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

(* Reserved names *)

open CErrors
open Util
open Pp
open Names
open Nameops
open Libobject
open Lib
open Notation_term
open Notation_ops
open Globnames

type key =
  | RefKey of global_reference
  | Oth

(** TODO: share code from Notation *)

let key_compare k1 k2 = match k1, k2 with
| RefKey gr1, RefKey gr2 -> RefOrdered.compare gr1 gr2
| RefKey _, Oth -> -1
| Oth, RefKey _ -> 1
| Oth, Oth -> 0

module KeyOrd = struct type t = key let compare = key_compare end
module KeyMap = Map.Make(KeyOrd)

module ReservedSet :
sig
  type t
  val empty : t
  val add : (Id.t * notation_constr) -> t -> t
  val find : (Id.t -> notation_constr -> bool) -> t -> Id.t * notation_constr
end =
struct
  type t = (Id.t * notation_constr) list

  let empty = []

  let rec mem id c = function
  | [] -> false
  | (id', c') :: l ->
    if c == c' && Id.equal id id' then true else mem id c l

  let add p l =
    let (id, c) = p in
    if mem id c l then l else p :: l

  let rec find f = function
  | [] -> raise Not_found
  | (id, c) as p :: l -> if f id c then p else find f l
end


let keymap_add key data map =
  let old = try KeyMap.find key map with Not_found -> ReservedSet.empty in
  KeyMap.add key (ReservedSet.add data old) map

let reserve_table = Summary.ref Id.Map.empty ~name:"reserved-type"
let reserve_revtable = Summary.ref KeyMap.empty ~name:"reserved-type-rev"

let notation_constr_key = function (* Rem: NApp(NRef ref,[]) stands for @ref *)
  | NApp (NRef ref,args) -> RefKey(canonical_gr ref), Some (List.length args)
  | NList (_,_,NApp (NRef ref,args),_,_)
  | NBinderList (_,_,NApp (NRef ref,args),_,_) -> RefKey (canonical_gr ref), Some (List.length args)
  | NRef ref -> RefKey(canonical_gr ref), None
  | _ -> Oth, None

let cache_reserved_type (_,(id,t)) =
  let key = fst (notation_constr_key t) in
  reserve_table := Id.Map.add id t !reserve_table;
  reserve_revtable := keymap_add key (id, t) !reserve_revtable

let in_reserved : Id.t * notation_constr -> obj =
  declare_object {(default_object "RESERVED-TYPE") with
    cache_function = cache_reserved_type }

let declare_reserved_type_binding {CAst.loc;v=id} t =
  if not (Id.equal id (root_of_id id)) then
    user_err ?loc ~hdr:"declare_reserved_type"
      ((Id.print id ++ str
      " is not reservable: it must have no trailing digits, quote, or _"));
  begin try
    let _ = Id.Map.find id !reserve_table in
    user_err ?loc ~hdr:"declare_reserved_type"
    ((Id.print id++str" is already bound to a type"))
  with Not_found -> () end;
  add_anonymous_leaf (in_reserved (id,t))

let declare_reserved_type idl t =
  List.iter (fun id -> declare_reserved_type_binding id t) (List.rev idl)

let find_reserved_type id = Id.Map.find (root_of_id id) !reserve_table

let constr_key c =
  try RefKey (canonical_gr (global_of_constr (fst (Constr.decompose_app c))))
  with Not_found -> Oth

let revert_reserved_type t =
  try
    let t = EConstr.Unsafe.to_constr t in
    let reserved = KeyMap.find (constr_key t) !reserve_revtable in
    let t = EConstr.of_constr t in
    let t = Detyping.detype Detyping.Now false Id.Set.empty (Global.env()) Evd.empty t in
    (* pedrot: if [Notation_ops.match_notation_constr] may raise [Failure _]
        then I've introduced a bug... *)
    let filter _ pat =
      try
        let _ = match_notation_constr false t ([], pat) in
        true
      with No_match -> false
    in
    let (id, _) = ReservedSet.find filter reserved in
    Name id
  with Not_found | Failure _ -> Anonymous

let _ = Namegen.set_reserved_typed_name revert_reserved_type