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(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017 *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (************************************************************************) (* Created by Bruno Barras for Benjamin Grégoire as part of the bytecode-based reduction machine, Oct 2004 *) (* Bug fix #1419 by Jean-Marc Notin, Mar 2007 *) (* This file manages the table of global symbols for the bytecode machine *) open Util open Names open Constr open Vm open Cemitcodes open Cbytecodes open Declarations open Pre_env open Cbytegen module NamedDecl = Context.Named.Declaration module RelDecl = Context.Rel.Declaration external tcode_of_code : emitcodes -> int -> tcode = "coq_tcode_of_code" external eval_tcode : tcode -> values array -> values = "coq_eval_tcode" (*******************) (* Linkage du code *) (*******************) (* Table des globaux *) (* [global_data] contient les valeurs des constantes globales (axiomes,definitions), les annotations des switch et les structured constant *) external global_data : unit -> values array = "get_coq_global_data" (* [realloc_global_data n] augmente de n la taille de [global_data] *) external realloc_global_data : int -> unit = "realloc_coq_global_data" let check_global_data n = if n >= Array.length (global_data()) then realloc_global_data n let num_global = ref 0 let set_global v = let n = !num_global in check_global_data n; (global_data()).(n) <- v; incr num_global; n (* table pour les structured_constant et les annotations des switchs *) let rec eq_structured_constant c1 c2 = match c1, c2 with | Const_sorts s1, Const_sorts s2 -> Sorts.equal s1 s2 | Const_sorts _, _ -> false | Const_ind i1, Const_ind i2 -> eq_ind i1 i2 | Const_ind _, _ -> false | Const_proj p1, Const_proj p2 -> Constant.equal p1 p2 | Const_proj _, _ -> false | Const_b0 t1, Const_b0 t2 -> Int.equal t1 t2 | Const_b0 _, _ -> false | Const_bn (t1, a1), Const_bn (t2, a2) -> Int.equal t1 t2 && Array.equal eq_structured_constant a1 a2 | Const_bn _, _ -> false | Const_univ_level l1 , Const_univ_level l2 -> Univ.Level.equal l1 l2 | Const_univ_level _ , _ -> false | Const_type u1 , Const_type u2 -> Univ.Universe.equal u1 u2 | Const_type _ , _ -> false let rec hash_structured_constant c = let open Hashset.Combine in match c with | Const_sorts s -> combinesmall 1 (Sorts.hash s) | Const_ind i -> combinesmall 2 (ind_hash i) | Const_proj p -> combinesmall 3 (Constant.hash p) | Const_b0 t -> combinesmall 4 (Int.hash t) | Const_bn (t, a) -> let fold h c = combine h (hash_structured_constant c) in let h = Array.fold_left fold 0 a in combinesmall 5 (combine (Int.hash t) h) | Const_univ_level l -> combinesmall 6 (Univ.Level.hash l) | Const_type u -> combinesmall 7 (Univ.Universe.hash u) module SConstTable = Hashtbl.Make (struct type t = structured_constant let equal = eq_structured_constant let hash = hash_structured_constant end) let eq_annot_switch asw1 asw2 = let eq_ci ci1 ci2 = eq_ind ci1.ci_ind ci2.ci_ind && Int.equal ci1.ci_npar ci2.ci_npar && Array.equal Int.equal ci1.ci_cstr_ndecls ci2.ci_cstr_ndecls in let eq_rlc (i1, j1) (i2, j2) = Int.equal i1 i2 && Int.equal j1 j2 in eq_ci asw1.ci asw2.ci && Array.equal eq_rlc asw1.rtbl asw2.rtbl && (asw1.tailcall : bool) == asw2.tailcall let hash_annot_switch asw = let open Hashset.Combine in let h1 = Constr.case_info_hash asw.ci in let h2 = Array.fold_left (fun h (t, i) -> combine3 h t i) 0 asw.rtbl in let h3 = if asw.tailcall then 1 else 0 in combine3 h1 h2 h3 module AnnotTable = Hashtbl.Make (struct type t = annot_switch let equal = eq_annot_switch let hash = hash_annot_switch end) let str_cst_tbl : int SConstTable.t = SConstTable.create 31 let annot_tbl : int AnnotTable.t = AnnotTable.create 31 (* (annot_switch * int) Hashtbl.t *) (*************************************************************) (*** Mise a jour des valeurs des variables et des constantes *) (*************************************************************) exception NotEvaluated let key rk = match !rk with | None -> raise NotEvaluated | Some k -> try CEphemeron.get k with CEphemeron.InvalidKey -> raise NotEvaluated (************************) (* traduction des patch *) (* slot_for_*, calcul la valeur de l'objet, la place dans la table global, rend sa position dans la table *) let slot_for_str_cst key = try SConstTable.find str_cst_tbl key with Not_found -> let n = set_global (val_of_str_const key) in SConstTable.add str_cst_tbl key n; n let slot_for_annot key = try AnnotTable.find annot_tbl key with Not_found -> let n = set_global (val_of_annot_switch key) in AnnotTable.add annot_tbl key n; n let rec slot_for_getglobal env kn = let (cb,(_,rk)) = lookup_constant_key kn env in try key rk with NotEvaluated -> (* Pp.msgnl(str"not yet evaluated");*) let pos = match cb.const_body_code with | None -> set_global (val_of_constant kn) | Some code -> match Cemitcodes.force code with | BCdefined(code,pl,fv) -> let v = eval_to_patch env (code,pl,fv) in set_global v | BCalias kn' -> slot_for_getglobal env kn' | BCconstant -> set_global (val_of_constant kn) in (*Pp.msgnl(str"value stored at: "++int pos);*) rk := Some (CEphemeron.create pos); pos and slot_for_fv env fv = let fill_fv_cache cache id v_of_id env_of_id b = let v,d = match b with | None -> v_of_id id, Id.Set.empty | Some c -> val_of_constr (env_of_id id env) c, Environ.global_vars_set (Environ.env_of_pre_env env) c in build_lazy_val cache (v, d); v in let val_of_rel i = val_of_rel (nb_rel env - i) in let idfun _ x = x in match fv with | FVnamed id -> let nv = Pre_env.lookup_named_val id env in begin match force_lazy_val nv with | None -> env |> Pre_env.lookup_named id |> NamedDecl.get_value |> fill_fv_cache nv id val_of_named idfun | Some (v, _) -> v end | FVrel i -> let rv = Pre_env.lookup_rel_val i env in begin match force_lazy_val rv with | None -> env.env_rel_context |> Context.Rel.lookup i |> RelDecl.get_value |> fill_fv_cache rv i val_of_rel env_of_rel | Some (v, _) -> v end | FVuniv_var idu -> assert false and eval_to_patch env (buff,pl,fv) = let patch = function | Reloc_annot a, pos -> (pos, slot_for_annot a) | Reloc_const sc, pos -> (pos, slot_for_str_cst sc) | Reloc_getglobal kn, pos -> (pos, slot_for_getglobal env kn) in let patches = List.map_left patch pl in let buff = patch_int buff patches in let vm_env = Array.map (slot_for_fv env) fv in let tc = tcode_of_code buff (length buff) in eval_tcode tc vm_env and val_of_constr env c = match compile true env c with | Some v -> eval_to_patch env (to_memory v) | None -> assert false let set_transparent_const kn = () (* !?! *) let set_opaque_const kn = () (* !?! *)