subroutine foxgen() ! Called from MainWindow::foxTxSequencer() to generate the Tx waveform in ! FT8 Fox mode. The Tx message can contain up to 5 "slots", each carrying ! its own FT8 signal. ! Encoded messages can be of the form "HoundCall FoxCall rpt" (a standard FT8 ! message with i3bit=0) or "HoundCall_1 RR73; HoundCall_2 rpt", ! a new message type with i3bit=1. The waveform is generated with ! fsample=48000 Hz; it is compressed to reduce the PEP-to-average power ratio, ! with (currently disabled) filtering afterware to reduce spectral growth. ! Input message information is provided in character array cmsg(5), in ! common/foxcom/. The generated wave(NWAVE) is passed back in the same ! common block. use crc parameter (NN=79,ND=58,KK=87,NSPS=4*1920) parameter (NWAVE=NN*NSPS,NFFT=614400,NH=NFFT/2) parameter (OFFSET=25) character*40 cmsg character*22 msg,msgsent character*6 mygrid character*87 cbits character*88 cb88 logical bcontest integer itone(NN) integer icos7(0:6) integer*1 msgbits(KK),codeword(3*ND),msgbits2 integer*1, target:: i1Msg8BitBytes(11) integer*1, target:: mycall real x(NFFT) real*8 dt,twopi,f0,fstep,dfreq,phi,dphi complex cx(0:NH) common/foxcom/wave(NWAVE),nslots,nfreq,i3bit(5),cmsg(5),mycall(12) common/foxcom2/itone2(NN),msgbits2(KK) equivalence (x,cx),(y,cy) data icos7/4,2,5,6,1,3,0/ !Costas 7x7 tone pattern width=50.0 bcontest=.false. fstep=width+OFFSET dfreq=6.25d0 dt=1.d0/48000.d0 twopi=8.d0*atan(1.d0) mygrid=' ' irpt=0 nplot=0 wave=0. do n=1,nslots i3b=i3bit(n) !if(i3b.eq.0) then msg=cmsg(n)(1:12) !Standard FT8 message !else ! i1=index(cmsg(n),' ') !Special Fox message ! i2=index(cmsg(n),';') ! i3=index(cmsg(n),'<') ! i4=index(cmsg(n),'>') ! msg=cmsg(n)(1:i1)//cmsg(n)(i2+1:i3-2)//' ' ! read(cmsg(n)(i4+2:i4+4),*) irpt !endif call genft8(msg,mygrid,bcontest,i3b,msgsent,msgbits,itone) ! print*,'Foxgen:',n,cmsg(n),msgsent !! if(i3b.eq.1) then !! icrc10=crc10(c_loc(mycall),12) !! nrpt=irpt+30 !! write(cbits,1001) msgbits(1:56),icrc10,nrpt,i3b,0 !! 1001 format(56b1.1,b10.10,b6.6,b3.3,b12.12) !! read(cbits,1002) msgbits !! 1002 format(87i1) !! !! cb88=cbits//'0' !! read(cb88,1003) i1Msg8BitBytes(1:11) !! 1003 format(11b8) !! icrc12=crc12(c_loc(i1Msg8BitBytes),11) !! ! icrc12=xor(icrc12, 41) ! TODO: jsherer - could change the crc here !! !! write(cbits,1001) msgbits(1:56),icrc10,nrpt,i3b,icrc12 !! read(cbits,1002) msgbits !! !! call encode174(msgbits,codeword) !Encode the test message !! !! ! Message structure: S7 D29 S7 D29 S7 !! itone(1:7)=icos7 !! itone(36+1:36+7)=icos7 !! itone(NN-6:NN)=icos7 !! k=7 !! do j=1,ND !! i=3*j -2 !! k=k+1 !! if(j.eq.30) k=k+7 !! itone(k)=codeword(i)*4 + codeword(i+1)*2 + codeword(i+2) !! enddo !! endif ! Make copies of itone() and msgbits() for ft8sim itone2=itone msgbits2=msgbits f0=nfreq + fstep*(n-1) phi=0.d0 k=0 do j=1,NN f=f0 + dfreq*itone(j) dphi=twopi*f*dt do ii=1,NSPS k=k+1 phi=phi+dphi xphi=phi wave(k)=wave(k)+sin(xphi) enddo enddo enddo kz=k peak1=maxval(abs(wave)) wave=wave/peak1 ! call plotspec(1,wave) !Plot the spectrum ! Apply compression rms=sqrt(dot_product(wave,wave)/kz) wave=wave/rms do i=1,NWAVE wave(i)=h1(wave(i)) enddo peak2=maxval(abs(wave)) wave=wave/peak2 ! call plotspec(2,wave) !Plot the spectrum call foxfilt(nslots,nfreq,width,wave) peak3=maxval(abs(wave)) wave=wave/peak3 ! nadd=1000 ! j=0 ! do i=1,NWAVE,nadd ! sx=dot_product(wave(i:i+nadd-1),wave(i:i+nadd-1)) ! j=j+1 ! write(30,3001) j,sx/nadd !3001 format(i8,f12.6) ! enddo ! call plotspec(3,wave) !Plot the spectrum return end subroutine foxgen ! include 'plotspec.f90'