Source file stdcompat__int32.ml

include Int32

(*
let min i j =
  if compare i j >= 0 then j
  else i

let max i j =
  if compare i j >= 0 then i
  else j
*)

(*
let unsigned_compare i j =
  compare (sub i min_int) (sub j min_int)

let unsigned_to_int =
  let max_int = of_int Stdcompat__pervasives.max_int in
  fun i ->
    if compare zero i <= 0 && compare i max_int <= 0 then
      Some (to_int i)
    else
      None

(* Unsigned division from signed division of the same
   bitness. See Warren Jr., Henry S. (2013). Hacker's Delight (2 ed.), Sec 9-3.
*)
let unsigned_div n d =
  if d < zero then
    if unsigned_compare n d < 0 then zero else one
  else
    let q = shift_left (div (shift_right_logical n 1) d) 1 in
    let r = sub n (mul q d) in
    if unsigned_compare r d >= 0 then succ q else q

let unsigned_rem n d =
  sub n (mul (unsigned_div n d) d)
*)

(*
let equal : t -> t -> bool = ( = )
*)

(*
let of_string_opt s =
  Stdcompat__tools.option_fail of_string s
*)

(*
let float_of_bits bits =
  let sign = not (equal (shift_right_logical bits 31) zero) in
  let exponent32 =
    to_int (shift_right_logical bits 23) land (1 lsl 8 - 1) in
  let int32_2power23minus1 = sub (shift_left one 23) one in
  let mantissa32 = logand bits int32_2power23minus1 in
  let mantissa64 = Int64.shift_left (Int64.of_int32 mantissa32) 29 in
  let exponent64 = exponent32 + 1023 - 127 in
  let unsigned =
    Int64.logor (Int64.shift_left (Int64.of_int exponent64) 52) mantissa64 in
  let signed =
    if sign then
      Int64.logor (Int64.shift_left Int64.one 63) unsigned
    else
      unsigned in
  Int64.float_of_bits signed

let bits_of_float f =
  let bits = Int64.bits_of_float f in
  let sign =
    not
      (Stdcompat__int64.equal (Int64.shift_right_logical bits 63) Int64.zero) in
  let exponent64 =
    Int64.to_int (Int64.shift_right_logical bits 52) land (1 lsl 10 - 1) in
  let int64_2power52minus1 =
    Int64.sub (Int64.shift_left Int64.one 52) Int64.one in
  let mantissa64 = Int64.logand bits int64_2power52minus1 in
  let mantissa32_truncated =
    Int64.to_int32 (Int64.shift_right_logical mantissa64 29) in
  let mantissa32 =
    if Stdcompat__int64.equal
        (Int64.logand (Int64.shift_right_logical bits 28) Int64.one)
        Int64.zero then
      mantissa32_truncated
    else
      add mantissa32_truncated one in
  let exponent32 = exponent64 + 127 - 1023 in
  let unsigned = logor (shift_left (of_int exponent32) 23) mantissa32 in
  if sign then
    logor (shift_left one 31) unsigned
  else
    unsigned
*)


let hash = Hashtbl.hash

let seeded_hash = Stdcompat__hashtbl.seeded_hash