module ft8_decode type :: ft8_decoder procedure(ft8_decode_callback), pointer :: callback contains procedure :: decode end type ft8_decoder abstract interface subroutine ft8_decode_callback (this,sync,snr,dt,freq,nbadcrc,decoded) import ft8_decoder implicit none class(ft8_decoder), intent(inout) :: this real, intent(in) :: sync integer, intent(in) :: snr real, intent(in) :: dt real, intent(in) :: freq integer, intent(in) :: nbadcrc character(len=22), intent(in) :: decoded end subroutine ft8_decode_callback end interface contains subroutine decode(this,callback,ss,iwave,nfqso,newdat,npts8,nutc,nfa, & nfsplit,nfb,ntol,nzhsym,nagain,ndepth,nmode,nsubmode,nexp_decode) use timer_module, only: timer include 'fsk4hf/ft8_params.f90' class(ft8_decoder), intent(inout) :: this procedure(ft8_decode_callback) :: callback real ss(1,1) !### dummy, to be removed ### real s(NH1,NHSYM) real candidate(3,100) logical, intent(in) :: newdat, nagain integer*2 iwave(15*12000) character datetime*13,message*22 this%callback => callback write(datetime,1001) nutc !### TEMPORARY ### 1001 format("000000_",i6.6) call timer('sync8 ',0) call sync8(iwave,nfa,nfb,nfqso,s,candidate,ncand) call timer('sync8 ',1) syncmin=4.0 ! rewind 51 do icand=1,ncand sync=candidate(3,icand) if(sync.lt.syncmin) cycle f1=candidate(1,icand) xdt=candidate(2,icand) nsnr=min(99,nint(10.0*log10(sync) - 25.5)) !### empirical ### call timer('ft8b ',0) call ft8b(s,nfqso,f1,xdt,nharderrors,dmin,nbadcrc,message) xdt=xdt-0.6 call timer('ft8b ',1) if (associated(this%callback)) call this%callback(sync,nsnr,xdt, & f1,nbadcrc,message) ! write(13,1110) datetime,0,nsnr,xdt,f1,nharderrors,dmin,message !1110 format(a13,2i4,f6.2,f7.1,i4,' ~ ',f6.2,2x,a22,' FT8') ! write(51,3051) xdt,f1,sync,dmin,nsnr,nharderrors,nbadcrc,message !3051 format(4f9.1,3i5,2x,a22) ! flush(51) enddo return end subroutine decode end module ft8_decode