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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id: implicit_quantifiers.ml 10922 2008-05-12 12:47:17Z msozeau $ i*)
(*i*)
open Names
open Decl_kinds
open Term
open Sign
open Evd
open Environ
open Nametab
open Mod_subst
open Util
open Rawterm
open Topconstr
open Libnames
open Typeclasses
open Typeclasses_errors
open Pp
(*i*)
let ids_of_list l =
List.fold_right Idset.add l Idset.empty
let locate_reference qid =
match Nametab.extended_locate qid with
| TrueGlobal ref -> true
| SyntacticDef kn -> true
let is_global id =
try
locate_reference (make_short_qualid id)
with Not_found ->
false
let is_freevar ids env x =
try
if Idset.mem x ids then false
else
try ignore(Environ.lookup_named x env) ; false
with _ -> not (is_global x)
with _ -> true
(* Auxilliary functions for the inference of implicitly quantified variables. *)
let free_vars_of_constr_expr c ?(bound=Idset.empty) l =
let found id bdvars l =
if List.mem id l then l
else if not (is_freevar bdvars (Global.env ()) id)
then l else id :: l
in
let rec aux bdvars l c = match c with
| CRef (Ident (_,id)) -> found id bdvars l
| CNotation (_, "{ _ : _ | _ }", (CRef (Ident (_, id))) :: _) when not (Idset.mem id bdvars) ->
fold_constr_expr_with_binders (fun a l -> Idset.add a l) aux (Idset.add id bdvars) l c
| c -> fold_constr_expr_with_binders (fun a l -> Idset.add a l) aux bdvars l c
in aux bound l c
let ids_of_names l =
List.fold_left (fun acc x -> match snd x with Name na -> na :: acc | Anonymous -> acc) [] l
let free_vars_of_binders ?(bound=Idset.empty) l (binders : local_binder list) =
let rec aux bdvars l c = match c with
((LocalRawAssum (n, _, c)) :: tl) ->
let bound = ids_of_names n in
let l' = free_vars_of_constr_expr c ~bound:bdvars l in
aux (Idset.union (ids_of_list bound) bdvars) l' tl
| ((LocalRawDef (n, c)) :: tl) ->
let bound = match snd n with Anonymous -> [] | Name n -> [n] in
let l' = free_vars_of_constr_expr c ~bound:bdvars l in
aux (Idset.union (ids_of_list bound) bdvars) l' tl
| [] -> bdvars, l
in aux bound l binders
let rec make_fresh ids env x =
if is_freevar ids env x then x else make_fresh ids env (Nameops.lift_ident x)
let freevars_of_ids env ids =
List.filter (is_freevar env (Global.env())) ids
let compute_constrs_freevars env constrs =
let ids =
List.rev (List.fold_left
(fun acc x -> free_vars_of_constr_expr x acc)
[] constrs)
in freevars_of_ids env ids
(* let compute_context_freevars env ctx = *)
(* let ids = *)
(* List.rev *)
(* (List.fold_left *)
(* (fun acc (_,i,x) -> free_vars_of_constr_expr x acc) *)
(* [] constrs) *)
(* in freevars_of_ids ids *)
let compute_constrs_freevars_binders env constrs =
let elts = compute_constrs_freevars env constrs in
List.map (fun id -> (dummy_loc, id), CHole (dummy_loc, None)) elts
let binder_list_of_ids ids =
List.map (fun id -> LocalRawAssum ([dummy_loc, Name id], Default Implicit, CHole (dummy_loc, None))) ids
let next_ident_away_from id avoid = make_fresh avoid (Global.env ()) id
(* let rec name_rec id = *)
(* if Idset.mem id avoid then name_rec (Nameops.lift_ident id) else id in *)
(* name_rec id *)
let ids_of_named_context_avoiding avoid l =
List.fold_left (fun (ids, avoid) id ->
let id' = next_ident_away_from id avoid in id' :: ids, Idset.add id' avoid)
([], avoid) (Termops.ids_of_named_context l)
let combine_params avoid fn applied needed =
let named, applied =
List.partition
(function
(t, Some (loc, ExplByName id)) ->
if not (List.exists (fun (_, (id', _, _)) -> id = id') needed) then
user_err_loc (loc,"",str "Wrong argument name: " ++ Nameops.pr_id id);
true
| _ -> false) applied
in
let named = List.map
(fun x -> match x with (t, Some (loc, ExplByName id)) -> id, t | _ -> assert false)
named
in
let rec aux ids avoid app need =
match app, need with
[], [] -> List.rev ids, avoid
| app, (_, (id, _, _)) :: need when List.mem_assoc id named ->
aux (List.assoc id named :: ids) avoid app need
| (x, None) :: app, (None, (id, _, _)) :: need ->
aux (x :: ids) avoid app need
| _, (Some cl, (id, _, _) as d) :: need ->
let t', avoid' = fn avoid d in
aux (t' :: ids) avoid' app need
| x :: app, (None, _) :: need -> aux (fst x :: ids) avoid app need
| [], (None, _ as decl) :: need ->
let t', avoid' = fn avoid decl in
aux (t' :: ids) avoid' app need
| _ :: _, [] -> failwith "combine_params: overly applied typeclass"
in aux [] avoid applied needed
let combine_params_freevar avoid applied needed =
combine_params avoid
(fun avoid (_, (id, _, _)) ->
let id' = next_ident_away_from id avoid in
(CRef (Ident (dummy_loc, id')), Idset.add id' avoid))
applied needed
let compute_context_vars env l =
List.fold_left (fun avoid (iid, _, c) ->
(match snd iid with Name i -> [i] | Anonymous -> []) @ (free_vars_of_constr_expr c ~bound:env avoid))
[] l
let destClassApp cl =
match cl with
| CApp (loc, (None,CRef ref), l) -> loc, ref, List.map fst l
| CRef ref -> loc_of_reference ref, ref, []
| _ -> raise Not_found
let destClassAppExpl cl =
match cl with
| CApp (loc, (None,CRef ref), l) -> loc, ref, l
| CRef ref -> loc_of_reference ref, ref, []
| _ -> raise Not_found
let full_class_binders env l =
let avoid = Idset.union env (ids_of_list (compute_context_vars env l)) in
let l', avoid =
List.fold_left (fun (l', avoid) (iid, bk, cl as x) ->
match bk with
Implicit ->
let (loc, id, l) =
try destClassAppExpl cl
with Not_found ->
user_err_loc (constr_loc cl, "class_binders", str"Not an applied type class")
in
let gr = Nametab.global id in
(try
let c = class_info gr in
let args, avoid = combine_params_freevar avoid l (List.rev c.cl_context) in
(iid, bk, CAppExpl (loc, (None, id), args)) :: l', avoid
with Not_found -> not_a_class (Global.env ()) (constr_of_global gr))
| Explicit -> (x :: l', avoid))
([], avoid) l
in List.rev l'
let constr_expr_of_constraint (kind, id) l =
match kind with
| Implicit -> CAppExpl (fst id, (None, Ident id), l)
| Explicit -> CApp (fst id, (None, CRef (Ident id)),
List.map (fun x -> x, None) l)
(* | CApp of loc * (proj_flag * constr_expr) * *)
(* (constr_expr * explicitation located option) list *)
let constrs_of_context l =
List.map (fun (_, id, l) -> constr_expr_of_constraint id l) l
let compute_context_freevars env ctx =
let bound, ids =
List.fold_left
(fun (bound, acc) (oid, id, x) ->
let bound = match snd oid with Name n -> Idset.add n bound | Anonymous -> bound in
bound, free_vars_of_constr_expr x ~bound acc)
(env,[]) ctx
in freevars_of_ids env (List.rev ids)
let resolve_class_binders env l =
let ctx = full_class_binders env l in
let fv_ctx =
let elts = compute_context_freevars env ctx in
List.map (fun id -> (dummy_loc, id), CHole (dummy_loc, None)) elts
in
fv_ctx, ctx
let generalize_class_binders env l =
let fv_ctx, cstrs = resolve_class_binders env l in
List.map (fun ((loc, id), t) -> LocalRawAssum ([loc, Name id], Default Implicit, t)) fv_ctx,
List.map (fun (iid, bk, c) -> LocalRawAssum ([iid], Default Implicit, c))
cstrs
let generalize_class_binders_raw env l =
let env = Idset.union env (Termops.vars_of_env (Global.env())) in
let fv_ctx, cstrs = resolve_class_binders env l in
List.map (fun ((loc, id), t) -> ((loc, Name id), Implicit, t)) fv_ctx,
List.map (fun (iid, bk, c) -> (iid, Implicit, c)) cstrs
let ctx_of_class_binders env l =
let (x, y) = generalize_class_binders env l in x @ y
let implicits_of_binders l =
let rec aux i l =
match l with
[] -> []
| hd :: tl ->
let res, reslen =
match hd with
LocalRawAssum (nal, Default Implicit, t) ->
list_map_i (fun i (_,id) ->
let name =
match id with
Name id -> Some id
| Anonymous -> None
in ExplByPos (i, name), (true, true))
i nal, List.length nal
| LocalRawAssum (nal, _, _) -> [], List.length nal
| LocalRawDef _ -> [], 1
in res @ (aux (i + reslen) tl)
in aux 1 l
let implicits_of_rawterm l =
let rec aux i c =
match c with
RProd (loc, na, bk, t, b) | RLambda (loc, na, bk, t, b) ->
let rest = aux (succ i) b in
if bk = Implicit then
let name =
match na with
Name id -> Some id
| Anonymous -> None
in
(ExplByPos (i, name), (true, true)) :: rest
else rest
| RLetIn (loc, na, t, b) -> aux i b
| _ -> []
in aux 1 l
|