src/Pure/Isar/code.ML
author haftmann
Mon Jul 14 19:20:57 2008 +0200 (2008-07-14 ago)
changeset 27582 367aff8d7ffd
parent 27557 151731493264
child 27609 b23c9ad0fe7d
permissions -rw-r--r--
dropped junk
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(*  Title:      Pure/Isar/code.ML
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    ID:         $Id$
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    Author:     Florian Haftmann, TU Muenchen
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Abstract executable content of theory.  Management of data dependent on
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executable content.  Cache assumes non-concurrent processing of a single theory.
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*)
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signature CODE =
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sig
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  val add_func: thm -> theory -> theory
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  val add_liberal_func: thm -> theory -> theory
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  val add_default_func: thm -> theory -> theory
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  val add_default_func_attr: Attrib.src
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  val del_func: thm -> theory -> theory
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  val del_funcs: string -> theory -> theory
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  val add_funcl: string * thm list Susp.T -> theory -> theory
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  val map_pre: (MetaSimplifier.simpset -> MetaSimplifier.simpset) -> theory -> theory
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  val map_post: (MetaSimplifier.simpset -> MetaSimplifier.simpset) -> theory -> theory
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  val add_inline: thm -> theory -> theory
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  val del_inline: thm -> theory -> theory
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  val add_post: thm -> theory -> theory
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  val del_post: thm -> theory -> theory
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  val add_functrans: string * (theory -> thm list -> thm list) -> theory -> theory
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  val del_functrans: string -> theory -> theory
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  val add_datatype: (string * typ) list -> theory -> theory
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  val add_datatype_cmd: string list -> theory -> theory
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  val type_interpretation:
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    (string * ((string * sort) list * (string * typ list) list)
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      -> theory -> theory) -> theory -> theory
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  val add_case: thm -> theory -> theory
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  val add_undefined: string -> theory -> theory
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  val coregular_algebra: theory -> Sorts.algebra
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  val operational_algebra: theory -> (sort -> sort) * Sorts.algebra
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  val these_funcs: theory -> string -> thm list
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  val get_datatype: theory -> string -> ((string * sort) list * (string * typ list) list)
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  val get_datatype_of_constr: theory -> string -> string option
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  val get_case_data: theory -> string -> (int * string list) option
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  val is_undefined: theory -> string -> bool
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  val default_typ: theory -> string -> (string * sort) list * typ
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  val preprocess_conv: cterm -> thm
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  val preprocess_term: theory -> term -> term
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  val postprocess_conv: cterm -> thm
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  val postprocess_term: theory -> term -> term
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  val add_attribute: string * (Args.T list -> attribute * Args.T list) -> theory -> theory
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  val print_codesetup: theory -> unit
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end;
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signature CODE_DATA_ARGS =
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sig
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  type T
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  val empty: T
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  val merge: Pretty.pp -> T * T -> T
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  val purge: theory option -> string list option -> T -> T
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end;
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signature CODE_DATA =
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sig
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  type T
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  val get: theory -> T
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  val change: theory -> (T -> T) -> T
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  val change_yield: theory -> (T -> 'a * T) -> 'a * T
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end;
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signature PRIVATE_CODE =
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sig
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  include CODE
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  val declare_data: Object.T -> (Pretty.pp -> Object.T * Object.T -> Object.T)
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    -> (theory option -> string list option -> Object.T -> Object.T) -> serial
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  val get_data: serial * ('a -> Object.T) * (Object.T -> 'a)
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    -> theory -> 'a
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  val change_data: serial * ('a -> Object.T) * (Object.T -> 'a)
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    -> theory -> ('a -> 'a) -> 'a
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  val change_yield_data: serial * ('a -> Object.T) * (Object.T -> 'a)
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    -> theory -> ('a -> 'b * 'a) -> 'b * 'a
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end;
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structure Code : PRIVATE_CODE =
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struct
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(** code attributes **)
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structure CodeAttr = TheoryDataFun (
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  type T = (string * (Args.T list -> attribute * Args.T list)) list;
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  val empty = [];
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  val copy = I;
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  val extend = I;
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  fun merge _ = AList.merge (op = : string * string -> bool) (K true);
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);
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fun add_attribute (attr as (name, _)) =
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  let
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    fun add_parser ("", parser) attrs = attrs @ [("", parser)]
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      | add_parser (name, parser) attrs = (name, Args.$$$ name |-- parser) :: attrs;
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    fun error "" = error ("Code attribute already declared")
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      | error name = error ("Code attribute " ^ name ^ " already declared")
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  in CodeAttr.map (fn attrs => if AList.defined (op =) attrs name
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    then error name else add_parser attr attrs)
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  end;
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val _ =
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  let
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    val code_attr = Attrib.syntax (Scan.peek (fn context =>
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      List.foldr op || Scan.fail (map snd (CodeAttr.get (Context.theory_of context)))));
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  in
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    Context.>> (Context.map_theory
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      (Attrib.add_attributes
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        [("code", code_attr, "declare theorems for code generation")]))
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  end;
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(** certificate theorems **)
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fun string_of_lthms r = case Susp.peek r
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 of SOME thms => (map Display.string_of_thm o rev) thms
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  | NONE => ["[...]"];
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fun pretty_lthms ctxt r = case Susp.peek r
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 of SOME thms => map (ProofContext.pretty_thm ctxt) thms
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  | NONE => [Pretty.str "[...]"];
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fun certificate thy f r =
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  case Susp.peek r
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   of SOME thms => (Susp.value o f thy) thms
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    | NONE => let
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        val thy_ref = Theory.check_thy thy;
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      in Susp.delay (fn () => (f (Theory.deref thy_ref) o Susp.force) r) end;
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(** logical and syntactical specification of executable code **)
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(* pairs of (selected, deleted) defining equations *)
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type sdthms = thm list Susp.T * thm list;
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fun add_drop_redundant thm (sels, dels) =
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  let
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    val thy = Thm.theory_of_thm thm;
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    val args_of = snd o strip_comb o fst o Logic.dest_equals o Thm.plain_prop_of;
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    val args = args_of thm;
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    fun matches [] _ = true
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      | matches (Var _ :: xs) [] = matches xs []
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      | matches (_ :: _) [] = false
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      | matches (x :: xs) (y :: ys) = Pattern.matches thy (x, y) andalso matches xs ys;
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    fun drop thm' = not (matches args (args_of thm'))
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      orelse (warning ("Code generator: dropping redundant defining equation\n" ^ Display.string_of_thm thm'); false);
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    val (keeps, drops) = List.partition drop sels;
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  in (thm :: keeps, dels |> remove Thm.eq_thm_prop thm |> fold (insert Thm.eq_thm_prop) drops) end;
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fun add_thm thm (sels, dels) =
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  apfst Susp.value (add_drop_redundant thm (Susp.force sels, dels));
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fun add_lthms lthms (sels, []) =
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      (Susp.delay (fn () => fold add_drop_redundant
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        (Susp.force lthms) (Susp.force sels, []) |> fst), [])
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        (*FIXME*)
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  | add_lthms lthms (sels, dels) =
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      fold add_thm (Susp.force lthms) (sels, dels);
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fun del_thm thm (sels, dels) =
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  (Susp.value (remove Thm.eq_thm_prop thm (Susp.force sels)), thm :: dels);
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fun del_thms (sels, dels) =
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  let
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    val all_sels = Susp.force sels;
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  in (Susp.value [], rev all_sels @ dels) end;
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fun pretty_sdthms ctxt (sels, _) = pretty_lthms ctxt sels;
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(* fundamental melting operations *)
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(*FIXME delete*)
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fun melt _ ([], []) = (false, [])
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  | melt _ ([], ys) = (true, ys)
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  | melt eq (xs, ys) = fold_rev
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      (fn y => fn (t, xs) => (t orelse not (member eq xs y), insert eq y xs)) ys (false, xs);
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val melt_thms = melt Thm.eq_thm_prop;
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fun melt_lthms (r1, r2) =
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  if Susp.same (r1, r2)
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    then (false, r1)
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  else case Susp.peek r1
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   of SOME [] => (true, r2)
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    | _ => case Susp.peek r2
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       of SOME [] => (true, r1)
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        | _ => (apsnd (Susp.delay o K)) (melt_thms (Susp.force r1, Susp.force r2));
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fun melt_sdthms ((sels1, dels1), (sels2, dels2)) =
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  let
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    val (dels_t, dels) = melt_thms (dels1, dels2);
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  in if dels_t
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    then let
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      val (_, sels) = melt_thms
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        (subtract Thm.eq_thm_prop dels2 (Susp.force sels1), Susp.force sels2);
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      val (_, dels) = melt_thms
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        (subtract Thm.eq_thm_prop (Susp.force sels2) dels1, dels2);
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    in (true, ((Susp.delay o K) sels, dels)) end
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    else let
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      val (sels_t, sels) = melt_lthms (sels1, sels2);
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    in (sels_t, (sels, dels)) end
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  end;
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(* specification data *)
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val merge_funcs = Symtab.join (fn _ => fn ((_, a), (_, b)) => melt_sdthms (a, b));
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val eq_string = op = : string * string -> bool;
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fun eq_dtyp ((vs1, cs1), (vs2, cs2)) = 
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  gen_eq_set (eq_pair eq_string (gen_eq_set eq_string)) (vs1, vs2)
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    andalso gen_eq_set (eq_fst eq_string) (cs1, cs2);
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fun merge_dtyps (tabs as (tab1, tab2)) =
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  let
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    fun join _ (cos as (_, cos2)) = if eq_dtyp cos then raise Symtab.SAME else cos2;
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  in Symtab.join join tabs end;
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fun merge_cases ((cases1, undefs1), (cases2, undefs2)) =
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  (Symtab.merge (K true) (cases1, cases2), Symtab.merge (K true) (undefs1, undefs2));
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datatype spec = Spec of {
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  funcs: (bool * sdthms) Symtab.table,
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  dtyps: ((string * sort) list * (string * typ list) list) Symtab.table,
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  cases: (int * string list) Symtab.table * unit Symtab.table
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};
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fun mk_spec (funcs, (dtyps, cases)) =
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  Spec { funcs = funcs, dtyps = dtyps, cases = cases };
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fun map_spec f (Spec { funcs = funcs, dtyps = dtyps, cases = cases }) =
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  mk_spec (f (funcs, (dtyps, cases)));
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fun merge_spec (Spec { funcs = funcs1, dtyps = dtyps1, cases = cases1 },
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  Spec { funcs = funcs2, dtyps = dtyps2, cases = cases2 }) =
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  let
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    val funcs = merge_funcs (funcs1, funcs2);
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    val dtyps = merge_dtyps (dtyps1, dtyps2);
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    val cases = merge_cases (cases1, cases2);
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  in mk_spec (funcs, (dtyps, cases)) end;
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(* pre- and postprocessor *)
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datatype thmproc = Thmproc of {
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  pre: MetaSimplifier.simpset,
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  post: MetaSimplifier.simpset,
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  functrans: (string * (serial * (theory -> thm list -> thm list))) list
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};
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fun mk_thmproc ((pre, post), functrans) =
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  Thmproc { pre = pre, post = post, functrans = functrans };
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fun map_thmproc f (Thmproc { pre, post, functrans }) =
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  mk_thmproc (f ((pre, post), functrans));
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fun merge_thmproc (Thmproc { pre = pre1, post = post1, functrans = functrans1 },
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  Thmproc { pre = pre2, post = post2, functrans = functrans2 }) =
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    let
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      val pre = MetaSimplifier.merge_ss (pre1, pre2);
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      val post = MetaSimplifier.merge_ss (post1, post2);
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      val functrans = AList.merge (op =) (eq_fst (op =)) (functrans1, functrans2);
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    in mk_thmproc ((pre, post), functrans) end;
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datatype exec = Exec of {
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  thmproc: thmproc,
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  spec: spec
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};
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fun mk_exec (thmproc, spec) =
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  Exec { thmproc = thmproc, spec = spec };
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fun map_exec f (Exec { thmproc = thmproc, spec = spec }) =
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  mk_exec (f (thmproc, spec));
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fun merge_exec (Exec { thmproc = thmproc1, spec = spec1 },
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  Exec { thmproc = thmproc2, spec = spec2 }) =
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  let
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    val thmproc = merge_thmproc (thmproc1, thmproc2);
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    val spec = merge_spec (spec1, spec2);
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  in mk_exec (thmproc, spec) end;
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val empty_exec = mk_exec (mk_thmproc ((MetaSimplifier.empty_ss, MetaSimplifier.empty_ss), []),
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  mk_spec (Symtab.empty, (Symtab.empty, (Symtab.empty, Symtab.empty))));
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fun the_thmproc (Exec { thmproc = Thmproc x, ...}) = x;
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fun the_spec (Exec { spec = Spec x, ...}) = x;
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val the_funcs = #funcs o the_spec;
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val the_dtyps = #dtyps o the_spec;
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val the_cases = #cases o the_spec;
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val map_thmproc = map_exec o apfst o map_thmproc;
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val map_funcs = map_exec o apsnd o map_spec o apfst;
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val map_dtyps = map_exec o apsnd o map_spec o apsnd o apfst;
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val map_cases = map_exec o apsnd o map_spec o apsnd o apsnd;
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(* data slots dependent on executable content *)
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(*private copy avoids potential conflict of table exceptions*)
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structure Datatab = TableFun(type key = int val ord = int_ord);
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local
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type kind = {
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  empty: Object.T,
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  merge: Pretty.pp -> Object.T * Object.T -> Object.T,
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  purge: theory option -> string list option -> Object.T -> Object.T
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};
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val kinds = ref (Datatab.empty: kind Datatab.table);
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val kind_keys = ref ([]: serial list);
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fun invoke f k = case Datatab.lookup (! kinds) k
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 of SOME kind => f kind
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  | NONE => sys_error "Invalid code data identifier";
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in
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fun declare_data empty merge purge =
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  let
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    val k = serial ();
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    val kind = {empty = empty, merge = merge, purge = purge};
haftmann@24219
   320
    val _ = change kinds (Datatab.update (k, kind));
haftmann@24219
   321
    val _ = change kind_keys (cons k);
haftmann@24219
   322
  in k end;
haftmann@24219
   323
haftmann@24219
   324
fun invoke_empty k = invoke (fn kind => #empty kind) k;
haftmann@24219
   325
haftmann@24219
   326
fun invoke_merge_all pp = Datatab.join
haftmann@24219
   327
  (invoke (fn kind => #merge kind pp));
haftmann@24219
   328
haftmann@24219
   329
fun invoke_purge_all thy_opt cs =
haftmann@24219
   330
  fold (fn k => Datatab.map_entry k
haftmann@24219
   331
    (invoke (fn kind => #purge kind thy_opt cs) k)) (! kind_keys);
haftmann@24219
   332
haftmann@24219
   333
end; (*local*)
haftmann@24219
   334
haftmann@24219
   335
haftmann@25312
   336
(** theory store **)
haftmann@24219
   337
haftmann@24219
   338
local
haftmann@24219
   339
haftmann@24219
   340
type data = Object.T Datatab.table;
haftmann@24219
   341
haftmann@24219
   342
structure CodeData = TheoryDataFun
haftmann@24219
   343
(
haftmann@24219
   344
  type T = exec * data ref;
haftmann@24219
   345
  val empty = (empty_exec, ref Datatab.empty : data ref);
haftmann@24219
   346
  fun copy (exec, data) = (exec, ref (! data));
haftmann@24219
   347
  val extend = copy;
haftmann@24219
   348
  fun merge pp ((exec1, data1), (exec2, data2)) =
haftmann@24219
   349
    let
haftmann@27557
   350
      val exec = merge_exec (exec1, exec2);
haftmann@27557
   351
      val data1' = invoke_purge_all NONE NONE (! data1);
haftmann@27557
   352
      val data2' = invoke_purge_all NONE NONE (! data2);
haftmann@24219
   353
      val data = invoke_merge_all pp (data1', data2');
haftmann@24219
   354
    in (exec, ref data) end;
haftmann@24219
   355
);
haftmann@24219
   356
wenzelm@26463
   357
val _ = Context.>> (Context.map_theory CodeData.init);
haftmann@24219
   358
haftmann@24219
   359
fun thy_data f thy = f ((snd o CodeData.get) thy);
haftmann@24219
   360
haftmann@24219
   361
fun get_ensure_init kind data_ref =
haftmann@24219
   362
  case Datatab.lookup (! data_ref) kind
haftmann@24219
   363
   of SOME x => x
haftmann@24219
   364
    | NONE => let val y = invoke_empty kind
haftmann@24219
   365
        in (change data_ref (Datatab.update (kind, y)); y) end;
haftmann@24219
   366
haftmann@24219
   367
in
haftmann@24219
   368
haftmann@24219
   369
(* access to executable content *)
haftmann@24219
   370
haftmann@24844
   371
val the_exec = fst o CodeData.get;
haftmann@24219
   372
haftmann@24219
   373
fun map_exec_purge touched f thy =
haftmann@24219
   374
  CodeData.map (fn (exec, data) => 
haftmann@24219
   375
    (f exec, ref (invoke_purge_all (SOME thy) touched (! data)))) thy;
haftmann@24219
   376
haftmann@24219
   377
haftmann@24219
   378
(* access to data dependent on abstract executable content *)
haftmann@24219
   379
haftmann@24219
   380
fun get_data (kind, _, dest) = thy_data (get_ensure_init kind #> dest);
haftmann@24219
   381
haftmann@24219
   382
fun change_data (kind, mk, dest) =
haftmann@24219
   383
  let
haftmann@24219
   384
    fun chnge data_ref f =
haftmann@24219
   385
      let
haftmann@24219
   386
        val data = get_ensure_init kind data_ref;
haftmann@24219
   387
        val data' = f (dest data);
haftmann@24219
   388
      in (change data_ref (Datatab.update (kind, mk data')); data') end;
haftmann@24219
   389
  in thy_data chnge end;
haftmann@24219
   390
haftmann@24219
   391
fun change_yield_data (kind, mk, dest) =
haftmann@24219
   392
  let
haftmann@24219
   393
    fun chnge data_ref f =
haftmann@24219
   394
      let
haftmann@24219
   395
        val data = get_ensure_init kind data_ref;
haftmann@24219
   396
        val (x, data') = f (dest data);
haftmann@24219
   397
      in (x, (change data_ref (Datatab.update (kind, mk data')); data')) end;
haftmann@24219
   398
  in thy_data chnge end;
haftmann@24219
   399
haftmann@24219
   400
end; (*local*)
haftmann@24219
   401
haftmann@24219
   402
haftmann@24219
   403
(* print executable content *)
haftmann@24219
   404
haftmann@24219
   405
fun print_codesetup thy =
haftmann@24219
   406
  let
haftmann@24219
   407
    val ctxt = ProofContext.init thy;
haftmann@24844
   408
    val exec = the_exec thy;
haftmann@24219
   409
    fun pretty_func (s, lthms) =
haftmann@24219
   410
      (Pretty.block o Pretty.fbreaks) (
haftmann@24219
   411
        Pretty.str s :: pretty_sdthms ctxt lthms
haftmann@24219
   412
      );
haftmann@24219
   413
    fun pretty_dtyp (s, []) =
haftmann@24219
   414
          Pretty.str s
haftmann@24219
   415
      | pretty_dtyp (s, cos) =
haftmann@24219
   416
          (Pretty.block o Pretty.breaks) (
haftmann@24219
   417
            Pretty.str s
haftmann@24219
   418
            :: Pretty.str "="
haftmann@24219
   419
            :: separate (Pretty.str "|") (map (fn (c, []) => Pretty.str c
haftmann@24219
   420
                 | (c, tys) =>
haftmann@24219
   421
                     (Pretty.block o Pretty.breaks)
haftmann@24423
   422
                        (Pretty.str (CodeUnit.string_of_const thy c)
wenzelm@26947
   423
                          :: Pretty.str "of"
wenzelm@26947
   424
                          :: map (Pretty.quote o Syntax.pretty_typ_global thy) tys)) cos)
haftmann@24219
   425
          );
haftmann@27557
   426
    val pre = (#pre o the_thmproc) exec;
haftmann@27557
   427
    val post = (#post o the_thmproc) exec;
haftmann@27557
   428
    val functrans = (map fst o #functrans o the_thmproc) exec;
haftmann@24219
   429
    val funs = the_funcs exec
haftmann@24423
   430
      |> Symtab.dest
haftmann@25312
   431
      |> (map o apsnd) snd
haftmann@24219
   432
      |> (map o apfst) (CodeUnit.string_of_const thy)
haftmann@24219
   433
      |> sort (string_ord o pairself fst);
haftmann@24219
   434
    val dtyps = the_dtyps exec
haftmann@24219
   435
      |> Symtab.dest
wenzelm@26947
   436
      |> map (fn (dtco, (vs, cos)) =>
wenzelm@26947
   437
          (Syntax.string_of_typ_global thy (Type (dtco, map TFree vs)), cos))
haftmann@24219
   438
      |> sort (string_ord o pairself fst)
haftmann@24219
   439
  in
haftmann@24219
   440
    (Pretty.writeln o Pretty.chunks) [
haftmann@24219
   441
      Pretty.block (
haftmann@24219
   442
        Pretty.str "defining equations:"
haftmann@24219
   443
        :: Pretty.fbrk
haftmann@24219
   444
        :: (Pretty.fbreaks o map pretty_func) funs
haftmann@24219
   445
      ),
haftmann@27557
   446
      Pretty.block [
haftmann@27557
   447
        Pretty.str "preprocessing simpset:",
haftmann@27557
   448
        Pretty.fbrk,
haftmann@27557
   449
        MetaSimplifier.pretty_ss pre
haftmann@27557
   450
      ],
haftmann@27557
   451
      Pretty.block [
haftmann@27557
   452
        Pretty.str "postprocessing simpset:",
haftmann@27557
   453
        Pretty.fbrk,
haftmann@27557
   454
        MetaSimplifier.pretty_ss post
haftmann@27557
   455
      ],
haftmann@24219
   456
      Pretty.block (
haftmann@27557
   457
        Pretty.str "function transformators:"
haftmann@24219
   458
        :: Pretty.fbrk
haftmann@27557
   459
        :: (Pretty.fbreaks o map Pretty.str) functrans
haftmann@25968
   460
      ),
haftmann@25968
   461
      Pretty.block (
haftmann@24219
   462
        Pretty.str "datatypes:"
haftmann@24219
   463
        :: Pretty.fbrk
haftmann@24219
   464
        :: (Pretty.fbreaks o map pretty_dtyp) dtyps
haftmann@24219
   465
      )
haftmann@24219
   466
    ]
haftmann@24219
   467
  end;
haftmann@24219
   468
haftmann@24219
   469
haftmann@24219
   470
haftmann@24219
   471
(** theorem transformation and certification **)
haftmann@24219
   472
haftmann@26970
   473
fun const_of thy = dest_Const o fst o strip_comb o fst o Logic.dest_equals
haftmann@26970
   474
  o ObjectLogic.drop_judgment thy o Thm.plain_prop_of;
haftmann@26970
   475
haftmann@26970
   476
fun const_of_func thy = AxClass.unoverload_const thy o const_of thy;
haftmann@26970
   477
haftmann@24219
   478
fun common_typ_funcs [] = []
haftmann@24219
   479
  | common_typ_funcs [thm] = [thm]
haftmann@26970
   480
  | common_typ_funcs (thms as thm :: _) = (*FIXME is too general*)
haftmann@24219
   481
      let
haftmann@24219
   482
        val thy = Thm.theory_of_thm thm;
haftmann@24219
   483
        fun incr_thm thm max =
haftmann@24219
   484
          let
haftmann@24219
   485
            val thm' = incr_indexes max thm;
haftmann@24219
   486
            val max' = Thm.maxidx_of thm' + 1;
haftmann@24219
   487
          in (thm', max') end;
haftmann@24219
   488
        val (thms', maxidx) = fold_map incr_thm thms 0;
haftmann@26970
   489
        val ty1 :: tys = map (snd o const_of thy) thms';
haftmann@24219
   490
        fun unify ty env = Sign.typ_unify thy (ty1, ty) env
haftmann@24219
   491
          handle Type.TUNIFY =>
haftmann@24219
   492
            error ("Type unificaton failed, while unifying defining equations\n"
haftmann@24219
   493
            ^ (cat_lines o map Display.string_of_thm) thms
haftmann@24219
   494
            ^ "\nwith types\n"
haftmann@24219
   495
            ^ (cat_lines o map (CodeUnit.string_of_typ thy)) (ty1 :: tys));
haftmann@24219
   496
        val (env, _) = fold unify tys (Vartab.empty, maxidx)
haftmann@24219
   497
        val instT = Vartab.fold (fn (x_i, (sort, ty)) =>
haftmann@24219
   498
          cons (Thm.ctyp_of thy (TVar (x_i, sort)), Thm.ctyp_of thy ty)) env [];
haftmann@24219
   499
      in map (Thm.instantiate (instT, [])) thms' end;
haftmann@24219
   500
haftmann@24219
   501
fun certify_const thy const thms =
haftmann@24219
   502
  let
haftmann@24423
   503
    fun cert thm = if const = const_of_func thy thm
haftmann@24219
   504
      then thm else error ("Wrong head of defining equation,\nexpected constant "
wenzelm@26928
   505
        ^ CodeUnit.string_of_const thy const ^ "\n" ^ Display.string_of_thm thm)
haftmann@24219
   506
  in map cert thms end;
haftmann@24219
   507
haftmann@24219
   508
haftmann@24219
   509
haftmann@24219
   510
(** operational sort algebra and class discipline **)
haftmann@24219
   511
haftmann@24219
   512
local
haftmann@24219
   513
haftmann@24219
   514
fun aggr_neutr f y [] = y
haftmann@24219
   515
  | aggr_neutr f y (x::xs) = aggr_neutr f (f y x) xs;
haftmann@24219
   516
haftmann@24219
   517
fun aggregate f [] = NONE
haftmann@24219
   518
  | aggregate f (x::xs) = SOME (aggr_neutr f x xs);
haftmann@24219
   519
haftmann@25462
   520
fun inter_sorts algebra =
haftmann@25462
   521
  aggregate (map2 (curry (Sorts.inter_sort algebra)));
haftmann@24219
   522
haftmann@24219
   523
fun specific_constraints thy (class, tyco) =
haftmann@24219
   524
  let
haftmann@24219
   525
    val vs = Name.invents Name.context "" (Sign.arity_number thy tyco);
wenzelm@24969
   526
    val classparams = (map fst o these o try (#params o AxClass.get_info thy)) class;
haftmann@24837
   527
    val funcs = classparams
haftmann@25597
   528
      |> map_filter (fn c => try (AxClass.param_of_inst thy) (c, tyco))
haftmann@24844
   529
      |> map (Symtab.lookup ((the_funcs o the_exec) thy))
haftmann@25312
   530
      |> (map o Option.map) (Susp.force o fst o snd)
haftmann@24219
   531
      |> maps these
haftmann@24423
   532
      |> map (Thm.transfer thy)
haftmann@24423
   533
    fun sorts_of [Type (_, tys)] = map (snd o dest_TVar) tys
haftmann@24423
   534
      | sorts_of tys = map (snd o dest_TVar) tys;
haftmann@26970
   535
    val sorts = map (sorts_of o Sign.const_typargs thy o const_of thy) funcs;
haftmann@24219
   536
  in sorts end;
haftmann@24219
   537
haftmann@25462
   538
fun weakest_constraints thy algebra (class, tyco) =
haftmann@24219
   539
  let
haftmann@25462
   540
    val all_superclasses = Sorts.complete_sort algebra [class];
haftmann@25462
   541
  in case inter_sorts algebra (maps (fn class => specific_constraints thy (class, tyco)) all_superclasses)
haftmann@24219
   542
   of SOME sorts => sorts
haftmann@25462
   543
    | NONE => Sorts.mg_domain algebra tyco [class]
haftmann@24219
   544
  end;
haftmann@24219
   545
haftmann@25462
   546
fun strongest_constraints thy algebra (class, tyco) =
haftmann@24219
   547
  let
haftmann@24219
   548
    val all_subclasses = class :: Graph.all_preds ((#classes o Sorts.rep_algebra) algebra) [class];
haftmann@24219
   549
    val inst_subclasses = filter (can (Sorts.mg_domain algebra tyco) o single) all_subclasses;
haftmann@25462
   550
  in case inter_sorts algebra (maps (fn class => specific_constraints thy (class, tyco)) inst_subclasses)
haftmann@24219
   551
   of SOME sorts => sorts
haftmann@24219
   552
    | NONE => replicate
haftmann@25462
   553
        (Sign.arity_number thy tyco) (Sorts.minimize_sort algebra (Sorts.all_classes algebra))
haftmann@25462
   554
  end;
haftmann@25462
   555
haftmann@25462
   556
fun get_algebra thy (class, tyco) =
haftmann@25462
   557
  let
haftmann@25462
   558
    val base_algebra = Sign.classes_of thy;
haftmann@25462
   559
  in if can (Sorts.mg_domain base_algebra tyco) [class]
haftmann@25462
   560
    then base_algebra
haftmann@25462
   561
    else let
haftmann@25462
   562
      val superclasses = Sorts.super_classes base_algebra class;
haftmann@25462
   563
      val sorts = inter_sorts base_algebra
haftmann@25462
   564
          (map_filter (fn class => try (Sorts.mg_domain base_algebra tyco) [class]) superclasses)
haftmann@25462
   565
        |> the_default (replicate (Sign.arity_number thy tyco) [])
haftmann@25462
   566
    in
haftmann@25462
   567
      base_algebra
wenzelm@26947
   568
      |> Sorts.add_arities (Syntax.pp_global thy) (tyco, [(class, sorts)])
haftmann@25462
   569
    end
haftmann@24219
   570
  end;
haftmann@24219
   571
haftmann@24837
   572
fun gen_classparam_typ constr thy class (c, tyco) = 
haftmann@24219
   573
  let
haftmann@25462
   574
    val algebra = get_algebra thy (class, tyco);
wenzelm@24969
   575
    val cs = these (try (#params o AxClass.get_info thy) class);
haftmann@25462
   576
    val SOME ty = AList.lookup (op =) cs c;
wenzelm@24969
   577
    val sort_args = Name.names (Name.declare Name.aT Name.context) Name.aT
haftmann@25462
   578
      (constr thy algebra (class, tyco));
haftmann@24219
   579
    val ty_inst = Type (tyco, map TFree sort_args);
haftmann@24219
   580
  in Logic.varifyT (map_type_tfree (K ty_inst) ty) end;
haftmann@24219
   581
haftmann@24219
   582
fun retrieve_algebra thy operational =
wenzelm@26947
   583
  Sorts.subalgebra (Syntax.pp_global thy) operational
haftmann@25462
   584
    (weakest_constraints thy (Sign.classes_of thy))
haftmann@24219
   585
    (Sign.classes_of thy);
haftmann@24219
   586
haftmann@24219
   587
in
haftmann@24219
   588
haftmann@24219
   589
fun coregular_algebra thy = retrieve_algebra thy (K true) |> snd;
haftmann@24219
   590
fun operational_algebra thy =
haftmann@24219
   591
  let
haftmann@24219
   592
    fun add_iff_operational class =
wenzelm@24928
   593
      can (AxClass.get_info thy) class ? cons class;
haftmann@24219
   594
    val operational_classes = fold add_iff_operational (Sign.all_classes thy) []
haftmann@24219
   595
  in retrieve_algebra thy (member (op =) operational_classes) end;
haftmann@24219
   596
haftmann@24837
   597
val classparam_weakest_typ = gen_classparam_typ weakest_constraints;
haftmann@24837
   598
val classparam_strongest_typ = gen_classparam_typ strongest_constraints;
haftmann@24219
   599
haftmann@24219
   600
fun assert_func_typ thm =
haftmann@24219
   601
  let
haftmann@24219
   602
    val thy = Thm.theory_of_thm thm;
haftmann@24837
   603
    fun check_typ_classparam tyco (c, thm) =
haftmann@24219
   604
          let
haftmann@24423
   605
            val SOME class = AxClass.class_of_param thy c;
haftmann@26970
   606
            val (_, ty) = const_of thy thm;
haftmann@24837
   607
            val ty_decl = classparam_weakest_typ thy class (c, tyco);
haftmann@24837
   608
            val ty_strongest = classparam_strongest_typ thy class (c, tyco);
haftmann@24219
   609
            fun constrain thm = 
haftmann@24219
   610
              let
haftmann@24219
   611
                val max = Thm.maxidx_of thm + 1;
haftmann@24219
   612
                val ty_decl' = Logic.incr_tvar max ty_decl;
haftmann@26970
   613
                val (_, ty') = const_of thy thm;
haftmann@24219
   614
                val (env, _) = Sign.typ_unify thy (ty_decl', ty') (Vartab.empty, max);
haftmann@24219
   615
                val instT = Vartab.fold (fn (x_i, (sort, ty)) =>
haftmann@24219
   616
                  cons (Thm.ctyp_of thy (TVar (x_i, sort)), Thm.ctyp_of thy ty)) env [];
haftmann@24219
   617
              in Thm.instantiate (instT, []) thm end;
haftmann@24219
   618
          in if Sign.typ_instance thy (ty_strongest, ty)
haftmann@24219
   619
            then if Sign.typ_instance thy (ty, ty_decl)
haftmann@24219
   620
            then thm
haftmann@24219
   621
            else (warning ("Constraining type\n" ^ CodeUnit.string_of_typ thy ty
haftmann@24219
   622
              ^ "\nof defining equation\n"
wenzelm@26928
   623
              ^ Display.string_of_thm thm
haftmann@24219
   624
              ^ "\nto permitted most general type\n"
haftmann@24219
   625
              ^ CodeUnit.string_of_typ thy ty_decl);
haftmann@24219
   626
              constrain thm)
haftmann@24219
   627
            else CodeUnit.bad_thm ("Type\n" ^ CodeUnit.string_of_typ thy ty
haftmann@24219
   628
              ^ "\nof defining equation\n"
wenzelm@26928
   629
              ^ Display.string_of_thm thm
haftmann@24219
   630
              ^ "\nis incompatible with permitted least general type\n"
haftmann@24219
   631
              ^ CodeUnit.string_of_typ thy ty_strongest)
haftmann@24423
   632
          end;
haftmann@24423
   633
    fun check_typ_fun (c, thm) =
haftmann@24219
   634
      let
haftmann@26970
   635
        val (_, ty) = const_of thy thm;
haftmann@24219
   636
        val ty_decl = Sign.the_const_type thy c;
haftmann@24219
   637
      in if Sign.typ_equiv thy (Type.strip_sorts ty_decl, Type.strip_sorts ty)
haftmann@24219
   638
        then thm
haftmann@24219
   639
        else CodeUnit.bad_thm ("Type\n" ^ CodeUnit.string_of_typ thy ty
haftmann@24219
   640
           ^ "\nof defining equation\n"
wenzelm@26928
   641
           ^ Display.string_of_thm thm
haftmann@24219
   642
           ^ "\nis incompatible with declared function type\n"
haftmann@24219
   643
           ^ CodeUnit.string_of_typ thy ty_decl)
haftmann@24219
   644
      end;
haftmann@24423
   645
    fun check_typ (c, thm) =
haftmann@25597
   646
      case AxClass.inst_of_param thy c
haftmann@24837
   647
       of SOME (c, tyco) => check_typ_classparam tyco (c, thm)
haftmann@24423
   648
        | NONE => check_typ_fun (c, thm);
haftmann@24423
   649
  in check_typ (const_of_func thy thm, thm) end;
haftmann@24219
   650
haftmann@24283
   651
val mk_func = CodeUnit.error_thm (assert_func_typ o CodeUnit.mk_func);
haftmann@24624
   652
val mk_liberal_func = CodeUnit.warning_thm (assert_func_typ o CodeUnit.mk_func);
haftmann@24624
   653
val mk_default_func = CodeUnit.try_thm (assert_func_typ o CodeUnit.mk_func);
haftmann@24219
   654
haftmann@24219
   655
end;
haftmann@24219
   656
haftmann@24219
   657
haftmann@24219
   658
haftmann@24219
   659
(** interfaces and attributes **)
haftmann@24219
   660
haftmann@24624
   661
fun delete_force msg key xs =
haftmann@24624
   662
  if AList.defined (op =) xs key then AList.delete (op =) key xs
haftmann@24624
   663
  else error ("No such " ^ msg ^ ": " ^ quote key);
haftmann@24624
   664
haftmann@24423
   665
fun get_datatype thy tyco =
haftmann@24844
   666
  case Symtab.lookup ((the_dtyps o the_exec) thy) tyco
haftmann@24423
   667
   of SOME spec => spec
haftmann@24423
   668
    | NONE => Sign.arity_number thy tyco
wenzelm@24848
   669
        |> Name.invents Name.context Name.aT
haftmann@24423
   670
        |> map (rpair [])
haftmann@24423
   671
        |> rpair [];
haftmann@24423
   672
haftmann@24423
   673
fun get_datatype_of_constr thy c =
haftmann@24423
   674
  case (snd o strip_type o Sign.the_const_type thy) c
haftmann@24423
   675
   of Type (tyco, _) => if member (op =)
haftmann@24844
   676
       ((the_default [] o Option.map (map fst o snd) o Symtab.lookup ((the_dtyps o the_exec) thy)) tyco) c
haftmann@24423
   677
       then SOME tyco else NONE
haftmann@24423
   678
    | _ => NONE;
haftmann@24423
   679
haftmann@24423
   680
fun get_constr_typ thy c =
haftmann@24423
   681
  case get_datatype_of_constr thy c
haftmann@24423
   682
   of SOME tyco => let
haftmann@24423
   683
          val (vs, cos) = get_datatype thy tyco;
haftmann@24423
   684
          val SOME tys = AList.lookup (op =) cos c;
haftmann@24423
   685
          val ty = tys ---> Type (tyco, map TFree vs);
haftmann@24423
   686
        in SOME (Logic.varifyT ty) end
haftmann@24423
   687
    | NONE => NONE;
haftmann@24423
   688
haftmann@24844
   689
val get_case_data = Symtab.lookup o fst o the_cases o the_exec;
haftmann@24844
   690
haftmann@24844
   691
val is_undefined = Symtab.defined o snd o the_cases o the_exec;
haftmann@24844
   692
haftmann@24624
   693
fun add_func thm thy =
haftmann@24624
   694
  let
haftmann@24624
   695
    val func = mk_func thm;
haftmann@24624
   696
    val c = const_of_func thy func;
haftmann@24624
   697
    val _ = if (is_some o AxClass.class_of_param thy) c
haftmann@24624
   698
      then error ("Rejected polymorphic equation for overloaded constant:\n"
wenzelm@26928
   699
        ^ Display.string_of_thm thm)
haftmann@24624
   700
      else ();
haftmann@24624
   701
    val _ = if (is_some o get_datatype_of_constr thy) c
haftmann@24624
   702
      then error ("Rejected equation for datatype constructor:\n"
wenzelm@26928
   703
        ^ Display.string_of_thm func)
haftmann@24624
   704
      else ();
haftmann@24624
   705
  in
haftmann@24624
   706
    (map_exec_purge (SOME [c]) o map_funcs) (Symtab.map_default
haftmann@25312
   707
      (c, (false, (Susp.value [], []))) (apsnd (add_thm func))) thy
haftmann@24624
   708
  end;
haftmann@24219
   709
haftmann@24624
   710
fun add_liberal_func thm thy =
haftmann@24624
   711
  case mk_liberal_func thm
haftmann@24624
   712
   of SOME func => let
haftmann@24624
   713
          val c = const_of_func thy func
haftmann@24624
   714
        in if (is_some o AxClass.class_of_param thy) c
haftmann@24624
   715
          orelse (is_some o get_datatype_of_constr thy) c
haftmann@24624
   716
          then thy
haftmann@24624
   717
          else map_exec_purge (SOME [c]) (map_funcs
haftmann@24624
   718
            (Symtab.map_default
haftmann@25312
   719
              (c, (false, (Susp.value [], []))) (apsnd (add_thm func)))) thy
haftmann@24624
   720
        end
haftmann@24624
   721
    | NONE => thy;
haftmann@24624
   722
haftmann@24624
   723
fun add_default_func thm thy =
haftmann@24624
   724
  case mk_default_func thm
haftmann@24624
   725
   of SOME func => let
haftmann@24624
   726
          val c = const_of_func thy func
haftmann@24624
   727
        in if (is_some o AxClass.class_of_param thy) c
haftmann@24624
   728
          orelse (is_some o get_datatype_of_constr thy) c
haftmann@24624
   729
          then thy
haftmann@24624
   730
          else map_exec_purge (SOME [c]) (map_funcs
haftmann@24624
   731
          (Symtab.map_default
haftmann@25312
   732
            (c, (false, (Susp.value [], []))) (apsnd (add_thm func)))) thy
haftmann@24624
   733
        end
haftmann@24624
   734
    | NONE => thy;
haftmann@24219
   735
haftmann@24219
   736
fun del_func thm thy =
haftmann@24659
   737
  case mk_liberal_func thm
haftmann@24659
   738
   of SOME func => let
haftmann@24659
   739
          val c = const_of_func thy func;
haftmann@24659
   740
        in map_exec_purge (SOME [c]) (map_funcs
haftmann@25312
   741
          (Symtab.map_entry c (apsnd (del_thm func)))) thy
haftmann@24659
   742
        end
haftmann@24659
   743
    | NONE => thy;
haftmann@24219
   744
haftmann@26021
   745
fun del_funcs const = map_exec_purge (SOME [const])
haftmann@26021
   746
  (map_funcs (Symtab.map_entry const (apsnd del_thms)));
haftmann@26021
   747
haftmann@24219
   748
fun add_funcl (const, lthms) thy =
haftmann@24219
   749
  let
haftmann@24219
   750
    val lthms' = certificate thy (fn thy => certify_const thy const) lthms;
haftmann@24219
   751
      (*FIXME must check compatibility with sort algebra;
haftmann@24219
   752
        alas, naive checking results in non-termination!*)
haftmann@24219
   753
  in
haftmann@25312
   754
    map_exec_purge (SOME [const])
haftmann@25312
   755
      (map_funcs (Symtab.map_default (const, (false, (Susp.value [], [])))
haftmann@25312
   756
      (apsnd (add_lthms lthms')))) thy
haftmann@24219
   757
  end;
haftmann@24219
   758
haftmann@24624
   759
val add_default_func_attr = Attrib.internal (fn _ => Thm.declaration_attribute
haftmann@24624
   760
  (fn thm => Context.mapping (add_default_func thm) I));
haftmann@24219
   761
haftmann@25485
   762
structure TypeInterpretation = InterpretationFun(type T = string * serial val eq = eq_snd (op =) : T * T -> bool);
haftmann@25462
   763
haftmann@24423
   764
fun add_datatype raw_cs thy =
haftmann@24219
   765
  let
haftmann@25597
   766
    val cs = map (fn c_ty as (_, ty) => (AxClass.unoverload_const thy c_ty, ty)) raw_cs;
haftmann@24423
   767
    val (tyco, vs_cos) = CodeUnit.constrset_of_consts thy cs;
haftmann@25462
   768
    val cs' = map fst (snd vs_cos);
haftmann@25462
   769
    val purge_cs = case Symtab.lookup ((the_dtyps o the_exec) thy) tyco
haftmann@25462
   770
     of SOME (vs, cos) => if null cos then NONE else SOME (cs' @ map fst cos)
haftmann@24423
   771
      | NONE => NONE;
haftmann@24219
   772
  in
haftmann@24219
   773
    thy
haftmann@25462
   774
    |> map_exec_purge purge_cs (map_dtyps (Symtab.update (tyco, vs_cos))
haftmann@24423
   775
        #> map_funcs (fold (Symtab.delete_safe o fst) cs))
haftmann@25485
   776
    |> TypeInterpretation.data (tyco, serial ())
haftmann@24219
   777
  end;
haftmann@24219
   778
haftmann@25485
   779
fun type_interpretation f =  TypeInterpretation.interpretation
haftmann@25485
   780
  (fn (tyco, _) => fn thy => f (tyco, get_datatype thy tyco) thy);
haftmann@25485
   781
haftmann@24423
   782
fun add_datatype_cmd raw_cs thy =
haftmann@24423
   783
  let
haftmann@24423
   784
    val cs = map (CodeUnit.read_bare_const thy) raw_cs;
haftmann@24423
   785
  in add_datatype cs thy end;
haftmann@24219
   786
haftmann@24844
   787
fun add_case thm thy =
haftmann@24844
   788
  let
haftmann@24844
   789
    val entry as (c, _) = CodeUnit.case_cert thm;
haftmann@24844
   790
  in
haftmann@24844
   791
    (map_exec_purge (SOME [c]) o map_cases o apfst) (Symtab.update entry) thy
haftmann@24844
   792
  end;
haftmann@24844
   793
haftmann@24844
   794
fun add_undefined c thy =
haftmann@24844
   795
  (map_exec_purge (SOME [c]) o map_cases o apsnd) (Symtab.update (c, ())) thy;
haftmann@24844
   796
haftmann@27557
   797
val map_pre = map_exec_purge NONE o map_thmproc o apfst o apfst;
haftmann@27557
   798
val map_post = map_exec_purge NONE o map_thmproc o apfst o apsnd;
haftmann@27557
   799
haftmann@27557
   800
fun add_inline thm thy = (map_pre o MetaSimplifier.add_simp)
haftmann@27557
   801
  (CodeUnit.error_thm CodeUnit.mk_rew thm) thy;
haftmann@27557
   802
    (*fully applied in order to get right context for mk_rew!*)
haftmann@27557
   803
haftmann@27557
   804
fun del_inline thm thy = (map_pre o MetaSimplifier.del_simp)
haftmann@27557
   805
  (CodeUnit.error_thm CodeUnit.mk_rew thm) thy;
haftmann@27557
   806
    (*fully applied in order to get right context for mk_rew!*)
haftmann@24219
   807
haftmann@27557
   808
fun add_post thm thy = (map_post o MetaSimplifier.add_simp)
haftmann@27557
   809
  (CodeUnit.error_thm CodeUnit.mk_rew thm) thy;
haftmann@27557
   810
    (*fully applied in order to get right context for mk_rew!*)
haftmann@24219
   811
haftmann@27557
   812
fun del_post thm thy = (map_post o MetaSimplifier.del_simp)
haftmann@27557
   813
  (CodeUnit.error_thm CodeUnit.mk_rew thm) thy;
haftmann@27557
   814
    (*fully applied in order to get right context for mk_rew!*)
haftmann@27557
   815
  
haftmann@27557
   816
fun add_functrans (name, f) =
haftmann@27557
   817
  (map_exec_purge NONE o map_thmproc o apsnd)
haftmann@24219
   818
    (AList.update (op =) (name, (serial (), f)));
haftmann@24219
   819
haftmann@27557
   820
fun del_functrans name =
haftmann@24219
   821
  (map_exec_purge NONE o map_thmproc o apsnd)
haftmann@27557
   822
    (delete_force "function transformator" name);
haftmann@24219
   823
wenzelm@26463
   824
val _ = Context.>> (Context.map_theory
haftmann@24219
   825
  (let
haftmann@24219
   826
    fun mk_attribute f = Thm.declaration_attribute (fn thm => Context.mapping (f thm) I);
haftmann@24219
   827
    fun add_simple_attribute (name, f) =
haftmann@24219
   828
      add_attribute (name, Scan.succeed (mk_attribute f));
haftmann@24219
   829
    fun add_del_attribute (name, (add, del)) =
haftmann@24219
   830
      add_attribute (name, Args.del |-- Scan.succeed (mk_attribute del)
haftmann@24219
   831
        || Scan.succeed (mk_attribute add))
haftmann@24219
   832
  in
haftmann@25462
   833
    TypeInterpretation.init
haftmann@25462
   834
    #> add_del_attribute ("func", (add_func, del_func))
haftmann@24219
   835
    #> add_del_attribute ("inline", (add_inline, del_inline))
haftmann@24219
   836
    #> add_del_attribute ("post", (add_post, del_post))
wenzelm@26463
   837
  end));
haftmann@24219
   838
haftmann@24219
   839
haftmann@24219
   840
(** post- and preprocessing **)
haftmann@24219
   841
haftmann@24219
   842
local
haftmann@24219
   843
haftmann@27557
   844
fun apply_functrans thy f [] = []
haftmann@27557
   845
  | apply_functrans thy f (thms as (thm :: _)) =
haftmann@24219
   846
      let
haftmann@24423
   847
        val const = const_of_func thy thm;
haftmann@24219
   848
        val thms' = f thy thms;
haftmann@24219
   849
      in certify_const thy const thms' end;
haftmann@24219
   850
haftmann@24219
   851
fun rhs_conv conv thm =
haftmann@24219
   852
  let
haftmann@24219
   853
    val thm' = (conv o Thm.rhs_of) thm;
haftmann@24219
   854
  in Thm.transitive thm thm' end
haftmann@24219
   855
haftmann@24837
   856
fun term_of_conv thy f =
haftmann@24837
   857
  Thm.cterm_of thy
haftmann@24837
   858
  #> f
haftmann@24837
   859
  #> Thm.prop_of
haftmann@24837
   860
  #> Logic.dest_equals
haftmann@24837
   861
  #> snd;
haftmann@24837
   862
haftmann@24219
   863
in
haftmann@24219
   864
haftmann@24219
   865
fun preprocess thy thms =
haftmann@27582
   866
  let
haftmann@27582
   867
    val pre = (Simplifier.theory_context thy o #pre o the_thmproc o the_exec) thy;
haftmann@27582
   868
  in
haftmann@27582
   869
    thms
haftmann@27582
   870
    |> fold (fn (_, (_, f)) => apply_functrans thy f) ((#functrans o the_thmproc o the_exec) thy)
haftmann@27582
   871
    |> map (CodeUnit.rewrite_func pre)
haftmann@27582
   872
    (*FIXME - must check gere: rewrite rule, defining equation, proper constant *)
haftmann@27582
   873
    |> map (AxClass.unoverload thy)
haftmann@27582
   874
    |> common_typ_funcs
haftmann@27582
   875
  end;
haftmann@26970
   876
haftmann@24219
   877
haftmann@24219
   878
fun preprocess_conv ct =
haftmann@24219
   879
  let
haftmann@24219
   880
    val thy = Thm.theory_of_cterm ct;
haftmann@27582
   881
    val pre = (Simplifier.theory_context thy o #pre o the_thmproc o the_exec) thy;
haftmann@24219
   882
  in
haftmann@24219
   883
    ct
haftmann@27582
   884
    |> Simplifier.rewrite pre
haftmann@25597
   885
    |> rhs_conv (AxClass.unoverload_conv thy)
haftmann@24219
   886
  end;
haftmann@24219
   887
haftmann@24837
   888
fun preprocess_term thy = term_of_conv thy preprocess_conv;
haftmann@24837
   889
haftmann@24219
   890
fun postprocess_conv ct =
haftmann@24219
   891
  let
haftmann@24219
   892
    val thy = Thm.theory_of_cterm ct;
haftmann@27582
   893
    val post = (Simplifier.theory_context thy o #post o the_thmproc o the_exec) thy;
haftmann@24219
   894
  in
haftmann@24219
   895
    ct
haftmann@25597
   896
    |> AxClass.overload_conv thy
haftmann@27582
   897
    |> rhs_conv (Simplifier.rewrite post)
haftmann@24219
   898
  end;
haftmann@24219
   899
haftmann@24837
   900
fun postprocess_term thy = term_of_conv thy postprocess_conv;
haftmann@24837
   901
haftmann@24219
   902
end; (*local*)
haftmann@24219
   903
haftmann@25597
   904
fun default_typ_proto thy c = case AxClass.inst_of_param thy c
haftmann@24837
   905
 of SOME (c, tyco) => classparam_weakest_typ thy ((the o AxClass.class_of_param thy) c)
haftmann@24423
   906
      (c, tyco) |> SOME
haftmann@24423
   907
  | NONE => (case AxClass.class_of_param thy c
haftmann@24423
   908
     of SOME class => SOME (Term.map_type_tvar
wenzelm@24848
   909
          (K (TVar ((Name.aT, 0), [class]))) (Sign.the_const_type thy c))
haftmann@24423
   910
      | NONE => get_constr_typ thy c);
haftmann@24219
   911
haftmann@24219
   912
local
haftmann@24219
   913
haftmann@24219
   914
fun get_funcs thy const =
haftmann@24844
   915
  Symtab.lookup ((the_funcs o the_exec) thy) const
haftmann@25312
   916
  |> Option.map (Susp.force o fst o snd)
haftmann@24219
   917
  |> these
haftmann@24219
   918
  |> map (Thm.transfer thy);
haftmann@24219
   919
haftmann@24219
   920
in
haftmann@24219
   921
haftmann@24219
   922
fun these_funcs thy const =
haftmann@24219
   923
  let
haftmann@24219
   924
    fun drop_refl thy = filter_out (is_equal o Term.fast_term_ord o Logic.dest_equals
haftmann@24219
   925
      o ObjectLogic.drop_judgment thy o Thm.plain_prop_of);
haftmann@24219
   926
  in
haftmann@24219
   927
    get_funcs thy const
haftmann@24219
   928
    |> preprocess thy
haftmann@24219
   929
    |> drop_refl thy
haftmann@24219
   930
  end;
haftmann@24219
   931
haftmann@24423
   932
fun default_typ thy c = case default_typ_proto thy c
haftmann@26970
   933
 of SOME ty => CodeUnit.typscheme thy (c, ty)
haftmann@24423
   934
  | NONE => (case get_funcs thy c
haftmann@25597
   935
     of thm :: _ => snd (CodeUnit.head_func (AxClass.unoverload thy thm))
haftmann@26970
   936
      | [] => CodeUnit.typscheme thy (c, Sign.the_const_type thy c));
haftmann@24219
   937
haftmann@24219
   938
end; (*local*)
haftmann@24219
   939
haftmann@24219
   940
end; (*struct*)
haftmann@24219
   941
haftmann@24219
   942
haftmann@24219
   943
(** type-safe interfaces for data depedent on executable content **)
haftmann@24219
   944
haftmann@24219
   945
functor CodeDataFun(Data: CODE_DATA_ARGS): CODE_DATA =
haftmann@24219
   946
struct
haftmann@24219
   947
haftmann@24219
   948
type T = Data.T;
haftmann@24219
   949
exception Data of T;
haftmann@24219
   950
fun dest (Data x) = x
haftmann@24219
   951
haftmann@24219
   952
val kind = Code.declare_data (Data Data.empty)
haftmann@24219
   953
  (fn pp => fn (Data x1, Data x2) => Data (Data.merge pp (x1, x2)))
haftmann@24219
   954
  (fn thy_opt => fn cs => fn Data x => Data (Data.purge thy_opt cs x));
haftmann@24219
   955
haftmann@24219
   956
val data_op = (kind, Data, dest);
haftmann@24219
   957
haftmann@24219
   958
val get = Code.get_data data_op;
haftmann@24219
   959
val change = Code.change_data data_op;
haftmann@24219
   960
fun change_yield thy = Code.change_yield_data data_op thy;
haftmann@24219
   961
haftmann@24219
   962
end;
haftmann@24219
   963
haftmann@24219
   964
structure Code : CODE =
haftmann@24219
   965
struct
haftmann@24219
   966
haftmann@24219
   967
open Code;
haftmann@24219
   968
haftmann@24219
   969
end;