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https://github.com/saitohirga/WSJT-X.git
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366 lines
10 KiB
Fortran
366 lines
10 KiB
Fortran
subroutine ft8b_2(dd0,newdat,nQSOProgress,nfqso,nftx,ndepth,lapon,lapcqonly, &
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napwid,lsubtract,nagain,iaptype,mycall12,hiscall12, &
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sync0,f1,xdt,xbase,apsym,nharderrors,dmin,nbadcrc,ipass,iera,msg37,xsnr)
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use crc
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use timer_module, only: timer
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use packjt77
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include 'ft8_params.f90'
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parameter(NP2=2812)
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character*37 msg37,msgsent37
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character*12 mycall12,hiscall12
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character*77 c77
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character*6 mycall6,hiscall6,c1,c2
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character*87 cbits
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real a(5)
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real s8(0:7,NN)
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real s2(0:511),s2l(0:511)
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real bmeta(3*ND),bmetb(3*ND),bmetc(3*ND),bmetap(3*ND)
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real bmetal(3*ND),bmetbl(3*ND),bmetcl(3*ND)
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real llra(3*ND),llrb(3*ND),llrc(3*ND),llrd(3*ND) !Soft symbols
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real llral(3*ND),llrbl(3*ND),llrcl(3*ND) !Soft symbols
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real dd0(15*12000)
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integer*1 message77(77),apmask(3*ND),cw(3*ND)
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integer*1 msgbits(77)
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integer apsym(77)
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integer mcq(28),mde(28),mrrr(16),m73(16),mrr73(16)
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integer itone(NN)
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integer icos7(0:6),ip(1)
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integer nappasses(0:5) !Number of decoding passes to use for each QSO state
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integer naptypes(0:5,4) ! (nQSOProgress, decoding pass) maximum of 4 passes for now
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integer*1, target:: i1hiscall(12)
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logical one(0:511,0:8)
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integer graymap(0:7)
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complex cd0(0:3199)
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complex ctwk(32)
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complex csymb(32)
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complex cs(0:7,NN)
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logical first,newdat,lsubtract,lapon,lapcqonly,nagain
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data icos7/3,1,4,0,6,5,2/ ! Flipped w.r.t. original FT8 sync array
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data mcq/1,1,1,1,1,0,1,0,0,0,0,0,1,0,0,0,0,0,1,1,0,0,0,1,1,0,0,1/
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data mrrr/0,1,1,1,1,1,1,0,1,1,0,0,1,1,1,1/
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data m73/0,1,1,1,1,1,1,0,1,1,0,1,0,0,0,0/
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data mde/1,1,1,1,1,1,1,1,0,1,1,0,0,1,0,0,0,0,0,1,1,1,0,1,0,0,0,1/
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data mrr73/0,0,0,0,0,0,1,0,0,0,0,1,0,1,0,1/
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data first/.true./
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data graymap/0,1,3,2,5,6,4,7/
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save nappasses,naptypes,one
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if(first) then
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mcq=2*mcq-1
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mde=2*mde-1
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mrrr=2*mrrr-1
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m73=2*m73-1
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mrr73=2*mrr73-1
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nappasses(0)=2
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nappasses(1)=2
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nappasses(2)=2
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nappasses(3)=4
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nappasses(4)=4
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nappasses(5)=3
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! iaptype
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!------------------------
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! 1 CQ ??? ???
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! 2 MyCall ??? ???
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! 3 MyCall DxCall ???
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! 4 MyCall DxCall RRR
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! 5 MyCall DxCall 73
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! 6 MyCall DxCall RR73
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! 7 ??? DxCall ???
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naptypes(0,1:4)=(/1,2,0,0/)
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naptypes(1,1:4)=(/2,3,0,0/)
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naptypes(2,1:4)=(/2,3,0,0/)
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naptypes(3,1:4)=(/3,4,5,6/)
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naptypes(4,1:4)=(/3,4,5,6/)
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naptypes(5,1:4)=(/3,1,2,0/)
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one=.false.
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do i=0,511
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do j=0,8
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if(iand(i,2**j).ne.0) one(i,j)=.true.
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enddo
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enddo
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first=.false.
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endif
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max_iterations=30
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nharderrors=-1
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nbadcrc=1 ! this is used upstream to flag good decodes.
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fs2=12000.0/NDOWN
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dt2=1.0/fs2
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twopi=8.0*atan(1.0)
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delfbest=0.
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ibest=0
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call timer('ft8_down',0)
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call ft8_downsample(dd0,newdat,f1,cd0) !Mix f1 to baseband and downsample
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call timer('ft8_down',1)
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i0=nint((xdt+0.5)*fs2) !Initial guess for start of signal
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smax=0.0
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do idt=i0-8,i0+8 !Search over +/- one quarter symbol
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call sync8d(cd0,idt,ctwk,0,2,sync)
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if(sync.gt.smax) then
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smax=sync
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ibest=idt
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endif
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enddo
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xdt2=ibest*dt2 !Improved estimate for DT
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! Now peak up in frequency
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i0=nint(xdt2*fs2)
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smax=0.0
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do ifr=-5,5 !Search over +/- 2.5 Hz
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delf=ifr*0.5
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dphi=twopi*delf*dt2
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phi=0.0
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do i=1,32
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ctwk(i)=cmplx(cos(phi),sin(phi))
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phi=mod(phi+dphi,twopi)
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enddo
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call sync8d(cd0,i0,ctwk,1,2,sync)
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if( sync .gt. smax ) then
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smax=sync
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delfbest=delf
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endif
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enddo
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a=0.0
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a(1)=-delfbest
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call twkfreq1(cd0,NP2,fs2,a,cd0)
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xdt=xdt2
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f1=f1+delfbest !Improved estimate of DF
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call sync8d(cd0,i0,ctwk,0,2,sync)
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do k=1,NN
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i1=ibest+(k-1)*32
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csymb=cmplx(0.0,0.0)
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if( i1.ge.0 .and. i1+31 .le. NP2-1 ) csymb=cd0(i1:i1+31)
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call four2a(csymb,32,1,-1,1)
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cs(0:7,k)=csymb(1:8)/1e3
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s8(0:7,k)=abs(csymb(1:8))
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enddo
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! sync quality check
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is1=0
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is2=0
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is3=0
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do k=1,7
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ip=maxloc(s8(:,k))
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if(icos7(k-1).eq.(ip(1)-1)) is1=is1+1
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ip=maxloc(s8(:,k+36))
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if(icos7(k-1).eq.(ip(1)-1)) is2=is2+1
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ip=maxloc(s8(:,k+72))
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if(icos7(k-1).eq.(ip(1)-1)) is3=is3+1
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enddo
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! hard sync sum - max is 21
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nsync=is1+is2+is3
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if(nsync .le. 6) then ! bail out
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nbadcrc=1
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return
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endif
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do nsym=1,3
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nt=2**(3*nsym)
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do ihalf=1,2
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do k=1,29,nsym
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if(ihalf.eq.1) ks=k+7
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if(ihalf.eq.2) ks=k+43
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amax=-1.0
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do i=0,nt-1
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i1=i/64
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i2=iand(i,63)/8
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i3=iand(i,7)
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if(nsym.eq.1) then
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s2(i)=abs(cs(graymap(i3),ks))
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elseif(nsym.eq.2) then
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s2(i)=abs(cs(graymap(i2),ks)+cs(graymap(i3),ks+1))
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elseif(nsym.eq.3) then
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s2(i)=abs(cs(graymap(i1),ks)+cs(graymap(i2),ks+1)+cs(graymap(i3),ks+2))
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else
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print*,"Error - nsym must be 1, 2, or 3."
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endif
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enddo
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s2l(0:nt-1)=log(s2(0:nt-1)+1e-32)
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i32=1+(k-1)*3+(ihalf-1)*87
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if(nsym.eq.1) ibmax=2
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if(nsym.eq.2) ibmax=5
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if(nsym.eq.3) ibmax=8
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do ib=0,ibmax
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bm=maxval(s2(0:nt-1),one(0:nt-1,ibmax-ib)) - &
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maxval(s2(0:nt-1),.not.one(0:nt-1,ibmax-ib))
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bml=maxval(s2l(0:nt-1),one(0:nt-1,ibmax-ib)) - &
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maxval(s2l(0:nt-1),.not.one(0:nt-1,ibmax-ib))
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if(i32+ib .gt.174) cycle
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if(nsym.eq.1) then
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bmeta(i32+ib)=bm
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bmetal(i32+ib)=bml
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elseif(nsym.eq.2) then
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bmetb(i32+ib)=bm
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bmetbl(i32+ib)=bml
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elseif(nsym.eq.3) then
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bmetc(i32+ib)=bm
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bmetcl(i32+ib)=bml
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endif
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enddo
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enddo
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enddo
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enddo
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call normalizebmet(bmeta,3*ND)
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call normalizebmet(bmetal,3*ND)
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call normalizebmet(bmetb,3*ND)
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call normalizebmet(bmetbl,3*ND)
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call normalizebmet(bmetc,3*ND)
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call normalizebmet(bmetcl,3*ND)
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bmetap=bmeta
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scalefac=2.83
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llra=scalefac*bmeta
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llral=scalefac*bmetal
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llrb=scalefac*bmetb
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llrbl=scalefac*bmetbl
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llrc=scalefac*bmetc
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llrcl=scalefac*bmetcl
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apmag=scalefac*(maxval(abs(bmetap))*1.01)
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! pass #
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!------------------------------
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! 1 regular decoding
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! 2 erase 24
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! 3 erase 48
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! 4 ap pass 1
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! 5 ap pass 2
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! 6 ap pass 3
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! 7 ap pass 4, etc.
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if(lapon) then
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if(.not.lapcqonly) then
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npasses=4+nappasses(nQSOProgress)
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else
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npasses=5
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endif
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else
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npasses=4
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endif
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! do ipass=1,npasses
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do ipass=1,3
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llrd=llra
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if(ipass.eq.2) llrd=llrb
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if(ipass.eq.3) llrd=llrc
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! if(ipass.eq.3) llrd(1:24)=0.
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if(ipass.eq.4) llrd(1:24)=0.
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if(ipass.le.4) then
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apmask=0
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iaptype=0
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endif
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! The AP stuff needs to be re-done to accommodate the new message types.
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! if(ipass .gt. 4) then
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! llrd=llrb ! Needs to be checked
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! if(.not.lapcqonly) then
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! iaptype=naptypes(nQSOProgress,ipass-4)
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! else
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! iaptype=1
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! endif
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! if(iaptype.ge.3 .and. (abs(f1-nfqso).gt.napwid .and. abs(f1-nftx).gt.napwid) ) cycle
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! if(iaptype.eq.1 .or. iaptype.eq.2 ) then ! AP,???,???
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! apmask=0
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! apmask(1:27)=1 ! first 27 bits (9 tones) are AP
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! if(iaptype.eq.1) llrd(1:27)=apmag*mcq(1:27)
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! if(iaptype.eq.2) llrd(1:27)=apmag*apsym(1:27)
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! endif
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! if(iaptype.eq.3) then ! mycall, dxcall, ???
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! apmask=0
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! apmask(1:54)=1
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! llrd(1:54)=apmag*apsym(1:54)
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! endif
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! if(iaptype.eq.4 .or. iaptype.eq.5 .or. iaptype.eq.6) then
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! apmask=0
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! apmask(1:72)=1 ! mycall, hiscall, RRR|73|RR73
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! llrd(1:56)=apmag*apsym(1:56)
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! if(iaptype.eq.4) llrd(57:72)=apmag*mrrr
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! if(iaptype.eq.5) llrd(57:72)=apmag*m73
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! if(iaptype.eq.6) llrd(57:72)=apmag*mrr73
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! endif
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! if(iaptype.eq.7) then ! ???, dxcall, ???
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! apmask=0
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! apmask(31:54)=1 ! hiscall
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! llrd(31:54)=apmag*apsym(31:54)
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! endif
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! endif
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cw=0
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call timer('bpd174_91 ',0)
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call bpdecode174_91(llrd,apmask,max_iterations,message77,cw,nharderrors, &
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niterations)
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call timer('bpd174_91 ',1)
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dmin=0.0
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if(ndepth.eq.3 .and. nharderrors.lt.0) then
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ndeep=3
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if(abs(nfqso-f1).le.napwid .or. abs(nftx-f1).le.napwid) then
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if((ipass.eq.3 .or. ipass.eq.4) .and. .not.nagain) then
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ndeep=3
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else
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ndeep=4
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endif
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endif
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if(nagain) ndeep=5
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call timer('osd174_91 ',0)
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call osd174_91(llrd,apmask,ndeep,message77,cw,nharderrors,dmin)
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call timer('osd174_91 ',1)
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endif
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msg37=' '
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xsnr=-99.0
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if(nharderrors.lt.0 .or. nharderrors.gt.36) cycle
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if(count(cw.eq.0).eq.174) cycle !Reject the all-zero codeword
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nbadcrc=0 ! If we get this far, must be a valid codeword.
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write(c77,'(77i1)') message77
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read(c77(72:74),'(b3)') n3
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read(c77(75:77),'(b3)') i3
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call unpack77(c77,msg37)
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call genft8_174_91(msg37,i3,n3,msgsent37,msgbits,itone)
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if(lsubtract) call subtractft8(dd0,itone,f1,xdt)
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xsig=0.0
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xnoi=0.0
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do i=1,79
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xsig=xsig+s8(itone(i),i)**2
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ios=mod(itone(i)+4,7)
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xnoi=xnoi+s8(ios,i)**2
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enddo
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xsnr=0.001
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if(xnoi.gt.0 .and. xnoi.lt.xsig) xsnr=xsig/xnoi-1.0
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xsnr=10.0*log10(xsnr)-27.0
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! need to reconcile signal normalization between this routine and the old ft8b_1 so
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! that SNRs come out the same.
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xsnr2=db(xsig/xbase - 1.0) - 32.0
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! if(.not.nagain) xsnr=xsnr2
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if(xsnr .lt. -24.0) xsnr=-24.0
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return
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enddo
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return
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end subroutine ft8b_2
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! This currently resides in ft8b_1.f90
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!subroutine normalizebmet(bmet,n)
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! real bmet(n)
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!
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! bmetav=sum(bmet)/real(n)
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! bmet2av=sum(bmet*bmet)/real(n)
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! var=bmet2av-bmetav*bmetav
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! if( var .gt. 0.0 ) then
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! bmetsig=sqrt(var)
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! else
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! bmetsig=sqrt(bmet2av)
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! endif
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! bmet=bmet/bmetsig
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! return
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!end subroutine normalizebmet
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