--- a/src/Pure/Isar/theory_target.ML Sun Dec 10 15:30:45 2006 +0100
+++ b/src/Pure/Isar/theory_target.ML Sun Dec 10 15:30:46 2006 +0100
@@ -8,15 +8,16 @@
signature THEORY_TARGET =
sig
val peek: local_theory -> string option
+ val is_class: local_theory -> bool
val begin: bstring -> Proof.context -> local_theory
val init: xstring option -> theory -> local_theory
val init_i: string option -> theory -> local_theory
end;
+
structure TheoryTarget: THEORY_TARGET =
struct
-
(** locale targets **)
(* context data *)
@@ -32,6 +33,11 @@
val _ = Context.add_setup Data.init;
val peek = Data.get;
+fun is_class lthy = (* FIXME approximation *)
+ (case peek lthy of
+ NONE => false
+ | SOME loc => can (Sign.certify_class (ProofContext.theory_of lthy)) loc);
+
(* pretty *)
@@ -55,6 +61,40 @@
end;
+(* abbrev *)
+
+val internal_abbrev =
+ LocalTheory.term_syntax o ProofContext.target_abbrev Syntax.internal_mode;
+
+fun occ_params ctxt ts =
+ #1 (ProofContext.inferred_fixes ctxt)
+ |> filter (member (op =) (fold (Variable.add_fixed ctxt) ts []));
+
+fun abbrev is_loc prmode ((raw_c, mx), raw_t) lthy =
+ let
+ val thy_ctxt = ProofContext.init (ProofContext.theory_of lthy);
+ val target = LocalTheory.target_of lthy;
+ val target_morphism = LocalTheory.target_morphism lthy;
+
+ val c = Morphism.name target_morphism raw_c;
+ val t = Morphism.term target_morphism raw_t;
+ val xs = map Free (occ_params target [t]);
+ val u = fold_rev Term.lambda xs t;
+ val u' = singleton (Variable.export_terms (Variable.declare_term u target) thy_ctxt) u;
+
+ val ((const, _), lthy1) = lthy
+ |> LocalTheory.theory_result (Sign.add_abbrev (#1 prmode) (c, u'));
+ val v = Const (#1 const, Term.fastype_of u);
+ val v' = Const const;
+ (* FIXME !? *)
+ val mx' = if is_class lthy then NoSyn else Syntax.unlocalize_mixfix is_loc mx;
+ in
+ lthy1
+ |> LocalTheory.theory (Sign.add_notation prmode [(v', mx')])
+ |> is_loc ? internal_abbrev (PolyML.print ((c, mx), Term.list_comb (v, xs)))
+ end;
+
+
(* consts *)
fun consts is_loc depends decls lthy =
@@ -65,14 +105,16 @@
let
val U = map #2 xs ---> T;
val t = Term.list_comb (Const (Sign.full_name thy c, U), map Free xs);
- val thy' = Sign.add_consts_authentic [(c, U, Syntax.unlocalize_mixfix is_loc mx)] thy;
+ (* FIXME !? *)
+ val mx' = if is_class lthy then NoSyn else Syntax.unlocalize_mixfix is_loc mx;
+ val thy' = Sign.add_consts_authentic [(c, U, mx')] thy;
in (((c, mx), t), thy') end;
val (abbrs, lthy') = lthy |> LocalTheory.theory_result (fold_map const decls);
val defs = abbrs |> map (fn (x, t) => (x, (("", []), t)));
in
lthy'
- |> is_loc ? fold (TermSyntax.abbrev Syntax.internal_mode) abbrs
+ |> is_loc ? fold internal_abbrev abbrs
|> LocalDefs.add_defs defs |>> map (apsnd snd)
end;
@@ -266,20 +308,23 @@
(* init and exit *)
fun begin loc =
- Data.put (if loc = "" then NONE else SOME loc) #>
- LocalTheory.init (NameSpace.base loc)
- {pretty = pretty loc,
- consts = consts (loc <> ""),
- axioms = axioms,
- defs = defs,
- notes = notes loc,
- type_syntax = type_syntax loc,
- term_syntax = term_syntax loc,
- declaration = declaration loc,
- target_morphism = target_morphism loc,
- target_name = target_name loc,
- reinit = fn _ => begin loc o (if loc = "" then ProofContext.init else Locale.init loc),
- exit = LocalTheory.target_of};
+ let val is_loc = loc <> "" in
+ Data.put (if is_loc then SOME loc else NONE) #>
+ LocalTheory.init (NameSpace.base loc)
+ {pretty = pretty loc,
+ consts = consts is_loc,
+ axioms = axioms,
+ abbrev = abbrev is_loc,
+ defs = defs,
+ notes = notes loc,
+ type_syntax = type_syntax loc,
+ term_syntax = term_syntax loc,
+ declaration = declaration loc,
+ target_morphism = target_morphism loc,
+ target_name = target_name loc,
+ reinit = fn _ => begin loc o (if is_loc then Locale.init loc else ProofContext.init),
+ exit = LocalTheory.target_of}
+ end;
fun init_i NONE thy = begin "" (ProofContext.init thy)
| init_i (SOME loc) thy = begin loc (Locale.init loc thy);