X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fng_paramodulation%2Forderings.ml;h=85a1497a753361141d922fd4c31eb15f5fe4f67d;hb=c900512d028a10f1caf89677c9a7dd61c7a64856;hp=5c42090c4508d03308809a78d125d65590d73b6c;hpb=07fb52e761b192a97c6fe00c657e670b2d1fc2f1;p=helm.git diff --git a/helm/software/components/ng_paramodulation/orderings.ml b/helm/software/components/ng_paramodulation/orderings.ml index 5c42090c4..85a1497a7 100644 --- a/helm/software/components/ng_paramodulation/orderings.ml +++ b/helm/software/components/ng_paramodulation/orderings.ml @@ -15,6 +15,8 @@ type aux_comparison = XEQ | XLE | XGE | XLT | XGT | XINCOMPARABLE module Orderings (B : Terms.Blob) = struct + module Pp = Pp.Pp(B) + type weight = int * (int * int) list;; let string_of_weight (cw, mw) = @@ -219,14 +221,119 @@ let compute_goal_weight (_,l, _, _) = ) else r | res -> res ;; - + + let rec lpo s t = + match s,t with + | s, t when s = t -> + XEQ + | Terms.Var _, Terms.Var _ -> + XINCOMPARABLE + | _, Terms.Var i -> + if (List.mem i (Terms.vars_of_term s)) then XGT + else XINCOMPARABLE + | Terms.Var i,_ -> + if (List.mem i (Terms.vars_of_term t)) then XLT + else XINCOMPARABLE + | Terms.Node (hd1::tl1), Terms.Node (hd2::tl2) -> + if List.exists (fun x -> let o = lpo x t in o=XGT || o=XEQ) tl1 + then XGT + else if List.exists (fun x -> let o=lpo s x in o=XLT || o=XEQ) tl2 + then XLT + else begin + match aux_ordering hd1 hd2 with + | XGT -> if List.for_all (fun x -> lpo s x = XGT) tl2 then XGT + else XINCOMPARABLE + | XLT -> if List.for_all (fun x -> lpo x t = XLT) tl1 then XLT + else XINCOMPARABLE + | XEQ -> + let lex = List.fold_left2 + (fun acc si ti -> if acc = XEQ then lpo si ti else acc) + XEQ tl1 tl2 + in + (match lex with + | XGT -> + if List.for_all (fun x -> lpo s x = XGT) tl2 then XGT + else XINCOMPARABLE + | XLT -> + if List.for_all (fun x -> lpo x t = XLT) tl1 then XLT + else XINCOMPARABLE + | o -> o) + | XINCOMPARABLE -> XINCOMPARABLE + | _ -> assert false + end + | _,_ -> aux_ordering s t + + ;; + +let rec lpo_old t1 t2 = + match t1, t2 with + | t1, t2 when t1 = t2 -> XEQ + | t1, (Terms.Var m) -> + if List.mem m (Terms.vars_of_term t1) then XGT else XINCOMPARABLE + | (Terms.Var m), t2 -> + if List.mem m (Terms.vars_of_term t2) then XLT else XINCOMPARABLE + | Terms.Node (hd1::tl1), Terms.Node (hd2::tl2) -> ( + let res = + let f o r t = + if r then true else + match lpo_old t o with + | XGT | XEQ -> true + | _ -> false + in + let res1 = List.fold_left (f t2) false tl1 in + if res1 then XGT + else let res2 = List.fold_left (f t1) false tl2 in + if res2 then XLT + else XINCOMPARABLE + in + if res <> XINCOMPARABLE then + res + else + let f o r t = + if not r then false else + match lpo_old o t with + | XGT -> true + | _ -> false + in + match aux_ordering hd1 hd2 with + | XGT -> + let res = List.fold_left (f t1) true tl2 in + if res then XGT + else XINCOMPARABLE + | XLT -> + let res = List.fold_left (f t2) true tl1 in + if res then XLT + else XINCOMPARABLE + | XEQ -> ( + let lex_res = + try + List.fold_left2 + (fun r t1 t2 -> if r <> XEQ then r else lpo_old t1 t2) + XEQ tl1 tl2 + with Invalid_argument _ -> + XINCOMPARABLE + in + match lex_res with + | XGT -> + if List.fold_left (f t1) true tl2 then XGT + else XINCOMPARABLE + | XLT -> + if List.fold_left (f t2) true tl1 then XLT + else XINCOMPARABLE + | _ -> XINCOMPARABLE + ) + | _ -> XINCOMPARABLE + ) + | t1, t2 -> aux_ordering t1 t2 +;; + let compare_terms x y = - match nonrec_kbo x y with - | XINCOMPARABLE -> Terms.Incomparable - | XGT -> Terms.Gt - | XLT -> Terms.Lt - | XEQ -> Terms.Eq - | _ -> assert false + match lpo x y with + | XINCOMPARABLE -> Terms.Incomparable + | XGT -> Terms.Gt + | XLT -> Terms.Lt + | XEQ -> Terms.Eq + | _ -> assert false ;; end