mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-12-01 16:45:12 -05:00
cccb38dbef
Due to an ambiguity with message encodings between 77-bit QSO modes and 50-bit beacon modes with message types 13.n3 4.0 and 0.6 a hint needs to be passed to ensure the right encoding is emitted. The hint only effects ambiguous messages, others will be encoded strictly according to the message content.
1566 lines
46 KiB
Fortran
1566 lines
46 KiB
Fortran
module packjt77
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! These variables are accessible from outside via "use packjt77":
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parameter (MAXHASH=1000,MAXRECENT=10)
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character (len=13), dimension(0:1023) :: calls10=''
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character (len=13), dimension(0:4095) :: calls12=''
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character (len=13), dimension(1:MAXHASH) :: calls22=''
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character (len=13), dimension(1:MAXRECENT) :: recent_calls=''
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character (len=13) :: mycall13=''
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character (len=13) :: dxcall13=''
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integer, dimension(1:MAXHASH) :: ihash22=-1
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integer :: nzhash=0
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integer n28a,n28b
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contains
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subroutine hash10(n10,c13)
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character*13 c13
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c13='<...>'
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if(n10.lt.0 .or. n10.gt.1023) return
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if(len(trim(calls10(n10))).gt.0) then
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c13=calls10(n10)
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c13='<'//trim(c13)//'>'
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endif
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return
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end subroutine hash10
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subroutine hash12(n12,c13)
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character*13 c13
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c13='<...>'
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if(n12.lt.0 .or. n12.gt.4095) return
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if(len(trim(calls12(n12))).gt.0) then
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c13=calls12(n12)
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c13='<'//trim(c13)//'>'
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endif
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return
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end subroutine hash12
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subroutine hash22(n22,c13)
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character*13 c13
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c13='<...>'
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do i=1,nzhash
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if(ihash22(i).eq.n22) then
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c13=calls22(i)
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c13='<'//trim(c13)//'>'
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go to 900
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endif
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enddo
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900 return
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end subroutine hash22
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integer function ihashcall(c0,m)
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integer*8 n8
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character*13 c0
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character*38 c
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data c/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ/'/
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n8=0
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do i=1,11
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j=index(c,c0(i:i)) - 1
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n8=38*n8 + j
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enddo
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ihashcall=ishft(47055833459_8*n8,m-64)
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return
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end function ihashcall
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subroutine save_hash_call(c13,n10,n12,n22)
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character*13 c13,cw
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cw=c13
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if(cw(1:1).eq.' ' .or. cw(1:5).eq.'<...>') return
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if(cw(1:1).eq.'<') cw=cw(2:)
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i=index(cw,'>')
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if(i.gt.0) cw(i:)=' '
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if(len(trim(cw)) .lt. 3) return
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n10=ihashcall(cw,10)
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if(n10.ge.0 .and. n10 .le. 1023 .and. cw.ne.mycall13) calls10(n10)=cw
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n12=ihashcall(cw,12)
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if(n12.ge.0 .and. n12 .le. 4095 .and. cw.ne.mycall13) calls12(n12)=cw
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n22=ihashcall(cw,22)
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if(any(ihash22.eq.n22)) then ! If entry exists, make sure callsign is the most recently received one
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where(ihash22.eq.n22) calls22=cw
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go to 900
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endif
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! New entry: move table down, making room for new one at the top
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ihash22(MAXHASH:2:-1)=ihash22(MAXHASH-1:1:-1)
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! Add the new entry
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calls22(MAXHASH:2:-1)=calls22(MAXHASH-1:1:-1)
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ihash22(1)=n22
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calls22(1)=cw
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if(nzhash.lt.MAXHASH) nzhash=nzhash+1
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900 continue
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return
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end subroutine save_hash_call
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subroutine pack77(msg0,i3,n3,c77)
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use packjt
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character*37 msg,msg0
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character*18 c18
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character*13 w(19)
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character*77 c77
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integer nw(19)
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integer ntel(3)
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msg=msg0
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i3_hint=i3
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n3_hint=n3
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i3=-1
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n3=-1
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if(i3_hint.eq.0 .and. n3_hint.eq.5) go to 5
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! Convert msg to upper case; collapse multiple blanks; parse into words.
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call split77(msg,nwords,nw,w)
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if(msg(1:3).eq.'CQ ' .or. msg(1:3).eq.'DE ' .or. msg(1:4).eq.'QRZ ') go to 100
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! Check 0.1 (DXpedition mode)
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call pack77_01(nwords,w,i3,n3,c77)
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if(i3.ge.0 .or. n3.ge.1) go to 900
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! Check 0.2 (EU VHF contest exchange)
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! call pack77_02(nwords,w,i3,n3,c77)
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! if(i3.ge.0) go to 900
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! Check 0.3 and 0.4 (ARRL Field Day exchange)
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call pack77_03(nwords,w,i3,n3,c77)
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if(i3.ge.0) go to 900
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if(nwords.ge.2) go to 100
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! Check 0.5 (telemetry)
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5 i0=index(msg,' ')
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c18=msg(1:i0-1)
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c18=adjustr(c18)
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ntel=-99
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read(c18,1005,err=6) ntel
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1005 format(3z6)
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if(ntel(1).ge.2**23) go to 800
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6 if(ntel(1).ge.0 .and. ntel(2).ge.0 .and. ntel(3).ge.0) then
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i3=0
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n3=5
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write(c77,1006) ntel,n3,i3
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1006 format(b23.23,2b24.24,2b3.3)
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go to 900
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endif
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100 call pack77_06(nwords,w,i3,n3,c77,i3_hint,n3_hint)
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if(i3.ge.0) go to 900
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! Check Type 1 (Standard 77-bit message) or Type 2, with optional "/P"
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call pack77_1(nwords,w,i3,n3,c77)
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if(i3.ge.0) go to 900
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! Check Type 3 (ARRL RTTY contest exchange)
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call pack77_3(nwords,w,i3,n3,c77)
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if(i3.ge.0) go to 900
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! Check Type 4 (One nonstandard call and one hashed call)
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call pack77_4(nwords,w,i3,n3,c77)
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if(i3.ge.0) go to 900
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! Check Type 5 (EU VHF Contest with 2 hashed calls, report, serial, and grid6)
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call pack77_5(nwords,w,i3,n3,c77)
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if(i3.ge.0) go to 900
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! It defaults to free text
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800 i3=0
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n3=0
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msg(14:)=' '
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call packtext77(msg(1:13),c77(1:71))
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write(c77(72:77),'(2b3.3)') n3,i3
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900 return
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end subroutine pack77
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subroutine unpack77(c77,nrx,msg,unpk77_success)
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!
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! nrx=1 when unpacking a received message
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! nrx=0 when unpacking a to-be-transmitted message
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! the value of nrx is used to decide when mycall13 or dxcall13 should
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! be used in place of a callsign from the hashtable
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!
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parameter (NSEC=85) !Number of ARRL Sections
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parameter (NUSCAN=65) !Number of US states and Canadian provinces
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parameter (MAXGRID4=32400)
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integer*8 n58
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integer ntel(3)
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character*77 c77
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character*37 msg
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character*13 call_1,call_2,call_3,call_1a
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character*13 mycall13_0,dxcall13_0
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character*11 c11
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character*3 crpt,cntx,cpfx
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character*3 cmult(NUSCAN)
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character*6 cexch,grid6
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character*4 grid4,cserial
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character*3 csec(NSEC)
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character*38 c
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character*36 a2
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integer hashmy10,hashmy12,hashmy22,hashdx10,hashdx12,hashdx22
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logical unpk28_success,unpk77_success
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logical dxcall13_set,mycall13_set
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data a2/'0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/,nzzz/46656/
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data c/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ/'/
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data csec/ &
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"AB ","AK ","AL ","AR ","AZ ","BC ","CO ","CT ","DE ","EB ", &
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"EMA","ENY","EPA","EWA","GA ","GTA","IA ","ID ","IL ","IN ", &
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"KS ","KY ","LA ","LAX","MAR","MB ","MDC","ME ","MI ","MN ", &
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"MO ","MS ","MT ","NC ","ND ","NE ","NFL","NH ","NL ","NLI", &
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"NM ","NNJ","NNY","NT ","NTX","NV ","OH ","OK ","ONE","ONN", &
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"ONS","OR ","ORG","PAC","PR ","QC ","RI ","SB ","SC ","SCV", &
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"SD ","SDG","SF ","SFL","SJV","SK ","SNJ","STX","SV ","TN ", &
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"UT ","VA ","VI ","VT ","WCF","WI ","WMA","WNY","WPA","WTX", &
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"WV ","WWA","WY ","DX ","PE "/
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data cmult/ &
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"AL ","AK ","AZ ","AR ","CA ","CO ","CT ","DE ","FL ","GA ", &
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"HI ","ID ","IL ","IN ","IA ","KS ","KY ","LA ","ME ","MD ", &
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"MA ","MI ","MN ","MS ","MO ","MT ","NE ","NV ","NH ","NJ ", &
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"NM ","NY ","NC ","ND ","OH ","OK ","OR ","PA ","RI ","SC ", &
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"SD ","TN ","TX ","UT ","VT ","VA ","WA ","WV ","WI ","WY ", &
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"NB ","NS ","QC ","ON ","MB ","SK ","AB ","BC ","NWT","NF ", &
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"LB ","NU ","YT ","PEI","DC "/
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data dxcall13_set/.false./
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data mycall13_set/.false./
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data mycall13_0/''/
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data dxcall13_0/''/
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save hashmy10,hashmy12,hashmy22,hashdx10,hashdx12,hashdx22
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if(mycall13.ne.mycall13_0) then
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if(len(trim(mycall13)).gt.2) then
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mycall13_set=.true.
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mycall13_0=mycall13
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call save_hash_call(mycall13,hashmy10,hashmy12,hashmy22)
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else
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mycall13_set=.false.
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endif
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endif
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if(dxcall13.ne.dxcall13_0) then
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if(len(trim(dxcall13)).gt.2) then
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dxcall13_set=.true.
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dxcall13_0=dxcall13
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hashdx10=ihashcall(dxcall13,10)
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hashdx12=ihashcall(dxcall13,12)
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hashdx22=ihashcall(dxcall13,22)
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endif
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endif
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unpk77_success=.true.
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! Check for bad data
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do i=1,77
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if(c77(i:i).ne.'0' .and. c77(i:i).ne.'1') then
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msg='failed unpack'
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unpk77_success=.false.
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return
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endif
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enddo
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read(c77(72:77),'(2b3)') n3,i3
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msg=repeat(' ',37)
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if(i3.eq.0 .and. n3.eq.0) then
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! 0.0 Free text
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call unpacktext77(c77(1:71),msg(1:13))
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msg(14:)=' '
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msg=adjustl(msg)
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if(msg(1:1).eq.' ') then
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unpk77_success=.false.
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return
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endif
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else if(i3.eq.0 .and. n3.eq.1) then
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! 0.1 K1ABC RR73; W9XYZ <KH1/KH7Z> -11 28 28 10 5 71 DXpedition Mode
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read(c77,1010) n28a,n28b,n10,n5
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1010 format(2b28,b10,b5)
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irpt=2*n5 - 30
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write(crpt,1012) irpt
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1012 format(i3.2)
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if(irpt.ge.0) crpt(1:1)='+'
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call unpack28(n28a,call_1,unpk28_success)
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if(.not.unpk28_success .or. n28a.le.2) unpk77_success=.false.
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call unpack28(n28b,call_2,unpk28_success)
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if(.not.unpk28_success .or. n28b.le.2) unpk77_success=.false.
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call hash10(n10,call_3)
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if(nrx.eq.1 .and. &
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dxcall13_set .and. &
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hashdx10.eq.n10) call_3='<'//trim(dxcall13)//'>'
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if(nrx.eq.0 .and. &
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mycall13_set .and. &
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n10.eq.hashmy10) call_3='<'//trim(mycall13)//'>'
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msg=trim(call_1)//' RR73; '//trim(call_2)//' '//trim(call_3)//' '//crpt
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else if(i3.eq.0 .and. n3.eq.2) then
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unpk77_success=.false.
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else if(i3.eq.0 .and. (n3.eq.3 .or. n3.eq.4)) then
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! 0.3 WA9XYZ KA1ABC R 16A EMA 28 28 1 4 3 7 71 ARRL Field Day
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! 0.4 WA9XYZ KA1ABC R 32A EMA 28 28 1 4 3 7 71 ARRL Field Day
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read(c77,1030) n28a,n28b,ir,intx,nclass,isec
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1030 format(2b28,b1,b4,b3,b7)
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if(isec.gt.NSEC .or. isec.lt.1) then
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unpk77_success=.false.
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isec=1
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endif
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call unpack28(n28a,call_1,unpk28_success)
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if(.not.unpk28_success .or. n28a.le.2) unpk77_success=.false.
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call unpack28(n28b,call_2,unpk28_success)
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if(.not.unpk28_success .or. n28b.le.2) unpk77_success=.false.
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ntx=intx+1
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if(n3.eq.4) ntx=ntx+16
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write(cntx(1:2),1032) ntx
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1032 format(i2)
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cntx(3:3)=char(ichar('A')+nclass)
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if(ir.eq.0 .and. ntx.lt.10) msg=trim(call_1)//' '//trim(call_2)// &
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cntx//' '//csec(isec)
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if(ir.eq.1 .and. ntx.lt.10) msg=trim(call_1)//' '//trim(call_2)// &
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' R'//cntx//' '//csec(isec)
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if(ir.eq.0 .and. ntx.ge.10) msg=trim(call_1)//' '//trim(call_2)// &
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' '//cntx//' '//csec(isec)
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if(ir.eq.1 .and. ntx.ge.10) msg=trim(call_1)//' '//trim(call_2)// &
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' R '//cntx//' '//csec(isec)
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else if(i3.eq.0 .and. n3.eq.5) then
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! 0.5 0123456789abcdef01 71 71 Telemetry (18 hex)
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read(c77,1006) ntel
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1006 format(b23,2b24)
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write(msg,1007) ntel
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1007 format(3z6.6)
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do i=1,18
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if(msg(i:i).ne.'0') exit
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msg(i:i)=' '
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enddo
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msg=adjustl(msg)
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else if(i3.eq.0 .and. n3.eq.6) then
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read(c77(49:50),'(2b1)') j2a,j2b
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itype=2
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if(j2b.eq.0 .and. j2a.eq.0) itype=1
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if(j2b.eq.0 .and. j2a.eq.1) itype=3
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if(itype.eq.1) then
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! WSPR Type 1
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read(c77,2010) n28,igrid4,idbm
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2010 format(b28.28,b15.15,b5.5)
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idbm=nint(idbm*10.0/3.0)
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call unpack28(n28,call_1,unpk28_success)
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if(.not.unpk28_success) unpk77_success=.false.
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call to_grid4(igrid4,grid4)
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write(crpt,'(i3)') idbm
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msg=trim(call_1)//' '//grid4//' '//trim(adjustl(crpt))
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call save_hash_call(call_1,n10,n12,n22) !### Is this OK here? ###
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else if(itype.eq.2) then
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! WSPR Type 2
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read(c77,2020) n28,npfx,idbm
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2020 format(b28.28,b16.16,b5.5)
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idbm=nint(idbm*10.0/3.0)
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call unpack28(n28,call_1,unpk28_success)
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if(.not.unpk28_success) unpk77_success=.false.
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write(crpt,'(i3)') idbm
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cpfx=' '
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if(npfx.lt.nzzz) then
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! Prefix
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do i=3,1,-1
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j=mod(npfx,36)+1
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cpfx(i:i)=a2(j:j)
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npfx=npfx/36
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if(npfx.eq.0) exit
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enddo
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msg=trim(adjustl(cpfx))//'/'//trim(call_1)//' '//trim(adjustl(crpt))
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call_1a=trim(adjustl(cpfx))//'/'//trim(call_1)
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call save_hash_call(call_1a,n10,n12,n22) !### Is this OK here? ###
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else
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! Suffix
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npfx=npfx-nzzz
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if(npfx.le.35) then
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cpfx(1:1)=a2(npfx+1:npfx+1)
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else if(npfx.gt.35 .and. npfx.le.1295) then
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cpfx(1:1)=a2(npfx/36+1:npfx/36+1)
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cpfx(2:2)=a2(mod(npfx,36)+1:mod(npfx,36)+1)
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else if(npfx.gt.1295 .and. npfx.le.12959) then
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cpfx(1:1)=a2(npfx/360+1:npfx/360+1)
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cpfx(2:2)=a2(mod(npfx/10,36)+1:mod(npfx/10,36)+1)
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cpfx(3:3)=a2(mod(npfx,10)+1:mod(npfx,10)+1)
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else
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unpk77_success=.false.
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return
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endif
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msg=trim(call_1)//'/'//trim(adjustl(cpfx))//' '//trim(adjustl(crpt))
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call_1a=trim(call_1)//'/'//trim(adjustl(cpfx))
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call save_hash_call(call_1a,n10,n12,n22) !### Is this OK here? ###
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endif
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else if(itype.eq.3) then
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! WSPR Type 3
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read(c77,2030) n22,igrid6
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2030 format(b22.22,b25.25)
|
|
n28=n22+2063592
|
|
call unpack28(n28,call_1,unpk28_success)
|
|
if(.not.unpk28_success) unpk77_success=.false.
|
|
call to_grid(igrid6,grid6)
|
|
msg=trim(call_1)//' '//grid6
|
|
|
|
|
|
endif
|
|
|
|
else if(i3.eq.1 .or. i3.eq.2) then
|
|
! Type 1 (standard message) or Type 2 ("/P" form for EU VHF contest)
|
|
read(c77,1000) n28a,ipa,n28b,ipb,ir,igrid4,i3
|
|
1000 format(2(b28,b1),b1,b15,b3)
|
|
call unpack28(n28a,call_1,unpk28_success)
|
|
if(nrx.eq.1 .and. mycall13_set .and. hashmy22.eq.(n28a-2063592)) then
|
|
call_1='<'//trim(mycall13)//'>'
|
|
unpk28_success=.true.
|
|
endif
|
|
if(.not.unpk28_success) unpk77_success=.false.
|
|
call unpack28(n28b,call_2,unpk28_success)
|
|
if(.not.unpk28_success) unpk77_success=.false.
|
|
if(call_1(1:3).eq.'CQ_') call_1(3:3)=' '
|
|
if(index(call_1,'<').le.0) then
|
|
i=index(call_1,' ')
|
|
if(i.ge.4 .and. ipa.eq.1 .and. i3.eq.1) call_1(i:i+1)='/R'
|
|
if(i.ge.4 .and. ipa.eq.1 .and. i3.eq.2) call_1(i:i+1)='/P'
|
|
if(i.ge.4) call add_call_to_recent_calls(call_1)
|
|
endif
|
|
if(index(call_2,'<').le.0) then
|
|
i=index(call_2,' ')
|
|
if(i.ge.4 .and. ipb.eq.1 .and. i3.eq.1) call_2(i:i+1)='/R'
|
|
if(i.ge.4 .and. ipb.eq.1 .and. i3.eq.2) call_2(i:i+1)='/P'
|
|
if(i.ge.4) call add_call_to_recent_calls(call_2)
|
|
endif
|
|
if(igrid4.le.MAXGRID4) then
|
|
call to_grid4(igrid4,grid4)
|
|
if(ir.eq.0) msg=trim(call_1)//' '//trim(call_2)//' '//grid4
|
|
if(ir.eq.1) msg=trim(call_1)//' '//trim(call_2)//' R '//grid4
|
|
if(msg(1:3).eq.'CQ ' .and. ir.eq.1) unpk77_success=.false.
|
|
else
|
|
irpt=igrid4-MAXGRID4
|
|
if(irpt.eq.1) msg=trim(call_1)//' '//trim(call_2)
|
|
if(irpt.eq.2) msg=trim(call_1)//' '//trim(call_2)//' RRR'
|
|
if(irpt.eq.3) msg=trim(call_1)//' '//trim(call_2)//' RR73'
|
|
if(irpt.eq.4) msg=trim(call_1)//' '//trim(call_2)//' 73'
|
|
if(irpt.ge.5) then
|
|
isnr=irpt-35
|
|
if(isnr.gt.50) isnr=isnr-101
|
|
write(crpt,'(i3.2)') isnr
|
|
if(crpt(1:1).eq.' ') crpt(1:1)='+'
|
|
if(ir.eq.0) msg=trim(call_1)//' '//trim(call_2)//' '//crpt
|
|
if(ir.eq.1) msg=trim(call_1)//' '//trim(call_2)//' R'//crpt
|
|
endif
|
|
if(msg(1:3).eq.'CQ ' .and. irpt.ge.2) unpk77_success=.false.
|
|
endif
|
|
|
|
else if(i3.eq.3) then
|
|
! Type 3: ARRL RTTY Contest
|
|
read(c77,1040) itu,n28a,n28b,ir,irpt,nexch,i3
|
|
1040 format(b1,2b28.28,b1,b3.3,b13.13,b3.3)
|
|
write(crpt,1042) irpt+2
|
|
1042 format('5',i1,'9')
|
|
nserial=nexch
|
|
imult=-1
|
|
if(nexch.gt.8000) then
|
|
imult=nexch-8000
|
|
nserial=-1
|
|
endif
|
|
call unpack28(n28a,call_1,unpk28_success)
|
|
if(.not.unpk28_success) unpk77_success=.false.
|
|
call unpack28(n28b,call_2,unpk28_success)
|
|
if(.not.unpk28_success) unpk77_success=.false.
|
|
imult=0
|
|
nserial=0
|
|
if(nexch.gt.8000) imult=nexch-8000
|
|
if(nexch.lt.8000) nserial=nexch
|
|
|
|
if(imult.ge.1 .and.imult.le.NUSCAN) then
|
|
if(itu.eq.0 .and. ir.eq.0) msg=trim(call_1)//' '//trim(call_2)// &
|
|
' '//crpt//' '//cmult(imult)
|
|
if(itu.eq.1 .and. ir.eq.0) msg='TU; '//trim(call_1)//' '//trim(call_2)// &
|
|
' '//crpt//' '//cmult(imult)
|
|
if(itu.eq.0 .and. ir.eq.1) msg=trim(call_1)//' '//trim(call_2)// &
|
|
' R '//crpt//' '//cmult(imult)
|
|
if(itu.eq.1 .and. ir.eq.1) msg='TU; '//trim(call_1)//' '//trim(call_2)// &
|
|
' R '//crpt//' '//cmult(imult)
|
|
else if(nserial.ge.1 .and. nserial.le.7999) then
|
|
write(cserial,'(i4.4)') nserial
|
|
if(itu.eq.0 .and. ir.eq.0) msg=trim(call_1)//' '//trim(call_2)// &
|
|
' '//crpt//' '//cserial
|
|
if(itu.eq.1 .and. ir.eq.0) msg='TU; '//trim(call_1)//' '//trim(call_2)// &
|
|
' '//crpt//' '//cserial
|
|
if(itu.eq.0 .and. ir.eq.1) msg=trim(call_1)//' '//trim(call_2)// &
|
|
' R '//crpt//' '//cserial
|
|
if(itu.eq.1 .and. ir.eq.1) msg='TU; '//trim(call_1)//' '//trim(call_2)// &
|
|
' R '//crpt//' '//cserial
|
|
endif
|
|
else if(i3.eq.4) then
|
|
! Type 4
|
|
read(c77,1050) n12,n58,iflip,nrpt,icq
|
|
1050 format(b12,b58,b1,b2,b1)
|
|
do i=11,1,-1
|
|
j=mod(n58,38)+1
|
|
c11(i:i)=c(j:j)
|
|
n58=n58/38
|
|
enddo
|
|
call hash12(n12,call_3)
|
|
if(iflip.eq.0) then ! 12 bit hash for TO call
|
|
call_1=call_3
|
|
call_2=adjustl(c11)//' '
|
|
call add_call_to_recent_calls(call_2)
|
|
if(nrx.eq.1 .and. &
|
|
dxcall13_set .and. mycall13_set .and. &
|
|
call_2.eq.dxcall13 .and. &
|
|
n12.eq.hashmy12 ) call_1='<'//trim(mycall13)//'>'
|
|
if(nrx.eq.1 .and. &
|
|
mycall13_set .and. &
|
|
index(call_1,'<...>').gt.0 .and. &
|
|
n12.eq.hashmy12 ) call_1='<'//trim(mycall13)//'>'
|
|
else ! 12 bit hash for DE call
|
|
call_1=adjustl(c11)
|
|
call_2=call_3
|
|
call add_call_to_recent_calls(call_1)
|
|
if(nrx.eq.0 .and. &
|
|
mycall13_set .and. &
|
|
n12.eq.hashmy12) call_2='<'//trim(mycall13)//'>'
|
|
endif
|
|
if(icq.eq.0) then
|
|
if(nrpt.eq.0) msg=trim(call_1)//' '//trim(call_2)
|
|
if(nrpt.eq.1) msg=trim(call_1)//' '//trim(call_2)//' RRR'
|
|
if(nrpt.eq.2) msg=trim(call_1)//' '//trim(call_2)//' RR73'
|
|
if(nrpt.eq.3) msg=trim(call_1)//' '//trim(call_2)//' 73'
|
|
else
|
|
msg='CQ '//trim(call_2)
|
|
endif
|
|
|
|
else if(i3.eq.5) then
|
|
|
|
! Type 5 <PA3XYZ> <G4ABC/P> R 590003 IO91NP h12 h22 r1 s3 S11 g25
|
|
! EU VHF contest
|
|
read(c77,1060) n12,n22,ir,irpt,iserial,igrid6
|
|
1060 format(b12,b22,b1,b3,b11,b25)
|
|
if(igrid6.lt.0 .or. igrid6.gt.18662399) then
|
|
unpk77_success=.false.
|
|
return
|
|
endif
|
|
call hash12(n12,call_1)
|
|
if(n12.eq.hashmy12) call_1='<'//trim(mycall13)//'>'
|
|
call hash22(n22,call_2)
|
|
nrs=52+irpt
|
|
write(cexch,1022) nrs,iserial
|
|
1022 format(i2,i4.4)
|
|
call to_grid6(igrid6,grid6)
|
|
if(ir.eq.0) msg=trim(call_1)//' '//trim(call_2)//' '//cexch//' '//grid6
|
|
if(ir.eq.1) msg=trim(call_1)//' '//trim(call_2)//' R '//cexch//' '//grid6
|
|
|
|
else if(i3.ge.6) then ! i3 values 6 and 7 are not yet defined
|
|
unpk77_success=.false.
|
|
endif
|
|
if(msg(1:4).eq.'CQ <') unpk77_success=.false.
|
|
|
|
return
|
|
end subroutine unpack77
|
|
|
|
subroutine pack28(c13,n28)
|
|
|
|
! Pack a special token, a 22-bit hash code, or a valid base call into a 28-bit
|
|
! integer.
|
|
|
|
parameter (NTOKENS=2063592,MAX22=4194304)
|
|
logical is_digit,is_letter
|
|
character*13 c13
|
|
character*6 callsign
|
|
character*1 c
|
|
character*4 c4
|
|
character*37 a1
|
|
character*36 a2
|
|
character*10 a3
|
|
character*27 a4
|
|
data a1/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
data a2/'0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
data a3/'0123456789'/
|
|
data a4/' ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
|
|
is_digit(c)=c.ge.'0' .and. c.le.'9'
|
|
is_letter(c)=c.ge.'A' .and. c.le.'Z'
|
|
|
|
n28=-1
|
|
! Work-around for Swaziland prefix:
|
|
if(c13(1:4).eq.'3DA0') callsign='3D0'//c13(5:7)
|
|
! Work-around for Guinea prefixes:
|
|
if(c13(1:2).eq.'3X' .and. c13(3:3).ge.'A' .and. &
|
|
c13(3:3).le.'Z') callsign='Q'//c13(3:6)
|
|
|
|
! Check for special tokens first
|
|
if(c13(1:3).eq.'DE ') then
|
|
n28=0
|
|
go to 900
|
|
endif
|
|
|
|
if(c13(1:4).eq.'QRZ ') then
|
|
n28=1
|
|
go to 900
|
|
endif
|
|
|
|
if(c13(1:3).eq.'CQ ') then
|
|
n28=2
|
|
go to 900
|
|
endif
|
|
|
|
if(c13(1:3).eq.'CQ_') then
|
|
n=len(trim(c13))
|
|
if(n.ge.4 .and. n.le.7) then
|
|
nlet=0
|
|
nnum=0
|
|
do i=4,n
|
|
c=c13(i:i)
|
|
if(c.ge.'A' .and. c.le.'Z') nlet=nlet+1
|
|
if(c.ge.'0' .and. c.le.'9') nnum=nnum+1
|
|
enddo
|
|
if(nnum.eq.3 .and. nlet.eq.0) then
|
|
read(c13(4:3+nnum),*) nqsy
|
|
n28=3+nqsy
|
|
go to 900
|
|
endif
|
|
if(nlet.ge.1 .and. nlet.le.4 .and. nnum.eq.0) then
|
|
c4=c13(4:n)
|
|
c4=adjustr(c4)
|
|
m=0
|
|
do i=1,4
|
|
j=0
|
|
c=c4(i:i)
|
|
if(c.ge.'A' .and. c.le.'Z') j=ichar(c)-ichar('A')+1
|
|
m=27*m + j
|
|
enddo
|
|
n28=3+1000+m
|
|
go to 900
|
|
endif
|
|
endif
|
|
endif
|
|
|
|
! Check for <...> callsign
|
|
if(c13(1:1).eq.'<')then
|
|
call save_hash_call(c13,n10,n12,n22) !Save callsign in hash table
|
|
i2=index(c13,'>')
|
|
c13=c13(2:i2-1)
|
|
n22=ihashcall(c13,22)
|
|
n28=NTOKENS + n22
|
|
go to 900
|
|
endif
|
|
|
|
! Check for standard callsign
|
|
iarea=-1
|
|
n=len(trim(c13))
|
|
do i=n,2,-1
|
|
if(is_digit(c13(i:i))) exit
|
|
enddo
|
|
iarea=i !Call-area digit
|
|
npdig=0 !Digits before call area
|
|
nplet=0 !Letters before call area
|
|
do i=1,iarea-1
|
|
if(is_digit(c13(i:i))) npdig=npdig+1
|
|
if(is_letter(c13(i:i))) nplet=nplet+1
|
|
enddo
|
|
nslet=0
|
|
do i=iarea+1,n
|
|
if(is_letter(c13(i:i))) nslet=nslet+1
|
|
enddo
|
|
if(iarea.lt.2 .or. iarea.gt.3 .or. nplet.eq.0 .or. &
|
|
npdig.ge.iarea-1 .or. nslet.gt.3) then
|
|
! Treat this as a nonstandard callsign: compute its 22-bit hash
|
|
call save_hash_call(c13,n10,n12,n22) !Save callsign in hash table
|
|
n22=ihashcall(c13,22)
|
|
n28=NTOKENS + n22
|
|
go to 900
|
|
endif
|
|
|
|
n=len(trim(c13))
|
|
! This is a standard callsign
|
|
call save_hash_call(c13,n10,n12,n22) !Save callsign in hash table
|
|
if(iarea.eq.2) callsign=' '//c13(1:5)
|
|
if(iarea.eq.3) callsign=c13(1:6)
|
|
i1=index(a1,callsign(1:1))-1
|
|
i2=index(a2,callsign(2:2))-1
|
|
i3=index(a3,callsign(3:3))-1
|
|
i4=index(a4,callsign(4:4))-1
|
|
i5=index(a4,callsign(5:5))-1
|
|
i6=index(a4,callsign(6:6))-1
|
|
n28=36*10*27*27*27*i1 + 10*27*27*27*i2 + 27*27*27*i3 + 27*27*i4 + &
|
|
27*i5 + i6
|
|
n28=n28 + NTOKENS + MAX22
|
|
|
|
900 n28=iand(n28,ishft(1,28)-1)
|
|
return
|
|
end subroutine pack28
|
|
|
|
|
|
subroutine unpack28(n28_0,c13,success)
|
|
|
|
parameter (NTOKENS=2063592,MAX22=4194304)
|
|
logical success
|
|
character*13 c13
|
|
character*37 c1
|
|
character*36 c2
|
|
character*10 c3
|
|
character*27 c4
|
|
data c1/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
data c2/'0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
data c3/'0123456789'/
|
|
data c4/' ABCDEFGHIJKLMNOPQRSTUVWXYZ'/
|
|
|
|
success=.true.
|
|
n28=n28_0
|
|
if(n28.lt.NTOKENS) then
|
|
! Special tokens DE, QRZ, CQ, CQ_nnn, CQ_aaaa
|
|
if(n28.eq.0) c13='DE '
|
|
if(n28.eq.1) c13='QRZ '
|
|
if(n28.eq.2) c13='CQ '
|
|
if(n28.le.2) go to 900
|
|
if(n28.le.1002) then
|
|
write(c13,1002) n28-3
|
|
1002 format('CQ_',i3.3)
|
|
go to 900
|
|
endif
|
|
if(n28.le.532443) then
|
|
n=n28-1003
|
|
n0=n
|
|
i1=n/(27*27*27)
|
|
n=n-27*27*27*i1
|
|
i2=n/(27*27)
|
|
n=n-27*27*i2
|
|
i3=n/27
|
|
i4=n-27*i3
|
|
c13=c4(i1+1:i1+1)//c4(i2+1:i2+1)//c4(i3+1:i3+1)//c4(i4+1:i4+1)
|
|
c13=adjustl(c13)
|
|
c13='CQ_'//c13(1:10)
|
|
go to 900
|
|
endif
|
|
endif
|
|
n28=n28-NTOKENS
|
|
if(n28.lt.MAX22) then
|
|
! This is a 22-bit hash of a callsign
|
|
n22=n28
|
|
call hash22(n22,c13) !Retrieve callsign from hash table
|
|
go to 900
|
|
endif
|
|
|
|
! Standard callsign
|
|
n=n28 - MAX22
|
|
i1=n/(36*10*27*27*27)
|
|
n=n-36*10*27*27*27*i1
|
|
i2=n/(10*27*27*27)
|
|
n=n-10*27*27*27*i2
|
|
i3=n/(27*27*27)
|
|
n=n-27*27*27*i3
|
|
i4=n/(27*27)
|
|
n=n-27*27*i4
|
|
i5=n/27
|
|
i6=n-27*i5
|
|
c13=c1(i1+1:i1+1)//c2(i2+1:i2+1)//c3(i3+1:i3+1)//c4(i4+1:i4+1)// &
|
|
c4(i5+1:i5+1)//c4(i6+1:i6+1)
|
|
c13=adjustl(c13)
|
|
|
|
900 i0=index(c13,' ')
|
|
if(i0.ne.0 .and. i0.lt.len(trim(c13))) then
|
|
c13='QU1RK'
|
|
success=.false.
|
|
endif
|
|
return
|
|
end subroutine unpack28
|
|
|
|
subroutine split77(msg,nwords,nw,w)
|
|
|
|
! Convert msg to upper case; collapse multiple blanks; parse into words.
|
|
|
|
character*37 msg
|
|
character*13 w(19)
|
|
character*1 c,c0
|
|
character*6 bcall_1
|
|
logical ok1
|
|
integer nw(19)
|
|
|
|
iz=len(trim(msg))
|
|
j=0
|
|
k=0
|
|
n=0
|
|
c0=' '
|
|
w=' '
|
|
do i=1,iz
|
|
if(ichar(msg(i:i)).eq.0) msg(i:i)=' '
|
|
c=msg(i:i) !Single character
|
|
if(c.eq.' ' .and. c0.eq.' ') cycle !Skip leading/repeated blanks
|
|
if(c.ne.' ' .and. c0.eq.' ') then
|
|
k=k+1 !New word
|
|
n=0
|
|
endif
|
|
j=j+1 !Index in msg
|
|
n=n+1 !Index in word
|
|
msg(j:j)=c
|
|
if(c.ge.'a' .and. c.le.'z') msg(j:j)=char(ichar(c)-32) !Force upper case
|
|
if(n.le.13) w(k)(n:n)=c !Copy character c into word
|
|
c0=c
|
|
enddo
|
|
iz=j !Message length
|
|
nwords=k !Number of words in msg
|
|
if(nwords.le.0) go to 900
|
|
nw(k)=len(trim(w(k)))
|
|
msg(iz+1:)=' '
|
|
if(nwords.lt.3) go to 900
|
|
call chkcall(w(3),bcall_1,ok1)
|
|
if(ok1 .and. w(1)(1:3).eq.'CQ ') then
|
|
w(1)='CQ_'//w(2)(1:10) !Make "CQ " into "CQ_"
|
|
w(2:12)=w(3:13) !Move all remeining words down by one
|
|
nwords=nwords-1
|
|
endif
|
|
|
|
900 return
|
|
end subroutine split77
|
|
|
|
|
|
subroutine pack77_01(nwords,w,i3,n3,c77)
|
|
|
|
! Pack a Type 0.1 message: DXpedition mode
|
|
! Example message: "K1ABC RR73; W9XYZ <KH1/KH7Z> -11" 28 28 10 5
|
|
|
|
character*13 w(19),c13
|
|
character*77 c77
|
|
character*6 bcall_1,bcall_2
|
|
logical ok1,ok2
|
|
|
|
if(nwords.ne.5) go to 900 !Must have 5 words
|
|
if(trim(w(2)).ne.'RR73;') go to 900 !2nd word must be "RR73;"
|
|
if(w(4)(1:1).ne.'<') go to 900 !4th word must have <...>
|
|
if(index(w(4),'>').lt.1) go to 900
|
|
n=-99
|
|
read(w(5),*,err=1) n
|
|
1 if(n.eq.-99) go to 900 !5th word must be a valid report
|
|
n5=(n+30)/2
|
|
if(n5.lt.0) n5=0
|
|
if(n5.gt.31) n5=31
|
|
call chkcall(w(1),bcall_1,ok1)
|
|
if(.not.ok1) go to 900 !1st word must be a valid basecall
|
|
call chkcall(w(3),bcall_2,ok2)
|
|
if(.not.ok2) go to 900 !3rd word must be a valid basecall
|
|
|
|
! Type 0.1: K1ABC RR73; W9XYZ <KH1/KH7Z> -11 28 28 10 5 71
|
|
i3=0
|
|
n3=1
|
|
call pack28(w(1),n28a)
|
|
call pack28(w(3),n28b)
|
|
call save_hash_call(w(4),n10,n12,n22)
|
|
i2=index(w(4),'>')
|
|
c13=w(4)(2:i2-1)
|
|
n10=ihashcall(c13,10)
|
|
write(c77,1010) n28a,n28b,n10,n5,n3,i3
|
|
1010 format(2b28.28,b10.10,b5.5,2b3.3)
|
|
|
|
900 return
|
|
end subroutine pack77_01
|
|
|
|
|
|
subroutine pack77_03(nwords,w,i3,n3,c77)
|
|
|
|
! Check 0.3 and 0.4 (ARRL Field Day exchange)
|
|
! Example message: WA9XYZ KA1ABC R 16A EMA 28 28 1 4 3 7 71
|
|
|
|
parameter (NSEC=85) !Number of ARRL Sections
|
|
character*13 w(19)
|
|
character*77 c77
|
|
character*6 bcall_1,bcall_2
|
|
character*3 csec(NSEC)
|
|
logical ok1,ok2
|
|
data csec/ &
|
|
"AB ","AK ","AL ","AR ","AZ ","BC ","CO ","CT ","DE ","EB ", &
|
|
"EMA","ENY","EPA","EWA","GA ","GTA","IA ","ID ","IL ","IN ", &
|
|
"KS ","KY ","LA ","LAX","MAR","MB ","MDC","ME ","MI ","MN ", &
|
|
"MO ","MS ","MT ","NC ","ND ","NE ","NFL","NH ","NL ","NLI", &
|
|
"NM ","NNJ","NNY","NT ","NTX","NV ","OH ","OK ","ONE","ONN", &
|
|
"ONS","OR ","ORG","PAC","PR ","QC ","RI ","SB ","SC ","SCV", &
|
|
"SD ","SDG","SF ","SFL","SJV","SK ","SNJ","STX","SV ","TN ", &
|
|
"UT ","VA ","VI ","VT ","WCF","WI ","WMA","WNY","WPA","WTX", &
|
|
"WV ","WWA","WY ","DX ","PE "/
|
|
|
|
if(nwords.lt.4 .or. nwords.gt.5) return
|
|
call chkcall(w(1),bcall_1,ok1)
|
|
call chkcall(w(2),bcall_2,ok2)
|
|
if(.not.ok1 .or. .not.ok2) return
|
|
isec=-1
|
|
do i=1,NSEC
|
|
if(csec(i).eq.w(nwords)(1:3)) then
|
|
isec=i
|
|
exit
|
|
endif
|
|
enddo
|
|
if(isec.eq.-1) return
|
|
if(nwords.eq.5 .and. trim(w(3)).ne.'R') return
|
|
|
|
ntx=-1
|
|
j=len(trim(w(nwords-1)))-1
|
|
read(w(nwords-1)(1:j),*,err=1,end=1) ntx !Number of transmitters
|
|
1 if(ntx.lt.1 .or. ntx.gt.32) return
|
|
nclass=ichar(w(nwords-1)(j+1:j+1))-ichar('A')
|
|
|
|
m=len(trim(w(nwords))) !Length of section abbreviation
|
|
if(m.lt.2 .or. m.gt.3) return
|
|
|
|
! 0.3 WA9XYZ KA1ABC R 16A EMA 28 28 1 4 3 7 71 ARRL Field Day
|
|
! 0.4 WA9XYZ KA1ABC R 32A EMA 28 28 1 4 3 7 71 ARRL Field Day
|
|
|
|
i3=0
|
|
n3=3 !Type 0.3 ARRL Field Day
|
|
intx=ntx-1
|
|
if(intx.ge.16) then
|
|
n3=4 !Type 0.4 ARRL Field Day
|
|
intx=ntx-17
|
|
endif
|
|
call pack28(w(1),n28a)
|
|
call pack28(w(2),n28b)
|
|
ir=0
|
|
if(w(3)(1:2).eq.'R ') ir=1
|
|
write(c77,1010) n28a,n28b,ir,intx,nclass,isec,n3,i3
|
|
1010 format(2b28.28,b1,b4.4,b3.3,b7.7,2b3.3)
|
|
|
|
return
|
|
end subroutine pack77_03
|
|
|
|
|
|
subroutine pack77_06(nwords,w,i3,n3,c77,i3_hint,n3_hint)
|
|
|
|
character*13 w(19)
|
|
character*77 c77
|
|
character*6 bcall,grid6
|
|
character*4 grid4
|
|
character*1 c
|
|
character*36 a2
|
|
data a2/'0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ'/,nzzz/46656/
|
|
|
|
logical is_grid4,is_grid6,is_digit,ok
|
|
is_grid4(grid4)=len(trim(grid4)).eq.4 .and. &
|
|
grid4(1:1).ge.'A' .and. grid4(1:1).le.'R' .and. &
|
|
grid4(2:2).ge.'A' .and. grid4(2:2).le.'R' .and. &
|
|
grid4(3:3).ge.'0' .and. grid4(3:3).le.'9' .and. &
|
|
grid4(4:4).ge.'0' .and. grid4(4:4).le.'9'
|
|
|
|
is_grid6(grid6)=(len(trim(grid6)).eq.6.or.len(trim(grid6)).eq.4).and. &
|
|
grid6(1:1).ge.'A' .and. grid6(1:1).le.'R' .and. &
|
|
grid6(2:2).ge.'A' .and. grid6(2:2).le.'R' .and. &
|
|
grid6(3:3).ge.'0' .and. grid6(3:3).le.'9' .and. &
|
|
grid6(4:4).ge.'0' .and. grid6(4:4).le.'9' .and. &
|
|
(len(trim(grid6)).eq.4.or. &
|
|
(grid6(5:5).ge.'A' .and. grid6(5:5).le.'X' .and. &
|
|
grid6(6:6).ge.'A' .and. grid6(6:6).le.'X'))
|
|
|
|
is_digit(c)=c.ge.'0' .and. c.le.'9'
|
|
|
|
m1=len(trim(w(1)))
|
|
m2=len(trim(w(2)))
|
|
m3=len(trim(w(3)))
|
|
if(nwords.eq.3 .and. m1.ge.3 .and. m1.le.6 .and. m2.eq.4 .and. m3.le.2) then
|
|
! WSPR Type 1
|
|
if(.not.is_grid4(w(2)(1:4))) go to 900
|
|
if(.not.is_digit(w(3)(1:1))) go to 900
|
|
if(m3.eq.2) then
|
|
if(.not.is_digit(w(3)(2:2))) go to 900
|
|
endif
|
|
i3=0
|
|
n3=6
|
|
call pack28(w(1),n28)
|
|
grid4=w(2)(1:4)
|
|
k1=(ichar(grid4(1:1))-ichar('A'))*18*10*10
|
|
k2=(ichar(grid4(2:2))-ichar('A'))*10*10
|
|
k3=(ichar(grid4(3:3))-ichar('0'))*10
|
|
k4=(ichar(grid4(4:4))-ichar('0'))
|
|
igrid4=k1+k2+k3+k4
|
|
read(w(3),*) idbm
|
|
if(idbm.lt.0) idbm=0
|
|
if(idbm.gt.60) idbm=60
|
|
idbm=nint(0.3*idbm)
|
|
write(c77,1010) n28,igrid4,idbm,0,0,0,n3,i3
|
|
1010 format(b28.28,b15.15,b5.5,2i1,b21.21,2b3.3)
|
|
go to 900
|
|
endif
|
|
if(nwords.eq.2 .and. m1.ge.5 .and. m1.le.10 .and. m2.le.2) then
|
|
! WSPR Type 2
|
|
i1=index(w(1),'/')
|
|
if(i1.lt.2 .or. i1.eq.m1) go to 900
|
|
if(.not.is_digit(w(2)(1:1))) go to 900
|
|
if(i1.eq.(m1-3) .and. .not.is_digit(w(1)(m1:m1))) go to 900
|
|
if(m2.eq.2) then
|
|
if(.not.is_digit(w(2)(2:2))) go to 900
|
|
endif
|
|
call chkcall(w(1),bcall,ok)
|
|
if(.not.ok) go to 900
|
|
if(i1.le.4) then
|
|
! We have a prefix
|
|
npfx=index(a2,w(1)(1:1))-1
|
|
if(i1.ge.3) npfx=36*npfx + index(a2,w(1)(2:2))-1
|
|
if(i1.eq.4) npfx=36*npfx + index(a2,w(1)(3:3))-1
|
|
else
|
|
! We have a suffix
|
|
if((m1-i1).eq.1) npfx=index(a2,w(1)(i1+1:i1+1))-1
|
|
if((m1-i1).eq.2) npfx=36*(index(a2,w(1)(i1+1:i1+1))-1) + &
|
|
index(a2,w(1)(i1+2:i1+2))-1
|
|
if((m1-i1).eq.3) then
|
|
! Third character of a suffix must be a digit
|
|
if(.not.is_digit(w(1)(i1+3:i1+3))) go to 900
|
|
npfx=36*10*(index(a2,w(1)(i1+1:i1+1))-1) + &
|
|
10*(index(a2,w(1)(i1+2:i1+2))-1) + index(a2,w(1)(i1+3:i1+3))-1
|
|
endif
|
|
npfx=npfx + nzzz
|
|
endif
|
|
i3=0
|
|
n3=6
|
|
call pack28(bcall//' ',n28)
|
|
read(w(2),*) idbm
|
|
if(idbm.lt.0) idbm=0
|
|
if(idbm.gt.60) idbm=60
|
|
idbm=nint(0.3*idbm)
|
|
write(c77,1020) n28,npfx,idbm,1,0,n3,i3
|
|
1020 format(b28.28,b16.16,b5.5,i1,b21.21,2b3.3)
|
|
go to 900
|
|
endif
|
|
|
|
if(i3_hint.eq.0.and.n3_hint.eq.6.and.nwords.eq.2 .and. m1.ge.5 &
|
|
.and. m1.le.12 .and. m2.le.6) then
|
|
! WSPR Type 3
|
|
|
|
!n3_hint=6 and i3_hint=0 is a hint that the caller wanted a
|
|
!50-bit encoding rather than the possible alternative n3=4 77-bit
|
|
!encoding
|
|
if(index(w(1),'<').lt.1 .or. index(w(1),'>').lt.1) go to 900
|
|
grid6=w(2)(1:6)
|
|
if(.not.is_grid6(grid6)) go to 900
|
|
i3=0
|
|
n3=6
|
|
call pack28(w(1),n28)
|
|
n22=n28-2063592
|
|
k1=(ichar(grid6(1:1))-ichar('A'))*18*10*10*25*25
|
|
k2=(ichar(grid6(2:2))-ichar('A'))*10*10*25*25
|
|
k3=(ichar(grid6(3:3))-ichar('0'))*10*25*25
|
|
k4=(ichar(grid6(4:4))-ichar('0'))*25*25
|
|
if (grid6(5:6).eq.' ') then
|
|
igrid6=k1+k2+k3+k4+24*25+24
|
|
else
|
|
k5=(ichar(grid6(5:5))-ichar('A'))*25
|
|
k6=(ichar(grid6(6:6))-ichar('A'))
|
|
igrid6=k1+k2+k3+k4+k5+k6
|
|
endif
|
|
write(c77,1030) n22,igrid6,2,0,n3,i3
|
|
1030 format(b22.22,b25.25,b3.3,b21.21,2b3.3)
|
|
endif
|
|
|
|
900 return
|
|
end subroutine pack77_06
|
|
|
|
|
|
subroutine pack77_1(nwords,w,i3,n3,c77)
|
|
|
|
! Check Type 1 (Standard 77-bit message) and Type 2 (ditto, with a "/P" call)
|
|
! Example message: WA9XYZ/R KA1ABC/R R FN42 28 1 28 1 1 15 74
|
|
|
|
parameter (MAXGRID4=32400)
|
|
character*13 w(19),c13
|
|
character*77 c77
|
|
character*6 bcall_1,bcall_2
|
|
character*4 grid4
|
|
character c1*1,c2*2
|
|
logical is_grid4
|
|
logical ok1,ok2
|
|
is_grid4(grid4)=len(trim(grid4)).eq.4 .and. &
|
|
grid4(1:1).ge.'A' .and. grid4(1:1).le.'R' .and. &
|
|
grid4(2:2).ge.'A' .and. grid4(2:2).le.'R' .and. &
|
|
grid4(3:3).ge.'0' .and. grid4(3:3).le.'9' .and. &
|
|
grid4(4:4).ge.'0' .and. grid4(4:4).le.'9'
|
|
|
|
if(nwords.lt.2 .or. nwords.gt.4) return
|
|
call chkcall(w(1),bcall_1,ok1)
|
|
call chkcall(w(2),bcall_2,ok2)
|
|
if(w(1)(1:3).eq.'DE ' .or. w(1)(1:3).eq.'CQ_' .or. w(1)(1:3).eq.'CQ ' .or. &
|
|
w(1)(1:4).eq.'QRZ ') ok1=.true.
|
|
if(w(1)(1:1).eq.'<' .and. index(w(1),'>').ge.5) ok1=.true.
|
|
if(w(2)(1:1).eq.'<' .and. index(w(2),'>').ge.5) ok2=.true.
|
|
if(.not.ok1 .or. .not.ok2) return
|
|
if(w(1)(1:1).eq.'<' .and. index(w(2),'/').gt.0) return
|
|
if(w(2)(1:1).eq.'<' .and. index(w(1),'/').gt.0) return
|
|
if(nwords.eq.2 .and. (.not.ok2 .or. index(w(2),'/').ge.2)) return
|
|
if(nwords.eq.2) go to 10
|
|
|
|
c1=w(nwords)(1:1)
|
|
c2=w(nwords)(1:2)
|
|
if(.not.is_grid4(w(nwords)(1:4)) .and. c1.ne.'+' .and. c1.ne.'-' &
|
|
.and. c2.ne.'R+' .and. c2.ne.'R-' .and. trim(w(nwords)).ne.'RRR' .and. &
|
|
trim(w(nwords)).ne.'RR73' .and. trim(w(nwords)).ne.'73') return
|
|
if(c1.eq.'+' .or. c1.eq.'-') then
|
|
ir=0
|
|
read(w(nwords),*,err=900) irpt
|
|
if(irpt.ge.-50 .and. irpt.le.-31) irpt=irpt+101
|
|
irpt=irpt+35
|
|
else if(c2.eq.'R+' .or. c2.eq.'R-') then
|
|
ir=1
|
|
read(w(nwords)(2:),*) irpt
|
|
if(irpt.ge.-50 .and. irpt.le.-31) irpt=irpt+101
|
|
irpt=irpt+35
|
|
else if(trim(w(nwords)).eq.'RRR') then
|
|
ir=0
|
|
irpt=2
|
|
else if(trim(w(nwords)).eq.'RR73') then
|
|
ir=0
|
|
irpt=3
|
|
else if(trim(w(nwords)).eq.'73') then
|
|
ir=0
|
|
irpt=4
|
|
endif
|
|
|
|
! 1 WA9XYZ/R KA1ABC/R R FN42 28 1 28 1 1 15 74 Standard msg
|
|
! 2 PA3XYZ/P GM4ABC/P R JO22 28 1 28 1 1 15 74 EU VHF contest
|
|
|
|
10 i1psuffix=index(w(1)//' ' ,'/P ')
|
|
i2psuffix=index(w(2)//' ','/P ')
|
|
if(nwords.eq.2 .or. nwords.eq.3 .or. (nwords.eq.4 .and. &
|
|
w(3)(1:2).eq.'R ')) then
|
|
n3=0
|
|
i3=1 !Type 1: Standard message, possibly with "/R"
|
|
if (i1psuffix.ge.4.or.i2psuffix.ge.4) i3=2 !Type 2, with "/P"
|
|
endif
|
|
c13=bcall_1
|
|
if(c13(1:3).eq.'CQ_' .or. w(1)(1:1).eq.'<') c13=w(1)
|
|
call pack28(c13,n28a)
|
|
c13=bcall_2
|
|
if(w(2)(1:1).eq.'<') c13=w(2)
|
|
call pack28(c13,n28b)
|
|
ipa=0
|
|
ipb=0
|
|
if(i1psuffix.ge.4.or.index(w(1)//' ','/R ').ge.4) ipa=1
|
|
if(i2psuffix.ge.4.or.index(w(2)//' ','/R ').ge.4) ipb=1
|
|
|
|
grid4=w(nwords)(1:4)
|
|
if(is_grid4(grid4)) then
|
|
ir=0
|
|
if(w(3).eq.'R ') ir=1
|
|
j1=(ichar(grid4(1:1))-ichar('A'))*18*10*10
|
|
j2=(ichar(grid4(2:2))-ichar('A'))*10*10
|
|
j3=(ichar(grid4(3:3))-ichar('0'))*10
|
|
j4=(ichar(grid4(4:4))-ichar('0'))
|
|
igrid4=j1+j2+j3+j4
|
|
else
|
|
igrid4=MAXGRID4 + irpt
|
|
endif
|
|
if(nwords.eq.2) then
|
|
ir=0
|
|
irpt=1
|
|
igrid4=MAXGRID4+irpt
|
|
endif
|
|
write(c77,1000) n28a,ipa,n28b,ipb,ir,igrid4,i3
|
|
1000 format(2(b28.28,b1),b1,b15.15,b3.3)
|
|
return
|
|
|
|
900 return
|
|
end subroutine pack77_1
|
|
|
|
|
|
subroutine pack77_3(nwords,w,i3,n3,c77)
|
|
|
|
! Check Type 3 (ARRL RTTY contest exchange)
|
|
! ARRL RTTY - US/Can: rpt state/prov R 579 MA
|
|
! - DX: rpt serial R 559 0013
|
|
! Example message: TU; W9XYZ K1ABC R 579 MA 1 28 28 1 3 13 74
|
|
|
|
parameter (NUSCAN=65) !Number of US states and Canadian provinces/territories
|
|
character*13 w(19)
|
|
character*77 c77
|
|
character*6 bcall_1,bcall_2
|
|
character*3 cmult(NUSCAN),mult
|
|
character crpt*3
|
|
logical ok1,ok2
|
|
data cmult/ &
|
|
"AL ","AK ","AZ ","AR ","CA ","CO ","CT ","DE ","FL ","GA ", &
|
|
"HI ","ID ","IL ","IN ","IA ","KS ","KY ","LA ","ME ","MD ", &
|
|
"MA ","MI ","MN ","MS ","MO ","MT ","NE ","NV ","NH ","NJ ", &
|
|
"NM ","NY ","NC ","ND ","OH ","OK ","OR ","PA ","RI ","SC ", &
|
|
"SD ","TN ","TX ","UT ","VT ","VA ","WA ","WV ","WI ","WY ", &
|
|
"NB ","NS ","QC ","ON ","MB ","SK ","AB ","BC ","NWT","NF ", &
|
|
"LB ","NU ","YT ","PEI","DC "/
|
|
|
|
if(w(1)(1:1).eq.'<' .and. w(2)(1:1).eq.'<') go to 900
|
|
if(nwords.eq.4 .or. nwords.eq.5 .or. nwords.eq.6) then
|
|
i1=1
|
|
if(trim(w(1)).eq.'TU;') i1=2
|
|
call chkcall(w(i1),bcall_1,ok1)
|
|
call chkcall(w(i1+1),bcall_2,ok2)
|
|
if(.not.ok1 .or. .not.ok2) go to 900
|
|
crpt=w(nwords-1)(1:3)
|
|
if(index(crpt,'-').ge.1 .or. index(crpt,'+').ge.1) go to 900
|
|
if(crpt(1:1).eq.'5' .and. crpt(2:2).ge.'2' .and. crpt(2:2).le.'9' .and. &
|
|
crpt(3:3).eq.'9') then
|
|
nserial=0
|
|
read(w(nwords),*,err=1) nserial
|
|
endif
|
|
1 mult=' '
|
|
imult=-1
|
|
do i=1,NUSCAN
|
|
if(cmult(i).eq.w(nwords)) then
|
|
imult=i
|
|
mult=cmult(i)
|
|
exit
|
|
endif
|
|
enddo
|
|
nexch=0
|
|
if(nserial.gt.0) nexch=nserial
|
|
if(imult.gt.0) nexch=8000+imult
|
|
if(mult.ne.' ' .or. nserial.gt.0) then
|
|
i3=3
|
|
n3=0
|
|
itu=0
|
|
if(trim(w(1)).eq.'TU;') itu=1
|
|
call pack28(w(1+itu),n28a)
|
|
call pack28(w(2+itu),n28b)
|
|
ir=0
|
|
if(w(3+itu)(1:2).eq.'R ') ir=1
|
|
read(w(3+itu+ir),*,err=900) irpt
|
|
irpt=(irpt-509)/10 - 2
|
|
if(irpt.lt.0) irpt=0
|
|
if(irpt.gt.7) irpt=7
|
|
! 3 TU; W9XYZ K1ABC R 579 MA 1 28 28 1 3 13 74 ARRL RTTY contest
|
|
! 3 TU; W9XYZ G8ABC R 559 0013 1 28 28 1 3 13 74 ARRL RTTY (DX)
|
|
write(c77,1010) itu,n28a,n28b,ir,irpt,nexch,i3
|
|
1010 format(b1,2b28.28,b1,b3.3,b13.13,b3.3)
|
|
endif
|
|
endif
|
|
|
|
900 return
|
|
end subroutine pack77_3
|
|
|
|
|
|
subroutine pack77_4(nwords,w,i3,n3,c77)
|
|
|
|
! Check Type 4 (One nonstandard call and one hashed call)
|
|
! Example message: <WA9XYZ> PJ4/KA1ABC RR73 12 58 1 2 1 74
|
|
|
|
integer*8 n58
|
|
logical ok1,ok2
|
|
character*13 w(19)
|
|
character*77 c77
|
|
character*13 call_1,call_2
|
|
character*11 c11
|
|
character*6 bcall_1,bcall_2
|
|
character*38 c
|
|
data c/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ/'/
|
|
|
|
iflip=0
|
|
i3=-1
|
|
if(nwords.eq.2 .or. nwords.eq.3) then
|
|
call_1=w(1)
|
|
if(call_1(1:1).eq.'<') call_1=w(1)(2:len(trim(w(1)))-1)
|
|
call_2=w(2)
|
|
if(call_2(1:1).eq.'<') call_2=w(2)(2:len(trim(w(2)))-1)
|
|
call chkcall(call_1,bcall_1,ok1)
|
|
call chkcall(call_2,bcall_2,ok2)
|
|
icq=0
|
|
if(trim(w(1)).eq.'CQ' .or. (ok1.and.ok2)) then
|
|
if(trim(w(1)).eq.'CQ' .and. len(trim(w(2))).le.4) go to 900
|
|
i3=4
|
|
n3=0
|
|
if(trim(w(1)).eq.'CQ') icq=1
|
|
endif
|
|
|
|
if(icq.eq.1) then
|
|
iflip=0
|
|
n12=0
|
|
c11=adjustr(call_2(1:11))
|
|
call save_hash_call(w(2),n10,n12,n22)
|
|
else if(w(1)(1:1).eq.'<') then
|
|
iflip=0
|
|
i3=4
|
|
call save_hash_call(w(1),n10,n12,n22)
|
|
c11=adjustr(call_2(1:11))
|
|
else if(w(2)(1:1).eq.'<') then
|
|
iflip=1
|
|
i3=4
|
|
call save_hash_call(w(2),n10,n12,n22)
|
|
c11=adjustr(call_1(1:11))
|
|
endif
|
|
n58=0
|
|
do i=1,11
|
|
n58=n58*38 + index(c,c11(i:i)) - 1
|
|
enddo
|
|
nrpt=0
|
|
if(trim(w(3)).eq.'RRR') nrpt=1
|
|
if(trim(w(3)).eq.'RR73') nrpt=2
|
|
if(trim(w(3)).eq.'73') nrpt=3
|
|
if(icq.eq.1) then
|
|
iflip=0
|
|
nrpt=0
|
|
endif
|
|
write(c77,1010) n12,n58,iflip,nrpt,icq,i3
|
|
1010 format(b12.12,b58.58,b1,b2.2,b1,b3.3)
|
|
do i=1,77
|
|
if(c77(i:i).eq.'*') c77(i:i)='0' !### Clean up any illegal chars ###
|
|
enddo
|
|
endif
|
|
|
|
900 return
|
|
end subroutine pack77_4
|
|
|
|
subroutine pack77_5(nwords,w,i3,n3,c77)
|
|
|
|
! Pack a Type 0.2 message: EU VHF Contest mode
|
|
! Example message: PA3XYZ/P R 590003 IO91NP 28 1 1 3 12 25
|
|
! <PA3XYZ> <G4ABC/P> R 590003 IO91NP h10 h20 r1 s3 s12 g25
|
|
|
|
character*13 w(19),c13
|
|
character*77 c77
|
|
character*6 grid6
|
|
logical is_grid6
|
|
|
|
is_grid6(grid6)=len(trim(grid6)).eq.6 .and. &
|
|
grid6(1:1).ge.'A' .and. grid6(1:1).le.'R' .and. &
|
|
grid6(2:2).ge.'A' .and. grid6(2:2).le.'R' .and. &
|
|
grid6(3:3).ge.'0' .and. grid6(3:3).le.'9' .and. &
|
|
grid6(4:4).ge.'0' .and. grid6(4:4).le.'9' .and. &
|
|
grid6(5:5).ge.'A' .and. grid6(5:5).le.'X' .and. &
|
|
grid6(6:6).ge.'A' .and. grid6(6:6).le.'X'
|
|
|
|
if(nwords.lt.4 .or. nwords.gt.5) return !nwords must be 4 or 5
|
|
if(w(1)(1:1).ne.'<' .or. w(2)(1:1).ne.'<') return !Both calls must be hashed
|
|
nx=-1
|
|
read(w(nwords-1),*,err=2) nx
|
|
2 if(nx.lt.520001 .or. nx.gt.594095) return !Exchange between 520001 - 594095
|
|
if(.not.is_grid6(w(nwords)(1:6))) return !Last word must be a valid grid6
|
|
|
|
! Type 0.2: <PA3XYZ> <G4ABC/P> R 590003 IO91NP h10 h20 r1 s3 s12 g25
|
|
|
|
i3=5
|
|
n3=0
|
|
|
|
call save_hash_call(w(1),n10,n12,n22)
|
|
i2=index(w(1),'>')
|
|
c13=w(1)(2:i2-1)
|
|
n12=ihashcall(c13,12)
|
|
|
|
call save_hash_call(w(2),n10a,n12a,n22)
|
|
i2=index(w(2),'>')
|
|
c13=w(2)(2:i2-1)
|
|
n22=ihashcall(c13,22)
|
|
|
|
ir=0
|
|
if(w(3)(1:2).eq.'R ') ir=1
|
|
irpt=nx/10000 - 52
|
|
iserial=mod(nx,10000)
|
|
if(iserial.gt.2047) iserial=2047
|
|
grid6=w(nwords)(1:6)
|
|
j1=(ichar(grid6(1:1))-ichar('A'))*18*10*10*24*24
|
|
j2=(ichar(grid6(2:2))-ichar('A'))*10*10*24*24
|
|
j3=(ichar(grid6(3:3))-ichar('0'))*10*24*24
|
|
j4=(ichar(grid6(4:4))-ichar('0'))*24*24
|
|
j5=(ichar(grid6(5:5))-ichar('A'))*24
|
|
j6=(ichar(grid6(6:6))-ichar('A'))
|
|
igrid6=j1+j2+j3+j4+j5+j6
|
|
|
|
write(c77,1010) n12,n22,ir,irpt,iserial,igrid6,i3
|
|
1010 format(b12.12,b22.22,b1,b3.3,b11.11,b25.25,b3.3)
|
|
|
|
return
|
|
end subroutine pack77_5
|
|
|
|
|
|
subroutine packtext77(c13,c71)
|
|
|
|
character*13 c13,w
|
|
character*71 c71
|
|
character*42 c
|
|
character*1 qa(10),qb(10)
|
|
data c/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ+-./?'/
|
|
|
|
call mp_short_init
|
|
qa=char(0)
|
|
w=adjustr(c13)
|
|
do i=1,13
|
|
j=index(c,w(i:i))-1
|
|
if(j.lt.0) j=0
|
|
call mp_short_mult(qb,qa(2:10),9,42) !qb(1:9)=42*qa(2:9)
|
|
call mp_short_add(qa,qb(2:10),9,j) !qa(1:9)=qb(2:9)+j
|
|
enddo
|
|
|
|
write(c71,1010) qa(2:10)
|
|
1010 format(b7.7,8b8.8)
|
|
|
|
return
|
|
end subroutine packtext77
|
|
|
|
subroutine unpacktext77(c71,c13)
|
|
|
|
integer*1 ia(10)
|
|
character*1 qa(10),qb(10)
|
|
character*13 c13
|
|
character*71 c71
|
|
character*42 c
|
|
equivalence (qa,ia),(qb,ib)
|
|
data c/' 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ+-./?'/
|
|
|
|
qa(1)=char(0)
|
|
read(c71,1010) qa(2:10)
|
|
1010 format(b7.7,8b8.8)
|
|
|
|
do i=13,1,-1
|
|
call mp_short_div(qb,qa(2:10),9,42,ir)
|
|
c13(i:i)=c(ir+1:ir+1)
|
|
qa(2:10)=qb(1:9)
|
|
enddo
|
|
|
|
return
|
|
end subroutine unpacktext77
|
|
|
|
subroutine mp_short_ops(w,u)
|
|
character*1 w(*),u(*)
|
|
integer i,ireg,j,n,ir,iv,ii1,ii2
|
|
character*1 creg(4)
|
|
save ii1,ii2
|
|
equivalence (ireg,creg)
|
|
|
|
entry mp_short_init
|
|
ireg=256*ichar('2')+ichar('1')
|
|
do j=1,4
|
|
if (creg(j).eq.'1') ii1=j
|
|
if (creg(j).eq.'2') ii2=j
|
|
enddo
|
|
return
|
|
|
|
entry mp_short_add(w,u,n,iv)
|
|
ireg=256*iv
|
|
do j=n,1,-1
|
|
ireg=ichar(u(j))+ichar(creg(ii2))
|
|
w(j+1)=creg(ii1)
|
|
enddo
|
|
w(1)=creg(ii2)
|
|
return
|
|
|
|
entry mp_short_mult(w,u,n,iv)
|
|
ireg=0
|
|
do j=n,1,-1
|
|
ireg=ichar(u(j))*iv+ichar(creg(ii2))
|
|
w(j+1)=creg(ii1)
|
|
enddo
|
|
w(1)=creg(ii2)
|
|
return
|
|
|
|
entry mp_short_div(w,u,n,iv,ir)
|
|
ir=0
|
|
do j=1,n
|
|
i=256*ir+ichar(u(j))
|
|
w(j)=char(i/iv)
|
|
ir=mod(i,iv)
|
|
enddo
|
|
return
|
|
|
|
return
|
|
end subroutine mp_short_ops
|
|
|
|
subroutine add_call_to_recent_calls(callsign)
|
|
|
|
character*13 callsign
|
|
logical ladd
|
|
|
|
! only add if the callsign is not already on the list
|
|
ladd=.true.
|
|
do i=1,MAXRECENT-1 ! if callsign is at the end of the list add it again
|
|
if(recent_calls(i).eq.callsign) ladd=.false.
|
|
enddo
|
|
|
|
if(ladd) then
|
|
do i=MAXRECENT,2,-1
|
|
recent_calls(i)=recent_calls(i-1)
|
|
enddo
|
|
recent_calls(1)=callsign
|
|
endif
|
|
|
|
! Make sure that callsign is hashed
|
|
call save_hash_call(callsign,n10,n12,n22)
|
|
|
|
return
|
|
end subroutine add_call_to_recent_calls
|
|
|
|
subroutine to_grid4(n,grid4)
|
|
character*4 grid4
|
|
|
|
j1=n/(18*10*10)
|
|
n=n-j1*18*10*10
|
|
j2=n/(10*10)
|
|
n=n-j2*10*10
|
|
j3=n/10
|
|
j4=n-j3*10
|
|
grid4(1:1)=char(j1+ichar('A'))
|
|
grid4(2:2)=char(j2+ichar('A'))
|
|
grid4(3:3)=char(j3+ichar('0'))
|
|
grid4(4:4)=char(j4+ichar('0'))
|
|
|
|
return
|
|
end subroutine to_grid4
|
|
|
|
subroutine to_grid6(n,grid6)
|
|
character*6 grid6
|
|
|
|
j1=n/(18*10*10*24*24)
|
|
n=n-j1*18*10*10*24*24
|
|
j2=n/(10*10*24*24)
|
|
n=n-j2*10*10*24*24
|
|
j3=n/(10*24*24)
|
|
n=n-j3*10*24*24
|
|
j4=n/(24*24)
|
|
n=n-j4*24*24
|
|
j5=n/24
|
|
j6=n-j5*24
|
|
grid6(1:1)=char(j1+ichar('A'))
|
|
grid6(2:2)=char(j2+ichar('A'))
|
|
grid6(3:3)=char(j3+ichar('0'))
|
|
grid6(4:4)=char(j4+ichar('0'))
|
|
grid6(5:5)=char(j5+ichar('A'))
|
|
grid6(6:6)=char(j6+ichar('A'))
|
|
|
|
return
|
|
end subroutine to_grid6
|
|
|
|
subroutine to_grid(n,grid6)
|
|
! 4-, or 6-character grid
|
|
character*6 grid6
|
|
|
|
j1=n/(18*10*10*25*25)
|
|
n=n-j1*18*10*10*25*25
|
|
j2=n/(10*10*25*25)
|
|
n=n-j2*10*10*25*25
|
|
j3=n/(10*25*25)
|
|
n=n-j3*10*25*25
|
|
j4=n/(25*25)
|
|
n=n-j4*25*25
|
|
j5=n/25
|
|
j6=n-j5*25
|
|
grid6=''
|
|
grid6(1:1)=char(j1+ichar('A'))
|
|
grid6(2:2)=char(j2+ichar('A'))
|
|
grid6(3:3)=char(j3+ichar('0'))
|
|
grid6(4:4)=char(j4+ichar('0'))
|
|
if (j5.ne.24.or.j6.ne.24) then
|
|
grid6(5:5)=char(j5+ichar('A'))
|
|
grid6(6:6)=char(j6+ichar('A'))
|
|
endif
|
|
|
|
return
|
|
end subroutine to_grid
|
|
|
|
end module packjt77
|