324 lines
12 KiB
OCaml
324 lines
12 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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open Misc
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open Asttypes
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open Types
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open Typedtree
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open Lambda
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open Translobj
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open Translcore
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(* XXX Rajouter des evenements... *)
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type error = Illegal_class_expr
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exception Error of Location.t * error
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let lfunction params body =
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match body with
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Lfunction (Curried, params', body') ->
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Lfunction (Curried, params @ params', body')
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| _ ->
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Lfunction (Curried, params, body)
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let lapply func args =
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match func with
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Lapply(func', args') ->
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Lapply(func', args' @ args)
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| _ ->
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Lapply(func, args)
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let lsequence l1 l2 =
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if l2 = lambda_unit then l1 else Lsequence(l1, l2)
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let transl_label l = Lconst (Const_base (Const_string l))
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let rec transl_meth_list lst =
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Lconst
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(List.fold_right
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(fun lab rem -> Const_block (0, [Const_base (Const_string lab); rem]))
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lst (Const_pointer 0))
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let set_inst_var obj id expr =
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let kind = if Typeopt.maybe_pointer expr then Paddrarray else Pintarray in
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Lprim(Parraysetu kind, [Lvar obj; Lvar id; transl_exp expr])
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let copy_inst_var obj id expr templ offset =
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let kind = if Typeopt.maybe_pointer expr then Paddrarray else Pintarray in
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let id' = Ident.create (Ident.name id) in
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Llet(Strict, id', Lprim (Pidentity, [Lvar id]),
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Lprim(Parraysetu kind,
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[Lvar obj; Lvar id';
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Lprim(Parrayrefu kind, [Lvar templ; Lprim(Paddint,
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[Lvar id';
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Lvar offset])])]))
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let transl_val tbl create name id rem =
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Llet(StrictOpt, id, Lapply (oo_prim (if create then "new_variable"
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else "get_variable"),
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[Lvar tbl; transl_label name]),
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rem)
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let transl_vals tbl create vals rem =
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List.fold_right
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(fun (name, id) rem -> transl_val tbl create name id rem)
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vals rem
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let transl_super tbl meths inh_methods rem =
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List.fold_right
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(fun (nm, id) rem ->
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begin try
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Llet(StrictOpt, id, Lapply (oo_prim "get_method",
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[Lvar tbl; Lvar (Meths.find nm meths)]),
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rem)
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with Not_found ->
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rem
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end)
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inh_methods rem
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let create_object cl obj init =
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let obj' = Ident.create "self" in
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let (inh_init, obj_init) = init obj' in
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(inh_init,
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Llet(Strict, obj', Lifthenelse(Lvar obj, Lvar obj,
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Lapply (oo_prim "create_object", [Lvar cl])),
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Lsequence(obj_init,
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Lsequence(Lifthenelse(Lvar obj, lambda_unit,
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Lapply (oo_prim "run_initializers",
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[Lvar obj'; Lvar cl])),
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Lvar obj'))))
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let rec build_object_init cl_table obj params inh_init cl =
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match cl.cl_desc with
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Tclass_ident path ->
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let obj_init = Ident.create "obj_init" in
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(obj_init::inh_init, Lapply(Lvar obj_init, [Lvar obj]))
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| Tclass_structure str ->
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create_object cl_table obj (fun obj ->
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let (inh_init, obj_init) =
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List.fold_right
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(fun field (inh_init, obj_init) ->
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match field with
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Cf_inher (cl, _, _) ->
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let (inh_init, obj_init') =
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build_object_init cl_table obj [] inh_init cl
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in
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(inh_init, lsequence obj_init' obj_init)
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| Cf_val (_, id, exp) ->
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(inh_init, lsequence (set_inst_var obj id exp) obj_init)
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| Cf_meth _ | Cf_init _ ->
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(inh_init, obj_init)
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| Cf_let (rec_flag, defs, vals) ->
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(inh_init,
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Translcore.transl_let rec_flag defs
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(List.fold_right
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(fun (id, expr) rem ->
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lsequence (Lifused(id, set_inst_var obj id expr))
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rem)
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vals obj_init)))
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str.cl_field
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(inh_init, lambda_unit)
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in
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(inh_init,
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List.fold_right
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(fun (id, expr) rem ->
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lsequence (Lifused (id, set_inst_var obj id expr)) rem)
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params obj_init))
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| Tclass_fun (pat, vals, cl, partial) ->
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let (inh_init, obj_init) =
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build_object_init cl_table obj (vals @ params) inh_init cl
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in
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(inh_init,
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let build params rem =
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let param = name_pattern "param" [pat, ()] in
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Lfunction (Curried, param::params,
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Matching.for_function
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pat.pat_loc None (Lvar param) [pat, rem] partial)
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in
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begin match obj_init with
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Lfunction (Curried, params, rem) -> build params rem
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| rem -> build [] rem
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end)
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| Tclass_apply (cl, oexprs) ->
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let (inh_init, obj_init) =
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build_object_init cl_table obj params inh_init cl
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in
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(inh_init, transl_apply obj_init oexprs)
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| Tclass_let (rec_flag, defs, vals, cl) ->
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let (inh_init, obj_init) =
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build_object_init cl_table obj (vals @ params) inh_init cl
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in
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(inh_init, Translcore.transl_let rec_flag defs obj_init)
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| Tclass_constraint (cl, vals, pub_meths, concr_meths) ->
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build_object_init cl_table obj params inh_init cl
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let rec build_object_init_0 cl_table params cl =
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match cl.cl_desc with
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Tclass_let (rec_flag, defs, vals, cl) ->
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let (inh_init, obj_init) =
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build_object_init_0 cl_table (vals @ params) cl
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in
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(inh_init, Translcore.transl_let rec_flag defs obj_init)
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| _ ->
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let obj = Ident.create "self" in
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let (inh_init, obj_init) = build_object_init cl_table obj params [] cl in
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let obj_init = lfunction [obj] obj_init in
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(inh_init, obj_init)
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let bind_method tbl public_methods lab id cl_init =
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if List.mem lab public_methods then
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Llet(Alias, id, Lvar (meth lab), cl_init)
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else
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Llet(StrictOpt, id, Lapply (oo_prim "get_method_label",
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[Lvar tbl; transl_label lab]),
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cl_init)
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let bind_methods tbl public_methods meths cl_init =
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Meths.fold (bind_method tbl public_methods) meths cl_init
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let rec build_class_init cla pub_meths cstr inh_init cl_init cl =
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match cl.cl_desc with
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Tclass_ident path ->
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begin match inh_init with
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obj_init::inh_init ->
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(inh_init,
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Llet (Strict, obj_init,
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Lapply(Lprim(Pfield 1, [transl_path path]), [Lvar cla]),
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cl_init))
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| _ ->
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assert false
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end
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| Tclass_structure str ->
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let (inh_init, cl_init) =
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List.fold_right
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(fun field (inh_init, cl_init) ->
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match field with
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Cf_inher (cl, vals, meths) ->
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build_class_init cla pub_meths false inh_init
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(transl_vals cla false vals
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(transl_super cla str.cl_meths meths cl_init))
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cl
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| Cf_val (name, id, exp) ->
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(inh_init, transl_val cla true name id cl_init)
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| Cf_meth (name, exp) ->
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let met = Ident.create ("method_" ^ name) in
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(inh_init,
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Lsequence(Lapply (oo_prim "set_method",
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[Lvar cla;
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Lvar (Meths.find name str.cl_meths);
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Llet(Strict, met, transl_exp exp,
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Lvar met)]),
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cl_init))
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| Cf_let (rec_flag, defs, vals) ->
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let vals =
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List.map (function (id, _) -> (Ident.name id, id)) vals
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in
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(inh_init, transl_vals cla true vals cl_init)
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| Cf_init exp ->
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(inh_init,
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Lsequence(Lapply (oo_prim "add_initializer",
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[Lvar cla; transl_exp exp]),
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cl_init)))
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str.cl_field
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(inh_init, cl_init)
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in
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(inh_init, bind_methods cla pub_meths str.cl_meths cl_init)
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| Tclass_fun (pat, vals, cl, _) ->
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let (inh_init, cl_init) =
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build_class_init cla pub_meths cstr inh_init cl_init cl
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in
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let vals = List.map (function (id, _) -> (Ident.name id, id)) vals in
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(inh_init, transl_vals cla true vals cl_init)
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| Tclass_apply (cl, exprs) ->
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build_class_init cla pub_meths cstr inh_init cl_init cl
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| Tclass_let (rec_flag, defs, vals, cl) ->
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let (inh_init, cl_init) =
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build_class_init cla pub_meths cstr inh_init cl_init cl
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in
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let vals = List.map (function (id, _) -> (Ident.name id, id)) vals in
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(inh_init, transl_vals cla true vals cl_init)
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| Tclass_constraint (cl, vals, meths, concr_meths) ->
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let core cl_init =
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build_class_init cla pub_meths true inh_init cl_init cl
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in
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if cstr then
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core cl_init
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else
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let virt_meths =
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List.fold_right
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(fun lab rem ->
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if Concr.mem lab concr_meths then rem else lab::rem)
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meths
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[]
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in
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let (inh_init, cl_init) =
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core (Lsequence (Lapply (oo_prim "widen", [Lvar cla]),
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cl_init))
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in
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(inh_init,
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Lsequence(Lapply (oo_prim "narrow",
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[Lvar cla;
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transl_meth_list vals;
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transl_meth_list virt_meths;
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transl_meth_list (Concr.elements concr_meths)]),
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cl_init))
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(*
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XXX Il devrait etre peu couteux d'ecrire des classes :
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class c x y = d e f
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*)
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(*
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XXX
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Exploiter le fait que les methodes sont definies dans l'ordre pour
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l'initialisation des classes (et les variables liees par un
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let ???) ?
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*)
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let transl_class ids cl_id arity pub_meths cl =
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let cla = Ident.create "class" in
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let (inh_init, obj_init) = build_object_init_0 cla [] cl in
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if not (Translcore.check_recursive_lambda ids obj_init) then
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raise(Error(cl.cl_loc, Illegal_class_expr));
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let (inh_init, cl_init) =
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build_class_init cla pub_meths true (List.rev inh_init) obj_init cl
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in
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assert (inh_init = []);
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let table = Ident.create "table" in
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let class_init = Ident.create "class_init" in
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let obj_init = Ident.create "obj_init" in
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Llet(Strict, table,
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Lapply (oo_prim "create_table", [transl_meth_list pub_meths]),
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Llet(Strict, class_init,
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Lfunction(Curried, [cla], cl_init),
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Llet(Strict, obj_init, Lapply(Lvar class_init, [Lvar table]),
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Lsequence(Lapply (oo_prim "init_class", [Lvar table]),
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Lprim(Pmakeblock(0, Immutable),
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[Lvar obj_init;
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Lvar class_init;
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Lvar table])))))
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let class_stub =
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Lprim(Pmakeblock(0, Mutable), [lambda_unit; lambda_unit; lambda_unit])
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(* Error report *)
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open Formatmsg
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let report_error = function
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Illegal_class_expr ->
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print_string
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"This kind of class expression is not allowed"
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