maxmeta := newmeta;
if is_identity env newcurrent then
if sign = Negative then Some (sign, newcurrent)
- else None
+ else (
+(* debug_print *)
+(* (lazy *)
+(* (Printf.sprintf "\ncurrent was: %s\nnewcurrent is: %s\n" *)
+(* (string_of_equality current) *)
+(* (string_of_equality newcurrent))); *)
+(* debug_print *)
+(* (lazy *)
+(* (Printf.sprintf "active is: %s" *)
+(* (String.concat "\n" *)
+(* (List.map (fun (_, e) -> (string_of_equality e)) active_list)))); *)
+ None
+ )
else
Some (sign, newcurrent)
in
None
else
match passive_table with
- | None -> res
+ | None ->
+ if fst (Indexing.subsumption env active_table c) then
+ None
+ else
+ res
| Some passive_table ->
if Indexing.in_index passive_table c then None
- else res
+ else
+ let r1, _ = Indexing.subsumption env active_table c in
+ if r1 then None else
+ let r2, _ = Indexing.subsumption env passive_table c in
+ if r2 then None else res
;;
type fs_time_info_t = {
not ((Indexing.in_index active_table e) ||
(Indexing.in_index passive_table e)))
in
- new_neg, List.filter is_duplicate new_pos
+ new_neg, List.filter subs (List.filter is_duplicate new_pos)
;;
let lib_eq_uris, library_equalities, maxm =
find_library_equalities dbd context (proof, goal') (maxm+2)
in
+ let library_equalities = List.map snd library_equalities in
maxmeta := maxm+2; (* TODO ugly!! *)
let irl = CicMkImplicit.identity_relocation_list_for_metavariable context in
let new_meta_goal, metasenv, type_of_goal =
Printf.printf "\nequalities:\n%s\n"
(String.concat "\n"
(List.map
- (string_of_equality ~env)
- (equalities @ library_equalities)));
+ (string_of_equality ~env) equalities));
+(* (equalities @ library_equalities))); *)
print_endline "--------------------------------------------------";
let start = Unix.gettimeofday () in
print_endline "GO!";
let lib_eq_uris, library_equalities, maxm =
find_library_equalities dbd context (proof, goal') (maxm+2)
in
+ let library_equalities = List.map snd library_equalities in
let t2 = Unix.gettimeofday () in
maxmeta := maxm+2;
let equalities =
AutoTactic.term_is_equality := Inference.term_is_equality;
);;
+
+let retrieve_and_print dbd term metasenv ugraph =
+ let module C = Cic in
+ let module T = CicTypeChecker in
+ let module PET = ProofEngineTypes in
+ let module PP = CicPp in
+ let proof = None, (1, [], term)::metasenv, C.Meta (1, []), term in
+ let status = PET.apply_tactic (PrimitiveTactics.intros_tac ()) (proof, 1) in
+ let proof, goals = status in
+ let goal' = List.nth goals 0 in
+ let uri, metasenv, meta_proof, term_to_prove = proof in
+ let _, context, goal = CicUtil.lookup_meta goal' metasenv in
+ let eq_indexes, equalities, maxm = find_equalities context proof in
+ let new_meta_goal, metasenv, type_of_goal =
+ let irl =
+ CicMkImplicit.identity_relocation_list_for_metavariable context in
+ let _, context, ty = CicUtil.lookup_meta goal' metasenv in
+ debug_print
+ (lazy (Printf.sprintf "\n\nTIPO DEL GOAL: %s\n" (CicPp.ppterm ty)));
+ Cic.Meta (maxm+1, irl),
+ (maxm+1, context, ty)::metasenv,
+ ty
+ in
+ let ugraph = CicUniv.empty_ugraph in
+ let env = (metasenv, context, ugraph) in
+ let goal = Inference.BasicProof new_meta_goal, [], goal in
+ let t1 = Unix.gettimeofday () in
+ let lib_eq_uris, library_equalities, maxm =
+ find_library_equalities dbd context (proof, goal') (maxm+2)
+ in
+ let t2 = Unix.gettimeofday () in
+ maxmeta := maxm+2;
+ let equalities =
+ let equalities = (* equalities @ *) library_equalities in
+ debug_print
+ (lazy
+ (Printf.sprintf "\n\nequalities:\n%s\n"
+ (String.concat "\n"
+ (List.map
+ (fun (u, e) ->
+(* Printf.sprintf "%s: %s" *)
+ (UriManager.string_of_uri u)
+(* (string_of_equality e) *)
+ )
+ equalities))));
+ debug_print (lazy "SIMPLYFYING EQUALITIES...");
+ let rec simpl e others others_simpl =
+ let (u, e) = e in
+ let active = List.map (fun (u, e) -> (Positive, e))
+ (others @ others_simpl) in
+ let tbl =
+ List.fold_left
+ (fun t (_, e) -> Indexing.index t e)
+ (Indexing.empty_table ()) active
+ in
+ let res = forward_simplify env (Positive, e) (active, tbl) in
+ match others with
+ | hd::tl -> (
+ match res with
+ | None -> simpl hd tl others_simpl
+ | Some e -> simpl hd tl ((u, (snd e))::others_simpl)
+ )
+ | [] -> (
+ match res with
+ | None -> others_simpl
+ | Some e -> (u, (snd e))::others_simpl
+ )
+ in
+ match equalities with
+ | [] -> []
+ | hd::tl ->
+ let others = tl in (* List.map (fun e -> (Positive, e)) tl in *)
+ let res =
+ List.rev (simpl (*(Positive,*) hd others [])
+ in
+ debug_print
+ (lazy
+ (Printf.sprintf "\nequalities AFTER:\n%s\n"
+ (String.concat "\n"
+ (List.map
+ (fun (u, e) ->
+ Printf.sprintf "%s: %s"
+ (UriManager.string_of_uri u)
+ (string_of_equality e)
+ )
+ res))));
+ res
+ in
+ debug_print
+ (lazy
+ (Printf.sprintf "Time to retrieve equalities: %.9f\n" (t2 -. t1)))
+;;