ocaml/bytecomp/translobj.ml

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(***********************************************************************)
(* *)
(* OCaml *)
(* *)
(* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* en Automatique. All rights reserved. This file is distributed *)
(* under the terms of the Q Public License version 1.0. *)
(* *)
(***********************************************************************)
open Misc
open Asttypes
open Longident
open Lambda
(* Get oo primitives identifiers *)
let oo_prim name =
try
transl_normal_path
(fst (Env.lookup_value (Ldot (Lident "CamlinternalOO", name)) Env.empty))
with Not_found ->
fatal_error ("Primitive " ^ name ^ " not found.")
(* Share blocks *)
let consts : (structured_constant, Ident.t) Hashtbl.t = Hashtbl.create 17
let share c =
match c with
Const_block (n, l) when l <> [] ->
begin try
Lvar (Hashtbl.find consts c)
with Not_found ->
let id = Ident.create "shared" in
Hashtbl.add consts c id;
Lvar id
end
| _ -> Lconst c
(* Collect labels *)
let cache_required = ref false
let method_cache = ref lambda_unit
let method_count = ref 0
let method_table = ref []
let meth_tag s = Lconst(Const_base(Const_int(Btype.hash_variant s)))
let next_cache tag =
let n = !method_count in
incr method_count;
(tag, [!method_cache; Lconst(Const_base(Const_int n))])
let rec is_path = function
Lvar _ | Lprim (Pgetglobal _, []) | Lconst _ -> true
| Lprim (Pfield _, [lam]) -> is_path lam
| Lprim ((Parrayrefu _ | Parrayrefs _), [lam1; lam2]) ->
is_path lam1 && is_path lam2
| _ -> false
let meth obj lab =
let tag = meth_tag lab in
if not (!cache_required && !Clflags.native_code) then (tag, []) else
if not (is_path obj) then next_cache tag else
try
let r = List.assoc obj !method_table in
try
(tag, List.assoc tag !r)
with Not_found ->
let p = next_cache tag in
r := p :: !r;
p
with Not_found ->
let p = next_cache tag in
method_table := (obj, ref [p]) :: !method_table;
p
let reset_labels () =
Hashtbl.clear consts;
method_count := 0;
method_table := []
(* Insert labels *)
let int n = Lconst (Const_base (Const_int n))
let prim_makearray =
Primitive.simple ~name:"caml_make_vect" ~arity:2 ~alloc:true
(* Also use it for required globals *)
let transl_label_init expr =
let expr =
Hashtbl.fold
(fun c id expr -> Llet(Alias, id, Lconst c, expr))
consts expr
in
(*let expr =
List.fold_right
(fun id expr -> Lsequence(Lprim(Pgetglobal id, []), expr))
(Env.get_required_globals ()) expr
in
Env.reset_required_globals ();*)
reset_labels ();
expr
let transl_store_label_init glob size f arg =
method_cache := Lprim(Pfield size, [Lprim(Pgetglobal glob, [])]);
let expr = f arg in
let (size, expr) =
if !method_count = 0 then (size, expr) else
(size+1,
Lsequence(
Lprim(Psetfield(size, false),
[Lprim(Pgetglobal glob, []);
Lprim (Pccall prim_makearray, [int !method_count; int 0])]),
expr))
in
(size, transl_label_init expr)
(* Share classes *)
let wrapping = ref false
let top_env = ref Env.empty
let classes = ref []
let method_ids = ref IdentSet.empty
let oo_add_class id =
classes := id :: !classes;
(!top_env, !cache_required)
let oo_wrap env req f x =
if !wrapping then
if !cache_required then f x else
try cache_required := true; let lam = f x in cache_required := false; lam
with exn -> cache_required := false; raise exn
else try
wrapping := true;
cache_required := req;
top_env := env;
classes := [];
method_ids := IdentSet.empty;
let lambda = f x in
let lambda =
List.fold_left
(fun lambda id ->
Llet(StrictOpt, id,
Lprim(Pmakeblock(0, Mutable),
[lambda_unit; lambda_unit; lambda_unit]),
lambda))
lambda !classes
in
wrapping := false;
top_env := Env.empty;
lambda
with exn ->
wrapping := false;
top_env := Env.empty;
raise exn
let reset () =
Hashtbl.clear consts;
cache_required := false;
method_cache := lambda_unit;
method_count := 0;
method_table := [];
wrapping := false;
top_env := Env.empty;
classes := [];
method_ids := IdentSet.empty