WSJT-X/lib/qra66_decode.f90

157 lines
4.4 KiB
Fortran

module qra66_decode
type :: qra66_decoder
procedure(qra66_decode_callback), pointer :: callback
contains
procedure :: decode
end type qra66_decoder
abstract interface
subroutine qra66_decode_callback (this,nutc,sync,nsnr,dt,freq, &
decoded,nap,qual,ntrperiod,fmid,w50)
import qra66_decoder
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) :: nap
real, intent(in) :: qual
integer, intent(in) :: ntrperiod
real, intent(in) :: fmid
real, intent(in) :: w50
end subroutine qra66_decode_callback
end interface
contains
subroutine decode(this,callback,iwave,nutc,nfa,nfb,nfqso,ndepth,lapdx, &
mycall,hiscall,hisgrid)
use timer_module, only: timer
use packjt
use, intrinsic :: iso_c_binding
parameter (NFFT1=15*12000,NFFT2=15*6000)
class(qra66_decoder), intent(inout) :: this
procedure(qra66_decode_callback) :: callback
character(len=12) :: mycall, hiscall
character(len=6) :: hisgrid
character*37 decoded
integer*2 iwave(NFFT1) !Raw data
integer ipk(1)
integer dat4(12)
logical lapdx,ltext
complex c0(0:NFFT1-1) !Spectrum, then analytic signal
real s(900)
real s3a(-64:127,63)
real s3(-64:127,63)
real a(5)
data nc1z/-1/,nc2z/-1/,ng2z/-1/,maxaptypez/-1/
save
! print*,nutc,nfa,nfb,nfqso,ndepth,lapdx,mycall,hiscall,hisgrid
this%callback => callback
nsps=1920
baud=12000.0/nsps
df1=12000.0/NFFT1
if(nutc.eq.-999) print*,mycall,hiscall,hisgrid,lapdx,ndepth,nfa,nfb,nfqso
! Prime the QRA decoder for possible use of AP
call packcall(mycall(1:6),nc1,ltext)
call packcall(hiscall(1:6),nc2,ltext)
call packgrid(hisgrid(1:4),ng2,ltext)
nSubmode=0
b90=1.0
nFadingModel=1
maxaptype=4
if(iand(ndepth,64).ne.0) maxaptype=5
if(nc1.ne.nc1z .or. nc2.ne.nc2z .or. ng2.ne.ng2z .or. &
maxaptype.ne.maxaptypez) then
do naptype=0,maxaptype
if(naptype.eq.2 .and. maxaptype.eq.4) cycle
call qra64_dec(s3,nc1,nc2,ng2,naptype,1,nSubmode,b90, &
nFadingModel,dat4,snr2,irc)
enddo
nc1z=nc1
nc2z=nc2
ng2z=ng2
maxaptypez=maxaptype
endif
naptype=maxaptype
! Compute the full-length spectrum
fac=2.0/NFFT1
c0=fac*iwave
call four2a(c0,NFFT1,1,-1,1) !Forward c2c FFT
nadd=101
nh=nadd/2
df2=nh*df1
iz=3000.0/df2
do i=1,iz !Compute smoothed spectrum
s(i)=0.
j0=nh*i
do j=j0-nh,j0+nh
s(i)=s(i) + real(c0(j))**2 + aimag(c0(j))**2
enddo
enddo
call smo121(s,iz)
ipk=maxloc(s)
f0=df2*ipk(1) - 0.5*baud !Candidate sync frequency
! do i=1,iz
! write(51,3051) i*df2,s(i)
!3051 format(f12.6,e12.3)
! enddo
c0(NFFT2/2+1:NFFT2)=0. !Zero the top half
c0(0)=0.5*c0(0)
call four2a(c0,nfft2,1,1,1) !Inverse c2c FFT
call sync66(c0,f0,jpk,sync) !c0 is analytic signal at 6000 S/s
xdt=jpk/6000.0 - 0.5
a=0.
a(1)=-(f0 + 1.5*baud)
call twkfreq(c0,c0,85*NSPS,6000.0,a)
call spec66(c0(jpk:jpk+85*NSPS-1),s3a)
s3=s3a/maxval(s3a)
! do j=1,63
! ipk=maxloc(s3(-64:127,j))
! write(54,3054) j,ipk(1)-65
!3054 format(2i8)
! do i=-64,127
! write(53,3053) i,2*s3(i,j)+j-1
!3053 format(i8,f12.6)
! enddo
! enddo
call qra64_dec(s3a,nc1,nc2,ng2,naptype,0,nSubmode,b90, &
nFadingModel,dat4,snr2,irc)
if(irc.gt.0) call badmsg(irc,dat4,nc1,nc2,ng2)
decoded=' '
if(irc.ge.0) then
call unpackmsg(dat4,decoded) !Unpack the user message
call fmtmsg(decoded,iz)
if(index(decoded,"000AAA ").ge.1) then
! Suppress a certain type of garbage decode.
decoded=' '
irc=-1
endif
nsnr=nint(snr2)
call this%callback(nutc,sync,nsnr,xdt,f0,decoded, &
irc,qual,ntrperiod,fmid,w50)
else
snr2=0.
endif
return
end subroutine decode
end module qra66_decode