+ | Some eq ->
+ (* if we have a maximal_retained_equality, we can discard all equalities
+ "greater" than it, as they will never be reached... An equality is
+ greater than maximal_retained_equality if it is bigger
+ wrt. OrderedEquality.compare and it is less similar than
+ maximal_retained_equality to the current goal *)
+ let symbols, card =
+ match active_list with
+ | (Negative, e)::_ ->
+ let symbols = symbols_of_equality e in
+ let card = TermMap.fold (fun k v res -> res + v) symbols 0 in
+ Some symbols, card
+ | _ -> None, 0
+ in
+ let new_pos =
+ match symbols with
+ | None ->
+ List.filter (fun e -> OrderedEquality.compare e eq <= 0) new_pos
+ | Some symbols ->
+ let filterfun e =
+ if OrderedEquality.compare e eq <= 0 then
+ true
+ else
+ let foldfun k v (r1, r2) =
+ if TermMap.mem k symbols then
+ let c = TermMap.find k symbols in
+ let c1 = abs (c - v) in
+ let c2 = v - c1 in
+ r1 + c2, r2 + c1
+ else
+ r1, r2 + v
+ in
+ let initial =
+ let common, others =
+ TermMap.fold foldfun (symbols_of_equality eq) (0, 0) in
+ others + (abs (common - card))
+ in
+ let common, others =
+ TermMap.fold foldfun (symbols_of_equality e) (0, 0) in
+ let c = others + (abs (common - card)) in
+ if c < initial then true else false
+ in
+ List.filter filterfun new_pos
+ in