(***********************************************************************) (* *) (* 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