src/HOL/Tools/typedef_package.ML
author wenzelm
Tue Sep 06 16:59:55 2005 +0200 (2005-09-06)
changeset 17280 a6917ddc864f
parent 17261 193b84a70ca4
child 17339 ab97ccef124a
permissions -rw-r--r--
proper treatment of polymorphic sets;
tuned;
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(*  Title:      HOL/Tools/typedef_package.ML
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    ID:         $Id$
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    Author:     Markus Wenzel and Stefan Berghofer, TU Muenchen
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Gordon/HOL-style type definitions.
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*)
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signature TYPEDEF_PACKAGE =
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sig
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  val quiet_mode: bool ref
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  val add_typedecls: (bstring * string list * mixfix) list -> theory -> theory
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  val add_typedef_x: string -> bstring * string list * mixfix ->
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    string -> string list -> thm list -> tactic option -> theory -> theory
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  val add_typedef: bool -> string option -> bstring * string list * mixfix ->
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    string -> (bstring * bstring) option -> tactic -> theory -> theory *
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    {type_definition: thm, set_def: thm option, Rep: thm, Rep_inverse: thm,
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      Abs_inverse: thm, Rep_inject: thm, Abs_inject: thm, Rep_cases: thm, Abs_cases: thm,
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      Rep_induct: thm, Abs_induct: thm}
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  val add_typedef_i: bool -> string option -> bstring * string list * mixfix ->
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    term -> (bstring * bstring) option -> tactic -> theory -> theory *
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    {type_definition: thm, set_def: thm option, Rep: thm, Rep_inverse: thm,
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      Abs_inverse: thm, Rep_inject: thm, Abs_inject: thm, Rep_cases: thm, Abs_cases: thm,
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      Rep_induct: thm, Abs_induct: thm}
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  val typedef_proof: (bool * string) * (bstring * string list * mixfix) * string
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    * (string * string) option -> bool -> theory -> ProofHistory.T
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  val typedef_proof_i: (bool * string) * (bstring * string list * mixfix) * term
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    * (string * string) option -> bool -> theory -> ProofHistory.T
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  val setup: (theory -> theory) list
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end;
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structure TypedefPackage: TYPEDEF_PACKAGE =
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struct
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(** theory context references **)
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val type_definitionN = "Typedef.type_definition";
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val Rep = thm "type_definition.Rep";
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val Rep_inverse = thm "type_definition.Rep_inverse";
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val Abs_inverse = thm "type_definition.Abs_inverse";
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val Rep_inject = thm "type_definition.Rep_inject";
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val Abs_inject = thm "type_definition.Abs_inject";
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val Rep_cases = thm "type_definition.Rep_cases";
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val Abs_cases = thm "type_definition.Abs_cases";
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val Rep_induct = thm "type_definition.Rep_induct";
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val Abs_induct = thm "type_definition.Abs_induct";
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(** theory data **)
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structure TypedefData = TheoryDataFun
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(struct
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  val name = "HOL/typedef";
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  type T = (typ * typ * string * string) Symtab.table;
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  val empty = Symtab.empty;
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  val copy = I;
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  val extend = I;
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  fun merge _ (tabs: T * T) = Symtab.merge (op =) tabs;
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  fun print _ _ = ();
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end);
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fun put_typedef newT oldT Abs_name Rep_name =
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  TypedefData.map (Symtab.curried_update_new (fst (dest_Type newT), (newT, oldT, Abs_name, Rep_name)));
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(** type declarations **)
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fun add_typedecls decls thy =
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  let
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    fun arity_of (raw_name, args, mx) =
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      (Sign.full_name thy (Syntax.type_name raw_name mx),
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        replicate (length args) HOLogic.typeS, HOLogic.typeS);
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  in
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    if can (Theory.assert_super HOL.thy) thy then
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      thy |> Theory.add_typedecls decls
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      |> Theory.add_arities_i (map arity_of decls)
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    else thy |> Theory.add_typedecls decls
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  end;
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(** type definitions **)
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(* messages *)
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val quiet_mode = ref false;
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fun message s = if ! quiet_mode then () else writeln s;
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(* prove_nonempty -- tactical version *)        (*exception ERROR*)
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fun prove_nonempty thy cset goal (witn1_tac, witn_names, witn_thms, witn2_tac) =
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  let
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    val is_def = Logic.is_equals o #prop o Thm.rep_thm;
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    val thms = PureThy.get_thmss thy (map Name witn_names) @ witn_thms;
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    val tac =
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      witn1_tac THEN
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      TRY (rewrite_goals_tac (List.filter is_def thms)) THEN
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      TRY (REPEAT_FIRST (resolve_tac (filter_out is_def thms))) THEN
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      if_none witn2_tac (TRY (ALLGOALS (CLASET' blast_tac)));
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  in
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    message ("Proving non-emptiness of set " ^ quote (string_of_cterm cset) ^ " ...");
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    Tactic.prove thy [] [] goal (K tac)
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  end
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  handle ERROR => error ("Failed to prove non-emptiness of " ^ quote (string_of_cterm cset));
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(* prepare_typedef *)
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fun read_term thy used s =
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  #1 (Thm.read_def_cterm (thy, K NONE, K NONE) used true (s, HOLogic.typeT));
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fun cert_term thy _ t = Thm.cterm_of thy t handle TERM (msg, _) => error msg;
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fun err_in_typedef name =
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  error ("The error(s) above occurred in typedef " ^ quote name);
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fun prepare_typedef prep_term def name (t, vs, mx) raw_set opt_morphs thy =
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  let
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    val _ = Theory.requires thy "Typedef" "typedefs";
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    val full = Sign.full_name thy;
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    (*rhs*)
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    val full_name = full name;
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    val cset = prep_term thy vs raw_set;
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    val {T = setT, t = set, ...} = Thm.rep_cterm cset;
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    val rhs_tfrees = Term.add_tfrees set [];
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    val rhs_tfreesT = Term.add_tfreesT setT [];
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    val oldT = HOLogic.dest_setT setT handle TYPE _ =>
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      error ("Not a set type: " ^ quote (Sign.string_of_typ thy setT));
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    fun mk_nonempty A =
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      HOLogic.mk_Trueprop (HOLogic.mk_exists ("x", oldT, HOLogic.mk_mem (Free ("x", oldT), A)));
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    val goal = mk_nonempty set;
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    val goal_pat = mk_nonempty (Var (if_none (Syntax.read_variable name) (name, 0), setT));
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    (*lhs*)
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    val defS = Sign.defaultS thy;
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    val lhs_tfrees = map (fn v => (v, if_none (AList.lookup (op =) rhs_tfrees v) defS)) vs;
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    val args_setT = lhs_tfrees
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      |> filter (member (op =) rhs_tfrees andf (not o member (op =) rhs_tfreesT))
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      |> map TFree;
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    val tname = Syntax.type_name t mx;
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    val full_tname = full tname;
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    val newT = Type (full_tname, map TFree lhs_tfrees);
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    val (Rep_name, Abs_name) = if_none opt_morphs ("Rep_" ^ name, "Abs_" ^ name);
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    val setT' = map itselfT args_setT ---> setT;
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    val setC = Term.list_comb (Const (full_name, setT'), map Logic.mk_type args_setT);
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    val RepC = Const (full Rep_name, newT --> oldT);
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    val AbsC = Const (full Abs_name, oldT --> newT);
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    val x_new = Free ("x", newT);
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    val y_old = Free ("y", oldT);
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    val set' = if def then setC else set;
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    val typedef_name = "type_definition_" ^ name;
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    val typedefC =
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      Const (type_definitionN, (newT --> oldT) --> (oldT --> newT) --> setT --> HOLogic.boolT);
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    val typedef_prop =
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      Logic.mk_implies (goal, HOLogic.mk_Trueprop (typedefC $ RepC $ AbsC $ set'));
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    fun typedef_result (theory, nonempty) =
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      theory
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      |> put_typedef newT oldT (full Abs_name) (full Rep_name)
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      |> add_typedecls [(t, vs, mx)]
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      |> Theory.add_consts_i
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       ((if def then [(name, setT', NoSyn)] else []) @
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        [(Rep_name, newT --> oldT, NoSyn),
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         (Abs_name, oldT --> newT, NoSyn)])
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      |> (if def then (apsnd (SOME o hd) oo (PureThy.add_defs_i false o map Thm.no_attributes))
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           [Logic.mk_defpair (setC, set)]
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          else rpair NONE)
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      |>>> PureThy.add_axioms_i [((typedef_name, typedef_prop),
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          [apsnd (fn cond_axm => Drule.standard (nonempty RS cond_axm))])]
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      |>> Theory.add_finals_i false [RepC, AbsC]
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      |> (fn (theory', (set_def, [type_definition])) =>
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        let
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          fun make th = Drule.standard (th OF [type_definition]);
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          val (theory'', [Rep, Rep_inverse, Abs_inverse, Rep_inject, Abs_inject,
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              Rep_cases, Abs_cases, Rep_induct, Abs_induct]) =
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            theory'
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            |> Theory.add_path name
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            |> PureThy.add_thms
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              ([((Rep_name, make Rep), []),
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                ((Rep_name ^ "_inverse", make Rep_inverse), []),
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                ((Abs_name ^ "_inverse", make Abs_inverse), []),
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                ((Rep_name ^ "_inject", make Rep_inject), []),
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                ((Abs_name ^ "_inject", make Abs_inject), []),
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                ((Rep_name ^ "_cases", make Rep_cases),
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                  [RuleCases.case_names [Rep_name], InductAttrib.cases_set_global full_name]),
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                ((Abs_name ^ "_cases", make Abs_cases),
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                  [RuleCases.case_names [Abs_name], InductAttrib.cases_type_global full_tname]),
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                ((Rep_name ^ "_induct", make Rep_induct),
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                  [RuleCases.case_names [Rep_name], InductAttrib.induct_set_global full_name]),
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                ((Abs_name ^ "_induct", make Abs_induct),
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                  [RuleCases.case_names [Abs_name], InductAttrib.induct_type_global full_tname])])
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            |>> Theory.parent_path;
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          val result = {type_definition = type_definition, set_def = set_def,
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            Rep = Rep, Rep_inverse = Rep_inverse, Abs_inverse = Abs_inverse,
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            Rep_inject = Rep_inject, Abs_inject = Abs_inject, Rep_cases = Rep_cases,
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            Abs_cases = Abs_cases, Rep_induct = Rep_induct, Abs_induct = Abs_induct};
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        in ((theory'', type_definition), result) end);
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    (* errors *)
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    fun show_names pairs = commas_quote (map fst pairs);
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    val illegal_vars =
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      if null (term_vars set) andalso null (term_tvars set) then []
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      else ["Illegal schematic variable(s) on rhs"];
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    val dup_lhs_tfrees =
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      (case duplicates lhs_tfrees of [] => []
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      | dups => ["Duplicate type variables on lhs: " ^ show_names dups]);
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    val extra_rhs_tfrees =
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      (case fold (remove (op =)) lhs_tfrees rhs_tfrees of [] => []
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      | extras => ["Extra type variables on rhs: " ^ show_names extras]);
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    val illegal_frees =
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      (case term_frees set of [] => []
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      | xs => ["Illegal variables on rhs: " ^ show_names (map dest_Free xs)]);
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    val errs = illegal_vars @ dup_lhs_tfrees @ extra_rhs_tfrees @ illegal_frees;
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    val _ = if null errs then () else error (cat_lines errs);
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    (*test theory errors now!*)
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    val test_thy = Theory.copy thy;
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    val _ = (test_thy,
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      setmp quick_and_dirty true (SkipProof.make_thm test_thy) goal) |> typedef_result;
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  in (cset, goal, goal_pat, typedef_result) end
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  handle ERROR => err_in_typedef name;
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(* add_typedef interfaces *)
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fun gen_typedef prep_term def name typ set opt_morphs tac1 names thms tac2 thy =
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  let
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    val (cset, goal, _, typedef_result) =
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      prepare_typedef prep_term def name typ set opt_morphs thy;
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    val non_empty = prove_nonempty thy cset goal (tac1, names, thms, tac2);
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    val ((thy', _), result) = (thy, non_empty) |> typedef_result;
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  in (thy', result) end;
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fun sane_typedef prep_term def opt_name typ set opt_morphs tac =
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  gen_typedef prep_term def
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    (if_none opt_name (#1 typ)) typ set opt_morphs all_tac [] [] (SOME tac);
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fun add_typedef_x name typ set names thms tac =
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  #1 o gen_typedef read_term true name typ set NONE (Tactic.rtac exI 1) names thms tac;
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val add_typedef = sane_typedef read_term;
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val add_typedef_i = sane_typedef cert_term;
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(* typedef_proof interface *)
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fun gen_typedef_proof prep_term ((def, name), typ, set, opt_morphs) int thy =
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  let
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    val (_, goal, goal_pat, att_result) =
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      prepare_typedef prep_term def name typ set opt_morphs thy;
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    val att = #1 o att_result;
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  in thy |> IsarThy.theorem_i Drule.internalK (("", [att]), (goal, ([goal_pat], []))) int end;
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val typedef_proof = gen_typedef_proof read_term;
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val typedef_proof_i = gen_typedef_proof cert_term;
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(** trivial code generator **)
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fun typedef_codegen thy defs gr dep module brack t =
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  let
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    fun get_name (Type (tname, _)) = tname
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      | get_name _ = "";
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    fun mk_fun s T ts =
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      let
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        val (gr', _) = Codegen.invoke_tycodegen thy defs dep module false (gr, T);
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        val (gr'', ps) =
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          foldl_map (Codegen.invoke_codegen thy defs dep module true) (gr', ts);
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        val id = Codegen.mk_qual_id module (Codegen.get_const_id s gr'')
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      in SOME (gr'', Codegen.mk_app brack (Pretty.str id) ps) end;
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    fun lookup f T =
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      (case Symtab.curried_lookup (TypedefData.get thy) (get_name T) of
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        NONE => ""
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      | SOME s => f s);
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  in
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    (case strip_comb t of
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       (Const (s, Type ("fun", [T, U])), ts) =>
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         if lookup #4 T = s andalso
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           is_none (Codegen.get_assoc_type thy (get_name T))
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         then mk_fun s T ts
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         else if lookup #3 U = s andalso
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           is_none (Codegen.get_assoc_type thy (get_name U))
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         then mk_fun s U ts
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         else NONE
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     | _ => NONE)
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  end;
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fun mk_tyexpr [] s = Pretty.str s
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  | mk_tyexpr [p] s = Pretty.block [p, Pretty.str (" " ^ s)]
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  | mk_tyexpr ps s = Pretty.list "(" (") " ^ s) ps;
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fun typedef_tycodegen thy defs gr dep module brack (Type (s, Ts)) =
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      (case Symtab.curried_lookup (TypedefData.get thy) s of
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         NONE => NONE
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       | SOME (newT as Type (tname, Us), oldT, Abs_name, Rep_name) =>
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           if is_some (Codegen.get_assoc_type thy tname) then NONE else
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           let
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             val module' = Codegen.if_library
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               (Codegen.thyname_of_type tname thy) module;
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             val node_id = tname ^ " (type)";
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             val (gr', (((qs, (_, Abs_id)), (_, Rep_id)), ty_id)) = foldl_map
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                 (Codegen.invoke_tycodegen thy defs dep module (length Ts = 1))
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                   (gr, Ts) |>>>
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               Codegen.mk_const_id module' Abs_name |>>>
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               Codegen.mk_const_id module' Rep_name |>>>
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               Codegen.mk_type_id module' s;
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             val tyexpr = mk_tyexpr qs (Codegen.mk_qual_id module ty_id)
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           in SOME (case try (Codegen.get_node gr') node_id of
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               NONE =>
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               let
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                 val (gr'', p :: ps) = foldl_map
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                   (Codegen.invoke_tycodegen thy defs node_id module' false)
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                   (Codegen.add_edge (node_id, dep)
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                      (Codegen.new_node (node_id, (NONE, "", "")) gr'), oldT :: Us);
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                 val s =
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                   Pretty.string_of (Pretty.block [Pretty.str "datatype ",
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                     mk_tyexpr ps (snd ty_id),
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                     Pretty.str " =", Pretty.brk 1, Pretty.str (Abs_id ^ " of"),
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                     Pretty.brk 1, p, Pretty.str ";"]) ^ "\n\n" ^
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                   Pretty.string_of (Pretty.block [Pretty.str ("fun " ^ Rep_id),
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                     Pretty.brk 1, Pretty.str ("(" ^ Abs_id), Pretty.brk 1,
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                     Pretty.str "x) = x;"]) ^ "\n\n" ^
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                   (if "term_of" mem !Codegen.mode then
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                      Pretty.string_of (Pretty.block [Pretty.str "fun ",
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                        Codegen.mk_term_of gr'' module' false newT, Pretty.brk 1,
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                        Pretty.str ("(" ^ Abs_id), Pretty.brk 1,
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                        Pretty.str "x) =", Pretty.brk 1,
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                        Pretty.block [Pretty.str ("Const (\"" ^ Abs_name ^ "\","),
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                          Pretty.brk 1, Codegen.mk_type false (oldT --> newT),
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                          Pretty.str ")"], Pretty.str " $", Pretty.brk 1,
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                        Codegen.mk_term_of gr'' module' false oldT, Pretty.brk 1,
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                        Pretty.str "x;"]) ^ "\n\n"
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                    else "") ^
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                   (if "test" mem !Codegen.mode then
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                      Pretty.string_of (Pretty.block [Pretty.str "fun ",
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                        Codegen.mk_gen gr'' module' false [] "" newT, Pretty.brk 1,
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                        Pretty.str "i =", Pretty.brk 1,
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                        Pretty.block [Pretty.str (Abs_id ^ " ("),
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                          Codegen.mk_gen gr'' module' false [] "" oldT, Pretty.brk 1,
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                          Pretty.str "i);"]]) ^ "\n\n"
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                    else "")
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               in Codegen.map_node node_id (K (NONE, module', s)) gr'' end
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             | SOME _ => Codegen.add_edge (node_id, dep) gr', tyexpr)
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           end)
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  | typedef_tycodegen thy defs gr dep module brack _ = NONE;
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val setup =
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  [TypedefData.init,
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   Codegen.add_codegen "typedef" typedef_codegen,
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   Codegen.add_tycodegen "typedef" typedef_tycodegen];
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(** outer syntax **)
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local structure P = OuterParse and K = OuterKeyword in
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val typedeclP =
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  OuterSyntax.command "typedecl" "type declaration (HOL)" K.thy_decl
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    (P.type_args -- P.name -- P.opt_infix >> (fn ((vs, t), mx) =>
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      Toplevel.theory (add_typedecls [(t, vs, mx)])));
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val typedef_proof_decl =
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  Scan.optional (P.$$$ "(" |--
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      ((P.$$$ "open" >> K false) -- Scan.option P.name || P.name >> (fn s => (true, SOME s)))
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        --| P.$$$ ")") (true, NONE) --
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    (P.type_args -- P.name) -- P.opt_infix -- (P.$$$ "=" |-- P.term) --
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    Scan.option (P.$$$ "morphisms" |-- P.!!! (P.name -- P.name));
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fun mk_typedef_proof ((((((def, opt_name), (vs, t)), mx), A), morphs)) =
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  typedef_proof ((def, if_none opt_name (Syntax.type_name t mx)), (t, vs, mx), A, morphs);
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val typedefP =
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  OuterSyntax.command "typedef" "HOL type definition (requires non-emptiness proof)" K.thy_goal
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    (typedef_proof_decl >> (Toplevel.print oo (Toplevel.theory_to_proof o mk_typedef_proof)));
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val _ = OuterSyntax.add_keywords ["morphisms"];
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val _ = OuterSyntax.add_parsers [typedeclP, typedefP];
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end;
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end;