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https://github.com/saitohirga/WSJT-X.git
synced 2024-11-26 14:18:38 -05:00
All is in place for double-buffering of ss(), ss5(), savg().
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/map65@438 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
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@ -47,7 +47,7 @@ SRCS2F90 = astro0.F90 audio_init.F90 azdist0.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 map65a0.f90 \
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rfile.f90 rfile3a.f90 spec.f90 map65a.f90 display.F90 \
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getfile.F90 getfile2.F90 recvpkt.F90
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getfile.F90 getfile2.F90 recvpkt.F90 symspec.f90
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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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@ -58,7 +58,7 @@ SRCS2F77 = indexx.f gen65.f chkmsg.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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symspec.f ccf65.f trimlist.f chkhist.f decode1a.f \
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ccf65.f trimlist.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 rfile2.f
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@ -18,7 +18,10 @@ SRCS2F90 = a2d.f90 astro0.f90 audio_init.f90 azdist0.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 map65a0.f90 \
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rfile.f90 rfile3a.f90 spec.f90 map65a.f90 display.F90 \
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getfile.f90 getfile2.f90 recvpkt.f90 savetf2.f90
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getfile.f90 getfile2.f90 recvpkt.f90 savetf2.f90 \
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symspec.f90
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SRCSCOM = datcom.f90 gcom1.f90 gcom2.f90 gcom3.f90 gcom4.f90 spcom.f90
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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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@ -29,7 +32,7 @@ SRCS2F77 = indexx.f gen65.f chkmsg.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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symspec.f ccf65.f trimlist.f chkhist.f decode1a.f \
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ccf65.f trimlist.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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@ -38,7 +41,7 @@ SRCS2C = resample.c ptt.c igray.c wrapkarn.c rfile3.c wfile3.c
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MAP65.EXE: Audio.pyd map65.spec
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python c:\python23\installer\Build.py map65.spec
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Audio.pyd: $(OBJS2C) $(SRCS2F90) $(SRCS2F77) $(SRCS2C)
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Audio.pyd: $(OBJS2C) $(SRCS2F90) $(SRCS2F77) $(SRCS2C) $(SRCSCOM)
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python f2py.py -c \
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--quiet --"fcompiler=compaqv" \
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--opt="/nologo /traceback /warn:errors /fast /fpp /define:Win32 \
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10
ccf65.f
10
ccf65.f
@ -1,4 +1,4 @@
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subroutine ccf65(ss,sync1,ipol1,dt1,flipk,syncshort,
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subroutine ccf65(ss,nhsym,sync1,ipol1,dt1,flipk,syncshort,
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+ snr2,ipol2,dt2)
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parameter (NFFT=512,NH=NFFT/2)
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@ -52,10 +52,10 @@ C Look for JT65 sync pattern and shorthand square-wave pattern.
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ccfbest=0.
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ccfbest2=0.
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do ip=1,4 !Do all four pol'ns
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do i=1,321
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do i=1,nhsym ! ?? nhsym-1 ??
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s(i)=min(4.0,ss(ip,i)+ss(ip,i+1))
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enddo
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do i=322,NFFT
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do i=nhsym+1,NFFT ! ?? nhsym ??
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s(i)=0.
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enddo
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call four2a(s,NFFT,1,-1,0) !Real-to-complex FFT
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@ -103,10 +103,10 @@ C Find rms level on baseline of "ccfblue", for normalization.
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dt1=2.5 + lagpk*(2048.0/11025.0)
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C Find base level for normalizing snr2.
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do i=1,322
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do i=1,nhsym
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tmp1(i)=ss(ipol2,i)
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enddo
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call pctile(tmp1,tmp2,322,40,base)
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call pctile(tmp1,tmp2,nhsym,40,base)
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snr2=0.398107*ccfbest2/base !### empirical
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syncshort=0.5*ccfbest2/rms - 4.0 !### better normalizer than rms?
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dt2=2.5 + lagpk2*(2048.0/11025.0)
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2
map65.py
2
map65.py
@ -317,8 +317,6 @@ def openfile(event=NONE):
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Audio.getfile(fname,len(fname))
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if Audio.gcom2.ierr: print 'Error ',Audio.gcom2.ierr, \
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'when trying to read file',fname
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bdecode.configure(bg='#66FFFF',activebackground='#66FFFF', \
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state=DISABLED)
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mrudir=os.path.dirname(fname)
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fileopened=os.path.basename(fname)
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os.chdir(appdir)
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@ -3,11 +3,9 @@ subroutine map65a(newdat)
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! Processes timf2 data from Linrad to find and decode JT65 signals.
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parameter (MAXMSG=1000) !Size of decoded message list
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parameter (NFFT=32768) !Half symbol = 17833 samples;
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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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@ -16,9 +14,10 @@ subroutine map65a(newdat)
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logical done(MAXMSG)
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logical even
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character decoded*22,blank*22
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include 'datcom.f90'
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include 'spcom.f90'
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real short(3,NFFT) !SNR dt ipol for potential shorthands
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include 'gcom2.f90'
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common/spcom/ip0,ss(4,322,NFFT),ss5(322,NFFT),savg(4,NFFT)
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include 'datcom.f90'
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data blank/' '/
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data shmsg0/'ATT','RO ','RRR','73 '/
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data nfile/0/,nutc0/-999/,nid/0/,ip000/1/,ip001/1/
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@ -96,7 +95,7 @@ subroutine map65a(newdat)
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if(smax.gt.1.1) then
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ntry=ntry+1
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! Look for JT65 sync patterns and shorthand square-wave patterns.
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call ccf65(ss(1,1,i),sync1,ipol,dt,flipk, &
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call ccf65(ss(1,1,i),nhsym,sync1,ipol,dt,flipk, &
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syncshort,snr2,ipol2,dt2)
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shmsg=' '
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7
spec.f90
7
spec.f90
@ -1,6 +1,6 @@
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subroutine spec(brightness,contrast,ngain,nspeed,a,a2)
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parameter (NX=750,NY=130,NTOT=NX*NY,NFFT=32768)
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parameter (NX=750,NY=130,NTOT=NX*NY)
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! Input:
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integer brightness,contrast !Display parameters
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@ -14,9 +14,10 @@ subroutine spec(brightness,contrast,ngain,nspeed,a,a2)
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logical first
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integer nstep(5)
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integer b0,c0
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real s(NFFT,NY)
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! Could save memory by doing the averaging-by-7 (or 10?) of ss5 in symspec.
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common/spcom/ip0,ss(4,322,NFFT),ss5(322,NFFT),savg(4,NFFT)
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include 'spcom.f90'
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real s(NFFT,NY)
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include 'gcom1.f90'
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include 'gcom2.f90'
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include 'gcom3.f90'
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104
symspec.f
104
symspec.f
@ -1,104 +0,0 @@
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subroutine symspec(id,kbuf,kk,kkdone,rxnoise,newspec,newdat,
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+ ndecoding)
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C Compute spectra at four polarizations, using half-symbol steps.
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parameter (NFFT=32768)
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parameter (NSMAX=60*96000)
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integer*2 id(4,NSMAX)
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complex cx(NFFT),cy(NFFT) ! pad to 32k with zeros
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complex z
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real*8 ts,hsym
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common/spcom/ip0,ss(4,322,NFFT),ss5(322,NFFT),savg(4,NFFT)
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! fac=1.e-4
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! fac=1.7e-4
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fac=0.0002 * 10.0**(0.05*(-rxnoise))
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hsym=2048.d0*96000.d0/11025.d0 !Samples per half symbol
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npts=hsym !Integral samples per half symbol
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ntot=322 !Half symbols per transmission
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if(kkdone.eq.0) then
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do ip=1,4
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do i=1,NFFT
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savg(ip,i)=0.
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enddo
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enddo
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ts=1.d0 - hsym
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n=0
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endif
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do nn=1,ntot
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i0=ts+hsym !Starting sample pointer
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if((i0+npts-1).gt.kk) go to 999 !See if we have enough points
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i1=ts+2*hsym !Next starting sample pointer
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ts=ts+hsym !OK, update the exact sample pointer
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do i=1,npts !Copy data to FFT arrays
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xr=fac*id(1,i0+i)
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xi=fac*id(2,i0+i)
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cx(i)=cmplx(xr,xi)
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yr=fac*id(3,i0+i)
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yi=fac*id(4,i0+i)
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cy(i)=cmplx(yr,yi)
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enddo
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do i=npts+1,NFFT !Pad to 32k with zeros
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cx(i)=0.
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cy(i)=0.
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enddo
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call four2a(cx,NFFT,1,1,1) !Do the FFTs
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call four2a(cy,NFFT,1,1,1)
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n=n+1
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do i=1,NFFT !Save and accumulate power spectra
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sx=real(cx(i))**2 + aimag(cx(i))**2
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ss(1,n,i)=sx ! Pol = 0
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savg(1,i)=savg(1,i) + sx
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z=cx(i) + cy(i)
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s45=0.5*(real(z)**2 + aimag(z)**2)
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ss(2,n,i)=s45 ! Pol = 45
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savg(2,i)=savg(2,i) + s45
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sy=real(cy(i))**2 + aimag(cy(i))**2
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ss(3,n,i)=sy ! Pol = 90
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savg(3,i)=savg(3,i) + sy
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z=cx(i) - cy(i)
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s135=0.5*(real(z)**2 + aimag(z)**2)
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ss(4,n,i)=s135 ! Pol = 135
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savg(4,i)=savg(4,i) + s135
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z=cx(i)*conjg(cy(i))
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! Leif's formula:
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! ss5(n,i)=0.5*(sx+sy) + (real(z)**2 + aimag(z)**2 -
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! + sx*sy)/(sx+sy)
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! Leif's suggestion:
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! ss5(n,i)=max(sx,s45,sy,s135)
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! Linearly polarized component, from the Stokes parameters:
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q=sx - sy
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u=2.0*real(z)
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! v=2.0*aimag(z)
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ss5(n,i)=0.707*sqrt(q*q + u*u)
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enddo
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! if(n.eq.ntot) then
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if(n.ge.279) then
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newspec=1
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newdat=1
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ndecoding=1
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go to 999
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endif
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kkdone=i1-1
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call sleep_msec(0)
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write(81,3001) n,kbuf,kk,kkdone
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3001 format(4i10)
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enddo
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999 kkdone=i1-1
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return
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end
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105
symspec.f90
Normal file
105
symspec.f90
Normal file
@ -0,0 +1,105 @@
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subroutine symspec(id,kbuf,kk,kkdone,rxnoise,newspec,newdat,ndecoding)
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! Compute spectra at four polarizations, using half-symbol steps.
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parameter (NSMAX=60*96000)
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integer*2 id(4,NSMAX)
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complex z
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real*8 ts,hsym
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include 'spcom.f90'
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complex cx(NFFT),cy(NFFT) ! pad to 32k with zeros
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fac=0.0002 * 10.0**(0.05*(-rxnoise))
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hsym=2048.d0*96000.d0/11025.d0 !Samples per half symbol
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npts=hsym !Integral samples per half symbol
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ntot=322 !Half symbols per transmission
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! ntot=279 !Half symbols in 51.8 sec
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if(kkdone.eq.0) then
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do ip=1,4
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do i=1,NFFT
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szavg(ip,i)=0.
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enddo
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enddo
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ts=1.d0 - hsym
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n=0
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endif
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do nn=1,ntot
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i0=ts+hsym !Starting sample pointer
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if((i0+npts-1).gt.kk) go to 999 !See if we have enough points
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i1=ts+2*hsym !Next starting sample pointer
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ts=ts+hsym !OK, update the exact sample pointer
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do i=1,npts !Copy data to FFT arrays
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xr=fac*id(1,i0+i)
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xi=fac*id(2,i0+i)
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cx(i)=cmplx(xr,xi)
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yr=fac*id(3,i0+i)
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yi=fac*id(4,i0+i)
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cy(i)=cmplx(yr,yi)
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enddo
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do i=npts+1,NFFT !Pad to 32k with zeros
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cx(i)=0.
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cy(i)=0.
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enddo
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call four2a(cx,NFFT,1,1,1) !Do the FFTs
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call four2a(cy,NFFT,1,1,1)
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n=n+1
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do i=1,NFFT !Save and accumulate power spectra
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sx=real(cx(i))**2 + aimag(cx(i))**2
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ssz(1,n,i)=sx ! Pol = 0
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szavg(1,i)=szavg(1,i) + sx
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z=cx(i) + cy(i)
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s45=0.5*(real(z)**2 + aimag(z)**2)
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ssz(2,n,i)=s45 ! Pol = 45
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szavg(2,i)=szavg(2,i) + s45
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sy=real(cy(i))**2 + aimag(cy(i))**2
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ssz(3,n,i)=sy ! Pol = 90
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szavg(3,i)=szavg(3,i) + sy
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z=cx(i) - cy(i)
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s135=0.5*(real(z)**2 + aimag(z)**2)
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ssz(4,n,i)=s135 ! Pol = 135
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szavg(4,i)=szavg(4,i) + s135
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z=cx(i)*conjg(cy(i))
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! Leif's formula:
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! ss5(n,i)=0.5*(sx+sy) + (real(z)**2 + aimag(z)**2 -
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! + sx*sy)/(sx+sy)
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! Leif's suggestion:
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! ss5(n,i)=max(sx,s45,sy,s135)
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! Linearly polarized component, from the Stokes parameters:
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q=sx - sy
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u=2.0*real(z)
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! v=2.0*aimag(z)
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ssz5(n,i)=0.707*sqrt(q*q + u*u)
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enddo
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! if(n.eq.ntot) then
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if(n.ge.279) then
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call move(ssz5,ss5,322*NFFT)
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newspec=1
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call move(ssz,ss,4*322*NFFT)
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call move(szavg,savg,4*NFFT)
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newdat=1
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ndecoding=1
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go to 999
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endif
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kkdone=i1-1
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nhsym=n
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call sleep_msec(0)
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write(81,3001) n,kbuf,kk,kkdone
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3001 format(4i10)
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enddo
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999 kkdone=i1-1
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return
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end subroutine symspec
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