--- /dev/null
+c algorithm 611, collected algorithms from acm.
+c algorithm appeared in acm-trans. math. software, vol.9, no. 4,
+c dec., 1983, p. 503-524.
+ integer function imdcon(k)
+c
+ integer k
+c
+c *** return integer machine-dependent constants ***
+c
+c *** k = 1 means return standard output unit number. ***
+c *** k = 2 means return alternate output unit number. ***
+c *** k = 3 means return input unit number. ***
+c (note -- k = 2, 3 are used only by test programs.)
+c
+c +++ port version follows...
+c external i1mach
+c integer i1mach
+c integer mdperm(3)
+c data mdperm(1)/2/, mdperm(2)/4/, mdperm(3)/1/
+c imdcon = i1mach(mdperm(k))
+c +++ end of port version +++
+c
+c +++ non-port version follows...
+ integer mdcon(3)
+ data mdcon(1)/6/, mdcon(2)/8/, mdcon(3)/5/
+ imdcon = mdcon(k)
+c +++ end of non-port version +++
+c
+ 999 return
+c *** last card of imdcon follows ***
+ end
+ double precision function rmdcon(k)
+c
+c *** return machine dependent constants used by nl2sol ***
+c
+c +++ comments below contain data statements for various machines. +++
+c +++ to convert to another machine, place a c in column 1 of the +++
+c +++ data statement line(s) that correspond to the current machine +++
+c +++ and remove the c from column 1 of the data statement line(s) +++
+c +++ that correspond to the new machine. +++
+c
+ integer k
+c
+c *** the constant returned depends on k...
+c
+c *** k = 1... smallest pos. eta such that -eta exists.
+c *** k = 2... square root of eta.
+c *** k = 3... unit roundoff = smallest pos. no. machep such
+c *** that 1 + machep .gt. 1 .and. 1 - machep .lt. 1.
+c *** k = 4... square root of machep.
+c *** k = 5... square root of big (see k = 6).
+c *** k = 6... largest machine no. big such that -big exists.
+c
+ double precision big, eta, machep
+ integer bigi(4), etai(4), machei(4)
+c/+
+ double precision dsqrt
+c/
+ equivalence (big,bigi(1)), (eta,etai(1)), (machep,machei(1))
+c
+c +++ ibm 360, ibm 370, or xerox +++
+c
+c data big/z7fffffffffffffff/, eta/z0010000000000000/,
+c 1 machep/z3410000000000000/
+c
+c +++ data general +++
+c
+c data big/0.7237005577d+76/, eta/0.5397605347d-78/,
+c 1 machep/2.22044605d-16/
+c
+c +++ dec 11 +++
+c
+c data big/1.7d+38/, eta/2.938735878d-39/, machep/2.775557562d-17/
+c
+c +++ hp3000 +++
+c
+c data big/1.157920892d+77/, eta/8.636168556d-78/,
+c 1 machep/5.551115124d-17/
+c
+c +++ honeywell +++
+c
+c data big/1.69d+38/, eta/5.9d-39/, machep/2.1680435d-19/
+c
+c +++ dec10 +++
+c
+c data big/"377777100000000000000000/,
+c 1 eta/"002400400000000000000000/,
+c 2 machep/"104400000000000000000000/
+c
+c +++ burroughs +++
+c
+c data big/o0777777777777777,o7777777777777777/,
+c 1 eta/o1771000000000000,o7770000000000000/,
+c 2 machep/o1451000000000000,o0000000000000000/
+c
+c +++ control data +++
+c
+c data big/37767777777777777777b,37167777777777777777b/,
+c 1 eta/00014000000000000000b,00000000000000000000b/,
+c 2 machep/15614000000000000000b,15010000000000000000b/
+c
+c +++ prime +++
+c
+c data big/1.0d+9786/, eta/1.0d-9860/, machep/1.4210855d-14/
+c
+c +++ univac +++
+c
+c data big/8.988d+307/, eta/1.2d-308/, machep/1.734723476d-18/
+c
+c +++ vax +++
+c
+ data big/1.7d+38/, eta/2.939d-39/, machep/1.3877788d-17/
+c
+c +++ cray 1 +++
+c
+c data bigi(1)/577767777777777777777b/,
+c 1 bigi(2)/000007777777777777776b/,
+c 2 etai(1)/200004000000000000000b/,
+c 3 etai(2)/000000000000000000000b/,
+c 4 machei(1)/377224000000000000000b/,
+c 5 machei(2)/000000000000000000000b/
+c
+c +++ port library -- requires more than just a data statement... +++
+c
+c external d1mach
+c double precision d1mach, zero
+c data big/0.d+0/, eta/0.d+0/, machep/0.d+0/, zero/0.d+0/
+c if (big .gt. zero) go to 1
+c big = d1mach(2)
+c eta = d1mach(1)
+c machep = d1mach(4)
+c1 continue
+c
+c +++ end of port +++
+c
+c------------------------------- body --------------------------------
+c
+ go to (10, 20, 30, 40, 50, 60), k
+c
+ 10 rmdcon = eta
+ go to 999
+c
+ 20 rmdcon = dsqrt(256.d+0*eta)/16.d+0
+ go to 999
+c
+ 30 rmdcon = machep
+ go to 999
+c
+ 40 rmdcon = dsqrt(machep)
+ go to 999
+c
+ 50 rmdcon = dsqrt(big/256.d+0)*16.d+0
+ go to 999
+c
+ 60 rmdcon = big
+c
+ 999 return
+c *** last card of rmdcon follows ***
+ end