X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Focaml%2Fparamodulation%2Futils.ml;h=52d99327e8b5d284c143f57f864027026aa71b53;hb=536e560bab5e6170f84713b9059ea37527a075b2;hp=7f0a8ba5537e82e933b7e71cd62bd0a3b21dcc17;hpb=d8c8060ad0cfc9b93ce919b6662383a230192840;p=helm.git diff --git a/helm/ocaml/paramodulation/utils.ml b/helm/ocaml/paramodulation/utils.ml index 7f0a8ba55..52d99327e 100644 --- a/helm/ocaml/paramodulation/utils.ml +++ b/helm/ocaml/paramodulation/utils.ml @@ -7,8 +7,8 @@ let print_metasenv metasenv = ;; -let print_subst subst = - String.concat "\n" +let print_subst ?(prefix="\n") subst = + String.concat prefix (List.map (fun (i, (c, t, ty)) -> Printf.sprintf "?%d -> %s : %s" i @@ -222,7 +222,7 @@ let rec aux_ordering t1 t2 = | t1, t2 when t1 = t2 -> Eq - | C.Rel n, C.Rel m -> if n > m then Lt else Gt (* ALB: changed < to > *) + | C.Rel n, C.Rel m -> if n > m then Lt else Gt | C.Rel _, _ -> Lt | _, C.Rel _ -> Gt @@ -289,21 +289,127 @@ let names_of_context context = ;; -let string_of_equality ?env = - match env with - | None -> ( - function - | _, (ty, left, right), _, _ -> - Printf.sprintf "{%s}: %s = %s" (CicPp.ppterm ty) - (CicPp.ppterm left) (CicPp.ppterm right) - ) - | Some (_, context, _) -> ( - let names = names_of_context context in - function - | _, (ty, left, right), _, _ -> - Printf.sprintf "{%s}: %s = %s" (CicPp.pp ty names) - (CicPp.pp left names) (CicPp.pp right names) +module OrderedTerm = +struct + type t = Cic.term + + let compare = Pervasives.compare +end + +module TermSet = Set.Make(OrderedTerm);; +module TermMap = Map.Make(OrderedTerm);; + +let symbols_of_term term = + let module C = Cic in + let rec aux map = function + | C.Meta _ -> map + | C.Appl l -> + List.fold_left (fun res t -> (aux res t)) map l + | t -> + let map = + try + let c = TermMap.find t map in + TermMap.add t (c+1) map + with Not_found -> + TermMap.add t 1 map + in + map + in + aux TermMap.empty term +;; + + +let metas_of_term term = + let module C = Cic in + let rec aux = function + | C.Meta _ as t -> TermSet.singleton t + | C.Appl l -> + List.fold_left (fun res t -> TermSet.union res (aux t)) TermSet.empty l + | t -> TermSet.empty (* TODO: maybe add other cases? *) + in + aux term +;; + + +let rec lpo t1 t2 = + let module C = Cic in + match t1, t2 with + | t1, t2 when t1 = t2 -> Eq + | t1, (C.Meta _ as m) -> + if TermSet.mem m (metas_of_term t1) then Gt else Incomparable + | (C.Meta _ as m), t2 -> + if TermSet.mem m (metas_of_term t2) then Lt else Incomparable + | C.Appl (hd1::tl1), C.Appl (hd2::tl2) -> ( + let res = + let f o r t = + if r then true else + match lpo t o with + | Gt | Eq -> true + | _ -> false + in + let res1 = List.fold_left (f t2) false tl1 in + if res1 then Gt + else let res2 = List.fold_left (f t1) false tl2 in + if res2 then Lt + else Incomparable + in + if res <> Incomparable then + res + else + let f o r t = + if not r then false else + match lpo o t with + | Gt -> true + | _ -> false + in + match aux_ordering hd1 hd2 with + | Gt -> + let res = List.fold_left (f t1) false tl2 in + if res then Gt + else Incomparable + | Lt -> + let res = List.fold_left (f t2) false tl1 in + if res then Lt + else Incomparable + | Eq -> ( + let lex_res = + try + List.fold_left2 + (fun r t1 t2 -> if r <> Eq then r else lpo t1 t2) + Eq tl1 tl2 + with Invalid_argument _ -> + Incomparable + in + match lex_res with + | Gt -> + if List.fold_left (f t1) false tl2 then Gt + else Incomparable + | Lt -> + if List.fold_left (f t2) false tl1 then Lt + else Incomparable + | _ -> Incomparable + ) + | _ -> Incomparable ) + | t1, t2 -> aux_ordering t1 t2 ;; +(* settable by the user... *) +let compare_terms = ref nonrec_kbo;; + + +type equality_sign = Negative | Positive;; + +let string_of_sign = function + | Negative -> "Negative" + | Positive -> "Positive" +;; + + +type pos = Left | Right + +let string_of_pos = function + | Left -> "Left" + | Right -> "Right" +;;