--- a/src/HOL/Tools/ATP/atp_proof_reconstruct.ML Mon Oct 08 12:03:49 2012 +0200
+++ b/src/HOL/Tools/ATP/atp_proof_reconstruct.ML Tue Oct 09 00:40:33 2012 +0200
@@ -833,14 +833,151 @@
step :: aux subst depth nextp proof
in aux [] 0 (1, 1) end
-fun string_for_proof ctxt0 type_enc lam_trans i n =
+
+(** Type annotations **)
+
+fun post_traverse_term_type' f _ (t as Const (_, T)) s = f t T s
+ | post_traverse_term_type' f _ (t as Free (_, T)) s = f t T s
+ | post_traverse_term_type' f _ (t as Var (_, T)) s = f t T s
+ | post_traverse_term_type' f env (t as Bound i) s = f t (nth env i) s
+ | post_traverse_term_type' f env (Abs (x, T1, b)) s =
+ let
+ val ((b', s'), T2) = post_traverse_term_type' f (T1 :: env) b s
+ in f (Abs (x, T1, b')) (T1 --> T2) s' end
+ | post_traverse_term_type' f env (u $ v) s =
+ let
+ val ((u', s'), Type (_, [_, T])) = post_traverse_term_type' f env u s
+ val ((v', s''), _) = post_traverse_term_type' f env v s'
+ in f (u' $ v') T s'' end
+
+fun post_traverse_term_type f s t =
+ post_traverse_term_type' (fn t => fn T => fn s => (f t T s, T)) [] t s |> fst
+fun post_fold_term_type f s t =
+ post_traverse_term_type (fn t => fn T => fn s => (t, f t T s)) s t |> snd
+
+(* Data structures, orders *)
+val cost_ord = prod_ord int_ord (prod_ord int_ord int_ord)
+
+structure Var_Set_Tab = Table(
+ type key = indexname list
+ val ord = list_ord Term_Ord.fast_indexname_ord)
+
+(* (1) Generalize Types *)
+fun generalize_types ctxt t =
+ t |> map_types (fn _ => dummyT)
+ |> Syntax.check_term
+ (Proof_Context.set_mode Proof_Context.mode_pattern ctxt)
+
+(* (2) Typing-spot Table *)
+local
+fun key_of_atype (TVar (idxn, _)) =
+ Ord_List.insert Term_Ord.fast_indexname_ord idxn
+ | key_of_atype _ = I
+fun key_of_type T = fold_atyps key_of_atype T []
+fun update_tab t T (tab, pos) =
+ (case key_of_type T of
+ [] => tab
+ | key =>
+ let val cost = (size_of_typ T, (size_of_term t, pos)) in
+ case Var_Set_Tab.lookup tab key of
+ NONE => Var_Set_Tab.update_new (key, cost) tab
+ | SOME old_cost =>
+ (case cost_ord (cost, old_cost) of
+ LESS => Var_Set_Tab.update (key, cost) tab
+ | _ => tab)
+ end,
+ pos + 1)
+in
+val typing_spot_table =
+ post_fold_term_type update_tab (Var_Set_Tab.empty, 0) #> fst
+end
+
+(* (3) Reverse-Greedy *)
+fun reverse_greedy typing_spot_tab =
let
- val ctxt = ctxt0
-(* FIXME: Implement proper handling of type constraints:
- |> Config.put show_free_types false
- |> Config.put show_types false
- |> Config.put show_sorts false
-*)
+ fun update_count z =
+ fold (fn tvar => fn tab =>
+ let val c = Vartab.lookup tab tvar |> the_default 0 in
+ Vartab.update (tvar, c + z) tab
+ end)
+ fun superfluous tcount =
+ forall (fn tvar => the (Vartab.lookup tcount tvar) > 1)
+ fun drop_superfluous (tvars, (_, (_, spot))) (spots, tcount) =
+ if superfluous tcount tvars then (spots, update_count ~1 tvars tcount)
+ else (spot :: spots, tcount)
+ val (typing_spots, tvar_count_tab) =
+ Var_Set_Tab.fold
+ (fn kv as (k, _) => apfst (cons kv) #> apsnd (update_count 1 k))
+ typing_spot_tab ([], Vartab.empty)
+ |>> sort_distinct (rev_order o cost_ord o pairself snd)
+ in fold drop_superfluous typing_spots ([], tvar_count_tab) |> fst end
+
+(* (4) Introduce Annotations *)
+fun introduce_annotations thy spots t t' =
+ let
+ val get_types = post_fold_term_type (K cons) []
+ fun match_types tp =
+ fold (Sign.typ_match thy) (op ~~ (pairself get_types tp)) Vartab.empty
+ fun unica' b x [] = if b then [x] else []
+ | unica' b x (y :: ys) =
+ if x = y then unica' false x ys
+ else unica' true y ys |> b ? cons x
+ fun unica ord xs =
+ case sort ord xs of x :: ys => unica' true x ys | [] => []
+ val add_all_tfree_namesT = fold_atyps (fn TFree (x, _) => cons x | _ => I)
+ fun erase_unica_tfrees env =
+ let
+ val unica =
+ Vartab.fold (add_all_tfree_namesT o snd o snd) env []
+ |> unica fast_string_ord
+ val erase_unica = map_atyps
+ (fn T as TFree (s, _) =>
+ if Ord_List.member fast_string_ord unica s then dummyT else T
+ | T => T)
+ in Vartab.map (K (apsnd erase_unica)) env end
+ val env = match_types (t', t) |> erase_unica_tfrees
+ fun get_annot env (TFree _) = (false, (env, dummyT))
+ | get_annot env (T as TVar (v, S)) =
+ let val T' = Envir.subst_type env T in
+ if T' = dummyT then (false, (env, dummyT))
+ else (true, (Vartab.update (v, (S, dummyT)) env, T'))
+ end
+ | get_annot env (Type (S, Ts)) =
+ (case fold_rev (fn T => fn (b, (env, Ts)) =>
+ let
+ val (b', (env', T)) = get_annot env T
+ in (b orelse b', (env', T :: Ts)) end)
+ Ts (false, (env, [])) of
+ (true, (env', Ts)) => (true, (env', Type (S, Ts)))
+ | (false, (env', _)) => (false, (env', dummyT)))
+ fun post1 _ T (env, cp, ps as p :: ps', annots) =
+ if p <> cp then
+ (env, cp + 1, ps, annots)
+ else
+ let val (_, (env', T')) = get_annot env T in
+ (env', cp + 1, ps', (p, T') :: annots)
+ end
+ | post1 _ _ accum = accum
+ val (_, _, _, annots) = post_fold_term_type post1 (env, 0, spots, []) t'
+ fun post2 t _ (cp, annots as (p, T) :: annots') =
+ if p <> cp then (t, (cp + 1, annots))
+ else (Type.constraint T t, (cp + 1, annots'))
+ | post2 t _ x = (t, x)
+ in post_traverse_term_type post2 (0, rev annots) t |> fst end
+
+(* (5) Annotate *)
+fun annotate_types ctxt t =
+ let
+ val thy = Proof_Context.theory_of ctxt
+ val t' = generalize_types ctxt t
+ val typing_spots =
+ t' |> typing_spot_table
+ |> reverse_greedy
+ |> sort int_ord
+ in introduce_annotations thy typing_spots t t' end
+
+fun string_for_proof ctxt type_enc lam_trans i n =
+ let
fun fix_print_mode f x =
Print_Mode.setmp (filter (curry (op =) Symbol.xsymbolsN)
(print_mode_value ())) f x
@@ -856,7 +993,9 @@
if member (op =) qs Show then "thus" else "hence"
else
if member (op =) qs Show then "show" else "have")
- val do_term = maybe_quote o fix_print_mode (Syntax.string_of_term ctxt)
+ val do_term =
+ maybe_quote o fix_print_mode (Syntax.string_of_term ctxt)
+ o annotate_types ctxt
val reconstr = Metis (type_enc, lam_trans)
fun do_facts (ls, ss) =
reconstructor_command reconstr 1 1 [] 0