src/HOL/Tools/record_package.ML
author wenzelm
Thu Aug 05 22:11:07 1999 +0200 (1999-08-05)
changeset 7178 50b9849cf6ad
parent 6851 526c0b90bcef
child 8100 6186ee807f2e
permissions -rw-r--r--
record_simproc for sel-upd (by Sebastian Nanz);
removed record_splitter by default;
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(*  Title:      HOL/Tools/record_package.ML
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    ID:         $Id$
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    Author:     Wolfgang Naraschewski and Markus Wenzel, TU Muenchen
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Extensible records with structural subtyping in HOL.
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*)
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signature BASIC_RECORD_PACKAGE =
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sig
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  val record_simproc: simproc
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  val record_split_tac: int -> tactic
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  val record_split_name: string
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  val record_split_wrapper: string * wrapper
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end;
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signature RECORD_PACKAGE =
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sig
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  include BASIC_RECORD_PACKAGE
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  val quiet_mode: bool ref
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  val moreS: sort
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  val mk_fieldT: (string * typ) * typ -> typ
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  val dest_fieldT: typ -> (string * typ) * typ
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  val mk_field: (string * term) * term -> term
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  val mk_fst: term -> term
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  val mk_snd: term -> term
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  val mk_recordT: (string * typ) list * typ -> typ
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  val dest_recordT: typ -> (string * typ) list * typ
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  val mk_record: (string * term) list * term -> term
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  val mk_sel: term -> string -> term
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  val mk_update: term -> string * term -> term
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  val print_records: theory -> unit
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  val add_record: (string list * bstring) -> string option
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    -> (bstring * string) list -> theory -> theory * {simps: thm list, iffs: thm list}
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  val add_record_i: (string list * bstring) -> (typ list * string) option
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    -> (bstring * typ) list -> theory -> theory * {simps: thm list, iffs: thm list}
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  val setup: (theory -> theory) list
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end;
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structure RecordPackage: RECORD_PACKAGE =
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struct
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(*** utilities ***)
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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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(* definitions and equations *)
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infix 0 :== ===;
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val (op :==) = Logic.mk_defpair;
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val (op ===) = HOLogic.mk_Trueprop o HOLogic.mk_eq;
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fun get_defs thy specs = map (PureThy.get_thm thy o fst) specs;
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(* proof by simplification *)
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fun prove_simp sign ss tacs simps =
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  let
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    val ss' = Simplifier.addsimps (ss, simps);
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    fun prove goal =
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      Goals.prove_goalw_cterm [] (Thm.cterm_of sign goal)
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        (K (tacs @ [ALLGOALS (Simplifier.simp_tac ss')]))
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      handle ERROR => error ("The error(s) above occurred while trying to prove "
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        ^ quote (Sign.string_of_term sign goal));
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  in prove end;
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(*** syntax operations ***)
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(** name components **)
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val moreN = "more";
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val schemeN = "_scheme";
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val fieldN = "_field";
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val raw_fieldN = "_raw_field";
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val field_typeN = "_field_type";
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val fstN = "_val";
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val sndN = "_more";
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val updateN = "_update";
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val makeN = "make";
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val make_schemeN = "make_scheme";
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(*see datatype package*)
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val caseN = "_case";
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(** generic operations **)
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(* adhoc priming of vars *)
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fun prime (Free (x, T)) = Free (x ^ "'", T)
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  | prime t = raise TERM ("prime: no free variable", [t]);
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(* product case *)
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fun fst_fn T U = Abs ("x", T, Abs ("y", U, Bound 1));
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fun snd_fn T U = Abs ("x", T, Abs ("y", U, Bound 0));
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fun mk_prod_case name f p =
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  let
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    val fT as Type ("fun", [A, Type ("fun", [B, C])]) = fastype_of f;
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    val pT = fastype_of p;
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  in Const (suffix caseN name, fT --> pT --> C) $ f $ p end;
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(** tuple operations **)
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(* more type class *)
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val moreS = ["Record.more"];
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(* types *)
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fun mk_fieldT ((c, T), U) = Type (suffix field_typeN c, [T, U]);
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fun dest_fieldT (typ as Type (c_field_type, [T, U])) =
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      (case try (unsuffix field_typeN) c_field_type of
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        None => raise TYPE ("dest_fieldT", [typ], [])
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      | Some c => ((c, T), U))
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  | dest_fieldT typ = raise TYPE ("dest_fieldT", [typ], []);
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(* constructors *)
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fun mk_fieldC U (c, T) = (suffix fieldN c, T --> U --> mk_fieldT ((c, T), U));
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fun gen_mk_field sfx ((c, t), u) =
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  let val T = fastype_of t and U = fastype_of u
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  in Const (suffix sfx c, [T, U] ---> mk_fieldT ((c, T), U)) $ t $ u end;
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val mk_field = gen_mk_field fieldN;
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val mk_raw_field = gen_mk_field raw_fieldN;
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(* destructors *)
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fun mk_fstC U (c, T) = (suffix fstN c, mk_fieldT ((c, T), U) --> T);
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fun mk_sndC U (c, T) = (suffix sndN c, mk_fieldT ((c, T), U) --> U);
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fun dest_field fst_or_snd p =
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  let
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    val pT = fastype_of p;
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    val ((c, T), U) = dest_fieldT pT;
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    val (destN, destT) = if fst_or_snd then (fstN, T) else (sndN, U);
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  in Const (suffix destN c, pT --> destT) $ p end;
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val mk_fst = dest_field true;
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val mk_snd = dest_field false;
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(** record operations **)
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(* types *)
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val mk_recordT = foldr mk_fieldT;
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fun dest_recordT T =
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  (case try dest_fieldT T of
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    None => ([], T)
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  | Some (c_T, U) => apfst (cons c_T) (dest_recordT U));
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fun find_fieldT c rT =
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  (case assoc (fst (dest_recordT rT), c) of
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    None => raise TYPE ("find_field: " ^ c, [rT], [])
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  | Some T => T);
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(* constructors *)
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val mk_record = foldr mk_field;
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(* selectors *)
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fun mk_selC rT (c, T) = (c, rT --> T);
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fun mk_sel r c =
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  let val rT = fastype_of r
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  in Const (mk_selC rT (c, find_fieldT c rT)) $ r end;
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val mk_moreC = mk_selC;
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fun mk_more r c =
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  let val rT = fastype_of r
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  in Const (mk_moreC rT (c, snd (dest_recordT rT))) $ r end;
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(* updates *)
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fun mk_updateC rT (c, T) = (suffix updateN c, T --> rT --> rT);
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fun mk_update r (c, x) =
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  let val rT = fastype_of r
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  in Const (mk_updateC rT (c, find_fieldT c rT)) $ x $ r end;
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val mk_more_updateC = mk_updateC;
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fun mk_more_update r (c, x) =
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  let val rT = fastype_of r
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  in Const (mk_more_updateC rT (c, snd (dest_recordT rT))) $ x $ r end;
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(* make *)
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fun mk_makeC rT (c, Ts) = (c, Ts ---> rT);
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(** concrete syntax for records **)
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(* parse translations *)
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fun gen_field_tr mark sfx (t as Const (c, _) $ Free (name, _) $ arg) =
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      if c = mark then Syntax.const (suffix sfx name) $ arg
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      else raise TERM ("gen_field_tr: " ^ mark, [t])
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  | gen_field_tr mark _ t = raise TERM ("gen_field_tr: " ^ mark, [t]);
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fun gen_fields_tr sep mark sfx (tm as Const (c, _) $ t $ u) =
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      if c = sep then gen_field_tr mark sfx t :: gen_fields_tr sep mark sfx u
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      else [gen_field_tr mark sfx tm]
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  | gen_fields_tr _ mark sfx tm = [gen_field_tr mark sfx tm];
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fun gen_record_tr sep mark sfx unit [t] = foldr (op $) (gen_fields_tr sep mark sfx t, unit)
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  | gen_record_tr _ _ _ _ ts = raise TERM ("gen_record_tr", ts);
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fun gen_record_scheme_tr sep mark sfx [t, more] = foldr (op $) (gen_fields_tr sep mark sfx t, more)
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  | gen_record_scheme_tr _ _ _ ts = raise TERM ("gen_record_scheme_tr", ts);
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val record_type_tr = gen_record_tr "_field_types" "_field_type" field_typeN (Syntax.const "unit");
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val record_type_scheme_tr = gen_record_scheme_tr "_field_types" "_field_type" field_typeN;
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val record_tr = gen_record_tr "_fields" "_field" fieldN HOLogic.unit;
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val record_scheme_tr = gen_record_scheme_tr "_fields" "_field" fieldN;
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fun record_update_tr [t, u] =
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      foldr (op $) (rev (gen_fields_tr "_updates" "_update" updateN u), t)
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  | record_update_tr ts = raise TERM ("record_update_tr", ts);
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val parse_translation =
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 [("_record_type", record_type_tr),
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  ("_record_type_scheme", record_type_scheme_tr),
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  ("_record", record_tr),
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  ("_record_scheme", record_scheme_tr),
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  ("_record_update", record_update_tr)];
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(* print translations *)
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fun gen_fields_tr' mark sfx (tm as Const (name_field, _) $ t $ u) =
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      (case try (unsuffix sfx) name_field of
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        Some name =>
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          apfst (cons (Syntax.const mark $ Syntax.free name $ t)) (gen_fields_tr' mark sfx u)
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      | None => ([], tm))
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  | gen_fields_tr' _ _ tm = ([], tm);
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fun gen_record_tr' sep mark sfx is_unit record record_scheme tm =
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  let
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    val (ts, u) = gen_fields_tr' mark sfx tm;
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    val t' = foldr1 (fn (v, w) => Syntax.const sep $ v $ w) ts;
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  in
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    if is_unit u then Syntax.const record $ t'
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    else Syntax.const record_scheme $ t' $ u
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  end;
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val record_type_tr' =
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  gen_record_tr' "_field_types" "_field_type" field_typeN
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    (fn Const ("unit", _) => true | _ => false) "_record_type" "_record_type_scheme";
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val record_tr' =
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  gen_record_tr' "_fields" "_field" fieldN HOLogic.is_unit "_record" "_record_scheme";
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fun record_update_tr' tm =
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  let val (ts, u) = gen_fields_tr' "_update" updateN tm in
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    Syntax.const "_record_update" $ u $
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      foldr1 (fn (v, w) => Syntax.const "_updates" $ v $ w) (rev ts)
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  end;
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fun gen_field_tr' sfx tr' name =
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  let val name_sfx = suffix sfx name
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  in (name_sfx, fn [t, u] => tr' (Syntax.const name_sfx $ t $ u) | _ => raise Match) end;
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fun print_translation names =
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  map (gen_field_tr' field_typeN record_type_tr') names @
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  map (gen_field_tr' fieldN record_tr') names @
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  map (gen_field_tr' updateN record_update_tr') names;
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(*** extend theory by record definition ***)
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(** record info **)
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(* type record_info and parent_info *)
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type record_info =
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 {args: (string * sort) list,
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  parent: (typ list * string) option,
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  fields: (string * typ) list,
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  simps: thm list};
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type parent_info =
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 {name: string,
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  fields: (string * typ) list,
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  simps: thm list};
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(* data kind 'HOL/records' *)
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type record_data =
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 {records: record_info Symtab.table,
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  sel_upd:
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   {selectors: unit Symtab.table,
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    updates: string Symtab.table,
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    simpset: Simplifier.simpset},
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  field_splits:
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   {fields: unit Symtab.table,
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    simpset: Simplifier.simpset}};
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fun make_record_data records sel_upd field_splits =
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 {records = records, sel_upd = sel_upd, field_splits = field_splits}: record_data;
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structure RecordsArgs =
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struct
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  val name = "HOL/records";
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  type T = record_data;
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  val empty =
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    make_record_data Symtab.empty
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      {selectors = Symtab.empty, updates = Symtab.empty, simpset = HOL_basic_ss}
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      {fields = Symtab.empty, simpset = HOL_basic_ss};
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  val copy = I;
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  val prep_ext = I;
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  fun merge
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   ({records = recs1,
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     sel_upd = {selectors = sels1, updates = upds1, simpset = ss1},
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     field_splits = {fields = flds1, simpset = fld_ss1}},
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    {records = recs2,
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     sel_upd = {selectors = sels2, updates = upds2, simpset = ss2},
wenzelm@7178
   358
     field_splits = {fields = flds2, simpset = fld_ss2}}) =
wenzelm@7178
   359
    make_record_data
wenzelm@7178
   360
      (Symtab.merge (K true) (recs1, recs2))
wenzelm@7178
   361
      {selectors = Symtab.merge (K true) (sels1, sels2),
wenzelm@7178
   362
        updates = Symtab.merge (K true) (upds1, upds2),
wenzelm@7178
   363
        simpset = Simplifier.merge_ss (ss1, ss2)}
wenzelm@7178
   364
      {fields = Symtab.merge (K true) (flds1, flds2),
wenzelm@7178
   365
        simpset = Simplifier.merge_ss (fld_ss1, fld_ss2)};
wenzelm@4867
   366
wenzelm@7178
   367
  fun print sg ({records = recs, ...}: record_data) =
wenzelm@4867
   368
    let
wenzelm@4867
   369
      val prt_typ = Sign.pretty_typ sg;
wenzelm@4867
   370
      val ext_const = Sign.cond_extern sg Sign.constK;
wenzelm@4867
   371
wenzelm@4867
   372
      fun pretty_parent None = []
wenzelm@4867
   373
        | pretty_parent (Some (Ts, name)) =
wenzelm@4867
   374
            [Pretty.block [prt_typ (Type (name, Ts)), Pretty.str " +"]];
wenzelm@4867
   375
wenzelm@4867
   376
      fun pretty_field (c, T) = Pretty.block
wenzelm@4867
   377
        [Pretty.str (ext_const c), Pretty.str " ::", Pretty.brk 1, Pretty.quote (prt_typ T)];
wenzelm@4867
   378
wenzelm@4895
   379
      fun pretty_record (name, {args, parent, fields, simps = _}) = Pretty.block (Pretty.fbreaks
wenzelm@4867
   380
        (Pretty.block [prt_typ (Type (name, map TFree args)), Pretty.str " = "] ::
wenzelm@4867
   381
          pretty_parent parent @ map pretty_field fields));
wenzelm@6851
   382
    in seq (Pretty.writeln o pretty_record) (Sign.cond_extern_table sg Sign.typeK recs) end;
wenzelm@4867
   383
end;
wenzelm@4867
   384
wenzelm@5006
   385
structure RecordsData = TheoryDataFun(RecordsArgs);
wenzelm@5006
   386
val print_records = RecordsData.print;
wenzelm@5006
   387
wenzelm@4867
   388
wenzelm@7178
   389
(* access 'records' *)
wenzelm@4867
   390
wenzelm@7178
   391
fun get_record thy name = Symtab.lookup (#records (RecordsData.get thy), name);
wenzelm@4867
   392
wenzelm@4890
   393
fun put_record name info thy =
wenzelm@7178
   394
  let
wenzelm@7178
   395
    val {records, sel_upd, field_splits} = RecordsData.get thy;
wenzelm@7178
   396
    val data = make_record_data (Symtab.update ((name, info), records)) sel_upd field_splits;
wenzelm@7178
   397
  in RecordsData.put data thy end;
wenzelm@7178
   398
wenzelm@7178
   399
wenzelm@7178
   400
(* access 'sel_upd' *)
wenzelm@7178
   401
wenzelm@7178
   402
fun get_sel_upd sg = #sel_upd (RecordsData.get_sg sg);
wenzelm@7178
   403
wenzelm@7178
   404
fun get_selectors sg name = Symtab.lookup (#selectors (get_sel_upd sg), name);
wenzelm@7178
   405
fun get_updates sg name = Symtab.lookup (#updates (get_sel_upd sg), name);
wenzelm@7178
   406
fun get_simpset sg = #simpset (get_sel_upd sg);
wenzelm@7178
   407
wenzelm@7178
   408
wenzelm@7178
   409
fun put_sel_upd names simps thy =
wenzelm@7178
   410
  let
wenzelm@7178
   411
    val sels = map (rpair ()) names;
wenzelm@7178
   412
    val upds = map (suffix updateN) names ~~ names;
wenzelm@7178
   413
wenzelm@7178
   414
    val {records, sel_upd = {selectors, updates, simpset}, field_splits} = RecordsData.get thy;
wenzelm@7178
   415
    val data = make_record_data records
wenzelm@7178
   416
      {selectors = Symtab.extend (selectors, sels),
wenzelm@7178
   417
        updates = Symtab.extend (updates, upds),
wenzelm@7178
   418
        simpset = Simplifier.addsimps (simpset, simps)}
wenzelm@7178
   419
      field_splits;
wenzelm@7178
   420
  in RecordsData.put data thy end;
wenzelm@7178
   421
wenzelm@7178
   422
wenzelm@7178
   423
(* access 'field_splits' *)
wenzelm@5698
   424
wenzelm@5698
   425
fun add_record_splits splits thy =
wenzelm@5698
   426
  let
wenzelm@7178
   427
    val {records, sel_upd, field_splits = {fields, simpset}} = RecordsData.get thy;
wenzelm@7178
   428
    val flds = map (rpair () o fst) splits;
wenzelm@7178
   429
    val simps = map snd splits;
wenzelm@7178
   430
    val data = make_record_data records sel_upd
wenzelm@7178
   431
      {fields = Symtab.extend (fields, flds), simpset = Simplifier.addsimps (simpset, simps)};
wenzelm@7178
   432
  in RecordsData.put data thy end;
wenzelm@4867
   433
wenzelm@4867
   434
wenzelm@4867
   435
(* parent records *)
wenzelm@4867
   436
wenzelm@4867
   437
fun inst_record thy (types, name) =
wenzelm@4867
   438
  let
wenzelm@4867
   439
    val sign = Theory.sign_of thy;
wenzelm@4867
   440
    fun err msg = error (msg ^ " parent record " ^ quote name);
wenzelm@4867
   441
wenzelm@4895
   442
    val {args, parent, fields, simps} =
wenzelm@4867
   443
      (case get_record thy name of Some info => info | None => err "Unknown");
wenzelm@4895
   444
    val _ = if length types <> length args then err "Bad number of arguments for" else ();
wenzelm@4867
   445
wenzelm@4867
   446
    fun bad_inst ((x, S), T) =
wenzelm@4867
   447
      if Sign.of_sort sign (T, S) then None else Some x
wenzelm@4867
   448
    val bads = mapfilter bad_inst (args ~~ types);
wenzelm@4867
   449
wenzelm@4867
   450
    val inst = map fst args ~~ types;
wenzelm@4867
   451
    val subst = Term.map_type_tfree (fn (x, _) => the (assoc (inst, x)));
wenzelm@4867
   452
  in
wenzelm@4895
   453
    if not (null bads) then
wenzelm@4867
   454
      err ("Ill-sorted instantiation of " ^ commas bads ^ " in")
wenzelm@4895
   455
    else (apsome (apfst (map subst)) parent, map (apsnd subst) fields, simps)
wenzelm@4867
   456
  end;
wenzelm@4867
   457
wenzelm@4867
   458
fun add_parents thy (None, parents) = parents
wenzelm@4867
   459
  | add_parents thy (Some (types, name), parents) =
wenzelm@4895
   460
      let val (pparent, pfields, psimps) = inst_record thy (types, name)
wenzelm@4895
   461
      in add_parents thy (pparent, {name = name, fields = pfields, simps = psimps} :: parents) end;
wenzelm@4867
   462
wenzelm@4867
   463
wenzelm@4867
   464
wenzelm@7178
   465
(** record simproc **)
wenzelm@7178
   466
wenzelm@7178
   467
local
wenzelm@7178
   468
wenzelm@7178
   469
val sel_upd_pat = [Thm.read_cterm (Theory.sign_of HOL.thy) ("s (u k r)", HOLogic.termTVar)];
wenzelm@7178
   470
wenzelm@7178
   471
fun proc sg _ t =
wenzelm@7178
   472
  (case t of (sel as Const (s, _)) $ ((upd as Const (u, _)) $ k $ r) =>
wenzelm@7178
   473
    (case get_selectors sg s of Some () =>
wenzelm@7178
   474
      (case get_updates sg u of Some u_name =>
wenzelm@7178
   475
        let
wenzelm@7178
   476
          fun atomize x t = Free (x, fastype_of t);
wenzelm@7178
   477
          val k' = atomize "k" k;
wenzelm@7178
   478
          val r' = atomize "r" r;
wenzelm@7178
   479
          val t' = sel $ (upd $ k' $ r');
wenzelm@7178
   480
          val prove = mk_meta_eq o prove_simp sg (get_simpset sg) [] [];
wenzelm@7178
   481
        in
wenzelm@7178
   482
          if u_name = s then Some (prove (t' === k'))
wenzelm@7178
   483
          else Some (prove (t' === sel $ r'))
wenzelm@7178
   484
        end
wenzelm@7178
   485
      | None => None)
wenzelm@7178
   486
    | None => None)
wenzelm@7178
   487
  | _ => None);
wenzelm@7178
   488
wenzelm@7178
   489
in
wenzelm@7178
   490
wenzelm@7178
   491
val record_simproc = Simplifier.mk_simproc "record_simp" sel_upd_pat proc;
wenzelm@7178
   492
wenzelm@7178
   493
end;
wenzelm@7178
   494
wenzelm@7178
   495
wenzelm@7178
   496
wenzelm@5698
   497
(** record field splitting **)
wenzelm@5698
   498
wenzelm@6358
   499
(* tactic *)
wenzelm@6358
   500
wenzelm@5698
   501
fun record_split_tac i st =
wenzelm@5698
   502
  let
wenzelm@7178
   503
    val {field_splits = {fields, simpset}, ...} = RecordsData.get_sg (Thm.sign_of_thm st);
wenzelm@5698
   504
wenzelm@7178
   505
    fun is_fieldT (_, Type (a, [_, _])) = is_some (Symtab.lookup (fields, a))
wenzelm@5698
   506
      | is_fieldT _ = false;
wenzelm@5698
   507
    val params = Logic.strip_params (Library.nth_elem (i - 1, Thm.prems_of st));
wenzelm@5698
   508
  in
wenzelm@7178
   509
    if exists is_fieldT params then Simplifier.full_simp_tac simpset i st
wenzelm@5698
   510
    else Seq.empty
wenzelm@5698
   511
  end handle Library.LIST _ => Seq.empty;
wenzelm@5698
   512
wenzelm@6358
   513
wenzelm@6358
   514
(* wrapper *)
wenzelm@6358
   515
wenzelm@5707
   516
val record_split_name = "record_split_tac";
wenzelm@5707
   517
val record_split_wrapper = (record_split_name, fn tac => record_split_tac ORELSE' tac);
wenzelm@5698
   518
wenzelm@5698
   519
wenzelm@6358
   520
(* method *)
wenzelm@6358
   521
wenzelm@6358
   522
val record_split_method =
wenzelm@6358
   523
  ("record_split", Method.no_args (Method.METHOD0 (FIRSTGOAL record_split_tac)),
wenzelm@6358
   524
    "split record fields");
wenzelm@6358
   525
wenzelm@6358
   526
wenzelm@5698
   527
wenzelm@4890
   528
(** internal theory extenders **)
wenzelm@4867
   529
wenzelm@5698
   530
(* field_type_defs *)
wenzelm@5698
   531
wenzelm@5713
   532
fun field_type_def ((thy, simps), (name, tname, vs, T, U)) =
wenzelm@5698
   533
  let
wenzelm@6394
   534
    val full = Sign.full_name (Theory.sign_of thy);
wenzelm@5713
   535
    val (thy', {simps = simps', ...}) =
wenzelm@5698
   536
      thy
wenzelm@5698
   537
      |> setmp DatatypePackage.quiet_mode true
wenzelm@5698
   538
        (DatatypePackage.add_datatype_i true [tname]
wenzelm@5698
   539
          [(vs, tname, Syntax.NoSyn, [(name, [T, U], Syntax.NoSyn)])]);
wenzelm@5698
   540
    val thy'' =
wenzelm@5698
   541
      thy'
wenzelm@5698
   542
      |> setmp AxClass.quiet_mode true
wenzelm@5698
   543
        (AxClass.add_inst_arity_i (full tname, [HOLogic.termS, moreS], moreS) [] [] None);
wenzelm@5713
   544
  in (thy'', simps' @ simps) end;
wenzelm@5698
   545
wenzelm@5713
   546
fun field_type_defs args thy = foldl field_type_def ((thy, []), args);
wenzelm@5698
   547
wenzelm@5698
   548
wenzelm@4894
   549
(* field_definitions *)
wenzelm@4867
   550
wenzelm@4894
   551
fun field_definitions fields names zeta moreT more vars named_vars thy =
wenzelm@4890
   552
  let
wenzelm@5698
   553
    val sign = Theory.sign_of thy;
wenzelm@4890
   554
    val base = Sign.base_name;
wenzelm@5698
   555
    val full_path = Sign.full_name_path sign;
wenzelm@4867
   556
wenzelm@4867
   557
wenzelm@4890
   558
    (* prepare declarations and definitions *)
wenzelm@4867
   559
wenzelm@4890
   560
    (*field types*)
wenzelm@4890
   561
    fun mk_fieldT_spec c =
wenzelm@5698
   562
      (suffix raw_fieldN c, suffix field_typeN c,
wenzelm@5698
   563
        ["'a", zeta], TFree ("'a", HOLogic.termS), moreT);
wenzelm@4890
   564
    val fieldT_specs = map (mk_fieldT_spec o base) names;
wenzelm@4890
   565
wenzelm@5698
   566
    (*field constructors*)
wenzelm@4890
   567
    val field_decls = map (mk_fieldC moreT) fields;
wenzelm@4890
   568
wenzelm@4890
   569
    fun mk_field_spec (c, v) =
wenzelm@5698
   570
      mk_field ((c, v), more) :== mk_raw_field ((c, v), more);
wenzelm@4894
   571
    val field_specs = map mk_field_spec named_vars;
wenzelm@4890
   572
wenzelm@4890
   573
    (*field destructors*)
wenzelm@5698
   574
    val dest_decls = map (mk_fstC moreT) fields @ map (mk_sndC moreT) fields;
wenzelm@5698
   575
wenzelm@5698
   576
    fun mk_dest_spec dest f (c, T) =
wenzelm@5698
   577
      let val p = Free ("p", mk_fieldT ((c, T), moreT));
wenzelm@5698
   578
      in dest p :== mk_prod_case (suffix field_typeN c) (f T moreT) p end;
wenzelm@4890
   579
    val dest_specs =
wenzelm@5698
   580
      map (mk_dest_spec mk_fst fst_fn) fields @
wenzelm@5698
   581
      map (mk_dest_spec mk_snd snd_fn) fields;
wenzelm@4890
   582
wenzelm@4890
   583
wenzelm@4890
   584
    (* prepare theorems *)
wenzelm@4894
   585
wenzelm@5713
   586
    (*constructor injects*)
wenzelm@5713
   587
    fun mk_inject_prop (c, v) =
wenzelm@5713
   588
      HOLogic.mk_eq (mk_field ((c, v), more), mk_field ((c, prime v), prime more)) ===
wenzelm@5713
   589
        (HOLogic.conj $ HOLogic.mk_eq (v, prime v) $ HOLogic.mk_eq (more, prime more));
wenzelm@5713
   590
    val inject_props = map mk_inject_prop named_vars;
wenzelm@5713
   591
wenzelm@5698
   592
    (*destructor conversions*)
wenzelm@4890
   593
    fun mk_dest_prop dest dest' (c, v) =
wenzelm@4894
   594
      dest (mk_field ((c, v), more)) === dest' (v, more);
wenzelm@4890
   595
    val dest_props =
wenzelm@4895
   596
      map (mk_dest_prop mk_fst fst) named_vars @
wenzelm@4895
   597
      map (mk_dest_prop mk_snd snd) named_vars;
wenzelm@4890
   598
wenzelm@5698
   599
    (*surjective pairing*)
wenzelm@5698
   600
    fun mk_surj_prop (c, T) =
wenzelm@5698
   601
      let val p = Free ("p", mk_fieldT ((c, T), moreT));
wenzelm@5698
   602
      in p === mk_field ((c, mk_fst p), mk_snd p) end;
wenzelm@5698
   603
    val surj_props = map mk_surj_prop fields;
wenzelm@4890
   604
wenzelm@5698
   605
wenzelm@5698
   606
    (* 1st stage: types_thy *)
wenzelm@5698
   607
wenzelm@6092
   608
    val (types_thy, datatype_simps) =
wenzelm@5698
   609
      thy
wenzelm@5698
   610
      |> field_type_defs fieldT_specs;
wenzelm@5698
   611
wenzelm@5698
   612
wenzelm@5698
   613
    (* 2nd stage: defs_thy *)
wenzelm@4890
   614
wenzelm@4890
   615
    val defs_thy =
wenzelm@5698
   616
      types_thy
wenzelm@5698
   617
       |> (Theory.add_consts_i o map (Syntax.no_syn o apfst base))
wenzelm@5698
   618
         (field_decls @ dest_decls)
wenzelm@6092
   619
       |> (PureThy.add_defs_i o map (fn x => (x, [Drule.tag_internal])))
wenzelm@5698
   620
         (field_specs @ dest_specs);
wenzelm@4890
   621
wenzelm@4890
   622
    val field_defs = get_defs defs_thy field_specs;
wenzelm@4890
   623
    val dest_defs = get_defs defs_thy dest_specs;
wenzelm@4890
   624
wenzelm@4890
   625
wenzelm@5698
   626
    (* 3rd stage: thms_thy *)
wenzelm@5698
   627
wenzelm@7178
   628
    val prove = prove_simp (Theory.sign_of defs_thy) HOL_basic_ss;
wenzelm@5713
   629
    val prove_std = prove [] (field_defs @ dest_defs @ datatype_simps);
wenzelm@4890
   630
wenzelm@5713
   631
    val field_injects = map prove_std inject_props;
wenzelm@5713
   632
    val dest_convs = map prove_std dest_props;
wenzelm@5698
   633
    val surj_pairs = map (prove [DatatypePackage.induct_tac "p" 1]
wenzelm@6092
   634
      (map Thm.symmetric field_defs @ dest_convs)) surj_props;
wenzelm@5698
   635
wenzelm@5707
   636
    fun mk_split th = SplitPairedAll.rule (th RS eq_reflection);
wenzelm@6092
   637
    val field_splits = map mk_split surj_pairs;
wenzelm@4894
   638
wenzelm@4890
   639
    val thms_thy =
wenzelm@4890
   640
      defs_thy
wenzelm@6092
   641
      |> (PureThy.add_thmss o map Thm.no_attributes)
wenzelm@4890
   642
        [("field_defs", field_defs),
wenzelm@4890
   643
          ("dest_defs", dest_defs),
wenzelm@5698
   644
          ("dest_convs", dest_convs),
wenzelm@5698
   645
          ("surj_pairs", surj_pairs),
wenzelm@5713
   646
          ("field_splits", field_splits)];
wenzelm@4890
   647
wenzelm@5713
   648
  in (thms_thy, dest_convs, field_injects, field_splits) end;
wenzelm@4890
   649
wenzelm@4890
   650
wenzelm@4890
   651
(* record_definition *)
wenzelm@4867
   652
wenzelm@4867
   653
fun record_definition (args, bname) parent (parents: parent_info list) bfields thy =
wenzelm@4867
   654
  let
wenzelm@4867
   655
    val sign = Theory.sign_of thy;
wenzelm@4867
   656
    val full = Sign.full_name_path sign bname;
wenzelm@4890
   657
    val base = Sign.base_name;
wenzelm@4867
   658
wenzelm@4867
   659
wenzelm@4890
   660
    (* basic components *)
wenzelm@4867
   661
wenzelm@4867
   662
    val alphas = map fst args;
wenzelm@5197
   663
    val name = Sign.full_name sign bname;       (*not made part of record name space!*)
wenzelm@4890
   664
wenzelm@4867
   665
    val parent_fields = flat (map #fields parents);
wenzelm@4890
   666
    val parent_names = map fst parent_fields;
wenzelm@4890
   667
    val parent_types = map snd parent_fields;
wenzelm@4890
   668
    val parent_len = length parent_fields;
wenzelm@4890
   669
    val parent_xs = variantlist (map (base o fst) parent_fields, [moreN]);
wenzelm@4890
   670
    val parent_vars = ListPair.map Free (parent_xs, parent_types);
wenzelm@4894
   671
    val parent_named_vars = parent_names ~~ parent_vars;
wenzelm@4890
   672
wenzelm@4867
   673
    val fields = map (apfst full) bfields;
wenzelm@4890
   674
    val names = map fst fields;
wenzelm@4890
   675
    val types = map snd fields;
wenzelm@4890
   676
    val len = length fields;
wenzelm@4890
   677
    val xs = variantlist (map fst bfields, moreN :: parent_xs);
wenzelm@4890
   678
    val vars = ListPair.map Free (xs, types);
wenzelm@4894
   679
    val named_vars = names ~~ vars;
wenzelm@4867
   680
wenzelm@4867
   681
    val all_fields = parent_fields @ fields;
wenzelm@4890
   682
    val all_names = parent_names @ names;
wenzelm@4890
   683
    val all_types = parent_types @ types;
wenzelm@4890
   684
    val all_len = parent_len + len;
wenzelm@4890
   685
    val all_xs = parent_xs @ xs;
wenzelm@4890
   686
    val all_vars = parent_vars @ vars;
wenzelm@4894
   687
    val all_named_vars = parent_named_vars @ named_vars;
wenzelm@4867
   688
wenzelm@4867
   689
    val zeta = variant alphas "'z";
wenzelm@4867
   690
    val moreT = TFree (zeta, moreS);
wenzelm@4895
   691
    val more = Free (moreN, moreT);
wenzelm@5197
   692
    val full_moreN = full moreN;
wenzelm@5197
   693
    fun more_part t = mk_more t full_moreN;
wenzelm@5197
   694
    fun more_part_update t x = mk_more_update t (full_moreN, x);
wenzelm@4894
   695
wenzelm@4894
   696
    val parent_more = funpow parent_len mk_snd;
wenzelm@4894
   697
    val idxs = 0 upto (len - 1);
wenzelm@4867
   698
wenzelm@4867
   699
    val rec_schemeT = mk_recordT (all_fields, moreT);
wenzelm@4894
   700
    val rec_scheme = mk_record (all_named_vars, more);
wenzelm@4890
   701
    val r = Free ("r", rec_schemeT);
wenzelm@4894
   702
    val recT = mk_recordT (all_fields, HOLogic.unitT);
wenzelm@4867
   703
wenzelm@4867
   704
wenzelm@4890
   705
    (* prepare print translation functions *)
wenzelm@4867
   706
wenzelm@5698
   707
    val field_tr's =
wenzelm@5698
   708
      print_translation (distinct (flat (map NameSpace.accesses (full_moreN :: names))));
wenzelm@4867
   709
wenzelm@4867
   710
wenzelm@4867
   711
    (* prepare declarations *)
wenzelm@4867
   712
wenzelm@5197
   713
    val sel_decls = map (mk_selC rec_schemeT) bfields @
wenzelm@5197
   714
      [mk_moreC rec_schemeT (moreN, moreT)];
wenzelm@5197
   715
    val update_decls = map (mk_updateC rec_schemeT) bfields @
wenzelm@5197
   716
      [mk_more_updateC rec_schemeT (moreN, moreT)];
wenzelm@4890
   717
    val make_decls =
wenzelm@4890
   718
      [(mk_makeC rec_schemeT (make_schemeN, all_types @ [moreT])),
wenzelm@4890
   719
       (mk_makeC recT (makeN, all_types))];
wenzelm@4867
   720
wenzelm@4867
   721
wenzelm@4867
   722
    (* prepare definitions *)
wenzelm@4867
   723
wenzelm@4895
   724
    (*record (scheme) type abbreviation*)
wenzelm@4890
   725
    val recordT_specs =
wenzelm@4890
   726
      [(suffix schemeN bname, alphas @ [zeta], rec_schemeT, Syntax.NoSyn),
wenzelm@4890
   727
        (bname, alphas, recT, Syntax.NoSyn)];
wenzelm@4867
   728
wenzelm@4894
   729
    (*selectors*)
wenzelm@4890
   730
    fun mk_sel_spec (i, c) =
wenzelm@4894
   731
      mk_sel r c :== mk_fst (funpow i mk_snd (parent_more r));
wenzelm@4894
   732
    val sel_specs =
wenzelm@4894
   733
      ListPair.map mk_sel_spec (idxs, names) @
wenzelm@4894
   734
        [more_part r :== funpow len mk_snd (parent_more r)];
wenzelm@4890
   735
wenzelm@4890
   736
    (*updates*)
wenzelm@4894
   737
    val all_sels = all_names ~~ map (mk_sel r) all_names;
wenzelm@4890
   738
    fun mk_upd_spec (i, (c, x)) =
wenzelm@4894
   739
      mk_update r (c, x) :==
wenzelm@4894
   740
        mk_record (nth_update (c, x) (parent_len + i, all_sels), more_part r)
wenzelm@5197
   741
    val update_specs =
wenzelm@5197
   742
      ListPair.map mk_upd_spec (idxs, named_vars) @
wenzelm@5197
   743
        [more_part_update r more :== mk_record (all_sels, more)];
wenzelm@4867
   744
wenzelm@4867
   745
    (*makes*)
wenzelm@4890
   746
    val make_scheme = Const (mk_makeC rec_schemeT (full make_schemeN, all_types @ [moreT]));
wenzelm@4890
   747
    val make = Const (mk_makeC recT (full makeN, all_types));
wenzelm@4867
   748
    val make_specs =
wenzelm@4894
   749
      [list_comb (make_scheme, all_vars) $ more :== rec_scheme,
wenzelm@4894
   750
        list_comb (make, all_vars) :== mk_record (all_named_vars, HOLogic.unit)];
wenzelm@4894
   751
wenzelm@4894
   752
wenzelm@4894
   753
    (* prepare propositions *)
wenzelm@4894
   754
wenzelm@4894
   755
    (*selectors*)
wenzelm@4894
   756
    val sel_props =
wenzelm@4894
   757
      map (fn (c, x) => mk_sel rec_scheme c === x) named_vars @
wenzelm@4894
   758
        [more_part rec_scheme === more];
wenzelm@4894
   759
wenzelm@4894
   760
    (*updates*)
wenzelm@4894
   761
    fun mk_upd_prop (i, (c, T)) =
wenzelm@4894
   762
      let val x' = Free (variant all_xs (base c ^ "'"), T) in
wenzelm@4894
   763
        mk_update rec_scheme (c, x') ===
wenzelm@4894
   764
          mk_record (nth_update (c, x') (parent_len + i, all_named_vars), more)
wenzelm@4894
   765
      end;
wenzelm@5197
   766
    val update_props =
wenzelm@5197
   767
      ListPair.map mk_upd_prop (idxs, fields) @
wenzelm@5197
   768
        let val more' = Free (variant all_xs (moreN ^ "'"), moreT)
wenzelm@5197
   769
        in [more_part_update rec_scheme more' === mk_record (all_named_vars, more')] end;
wenzelm@4867
   770
wenzelm@4867
   771
wenzelm@4890
   772
    (* 1st stage: fields_thy *)
wenzelm@4867
   773
wenzelm@5713
   774
    val (fields_thy, field_simps, field_injects, field_splits) =
wenzelm@4867
   775
      thy
wenzelm@4867
   776
      |> Theory.add_path bname
wenzelm@4894
   777
      |> field_definitions fields names zeta moreT more vars named_vars;
wenzelm@4867
   778
wenzelm@6092
   779
    val named_splits = map2 (fn (c, th) => (suffix field_typeN c, th)) (names, field_splits);
wenzelm@5698
   780
wenzelm@4867
   781
wenzelm@4890
   782
    (* 2nd stage: defs_thy *)
wenzelm@4890
   783
wenzelm@4890
   784
    val defs_thy =
wenzelm@4890
   785
      fields_thy
wenzelm@4890
   786
      |> Theory.parent_path
wenzelm@5197
   787
      |> Theory.add_tyabbrs_i recordT_specs     (*not made part of record name space!*)
wenzelm@4890
   788
      |> Theory.add_path bname
wenzelm@5197
   789
      |> Theory.add_trfuns ([], [], field_tr's, [])
wenzelm@4894
   790
      |> (Theory.add_consts_i o map Syntax.no_syn)
wenzelm@4894
   791
        (sel_decls @ update_decls @ make_decls)
wenzelm@6092
   792
      |> (PureThy.add_defs_i o map (fn x => (x, [Drule.tag_internal])))
wenzelm@5212
   793
        (sel_specs @ update_specs)
wenzelm@6092
   794
      |> (PureThy.add_defs_i o map Thm.no_attributes) make_specs;
wenzelm@4890
   795
wenzelm@4890
   796
    val sel_defs = get_defs defs_thy sel_specs;
wenzelm@4890
   797
    val update_defs = get_defs defs_thy update_specs;
wenzelm@4890
   798
    val make_defs = get_defs defs_thy make_specs;
wenzelm@4890
   799
wenzelm@4890
   800
wenzelm@4890
   801
    (* 3rd stage: thms_thy *)
wenzelm@4890
   802
wenzelm@4895
   803
    val parent_simps = flat (map #simps parents);
wenzelm@7178
   804
    val prove = prove_simp (Theory.sign_of defs_thy) HOL_basic_ss [];
wenzelm@4890
   805
wenzelm@4895
   806
    val sel_convs = map (prove (parent_simps @ sel_defs @ field_simps)) sel_props;
wenzelm@4895
   807
    val update_convs = map (prove (parent_simps @ update_defs @ sel_convs)) update_props;
wenzelm@4894
   808
wenzelm@4894
   809
    val simps = field_simps @ sel_convs @ update_convs @ make_defs;
wenzelm@6519
   810
    val iffs = field_injects;
wenzelm@4867
   811
wenzelm@4867
   812
    val thms_thy =
wenzelm@4867
   813
      defs_thy
wenzelm@6092
   814
      |> (PureThy.add_thmss o map Thm.no_attributes)
wenzelm@4895
   815
        [("select_defs", sel_defs),
wenzelm@4890
   816
          ("update_defs", update_defs),
wenzelm@4894
   817
          ("make_defs", make_defs),
wenzelm@4895
   818
          ("select_convs", sel_convs),
wenzelm@4894
   819
          ("update_convs", update_convs)]
wenzelm@6092
   820
      |> PureThy.add_thmss
wenzelm@5707
   821
        [(("simps", simps), [Simplifier.simp_add_global]),
wenzelm@6519
   822
         (("iffs", iffs), [iff_add_global])];
wenzelm@4867
   823
wenzelm@4867
   824
wenzelm@4890
   825
    (* 4th stage: final_thy *)
wenzelm@4867
   826
wenzelm@4867
   827
    val final_thy =
wenzelm@4867
   828
      thms_thy
wenzelm@4895
   829
      |> put_record name {args = args, parent = parent, fields = fields, simps = simps}
wenzelm@7178
   830
      |> put_sel_upd names (simps @ update_defs)
wenzelm@5713
   831
      |> add_record_splits named_splits
wenzelm@4867
   832
      |> Theory.parent_path;
wenzelm@4867
   833
wenzelm@6519
   834
  in (final_thy, {simps = simps, iffs = iffs}) end;
wenzelm@4867
   835
wenzelm@4867
   836
wenzelm@4867
   837
wenzelm@4867
   838
(** theory extender interface **)
wenzelm@4867
   839
wenzelm@4867
   840
(* prepare arguments *)
wenzelm@4867
   841
wenzelm@4894
   842
(*note: read_raw_typ avoids expanding type abbreviations*)
wenzelm@4867
   843
fun read_raw_parent sign s =
wenzelm@4867
   844
  (case Sign.read_raw_typ (sign, K None) s handle TYPE (msg, _, _) => error msg of
wenzelm@4867
   845
    Type (name, Ts) => (Ts, name)
wenzelm@4867
   846
  | _ => error ("Bad parent record specification: " ^ quote s));
wenzelm@4867
   847
wenzelm@4867
   848
fun read_typ sign (env, s) =
wenzelm@4867
   849
  let
wenzelm@5060
   850
    fun def_sort (x, ~1) = assoc (env, x)
wenzelm@5060
   851
      | def_sort _ = None;
wenzelm@5060
   852
    val T = Type.no_tvars (Sign.read_typ (sign, def_sort) s) handle TYPE (msg, _, _) => error msg;
wenzelm@4867
   853
  in (Term.add_typ_tfrees (T, env), T) end;
wenzelm@4867
   854
wenzelm@4867
   855
fun cert_typ sign (env, raw_T) =
wenzelm@4867
   856
  let val T = Type.no_tvars (Sign.certify_typ sign raw_T) handle TYPE (msg, _, _) => error msg
wenzelm@4867
   857
  in (Term.add_typ_tfrees (T, env), T) end;
wenzelm@4867
   858
wenzelm@4867
   859
wenzelm@4867
   860
(* add_record *)
wenzelm@4867
   861
wenzelm@4895
   862
(*we do all preparations and error checks here, deferring the real
wenzelm@4895
   863
  work to record_definition*)
wenzelm@4890
   864
wenzelm@4867
   865
fun gen_add_record prep_typ prep_raw_parent (params, bname) raw_parent raw_fields thy =
wenzelm@4867
   866
  let
paulson@4970
   867
    val _ = Theory.requires thy "Record" "record definitions";
wenzelm@4867
   868
    val sign = Theory.sign_of thy;
wenzelm@5698
   869
    val _ = message ("Defining record " ^ quote bname ^ " ...");
wenzelm@4867
   870
wenzelm@4867
   871
wenzelm@4867
   872
    (* parents *)
wenzelm@4867
   873
wenzelm@4867
   874
    fun prep_inst T = snd (cert_typ sign ([], T));
wenzelm@4867
   875
wenzelm@4867
   876
    val parent = apsome (apfst (map prep_inst) o prep_raw_parent sign) raw_parent
wenzelm@4867
   877
      handle ERROR => error ("The error(s) above in parent record specification");
wenzelm@4867
   878
    val parents = add_parents thy (parent, []);
wenzelm@4867
   879
wenzelm@4867
   880
    val init_env =
wenzelm@4867
   881
      (case parent of
wenzelm@4867
   882
        None => []
wenzelm@4867
   883
      | Some (types, _) => foldr Term.add_typ_tfrees (types, []));
wenzelm@4867
   884
wenzelm@4867
   885
wenzelm@4867
   886
    (* fields *)
wenzelm@4867
   887
wenzelm@4967
   888
    fun prep_field (env, (c, raw_T)) =
wenzelm@4967
   889
      let val (env', T) = prep_typ sign (env, raw_T) handle ERROR =>
wenzelm@4967
   890
        error ("The error(s) above occured in field " ^ quote c)
wenzelm@4967
   891
      in (env', (c, T)) end;
wenzelm@4867
   892
wenzelm@4967
   893
    val (envir, bfields) = foldl_map prep_field (init_env, raw_fields);
wenzelm@4867
   894
    val envir_names = map fst envir;
wenzelm@4867
   895
wenzelm@4867
   896
wenzelm@4867
   897
    (* args *)
wenzelm@4867
   898
wenzelm@4867
   899
    val defaultS = Sign.defaultS sign;
wenzelm@4867
   900
    val args = map (fn x => (x, if_none (assoc (envir, x)) defaultS)) params;
wenzelm@4867
   901
wenzelm@4867
   902
wenzelm@4867
   903
    (* errors *)
wenzelm@4867
   904
wenzelm@4890
   905
    val name = Sign.full_name sign bname;
wenzelm@4890
   906
    val err_dup_record =
wenzelm@4890
   907
      if is_none (get_record thy name) then []
wenzelm@4890
   908
      else ["Duplicate definition of record " ^ quote name];
wenzelm@4890
   909
wenzelm@4867
   910
    val err_dup_parms =
wenzelm@4867
   911
      (case duplicates params of
wenzelm@4867
   912
        [] => []
wenzelm@4890
   913
      | dups => ["Duplicate parameter(s) " ^ commas dups]);
wenzelm@4867
   914
wenzelm@4867
   915
    val err_extra_frees =
wenzelm@4867
   916
      (case gen_rems (op =) (envir_names, params) of
wenzelm@4867
   917
        [] => []
wenzelm@4890
   918
      | extras => ["Extra free type variable(s) " ^ commas extras]);
wenzelm@4867
   919
wenzelm@4890
   920
    val err_no_fields = if null bfields then ["No fields present"] else [];
wenzelm@4867
   921
wenzelm@4867
   922
    val err_dup_fields =
wenzelm@4867
   923
      (case duplicates (map fst bfields) of
wenzelm@4867
   924
        [] => []
wenzelm@4890
   925
      | dups => ["Duplicate field(s) " ^ commas_quote dups]);
wenzelm@4890
   926
wenzelm@4890
   927
    val err_bad_fields =
wenzelm@4890
   928
      if forall (not_equal moreN o fst) bfields then []
wenzelm@4890
   929
      else ["Illegal field name " ^ quote moreN];
wenzelm@4867
   930
wenzelm@4867
   931
    val err_dup_sorts =
wenzelm@4867
   932
      (case duplicates envir_names of
wenzelm@4867
   933
        [] => []
wenzelm@4867
   934
      | dups => ["Inconsistent sort constraints for " ^ commas dups]);
wenzelm@4867
   935
wenzelm@4867
   936
    val errs =
wenzelm@4890
   937
      err_dup_record @ err_dup_parms @ err_extra_frees @ err_no_fields @
wenzelm@4890
   938
      err_dup_fields @ err_bad_fields @ err_dup_sorts;
wenzelm@4867
   939
  in
wenzelm@4890
   940
    if null errs then () else error (cat_lines errs);
wenzelm@4867
   941
    thy |> record_definition (args, bname) parent parents bfields
wenzelm@4867
   942
  end
wenzelm@4867
   943
  handle ERROR => error ("Failed to define record " ^ quote bname);
wenzelm@4867
   944
wenzelm@4867
   945
val add_record = gen_add_record read_typ read_raw_parent;
wenzelm@4867
   946
val add_record_i = gen_add_record cert_typ (K I);
wenzelm@4867
   947
wenzelm@4867
   948
wenzelm@4867
   949
wenzelm@6358
   950
(** package setup **)
wenzelm@6358
   951
wenzelm@6358
   952
(* setup theory *)
wenzelm@4867
   953
wenzelm@4867
   954
val setup =
wenzelm@5006
   955
 [RecordsData.init,
wenzelm@5698
   956
  Theory.add_trfuns ([], parse_translation, [], []),
wenzelm@6358
   957
  Method.add_methods [record_split_method],
wenzelm@7178
   958
  Simplifier.change_simpset_of Simplifier.addsimprocs [record_simproc]];
wenzelm@4867
   959
wenzelm@4867
   960
wenzelm@6358
   961
(* outer syntax *)
wenzelm@6358
   962
wenzelm@6723
   963
local structure P = OuterParse and K = OuterSyntax.Keyword in
wenzelm@6358
   964
wenzelm@6358
   965
val record_decl =
wenzelm@6723
   966
  P.type_args -- P.name -- (P.$$$ "=" |-- Scan.option (P.typ --| P.$$$ "+")
wenzelm@6729
   967
    -- Scan.repeat1 (P.name -- (P.$$$ "::" |-- P.typ) --| P.marg_comment));
wenzelm@6358
   968
wenzelm@6358
   969
val recordP =
wenzelm@6723
   970
  OuterSyntax.command "record" "define extensible record" K.thy_decl
wenzelm@6519
   971
    (record_decl >> (fn (x, (y, z)) => Toplevel.theory (#1 o add_record x y z)));
wenzelm@6358
   972
wenzelm@6358
   973
val _ = OuterSyntax.add_parsers [recordP];
wenzelm@6358
   974
wenzelm@4867
   975
end;
wenzelm@5698
   976
wenzelm@5698
   977
wenzelm@6384
   978
end;
wenzelm@6384
   979
wenzelm@5698
   980
structure BasicRecordPackage: BASIC_RECORD_PACKAGE = RecordPackage;
wenzelm@5698
   981
open BasicRecordPackage;