Source file byte_units0.ml
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
open! Import
open Std_internal
module Repr = Int63
module T : sig
type t [@@deriving compare, hash, sexp_of, typerep] [@@immediate64]
val to_string : t -> string
val to_string_hum : t -> string
val of_repr : Repr.t -> t
val to_repr : t -> Repr.t
end = struct
type t = Repr.t [@@deriving compare, hash, typerep]
let of_repr = Fn.id
let to_repr = Fn.id
let to_string n =
let open Repr in
let kib = of_int 1024 in
let mib = kib * kib in
let gib = kib * mib in
let n_abs = abs n in
if n_abs < kib
then sprintf "%dB" (to_int_exn n)
else if n_abs < mib
then sprintf "%.7gK" (to_float n /. to_float kib)
else if n_abs < gib
then sprintf "%.10gM" (to_float n /. to_float mib)
else sprintf "%.13gG" (to_float n /. to_float gib)
;;
let to_string_hum n =
let open Repr in
let kib = of_int 1024 in
let mib = kib * kib in
let gib = kib * mib in
let tib = kib * gib in
let pib = kib * tib in
let n_abs = abs n in
let f ~suffix ~size n =
let f = to_float n /. to_float size in
if Float.( >= ) f 999.5
then sprintf "%.0f%s" f suffix
else sprintf "%.3g%s" f suffix
in
if n_abs < kib
then sprintf "%dB" (to_int_exn n)
else if n_abs < mib
then f ~suffix:"K" ~size:kib n
else if n_abs < gib
then f ~suffix:"M" ~size:mib n
else if n_abs < tib
then f ~suffix:"G" ~size:gib n
else if n_abs < pib
then f ~suffix:"T" ~size:tib n
else f ~suffix:"P" ~size:pib n
;;
let sexp_of_t n = Sexp.Atom (to_string n)
end
include T
let bytes_int_exn t = Repr.to_int_exn (to_repr t)