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QCaml/Utils/Bitstring.ml

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module One = struct
type t = int
let of_int x =
assert (x > 0); x
let numbits _ = 63
let zero = 0
let is_zero x = x = 0
let shift_left x i = x lsl i
let shift_right x i = x lsr i
let shift_left_one i = 1 lsl i
let testbit x i = ( (x lsr i) land 1 ) = 1
let logor a b = a lor b
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let neg a = - a
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let logxor a b = a lxor b
let logand a b = a land b
let lognot a = lnot a
let minus_one a = a - 1
let plus_one a = a + 1
let popcount = function
| 0 -> 0
| r -> Util.popcnt (Int64.of_int r)
let trailing_zeros r =
Util.trailz (Int64.of_int r)
let hamdist a b =
a lxor b
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|> popcount
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let pp ppf s =
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Format.fprintf ppf "@[@[%a@]@]" (Util.pp_bitstring 64)
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(Z.of_int s)
end
module Many = struct
type t = Z.t
let of_int = Z.of_int
let of_z x = x
let zero = Z.zero
let is_zero x = x = Z.zero
let shift_left = Z.shift_left
let shift_right = Z.shift_right
let shift_left_one i = Z.shift_left Z.one i
let testbit = Z.testbit
let logor = Z.logor
let logxor = Z.logxor
let logand = Z.logand
let lognot = Z.lognot
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let neg = Z.neg
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let minus_one = Z.pred
let plus_one = Z.succ
let trailing_zeros = Z.trailing_zeros
let hamdist = Z.hamdist
let numbits i = max (Z.numbits i) 64
let popcount z =
if z = Z.zero then 0 else Z.popcount z
let pp ppf s =
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Format.fprintf ppf "@[@[%a@]@]" (Util.pp_bitstring (Z.numbits s)) s
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end
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type t =
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| One of int
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| Many of Z.t
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let of_int x =
One (One.of_int x)
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let of_z x =
if Z.numbits x < 64 then One (Z.to_int x) else Many (Many.of_z x)
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let zero = function
| n when n < 64 -> One (One.zero)
| _ -> Many (Many.zero)
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let numbits = function
| One x -> One.numbits x
| Many x -> Many.numbits x
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let is_zero = function
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| One x -> One.is_zero x
| Many x -> Many.is_zero x
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let neg = function
| One x -> One (One.neg x)
| Many x -> Many (Many.neg x)
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let shift_left x i = match x with
| One x -> One (One.shift_left x i)
| Many x -> Many (Many.shift_left x i)
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let shift_right x i = match x with
| One x -> One (One.shift_right x i)
| Many x -> Many (Many.shift_right x i)
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let shift_left_one = function
| n when n < 64 -> fun i -> One (One.shift_left_one i)
| _ -> fun i -> Many (Many.shift_left_one i)
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let testbit = function
| One x -> One.testbit x
| Many x -> Many.testbit x
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let logor a b =
match a,b with
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| One a, One b -> One (One.logor a b)
| Many a, Many b -> Many (Many.logor a b)
| _ -> invalid_arg "Bitstring.logor"
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let logxor a b =
match a,b with
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| One a, One b -> One (One.logxor a b)
| Many a, Many b -> Many (Many.logxor a b)
| _ -> invalid_arg "Bitstring.logxor"
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let logand a b =
match a,b with
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| One a, One b -> One (One.logand a b)
| Many a, Many b -> Many (Many.logand a b)
| _ -> invalid_arg "Bitstring.logand"
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let lognot = function
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| One x -> One (One.lognot x)
| Many x -> Many (Many.lognot x)
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let minus_one = function
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| One x -> One (One.minus_one x)
| Many x -> Many (Many.minus_one x)
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let plus_one = function
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| One x -> One (One.plus_one x)
| Many x -> Many (Many.plus_one x)
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let trailing_zeros = function
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| One x -> One.trailing_zeros x
| Many x -> Many.trailing_zeros x
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let hamdist a b = match a, b with
| One a, One b -> One.hamdist a b
| Many a, Many b -> Many.hamdist a b
| _ -> invalid_arg "Bitstring.hamdist"
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let popcount = function
| One x -> One.popcount x
| Many x -> Many.popcount x
let pp ppf = function
| One x -> One.pp ppf x
| Many x -> Many.pp ppf x
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let rec to_list ?(accu=[]) = function
| t when (is_zero t) -> List.rev accu
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| t -> let newlist =
(trailing_zeros t + 1)::accu
in
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logand t @@ minus_one t
|> (to_list [@tailcall]) ~accu:newlist
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(** [permtutations m n] generates the list of all possible [n]-bit
strings with [m] bits set to 1.
Algorithm adapted from
{{:https://graphics.stanford.edu/~seander/bithacks.html#NextBitPermutation}
Bit twiddling hacks}.
Example:
{[
bit_permtutations 2 4 = [ 0011 ; 0101 ; 0110 ; 1001 ; 1010 ; 1100 ]
]}
*)
let permtutations m n =
let rec aux k u rest =
if k=1 then
List.rev (u :: rest)
else
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let t = logor u @@ minus_one u in
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let t' = plus_one t in
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let not_t = lognot t in
let neg_not_t = neg not_t in
let t'' = shift_right (minus_one @@ logand not_t neg_not_t) (trailing_zeros u + 1) in
(*
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let t'' = shift_right (minus_one (logand (lognot t) t')) (trailing_zeros u + 1) in
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*)
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(aux [@tailcall]) (k-1) (logor t' t'') (u :: rest)
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in
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aux (Util.binom n m) (minus_one (shift_left_one n m)) []
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(*-----------------------------------------------------------------------------------*)
let test_case () =
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let test_one_many () =
let x = 8745687 in
let z = Z.of_int 8745687 in
let one_x = One x in
let many_x = Many z in
Alcotest.(check bool) "of_x" true (one_x = (of_int x));
Alcotest.(check bool) "of_z" true (one_x = (of_z z));
Alcotest.(check bool) "shift_left1" true (One (x lsl 3) = shift_left one_x 3);
Alcotest.(check bool) "shift_left2" true (Many (Z.shift_left z 3) = shift_left many_x 3);
Alcotest.(check bool) "shift_left3" true (Many (Z.shift_left z 100) = shift_left many_x 100);
Alcotest.(check bool) "shift_right1" true (One (x lsr 3) = shift_right one_x 3);
Alcotest.(check bool) "shift_right2" true (Many (Z.shift_right z 3) = shift_right many_x 3);
Alcotest.(check bool) "shift_left_one1" true (One (1 lsl 3) = shift_left_one 4 3);
Alcotest.(check bool) "shift_left_one2" true (Many (Z.shift_left Z.one 200) = shift_left_one 300 200);
Alcotest.(check bool) "testbit1" true (testbit (One 8) 3);
Alcotest.(check bool) "testbit2" false (testbit (One 8) 2);
Alcotest.(check bool) "testbit3" false (testbit (One 8) 4);
Alcotest.(check bool) "testbit4" true (testbit (Many (Z.of_int 8)) 3);
Alcotest.(check bool) "testbit5" false (testbit (Many (Z.of_int 8)) 2);
Alcotest.(check bool) "testbit6" false (testbit (Many (Z.of_int 8)) 4);
Alcotest.(check bool) "logor1" true (One (1 lor 2) = logor (One 1) (One 2));
Alcotest.(check bool) "logor2" true (Many (Z.of_int (1 lor 2)) = logor (Many Z.one) (Many (Z.of_int 2)));
Alcotest.(check bool) "logxor1" true (One (1 lxor 2) = logxor (One 1) (One 2));
Alcotest.(check bool) "logxor2" true (Many (Z.of_int (1 lxor 2)) = logxor (Many Z.one) (Many (Z.of_int 2)));
Alcotest.(check bool) "logand1" true (One (1 land 2) = logand (One 1) (One 2));
Alcotest.(check bool) "logand2" true (Many (Z.of_int (1 land 2)) = logand (Many Z.one) (Many (Z.of_int 2)));
Alcotest.(check bool) "to_list" true ([ 1 ; 3 ; 4 ; 6 ] = (to_list (One 45)));
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in
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[
"One-many", `Quick, test_one_many;
]
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