--- a/src/HOL/Tools/BNF/bnf_fp_def_sugar.ML Tue Apr 07 15:14:14 2015 +0200
+++ b/src/HOL/Tools/BNF/bnf_fp_def_sugar.ML Tue Apr 07 17:24:55 2015 +0200
@@ -1974,7 +1974,7 @@
let
fun add_edges i =
fold (fn T => fold_index (fn (j, X) =>
- exists_subtype (curry (op =) X) T ? cons (i, j)) Xs);
+ Term.exists_subtype (curry (op =) X) T ? cons (i, j)) Xs);
in
fold_index (uncurry (fold o add_edges)) ctrXs_Tsss []
end;
--- a/src/HOL/Tools/BNF/bnf_gfp_rec_sugar.ML Tue Apr 07 15:14:14 2015 +0200
+++ b/src/HOL/Tools/BNF/bnf_gfp_rec_sugar.ML Tue Apr 07 17:24:55 2015 +0200
@@ -51,8 +51,8 @@
val massage_let_if_case: Proof.context -> (term -> bool) -> (typ list -> term -> term) ->
typ list -> term -> term
val massage_nested_corec_call: Proof.context -> (term -> bool) ->
- (typ list -> typ -> typ -> term -> term) -> (typ -> typ -> term) -> typ list -> typ -> term ->
- term
+ (typ list -> typ -> typ -> term -> term) -> (typ -> typ -> term -> term) -> typ list -> typ ->
+ term -> term
val expand_to_ctr_term: Proof.context -> string -> typ list -> term -> term
val massage_corec_code_rhs: Proof.context -> (typ list -> term -> term list -> term) ->
typ list -> term -> term
@@ -314,7 +314,7 @@
(Type (@{type_name fun}, [T1, T2])) t =
Abs (Name.uu, T1, massage_mutual_call bound_Ts U2 T2 (incr_boundvars 1 t $ Bound 0))
| massage_mutual_call bound_Ts U T t =
- if has_call t then massage_call bound_Ts T U t else wrap_noncall T U $ t;
+ if has_call t then massage_call bound_Ts T U t else wrap_noncall T U t;
fun massage_map bound_Ts (Type (_, Us)) (Type (s, Ts)) t =
(case try (dest_map ctxt s) t of
@@ -383,11 +383,11 @@
| _ => massage_mutual_call bound_Ts U T t))
| _ => ill_formed_corec_call ctxt t)
else
- wrap_noncall T U $ t) bound_Ts;
+ wrap_noncall T U t) bound_Ts;
val T = fastype_of1 (bound_Ts, t0);
in
- if has_call t0 then massage_any_call bound_Ts U T t0 else wrap_noncall T U $ t0
+ if has_call t0 then massage_any_call bound_Ts U T t0 else wrap_noncall T U t0
end;
fun expand_to_ctr_term ctxt s Ts t =
@@ -564,7 +564,7 @@
fun abstract vs =
let
fun abs n (t $ u) = abs n t $ abs n u
- | abs n (Abs (v, T, b)) = Abs (v, T, abs (n + 1) b)
+ | abs n (Abs (s, T, t)) = Abs (s, T, abs (n + 1) t)
| abs n t =
let val j = find_index (curry (op =) t) vs in
if j < 0 then t else Bound (n + j)
@@ -603,16 +603,16 @@
Disc of coeqn_data_disc |
Sel of coeqn_data_sel;
-fun is_free_in frees (Free (v, _)) = member (op =) frees v
+fun is_free_in frees (Free (s, _)) = member (op =) frees s
| is_free_in _ _ = false;
-fun is_catch_all_prem (Free (v, _)) = v = Name.uu_
+fun is_catch_all_prem (Free (s, _)) = s = Name.uu_
| is_catch_all_prem _ = false;
fun add_extra_frees ctxt frees names =
- fold_aterms (fn x as Free (v, _) =>
- (not (member (op =) frees x) andalso not (member (op =) names v) andalso
- not (Variable.is_fixed ctxt v) andalso not (is_catch_all_prem x))
+ fold_aterms (fn x as Free (s, _) =>
+ (not (member (op =) frees x) andalso not (member (op =) names s) andalso
+ not (Variable.is_fixed ctxt s) andalso not (is_catch_all_prem x))
? cons x | _ => I);
fun check_extra_frees ctxt frees names t =
@@ -901,7 +901,7 @@
SOME (U1, U2) => if U1 = T then U2 else invalid_map ctxt t0
| NONE => invalid_map ctxt t0);
- fun rewrite bound_Ts (Abs (v, V, b)) = Abs (v, V, rewrite (V :: bound_Ts) b)
+ fun rewrite bound_Ts (Abs (s, T', t')) = Abs (s, T', rewrite (T' :: bound_Ts) t')
| rewrite bound_Ts (t as _ $ _) =
let val (u, vs) = strip_comb t in
if is_Free u andalso has_call u then
@@ -919,7 +919,7 @@
rewrite bound_Ts t0
end;
- fun wrap_noncall T U = build_map ctxt [] (uncurry Inl_const o dest_sumT o snd) (T, U);
+ fun wrap_noncall T U t = build_map ctxt [] (uncurry Inl_const o dest_sumT o snd) (T, U) $ t;
val bound_Ts = List.rev (map fastype_of fun_args);