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Granahir2 2024-06-06 16:05:06 +02:00
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open Naked
open Abstract_syntax_tree
module Congruence : NAKED_VALUE_DOMAIN = struct
type t = { multiple : Z.t; offset : Z.t }
let all_numbers = { multiple = Z.one; offset = Z.zero }
let const a = { multiple = Z.zero; offset = a }
let rand a b = if Z.equal a b then const a else all_numbers
let minus z = { multiple = z.multiple; offset = Z.neg z.offset }
let is_only_zero z = Z.equal z.multiple Z.zero && Z.equal z.offset Z.zero
let has_zero z = Z.divisible z.offset z.multiple
let subset z1 z2 =
Z.equal z2.multiple Z.zero && Z.equal z1.multiple Z.zero
&& Z.equal z1.offset z2.offset
|| (not (Z.equal z2.multiple Z.zero))
&& (Z.equal z1.multiple Z.zero || Z.divisible z2.multiple z1.multiple)
&& Z.equal (Z.rem z1.offset z2.multiple) (Z.rem z2.offset z2.multiple)
let join z1 z2 =
{
multiple =
Z.gcd
(Z.gcd z1.multiple z2.multiple)
(Z.abs (Z.sub z1.offset z2.offset));
offset = z1.offset;
}
let meet z1 z2 =
if Z.equal z1.multiple Z.zero then if subset z1 z2 then z1 else raise Absurd
else if Z.equal z2.multiple Z.zero then
if subset z2 z1 then z2 else raise Absurd
else
let lcm = Z.lcm z1.multiple z2.multiple in
let gcd = Z.gcd z1.multiple z2.multiple in
if Z.equal (Z.rem z1.offset gcd) (Z.rem z2.offset gcd) then
{ multiple = lcm; offset = Z.rem z1.offset gcd }
else raise Absurd
let multiples_of z =
if is_only_zero z then z
else if
(not (Z.equal z.multiple Z.zero))
&& Z.equal (Z.rem z.offset z.multiple) Z.zero
then z
else all_numbers
let divisors_of z = z
let remainders z = z
let convex_sym z = z
let binary z1 z2 = function
| AST_PLUS ->
{
multiple = Z.gcd z1.multiple z2.multiple;
offset = Z.add z1.offset z2.offset;
}
| AST_MINUS ->
{
multiple = Z.gcd z1.multiple z2.multiple;
offset = Z.sub z1.offset z2.offset;
}
| AST_MULTIPLY ->
{
multiple =
Z.gcd
(Z.gcd
(Z.mul z1.multiple z2.multiple)
(Z.mul z1.multiple z2.offset))
(Z.mul z1.offset z2.multiple);
offset = Z.mul z1.offset z2.offset;
}
| AST_DIVIDE ->
if is_only_zero z2 then raise Absurd
else if
Z.equal z2.multiple Z.zero
&& Z.divisible z1.offset z2.offset
&& Z.divisible z1.multiple z2.offset
then
{
multiple = Z.div z1.multiple (Z.abs z2.offset);
offset = Z.div z1.offset z2.offset;
}
else all_numbers
| AST_MODULO -> all_numbers
let compatible z = function AST_EQUAL -> z | _ -> raise NeedTop
let rec compare z1 z2 = function
| AST_EQUAL ->
let r = meet z1 z2 in
(r, r)
| AST_NOT_EQUAL ->
if
Z.equal z1.multiple Z.zero && Z.equal z2.multiple Z.zero
&& Z.equal z1.offset z2.offset
then raise Absurd
else (z1, z2)
| AST_LESS ->
if
Z.equal z1.multiple Z.zero && Z.equal z2.multiple Z.zero
&& Z.geq z1.offset z2.offset
then raise Absurd
else (z1, z2)
| AST_LESS_EQUAL ->
if
Z.equal z1.multiple Z.zero && Z.equal z2.multiple Z.zero
&& Z.gt z1.offset z2.offset
then raise Absurd
else (z1, z2)
| AST_GREATER ->
let r1, r2 = compare z2 z1 AST_LESS in
(r2, r1)
| AST_GREATER_EQUAL ->
let r1, r2 = compare z2 z1 AST_LESS_EQUAL in
(r2, r1)
let bwd_binary z1 z2 op r =
match op with
| AST_PLUS ->
(meet z1 (binary r z2 AST_MINUS), meet z2 (binary r z1 AST_MINUS))
| AST_MINUS ->
(meet z1 (binary r z2 AST_PLUS), meet z2 (binary z1 r AST_MINUS))
| AST_MULTIPLY ->
if is_only_zero z1 || is_only_zero z2 then
if has_zero r then (z1, z2) else raise Absurd
else
let z2' = meet z2 (binary r z1 AST_DIVIDE) in
let z1' = meet z1 (binary r z2 AST_DIVIDE) in
if has_zero r then
( (if has_zero z1' then join z1' (const Z.zero) else z1'),
if has_zero z2' then join z2' (const Z.zero) else z2' )
else (z1', z2')
| AST_DIVIDE ->
(meet z1 (binary r z2 AST_MULTIPLY), meet z2 (binary z1 r AST_DIVIDE))
| AST_MODULO -> (z1, z2)
let widen = join
let narrow = meet
let print fmt z =
Z.pp_print fmt z.multiple;
Format.pp_print_string fmt "Z + ";
Z.pp_print fmt z.offset
end