parameters of detected signals`
			`real a(5)`
			`character*22 msg(MAXMSG)`
			`character*3 shmsg0(4),shmsg`
			`character arg12,infile11,outfile*11`
			`integer indx(MAXMSG),nsiz(MAXMSG)`
			`logical done(MAXMSG)`
			`integer rfile3`
			`character decoded22,blank22,cbad*1`
			`common/spcom/ss(4,322,NFFT) !169 MB: half-symbol spectra`
			`data blank/' '/`
			`data shmsg0/'ATT','RO ','RRR','73 '/`

			`include 'gcom2.f90'`

			`tskip=0.`
			`fselect=0.`
			`fselect=104.5303`
			`nmin=1`
			`infile='061111.0745'`

			`open(23,file='CALL3.TXT',status='unknown')`

			`df=96000.0/NFFT !df = 96000/NFFT = 2.930 Hz`
			`fa=0.0`
			`fb=60000.0`
			`ia=nint((fa+23000.0)/df + 1.0) ! 23000 = 48000 - 25000`
			`ib=nint((fb+23000.0)/df + 1.0)`
			`ftol=0.020 !Frequency tolerance (kHz)`
			`kk=0`
			`nkk=1`

			`do nfile=1,nmin`
			`n=8*NSMAX`
			`call rfile3a(infile,id,n,ierr)`
			`newdat=1`
			`nz=n/8`
			`read(infile(8:11),*) nutc`
			`if(fselect.gt.0.0) then`

			`! nfilt=2 should be faster (but doesn't work right?)`
			`nfilt=1 !nfilt=2 is faster for selected freq`
			`! freq=fselect+1.600`
			`freq=fselect`
			`nflip=-1 !May need to try both +/- 1`
			`ipol=4 !Try all four?`
			`dt=2.314240 !Not needed?`

			`call decode1a(id,newdat,nfilt,freq,nflip,ipol,sync2, &`
			`a,dt,pol,nkv,nhist,qual,decoded)`
			`nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###`
			`nw=0`
			`! Insert 'OOO' if flip<0.`
			`write(11,1010) nutc,nsync1,nsync2,dt,ndf,nw,decoded, &`
			`nkv,nqual`
			`1010 format(i4.4,i3,i4,f5.1,i5,i3,2x,a22,2i3)`
			`ndecdone=1`
			`endif`

			`nfilt=1`
			`do i=1,NFFT`
			`short(1,i)=0.`
			`short(2,i)=0.`
			`short(3,i)=0.`
			`enddo`

			`call symspec(id,nz,ss,savg)`
			`newspec=1`

			`freq0=-999.`
			`sync10=-999.`
			`fshort0=-999.`
			`sync20=-999.`
			`ntry=0`
			`do i=ia,ib !Search over freq range`
			`freq=0.001((i-1)df - 23000) + 100.0`

			`! Find the local base level for each polarization; update every 10 bins.`
			`if(mod(i-ia,10).eq.0) then`
			`do jp=1,4`
			`do ii=-50,50`
			`tavg(ii)=savg(jp,i+ii)`
			`enddo`
			`call pctile(tavg,tmp,101,50,base(jp))`
			`enddo`
			`endif`

			`! Find max signal at this frequency`
			`smax=0.`
			`do jp=1,4`
			`if(savg(jp,i)/base(jp).gt.smax) smax=savg(jp,i)/base(jp)`
			`enddo`

			`if(smax.gt.1.1) then`
			`ntry=ntry+1`
			`! Look for JT65 sync patterns and shorthand square-wave patterns.`
			`call ccf65(ss(1,1,i),sync1,ipol,dt,flipk, &`
			`syncshort,snr2,ipol2,dt2)`

			`shmsg=' '`
			`! Is there a shorthand tone above threshold?`
			`if(syncshort.gt.1.0) then`

			`! ### Do shorthand AFC here (or maybe after finding a pair?) ###`

			`short(1,i)=syncshort`
			`short(2,i)=dt2`
			`short(3,i)=ipol2`
			`! Check to see if lower tone of shorthand pair was found.`
			`do j=2,4`
			`i0=i-nint(j*53.8330078/df)`
			`! Should this be i0 +/- 1, or just i0?`
			`! Should we also insist that difference in DT be either 1.5 or -1.5 s?`
			`if(short(1,i0).gt.1.0) then`
			`fshort=0.001((i0-1)df - 23000) + 100.0`

			`! Keep only the best candidate within ftol.`
			`if(fshort-fshort0.le.ftol .and. sync2.gt.sync20 &`
			`.and. nkk.eq.2) kk=kk-1`
			`if(fshort-fshort0.gt.ftol .or. &`
			`sync2.gt.sync20) then`
			`kk=kk+1`
			`sig(kk,1)=nfile`
			`sig(kk,2)=nutc`
			`sig(kk,3)=fshort`
			`sig(kk,4)=syncshort`
			`sig(kk,5)=dt2`
			`sig(kk,6)=45*(ipol2-1)/57.2957795`
			`sig(kk,7)=0`
			`sig(kk,8)=snr2`
			`sig(kk,9)=0`
			`sig(kk,10)=0`
			`! sig(kk,11)=rms0`
			`sig(kk,12)=savg(ipol2,i)`
			`sig(kk,13)=0`
			`sig(kk,14)=0`
			`sig(kk,15)=0`
			`sig(kk,16)=0`
			`! sig(kk,17)=0`
			`sig(kk,18)=0`
			`msg(kk)=shmsg0(j)`
			`fshort0=fshort`
			`sync20=sync2`
			`nkk=2`
			`endif`
			`endif`
			`enddo`
			`endif`

			`! Is sync1 above threshold?`
			`if(sync1.gt.1.0) then`

			`! Keep only the best candidate within ftol.`
			`! (Am I deleting any good decodes by doing this? Any harm in omitting`
			`! these statements??)`
			`if(freq-freq0.le.ftol .and. sync1.gt.sync10 .and. &`
			`nkk.eq.1) kk=kk-1`

			`if(freq-freq0.gt.ftol .or. sync1.gt.sync10) then`
			`nflip=nint(flipk)`
			`call decode1a(id,newdat,nfilt,freq,nflip,ipol, &`
			`sync2,a,dt,pol,nkv,nhist,qual,decoded)`
			`kk=kk+1`
			`sig(kk,1)=nfile`
			`sig(kk,2)=nutc`
			`sig(kk,3)=freq`
			`sig(kk,4)=sync1`
			`sig(kk,5)=dt`
			`sig(kk,6)=pol`
			`sig(kk,7)=flipk`
			`sig(kk,8)=sync2`
			`sig(kk,9)=nkv`
			`sig(kk,10)=qual`
			`! sig(kk,11)=rms0`
			`sig(kk,12)=savg(ipol,i)`
			`sig(kk,13)=a(1)`
			`sig(kk,14)=a(2)`
			`sig(kk,15)=a(3)`
			`sig(kk,16)=a(4)`
			`! sig(kk,17)=a(5)`
			`sig(kk,18)=nhist`
			`msg(kk)=decoded`
			`freq0=freq`
			`sync10=sync1`
			`nkk=1`
			`endif`
			`endif`
			`endif`
			`enddo`

			`! write(*,1010)`

			`! Trim the list and produce a sorted index and sizes of groups.`
			`! (Should trimlist remove all but best SNR for given UTC and message content?)`
			`call trimlist(sig,kk,indx,nsiz,nz)`

			`do i=1,kk`
			`done(i)=.false.`
			`enddo`
			`j=0`
			`ilatest=-1`
			`do n=1,nz`
			`ifile0=0`
			`do m=1,nsiz(n)`
			`i=indx(j+m)`
			`ifile=sig(i,1)`
			`if(ifile.gt.ifile0 .and.msg(i).ne.blank) then`
			`ilatest=i`
			`ifile0=ifile`
			`endif`
			`enddo`
			`i=ilatest`
			`if(i.ge.1) then`
			`if(.not.done(i)) then`
			`done(i)=.true.`
			`nutc=sig(i,2)`
			`freq=sig(i,3)`
			`sync1=sig(i,4)`
			`dt=sig(i,5)`
			`npol=nint(57.2957795*sig(i,6))`
			`flip=sig(i,7)`
			`sync2=sig(i,8)`
			`nkv=sig(i,9)`
			`nqual=min(sig(i,10),10.0)`
			`! rms0=sig(i,11)`
			`nsavg=sig(i,12) !Was used for diagnostic ...`
			`do k=1,5`
			`a(k)=sig(i,12+k)`
			`enddo`
			`nhist=sig(i,18)`
			`decoded=msg(i)`

			`if(flip.lt.0.0) then`
			`do i=22,1,-1`
			`if(decoded(i:i).ne.' ') go to 10`
			`enddo`
			`stop 'Error in message format'`
			`10 if(i.le.18) decoded(i+2:i+4)='OOO'`
			`endif`
			`nkHz=nint(freq-1.600)`
			`f0=144.0+0.001*nkHz`
			`ndf=nint(1000.0*(freq-1.600-nkHz))`
			`ndf0=nint(a(1))`
			`ndf1=nint(a(2))`
			`ndf2=nint(a(3))`
			`nsync1=sync1`
			`nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###`
			`cbad=' '`

			`! if(abs(f0-144.103).lt.0.001) then`
			`! write(11,1010) nutc,nsync1,nsync2,dt,ndf,decoded,`
			`! + nkv,nqual`
			`! endif`

			`write(19,1012) f0,ndf,npol,nutc,decoded`
			`1012 format(f7.3,i5,i4,i5.4,2x,a22)`

			`write(26,1014) f0,ndf,ndf0,ndf1,ndf2,dt,npol,nsync1, &`
			`nsync2,nutc,decoded,nkv,nqual,nhist`
			`1014 format(f7.3,i5,3i3,f5.1,i5,i3,i4,i5.4,2x,a22,3i3)`

			`endif`
			`endif`
			`j=j+nsiz(n)`
			`enddo`
			`call display(nutc)`
			`! if(nfile.ge.1) go to 999`
			`100 continue`
			`enddo`

			`999 return`
			`end subroutine map65a`