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(************************************************************************)
(*         *   The Coq Proof Assistant / The Coq Development Team       *)
(*  v      *   INRIA, CNRS and contributors - Copyright 1999-2018       *)
(* <O___,, *       (see CREDITS file for the list of authors)           *)
(*   \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)         *)
(************************************************************************)

open Util
open Term
open EConstr
open Names
open Pattern
open Globnames

(* Discrimination nets with bounded depth.
   See the module dn.ml for further explanations.
   Eduardo (5/8/97). *)

let dnet_depth = ref 8

type term_label =
| GRLabel of global_reference
| ProdLabel
| LambdaLabel
| SortLabel

let compare_term_label t1 t2 = match t1, t2 with
| GRLabel gr1, GRLabel gr2 -> RefOrdered.compare gr1 gr2
| _ -> Pervasives.compare t1 t2 (** OK *)

type 'res lookup_res = 'res Dn.lookup_res = Label of 'res | Nothing | Everything

let decomp_pat =
  let rec decrec acc = function
    | PApp (f,args) -> decrec (Array.to_list args @ acc) f
    | PProj (p, c) -> (PRef (ConstRef (Projection.constant p)), c :: acc)
    | c -> (c,acc)
  in
  decrec []

let decomp sigma t =
  let rec decrec acc c = match EConstr.kind sigma c with
    | App (f,l) -> decrec (Array.fold_right (fun a l -> a::l) l acc) f
    | Proj (p, c) -> (mkConst (Projection.constant p), c :: acc)
    | Cast (c1,_,_) -> decrec acc c1
    | _ -> (c,acc)
  in
    decrec [] t

let constr_val_discr sigma t =
  let c, l = decomp sigma t in
    match EConstr.kind sigma c with
    | Ind (ind_sp,u) -> Label(GRLabel (IndRef ind_sp),l)
    | Construct (cstr_sp,u) -> Label(GRLabel (ConstructRef cstr_sp),l)
    | Var id -> Label(GRLabel (VarRef id),l)
    | Const _ -> Everything
    | _ -> Nothing

let constr_pat_discr t =
  if not (Patternops.occur_meta_pattern t) then
    None
  else
    match decomp_pat t with
    | PRef ((IndRef _) as ref), args
    | PRef ((ConstructRef _ ) as ref), args -> Some (GRLabel ref,args)
    | PRef ((VarRef v) as ref), args -> Some(GRLabel ref,args)
    | _ -> None

let constr_val_discr_st sigma (idpred,cpred) t =
  let c, l = decomp sigma t in
    match EConstr.kind sigma c with
    | Const (c,u) -> if Cpred.mem c cpred then Everything else Label(GRLabel (ConstRef c),l)
    | Ind (ind_sp,u) -> Label(GRLabel (IndRef ind_sp),l)
    | Construct (cstr_sp,u) -> Label(GRLabel (ConstructRef cstr_sp),l)
    | Var id when not (Id.Pred.mem id idpred) -> Label(GRLabel (VarRef id),l)
    | Prod (n, d, c) -> Label(ProdLabel, [d; c])
    | Lambda (n, d, c) -> 
      if List.is_empty l then 
	Label(LambdaLabel, [d; c] @ l)
      else Everything
    | Sort _ -> Label(SortLabel, [])
    | Evar _ -> Everything
    | _ -> Nothing

let constr_pat_discr_st (idpred,cpred) t =
  match decomp_pat t with
  | PRef ((IndRef _) as ref), args
  | PRef ((ConstructRef _ ) as ref), args -> Some (GRLabel ref,args)
  | PRef ((VarRef v) as ref), args when not (Id.Pred.mem v idpred) ->
      Some(GRLabel ref,args)
  | PVar v, args when not (Id.Pred.mem v idpred) ->
      Some(GRLabel (VarRef v),args)
  | PRef ((ConstRef c) as ref), args when not (Cpred.mem c cpred) ->
      Some (GRLabel ref, args)
  | PProd (_, d, c), [] -> Some (ProdLabel, [d ; c])
  | PLambda (_, d, c), [] -> Some (LambdaLabel, [d ; c])
  | PSort s, [] -> Some (SortLabel, [])
  | _ -> None

let bounded_constr_pat_discr_st st (t,depth) =
  if Int.equal depth 0 then
    None
  else
    match constr_pat_discr_st st t with
      | None -> None
      | Some (c,l) -> Some(c,List.map (fun c -> (c,depth-1)) l)

let bounded_constr_val_discr_st sigma st (t,depth) =
  if Int.equal depth 0 then
    Nothing
  else
    match constr_val_discr_st sigma st t with
      | Label (c,l) -> Label(c,List.map (fun c -> (c,depth-1)) l)
      | Nothing -> Nothing
      | Everything -> Everything

let bounded_constr_pat_discr (t,depth) =
  if Int.equal depth 0 then
    None
  else
    match constr_pat_discr t with
      | None -> None
      | Some (c,l) -> Some(c,List.map (fun c -> (c,depth-1)) l)

let bounded_constr_val_discr sigma (t,depth) =
  if Int.equal depth 0 then
    Nothing
  else
    match constr_val_discr sigma t with
      | Label (c,l) -> Label(c,List.map (fun c -> (c,depth-1)) l)
      | Nothing -> Nothing
      | Everything -> Everything

module Make =
  functor (Z : Map.OrderedType) ->
struct

 module Y = struct
    type t = term_label
    let compare = compare_term_label
 end

 module Dn = Dn.Make(Y)(Z)

 type t = Dn.t

  let empty = Dn.empty

  let add = function
    | None ->
	(fun dn (c,v) ->
	   Dn.add dn bounded_constr_pat_discr ((c,!dnet_depth),v))
    | Some st ->
	(fun dn (c,v) ->
	   Dn.add dn (bounded_constr_pat_discr_st st) ((c,!dnet_depth),v))

  let rmv = function
    | None ->
	(fun dn (c,v) ->
	   Dn.rmv dn bounded_constr_pat_discr ((c,!dnet_depth),v))
    | Some st ->
	(fun dn (c,v) ->
	 Dn.rmv dn (bounded_constr_pat_discr_st st) ((c,!dnet_depth),v))

  let lookup sigma = function
    | None ->
	(fun dn t ->
	     Dn.lookup dn (bounded_constr_val_discr sigma) (t,!dnet_depth))
    | Some st ->
	(fun dn t ->
	     Dn.lookup dn (bounded_constr_val_discr_st sigma st) (t,!dnet_depth))

  let app f dn = Dn.app f dn

end