(* $Id: terms.mli 9822 2009-06-03 15:37:06Z tassi $ *)
-let eqPref = ref (fun _ -> assert false);;
-let set_eqP t = eqPref := fun _ -> t;;
-
-let default_eqP() =
+let default_eqP =
let uri = NUri.uri_of_string "cic:/matita/basics/logic/eq.ind" in
let ref = NReference.reference_of_spec uri (NReference.Ind(true,0,2)) in
NCic.Const ref
;;
+let eqPref = ref default_eqP;;
+let set_eqP t = eqPref := t;;
+
let equivalence_relation =
let uri = NUri.uri_of_string "cic:/matita/ng/properties/relations/eq_rel.con"
in
let set_default_eqP() = eqPref := default_eqP
-module type NCicContext =
- sig
- val metasenv : NCic.metasenv
- val subst : NCic.substitution
- val context : NCic.context
- end
+let saturate status metasenv subst context t ty =
+ let sty, _, args =
+ (* CSC: NCicPp.status is the best I can put here *)
+ NCicMetaSubst.saturate status ~delta:0 metasenv subst context ty 0
+ in
+ let proof =
+ if args = [] then t
+ else NCic.Appl (t :: args)
+ in
+ proof, sty
+;;
+
-module NCicBlob(C : NCicContext) : Terms.Blob
+module NCicBlob: Terms.Blob
with type t = NCic.term and type input = NCic.term = struct
type t = NCic.term
;;
- let compare x y =
+ let rec alpha_norm k = function
+ | NCic.Lambda (_,ty,t) ->
+ NCic.Lambda("_",alpha_norm k ty,alpha_norm k t)
+ | NCic.Prod (_,ty,t) ->
+ NCic.Prod("_",alpha_norm k ty,alpha_norm k t)
+ | NCic.LetIn (_,ty,t,b) ->
+ NCic.LetIn("_",alpha_norm k ty,alpha_norm k t,alpha_norm k b)
+ | NCic.Meta (_,(_,NCic.Irl _)) as t -> t
+ | NCic.Meta (n,(s,NCic.Ctx tl)) as t ->
+ let tl' = HExtlib.sharing_map (alpha_norm k) tl in
+ if tl == tl' then t else NCic.Meta (n,(s,NCic.Ctx tl'))
+ | t -> NCicUtils.map ~hbr:false (new NCicPp.status None)
+ (fun _ _ -> ()) () alpha_norm t
+
+ (* let compare x y =
(* CSC: NCicPp.status is the best I can put here *)
- if NCicReduction.alpha_eq (new NCicPp.status) [] [] [] x y then 0
+ (* WR: and I can't guess a user id, so I must put None *)
+ if NCicReduction.alpha_eq (new NCicPp.status None) [] [] [] x y then 0
(* if x = y then 0 *)
else compare x y
- ;;
+ ;; *)
- let eqP = (!eqPref)()
+ let eqP = fun () -> !eqPref
;;
let is_eq = function
- | Terms.Node [ Terms.Leaf eqt ; ty; l; r ] when eq eqP eqt ->
+ | Terms.Node [ Terms.Leaf eqt ; ty; l; r ] when eq (eqP()) eqt ->
Some (ty,l,r)
+ | Terms.Node [ Terms.Leaf eqt ; ty; l; r ] ->
+ None
(*
| Terms.Node [ Terms.Leaf eqt ; _; Terms.Node [Terms.Leaf eqt2 ; ty]; l; r]
when eq equivalence_relation eqt && eq setoid_eq eqt2 ->
let pp t =
(* CSC: NCicPp.status is the best I can put here *)
- (new NCicPp.status)#ppterm ~context:C.context
- ~metasenv:C.metasenv ~subst:C.subst t;;
+ (new NCicPp.status None)#ppterm ~context:[] ~metasenv:[] ~subst:[] t
type input = NCic.term
let res,vars = List.fold_left
(fun (r,v) t -> let r1,v1 = embed t in (r1::r),aux [] v v1) ([],[]) l
in (Terms.Node (List.rev res)), vars
- | t -> Terms.Leaf t, []
+ | t -> Terms.Leaf (alpha_norm () t), []
;;
let embed t = fst (embed t) ;;
- let saturate t ty =
- let sty, _, args =
- (* CSC: NCicPp.status is the best I can put here *)
- NCicMetaSubst.saturate (new NCicPp.status) ~delta:0 C.metasenv C.subst
- C.context ty 0
- in
- let proof =
- if args = [] then Terms.Leaf t
- else Terms.Node (Terms.Leaf t :: List.map embed args)
- in
- let sty = embed sty in
- proof, sty
- ;;
-
end
projects / helm.git / blobdiff