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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id: nbtermdn.ml 13332 2010-07-26 22:12:43Z msozeau $ *)
open Util
open Names
open Term
open Libobject
open Library
open Pattern
open Libnames
(* Named, bounded-depth, term-discrimination nets.
Implementation:
Term-patterns are stored in discrimination-nets, which are
themselves stored in a hash-table, indexed by the first label.
They are also stored by name in a table on-the-side, so that we can
override them if needed. *)
(* The former comments are from Chet.
See the module dn.ml for further explanations.
Eduardo (5/8/97) *)
module Make =
functor (Y:Map.OrderedType) ->
struct
module X = struct
type t = constr_pattern*int
let compare = Pervasives.compare
end
module Term_dn = Termdn.Make(Y)
open Term_dn
module Z = struct
type t = Term_dn.term_label
let compare x y =
let make_name n =
match n with
| GRLabel(ConstRef con) ->
GRLabel(ConstRef(constant_of_kn(canonical_con con)))
| GRLabel(IndRef (kn,i)) ->
GRLabel(IndRef(mind_of_kn(canonical_mind kn),i))
| GRLabel(ConstructRef ((kn,i),j ))->
GRLabel(ConstructRef((mind_of_kn(canonical_mind kn),i),j))
| k -> k
in
Pervasives.compare (make_name x) (make_name y)
end
module Dn = Dn.Make(X)(Z)(Y)
module Bounded_net = Btermdn.Make(Y)
type 'na t = {
mutable table : ('na,constr_pattern * Y.t) Gmap.t;
mutable patterns : (Term_dn.term_label option,Bounded_net.t) Gmap.t }
type 'na frozen_t =
('na,constr_pattern * Y.t) Gmap.t
* (Term_dn.term_label option, Bounded_net.t) Gmap.t
let create () =
{ table = Gmap.empty;
patterns = Gmap.empty }
let get_dn dnm hkey =
try Gmap.find hkey dnm with Not_found -> Bounded_net.create ()
let add dn (na,(pat,valu)) =
let hkey = Option.map fst (Term_dn.constr_pat_discr pat) in
dn.table <- Gmap.add na (pat,valu) dn.table;
let dnm = dn.patterns in
dn.patterns <- Gmap.add hkey (Bounded_net.add None (get_dn dnm hkey) (pat,valu)) dnm
let rmv dn na =
let (pat,valu) = Gmap.find na dn.table in
let hkey = Option.map fst (Term_dn.constr_pat_discr pat) in
dn.table <- Gmap.remove na dn.table;
let dnm = dn.patterns in
dn.patterns <- Gmap.add hkey (Bounded_net.rmv None (get_dn dnm hkey) (pat,valu)) dnm
let in_dn dn na = Gmap.mem na dn.table
let remap ndn na (pat,valu) =
rmv ndn na;
add ndn (na,(pat,valu))
let decomp =
let rec decrec acc c = match kind_of_term c with
| App (f,l) -> decrec (Array.fold_right (fun a l -> a::l) l acc) f
| Cast (c1,_,_) -> decrec acc c1
| _ -> (c,acc)
in
decrec []
let constr_val_discr t =
let c, l = decomp t in
match kind_of_term c with
| Ind ind_sp -> Dn.Label(Term_dn.GRLabel (IndRef ind_sp),l)
| Construct cstr_sp -> Dn.Label(Term_dn.GRLabel (ConstructRef cstr_sp),l)
| Var id -> Dn.Label(Term_dn.GRLabel (VarRef id),l)
| Const _ -> Dn.Everything
| _ -> Dn.Nothing
let constr_val_discr_st (idpred,cpred) t =
let c, l = decomp t in
match kind_of_term c with
| Const c -> if Cpred.mem c cpred then Dn.Everything else Dn.Label(Term_dn.GRLabel (ConstRef c),l)
| Ind ind_sp -> Dn.Label(Term_dn.GRLabel (IndRef ind_sp),l)
| Construct cstr_sp -> Dn.Label(Term_dn.GRLabel (ConstructRef cstr_sp),l)
| Var id when not (Idpred.mem id idpred) -> Dn.Label(Term_dn.GRLabel (VarRef id),l)
| Prod (n, d, c) -> Dn.Label(Term_dn.ProdLabel, [d; c])
| Lambda (n, d, c) -> Dn.Label(Term_dn.LambdaLabel, [d; c] @ l)
| Sort _ -> Dn.Label(Term_dn.SortLabel, [])
| Evar _ -> Dn.Everything
| _ -> Dn.Nothing
let lookup dn valu =
let hkey =
match (constr_val_discr valu) with
| Dn.Label(l,_) -> Some l
| _ -> None
in
try Bounded_net.lookup None (Gmap.find hkey dn.patterns) valu with Not_found -> []
let app f dn = Gmap.iter f dn.table
let dnet_depth = Btermdn.dnet_depth
let freeze dn = (dn.table, dn.patterns)
let unfreeze (fnm,fdnm) dn =
dn.table <- fnm;
dn.patterns <- fdnm
let empty dn =
dn.table <- Gmap.empty;
dn.patterns <- Gmap.empty
let to2lists dn =
(Gmap.to_list dn.table, Gmap.to_list dn.patterns)
end
|