mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-26 14:18:38 -05:00
Many changes. Starting to work on preparing spectra for waterfall display.
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/map65@345 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
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30
Makefile.win
30
Makefile.win
@ -11,29 +11,23 @@ all: MAP65.EXE
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OBJS2C = init_rs.o encode_rs.o decode_rs.o jtaudio.o
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F2PYONLY = ftn_init ftn_quit audio_init spec getfile azdist0 astro0 map65a0
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F2PYONLY = ftn_init ftn_quit audio_init getfile azdist0 astro0 \
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spec map65a0
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SRCS2F90 = a2d.f90 astro0.f90 audio_init.f90 azdist0.f90 \
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decode1.f90 decode2.f90 decode3.f90 ftn_init.f90 \
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ftn_quit.f90 get_fname.f90 getfile.f90 \
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i1tor4.f90 pix2d65.f90 rfile.f90 savedata.f90 spec.f90 \
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wsjtgen.f90 runqqq.f90 fivehz.f90 \
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flushqqq.f90 sysqqq.f90 map65a0.f90 rfile3a.f90
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decode1.f90 ftn_init.f90 ftn_quit.f90 wsjtgen.f90 \
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runqqq.f90 fivehz.f90 flushqqq.f90 sysqqq.f90 map65a0.f90 \
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rfile.f90 rfile3a.f90 spec.f90 map65a.f90
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SRCS2F77 = map65a.f wsjt1.f bzap.f avesp2.f flatten.f \
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indexx.f flat2.f gen65.f chkmsg.f \
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gentone.f gencwid.f \
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set.f db.f pctile.f sort.f ssort.f ps.f smooth.f \
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peakup.f avemsg65.f decode65.f demod64a.f \
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encode65.f extract.f flat1.f four2.f getpfx1.f \
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getpfx2.f getsnr.f graycode.f grid2k.f interleave63.f k2grid.f \
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limit.f lpf1.f deep65.f morse.f nchar.f packcall.f packgrid.f \
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packmsg.f packtext.f setup65.f short65.f slope.f spec2d65.f \
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sync65.f unpackcall.f unpackgrid.f unpackmsg.f unpacktext.f \
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xcor.f xfft.f xfft2.f wsjt65.f astro.f azdist.f coord.f dcoord.f \
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SRCS2F77 = indexx.f gen65.f chkmsg.f \
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gentone.f gencwid.f set.f db.f pctile.f sort.f ssort.f \
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avemsg65.f demod64a.f encode65.f extract.f four2a.f getpfx1.f \
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getpfx2.f graycode.f grid2k.f interleave63.f k2grid.f \
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deep65.f morse.f nchar.f packcall.f packgrid.f \
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packmsg.f packtext.f setup65.f unpackcall.f unpackgrid.f \
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unpackmsg.f unpacktext.f astro.f azdist.f coord.f dcoord.f \
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deg2grid.f dot.f ftsky.f geocentric.f GeoDist.f grid2deg.f \
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moon2.f MoonDop.f sun.f toxyz.f pfxdump.f \
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ftpeak65.f fil651.f fil652.f fil653.f symsync65.f \
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symspec.f ccf65.f trimlist.f display.f chkhist.f decode1a.f \
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filbig.f fil659.f fil658.f fil6521.f twkfreq.f decode65b.f \
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afc65b.f fchisq.f ccf2.f
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20
a2d.f90
20
a2d.f90
@ -10,21 +10,17 @@ subroutine a2d(iarg)
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! JTaudio goes into a test-and-sleep loop.
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write(*,1000)
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1000 format('Using PortAudio.')
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idevin=ndevin
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1000 format('Using Linrad for input, PortAudio for output.')
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idevout=ndevout
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call padevsub(numdevs,ndefin,ndefout,nchin,nchout)
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write(*,1002) ndefin,ndefout
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1002 format(/'Default Input:',i3,' Output:',i3)
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write(*,1004) idevin,idevout
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1004 format('Requested Input:',i3,' Output:',i3)
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if(idevin.lt.0 .or. idevin.ge.numdevs) idevin=ndefin
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write(*,1002) ndefout
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1002 format(/'Default Output:',i3)
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write(*,1004) idevout
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1004 format('Requested Output:',i3)
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if(idevout.lt.0 .or. idevout.ge.numdevs) idevout=ndefout
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if(idevin.eq.0 .and. idevout.eq.0) then
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idevin=ndefin
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idevout=ndefout
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endif
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if(idevout.eq.0) idevout=ndefout
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idevin=0
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ierr=jtaudio(idevin,idevout,y1,y2,NMAX,iwrite,iwave,nwave, &
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11025,NSPB,TRPeriod,TxOK,ndebug,Transmitting, &
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Tsec,ngo,nmode,tbuf,ibuf,ndsec)
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@ -32,7 +28,7 @@ subroutine a2d(iarg)
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print*,'Error ',ierr,' in JTaudio, cannot continue.'
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else
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write(*,1006)
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1006 format('Audio streams terminated normally.')
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1006 format('Audio output stream terminated normally.')
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endif
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return
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end subroutine a2d
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@ -10,16 +10,10 @@ subroutine audio_init(ndin,ndout)
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include 'gcom1.f90'
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include 'gcom2.f90'
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nmode=1
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if(mode(1:4).eq.'JT65') then
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nmode=2
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if(mode(5:5).eq.'A') mode65=1
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if(mode(5:5).eq.'B') mode65=2
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if(mode(5:5).eq.'C') mode65=4
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endif
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if(mode.eq.'Echo') nmode=3
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if(mode.eq.'JT6M') nmode=4
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ndevin=ndin
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nmode=2
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if(mode(5:5).eq.'A') mode65=1
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if(mode(5:5).eq.'B') mode65=2
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if(mode(5:5).eq.'C') mode65=4
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ndevout=ndout
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TxOK=0
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Transmitting=0
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18
decode1.F90
18
decode1.F90
@ -1,4 +1,3 @@
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!---------------------------------------------------- decode1
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subroutine decode1(iarg)
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@ -24,22 +23,11 @@ subroutine decode1(iarg)
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ns0=999999
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10 continue
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if(mode(1:4).eq.'JT65') then
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if(rxdone) then
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call savedata
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rxdone=.false.
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endif
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else
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if(ntr.ne.ntr0 .and. monitoring.gt.0) then
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if(ntr.ne.TxFirst .or. (lauto.eq.0)) call savedata
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ntr0=ntr
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endif
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endif
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if(ndecoding.gt.0) then
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ndecdone=0
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call decode2
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ndecdone=1
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! call decode2
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call map65a
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ndecdone=2
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if(mousebutton.eq.0) ndecoding0=ndecoding
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ndecoding=0
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endif
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13
decode3.F90
13
decode3.F90
@ -55,12 +55,13 @@ subroutine decode3(d2,jz,istart,filename)
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enddo
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jz=min(60*11025,jz+nzero)
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endif
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call wsjt1(d2d,jz,istart,samfacin,FileID,ndepth,MinSigdB, &
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NQRN,DFTolerance,MouseButton,NClearAve, &
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nMode,NFreeze,NAFC,NZap,mode65,idf, &
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MyCall,HisCall,HisGrid,neme,nsked,ntx2,s2, &
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ps0,npkept,lumsg,basevb,rmspower,nslim2,psavg,ccf,Nseg, &
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MouseDF,NAgain,LDecoded,nspecial,ndf,ss1,ss2)
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! call wsjt1(d2d,jz,istart,samfacin,FileID,ndepth,MinSigdB, &
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! NQRN,DFTolerance,MouseButton,NClearAve, &
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! nMode,NFreeze,NAFC,NZap,mode65,idf, &
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! MyCall,HisCall,HisGrid,neme,nsked,ntx2,s2, &
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! ps0,npkept,lumsg,basevb,rmspower,nslim2,psavg,ccf,Nseg, &
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! MouseDF,NAgain,LDecoded,nspecial,ndf,ss1,ss2)
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basevb=-999.
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close(23)
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if(basevb.le.-98.0) go to 999
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2
filbig.f
2
filbig.f
@ -13,7 +13,7 @@ C f_stop = 750 Hz.
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real halfpulse(8) !Impulse response of filter (one side)
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complex cfilt(NFFT2) !Filter (complex; imag = 0)
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real rfilt(NFFT2) !Filter (real)
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integer*8 plan1,plan2,plan3,plan4,plan5
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integer plan1,plan2,plan3,plan4,plan5
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logical first
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include 'fftw3.f'
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equivalence (rfilt,cfilt)
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2
four2a.f
2
four2a.f
@ -21,7 +21,7 @@ C The transform will be real and returned to the input array.
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complex a(nfft)
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complex aa(32768)
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integer nn(NPMAX),ns(NPMAX),nf(NPMAX),nl(NPMAX)
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integer*8 plan(NPMAX)
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real*8 plan(NPMAX) !Should be i*8
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data nplan/0/
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include 'fftw3.f'
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save
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@ -1,6 +1,8 @@
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!------------------------------------------------ ftn_quit
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subroutine ftn_quit
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include 'gcom1.f90'
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ngo=0
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call four2a(a,-1,1,1,1)
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! @@@ Should also terminate the plans created in filbig!
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return
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end subroutine ftn_quit
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@ -31,6 +31,7 @@ integer minsigdb !Decoder threshold setting GUI
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integer nclearave !Set to 1 to clear JT65 avg GUI,Decoder
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integer nfreeze !Is Freeze checked? GUI
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integer nafc !Is AFC checked? GUI
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integer newspec !New spectra in ss(4,322,NSMAX) GUI,Decoder
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integer nmode !Which WSJT mode? GUI,Decoder
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integer mode65 !JT65 sub-mode (A/B/C ==> 1/2/4) GUI,SoundIn,Decoder
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integer nclip !Clipping level GUI
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@ -89,7 +90,7 @@ common/gcom2/ps0(431),psavg(450),s2(64,3100),ccf(-5:540), &
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green(500),ngreen,dgain,iter,ndecoding,ndecoding0,mousebutton, &
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ndecdone,npingtime,ierr,lauto,mantx,nrestart,ntr,nmsg,nsave,nadd5, &
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dftolerance,LDecoded,rxdone,monitoring,nzap,nsavecum,minsigdb, &
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nclearave,nfreeze,nafc,nmode,mode65,nclip,ndebug,nblank,nport, &
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nclearave,nfreeze,nafc,newspec,nmode,mode65,nclip,ndebug,nblank,nport, &
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mousedf,neme,nsked,naggressive,ntx2,nslim2,nagain,nsavelast, &
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shok,sendingsh,d2a(661500),d2b(661500),b(60000),jza,jzb,ntime, &
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idinterval,msmax,lenappdir,idf,ndiskdat,nlines,nflat,ntxreq,ntxnow, &
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11
jtaudio.c
11
jtaudio.c
@ -238,19 +238,18 @@ int padevsub_(int *numdev, int *ndefin, int *ndefout,
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}
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printf("\nAudio Input Output Device Name\n");
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printf("Device Channels Channels\n");
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printf("------------------------------------------------------------------\n");
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printf("\nAudio Output Device Name\n");
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printf("Device Channels\n");
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printf("----------------------------------------------------------\n");
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for( i=0; i<numDevices; i++ ) {
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pdi = Pa_GetDeviceInfo( i );
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// if(i == Pa_GetDefaultInputDeviceID()) *ndefin=i;
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// if(i == Pa_GetDefaultOutputDeviceID()) *ndefout=i;
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if(i == Pa_GetDefaultInputDevice()) *ndefin=i;
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if(i == Pa_GetDefaultOutputDevice()) *ndefout=i;
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nchin[i]=pdi->maxInputChannels;
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nchout[i]=pdi->maxOutputChannels;
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printf(" %2d %2d %2d %s\n",i,nchin[i],nchout[i],pdi->name);
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if(nchin[i]>0)
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printf(" %2d %2d %s\n",i,nchout[i],pdi->name);
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}
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Pa_Terminate();
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31
limit.f
31
limit.f
@ -1,31 +0,0 @@
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subroutine limit(x,jz)
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real x(jz)
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logical noping
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common/limcom/ nslim2
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noping=.false.
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xlim=1.e30
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if(nslim2.eq.1) xlim=3.0
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if(nslim2.ge.2) xlim=1.0
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if(nslim2.ge.3) noping=.true.
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sq=0.
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do i=1,jz
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sq=sq+x(i)*x(i)
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enddo
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rms=sqrt(sq/jz)
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rms0=14.5
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x1=xlim*rms0
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fac=1.0/xlim
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if(fac.lt.1.0) fac=1.0
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if(noping .and. rms.gt.20.0) fac=0.01 !Crude attempt at ping excision
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do i=1,jz
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if(x(i).lt.-x1) x(i)=-x1
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if(x(i).gt.x1) x(i)=x1
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x(i)=fac*x(i)
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enddo
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return
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end
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16
map65.py
16
map65.py
@ -251,11 +251,12 @@ def avetextkey(event=NONE):
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def decode(event=NONE):
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if Audio.gcom2.ndecoding==0: #If already busy, ignore request
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Audio.gcom2.nagain=1
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Audio.gcom2.npingtime=0 #Decode whole record
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n=1
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Audio.gcom2.mousebutton=0
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if Audio.gcom2.ndecoding0==4: n=4
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Audio.gcom2.ndecoding=n #Standard decode, full file (d2a)
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# if Audio.gcom2.ndecoding:
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# Audio.map65a0() # @@@ Temporary @@@
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#------------------------------------------------------ decode_include
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def decode_include(event=NONE):
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@ -490,7 +491,7 @@ def cleartext():
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def ModeJT65():
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global slabel,isync,textheight,itol
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cleartext()
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lab2.configure(text='FileID Sync dB DT DF W')
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lab2.configure(text='FileID Sync dB DT DF W')
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lab4.configure(fg='gray85')
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lab5.configure(fg='gray85')
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Audio.gcom1.trperiod=60
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@ -1179,9 +1180,6 @@ def update():
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bdecode.configure(bg='gray85',activebackground='gray95')
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if Audio.gcom2.ndecoding: #Set button bg=light_blue while decoding
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bdecode.configure(bg='#66FFFF',activebackground='#66FFFF')
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# print 'A'
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Audio.map65a0() # @@@ Temporary @@@
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# print 'B'
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tx1.configure(bg='white')
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tx2.configure(bg='white')
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@ -1225,7 +1223,7 @@ def update():
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t='Receiving'
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msg7.configure(text=t,bg=bgcolor)
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if Audio.gcom2.ndecdone==1 or g.cmap != cmap0:
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if Audio.gcom2.ndecdone>0 or g.cmap != cmap0:
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if Audio.gcom2.ndecdone==1:
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if isync==-99 or isync==99:
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isync=isync_save
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@ -1255,7 +1253,10 @@ def update():
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avetext.insert(END,lines[0])
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avetext.insert(END,lines[1])
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# avetext.configure(state=DISABLED)
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Audio.gcom2.ndecdone=0
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if Audio.gcom2.ndecdone==2:
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try:
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f=open(appdir+'/bandmap.txt',mode='r')
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lines=f.readlines()
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@ -1265,12 +1266,11 @@ def update():
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bmtext.configure(state=NORMAL)
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bmtext.insert(END,' Freq DF Pol UTC\n')
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bmtext.insert(END,'--------------------------------------------\n')
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for i in range(len(lines)):
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bmtext.insert(END,lines[i])
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bmtext.see(END)
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Audio.gcom2.ndecdone=2
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Audio.gcom2.ndecdone=3
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if g.cmap != cmap0:
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im.putpalette(g.palette)
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288
map65a.f
288
map65a.f
@ -1,288 +0,0 @@
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subroutine map65a
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C Processes timf2 data from Linrad to find and decode JT65 signals.
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parameter (NMAX=60*96000) !Samples per 60 s file
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parameter (MAXMSG=1000) !Size of decoded message list
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integer*2 id(4,NMAX) !46 MB: raw data from Linrad timf2
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parameter (NFFT=32768) !Half symbol = 17833 samples;
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real ss(4,322,NFFT) !169 MB: half-symbol spectra
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real savg(4,NFFT)
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real tavg(-50:50) !Temp for finding local base level
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real base(4) !Local basel level at 4 pol'ns
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real tmp (200) !Temp storage for pctile sorting
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real short(3,NFFT) !SNR dt ipol for potential shorthands
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real sig(MAXMSG,30) !Parameters of detected signals
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real a(5)
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character*22 msg(MAXMSG)
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character*3 shmsg0(4),shmsg
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character arg*12,infile*11,outfile*11
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integer indx(MAXMSG),nsiz(MAXMSG)
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logical done(MAXMSG)
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integer rfile3
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character decoded*22,blank*22,cbad*1
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data blank/' '/
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data shmsg0/'ATT','RO ','RRR','73 '/
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tskip=0.
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fselect=0.
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! fselect=103.0
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nmin=1
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infile='061111.0745'
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C Initialize some constants
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! open(22,file='kvasd.dat',access='direct',recl=1024,
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! + status='unknown')
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open(23,file='CALL3.TXT',status='unknown')
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! nbytes=8*(4*96000+9000) !Empirical, for 061111_0744.dat.48
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! nskip=8*nint(96000*(tskip+4.09375))
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! n=rfile3(infile,id,nskip) !Skip to start of minute
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! if(n.ne.nskip) go to 9999
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df=96000.0/NFFT !df = 96000/NFFT = 2.930 Hz
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||||
fa=0.0
|
||||
fb=60000.0
|
||||
ia=nint((fa+23000.0)/df + 1.0) ! 23000 = 48000 - 25000
|
||||
ib=nint((fb+23000.0)/df + 1.0)
|
||||
ftol=0.020 !Frequency tolerance (kHz)
|
||||
kk=0
|
||||
nkk=1
|
||||
|
||||
do nfile=1,nmin
|
||||
! n=rfile3(infile,id,8*NMAX) !Read 60 s of data (approx 46 MB)
|
||||
n=8*NMAX
|
||||
call rfile3a(infile,id,n,ierr)
|
||||
newdat=1
|
||||
nz=n/8
|
||||
read(infile(8:11),*) nutc
|
||||
if(fselect.gt.0.0) then
|
||||
nfilt=1 !nfilt=2 is faster for selected freq
|
||||
freq=fselect+1.600
|
||||
nflip=-1 !May need to try both +/- 1
|
||||
ipol=4 !Try all four?
|
||||
dt=2.314240 !Not needed?
|
||||
call decode1a(id,newdat,nfilt,freq,nflip,ipol,sync2,
|
||||
+ a,dt,pol,nkv,nhist,qual,decoded)
|
||||
write(11,1010) nutc,nsync1,nsync2,dt,ndf,decoded,
|
||||
+ nkv,nqual
|
||||
1010 format(i4.4,i5,i4,f5.1,i5,2x,a22,2i3)
|
||||
if(nfile.eq.1) go to 999
|
||||
endif
|
||||
|
||||
nfilt=1
|
||||
do i=1,NFFT
|
||||
short(1,i)=0.
|
||||
short(2,i)=0.
|
||||
short(3,i)=0.
|
||||
enddo
|
||||
|
||||
call symspec(id,nz,ss,savg)
|
||||
|
||||
freq0=-999.
|
||||
sync10=-999.
|
||||
fshort0=-999.
|
||||
sync20=-999.
|
||||
ntry=0
|
||||
do i=ia,ib !Search over freq range
|
||||
freq=0.001*((i-1)*df - 23000) + 100.0
|
||||
|
||||
C Find the local base level for each polarization; update every 10 bins.
|
||||
if(mod(i-ia,10).eq.0) then
|
||||
do jp=1,4
|
||||
do ii=-50,50
|
||||
tavg(ii)=savg(jp,i+ii)
|
||||
enddo
|
||||
call pctile(tavg,tmp,101,50,base(jp))
|
||||
enddo
|
||||
endif
|
||||
|
||||
C Find max signal at this frequency
|
||||
smax=0.
|
||||
do jp=1,4
|
||||
if(savg(jp,i)/base(jp).gt.smax) smax=savg(jp,i)/base(jp)
|
||||
enddo
|
||||
|
||||
if(smax.gt.1.1) then
|
||||
ntry=ntry+1
|
||||
C Look for JT65 sync patterns and shorthand square-wave patterns.
|
||||
call ccf65(ss(1,1,i),sync1,ipol,dt,flipk,
|
||||
+ syncshort,snr2,ipol2,dt2)
|
||||
|
||||
shmsg=' '
|
||||
C Is there a shorthand tone above threshold?
|
||||
if(syncshort.gt.1.0) then
|
||||
|
||||
C### Do shorthand AFC here (or maybe after finding a pair?) ###
|
||||
|
||||
short(1,i)=syncshort
|
||||
short(2,i)=dt2
|
||||
short(3,i)=ipol2
|
||||
C Check to see if lower tone of shorthand pair was found.
|
||||
do j=2,4
|
||||
i0=i-nint(j*53.8330078/df)
|
||||
C Should this be i0 +/- 1, or just i0?
|
||||
C Should we also insist that difference in DT be either 1.5 or -1.5 s?
|
||||
if(short(1,i0).gt.1.0) then
|
||||
fshort=0.001*((i0-1)*df - 23000) + 100.0
|
||||
|
||||
C Keep only the best candidate within ftol.
|
||||
if(fshort-fshort0.le.ftol .and. sync2.gt.sync20
|
||||
+ .and. nkk.eq.2) kk=kk-1
|
||||
if(fshort-fshort0.gt.ftol .or.
|
||||
+ sync2.gt.sync20) then
|
||||
kk=kk+1
|
||||
sig(kk,1)=nfile
|
||||
sig(kk,2)=nutc
|
||||
sig(kk,3)=fshort
|
||||
sig(kk,4)=syncshort
|
||||
sig(kk,5)=dt2
|
||||
sig(kk,6)=45*(ipol2-1)/57.2957795
|
||||
sig(kk,7)=0
|
||||
sig(kk,8)=snr2
|
||||
sig(kk,9)=0
|
||||
sig(kk,10)=0
|
||||
! sig(kk,11)=rms0
|
||||
sig(kk,12)=savg(ipol2,i)
|
||||
sig(kk,13)=0
|
||||
sig(kk,14)=0
|
||||
sig(kk,15)=0
|
||||
sig(kk,16)=0
|
||||
! sig(kk,17)=0
|
||||
sig(kk,18)=0
|
||||
msg(kk)=shmsg0(j)
|
||||
fshort0=fshort
|
||||
sync20=sync2
|
||||
nkk=2
|
||||
endif
|
||||
endif
|
||||
enddo
|
||||
endif
|
||||
|
||||
C Is sync1 above threshold?
|
||||
if(sync1.gt.1.0) then
|
||||
|
||||
C Keep only the best candidate within ftol.
|
||||
C (Am I deleting any good decodes by doing this? Any harm in omitting
|
||||
C these statements??)
|
||||
if(freq-freq0.le.ftol .and. sync1.gt.sync10 .and.
|
||||
+ nkk.eq.1) kk=kk-1
|
||||
|
||||
if(freq-freq0.gt.ftol .or. sync1.gt.sync10) then
|
||||
nflip=nint(flipk)
|
||||
|
||||
call decode1a(id,newdat,nfilt,freq,nflip,ipol,
|
||||
+ sync2,a,dt,pol,nkv,nhist,qual,decoded)
|
||||
|
||||
kk=kk+1
|
||||
sig(kk,1)=nfile
|
||||
sig(kk,2)=nutc
|
||||
sig(kk,3)=freq
|
||||
sig(kk,4)=sync1
|
||||
sig(kk,5)=dt
|
||||
sig(kk,6)=pol
|
||||
sig(kk,7)=flipk
|
||||
sig(kk,8)=sync2
|
||||
sig(kk,9)=nkv
|
||||
sig(kk,10)=qual
|
||||
! sig(kk,11)=rms0
|
||||
sig(kk,12)=savg(ipol,i)
|
||||
sig(kk,13)=a(1)
|
||||
sig(kk,14)=a(2)
|
||||
sig(kk,15)=a(3)
|
||||
sig(kk,16)=a(4)
|
||||
! sig(kk,17)=a(5)
|
||||
sig(kk,18)=nhist
|
||||
msg(kk)=decoded
|
||||
freq0=freq
|
||||
sync10=sync1
|
||||
nkk=1
|
||||
endif
|
||||
endif
|
||||
endif
|
||||
enddo
|
||||
|
||||
! write(*,1010)
|
||||
|
||||
C Trim the list and produce a sorted index and sizes of groups.
|
||||
C (Should trimlist remove all but best SNR for given UTC and message content?)
|
||||
call trimlist(sig,kk,indx,nsiz,nz)
|
||||
|
||||
do i=1,kk
|
||||
done(i)=.false.
|
||||
enddo
|
||||
j=0
|
||||
ilatest=-1
|
||||
do n=1,nz
|
||||
ifile0=0
|
||||
do m=1,nsiz(n)
|
||||
i=indx(j+m)
|
||||
ifile=sig(i,1)
|
||||
if(ifile.gt.ifile0 .and.msg(i).ne.blank) then
|
||||
ilatest=i
|
||||
ifile0=ifile
|
||||
endif
|
||||
enddo
|
||||
i=ilatest
|
||||
if(i.ge.1) then
|
||||
if(.not.done(i)) then
|
||||
done(i)=.true.
|
||||
nutc=sig(i,2)
|
||||
freq=sig(i,3)
|
||||
sync1=sig(i,4)
|
||||
dt=sig(i,5)
|
||||
npol=nint(57.2957795*sig(i,6))
|
||||
flip=sig(i,7)
|
||||
sync2=sig(i,8)
|
||||
nkv=sig(i,9)
|
||||
nqual=min(sig(i,10),10.0)
|
||||
! rms0=sig(i,11)
|
||||
nsavg=sig(i,12) !Was used for diagnostic ...
|
||||
do k=1,5
|
||||
a(k)=sig(i,12+k)
|
||||
enddo
|
||||
nhist=sig(i,18)
|
||||
decoded=msg(i)
|
||||
|
||||
if(flip.lt.0.0) then
|
||||
do i=22,1,-1
|
||||
if(decoded(i:i).ne.' ') go to 10
|
||||
enddo
|
||||
stop 'Error in message format'
|
||||
10 if(i.le.18) decoded(i+2:i+4)='OOO'
|
||||
endif
|
||||
nkHz=nint(freq-1.600)
|
||||
f0=144.0+0.001*nkHz
|
||||
ndf=nint(1000.0*(freq-1.600-nkHz))
|
||||
ndf0=nint(a(1))
|
||||
ndf1=nint(a(2))
|
||||
ndf2=nint(a(3))
|
||||
nsync1=sync1
|
||||
nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###
|
||||
cbad=' '
|
||||
|
||||
if(abs(f0-144.103).lt.0.001) then
|
||||
write(11,1010) nutc,nsync1,nsync2,dt,ndf,decoded,
|
||||
+ nkv,nqual
|
||||
endif
|
||||
|
||||
write(19,1012) f0,ndf,npol,nutc,decoded
|
||||
1012 format(f7.3,i5,i4,i5.4,2x,a22)
|
||||
|
||||
write(26,1014) f0,ndf,ndf0,ndf1,ndf2,dt,npol,nsync1,
|
||||
+ nsync2,nutc,decoded,nkv,nqual,nhist
|
||||
1014 format(f7.3,i5,3i3,f5.1,i5,i3,i4,i5.4,2x,a22,3i3)
|
||||
|
||||
endif
|
||||
endif
|
||||
j=j+nsiz(n)
|
||||
enddo
|
||||
call display(nutc)
|
||||
! if(nfile.ge.1) go to 999
|
||||
100 continue
|
||||
enddo
|
||||
|
||||
999 call four2a(cx,-1,1,1,1) !Destroy the FFTW plans
|
||||
|
||||
9999 end
|
296
map65a.f90
Normal file
296
map65a.f90
Normal file
@ -0,0 +1,296 @@
|
||||
subroutine map65a
|
||||
|
||||
! Processes timf2 data from Linrad to find and decode JT65 signals.
|
||||
|
||||
parameter (NSMAX=60*96000) !Samples per 60 s file
|
||||
parameter (MAXMSG=1000) !Size of decoded message list
|
||||
integer*2 id(4,NSMAX) !46 MB: raw data from Linrad timf2
|
||||
parameter (NFFT=32768) !Half symbol = 17833 samples;
|
||||
real savg(4,NFFT)
|
||||
real tavg(-50:50) !Temp for finding local base level
|
||||
real base(4) !Local basel level at 4 pol'ns
|
||||
real tmp (200) !Temp storage for pctile sorting
|
||||
real short(3,NFFT) !SNR dt ipol for potential shorthands
|
||||
real sig(MAXMSG,30) !Parameters of detected signals
|
||||
real a(5)
|
||||
character*22 msg(MAXMSG)
|
||||
character*3 shmsg0(4),shmsg
|
||||
character arg*12,infile*11,outfile*11
|
||||
integer indx(MAXMSG),nsiz(MAXMSG)
|
||||
logical done(MAXMSG)
|
||||
integer rfile3
|
||||
character decoded*22,blank*22,cbad*1
|
||||
common/spcom/ss(4,322,NFFT) !169 MB: half-symbol spectra
|
||||
data blank/' '/
|
||||
data shmsg0/'ATT','RO ','RRR','73 '/
|
||||
|
||||
include 'gcom2.f90'
|
||||
|
||||
tskip=0.
|
||||
fselect=0.
|
||||
fselect=104.5303
|
||||
nmin=1
|
||||
infile='061111.0745'
|
||||
|
||||
! Initialize some constants
|
||||
|
||||
! open(22,file='kvasd.dat',access='direct',recl=1024,
|
||||
! + status='unknown')
|
||||
open(23,file='CALL3.TXT',status='unknown')
|
||||
|
||||
! nbytes=8*(4*96000+9000) !Empirical, for 061111_0744.dat.48
|
||||
! nskip=8*nint(96000*(tskip+4.09375))
|
||||
! n=rfile3(infile,id,nskip) !Skip to start of minute
|
||||
! if(n.ne.nskip) go to 9999
|
||||
|
||||
df=96000.0/NFFT !df = 96000/NFFT = 2.930 Hz
|
||||
fa=0.0
|
||||
fb=60000.0
|
||||
ia=nint((fa+23000.0)/df + 1.0) ! 23000 = 48000 - 25000
|
||||
ib=nint((fb+23000.0)/df + 1.0)
|
||||
ftol=0.020 !Frequency tolerance (kHz)
|
||||
kk=0
|
||||
nkk=1
|
||||
|
||||
do nfile=1,nmin
|
||||
! n=rfile3(infile,id,8*NSMAX) !Read 60 s of data (approx 46 MB)
|
||||
n=8*NSMAX
|
||||
call rfile3a(infile,id,n,ierr)
|
||||
newdat=1
|
||||
nz=n/8
|
||||
read(infile(8:11),*) nutc
|
||||
if(fselect.gt.0.0) then
|
||||
|
||||
! nfilt=2 should be faster (but doesn't work right?)
|
||||
nfilt=1 !nfilt=2 is faster for selected freq
|
||||
! freq=fselect+1.600
|
||||
freq=fselect
|
||||
nflip=-1 !May need to try both +/- 1
|
||||
ipol=4 !Try all four?
|
||||
dt=2.314240 !Not needed?
|
||||
|
||||
call decode1a(id,newdat,nfilt,freq,nflip,ipol,sync2, &
|
||||
a,dt,pol,nkv,nhist,qual,decoded)
|
||||
nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###
|
||||
nw=0
|
||||
! Insert 'OOO' if flip<0.
|
||||
write(11,1010) nutc,nsync1,nsync2,dt,ndf,nw,decoded, &
|
||||
nkv,nqual
|
||||
1010 format(i4.4,i3,i4,f5.1,i5,i3,2x,a22,2i3)
|
||||
ndecdone=1
|
||||
endif
|
||||
|
||||
nfilt=1
|
||||
do i=1,NFFT
|
||||
short(1,i)=0.
|
||||
short(2,i)=0.
|
||||
short(3,i)=0.
|
||||
enddo
|
||||
|
||||
call symspec(id,nz,ss,savg)
|
||||
newspec=1
|
||||
|
||||
freq0=-999.
|
||||
sync10=-999.
|
||||
fshort0=-999.
|
||||
sync20=-999.
|
||||
ntry=0
|
||||
do i=ia,ib !Search over freq range
|
||||
freq=0.001*((i-1)*df - 23000) + 100.0
|
||||
|
||||
! Find the local base level for each polarization; update every 10 bins.
|
||||
if(mod(i-ia,10).eq.0) then
|
||||
do jp=1,4
|
||||
do ii=-50,50
|
||||
tavg(ii)=savg(jp,i+ii)
|
||||
enddo
|
||||
call pctile(tavg,tmp,101,50,base(jp))
|
||||
enddo
|
||||
endif
|
||||
|
||||
! Find max signal at this frequency
|
||||
smax=0.
|
||||
do jp=1,4
|
||||
if(savg(jp,i)/base(jp).gt.smax) smax=savg(jp,i)/base(jp)
|
||||
enddo
|
||||
|
||||
if(smax.gt.1.1) then
|
||||
ntry=ntry+1
|
||||
! Look for JT65 sync patterns and shorthand square-wave patterns.
|
||||
call ccf65(ss(1,1,i),sync1,ipol,dt,flipk, &
|
||||
syncshort,snr2,ipol2,dt2)
|
||||
|
||||
shmsg=' '
|
||||
! Is there a shorthand tone above threshold?
|
||||
if(syncshort.gt.1.0) then
|
||||
|
||||
! ### Do shorthand AFC here (or maybe after finding a pair?) ###
|
||||
|
||||
short(1,i)=syncshort
|
||||
short(2,i)=dt2
|
||||
short(3,i)=ipol2
|
||||
! Check to see if lower tone of shorthand pair was found.
|
||||
do j=2,4
|
||||
i0=i-nint(j*53.8330078/df)
|
||||
! Should this be i0 +/- 1, or just i0?
|
||||
! Should we also insist that difference in DT be either 1.5 or -1.5 s?
|
||||
if(short(1,i0).gt.1.0) then
|
||||
fshort=0.001*((i0-1)*df - 23000) + 100.0
|
||||
|
||||
! Keep only the best candidate within ftol.
|
||||
if(fshort-fshort0.le.ftol .and. sync2.gt.sync20 &
|
||||
.and. nkk.eq.2) kk=kk-1
|
||||
if(fshort-fshort0.gt.ftol .or. &
|
||||
sync2.gt.sync20) then
|
||||
kk=kk+1
|
||||
sig(kk,1)=nfile
|
||||
sig(kk,2)=nutc
|
||||
sig(kk,3)=fshort
|
||||
sig(kk,4)=syncshort
|
||||
sig(kk,5)=dt2
|
||||
sig(kk,6)=45*(ipol2-1)/57.2957795
|
||||
sig(kk,7)=0
|
||||
sig(kk,8)=snr2
|
||||
sig(kk,9)=0
|
||||
sig(kk,10)=0
|
||||
! sig(kk,11)=rms0
|
||||
sig(kk,12)=savg(ipol2,i)
|
||||
sig(kk,13)=0
|
||||
sig(kk,14)=0
|
||||
sig(kk,15)=0
|
||||
sig(kk,16)=0
|
||||
! sig(kk,17)=0
|
||||
sig(kk,18)=0
|
||||
msg(kk)=shmsg0(j)
|
||||
fshort0=fshort
|
||||
sync20=sync2
|
||||
nkk=2
|
||||
endif
|
||||
endif
|
||||
enddo
|
||||
endif
|
||||
|
||||
! Is sync1 above threshold?
|
||||
if(sync1.gt.1.0) then
|
||||
|
||||
! Keep only the best candidate within ftol.
|
||||
! (Am I deleting any good decodes by doing this? Any harm in omitting
|
||||
! these statements??)
|
||||
if(freq-freq0.le.ftol .and. sync1.gt.sync10 .and. &
|
||||
nkk.eq.1) kk=kk-1
|
||||
|
||||
if(freq-freq0.gt.ftol .or. sync1.gt.sync10) then
|
||||
nflip=nint(flipk)
|
||||
|
||||
call decode1a(id,newdat,nfilt,freq,nflip,ipol, &
|
||||
sync2,a,dt,pol,nkv,nhist,qual,decoded)
|
||||
kk=kk+1
|
||||
sig(kk,1)=nfile
|
||||
sig(kk,2)=nutc
|
||||
sig(kk,3)=freq
|
||||
sig(kk,4)=sync1
|
||||
sig(kk,5)=dt
|
||||
sig(kk,6)=pol
|
||||
sig(kk,7)=flipk
|
||||
sig(kk,8)=sync2
|
||||
sig(kk,9)=nkv
|
||||
sig(kk,10)=qual
|
||||
! sig(kk,11)=rms0
|
||||
sig(kk,12)=savg(ipol,i)
|
||||
sig(kk,13)=a(1)
|
||||
sig(kk,14)=a(2)
|
||||
sig(kk,15)=a(3)
|
||||
sig(kk,16)=a(4)
|
||||
! sig(kk,17)=a(5)
|
||||
sig(kk,18)=nhist
|
||||
msg(kk)=decoded
|
||||
freq0=freq
|
||||
sync10=sync1
|
||||
nkk=1
|
||||
endif
|
||||
endif
|
||||
endif
|
||||
enddo
|
||||
|
||||
! write(*,1010)
|
||||
|
||||
! Trim the list and produce a sorted index and sizes of groups.
|
||||
! (Should trimlist remove all but best SNR for given UTC and message content?)
|
||||
call trimlist(sig,kk,indx,nsiz,nz)
|
||||
|
||||
do i=1,kk
|
||||
done(i)=.false.
|
||||
enddo
|
||||
j=0
|
||||
ilatest=-1
|
||||
do n=1,nz
|
||||
ifile0=0
|
||||
do m=1,nsiz(n)
|
||||
i=indx(j+m)
|
||||
ifile=sig(i,1)
|
||||
if(ifile.gt.ifile0 .and.msg(i).ne.blank) then
|
||||
ilatest=i
|
||||
ifile0=ifile
|
||||
endif
|
||||
enddo
|
||||
i=ilatest
|
||||
if(i.ge.1) then
|
||||
if(.not.done(i)) then
|
||||
done(i)=.true.
|
||||
nutc=sig(i,2)
|
||||
freq=sig(i,3)
|
||||
sync1=sig(i,4)
|
||||
dt=sig(i,5)
|
||||
npol=nint(57.2957795*sig(i,6))
|
||||
flip=sig(i,7)
|
||||
sync2=sig(i,8)
|
||||
nkv=sig(i,9)
|
||||
nqual=min(sig(i,10),10.0)
|
||||
! rms0=sig(i,11)
|
||||
nsavg=sig(i,12) !Was used for diagnostic ...
|
||||
do k=1,5
|
||||
a(k)=sig(i,12+k)
|
||||
enddo
|
||||
nhist=sig(i,18)
|
||||
decoded=msg(i)
|
||||
|
||||
if(flip.lt.0.0) then
|
||||
do i=22,1,-1
|
||||
if(decoded(i:i).ne.' ') go to 10
|
||||
enddo
|
||||
stop 'Error in message format'
|
||||
10 if(i.le.18) decoded(i+2:i+4)='OOO'
|
||||
endif
|
||||
nkHz=nint(freq-1.600)
|
||||
f0=144.0+0.001*nkHz
|
||||
ndf=nint(1000.0*(freq-1.600-nkHz))
|
||||
ndf0=nint(a(1))
|
||||
ndf1=nint(a(2))
|
||||
ndf2=nint(a(3))
|
||||
nsync1=sync1
|
||||
nsync2=nint(10.0*log10(sync2)) - 40 !### empirical ###
|
||||
cbad=' '
|
||||
|
||||
! if(abs(f0-144.103).lt.0.001) then
|
||||
! write(11,1010) nutc,nsync1,nsync2,dt,ndf,decoded,
|
||||
! + nkv,nqual
|
||||
! endif
|
||||
|
||||
write(19,1012) f0,ndf,npol,nutc,decoded
|
||||
1012 format(f7.3,i5,i4,i5.4,2x,a22)
|
||||
|
||||
write(26,1014) f0,ndf,ndf0,ndf1,ndf2,dt,npol,nsync1, &
|
||||
nsync2,nutc,decoded,nkv,nqual,nhist
|
||||
1014 format(f7.3,i5,3i3,f5.1,i5,i3,i4,i5.4,2x,a22,3i3)
|
||||
|
||||
endif
|
||||
endif
|
||||
j=j+nsiz(n)
|
||||
enddo
|
||||
call display(nutc)
|
||||
! if(nfile.ge.1) go to 999
|
||||
100 continue
|
||||
enddo
|
||||
|
||||
999 return
|
||||
end subroutine map65a
|
@ -1,9 +1,5 @@
|
||||
subroutine map65a0
|
||||
|
||||
include 'gcom2.f90'
|
||||
|
||||
call map65a
|
||||
ndecdone=1
|
||||
|
||||
return
|
||||
end subroutine map65a0
|
||||
|
36
padevsub.c
36
padevsub.c
@ -1,36 +0,0 @@
|
||||
// #include <stdio.h>
|
||||
// #include <math.h>
|
||||
#include "portaudio.h"
|
||||
|
||||
int __stdcall PADEVSUB(int *numdev, int *ndefin, int *ndefout,
|
||||
int nchin[], int nchout[])
|
||||
{
|
||||
int i,j;
|
||||
int numDevices;
|
||||
const PaDeviceInfo *pdi;
|
||||
PaError err;
|
||||
|
||||
Pa_Initialize();
|
||||
numDevices = Pa_CountDevices();
|
||||
*numdev=numDevices;
|
||||
if( numDevices < 0 ) {
|
||||
err = numDevices;
|
||||
goto error;
|
||||
}
|
||||
|
||||
for( i=0; i<numDevices; i++ ) {
|
||||
pdi = Pa_GetDeviceInfo( i );
|
||||
if(i == Pa_GetDefaultInputDeviceID()) *ndefin=i;
|
||||
if(i == Pa_GetDefaultOutputDeviceID()) *ndefout=i;
|
||||
nchin[i]=pdi->maxInputChannels;
|
||||
nchout[i]=pdi->maxOutputChannels;
|
||||
printf("Audio device %d: In=%d Out=%d %s\n",i,nchin[i],nchout[i],pdi->name);
|
||||
}
|
||||
|
||||
Pa_Terminate();
|
||||
return 0;
|
||||
|
||||
error:
|
||||
Pa_Terminate();
|
||||
return err;
|
||||
}
|
198
spec.f90
198
spec.f90
@ -1,180 +1,55 @@
|
||||
!---------------------------------------------------- spec
|
||||
subroutine spec(brightness,contrast,logmap,ngain,nspeed,a)
|
||||
|
||||
! Called by SpecJT.
|
||||
! Probably should use the "!f2py intent(...)" structure here.
|
||||
parameter (NX=750,NY=130,NTOT=NX*NY,NFFT=32768)
|
||||
|
||||
! Input:
|
||||
parameter (NX=750,NY=130,NTOT=NX*NY)
|
||||
integer brightness,contrast !Display parameters
|
||||
integer ngain !Digital gain for input audio
|
||||
integer nspeed !Scrolling speed index
|
||||
|
||||
! Output:
|
||||
integer*2 a(NTOT) !Pixel values for NX x NY array
|
||||
|
||||
real a0(NTOT) !Save the last NY spectra
|
||||
! real a0(NTOT) !Save the last NY spectra
|
||||
integer nstep(5)
|
||||
integer b0,c0
|
||||
real x(4096) !Data for FFT
|
||||
complex c(0:2048) !Complex spectrum
|
||||
real ss(2048) !Power spectrum
|
||||
logical first
|
||||
real s(NFFT)
|
||||
common/spcom/ss(4,322,NFFT) !169 MB: half-symbol spectra
|
||||
include 'gcom1.f90'
|
||||
include 'gcom2.f90'
|
||||
include 'gcom3.f90'
|
||||
include 'gcom4.f90'
|
||||
data jz/0/ !Number of spectral lines available
|
||||
data nstep/15,10,5,2,1/ !Integration limits
|
||||
data first/.true./
|
||||
|
||||
equivalence (x,c)
|
||||
save
|
||||
|
||||
if(first) then
|
||||
istep=2205
|
||||
nfft=4096
|
||||
nh=nfft/2
|
||||
do i=1,nh
|
||||
ss(i)=0.
|
||||
enddo
|
||||
df=11025.0/nfft
|
||||
fac=2.0/10000.
|
||||
nsum=0
|
||||
iread=0
|
||||
first=.false.
|
||||
b0=-999
|
||||
c0=-999
|
||||
logmap0=-999
|
||||
nspeed0=-999
|
||||
ncall=0
|
||||
jza=0
|
||||
rms=0.
|
||||
endif
|
||||
df=96000.0/nfft
|
||||
b0=-999
|
||||
c0=-999
|
||||
logmap0=-999
|
||||
nspeed0=-999
|
||||
nmode=2 !JT65 mode
|
||||
|
||||
nmode=1
|
||||
if(mode(1:4).eq.'JT65') nmode=2
|
||||
if(mode.eq.'Echo') nmode=3
|
||||
if(mode.eq.'JT6M') nmode=4
|
||||
|
||||
nlines=0
|
||||
newdat=0
|
||||
npts=iwrite-iread
|
||||
if(ndiskdat.eq.1) then
|
||||
npts=jzc/2048
|
||||
npts=2048*npts
|
||||
kread=0
|
||||
endif
|
||||
if(npts.lt.0) npts=npts+nmax
|
||||
if(npts.lt.nfft) go to 900 !Not enough data available
|
||||
|
||||
10 continue
|
||||
if(ndiskdat.eq.1) then
|
||||
! Data read from disk
|
||||
k=kread
|
||||
nadd=nstep(nspeed)
|
||||
nlines=322/nadd
|
||||
j=0
|
||||
print*,'A',nspeed,nadd,nlines
|
||||
do k=1,nlines
|
||||
do i=1,nfft
|
||||
k=k+1
|
||||
x(i)=0.4*d2c(k)
|
||||
enddo
|
||||
kread=kread+istep !Update pointer
|
||||
else
|
||||
! Real-time data
|
||||
dgain=2.0*10.0**(0.005*ngain)
|
||||
k=iread
|
||||
do i=1,nfft
|
||||
k=k+1
|
||||
if(k.gt.nmax) k=k-nmax
|
||||
x(i)=0.5*dgain*y1(k)
|
||||
enddo
|
||||
iread=iread+istep !Update pointer
|
||||
if(iread.gt.nmax) iread=iread-nmax
|
||||
endif
|
||||
|
||||
sum=0. !Get ave, rms of data
|
||||
do i=1,nfft
|
||||
sum=sum+x(i)
|
||||
enddo
|
||||
ave=sum/nfft
|
||||
sq=0.
|
||||
do i=1,nfft
|
||||
d=x(i)-ave
|
||||
sq=sq+d*d
|
||||
x(i)=fac*d
|
||||
enddo
|
||||
rms1=sqrt(sq/nfft)
|
||||
if(rms.eq.0) rms=rms1
|
||||
rms=0.25*rms1 + 0.75*rms
|
||||
|
||||
if(ndiskdat.eq.0) then
|
||||
level=0 !Compute S-meter level
|
||||
if(rms.gt.0.0) then !Scale 0-100, steps = 0.4 dB
|
||||
dB=20.0*log10(rms/800.0)
|
||||
level=50 + 2.5*dB
|
||||
if(level.lt.0) level=0
|
||||
if(level.gt.100) level=100
|
||||
endif
|
||||
endif
|
||||
|
||||
call xfft2(x,nfft)
|
||||
|
||||
do i=1,nh !Accumulate power spectrum
|
||||
ss(i)=ss(i) + real(c(i))**2 + aimag(c(i))**2
|
||||
enddo
|
||||
nsum=nsum+1
|
||||
|
||||
if(nsum.ge.nstep(nspeed)) then !Integrate for specified time
|
||||
nlines=nlines+1
|
||||
do i=NTOT,NX+1,-1 !Move spectra up one row
|
||||
a0(i)=a0(i-NX) ! (will be "down" on display)
|
||||
enddo
|
||||
if(ndiskdat.eq.1 .and. nlines.eq.1) then
|
||||
do i=1,NX
|
||||
a0(i)=255
|
||||
s(i)=0.
|
||||
do n=1,nadd
|
||||
j=j+1
|
||||
s(i)=s(i) + ss(1,j,i) + ss(3,j,i)
|
||||
enddo
|
||||
do i=NTOT,NX+1,-1
|
||||
a0(i)=a0(i-NX)
|
||||
enddo
|
||||
endif
|
||||
|
||||
if(nflat.gt.0) call flat2(ss,nh,nsum)
|
||||
|
||||
ia=1
|
||||
if(nfrange.eq.2000) then
|
||||
i0=182 + nint((nfmid-1500)/df)
|
||||
if(i0.lt.0) ia=1-i0
|
||||
else if(nfrange.eq.4000) then
|
||||
i0=nint(nfmid/df - (NX+2.0))
|
||||
if(i0.lt.0) ia=1-i0/2
|
||||
endif
|
||||
do i=ia,NX !Insert new data in top row
|
||||
if(nfrange.eq.2000) then
|
||||
a0(i)=5*ss(i+i0)/nsum
|
||||
else if(nfrange.eq.4000) then
|
||||
smax=max(ss(2*i+i0),ss(2*i+i0-1))
|
||||
a0(i)=5*smax/nsum
|
||||
endif
|
||||
s(i)=s(i)/nadd
|
||||
enddo
|
||||
nsum=0
|
||||
newdat=1 !Flag for new spectrum available
|
||||
do i=1,nh !Zero the accumulating array
|
||||
ss(i)=0.
|
||||
enddo
|
||||
if(jz.lt.NY) jz=jz+1
|
||||
endif
|
||||
|
||||
if(ndiskdat.eq.1) then
|
||||
npts=jzc-kread
|
||||
else
|
||||
npts=iwrite-iread
|
||||
if(npts.lt.0) npts=npts+nmax
|
||||
endif
|
||||
|
||||
if(npts.ge.4096) go to 10
|
||||
print*,'B',k
|
||||
|
||||
! Compute pixel values
|
||||
iz=NX
|
||||
logmap=0
|
||||
if(brightness.ne.b0 .or. contrast.ne.c0 .or. logmap.ne.logmap0 .or. &
|
||||
nspeed.ne.nspeed0 .or. nlines.gt.1) then
|
||||
! iz=NX
|
||||
! logmap=0
|
||||
! if(brightness.ne.b0 .or. contrast.ne.c0 .or. logmap.ne.logmap0 .or. &
|
||||
! nspeed.ne.nspeed0 .or. nlines.gt.1) then
|
||||
iz=NTOT
|
||||
gain=40*sqrt(nstep(nspeed)/5.0) * 5.0**(0.01*contrast)
|
||||
gamma=1.3 + 0.01*contrast
|
||||
@ -183,17 +58,20 @@ subroutine spec(brightness,contrast,logmap,ngain,nspeed,a)
|
||||
c0=contrast
|
||||
logmap0=logmap
|
||||
nspeed0=nspeed
|
||||
endif
|
||||
ia=10001
|
||||
ib=10750
|
||||
|
||||
do i=1,iz
|
||||
n=0
|
||||
if(a0(i).gt.0.0 .and. logmap.eq.1) n=gain*log10(0.001*a0(i)) + offset + 20
|
||||
if(a0(i).gt.0.0 .and. logmap.eq.0) n=(0.01*a0(i))**gamma + offset
|
||||
n=min(252,max(0,n))
|
||||
a(i)=n
|
||||
do i=ia,ib
|
||||
n=0
|
||||
if(s(i).gt.0.0 .and. logmap.eq.1) n=gain*log10(0.001*s(i)) &
|
||||
+ offset + 20
|
||||
if(s(i).gt.0.0 .and. logmap.eq.0) n=(0.01*s(i))**gamma + offset
|
||||
n=min(252,max(0,n))
|
||||
a(i)=n
|
||||
enddo
|
||||
print*,'C'
|
||||
enddo
|
||||
print*,'D'
|
||||
|
||||
900 continue
|
||||
if(ndiskdat.eq.1) ndecoding=4
|
||||
return
|
||||
end subroutine spec
|
||||
|
19
specjt.py
19
specjt.py
@ -247,16 +247,12 @@ def update():
|
||||
contrast=sc2.get()
|
||||
logm=logmap.get()
|
||||
g0=sc3.get()
|
||||
|
||||
# Don't calculate spectra for waterfall while decoding
|
||||
if Audio.gcom2.ndecoding==0 and \
|
||||
(Audio.gcom2.monitoring or Audio.gcom2.ndiskdat):
|
||||
Audio.spec(brightness,contrast,logm,g0,nspeed,a) #Call Fortran routine spec
|
||||
newdat=Audio.gcom1.newdat #True if new data available
|
||||
else:
|
||||
newdat=0
|
||||
|
||||
if newdat or brightness!=b0 or contrast!=c0 or logm!=logm0:
|
||||
newspec=Audio.gcom2.newspec #True if new data available
|
||||
if newspec:
|
||||
Audio.spec(brightness,contrast,logm,g0,nspeed,a) #Call Fortran routine spec
|
||||
|
||||
if newspec or brightness!=b0 or contrast!=c0 or logm!=logm0:
|
||||
if brightness==b0 and contrast==c0 and logm==logm0:
|
||||
n=Audio.gcom2.nlines
|
||||
box=(0,0,NX,300-n) #Define region
|
||||
@ -275,7 +271,7 @@ def update():
|
||||
c0=contrast
|
||||
logm0=logm
|
||||
|
||||
if newdat:
|
||||
if newspec:
|
||||
if Audio.gcom2.monitoring:
|
||||
if minsep.get() and newMinute:
|
||||
draw.line((0,0,749,0),fill=128) #Draw the minute separator
|
||||
@ -290,6 +286,7 @@ def update():
|
||||
#For some reason, top two lines are invisible, so we move down 2
|
||||
graph1.create_image(0,0+2,anchor='nw',image=pim)
|
||||
newMinute=0
|
||||
Audio.gcom2.newspec=0
|
||||
|
||||
if (Audio.gcom2.mousedf != mousedf0 or Audio.gcom2.dftolerance != tol0):
|
||||
df_mark()
|
||||
@ -312,7 +309,7 @@ def update():
|
||||
df_mark()
|
||||
nmark0=nmark.get()
|
||||
|
||||
if newdat: Audio.gcom2.ndiskdat=0
|
||||
if newspec: Audio.gcom2.ndiskdat=0
|
||||
Audio.gcom2.nlines=0
|
||||
Audio.gcom2.nflat=nflat.get()
|
||||
frange=nfr.get()*2000
|
||||
|
194
wsjt1.F
194
wsjt1.F
@ -1,194 +0,0 @@
|
||||
subroutine wsjt1(d,jz0,istart,samfacin,FileID,ndepth,MinSigdB,
|
||||
+ NQRN,DFTolerance,MouseButton,NClearAve,
|
||||
+ Mode,NFreeze,NAFC,NZap,mode65,idf,
|
||||
+ MyCall,HisCall,HisGrid,neme,nsked,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 NSyncOK !Set to 1 if JT65 file synchronized OK
|
||||
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)
|
||||
character msg3*3
|
||||
character cfile6*6
|
||||
logical lcum
|
||||
integer indx(100)
|
||||
character*90 line
|
||||
common/avecom/dat(NP2),labdat,jza,modea
|
||||
common/ccom/nline,tping(100),line(100)
|
||||
common/limcom/ nslim2a
|
||||
common/clipcom/ nclip
|
||||
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
|
||||
|
||||
sum=0.
|
||||
do j=1,jz !Convert raw data from i*2 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
|
||||
|
||||
#if (USE_PORTAUDIO==1) || defined(Win32)
|
||||
ierr=resample(dat2,dat,samratio,jz)
|
||||
if(ierr.ne.0) print*,'Resample error.',samratio
|
||||
#endif
|
||||
|
||||
endif
|
||||
|
||||
if(ndiag.ne.0 .and. nclip.lt.0) then
|
||||
C Intentionally degrade SNR by -nclip dB.
|
||||
sq=0.
|
||||
do i=1,jz
|
||||
sq=sq + dat(i)**2
|
||||
enddo
|
||||
p0=sq/jz
|
||||
p1=p0*10.0**(-0.1*nclip)
|
||||
dnoise=sqrt(4*(p1-p0))
|
||||
idum=-1
|
||||
do i=1,jz
|
||||
dat(i)=dat(i) + dnoise*gran(idum)
|
||||
enddo
|
||||
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
|
||||
|
||||
! Only JT65 mode is supported.
|
||||
! 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,idfsh)
|
||||
! Lowpass filter and decimate by 2
|
||||
call lpf1(dat,jz,jz2,MouseDF,MouseDF2)
|
||||
idf=mousedf-mousedf2
|
||||
jz=jz2
|
||||
nadd=1
|
||||
fzap(1)=0.
|
||||
if(nzap.eq.1) call avesp2(dat,jz,nadd,mode,NFreeze,MouseDF2,
|
||||
+ 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,
|
||||
+ MouseDF2,NAgain,ndepth,neme,nsked,idf,idfsh,
|
||||
+ mycall,hiscall,hisgrid,lumsg,lcum,nspecial,ndf,
|
||||
+ nstest,dfsh,snrsh,
|
||||
+ NSyncOK,ccf,psavg,ndiag,nwsh)
|
||||
|
||||
900 LDecoded = ((NSyncOK.gt.0) .or. npkept.gt.0)
|
||||
end file 11
|
||||
call flushqqq(11)
|
||||
call flushqqq(12)
|
||||
call flushqqq(21)
|
||||
|
||||
return
|
||||
end
|
||||
|
84
xcor.f
84
xcor.f
@ -1,84 +0,0 @@
|
||||
subroutine xcor(s2,ipk,nsteps,nsym,lag1,lag2,
|
||||
+ ccf,ccf0,lagpk,flip,fdot)
|
||||
|
||||
C Computes ccf of a row of s2 and the pseudo-random array pr. Returns
|
||||
C peak of the CCF and the lag at which peak occurs. For JT65, the
|
||||
C CCF peak may be either positive or negative, with negative implying
|
||||
C the "OOO" message.
|
||||
|
||||
parameter (NHMAX=1024) !Max length of power spectra
|
||||
parameter (NSMAX=320) !Max number of half-symbol steps
|
||||
real s2(NHMAX,NSMAX) !2d spectrum, stepped by half-symbols
|
||||
real a(NSMAX),a2(NSMAX)
|
||||
real ccf(-5:540)
|
||||
include 'prcom.h'
|
||||
common/clipcom/ nclip
|
||||
data lagmin/0/ !Silence g77 warning
|
||||
save
|
||||
|
||||
df=11025.0/4096.
|
||||
dtstep=0.5/df
|
||||
fac=dtstep/(60.0*df)
|
||||
|
||||
do j=1,nsteps
|
||||
ii=nint((j-nsteps/2)*fdot*fac)+ipk
|
||||
a(j)=s2(ii,j)
|
||||
enddo
|
||||
|
||||
C If requested, clip the spectrum that will be cross correlated.
|
||||
nclip=0 !Turn it off
|
||||
if(nclip.gt.0) then
|
||||
call pctile(a,a2,nsteps,50,base)
|
||||
alow=a2(nint(nsteps*0.16))
|
||||
ahigh=a2(nint(nsteps*0.84))
|
||||
rms=min(base-alow,ahigh-base)
|
||||
clip=4.0-nclip
|
||||
atop=base+clip*rms
|
||||
abot=base-clip*rms
|
||||
do i=1,nsteps
|
||||
if(nclip.lt.4) then
|
||||
a(i)=min(a(i),atop)
|
||||
a(i)=max(a(i),abot)
|
||||
else
|
||||
if(a(i).ge.base) then
|
||||
a(i)=1.0
|
||||
else
|
||||
a(i)=-1.0
|
||||
endif
|
||||
endif
|
||||
enddo
|
||||
endif
|
||||
|
||||
ccfmax=0.
|
||||
ccfmin=0.
|
||||
do lag=lag1,lag2
|
||||
x=0.
|
||||
do i=1,nsym
|
||||
j=2*i-1+lag
|
||||
if(j.ge.1 .and. j.le.nsteps) x=x+a(j)*pr(i)
|
||||
enddo
|
||||
ccf(lag)=2*x !The 2 is for plotting scale
|
||||
if(ccf(lag).gt.ccfmax) then
|
||||
ccfmax=ccf(lag)
|
||||
lagpk=lag
|
||||
endif
|
||||
|
||||
if(ccf(lag).lt.ccfmin) then
|
||||
ccfmin=ccf(lag)
|
||||
lagmin=lag
|
||||
endif
|
||||
enddo
|
||||
|
||||
ccf0=ccfmax
|
||||
flip=1.0
|
||||
if(-ccfmin.gt.ccfmax) then
|
||||
do lag=lag1,lag2
|
||||
ccf(lag)=-ccf(lag)
|
||||
enddo
|
||||
lagpk=lagmin
|
||||
ccf0=-ccfmin
|
||||
flip=-1.0
|
||||
endif
|
||||
|
||||
return
|
||||
end
|
Loading…
Reference in New Issue
Block a user