= Make(FotermIndexable)(ClauseSet)
let index_literal t c is_pos pos = function
+ | Terms.Equation (l,_,_,Terms.Invertible)
| Terms.Equation (l,_,_,Terms.Gt) ->
DT.index t l (Terms.Left2Right,is_pos,pos,c)
| Terms.Equation (_,r,_,Terms.Lt) ->
let eq_foterm = eq_foterm B.eq;;
+exception UnificationFailure of string Lazy.t;;
+
+
+(* DUPLICATE CODE FOR TESTS (see FoUnif) *)
+ let alpha_eq s t =
+ let rec equiv subst s t =
+ let s = match s with Terms.Var i -> FoSubst.lookup i subst | _ -> s
+ and t = match t with Terms.Var i -> FoSubst.lookup i subst | _ -> t
+
+ in
+ match s, t with
+ | s, t when eq_foterm s t -> subst
+ | Terms.Var i, Terms.Var j
+ when (not (List.exists (fun (_,k) -> k=t) subst)) ->
+ let subst = FoSubst.build_subst i t subst in
+ subst
+ | Terms.Node l1, Terms.Node l2 -> (
+ try
+ List.fold_left2
+ (fun subst' s t -> equiv subst' s t)
+ subst l1 l2
+ with Invalid_argument _ ->
+ raise (UnificationFailure (lazy "Inference.unification.unif"))
+ )
+ | _, _ ->
+ raise (UnificationFailure (lazy "Inference.unification.unif"))
+ in
+ equiv FoSubst.id_subst s t
+;;
+
+let relocate maxvar varlist subst =
+ List.fold_right
+ (fun i (maxvar, varlist, s) ->
+ maxvar+1, maxvar::varlist, FoSubst.build_subst i (Terms.Var maxvar) s)
+ varlist (maxvar+1, [], subst)
+ ;;
+
+ let are_invertible l r =
+ let varlist = Terms.vars_of_term l in
+ let maxvar = List.fold_left max 0 varlist in
+ let _,_,subst = relocate maxvar varlist FoSubst.id_subst in
+ let l = FoSubst.apply_subst subst l in
+ try (ignore(alpha_eq l r);true) with
+ UnificationFailure _ -> false
+
let compute_clause_weight = compute_clause_weight;;
- let compute_goal_weight = compute_goal_weight;;
(* Riazanov: p. 40, relation >_n *)
let nonrec_kbo t1 t2 =
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