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subroutine unkint (cp, wp)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer wp
logical xerpop
logical xerflg
common /xercom/ xerflg
save
if (.not.(memi(cp+3) .eq. 0)) goto 110
call xerpsh
call xcallc(memi(cp+3) , 1, 10 )
if (.not.xerpop()) goto 120
goto 100
120 continue
110 continue
memi(memi(cp+3) ) = wp
100 return
end
subroutine unkcae (cp, objid, regid, ref)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer objid
integer regid
integer*2 ref(*)
save
memi(cp) = objid
memi(cp+1) = regid
memi(cp+4) = memi(cp+4) + 1
call xstrcy(ref, memc((((cp+6)-1)*2+1)) , 128)
100 return
end
subroutine unkune (cp, id)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer id
integer*2 st0001(1)
save
data st0001 / 0/
memi(cp) = 0
memi(cp+4) = 0
call xstrcy(st0001, memc((((cp+6)-1)*2+1)) , 255 )
call xmfree(memi(cp+3) , 10 )
memi(cp+3) = 0
100 return
end
subroutine unkwcn (cp, id, x, y)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer id
real x
real y
integer wp
integer i
integer*2 buf(1023 +1)
integer*2 msg(1023 +1)
integer*2 st0001(37)
integer*2 st0002(27)
integer*2 st0003(37)
integer*2 st0004(5)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) /119, 99,115,116,114, 97,110, 32/
data (st0001(iyy),iyy= 9,16) /123, 32,111, 98,106,101, 99,116/
data (st0001(iyy),iyy=17,24) / 32, 37,100, 32,125, 32,123, 32/
data (st0001(iyy),iyy=25,32) /114,101,103,105,111,110, 32, 37/
data (st0001(iyy),iyy=33,37) /100, 32,125, 32, 0/
data (st0002(iyy),iyy= 1, 8) /123, 32,112,105,120,118, 97,108/
data (st0002(iyy),iyy= 9,16) / 32, 48, 46, 48, 32,125, 32,123/
data (st0002(iyy),iyy=17,24) / 32, 98,112,109, 32, 48, 32,125/
data (st0002(iyy),iyy=25,27) / 32, 10, 0/
data (st0003(iyy),iyy= 1, 8) /123, 99,111,111,114,100, 32,123/
data (st0003(iyy),iyy= 9,16) / 37, 57,115,125, 32,123, 37, 49/
data (st0003(iyy),iyy=17,24) / 50,103,125, 32,123, 37, 49, 50/
data (st0003(iyy),iyy=25,32) /103,125, 32,123, 88,125, 32,123/
data (st0003(iyy),iyy=33,37) / 89,125,125, 10, 0/
data st0004 / 85, 78, 75, 78, 0/
wp = memi(memi(cp+3) )
call aclrc (msg, 1023 )
call sprinf (msg, 1023 , st0001)
call pargi (memi(cp) )
call pargi (memi(cp+1) )
call xstrct(st0002, msg, 1023 )
i=1
110 if (.not.(i .le. 4 )) goto 112
call sprinf (buf, 1023 , st0003)
call pargsr (st0004)
call pargr (x)
call pargr (y)
call xstrct(buf, msg, 1023 )
111 i=i+1
goto 110
112 continue
call wcspie (msg)
100 return
end
subroutine unkwct (cp, id)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer id
save
100 return
end
subroutine unkgea (cp, id, x, y, pixval)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer id
real x
real y
real pixval
integer wp
integer pix
integer size
integer x1
integer x2
integer y1
integer y2
save
wp = memi(memi(cp+3) )
size = memi(wp+1)
x1 = x - size / 2 + 0.5
x2 = x + size / 2 + 0.5
y1 = y - size / 2 + 0.5
y2 = y + size / 2 + 0.5
pixval = 0.0
if (.not.(size .gt. 1)) goto 110
call xcallc(pix, size * size, 6)
call imgseb (memr(pix), size, x1, x2, y1, y2)
call xmfree(pix, 6)
110 continue
100 return
end
subroutine unkobo (cp, id, temple)
logical Memb(1)
integer*2 Memc(1)
integer*2 Mems(1)
integer Memi(1)
integer*4 Meml(1)
real Memr(1)
double precision Memd(1)
complex Memx(1)
equivalence (Memb, Memc, Mems, Memi, Meml, Memr, Memd, Memx)
common /Mem/ Memd
integer cp
integer id
integer*2 temple(*)
integer sp
integer buf
integer*2 st0001(25)
save
integer iyy
data (st0001(iyy),iyy= 1, 8) / 99,111,109,112, 97,115,115, 32/
data (st0001(iyy),iyy= 9,16) / 37,100, 32, 48, 46, 48, 32, 45/
data (st0001(iyy),iyy=17,24) / 49, 32, 49, 32, 88, 32, 89, 0/
data (st0001(iyy),iyy=25,25) / 0/
call smark (sp)
call salloc (buf, 1023 , 2)
call aclrc (memc(buf), 1023 )
call sprinf (memc(buf), 1023 , st0001)
call pargi (memi(cp) )
call wcspie (memc(buf))
call sfree (sp)
100 return
end
c sprinf sprintf
c temple template
c wcspie wcspix_message
c unkwct unk_wcslist
c unkint unk_init
c unkobo unk_objinfo
c unkcae unk_cache
c imgseb img_send_pixtab
c unkune unk_uncache
c unkwcn unk_wcstran
c pargsr pargstr
c unkgea unk_getdata
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