X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fng_paramodulation%2Fterms.ml;h=9b374a8a5f4acbbbf6c57d5cae9c5b5d23b4b57f;hb=6b0a195b180e3526af7b55771b2df7b10acd7c30;hp=38e1723c20c3368bacc3861565335620733fa6b5;hpb=f0ee1568dce2315018fe455f696911ac6cb65afc;p=helm.git

diff --git a/helm/software/components/ng_paramodulation/terms.ml b/helm/software/components/ng_paramodulation/terms.ml
index 38e1723c2..9b374a8a5 100644
--- a/helm/software/components/ng_paramodulation/terms.ml
+++ b/helm/software/components/ng_paramodulation/terms.ml
@@ -25,7 +25,7 @@ type direction = Left2Right | Right2Left | Nodir
 type position = int list
 
 type 'a proof =
-  | Exact of 'a
+  | Exact of 'a foterm
   | Step of rule * int * int * direction * position * 'a substitution
          (* rule, eq1, eq2, direction of eq2, position, substitution *)
 
@@ -63,65 +63,9 @@ module type Blob =
     type t
     val eq : t -> t -> bool
     val compare : t -> t -> int
+    val is_eq_predicate : t -> bool
     val pp : t -> string
-    val embed : t -> t foterm * int list
+    val embed : t -> t foterm
+    val saturate : t -> t -> t foterm * t foterm
   end
 
-module Utils (B : Blob) = struct
-  let rec eq_foterm x y =
-    x == y ||
-    match x, y with
-    | Leaf t1, Leaf t2 -> B.eq t1 t2
-    | Var i, Var j -> i = j
-    | Node l1, Node l2 -> List.for_all2 eq_foterm l1 l2
-    | _ -> false
-  ;;
-
-  let rec lexicograph f l1 l2 =
-    match l1, l2 with
-    | [], [] -> 0
-    | x::xs, y::ys ->
-       let c = f x y in
-       if c <> 0 then c else lexicograph f xs ys
-    | [],_ -> ~-1
-    | _,[] -> 1
-  ;;
-
-  let rec compare_foterm x y =
-    match x, y with
-    | Leaf t1, Leaf t2 -> B.compare t1 t2
-    | Var i, Var j -> i - j
-    | Node l1, Node l2 -> lexicograph compare_foterm l1 l2
-    | Leaf _, ( Node _ | Var _ ) -> ~-1
-    | Node _, Leaf _ -> 1
-    | Node _, Var _ -> ~-1
-    | Var _, _ ->  1
-  ;;
-
-  let eq_literal l1 l2 =
-    match l1, l2 with
-    | Predicate p1, Predicate p2 -> eq_foterm p1 p2
-    | Equation (l1,r1,ty1,o1), Equation (l2,r2,ty2,o2) ->
-        o1 = o2 && eq_foterm l1 l2 && eq_foterm r1 r2 && eq_foterm ty1 ty2
-    | _ -> false
-  ;;
-
-  let compare_literal l1 l2 =
-    match l1, l2 with
-    | Predicate p1, Predicate p2 -> compare_foterm p1 p2
-    | Equation (l1,r1,ty1,o1), Equation (l2,r2,ty2,o2) ->
-        let c = Pervasives.compare o1 o2 in
-        if c <> 0 then c else
-          let c = compare_foterm l1 l2 in
-          if c <> 0 then c else
-            let c = compare_foterm r1 r2 in
-            if c <> 0 then c else
-              compare_foterm ty1 ty2
-    | Predicate _, Equation _ -> ~-1
-    | Equation _, Predicate _ -> 1
-  ;;
-
-  let eq_unit_clause (id1,_,_,_) (id2,_,_,_) = id1 = id2
-  let compare_unit_clause (id1,_,_,_) (id2,_,_,_) = Pervasives.compare id1 id2
-
-end