ocaml/bytecomp/translclass.ml

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(***********************************************************************)
(* *)
(* Objective Caml *)
(* *)
(* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
open Misc
open Asttypes
open Types
open Typedtree
open Lambda
open Translobj
open Translcore
let transl_label l = Lconst (Const_base (Const_string l))
let rec transl_meth_list =
function
[] -> Const_pointer 0
| lab::rem -> Const_block (0, [Const_base (Const_string lab);
transl_meth_list rem])
(* Instance variable initialization *)
let set_inst_var obj var id expr =
Lprim(Parraysetu (if maybe_pointer expr then Paddrarray else Pintarray),
[Lvar obj; Lvar id; transl_exp expr])
let transl_super tbl meths inh_methods rem =
List.fold_right
(fun (nm, id) rem ->
Llet(StrictOpt, id, Lapply (oo_prim "get_method",
[Lvar tbl; Lvar (Meths.find nm meths)]),
rem))
inh_methods rem
let transl_val tbl name id rem =
Llet(StrictOpt, id, Lapply (oo_prim "get_variable",
[Lvar tbl; transl_label name]),
rem)
let transl_private_val tbl name id rem =
Llet(StrictOpt, id, Lapply (oo_prim "get_private_variable",
[Lvar tbl; transl_label name]),
rem)
let transl_vals tbl vals rem =
List.fold_right
(fun (name, id) rem -> transl_val tbl name id rem)
vals rem
let inherited_values vals =
Lconst
(List.fold_right
(fun (v, _) rem ->
Const_block(0, [Const_base (Const_string v); rem]))
vals (Const_pointer 0))
let inherited_meths methods =
Lconst
(List.fold_right
(fun v rem ->
Const_block(0, [Const_base (Const_string v); rem]))
methods (Const_pointer 0))
let transl_field_obj obj field (obj_init, anc_id) =
match field with
Cf_inher (name, args, vals, inh_meths, meths') ->
let init = Ident.create "init" in
(Lsequence(Lapply(Lvar init, Lvar obj :: (List.map transl_exp args)),
obj_init),
init::anc_id)
| Cf_val (name, id, priv, Some exp) ->
(Lsequence(set_inst_var obj name id exp, obj_init),
anc_id)
| Cf_val (name, id, priv, None) ->
(obj_init, anc_id)
| Cf_meth (name, exp) ->
(obj_init, anc_id)
let transl_field_cl tbl meths field cl_init =
match field with
Cf_inher (name, args, vals, inh_meths, meths') ->
Lsequence(Lapply (oo_prim "inheritance",
[Lvar tbl; transl_path name;
inherited_values vals;
inherited_meths meths']),
transl_vals tbl vals (
transl_super tbl meths inh_meths cl_init))
| Cf_val (name, id, priv, exp) ->
if priv = Private then
transl_private_val tbl name id cl_init
else
transl_val tbl name id cl_init
| Cf_meth (name, exp) ->
Lsequence(Lapply (oo_prim "set_method",
[Lvar tbl; transl_label name; transl_exp exp]),
cl_init)
let transl_val_hiding tbl cl_init =
function
Cf_inher _ | Cf_meth _ | Cf_val (_, _, Public, _) ->
cl_init
| Cf_val (name, id, Private, exp) ->
Lsequence(Lapply (oo_prim "hide_variable",
[Lvar tbl; transl_label name]),
cl_init)
let bind_methods tbl public_methods lab id cl_init =
if List.mem lab public_methods then
Llet(Alias, id, Lvar (meth lab), cl_init)
else
Llet(StrictOpt, id, Lapply (oo_prim "get_method_label",
[Lvar tbl; transl_label lab]),
cl_init)
let transl_fields tbl public_methods meths fields cl_init =
match fields with
Cf_inher _ as inh :: fields ->
transl_field_cl tbl meths inh
(Meths.fold (bind_methods tbl public_methods) meths
(List.fold_right (transl_field_cl tbl meths) fields cl_init))
| fields ->
Meths.fold (bind_methods tbl public_methods) meths
(List.fold_right (transl_field_cl tbl meths) fields cl_init)
let transl_class cl_id cl =
let public_methods = Lconst (transl_meth_list cl.cl_pub_meths) in
let obj = Ident.create "obj" in
let (field_init, anc_id) =
List.fold_right (transl_field_obj obj) cl.cl_field (Lvar obj, [])
in
let (params, body) =
List.fold_right
(fun pat (params, rem) ->
let param = name_pattern "param" [pat, ()] in
(param::params,
Matching.for_function pat.pat_loc None (Lvar param) [pat, rem]))
cl.cl_args
([], field_init)
in
let obj_init = Lfunction(Curried, anc_id @ obj::params, body) in
let table = Ident.create "table" in
let cl_init =
Lfunction (Curried, [table],
List.fold_left (transl_val_hiding table)
(transl_fields table cl.cl_pub_meths cl.cl_meths cl.cl_field
(Lapply (oo_prim "set_initializer",
[Lvar table; obj_init])))
cl.cl_field)
in
Lapply (oo_prim "create_class", [Lvar cl_id; public_methods; cl_init])
let class_stub =
Lprim(Pmakeblock(0, Mutable), [lambda_unit; lambda_unit; lambda_unit])