/usr/lib/ocaml/lablgtk2/gpointer.ml is in liblablgtk2-ocaml-dev 2.18.3+dfsg-1build1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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(* Lablgtk *)
(* *)
(* This program is free software; you can redistribute it *)
(* and/or modify it under the terms of the GNU Library General *)
(* Public License as published by the Free Software Foundation *)
(* version 2, with the exception described in file COPYING which *)
(* comes with the library. *)
(* *)
(* This program is distributed in the hope that it will be useful, *)
(* but WITHOUT ANY WARRANTY; without even the implied warranty of *)
(* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *)
(* GNU Library General Public License for more details. *)
(* *)
(* You should have received a copy of the GNU Library General *)
(* Public License along with this program; if not, write to the *)
(* Free Software Foundation, Inc., 59 Temple Place, Suite 330, *)
(* Boston, MA 02111-1307 USA *)
(* *)
(* *)
(**************************************************************************)
(* $Id$ *)
open StdLabels
(* marked pointers *)
type 'a optaddr
let optaddr : 'a option -> 'a optaddr =
function
None -> Obj.magic 0
| Some x -> Obj.magic x
(* naked pointers *)
type optstring
let raw_null = snd (Obj.magic Nativeint.zero)
let optstring : string option -> optstring =
function
None -> raw_null
| Some x -> Obj.magic x
(* boxed pointers *)
type boxed
let boxed_null : boxed = Obj.magic Nativeint.zero
external peek_string : ?pos:int -> ?len:int -> boxed -> string
= "ml_string_at_pointer"
external peek_int : boxed -> int
= "ml_int_at_pointer"
external poke_int : boxed -> int -> unit
= "ml_set_int_at_pointer"
external peek_nativeint : boxed -> nativeint
= "ml_long_at_pointer"
external poke_nativeint : boxed -> nativeint -> unit
= "ml_set_long_at_pointer"
type 'a optboxed
let optboxed : 'a option -> 'a optboxed =
function
None -> Obj.magic boxed_null
| Some obj -> Obj.magic obj
let may_box ~f obj : 'a optboxed =
match obj with
None -> Obj.magic boxed_null
| Some obj -> Obj.magic (f obj : 'a)
(* Variant tables *)
type 'a variant_table constraint 'a = [> ]
external decode_variant : 'a variant_table -> int -> 'a
= "ml_ml_lookup_from_c"
external encode_variant : 'a variant_table -> 'a -> int
= "ml_ml_lookup_to_c"
let encode_flags tbl l =
List.fold_left l ~init:0 ~f:(fun acc v -> acc lor (encode_variant tbl v))
let decode_flags tbl c =
let l = ref [] in
for i = 30 downto 0 do (* only 31-bits in ocaml usual integers *)
let d = 1 lsl i in
if c land d <> 0 then l := decode_variant tbl d :: !l
done;
!l
(* Exceptions *)
exception Null
let _ = Callback.register_exception "null_pointer" Null
(* Stable pointer *)
type 'a stable
external stable_copy : 'a -> 'a stable = "ml_stable_copy"
(* Region pointers *)
type region = { data: Obj.t; path: int array; offset:int; length: int }
let length reg = reg.length
let unsafe_create_region ~path ~get_length data =
{ data = Obj.repr data; path = path; offset = 0; length = get_length data }
let sub ?(pos=0) ?len reg =
let len = match len with Some x -> x | None -> reg.length - pos in
if pos < 0 || pos > reg.length || pos + len > reg.length then
invalid_arg "Gpointer.sub";
{ reg with offset = reg.offset + pos; length = len }
external unsafe_get_byte : region -> pos:int -> int
= "ml_gpointer_get_char"
external unsafe_set_byte : region -> pos:int -> int -> unit
= "ml_gpointer_set_char"
external unsafe_blit : src:region -> dst:region -> unit
="ml_gpointer_blit"
(* handle with care, if allocation not static *)
external get_addr : region -> nativeint
= "ml_gpointer_get_addr"
let get_byte reg ~pos =
if pos >= reg.length then invalid_arg "Gpointer.get_char";
unsafe_get_byte reg ~pos
let set_byte reg ~pos ch =
if pos >= reg.length then invalid_arg "Gpointer.set_char";
unsafe_set_byte reg ~pos ch
let blit ~src ~dst =
if src.length <> dst.length then invalid_arg "Gpointer.blit";
unsafe_blit ~src ~dst
(* Making a region from a string is easy *)
let region_of_string =
unsafe_create_region ~path:[||] ~get_length:String.length
let string_of_region reg =
let s = String.create reg.length in
let reg' = region_of_string s in
unsafe_blit reg reg';
s
(* Access bigarrays breaking the abstraction... dirty *)
type 'a bigarray = (int, Bigarray.int8_unsigned_elt, 'a) Bigarray.Array1.t
let bigarray_size (arr : 'a bigarray) =
let size =
{ data = Obj.repr arr; path = [|1+4|]; offset = 0; length = 0 } in
Nativeint.to_int (get_addr size)
let region_of_bigarray arr =
unsafe_create_region ~path:[|1|] ~get_length:bigarray_size arr
|