--- a/src/HOL/Tools/typedef_package.ML Tue Sep 06 16:59:54 2005 +0200
+++ b/src/HOL/Tools/typedef_package.ML Tue Sep 06 16:59:55 2005 +0200
@@ -61,9 +61,8 @@
fun print _ _ = ();
end);
-fun put_typedef newT oldT Abs_name Rep_name thy =
- TypedefData.put (Symtab.curried_update_new
- (fst (dest_Type newT), (newT, oldT, Abs_name, Rep_name)) (TypedefData.get thy)) thy;
+fun put_typedef newT oldT Abs_name Rep_name =
+ TypedefData.map (Symtab.curried_update_new (fst (dest_Type newT), (newT, oldT, Abs_name, Rep_name)));
@@ -101,7 +100,7 @@
witn1_tac THEN
TRY (rewrite_goals_tac (List.filter is_def thms)) THEN
TRY (REPEAT_FIRST (resolve_tac (filter_out is_def thms))) THEN
- getOpt (witn2_tac, TRY (ALLGOALS (CLASET' blast_tac)));
+ if_none witn2_tac (TRY (ALLGOALS (CLASET' blast_tac)));
in
message ("Proving non-emptiness of set " ^ quote (string_of_cterm cset) ^ " ...");
Tactic.prove thy [] [] goal (K tac)
@@ -128,24 +127,29 @@
val full_name = full name;
val cset = prep_term thy vs raw_set;
val {T = setT, t = set, ...} = Thm.rep_cterm cset;
- val rhs_tfrees = term_tfrees set;
+ val rhs_tfrees = Term.add_tfrees set [];
+ val rhs_tfreesT = Term.add_tfreesT setT [];
val oldT = HOLogic.dest_setT setT handle TYPE _ =>
error ("Not a set type: " ^ quote (Sign.string_of_typ thy setT));
fun mk_nonempty A =
HOLogic.mk_Trueprop (HOLogic.mk_exists ("x", oldT, HOLogic.mk_mem (Free ("x", oldT), A)));
val goal = mk_nonempty set;
- val vname = take_suffix Symbol.is_digit (Symbol.explode name)
- |> apfst implode |> apsnd (#1 o Library.read_int);
- val goal_pat = mk_nonempty (Var (vname, setT));
+ val goal_pat = mk_nonempty (Var (if_none (Syntax.read_variable name) (name, 0), setT));
(*lhs*)
- val lhs_tfrees = map (fn v => (v, getOpt (assoc (rhs_tfrees, v), HOLogic.typeS))) vs;
+ val defS = Sign.defaultS thy;
+ val lhs_tfrees = map (fn v => (v, if_none (AList.lookup (op =) rhs_tfrees v) defS)) vs;
+ val args_setT = lhs_tfrees
+ |> filter (member (op =) rhs_tfrees andf (not o member (op =) rhs_tfreesT))
+ |> map TFree;
+
val tname = Syntax.type_name t mx;
val full_tname = full tname;
val newT = Type (full_tname, map TFree lhs_tfrees);
- val (Rep_name, Abs_name) = getOpt (opt_morphs, ("Rep_" ^ name, "Abs_" ^ name));
- val setC = Const (full_name, setT);
+ val (Rep_name, Abs_name) = if_none opt_morphs ("Rep_" ^ name, "Abs_" ^ name);
+ val setT' = map itselfT args_setT ---> setT;
+ val setC = Term.list_comb (Const (full_name, setT'), map Logic.mk_type args_setT);
val RepC = Const (full Rep_name, newT --> oldT);
val AbsC = Const (full Abs_name, oldT --> newT);
val x_new = Free ("x", newT);
@@ -164,7 +168,7 @@
|> put_typedef newT oldT (full Abs_name) (full Rep_name)
|> add_typedecls [(t, vs, mx)]
|> Theory.add_consts_i
- ((if def then [(name, setT, NoSyn)] else []) @
+ ((if def then [(name, setT', NoSyn)] else []) @
[(Rep_name, newT --> oldT, NoSyn),
(Abs_name, oldT --> newT, NoSyn)])
|> (if def then (apsnd (SOME o hd) oo (PureThy.add_defs_i false o map Thm.no_attributes))
@@ -215,7 +219,7 @@
| dups => ["Duplicate type variables on lhs: " ^ show_names dups]);
val extra_rhs_tfrees =
- (case gen_rems (op =) (rhs_tfrees, lhs_tfrees) of [] => []
+ (case fold (remove (op =)) lhs_tfrees rhs_tfrees of [] => []
| extras => ["Extra type variables on rhs: " ^ show_names extras]);
val illegal_frees =
@@ -246,7 +250,7 @@
fun sane_typedef prep_term def opt_name typ set opt_morphs tac =
gen_typedef prep_term def
- (getOpt (opt_name, #1 typ)) typ set opt_morphs all_tac [] [] (SOME tac);
+ (if_none opt_name (#1 typ)) typ set opt_morphs all_tac [] [] (SOME tac);
fun add_typedef_x name typ set names thms tac =
#1 o gen_typedef read_term true name typ set NONE (Tactic.rtac exI 1) names thms tac;
@@ -307,7 +311,7 @@
(case Symtab.curried_lookup (TypedefData.get thy) s of
NONE => NONE
| SOME (newT as Type (tname, Us), oldT, Abs_name, Rep_name) =>
- if isSome (Codegen.get_assoc_type thy tname) then NONE else
+ if is_some (Codegen.get_assoc_type thy tname) then NONE else
let
val module' = Codegen.if_library
(Codegen.thyname_of_type tname thy) module;
@@ -383,7 +387,7 @@
Scan.option (P.$$$ "morphisms" |-- P.!!! (P.name -- P.name));
fun mk_typedef_proof ((((((def, opt_name), (vs, t)), mx), A), morphs)) =
- typedef_proof ((def, getOpt (opt_name, Syntax.type_name t mx)), (t, vs, mx), A, morphs);
+ typedef_proof ((def, if_none opt_name (Syntax.type_name t mx)), (t, vs, mx), A, morphs);
val typedefP =
OuterSyntax.command "typedef" "HOL type definition (requires non-emptiness proof)" K.thy_goal