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Quelle ind_tables.ml Sprache: SML |
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(* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************) (* File created by Vincent Siles, Oct 2007, extended into a generic support for generation of inductive schemes by Hugo Herbelin, Nov 2009 *) (* This file provides support for registering inductive scheme builders, declaring schemes and generating schemes on demand *) open Names open Nameops open Declarations open Constr open Util (**********************************************************************) (* Registering schemes in the environment *) type handle = Evd.side_effects type mutual_scheme_object_function = Environ.env -> handle -> MutInd.t -> constr array Evd.in_ustate type individual_scheme_object_function = Environ.env -> handle -> inductive -> constr Evd.in_ustate type 'a scheme_kind = string let pr_scheme_kind = Pp.str (**********************************************************************) (* The table of scheme building functions *) type individual type mutual type scheme_dependency = | SchemeMutualDep of MutInd.t * mutual scheme_kind | SchemeIndividualDep of inductive * individual scheme_kind type scheme_object_function = | MutualSchemeFunction of mutual_scheme_object_function * (Environ.env -> MutInd.t -> schem | IndividualSchemeFunction of individual_scheme_object_function * (Environ.env -> induct let scheme_object_table = (Hashtbl.create 17 : (string, string * scheme_object_function) Hashtbl.t) let declare_scheme_object key ?(suff=key) f = let () = if not (Id.is_valid ("ind_" ^ suff)) then CErrors.user_err Pp.(str ("Illegal induction scheme suffix: " ^ suff)) in if Hashtbl.mem scheme_object_table key then CErrors.user_err Pp.(str "Scheme object " ++ str key ++ str " already declared.") else begin Hashtbl.add scheme_object_table key (suff,f); key end let declare_mutual_scheme_object key ?suff ?deps f = declare_scheme_object key ?suff (MutualSchemeFunction (f, deps)) let declare_individual_scheme_object key ?suff ?deps f = declare_scheme_object key ?suff (IndividualSchemeFunction (f, deps)) let is_declared_scheme_object key = Hashtbl.mem scheme_object_table key let scheme_kind_name (key : _ scheme_kind) : string = key (**********************************************************************) (* Defining/retrieving schemes *) let is_visible_name id = try ignore (Nametab.locate (Libnames.qualid_of_ident id)); true with Not_found -> false let compute_name internal id = if internal then Namegen.next_ident_away_from (add_prefix "internal_" id) is_visible_name else id let declare_definition_scheme = ref (fun ~internal ~univs ~role ~name ~effs ?loc c -> CErrors.anomaly (Pp.str "scheme declaration not registered")) let lookup_scheme kind ind = try Some (DeclareScheme.lookup_scheme kind ind) with Not_found -> None let redeclare_schemes eff = let fold c role accu = match role with | Evd.Schema (ind, kind) -> try let _ = DeclareScheme.lookup_scheme kind ind in accu with Not_found -> let old = try String.Map.find kind accu with Not_found -> [] in String.Map.add kind ((ind, c) :: old) accu in let schemes = Cmap.fold fold eff.Evd.seff_roles String.Map.empty in let iter kind defs = List.iter (DeclareScheme.declare_scheme SuperGlobal kind) defs in String.Map.iter iter schemes let local_lookup_scheme eff kind ind = match lookup_scheme kind ind with | Some _ as ans -> ans | None -> let exception Found of Constant.t in let iter c role = match role with | Evd.Schema (i, k) -> if String.equal k kind && Ind.UserOrd.equal i ind then raise (Found c) in (* Inefficient O(n), but the number of locally declared schemes is small and this is very rarely called *) try let _ = Cmap.iter iter eff.Evd.seff_roles in None with Found c -> Some c let local_check_scheme kind ind eff = Option.has_some (local_lookup_scheme eff kind ind) let define ?loc internal role id c poly uctx effs = let id = compute_name internal id in let uctx = UState.collapse_above_prop_sort_variables ~to_prop:true uctx in let uctx = UState.minimize uctx in let c = UState.nf_universes uctx c in let uctx = UState.restrict uctx (Vars.universes_of_constr c) in let univs = UState.univ_entry ~poly uctx in !declare_definition_scheme ~internal ~univs ~role ~name:id ~effs ?loc c module Locmap : sig type t val default : Loc.t option -> t val make : ?default:Loc.t -> MutInd.t -> Loc.t option list -> t val lookup : locmap:t -> Names.inductive -> Loc.t option end = struct type t = { default : Loc.t option; ind_to_loc : Loc.t Names.Indmap.t; } let lookup ~locmap:{ ind_to_loc; default } x = Names.Indmap.find_opt x ind_to_loc |> fun loc -> Option.append loc default let default default = { default; ind_to_loc = Names.Indmap.empty } let make ?default mind locs = let default, ind_to_loc = CList.fold_left_i (fun i (default,m) loc -> let m = match loc with | None -> m | Some loc -> Indmap.add (mind, i) loc m in let default = if Option.has_some default then default else loc in default, m) 0 (default,Names.Indmap.empty) locs in { default; ind_to_loc } end (* Assumes that dependencies are already defined *) let rec define_individual_scheme_base ?loc kind suff f ~internal idopt (mind,i as ind) eff = (* FIXME: do not rely on the imperative modification of the global environment *) let (c, ctx) = f (Global.env ()) eff ind in let mib = Global.lookup_mind mind in let id = match idopt with | Some id -> id | None -> add_suffix mib.mind_packets.(i).mind_typename ("_"^suff) in let role = Evd.Schema (ind, kind) in let const, eff = define ?loc internal role id c (Declareops.inductive_is_polymorphic mib) ct const, eff and define_individual_scheme ?loc kind ~internal names (mind,i as ind) eff = match Hashtbl.find scheme_object_table kind with | _,MutualSchemeFunction _ -> assert false | s,IndividualSchemeFunction (f, deps) -> let deps = match deps with None -> [] | Some deps -> deps (Global.env ()) ind in let eff = List.fold_left (fun eff dep -> declare_scheme_dependence eff dep) eff deps in let _, eff = define_individual_scheme_base ?loc kind s f ~internal names ind eff in eff (* Assumes that dependencies are already defined *) and define_mutual_scheme_base ?(locmap=Locmap.default None) kind suff f ~internal names m (* FIXME: do not rely on the imperative modification of the global environment *) let (cl, ctx) = f (Global.env ()) eff mind in let mib = Global.lookup_mind mind in let ids = Array.init (Array.length mib.mind_packets) (fun i -> try Int.List.assoc i names with Not_found -> add_suffix mib.mind_packets.(i).mind_typename ("_"^suff)) in let fold i effs id cl = let role = Evd.Schema ((mind, i), kind)in let loc = Locmap.lookup ~locmap (mind,i) in let cst, effs = define ?loc internal role id cl (Declareops.inductive_is_polymorphic mib) ct (effs, cst) in let (eff, consts) = Array.fold_left2_map_i fold eff ids cl in consts, eff and define_mutual_scheme ?locmap kind ~internal names mind eff = match Hashtbl.find scheme_object_table kind with | _,IndividualSchemeFunction _ -> assert false | s,MutualSchemeFunction (f, deps) -> let deps = match deps with None -> [] | Some deps -> deps (Global.env ()) mind in let eff = List.fold_left (fun eff dep -> declare_scheme_dependence eff dep) eff deps in let _, eff = define_mutual_scheme_base ?locmap kind s f ~internal names mind eff in eff and declare_scheme_dependence eff sd = match sd with | SchemeIndividualDep (ind, kind) -> if local_check_scheme kind ind eff then eff else define_individual_scheme kind ~internal:true None ind eff | SchemeMutualDep (mind, kind) -> if local_check_scheme kind (mind, 0) eff then eff else define_mutual_scheme kind ~internal:true [] mind eff let find_scheme kind (mind,i as ind) = let open Proofview.Notations in Proofview.tclEVARMAP >>= fun sigma -> match local_lookup_scheme (Evd.eval_side_effects sigma) kind ind with | Some s -> Proofview.tclUNIT s | None -> try match Hashtbl.find scheme_object_table kind with | s,IndividualSchemeFunction (f, deps) -> let deps = match deps with None -> [] | Some deps -> deps (Global.env ()) ind in let eff = List.fold_left (fun eff dep -> declare_scheme_dependence eff dep) Evd.empty_side_e let c, eff = define_individual_scheme_base kind s f ~internal:true None ind eff in Proofview.tclEFFECTS eff <*> Proofview.tclUNIT c | s,MutualSchemeFunction (f, deps) -> let deps = match deps with None -> [] | Some deps -> deps (Global.env ()) mind in let eff = List.fold_left (fun eff dep -> declare_scheme_dependence eff dep) Evd.empty_side_e let ca, eff = define_mutual_scheme_base kind s f ~internal:true [] mind eff in Proofview.tclEFFECTS eff <*> Proofview.tclUNIT ca.(i) with Rocqlib.NotFoundRef _ as e -> let e, info = Exninfo.capture e in Proofview.tclZERO ~info e let define_individual_scheme ?loc kind names ind = let eff = define_individual_scheme ?loc kind ~internal:false names ind Evd.empty_side_eff redeclare_schemes eff let define_mutual_scheme ?locmap kind names mind = let eff = define_mutual_scheme ?locmap kind ~internal:false names mind Evd.empty_side_eff redeclare_schemes eff ¤ Dauer der Verarbeitung: 0.13 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28