subroutine wsjt1(d,jz0,istart,samfacin,FileID,ndepth,MinSigdB, + NQRN,DFTolerance,NSaveCum,MouseButton,NClearAve, + Mode,NFreeze,NAFC,NZap,AppDir,utcdate,mode441,mode65, + MyCall,HisCall,HisGrid,neme,nsked,naggressive,ntx2,s2, + ps0,npkept,lumsg,basevb,rmspower,nslim2,psavg,ccf,Nseg, + MouseDF,NAgain,LDecoded,nspecial,ndf,ss1,ss2) parameter (NP2=1024*1024) integer*2 d(jz0) !Buffer for raw one-byte data integer istart !Starting location in original d() array character FileID*40 !Name of file being processed integer MinSigdB !Minimum ping strength, dB integer NQRN !QRN rejection parameter integer DFTolerance !Defines DF search range integer NSaveCum !Set to 1 if cumulative file is to be saved integer NSyncOK !Set to 1 if JT65 file synchronized OK character AppDir*80 !Installation directory for WSJT character*12 utcdate character*12 mycall character*12 hiscall character*6 hisgrid real ps0(431) !Spectrum of best ping integer npkept !Number of pings kept and decoded integer lumsg !Logical unit for decoded.txt real basevb !Baseline signal level, dB integer nslim2 !Minimum strength for single-tone pings, dB real psavg(450) !Average spectrum of the whole file integer Nseg !First or second Tx sequence? integer MouseDF !Freeze position for DF logical pick !True if this is a mouse-picked ping logical stbest !True if the best decode was Single-Tone logical STfound !True if at least one ST decode logical LDecoded !True if anything was decoded real s2(64,3100) !2D spectral array real ccf(-5:540) !X-cor function in JT65 mode (blue line) real red(512) real ss1(-224:224) !Magenta curve (for JT65 shorthands) real ss2(-224:224) !Orange curve (for JT65 shorthands) real yellow(216) real yellow0(216) real fzap(200) integer resample real*8 samfacin,samratio real dat2(NP2) integer*1 dtmp character msg3*3 character cfile6*6 character fname*99,fcum*99 logical lcum integer indx(100) character*90 line character*24 today common/avecom/dat(NP2),labdat,jza,modea common/avecom2/f0a common/ccom/nline,tping(100),line(100) common/limcom/ nslim2a common/clipcom/ nclip equivalence (dtmp,ntmp) save lcum=.true. jz=jz0 modea=Mode nclip=NQRN-5 nslim2a=nclip MinWidth=40 !Minimum width of pings, ms call zero(psavg,450) rewind 11 rewind 12 do i=1,40 if(FileID(i:i).eq.'.') go to 3 enddo i=4 3 ia=max(1,i-6) cfile6=FileID(ia:i-1) nline=0 ndiag=0 ! If file "/wsjt.reg" exists, set ndiag=1 open(16,file='/wsjt.reg',status='old',err=4) ndiag=1 close(16) 4 if(jz.gt.655360) jz=655360 if(mode.eq.4 .and. jz.gt.330750) jz=330750 !### Fix this! sum=0. do j=1,jz !Convert raw data from byte to real, remove DC dat(j)=0.1*d(j) sum=sum + dat(j) enddo ave=sum/jz samratio=1.d0/samfacin if(samratio.eq.1.d0) then do j=1,jz dat(j)=dat(j)-ave enddo else do j=1,jz dat2(j)=dat(j)-ave enddo #ifdef Win32 ierr=resample(dat2,dat,samratio,jz) if(ierr.ne.0) print*,'Resample error.',samratio #endif endif if(mode.ne.2 .and. nzap.ne.0) then if(jz.gt.100000) call avesp2(dat,jz,2,f0a,NFreeze,MouseDF, + DFTolerance,fzap) nadd=1 call bzap(dat,jz,nadd,mode,fzap) endif sq=0. do j=1,jz !Compute power level for whole array sq=sq + dat(j)**2 enddo avesq=sq/jz basevb=dB(avesq) - 44 !Base power level to send back to GUI if(avesq.eq.0) go to 900 nz=600 nstep=jz/nz sq=0. k=0 do j=1,nz sum=0. do n=1,nstep k=k+1 sum=sum+dat(k)**2 enddo sum=sum/nstep sq=sq + (sum-avesq)**2 enddo rmspower=sqrt(sq/nz) pick=.false. if(istart.gt.1) pick=.true. !This is a mouse-picked decoding if(.not.pick .and. (basevb.lt.-15.0 .or. basevb.gt.20.0)) goto 900 nchan=64 !Save 64 spectral channels nstep=221 !Set step size to ~20 ms nz=jz/nstep - 1 !# of spectra to compute if(.not.pick) then MouseButton=0 jza=jz labdat=labdat+1 endif tbest=0. NsyncOK=0 ! If we're in JT65 mode, call the decode65 routines. if(mode.eq.2) then ! if(rmspower.gt.34000.0) go to 900 !Reject very noisy data ! Check for a JT65 shorthand message nstest=0 if(ntx2.ne.1) call short65(dat,jz,NFreeze,MouseDF, + DFTolerance,mode65,nspecial,nstest,dfsh,iderrsh, + idriftsh,snrsh,ss1,ss2,nwsh) ! Lowpass filter and decimate by 2 call lpf1(dat,jz,jz2) jz=jz2 nadd=1 fzap(1)=0. if(nzap.eq.1) call avesp2(dat,jz,nadd,f0a,NFreeze,MouseDF, + DFTolerance,fzap) if(nzap.eq.1.and.nstest.eq.0) call bzap(dat,jz,nadd,mode,fzap) i=index(MyCall,char(0)) if(i.le.0) i=index(MyCall,' ') mycall=MyCall(1:i-1)//' ' i=index(HisCall,char(0)) if(i.le.0) i=index(HisCall,' ') hiscall=HisCall(1:i-1)//' ' ! Offset data by about 1 s. if(jz.ge.126*2048) call wsjt65(dat(4097),jz-4096,cfile6, + NClearAve,MinSigdB,DFTolerance,NFreeze,NAFC,mode65,Nseg, + MouseDF,NAgain,naggressive,ndepth,neme,nsked, + mycall,hiscall,hisgrid,lumsg,lcum,nspecial,ndf, + nstest,dfsh,iderrsh,idriftsh,snrsh, + NSyncOK,ccf,psavg,ndiag,nwsh) goto 900 endif ! If we're in JT6M mode, call the 6M decoding routines. if(mode.eq.4) then do i=1,jz !### Why is it level-sensitive? dat(i)=dat(i)/25.0 enddo ! For waterfall plot call spec2d(dat,jz,nstep,s2,nchan,nz,psavg,sigma) if(sigma.lt.0.0) basevb=-99.0 if(jz/11025.0.lt.3.9 .or. sigma.lt.0.0) go to 900 f0=1076.66 if(NFreeze.eq.1) f0=1076.66+mousedf call syncf0(dat,jz,NFreeze,DFTolerance,jstart,f0,smax) call synct(dat,jz,jstart,f0,smax) call syncf1(dat,jz,jstart,f0,NFreeze,DFTolerance,smax,red) f0a=f0 do i=1,512 ccf(i-6)=dB(red(i)) enddo df=11025./256. do i=1,64 sum=0. do k=8*i-7,8*i sum=sum+red(k) enddo psavg(i)=5.0*sum fac=1.0 freq=i*df if(freq.gt.2500.0) fac=((freq-2500.)/20.0)**(-1.0) psavg(i)=fac*psavg(i) psavg(i+64)=0.001 enddo jz=jz-jstart+1 nslim=MinSigdB NFixLen=0 call decode6m(dat(jstart),jz,cfile6,nslim,istart, + NFixLen,lcum,f0,lumsg,npkept,yellow) if(npkept.eq.0) f0a=0. if(pick) then do i=1,216 ps0(i)=yellow0(i) enddo else ps0(216)=yellow(216) yellow0(216)=yellow(216) do i=1,215 ps0(i)=2*yellow(i) yellow0(i)=ps0(i) enddo endif goto 800 endif ! We're in FSK441 mode. Compute the 2D spectrum. df=11025.0/256.0 !FFT resolution ~43 Hz dtbuf=nstep/11025.0 stlim=nslim2 !Single-tone threshold call spec2d(dat,jz,nstep,s2,nchan,nz,psavg,sigma) if(sigma.lt.0.0) basevb=-99.0 if(sigma.lt.0.0) go to 900 nline0=nline STfound=.false. npkept=0 C Look for single-tone messages if((.not.pick) .or. MouseButton.eq.1) then call stdecode(s2,nchan,nz,sigma,dtbuf,df,stlim, + DFTolerance,cfile6,pick,istart) endif if(nline.gt.nline0) STfound=.true. !ST message(s) found C Now the multi-tone decoding call mtdecode(dat,jz,s2,nchan,nz,MinSigdB,MinWidth, + NQRN,DFTolerance,istart,pick,MouseButton,NSaveCum, + cfile6,ps0) npkept=nline !Number of pings that were kept smax=0. stbest=.false. if(npkept.gt.0) then call indexx(npkept,tping,indx) !Merge the ST and MT decodes do i=1,npkept j=indx(i) if(pick .and. STFound .and. + line(j)(29:31).eq.' ') goto 10 write(lumsg,1050) line(j) !Write to decoded.txt 1050 format(a79) if(lcum) write(21,1050) line(j) !Write to decoded.cum read(line(j),1060) sig,msg3 1060 format(16x,f3.0,9x,a3) if(sig.gt.smax) then smax=sig tbest=tping(j) stbest = (msg3.ne.' ') endif 10 enddo endif dt=1.0/11025.0 !Compute spectrum for pink curve if(stbest) then jj=nint(tbest/dt) call spec441(dat(jj),1102,ps0,f0) endif 800 continue call s2shape(s2,nchan,nz,tbest) 900 continue end file 11 LDecoded = ((NSyncOK.gt.0) .or. npkept.gt.0) return end