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open! Import
let insert_delimiter_every input ~delimiter ~chars_per_delimiter =
let input_length = String.length input in
if input_length <= chars_per_delimiter
then input
else (
let has_sign =
match input.[0] with
| '+' | '-' -> true
| _ -> false
in
let num_digits = if has_sign then input_length - 1 else input_length in
let num_delimiters = (num_digits - 1) / chars_per_delimiter in
let output_length = input_length + num_delimiters in
let output = Bytes.create output_length in
let input_pos = ref (input_length - 1) in
let output_pos = ref (output_length - 1) in
let num_chars_until_delimiter = ref chars_per_delimiter in
let first_digit_pos = if has_sign then 1 else 0 in
while !input_pos >= first_digit_pos do
if !num_chars_until_delimiter = 0
then (
Bytes.set output !output_pos delimiter;
decr output_pos;
num_chars_until_delimiter := chars_per_delimiter);
Bytes.set output !output_pos input.[!input_pos];
decr input_pos;
decr output_pos;
decr num_chars_until_delimiter
done;
if has_sign then Bytes.set output 0 input.[0];
Bytes.unsafe_to_string ~no_mutation_while_string_reachable:output)
;;
let insert_delimiter input ~delimiter =
insert_delimiter_every input ~delimiter ~chars_per_delimiter:3
;;
let insert_underscores input = insert_delimiter input ~delimiter:'_'
let sexp_of_int_style = Sexp.of_int_style
module Make (I : sig
type t
val to_string : t -> string
end) =
struct
open I
let chars_per_delimiter = 3
let to_string_hum ?(delimiter = '_') t =
insert_delimiter_every (to_string t) ~delimiter ~chars_per_delimiter
;;
let sexp_of_t t =
let s = to_string t in
Sexp.Atom
(match !sexp_of_int_style with
| `Underscores -> insert_delimiter_every s ~chars_per_delimiter ~delimiter:'_'
| `No_underscores -> s)
;;
end
module Make_hex (I : sig
type t [@@deriving_inline compare ~localize, hash]
include Ppx_compare_lib.Comparable.S with type t := t
include Ppx_compare_lib.Comparable.S_local with type t := t
include Ppx_hash_lib.Hashable.S with type t := t
[@@@end]
val to_string : t -> string
val of_string : string -> t
val zero : t
val ( < ) : t -> t -> bool
val neg : t -> t
val module_name : string
end) =
struct
module T_hex = struct
type t = I.t [@@deriving_inline compare ~localize, hash]
let compare__local = (I.compare__local : t -> t -> int)
let compare = (fun a b -> compare__local a b : t -> t -> int)
let (hash_fold_t : Ppx_hash_lib.Std.Hash.state -> t -> Ppx_hash_lib.Std.Hash.state) =
I.hash_fold_t
and (hash : t -> Ppx_hash_lib.Std.Hash.hash_value) =
let func = I.hash in
fun x -> func x
;;
[@@@end]
let chars_per_delimiter = 4
let to_string' ?delimiter t =
let make_suffix =
match delimiter with
| None -> I.to_string
| Some delimiter ->
fun t -> insert_delimiter_every (I.to_string t) ~delimiter ~chars_per_delimiter
in
if I.( < ) t I.zero then "-0x" ^ make_suffix (I.neg t) else "0x" ^ make_suffix t
;;
let to_string t = to_string' t ?delimiter:None
let to_string_hum ?(delimiter = '_') t = to_string' t ~delimiter
let invalid str =
Printf.failwithf "%s.of_string: invalid input %S" I.module_name str ()
;;
let of_string_with_delimiter str =
I.of_string (String.filter str ~f:(fun c -> Char.( <> ) c '_'))
;;
let of_string str =
let module L = Hex_lexer in
let lex = Stdlib.Lexing.from_string str in
let result = Option.try_with (fun () -> L.parse_hex lex) in
if lex.lex_curr_pos = lex.lex_buffer_len
then (
match result with
| None -> invalid str
| Some (Neg body) -> I.neg (of_string_with_delimiter body)
| Some (Pos body) -> of_string_with_delimiter body)
else invalid str
;;
end
module Hex = struct
include T_hex
include Sexpable.Of_stringable (T_hex)
end
end
module Make_binary (I : sig
type t [@@deriving_inline compare ~localize, equal ~localize, hash]
include Ppx_compare_lib.Comparable.S with type t := t
include Ppx_compare_lib.Comparable.S_local with type t := t
include Ppx_compare_lib.Equal.S with type t := t
include Ppx_compare_lib.Equal.S_local with type t := t
include Ppx_hash_lib.Hashable.S with type t := t
[@@@end]
val clz : t -> int
val ( lsr ) : t -> int -> t
val ( land ) : t -> t -> t
val to_int_exn : t -> int
val num_bits : int
val zero : t
val one : t
end) =
struct
module Binary = struct
type t = I.t [@@deriving_inline compare ~localize, hash]
let compare__local = (I.compare__local : t -> t -> int)
let compare = (fun a b -> compare__local a b : t -> t -> int)
let (hash_fold_t : Ppx_hash_lib.Std.Hash.state -> t -> Ppx_hash_lib.Std.Hash.state) =
I.hash_fold_t
and (hash : t -> Ppx_hash_lib.Std.Hash.hash_value) =
let func = I.hash in
fun x -> func x
;;
[@@@end]
let bits t = if I.equal__local t I.zero then 0 else I.num_bits - I.clz t
let to_string_suffix (t : t) =
let bits = bits t in
if bits = 0
then "0"
else
String.init bits ~f:(fun char_index ->
let bit_index = bits - char_index - 1 in
let bit = I.((t lsr bit_index) land one) in
Char.unsafe_of_int (Char.to_int '0' + I.to_int_exn bit))
;;
let to_string (t : t) = "0b" ^ to_string_suffix t
let to_string_hum ?(delimiter = '_') t =
"0b" ^ insert_delimiter_every (to_string_suffix t) ~delimiter ~chars_per_delimiter:4
;;
let sexp_of_t (t : t) : Sexp.t = Atom (to_string_hum t)
end
end