subroutine wsjtgen ! Compute the waveform to be transmitted. ! Input: txmsg message to be transmitted, up to 28 characters ! samfacout fsample_out/11025.d0 ! Output: iwave waveform data, i*2 format ! nwave number of samples ! sendingsh 0=normal; 1=shorthand (FSK441) or plain text (JT65) parameter (NMSGMAX=28) !Max characters per message parameter (NSPD=25) !Samples per dit parameter (NDPC=3) !Dits per character parameter (NWMAX=661500) !Max length of waveform = 60*11025 parameter (NTONES=4) !Number of FSK tones character msg*28,msgsent*22,idmsg*22 real*8 freq,dpha,twopi character testfile*27 logical lcwid integer*2 icwid(110250),jwave(NWMAX) integer*1 hdr(44) integer*2 nfmt2,nchan2,nbitsam2,nbytesam2 character*4 ariff,awave,afmt,adata common/hdr/ariff,lenfile,awave,afmt,lenfmt,nfmt2,nchan2, & nsamrate,nbytesec,nbytesam2,nbitsam2,adata,ndata,jwave equivalence (ariff,hdr) data twopi/6.28318530718d0/ include 'gcom1.f90' include 'gcom2.f90' fsample_out=11025.d0*samfacout lcwid=.false. if(idinterval.gt.0) then n=(mod(int(tsec/60.d0),idinterval)) if(n.eq.(1-txfirst)) lcwid=.true. if(idinterval.eq.1) lcwid=.true. endif msg=txmsg ntxnow=ntxreq ! Convert all letters to upper case do i=1,28 if(msg(i:i).ge.'a' .and. msg(i:i).le.'z') & msg(i:i)= char(ichar(msg(i:i))+ichar('A')-ichar('a')) enddo txmsg=msg ! Find message length do i=NMSGMAX,1,-1 if(msg(i:i).ne.' ') go to 10 enddo i=1 10 nmsg=i nmsg0=nmsg if(msg(1:1).eq.'@') then if(msg(2:2).eq.'/' .or. ichar(msg(2:2)).eq.92) then txmsg=msg testfile=msg(2:) #ifdef CVF open(18,file=testfile,form='binary',status='old',err=12) #else open(18,file=testfile,access='stream',status='old',err=12) #endif go to 14 12 print*,'Cannot open test file ',msg(2:) go to 999 14 call cs_lock('wsjtgena') read(18) hdr if(ndata.gt.NTxMax) ndata=NTxMax call rfile(18,iwave,ndata,ierr) close(18) call cs_unlock if(ierr.ne.0) print*,'Error reading test file ',msg(2:) nwave=ndata/2 do i=nwave,NTXMAX iwave(i)=0 enddo sending=txmsg sendingsh=2 go to 999 endif ! Transmit a fixed tone at specified frequency freq=1000.0 if(msg(2:2).eq.'A' .or. msg(2:2).eq.'a') freq=882 if(msg(2:2).eq.'B' .or. msg(2:2).eq.'b') freq=1323 if(msg(2:2).eq.'C' .or. msg(2:2).eq.'c') freq=1764 if(msg(2:2).eq.'D' .or. msg(2:2).eq.'d') freq=2205 if(freq.eq.1000.0) then call cs_lock('wsjtgenb') read(msg(2:),*,err=1) freq goto 2 1 txmsg='@1000' nmsg=5 nmsg0=5 2 call cs_unlock endif nwave=60*fsample_out dpha=twopi*freq/fsample_out do i=1,nwave iwave(i)=32767.0*sin(i*dpha) enddo goto 900 endif ! We're in JT65 mode. if(mode(5:5).eq.'A') mode65=1 if(mode(5:5).eq.'B') mode65=2 if(mode(5:5).eq.'C') mode65=4 call cs_lock('wsjtgenc') call gen65(msg,mode65,samfacout,iwave,nwave,sendingsh,msgsent) call cs_unlock if(lcwid) then ! Generate and insert the CW ID. wpm=25. freqcw=800. idmsg=MyCall//' ' call gencwid(idmsg,wpm,freqcw,samfacout,icwid,ncwid) k=nwave do i=1,ncwid k=k+1 iwave(k)=icwid(i) enddo do i=1,2205 !Add 0.2 s of silence k=k+1 iwave(k)=0 enddo nwave=k endif 900 sending=txmsg if(sendingsh.ne.1) sending=msgsent nmsg=nmsg0 999 return end subroutine wsjtgen