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QCaml/Utils/Zkey.ml

212 lines
6.1 KiB
OCaml

open Powers
type t =
{
mutable left : int;
mutable right : int;
kind : int ;
}
(** Creates a Zkey. *)
let make ~kind right =
{ left = 0 ; right ; kind }
(** Move [right] to [left] and set [right = x] *)
let (<|) z x =
z.left <- z.right;
z.right <- x;
z
(** Shift left [right] by 10 bits, and add [x]. *)
let (<<) z x =
z.right <- (z.right lsl 10) lor x ;
z
(** Shift left [right] by 10 bits, and add [x]. *)
let (<+) z x =
z.right <- (z.right lsl 15) lor x ;
z
type kind =
| Three of Powers.t
| Six of (Powers.t * Powers.t)
| Nine of (Powers.t * Powers.t * Powers.t)
| Twelve of (Powers.t * Powers.t * Powers.t * Powers.t)
let of_powers_three { x=a ; y=b ; z=c ; _ } =
assert (
let alpha = a lor b lor c in
alpha >= 0 && alpha < (1 lsl 15)
);
make 3 a <+ b <+ c
let of_powers_six { x=a ; y=b ; z=c ; _ } { x=d ; y=e ; z=f ; _ } =
assert (
let alpha = a lor b lor c lor d lor e lor f in
alpha >= 0 && alpha < (1 lsl 10)
);
make 6 a << b << c << d << e << f
let of_powers_nine { x=a ; y=b ; z=c ; _ } { x=d ; y=e ; z=f ; _ }
{ x=g ; y=h ; z=i ; _ } =
assert (
let alpha = a lor b lor c lor d lor e lor f lor g lor h lor i in
alpha >= 0 && alpha < (1 lsl 10)
);
make 9 a << b << c << d << e << f
<| g << h << i
let of_powers_twelve { x=a ; y=b ; z=c ; _ } { x=d ; y=e ; z=f ; _ }
{ x=g ; y=h ; z=i ; _ } { x=j ; y=k ; z=l ; _ } =
assert (
let alpha = a lor b lor c lor d lor e lor f
lor g lor h lor i lor j lor k lor l
in
alpha >= 0 && alpha < (1 lsl 10)
);
make 12 a << b << c << d << e << f
<| g << h << i << j << k << l
let of_powers a =
match a with
| Three a -> of_powers_three a
| Six (a,b) -> of_powers_six a b
| Twelve (a,b,c,d) -> of_powers_twelve a b c d
| Nine (a,b,c) -> of_powers_nine a b c
let mask10 = 0x3ff
and mask15 = 0x7fff
(** Transform the Zkey into an int array *)
let to_int_array { left ; right ; kind } =
match kind with
| 3 -> [|
mask15 land (right lsr 30) ;
mask15 land (right lsr 15) ;
mask15 land right
|]
| 6 -> [|
mask10 land (right lsr 50) ;
mask10 land (right lsr 40) ;
mask10 land (right lsr 30) ;
mask10 land (right lsr 20) ;
mask10 land (right lsr 10) ;
mask10 land right
|]
| 12 -> [|
mask10 land (left lsr 50) ;
mask10 land (left lsr 40) ;
mask10 land (left lsr 30) ;
mask10 land (left lsr 20) ;
mask10 land (left lsr 10) ;
mask10 land left ;
mask10 land (right lsr 50) ;
mask10 land (right lsr 40) ;
mask10 land (right lsr 30) ;
mask10 land (right lsr 20) ;
mask10 land (right lsr 10) ;
mask10 land right
|]
| 9 -> [|
mask10 land (left lsr 20) ;
mask10 land (left lsr 10) ;
mask10 land left ;
mask10 land (right lsr 50) ;
mask10 land (right lsr 40) ;
mask10 land (right lsr 30) ;
mask10 land (right lsr 20) ;
mask10 land (right lsr 10) ;
mask10 land right
|]
| _ -> invalid_arg (__FILE__^": to_int_array")
(** Transform the Zkey into an int tuple *)
let to_powers { left ; right ; kind } =
match kind with
| 3 -> Three (Powers.of_int_tuple (
mask15 land (right lsr 30) ,
mask15 land (right lsr 15) ,
mask15 land right
))
| 6 -> Six (Powers.of_int_tuple
( mask10 land (right lsr 50) ,
mask10 land (right lsr 40) ,
mask10 land (right lsr 30)),
Powers.of_int_tuple
( mask10 land (right lsr 20) ,
mask10 land (right lsr 10) ,
mask10 land right )
)
| 12 -> Twelve (Powers.of_int_tuple
( mask10 land (left lsr 50) ,
mask10 land (left lsr 40) ,
mask10 land (left lsr 30)),
Powers.of_int_tuple
( mask10 land (left lsr 20) ,
mask10 land (left lsr 10) ,
mask10 land left ) ,
Powers.of_int_tuple
( mask10 land (right lsr 50) ,
mask10 land (right lsr 40) ,
mask10 land (right lsr 30)),
Powers.of_int_tuple
( mask10 land (right lsr 20) ,
mask10 land (right lsr 10) ,
mask10 land right )
)
| 9 -> Nine (Powers.of_int_tuple
( mask10 land (left lsr 20) ,
mask10 land (left lsr 10) ,
mask10 land left ) ,
Powers.of_int_tuple
( mask10 land (right lsr 50) ,
mask10 land (right lsr 40) ,
mask10 land (right lsr 30)),
Powers.of_int_tuple
( mask10 land (right lsr 20) ,
mask10 land (right lsr 10) ,
mask10 land right )
)
| _ -> invalid_arg (__FILE__^": to_powers")
let hash = Hashtbl.hash
let equal
{ right = r1 ; left = l1 ; kind = k1 }
{ right = r2 ; left = l2 ; kind = k2 } =
r1 = r2 && l1 = l2 && k1 = k2
let compare
{ right = r1 ; left = l1 ; kind = k1 }
{ right = r2 ; left = l2 ; kind = k2 } =
if k1 <> k2 then invalid_arg (__FILE__^": cmp");
if r1 < r2 then -1
else if r1 > r2 then 1
else if l1 < l2 then -1
else if l1 > l2 then 1
else 0
let to_string { left ; right ; kind } =
"< " ^ string_of_int left ^ string_of_int right ^ " | " ^ (
to_int_array { left ; right ; kind }
|> Array.map string_of_int
|> Array.to_list
|> String.concat ", "
) ^ " >"