WSJT-X/lib/decoder.f90

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subroutine multimode_decoder(ss,id2,params,nfsample)
!$ use omp_lib
Make Fortran profiling timer function a callback with a default null implementation Groundwork for calling the decoders directly from C/C++ threads. To access the timer module timer_module must now be used. Instrumented code need only use the module function 'timer' which is now a procedure pointer that is guaranteed to be associated (unless null() is assigned to it, which should not be done). The default behaviour of 'timer' is to do nothing. If a Fortran program wishes to profile code it should now use the timer_impl module which contains a default timer implementation. The main program should call 'init_timer([filename])' before using 'timer' or calling routines that are instrumented. If 'init_timer([filename])'. If it is called then an optional file name may be provided with 'timer.out' being used as a default. The procedure 'fini_timer()' may be called to close the file. The default timer implementation is thread safe if used with OpenMP multi-threaded code so long as the OpenMP thread team is given the copyin(/timer_private/) attribute for correct operation. The common block /timer_private/ should be included for OpenMP use by including the file 'timer_common.inc'. The module 'lib/timer_C_wrapper.f90' provides a Fortran wrapper along with 'init' and 'fini' subroutines which allow a C/C++ application to call timer instrumented Fortran code and for it to receive callbacks of 'timer()' subroutine invocations. No C/C++ timer implementation is provided at this stage. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@6320 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
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use prog_args
use timer_module, only: timer
use jt4_decode
use jt65_decode
use jt9_decode
use ft8_decode
use ft4_decode
use fst4_decode
use qra66_decode
include 'jt9com.f90'
Make Fortran profiling timer function a callback with a default null implementation Groundwork for calling the decoders directly from C/C++ threads. To access the timer module timer_module must now be used. Instrumented code need only use the module function 'timer' which is now a procedure pointer that is guaranteed to be associated (unless null() is assigned to it, which should not be done). The default behaviour of 'timer' is to do nothing. If a Fortran program wishes to profile code it should now use the timer_impl module which contains a default timer implementation. The main program should call 'init_timer([filename])' before using 'timer' or calling routines that are instrumented. If 'init_timer([filename])'. If it is called then an optional file name may be provided with 'timer.out' being used as a default. The procedure 'fini_timer()' may be called to close the file. The default timer implementation is thread safe if used with OpenMP multi-threaded code so long as the OpenMP thread team is given the copyin(/timer_private/) attribute for correct operation. The common block /timer_private/ should be included for OpenMP use by including the file 'timer_common.inc'. The module 'lib/timer_C_wrapper.f90' provides a Fortran wrapper along with 'init' and 'fini' subroutines which allow a C/C++ application to call timer instrumented Fortran code and for it to receive callbacks of 'timer()' subroutine invocations. No C/C++ timer implementation is provided at this stage. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@6320 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
2015-12-27 10:40:57 -05:00
include 'timer_common.inc'
type, extends(jt4_decoder) :: counting_jt4_decoder
integer :: decoded
end type counting_jt4_decoder
type, extends(jt65_decoder) :: counting_jt65_decoder
integer :: decoded
end type counting_jt65_decoder
type, extends(jt9_decoder) :: counting_jt9_decoder
integer :: decoded
end type counting_jt9_decoder
type, extends(ft8_decoder) :: counting_ft8_decoder
integer :: decoded
end type counting_ft8_decoder
type, extends(ft4_decoder) :: counting_ft4_decoder
integer :: decoded
end type counting_ft4_decoder
type, extends(fst4_decoder) :: counting_fst4_decoder
integer :: decoded
end type counting_fst4_decoder
type, extends(qra66_decoder) :: counting_qra66_decoder
integer :: decoded
end type counting_qra66_decoder
real ss(184,NSMAX)
logical baddata,newdat65,newdat9,single_decode,bVHF,bad0,newdat,ex
integer*2 id2(NTMAX*12000)
type(params_block) :: params
real*4 dd(NTMAX*12000)
character(len=20) :: datetime
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character(len=12) :: mycall, hiscall
character(len=6) :: mygrid, hisgrid
character*60 line
data ndec8/0/
save
type(counting_jt4_decoder) :: my_jt4
type(counting_jt65_decoder) :: my_jt65
type(counting_jt9_decoder) :: my_jt9
type(counting_ft8_decoder) :: my_ft8
type(counting_ft4_decoder) :: my_ft4
type(counting_fst4_decoder) :: my_fst4
type(counting_qra66_decoder) :: my_qra66
!cast C character arrays to Fortran character strings
datetime=transfer(params%datetime, datetime)
mycall=transfer(params%mycall,mycall)
hiscall=transfer(params%hiscall,hiscall)
mygrid=transfer(params%mygrid,mygrid)
hisgrid=transfer(params%hisgrid,hisgrid)
! initialize decode counts
my_jt4%decoded = 0
my_jt65%decoded = 0
my_jt9%decoded = 0
my_ft8%decoded = 0
my_ft4%decoded = 0
my_fst4%decoded = 0
my_qra66%decoded = 0
! For testing only: return Rx messages stored in a file as decodes
inquire(file='rx_messages.txt',exist=ex)
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if(ex) then
if(params%nzhsym.eq.41) then
open(39,file='rx_messages.txt',status='old')
do i=1,9999
read(39,'(a60)',end=5) line
if(line(1:1).eq.' ' .or. line(1:1).eq.'-') go to 800
write(*,'(a)') trim(line)
enddo
5 close(39)
endif
go to 800
endif
ncontest=iand(params%nexp_decode,7)
single_decode=iand(params%nexp_decode,32).ne.0
bVHF=iand(params%nexp_decode,64).ne.0
if(mod(params%nranera,2).eq.0) ntrials=10**(params%nranera/2)
if(mod(params%nranera,2).eq.1) ntrials=3*10**(params%nranera/2)
if(params%nranera.eq.0) ntrials=0
nfail=0
10 if (params%nagain) then
open(13,file=trim(temp_dir)//'/decoded.txt',status='unknown', &
position='append',iostat=ios)
else
open(13,file=trim(temp_dir)//'/decoded.txt',status='unknown',iostat=ios)
endif
if(ios.ne.0) then
nfail=nfail+1
if(nfail.le.3) then
call sleep_msec(10)
go to 10
endif
endif
if(params%nmode.eq.8) then
! We're in FT8 mode
if(ncontest.eq.6) then
! Fox mode: initialize and open houndcallers.txt
inquire(file=trim(temp_dir)//'/houndcallers.txt',exist=ex)
if(.not.ex) then
c2fox=' '
g2fox=' '
nsnrfox=-99
nfreqfox=-99
n30z=0
nwrap=0
nfox=0
endif
open(19,file=trim(temp_dir)//'/houndcallers.txt',status='unknown')
endif
call timer('decft8 ',0)
newdat=params%newdat
if(params%emedelay.ne.0.0) then
id2(1:156000)=id2(24001:180000) ! Drop the first 2 seconds of data
id2(156001:180000)=0
endif
call my_ft8%decode(ft8_decoded,id2,params%nQSOProgress,params%nfqso, &
params%nftx,newdat,params%nutc,params%nfa,params%nfb, &
params%nzhsym,params%ndepth,params%emedelay,ncontest, &
logical(params%nagain),logical(params%lft8apon), &
logical(params%lapcqonly),params%napwid,mycall,hiscall, &
params%ndiskdat)
call timer('decft8 ',1)
if(nfox.gt.0) then
n30min=minval(n30fox(1:nfox))
n30max=maxval(n30fox(1:nfox))
endif
j=0
if(ncontest.eq.6) then
! Fox mode: save decoded Hound calls for possible selection by FoxOp
rewind 19
if(nfox.eq.0) then
endfile 19
rewind 19
else
do i=1,nfox
n=n30fox(i)
if(n30max-n30fox(i).le.4) then
j=j+1
c2fox(j)=c2fox(i)
g2fox(j)=g2fox(i)
nsnrfox(j)=nsnrfox(i)
nfreqfox(j)=nfreqfox(i)
n30fox(j)=n
m=n30max-n
if(len(trim(g2fox(j))).eq.4) then
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call azdist(mygrid,g2fox(j)//' ',0.d0,nAz,nEl,nDmiles, &
nDkm,nHotAz,nHotABetter)
else
nDkm=9999
endif
write(19,1004) c2fox(j),g2fox(j),nsnrfox(j),nfreqfox(j),nDkm,m
1004 format(a12,1x,a4,i5,i6,i7,i3)
endif
enddo
nfox=j
flush(19)
endif
endif
go to 800
endif
if(params%nmode.eq.5) then
call timer('decft4 ',0)
call my_ft4%decode(ft4_decoded,id2,params%nQSOProgress,params%nfqso, &
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params%nfa,params%nfb,params%ndepth, &
logical(params%lapcqonly),ncontest,mycall,hiscall)
call timer('decft4 ',1)
go to 800
endif
if(params%nmode.eq.66) then
! We're in QRA66 mode
call timer('decqra66',0)
call my_qra66%decode(qra66_decoded,id2,params%nutc,params%ntr, &
params%nsubmode,params%nfqso,params%ntol,params%ndepth, &
mycall,hiscall,hisgrid)
call timer('decqra66',1)
go to 800
endif
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if(params%nmode.eq.240) then
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! We're in FST4 mode
ndepth=iand(params%ndepth,3)
iwspr=0
if(iand(params%ndepth,128).ne.0) iwspr=2
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call timer('dec240 ',0)
call my_fst4%decode(fst4_decoded,id2,params%nutc, &
params%nQSOProgress,params%nfqso,params%nfa,params%nfb, &
params%nsubmode,ndepth,params%ntr,params%nexp_decode, &
params%ntol,params%emedelay, &
logical(params%lapcqonly),mycall,hiscall,params%nfsplit,iwspr)
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call timer('dec240 ',1)
go to 800
endif
if(params%nmode.eq.241) then
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! We're in FST4W mode
ndepth=iand(params%ndepth,3)
iwspr=1
call timer('dec240 ',0)
call my_fst4%decode(fst4_decoded,id2,params%nutc, &
params%nQSOProgress,params%nfqso,params%nfa,params%nfb, &
params%nsubmode,ndepth,params%ntr,params%nexp_decode, &
params%ntol,params%emedelay, &
logical(params%lapcqonly),mycall,hiscall,params%nfsplit,iwspr)
call timer('dec240 ',1)
go to 800
endif
rms=sqrt(dot_product(float(id2(60001:61000)), &
float(id2(60001:61000)))/1000.0)
if(rms.lt.2.0) go to 800
! Zap data at start that might come from T/R switching transient?
nadd=100
k=0
bad0=.false.
do i=1,240
sq=0.
do n=1,nadd
k=k+1
sq=sq + float(id2(k))**2
enddo
rms=sqrt(sq/nadd)
if(rms.gt.10000.0) then
bad0=.true.
kbad=k
rmsbad=rms
endif
enddo
if(bad0) then
nz=min(NTMAX*12000,kbad+100)
! id2(1:nz)=0 ! temporarily disabled as it can breaak the JT9 decoder, maybe others
endif
if(params%nmode.eq.4 .or. params%nmode.eq.65) open(14,file=trim(temp_dir)// &
'/avemsg.txt',status='unknown')
if(params%nmode.eq.164) open(17,file=trim(temp_dir)//'/red.dat', &
status='unknown')
if(params%nmode.eq.4) then
jz=52*nfsample
if(params%newdat) then
if(nfsample.eq.12000) call wav11(id2,jz,dd)
if(nfsample.eq.11025) dd(1:jz)=id2(1:jz)
else
jz=52*11025
endif
call my_jt4%decode(jt4_decoded,dd,jz,params%nutc,params%nfqso, &
params%ntol,params%emedelay,params%dttol,logical(params%nagain), &
params%ndepth,logical(params%nclearave),params%minsync, &
params%minw,params%nsubmode,mycall,hiscall, &
hisgrid,params%nlist,params%listutc,jt4_average)
go to 800
endif
npts65=52*12000
if(params%nmode.eq.164) npts65=54*12000
if(baddata(id2,npts65)) then
nsynced=0
ndecoded=0
go to 800
endif
ntol65=params%ntol !### is this OK? ###
newdat65=params%newdat
newdat9=params%newdat
!$call omp_set_dynamic(.true.)
!$omp parallel sections num_threads(2) copyin(/timer_private/) shared(ndecoded) if(.true.) !iif() needed on Mac
!$omp section
if(params%nmode.eq.65 .or. params%nmode.eq.164 .or. &
(params%nmode.eq.(65+9) .and. params%ntxmode.eq.65)) then
! We're in JT65 or QRA64 mode, or should do JT65 first
if(newdat65) dd(1:npts65)=id2(1:npts65)
nf1=params%nfa
nf2=params%nfb
call timer('jt65a ',0)
call my_jt65%decode(jt65_decoded,dd,npts65,newdat65,params%nutc, &
nf1,nf2,params%nfqso,ntol65,params%nsubmode,params%minsync, &
logical(params%nagain),params%n2pass,logical(params%nrobust), &
ntrials,params%naggressive,params%ndepth,params%emedelay, &
logical(params%nclearave),mycall,hiscall, &
hisgrid,params%nexp_decode,params%nQSOProgress, &
logical(params%ljt65apon))
call timer('jt65a ',1)
else if(params%nmode.eq.9 .or. (params%nmode.eq.(65+9) .and. params%ntxmode.eq.9)) then
! We're in JT9 mode, or should do JT9 first
call timer('decjt9 ',0)
call my_jt9%decode(jt9_decoded,ss,id2,params%nfqso, &
newdat9,params%npts8,params%nfa,params%nfsplit,params%nfb, &
params%ntol,params%nzhsym,logical(params%nagain),params%ndepth, &
params%nmode,params%nsubmode,params%nexp_decode)
call timer('decjt9 ',1)
endif
!$omp section
if(params%nmode.eq.(65+9)) then !Do the other mode (we're in dual mode)
if (params%ntxmode.eq.9) then
if(newdat65) dd(1:npts65)=id2(1:npts65)
nf1=params%nfa
nf2=params%nfb
call timer('jt65a ',0)
call my_jt65%decode(jt65_decoded,dd,npts65,newdat65,params%nutc, &
nf1,nf2,params%nfqso,ntol65,params%nsubmode,params%minsync, &
logical(params%nagain),params%n2pass,logical(params%nrobust), &
ntrials,params%naggressive,params%ndepth,params%emedelay, &
logical(params%nclearave),mycall,hiscall, &
hisgrid,params%nexp_decode,params%nQSOProgress, &
logical(params%ljt65apon))
call timer('jt65a ',1)
else
call timer('decjt9 ',0)
call my_jt9%decode(jt9_decoded,ss,id2,params%nfqso, &
newdat9,params%npts8,params%nfa,params%nfsplit,params%nfb, &
params%ntol,params%nzhsym,logical(params%nagain), &
params%ndepth,params%nmode,params%nsubmode,params%nexp_decode)
call timer('decjt9 ',1)
end if
endif
!$omp end parallel sections
! JT65 is not yet producing info for nsynced, ndecoded.
800 ndecoded = my_jt4%decoded + my_jt65%decoded + my_jt9%decoded + &
my_ft8%decoded + my_ft4%decoded + my_fst4%decoded
if(params%nmode.eq.8 .and. params%nzhsym.eq.41) ndec41=ndecoded
if(params%nmode.eq.8 .and. params%nzhsym.eq.47) ndec47=ndecoded
if(params%nmode.eq.8 .and. params%nzhsym.eq.50) then
ndecoded=ndec41+ndec47+ndecoded
endif
if(params%nmode.ne.8 .or. params%nzhsym.eq.50 .or. &
.not.params%ndiskdat) then
write(*,1010) nsynced,ndecoded
1010 format('<DecodeFinished>',2i4)
call flush(6)
endif
close(13)
if(ncontest.eq.6) close(19)
if(params%nmode.eq.4 .or. params%nmode.eq.65) close(14)
return
contains
subroutine jt4_decoded(this,snr,dt,freq,have_sync,sync,is_deep, &
decoded0,qual,ich,is_average,ave)
implicit none
class(jt4_decoder), intent(inout) :: this
integer, intent(in) :: snr
real, intent(in) :: dt
integer, intent(in) :: freq
logical, intent(in) :: have_sync
logical, intent(in) :: is_deep
character(len=1), intent(in) :: sync
character(len=22), intent(in) :: decoded0
real, intent(in) :: qual
integer, intent(in) :: ich
logical, intent(in) :: is_average
integer, intent(in) :: ave
character*22 decoded
character*3 cflags
if(ich.eq.-99) stop !Silence compiler warning
if (have_sync) then
decoded=decoded0
cflags=' '
if(decoded.ne.' ') then
cflags='f '
if(is_deep) then
cflags='d '
write(cflags(2:2),'(i1)') min(int(qual),9)
if(qual.ge.10.0) cflags(2:2)='*'
if(qual.lt.3.0) decoded(22:22)='?'
endif
if(is_average) then
write(cflags(3:3),'(i1)') min(ave,9)
if(ave.ge.10) cflags(3:3)='*'
if(cflags(1:1).eq.'f') cflags=cflags(1:1)//cflags(3:3)//' '
endif
endif
write(*,1000) params%nutc,snr,dt,freq,sync,decoded,cflags
1000 format(i4.4,i4,f5.1,i5,1x,'$',a1,1x,a22,1x,a3)
else
write(*,1000) params%nutc,snr,dt,freq
end if
select type(this)
type is (counting_jt4_decoder)
this%decoded = this%decoded + 1
end select
end subroutine jt4_decoded
subroutine jt4_average (this, used, utc, sync, dt, freq, flip)
implicit none
class(jt4_decoder), intent(inout) :: this
logical, intent(in) :: used
integer, intent(in) :: utc
real, intent(in) :: sync
real, intent(in) :: dt
integer, intent(in) :: freq
logical, intent(in) :: flip
character(len=1) :: cused, csync
cused = '.'
csync = '*'
if (used) cused = '$'
if (flip) csync = '$'
write(14,1000) cused,utc,sync,dt,freq,csync
1000 format(a1,i5.4,f6.1,f6.2,i6,1x,a1)
end subroutine jt4_average
subroutine jt65_decoded(this,sync,snr,dt,freq,drift,nflip,width, &
decoded0,ft,qual,nsmo,nsum,minsync)
use jt65_decode
implicit none
class(jt65_decoder), intent(inout) :: this
real, intent(in) :: sync
integer, intent(in) :: snr
real, intent(in) :: dt
integer, intent(in) :: freq
integer, intent(in) :: drift
integer, intent(in) :: nflip
real, intent(in) :: width
character(len=22), intent(in) :: decoded0
integer, intent(in) :: ft
integer, intent(in) :: qual
integer, intent(in) :: nsmo
integer, intent(in) :: nsum
integer, intent(in) :: minsync
integer i,nap,nft
logical is_deep,is_average
character decoded*22,csync*2,cflags*3
if(width.eq.-9999.0) stop !Silence compiler warning
!$omp critical(decode_results)
decoded=decoded0
cflags=' '
is_deep=ft.eq.2
if(ft.ge.80) then !QRA64 mode
nft=ft-100
csync=': '
if(sync-3.4.ge.float(minsync) .or. nft.ge.0) csync=':*'
if(nft.lt.0) then
write(*,1009) params%nutc,snr,dt,freq,csync,decoded
else
write(*,1009) params%nutc,snr,dt,freq,csync,decoded,nft
1009 format(i4.4,i4,f5.1,i5,1x,a2,1x,a22,i2)
endif
write(13,1011) params%nutc,nint(sync),snr,dt,float(freq),drift, &
decoded,nft
1011 format(i4.4,i4,i5,f6.2,f8.0,i4,3x,a22,' QRA64',i3)
go to 100
endif
! write(*,3001) ft,nsum,qual,sync,bVHF
!3001 format('a',3i3,f5.1,L3)
if(ft.eq.0 .and. minsync.ge.0 .and. int(sync).lt.minsync) then
write(*,1010) params%nutc,snr,dt,freq
else
is_average=nsum.ge.2
if(bVHF .and. ft.gt.0) then
cflags='f '
if(is_deep) then
cflags='d '
write(cflags(2:2),'(i1)') min(qual,9)
if(qual.ge.10) cflags(2:2)='*'
if(qual.lt.3) decoded(22:22)='?'
endif
if(is_average) then
write(cflags(3:3),'(i1)') min(nsum,9)
if(nsum.ge.10) cflags(3:3)='*'
endif
nap=ishft(ft,-2)
if(nap.ne.0) then
if(nsum.lt.2) write(cflags(1:3),'(a1,i1," ")') 'a',nap
if(nsum.ge.2) write(cflags(1:3),'(a1,2i1)') 'a',nap,min(nsum,9)
endif
endif
csync='# '
i=0
if(bVHF .and. nflip.ne.0 .and. &
sync.ge.max(0.0,float(minsync))) then
csync='#*'
if(nflip.eq.-1) then
csync='##'
if(decoded.ne.' ') then
do i=22,1,-1
if(decoded(i:i).ne.' ') exit
enddo
if(i.gt.18) i=18
decoded(i+2:i+4)='OOO'
endif
endif
endif
n=len(trim(decoded))
if(n.eq.2 .or. n.eq.3) csync='# '
if(cflags(1:1).eq.'f') then
cflags(2:2)=cflags(3:3)
cflags(3:3)=' '
endif
write(*,1010) params%nutc,snr,dt,freq,csync,decoded,cflags
1010 format(i4.4,i4,f5.1,i5,1x,a2,1x,a22,1x,a3)
endif
write(13,1012) params%nutc,nint(sync),snr,dt,float(freq),drift, &
decoded,ft,nsum,nsmo
1012 format(i4.4,i4,i5,f6.2,f8.0,i4,3x,a22,' JT65',3i3)
100 call flush(6)
!$omp end critical(decode_results)
select type(this)
type is (counting_jt65_decoder)
this%decoded = this%decoded + 1
end select
end subroutine jt65_decoded
subroutine jt9_decoded (this, sync, snr, dt, freq, drift, decoded)
use jt9_decode
implicit none
class(jt9_decoder), intent(inout) :: this
real, intent(in) :: sync
integer, intent(in) :: snr
real, intent(in) :: dt
real, intent(in) :: freq
integer, intent(in) :: drift
character(len=22), intent(in) :: decoded
!$omp critical(decode_results)
write(*,1000) params%nutc,snr,dt,nint(freq),decoded
1000 format(i4.4,i4,f5.1,i5,1x,'@ ',1x,a22)
write(13,1002) params%nutc,nint(sync),snr,dt,freq,drift,decoded
1002 format(i4.4,i4,i5,f6.1,f8.0,i4,3x,a22,' JT9')
call flush(6)
!$omp end critical(decode_results)
select type(this)
type is (counting_jt9_decoder)
this%decoded = this%decoded + 1
end select
end subroutine jt9_decoded
subroutine ft8_decoded (this,sync,snr,dt,freq,decoded,nap,qual)
use ft8_decode
implicit none
class(ft8_decoder), intent(inout) :: this
real, intent(in) :: sync
integer, intent(in) :: snr
real, intent(in) :: dt
real, intent(in) :: freq
character(len=37), intent(in) :: decoded
character c1*12,c2*12,g2*4,w*4
integer i0,i1,i2,i3,i4,i5,n30,nwrap
integer, intent(in) :: nap
real, intent(in) :: qual
character*2 annot
character*37 decoded0
logical isgrid4,first,b0,b1,b2
data first/.true./
save
isgrid4(w)=(len_trim(w).eq.4 .and. &
ichar(w(1:1)).ge.ichar('A') .and. ichar(w(1:1)).le.ichar('R') .and. &
ichar(w(2:2)).ge.ichar('A') .and. ichar(w(2:2)).le.ichar('R') .and. &
ichar(w(3:3)).ge.ichar('0') .and. ichar(w(3:3)).le.ichar('9') .and. &
ichar(w(4:4)).ge.ichar('0') .and. ichar(w(4:4)).le.ichar('9'))
if(first) then
c2fox=' '
g2fox=' '
nsnrfox=-99
nfreqfox=-99
n30z=0
nwrap=0
nfox=0
first=.false.
endif
decoded0=decoded
annot=' '
if(nap.ne.0) then
write(annot,'(a1,i1)') 'a',nap
if(qual.lt.0.17) decoded0(37:37)='?'
endif
! i0=index(decoded0,';')
! Always print 37 characters? Or, send i3,n3 up to here from ft8b_2 and use them
! to decide how many chars to print?
!TEMP
i0=1
if(i0.le.0) write(*,1000) params%nutc,snr,dt,nint(freq),decoded0(1:22),annot
1000 format(i6.6,i4,f5.1,i5,' ~ ',1x,a22,1x,a2)
if(i0.gt.0) write(*,1001) params%nutc,snr,dt,nint(freq),decoded0,annot
1001 format(i6.6,i4,f5.1,i5,' ~ ',1x,a37,1x,a2)
write(13,1002) params%nutc,nint(sync),snr,dt,freq,0,decoded0
1002 format(i6.6,i4,i5,f6.1,f8.0,i4,3x,a37,' FT8')
if(ncontest.eq.6) then
i1=index(decoded0,' ')
i2=i1 + index(decoded0(i1+1:),' ')
i3=i2 + index(decoded0(i2+1:),' ')
if(i1.ge.3 .and. i2.ge.7 .and. i3.ge.10) then
c1=decoded0(1:i1-1)//' '
c2=decoded0(i1+1:i2-1)
g2=decoded0(i2+1:i3-1)
b0=c1.eq.mycall
if(c1(1:3).eq.'DE ' .and. index(c2,'/').ge.2) b0=.true.
if(len(trim(c1)).ne.len(trim(mycall))) then
i4=index(trim(c1),trim(mycall))
i5=index(trim(mycall),trim(c1))
if(i4.ge.1 .or. i5.ge.1) b0=.true.
endif
b1=i3-i2.eq.5 .and. isgrid4(g2)
b2=i3-i2.eq.1
if(b0 .and. (b1.or.b2) .and. nint(freq).ge.1000) then
n=params%nutc
n30=(3600*(n/10000) + 60*mod((n/100),100) + mod(n,100))/30
if(n30.lt.n30z) nwrap=nwrap+5760 !New UTC day, handle the wrap
n30z=n30
n30=n30+nwrap
if(nfox.lt.MAXFOX) nfox=nfox+1
c2fox(nfox)=c2
g2fox(nfox)=g2
nsnrfox(nfox)=snr
nfreqfox(nfox)=nint(freq)
n30fox(nfox)=n30
endif
endif
endif
call flush(6)
call flush(13)
select type(this)
type is (counting_ft8_decoder)
this%decoded = this%decoded + 1
end select
return
end subroutine ft8_decoded
subroutine ft4_decoded (this,sync,snr,dt,freq,decoded,nap,qual)
use ft4_decode
implicit none
class(ft4_decoder), intent(inout) :: this
real, intent(in) :: sync
integer, intent(in) :: snr
real, intent(in) :: dt
real, intent(in) :: freq
character(len=37), intent(in) :: decoded
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integer, intent(in) :: nap
real, intent(in) :: qual
character*2 annot
character*37 decoded0
decoded0=decoded
annot=' '
if(nap.ne.0) then
write(annot,'(a1,i1)') 'a',nap
if(qual.lt.0.17) decoded0(37:37)='?'
endif
write(*,1001) params%nutc,snr,dt,nint(freq),decoded0,annot
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1001 format(i6.6,i4,f5.1,i5,' + ',1x,a37,1x,a2)
write(13,1002) params%nutc,nint(sync),snr,dt,freq,0,decoded0
2019-04-26 17:44:09 -04:00
1002 format(i6.6,i4,i5,f6.1,f8.0,i4,3x,a37,' FT4')
call flush(6)
call flush(13)
select type(this)
type is (counting_ft4_decoder)
this%decoded = this%decoded + 1
end select
return
end subroutine ft4_decoded
subroutine fst4_decoded (this,nutc,sync,nsnr,dt,freq,decoded,nap, &
qual,ntrperiod,lwspr,fmid,w50)
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use fst4_decode
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implicit none
class(fst4_decoder), intent(inout) :: this
integer, intent(in) :: nutc
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real, intent(in) :: sync
integer, intent(in) :: nsnr
real, intent(in) :: dt
real, intent(in) :: freq
character(len=37), intent(in) :: decoded
integer, intent(in) :: nap
real, intent(in) :: qual
integer, intent(in) :: ntrperiod
logical, intent(in) :: lwspr
real, intent(in) :: fmid
real, intent(in) :: w50
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character*2 annot
character*37 decoded0
character*70 line
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decoded0=decoded
annot=' '
if(nap.ne.0) then
write(annot,'(a1,i1)') 'a',nap
if(qual.lt.0.17) decoded0(37:37)='?'
endif
if(ntrperiod.lt.60) then
write(line,1001) nutc,nsnr,dt,nint(freq),decoded0,annot
1001 format(i6.6,i4,f5.1,i5,' ` ',1x,a37,1x,a2)
write(13,1002) nutc,nint(sync),nsnr,dt,freq,0,decoded0
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1002 format(i6.6,i4,i5,f6.1,f8.0,i4,3x,a37,' FST4')
else
write(line,1003) nutc,nsnr,dt,nint(freq),decoded0,annot
1003 format(i4.4,i4,f5.1,i5,' ` ',1x,a37,1x,a2,2f7.3)
write(13,1004) nutc,nint(sync),nsnr,dt,freq,0,decoded0
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1004 format(i4.4,i4,i5,f6.1,f8.0,i4,3x,a37,' FST4')
endif
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if(fmid.ne.-999.0) then
if(w50.lt.0.95) write(line(65:70),'(f6.3)') w50
if(w50.ge.0.95) write(line(65:70),'(f6.2)') w50
endif
write(*,1005) line
1005 format(a70)
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call flush(6)
call flush(13)
select type(this)
type is (counting_fst4_decoder)
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this%decoded = this%decoded + 1
end select
return
end subroutine fst4_decoded
subroutine qra66_decoded (this,nutc,sync,nsnr,dt,freq,decoded,irc, &
qual,ntrperiod,fmid,w50)
use qra66_decode
implicit none
class(qra66_decoder), intent(inout) :: this
integer, intent(in) :: nutc
real, intent(in) :: sync
integer, intent(in) :: nsnr
real, intent(in) :: dt
real, intent(in) :: freq
character(len=37), intent(in) :: decoded
integer, intent(in) :: irc
real, intent(in) :: qual
integer, intent(in) :: ntrperiod
real, intent(in) :: fmid
real, intent(in) :: w50
integer navg
navg=irc/100
if(ntrperiod.lt.60) then
write(*,1001) nutc,nsnr,dt,nint(freq),decoded,mod(irc,100),navg
1001 format(i6.6,i4,f5.1,i5,' + ',1x,a37,1x,i2,i4)
write(13,1002) nutc,nint(sync),nsnr,dt,freq,0,decoded
1002 format(i6.6,i4,i5,f6.1,f8.0,i4,3x,a37,' QRA66')
else
write(*,1003) nutc,nsnr,dt,nint(freq),decoded,mod(irc,100),navg
1003 format(i4.4,i4,f5.1,i5,' + ',1x,a37,1x,i2,i4)
write(13,1004) nutc,nint(sync),nsnr,dt,freq,0,decoded
1004 format(i4.4,i4,i5,f6.1,f8.0,i4,3x,a37,' QRA66')
endif
call flush(6)
call flush(13)
select type(this)
type is (counting_qra66_decoder)
this%decoded = this%decoded + 1
end select
return
end subroutine qra66_decoded
end subroutine multimode_decoder