src/Pure/Isar/attrib.ML
author wenzelm
Sat Sep 25 13:18:38 1999 +0200 (1999-09-25 ago)
changeset 7604 55566b9ec7d7
parent 7598 af320257c902
child 7611 5b5aba10c8f6
permissions -rw-r--r--
tuned;
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(*  Title:      Pure/Isar/attrib.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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Symbolic theorem attributes.
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*)
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signature BASIC_ATTRIB =
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sig
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  val print_attributes: theory -> unit
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  val Attribute: bstring -> (Args.src -> theory attribute) * (Args.src -> Proof.context attribute)
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    -> string -> unit
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end;
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signature ATTRIB =
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sig
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  include BASIC_ATTRIB
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  val help_attributes: theory -> unit
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  exception ATTRIB_FAIL of (string * Position.T) * exn
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  val global_attribute: theory -> Args.src -> theory attribute
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  val local_attribute: theory -> Args.src -> Proof.context attribute
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  val local_attribute': Proof.context -> Args.src -> Proof.context attribute
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  val add_attributes: (bstring * ((Args.src -> theory attribute) *
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      (Args.src -> Proof.context attribute)) * string) list -> theory -> theory
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  val global_thm: theory * Args.T list -> thm * (theory * Args.T list)
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  val global_thms: theory * Args.T list -> thm list * (theory * Args.T list)
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  val global_thmss: theory * Args.T list -> thm list * (theory * Args.T list)
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  val local_thm: Proof.context * Args.T list -> thm * (Proof.context * Args.T list)
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  val local_thms: Proof.context * Args.T list -> thm list * (Proof.context * Args.T list)
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  val local_thmss: Proof.context * Args.T list -> thm list * (Proof.context * Args.T list)
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  val syntax: ('a * Args.T list -> 'a attribute * ('a * Args.T list)) -> Args.src -> 'a attribute
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  val no_args: 'a attribute -> Args.src -> 'a attribute
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  val setup: (theory -> theory) list
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end;
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structure Attrib: ATTRIB =
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struct
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(** attributes theory data **)
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(* data kind 'Isar/attributes' *)
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structure AttributesDataArgs =
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struct
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  val name = "Isar/attributes";
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  type T =
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    {space: NameSpace.T,
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     attrs:
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       ((((Args.src -> theory attribute) * (Args.src -> Proof.context attribute))
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         * string) * stamp) Symtab.table};
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  val empty = {space = NameSpace.empty, attrs = Symtab.empty};
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  val copy = I;
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  val prep_ext = I;
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  fun merge ({space = space1, attrs = attrs1}, {space = space2, attrs = attrs2}) =
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    {space = NameSpace.merge (space1, space2),
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      attrs = Symtab.merge eq_snd (attrs1, attrs2) handle Symtab.DUPS dups =>
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        error ("Attempt to merge different versions of attributes " ^ commas_quote dups)};
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  fun print_atts verbose ({space, attrs}) =
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    let
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      fun prt_attr (name, ((_, comment), _)) = Pretty.block
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        [Pretty.str (name ^ ":"), Pretty.brk 2, Pretty.str comment];
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    in
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      if not verbose then ()
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      else Pretty.writeln (Display.pretty_name_space ("attribute name space", space));
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      Pretty.writeln (Pretty.big_list "attributes:"
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        (map prt_attr (NameSpace.cond_extern_table space attrs)))
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    end;
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   fun print _ = print_atts true;
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end;
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structure AttributesData = TheoryDataFun(AttributesDataArgs);
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val print_attributes = AttributesData.print;
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val help_attributes = AttributesDataArgs.print_atts false o AttributesData.get;
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(* get global / local attributes *)
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exception ATTRIB_FAIL of (string * Position.T) * exn;
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fun gen_attribute which thy =
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  let
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    val {space, attrs} = AttributesData.get thy;
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    fun attr src =
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      let
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        val ((raw_name, _), pos) = Args.dest_src src;
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        val name = NameSpace.intern space raw_name;
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      in
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        (case Symtab.lookup (attrs, name) of
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          None => error ("Unknown attribute: " ^ quote name ^ Position.str_of pos)
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        | Some ((p, _), _) => transform_failure (curry ATTRIB_FAIL (name, pos)) (which p src))
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      end;
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  in attr end;
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val global_attribute = gen_attribute fst;
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val local_attribute = gen_attribute snd;
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val local_attribute' = local_attribute o ProofContext.theory_of;
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(* add_attributes *)
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fun add_attributes raw_attrs thy =
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  let
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    val full = Sign.full_name (Theory.sign_of thy);
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    val new_attrs =
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      map (fn (name, (f, g), comment) => (full name, (((f, g), comment), stamp ()))) raw_attrs;
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    val {space, attrs} = AttributesData.get thy;
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    val space' = NameSpace.extend (space, map fst new_attrs);
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    val attrs' = Symtab.extend (attrs, new_attrs) handle Symtab.DUPS dups =>
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      error ("Duplicate declaration of attributes(s) " ^ commas_quote dups);
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  in thy |> AttributesData.put {space = space', attrs = attrs'} end;
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(*implicit version*)
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fun Attribute name att cmt = Context.>> (add_attributes [(name, att, cmt)]);
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(** attribute parsers **)
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(* tags *)
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fun tag x = Scan.lift (Args.name -- Scan.repeat Args.name) x;
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(* theorems *)
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fun gen_thm get attrib app =
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  Scan.depend (fn st => Args.name -- Args.opt_attribs >>
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    (fn (name, srcs) => app ((st, get st name), map (attrib st) srcs)));
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val global_thm = gen_thm PureThy.get_thm global_attribute Thm.apply_attributes;
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val global_thms = gen_thm PureThy.get_thms global_attribute Thm.applys_attributes;
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val global_thmss = Scan.repeat global_thms >> flat;
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val local_thm = gen_thm ProofContext.get_thm local_attribute' Thm.apply_attributes;
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val local_thms = gen_thm ProofContext.get_thms local_attribute' Thm.applys_attributes;
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val local_thmss = Scan.repeat local_thms >> flat;
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(** attribute syntax **)
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fun syntax scan src (st, th) =
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  let val (st', f) = Args.syntax "attribute" scan st src
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  in f (st', th) end;
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fun no_args x = syntax (Scan.succeed x);
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(** Pure attributes **)
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(* tags *)
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fun gen_tag x = syntax (tag >> Drule.tag) x;
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fun gen_untag x = syntax (tag >> Drule.untag) x;
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(* transfer *)
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fun gen_transfer theory_of = no_args (Drule.rule_attribute (fn st => Thm.transfer (theory_of st)));
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val global_transfer = gen_transfer I;
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val local_transfer = gen_transfer ProofContext.theory_of;
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(* COMP *)
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fun comp (i, B) (x, A) = (x, Drule.compose_single (A, i, B));
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fun gen_COMP thm = syntax (Scan.lift (Scan.optional Args.nat 1) -- thm >> comp);
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val global_COMP = gen_COMP global_thm;
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val local_COMP = gen_COMP local_thm;
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(* RS *)
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fun resolve (i, B) (x, A) = (x, A RSN (i, B));
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fun gen_RS thm = syntax (Scan.lift (Scan.optional Args.nat 1) -- thm >> resolve);
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val global_RS = gen_RS global_thm;
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val local_RS = gen_RS local_thm;
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(* APP *)
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fun apply Bs (x, A) = (x, Bs MRS A);
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val global_APP = syntax (global_thmss >> apply);
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val local_APP = syntax (local_thmss >> apply);
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(* where: named instantiations *)
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fun read_instantiate context_of insts x thm =
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  let
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    val ctxt = context_of x;
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    val sign = ProofContext.sign_of ctxt;
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    val vars = Drule.vars_of thm;
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    fun get_typ xi =
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      (case assoc (vars, xi) of
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        Some T => T
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      | None => error ("No such variable in theorem: " ^ Syntax.string_of_vname xi));
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    val (xs, ss) = Library.split_list insts;
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    val Ts = map get_typ xs;
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    val (ts, envT) = ProofContext.read_termTs (ctxt |> ProofContext.declare_thm thm) (ss ~~ Ts);
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    val cenvT = map (apsnd (Thm.ctyp_of sign)) envT;
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    val cenv =
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      map (fn (xi, t) => pairself (Thm.cterm_of sign) (Var (xi, fastype_of t), t))
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        (gen_distinct (fn ((x1, t1), (x2, t2)) => x1 = x2 andalso t1 aconv t2) (xs ~~ ts));
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  in Thm.instantiate (cenvT, cenv) thm end;
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fun insts x = Args.and_list (Scan.lift (Args.var --| Args.$$$ "=" -- Args.name)) x;
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fun gen_where context_of = syntax (insts >> (Drule.rule_attribute o read_instantiate context_of));
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val global_where = gen_where ProofContext.init;
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val local_where = gen_where I;
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(* with: positional instantiations *)
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fun read_instantiate' context_of (args, concl_args) x thm =
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  let
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    fun zip_vars _ [] = []
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      | zip_vars (_ :: xs) (None :: opt_ts) = zip_vars xs opt_ts
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      | zip_vars ((x, _) :: xs) (Some t :: opt_ts) = (x, t) :: zip_vars xs opt_ts
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      | zip_vars [] _ = error "More instantiations than variables in theorem";
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    val insts =
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      zip_vars (Drule.vars_of_terms [#prop (Thm.rep_thm thm)]) args @
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      zip_vars (Drule.vars_of_terms [Thm.concl_of thm]) concl_args;
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  in read_instantiate context_of insts x thm end;
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val concl = Args.$$$ "concl" -- Args.$$$ ":";
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val inst_arg = Scan.unless concl (Args.$$$ "_" >> K None || Args.name >> Some);
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val inst_args = Scan.repeat inst_arg;
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fun insts' x = Scan.lift (inst_args -- Scan.optional (concl |-- Args.!!! inst_args) []) x;
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fun gen_with context_of = syntax (insts' >> (Drule.rule_attribute o read_instantiate' context_of));
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val global_with = gen_with ProofContext.init;
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val local_with = gen_with I;
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(* unfold / fold definitions *)
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fun gen_rewrite rew defs (x, thm) = (x, rew defs thm);
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val global_unfold = syntax (global_thmss >> gen_rewrite Tactic.rewrite_rule);
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val local_unfold = syntax (local_thmss >> gen_rewrite Tactic.rewrite_rule);
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val global_fold = syntax (global_thmss >> gen_rewrite Tactic.fold_rule);
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val local_fold = syntax (local_thmss >> gen_rewrite Tactic.fold_rule);
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(* misc rules *)
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fun standard x = no_args (Drule.rule_attribute (K Drule.standard)) x;
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fun elimify x = no_args (Drule.rule_attribute (K Tactic.make_elim)) x;
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fun global_export x = no_args (Drule.rule_attribute (Proof.export_thm o ProofContext.init)) x;
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fun local_export x = no_args (Drule.rule_attribute Proof.export_thm) x;
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(** theory setup **)
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(* pure_attributes *)
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val pure_attributes =
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 [("tag", (gen_tag, gen_tag), "tag theorem"),
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  ("untag", (gen_untag, gen_untag), "untag theorem"),
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  ("COMP", (global_COMP, local_COMP), "compose rules (no lifting)"),
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  ("RS", (global_RS, local_RS), "resolve with rule"),
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  ("OF", (global_APP, local_APP), "resolve with rule -- apply rule to rules"),
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  ("where", (global_where, local_where), "named instantiation of theorem"),
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  ("of", (global_with, local_with), "positional instantiation of theorem -- apply rule to terms"),
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  ("unfold", (global_unfold, local_unfold), "unfold definitions"),
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  ("fold", (global_fold, local_fold), "fold definitions"),
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  ("standard", (standard, standard), "put theorem into standard form"),
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  ("elimify", (elimify, elimify), "turn destruct rule into elimination rule"),
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  ("transfer", (global_transfer, local_transfer), "transfer theorem to this theory"),
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  ("export", (global_export, local_export), "export theorem from context")];
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(* setup *)
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val setup = [AttributesData.init, add_attributes pure_attributes];
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end;
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structure BasicAttrib: BASIC_ATTRIB = Attrib;
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open BasicAttrib;