/usr/lib/ats-anairiats-0.2.11/libats/DATS/intinf.dats is in ats-lang-anairiats 0.2.11-1build1.
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(* *)
(* Applied Type System *)
(* *)
(* Hongwei Xi *)
(* *)
(***********************************************************************)
(*
** ATS - Unleashing the Potential of Types!
** Copyright (C) 2002-2008 Hongwei Xi, Boston University
** All rights reserved
**
** ATS is free software; you can redistribute it and/or modify it under
** the terms of the GNU General Public License as published by the Free
** Software Foundation; either version 2.1, or (at your option) any later
** version.
**
** ATS is distributed in the hope that it will be useful, but WITHOUT ANY
** WARRANTY; without even the implied warranty of MERCHANTABILITY or
** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
** for more details.
**
** You should have received a copy of the GNU General Public License
** along with ATS; see the file COPYING. If not, write to the Free
** Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
** 02110-1301, USA.
*)
(* ****** ****** *)
(* author: Hongwei Xi (hwxi AT cs DOT bu DOT edu) *)
(* ****** ****** *)
// infinite precision integers based on the gmp package
(* ****** ****** *)
%{^
#include "libc/CATS/gmp.cats"
%} // end of [%{^]
(* ****** ****** *)
staload "libc/SATS/gmp.sats"
staload "libats/SATS/intinf.sats"
(* ****** ****** *)
assume intinf (i: int) = // HX: [i] is a fake
[l:addr] (free_gc_v (mpz_vt?, l), mpz_vt @ l | ptr l)
// end of [intinf]
(* ****** ****** *)
implement
intinf_make_int {i} (i) = let
val (pf_gc, pf_at | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init_set_int (!p, i)
in
@(pf_gc, pf_at | p)
end // end of [intinf_make_int]
implement
intinf_make_lint (i) = let
val @(pf_gc, pf_at | p) =
ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val i = lint_of_lint1 (i) where {
extern castfn lint_of_lint1 {i:int} (x: lint i):<> lint
} // end of [val]
val () = mpz_init_set_lint (!p, i)
in
@(pf_gc, pf_at | p)
end // end of [intinf_make_lint]
implement
intinf_make_llint (i) = let
val @(pf_gc, pf_at | p) =
ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val i = llint_of_llint1 (i) where {
extern castfn llint_of_llint1 {i:int} (x: llint i):<> llint
} // end of [val]
val i = double_of_llint (i)
val () = mpz_init_set_double (!p, i)
in
@(pf_gc, pf_at | p)
end // end of [intinf_make_llint]
implement
intinf_make_double (d) = let
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init_set_double (!p, d)
in
#[0 | (pfgc, pfat | p)] // HX: [0] is just a place holder
end // end of [intinf_make_double]
implement
intinf_make_string (rep) = let
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init_set_str_exn (!p, rep, 10(*base*))
in
#[0 | (pfgc, pfat | p)] // HX: [0] is just a place holder
end // end of [intinf_make_double]
(* ****** ****** *)
implement
intinf_free @(pf_gc, pf_at | p) =
(mpz_clear (!p); ptr_free {mpz_vt?} (pf_gc, pf_at | p))
// end of [intinfptr_free]
(* ****** ****** *)
implement
fprint0_intinf
(out, intinf) = fprint0_intinf_base (out, 10, intinf)
// end of [fprint0_intinf]
implement
fprint1_intinf
(pf | fil, intinf) = fprint1_intinf_base (pf | fil, 10, intinf)
// end of [fprint1_intinf]
implement print_intinf (intinf) = print_mac (fprint1_intinf, intinf)
(* ****** ****** *)
implement
fprint0_intinf_base
(out, base, intinf) = let
val [l:addr]
(pffil | p) = __cast (out) where {
extern castfn __cast
(out: FILEref): [l:addr] (FILE(w) @ l | ptr l)
// end of [extern]
} // end of [val]
val () = fprint1_intinf_base (file_mode_lte_w_w | !p, base, intinf)
prval () = __free (pffil) where {
extern praxi __free (pf: FILE(w) @ l): void
} // end of [prval]
in
(*nothing*)
end // end of [fprint0_intinf_base]
implement
fprint1_intinf_base
(pf | fil, base, intinf) = () where {
prval pfat = intinf.1
val n = mpz_out_str (pf | fil, base, !(intinf.2))
prval () = intinf.1 := pfat
val () = assert_errmsg (n > 0, "exit(ATS): [fprint_intinf_base] failed.\n")
} // end of [fprint1_intinf_base]
implement
print_intinf_base (base, intinf) = let
val (pf_stdout | p_stdout) = stdout_get ()
val () = fprint1_intinf_base
(file_mode_lte_w_w | !p_stdout, base, intinf)
val () = stdout_view_set (pf_stdout | (*none*))
in
// empty
end // end of [print_intinf_base]
(* ****** ****** *)
implement
pred_intinf (intinf) = let
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_sub (!p, !(intinf.2), 1)
prval () = intinf.1 := pf
in
@(pfgc, pfat | p)
end // end of [pred_intinf]
implement
succ_intinf (intinf) = let
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_add (!p, !(intinf.2), 1)
prval () = intinf.1 := pf
in
@(pfgc, pfat | p)
end // end of [succ_intinf]
(* ****** ****** *)
implement
add_intinf_int (intinf, i) = let
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_add (!p, !(intinf.2), i)
prval () = intinf.1 := pf
in
@(pfgc, pfat | p)
end // end of [add_intinf_int]
implement
add_intinf_intinf (intinf1, intinf2) = let
prval pf1 = intinf1.1
prval pf2 = intinf2.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_add (!p, !(intinf1.2), !(intinf2.2))
prval () = intinf1.1 := pf1
prval () = intinf2.1 := pf2
in
@(pfgc, pfat | p)
end // end of [add_intinf_intinf]
(* ****** ****** *)
implement
sub_intinf_int (intinf, i) = let
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_sub (!p, !(intinf.2), i)
prval () = intinf.1 := pf
in
@(pfgc, pfat | p)
end // end of [sub_intinf_int]
implement
sub_intinf_intinf (intinf1, intinf2) = let
prval pf1 = intinf1.1
prval pf2 = intinf2.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_sub (!p, !(intinf1.2), !(intinf2.2))
prval () = intinf1.1 := pf1
prval () = intinf2.1 := pf2
in
@(pfgc, pfat | p)
end // end of [sub_intinf_intinf]
(* ****** ****** *)
implement
mul_int_intinf {m,n} (int, intinf) = let
prval pfmul = mul_make {m,n} ()
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_mul (!p, !(intinf.2), int)
prval () = intinf.1 := pf
in
@(pfmul | @(pfgc, pfat | p))
end // end of [mul_int_intinf]
implement
mul_intinf_int {m,n} (intinf, int) = let
prval pfmul = mul_make {m,n} ()
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_mul (!p, !(intinf.2), int)
prval () = intinf.1 := pf
in
@(pfmul | @(pfgc, pfat | p))
end // end of [mul_intinf_int]
implement
mul_intinf_intinf {m,n} (intinf1, intinf2) = let
prval pfmul = mul_make {m,n} ()
prval pf1 = intinf1.1
prval pf2 = intinf2.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p); val () = mpz_mul (!p, !(intinf1.2), !(intinf2.2))
prval () = intinf1.1 := pf1
prval () = intinf2.1 := pf2
in
@(pfmul | @(pfgc, pfat | p))
end // end of [mul_intinf_intinf]
(* ****** ****** *)
implement
square_intinf {n} (intinf) = let
prval pf = intinf.1
prval pfmul = mul_make {n,n} ()
val @(pfgc, pfat | p) =
ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init_set (!p, !(intinf.2)); val () = mpz_mul (!p, !(intinf.2))
prval () = intinf.1 := pf
in
@(pfmul | @(pfgc, pfat | p))
end // end of [square_intinf]
(* ****** ****** *)
implement
fdiv_intinf_int {m,n} (intinf, i) = let
prval [q,r:int] pfmul = lemma () where {
extern prfun lemma () : [q,r:int | 0 <= r; r < n] MUL (q, n, m-r)
} // end of [prval]
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p)
val ui = ulint_of_int i; val _(*remainder*) = mpz_fdiv_q (!p, !(intinf.2), ui)
prval () = intinf.1 := pf
in
#[q,r | @(pfmul | @(pfgc, pfat | p))]
end // end of [fdiv_intinf_int]
implement
fmod_intinf_int {m,n} (intinf, i) = let
prval [q,r:int] pfmul =
div_lemma {m,n} () where {
extern praxi div_lemma {m,n:int | n > 0} ()
: [q,r:int | 0 <= r; r < n] MUL (q, n, m-r)
} // end of [prval]
prval pf = intinf.1
val @(pfgc, pfat | p) = ptr_alloc_tsz {mpz_vt} (sizeof<mpz_vt>)
val () = mpz_init (!p)
val ui = ulint_of_int i; val _(*remainder*) = mpz_mod (!p, !(intinf.2), ui)
prval () = intinf.1 := pf
val r = mpz_get_int (!p)
val [r1:int] r = int1_of_int r
prval () = __assert () where { extern prfun __assert (): [r==r1] void }
val () = intinf_free @(pfgc, pfat | p)
in
#[q,r | @(pfmul | r)]
end // end of [fmod_intinf_int]
(* ****** ****** *)
(* end of [intinf.dats] *)
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