WSJT-X/lib/decoder.f90

195 lines
4.9 KiB
Fortran
Raw Normal View History

subroutine decoder(ss,id2)
! Decoder for JT9.
use prog_args
include 'constants.f90'
real ss(184,NSMAX)
character*22 msg
character*20 datetime
real*4 ccfred(NSMAX)
real*4 red2(NSMAX)
logical ccfok(NSMAX)
logical done(NSMAX)
logical done65,baddata
integer*2 id2(NTMAX*12000)
real*4 dd(NTMAX*12000)
integer*1 i1SoftSymbols(207)
common/npar/nutc,ndiskdat,ntrperiod,nfqso,newdat,npts8,nfa,nfsplit,nfb, &
ntol,kin,nzhsym,nsave,nagain,ndepth,ntxmode,nmode,datetime
common/tracer/limtrace,lu
save
call system_clock(iclock0,iclock_rate,iclock_max) !###
nfreqs0=0
nfreqs1=0
ndecodes0=0
ndecodes1=0
if (nagain .eq. 0) then
open(13,file='decoded.txt',status='unknown')
else
open(13,file='decoded.txt',status='unknown',position='append')
end if
open(22,file='kvasd.dat',access='direct',recl=1024,status='unknown')
npts65=52*12000
if(baddata(id2,npts65)) then
nsynced=0
ndecoded=0
go to 800
endif
ntol65=20
done65=.false.
if((nmode.eq.65 .or. nmode.eq.65+9) .and. ntxmode.eq.65) then
! We're decoding JT65, and should do this mode first
if(newdat.ne.0) dd(1:npts65)=id2(1:npts65)
nf1=nfa
nf2=nfb
! if(nmode.eq.65+9) nf2=nfsplit
call jt65a(dd,npts65,newdat,nutc,nf1,nf2,nfqso,ntol65,nagain,ndecoded)
done65=.true.
endif
if(nmode.eq.65) go to 800
nsynced=0
ndecoded=0
nsps=0
nsps=6912 !Params for JT9-1
df3=1500.0/2048.0
tstep=0.5*nsps/12000.0 !Half-symbol step (seconds)
done=.false.
nf0=0
nf1=nfa
if(nmode.eq.65+9) nf1=nfsplit
ia=max(1,nint((nf1-nf0)/df3))
ib=min(NSMAX,nint((nfb-nf0)/df3))
lag1=-(2.5/tstep + 0.9999)
lag2=5.0/tstep + 0.9999
if(newdat.ne.0) then
call timer('sync9 ',0)
call sync9(ss,nzhsym,lag1,lag2,ia,ib,ccfred,red2,ipk)
call timer('sync9 ',1)
endif
nsps8=nsps/8
df8=1500.0/nsps8
dblim=db(864.0/nsps8) - 26.2
do nqd=1,0,-1
limit=1000
ccflim=4.0
red2lim=1.6
schklim=2.2
if(ndepth.eq.2) then
limit=10000
ccflim=3.5
endif
if(ndepth.ge.3 .or. nqd.eq.1) then
limit=100000
ccflim=2.5
endif
ccfok=.false.
if(nqd.eq.1) then
nfa1=nfqso-ntol
nfb1=nfqso+ntol
ia=max(1,nint((nfa1-nf0)/df3))
ib=min(NSMAX,nint((nfb1-nf0)/df3))
ccfok(ia:ib)=(ccfred(ia:ib).gt.(ccflim-2.0)) .and. &
(red2(ia:ib).gt.(red2lim-1.0))
ia1=ia
ib1=ib
else
nfa1=nf1
nfb1=nfb
ia=max(1,nint((nfa1-nf0)/df3))
ib=min(NSMAX,nint((nfb1-nf0)/df3))
do i=ia,ib
ccfok(i)=ccfred(i).gt.ccflim .and. red2(i).gt.red2lim
enddo
ccfok(ia1:ib1)=.false.
endif
fgood=0.
do i=ia,ib
if(done(i) .or. (.not.ccfok(i))) cycle
f=(i-1)*df3
if(nqd.eq.1 .or. &
(ccfred(i).ge.ccflim .and. abs(f-fgood).gt.10.0*df8)) then
if(nqd.eq.0) nfreqs0=nfreqs0+1
if(nqd.eq.1) nfreqs1=nfreqs1+1
call timer('softsym ',0)
fpk=nf0 + df3*(i-1)
call softsym(id2,npts8,nsps8,newdat,fpk,syncpk,snrdb,xdt, &
freq,drift,schk,i1SoftSymbols)
call timer('softsym ',1)
! write(71,3001) nqd,i,f,fpk,ccfred(i),red2(i),schk
!3001 format(2i6,2f8.1,3f6.1)
! call flush(71)
if(schk.lt.schklim) cycle
call timer('decode9 ',0)
call decode9(i1SoftSymbols,limit,nlim,msg)
call timer('decode9 ',1)
sync=(syncpk+1)/4.0
if(sync.lt.0.0 .or. snrdb.lt.dblim-2.0) sync=0.0
nsync=sync
if(nsync.gt.10) nsync=10
nsnr=nint(snrdb)
ndrift=nint(drift/df3)
if(msg.ne.' ') then
if(nqd.eq.0) ndecodes0=ndecodes0+1
if(nqd.eq.1) ndecodes1=ndecodes1+1
write(*,1000) nutc,nsnr,xdt,nint(freq),msg
1000 format(i4.4,i4,f5.1,i5,1x,'@',1x,a22)
write(13,1002) nutc,nsync,nsnr,xdt,freq,ndrift,msg
1002 format(i4.4,i4,i5,f6.1,f8.0,i4,3x,a22,' JT9')
iaa=max(1,i-1)
ibb=min(NSMAX,i+22)
fgood=f
nsynced=1
ndecoded=1
ccfok(iaa:ibb)=.false.
done(iaa:ibb)=.true.
call flush(6)
endif
endif
enddo
call flush(6)
if(nagain.ne.0) exit
enddo
if(nmode.ge.65 .and. (.not.done65)) then
if(newdat.ne.0) dd(1:npts65)=id2(1:npts65)
nf1=nfa
nf2=nfb
call jt65a(dd,npts65,newdat,nutc,nf1,nf2,nfqso,ntol65,nagain,ndecoded)
endif
!### JT65 is not yet producing info for nsynced, ndecoded.
800 write(*,1010) nsynced,ndecoded
1010 format('<DecodeFinished>',2i4)
call flush(6)
close(13)
close(22)
return
end subroutine decoder