src/Pure/Isar/class_target.ML
author haftmann
Wed May 20 12:09:07 2009 +0200 (2009-05-20)
changeset 31210 d6681ddc046c
parent 31012 751f5aa3e315
child 31214 b67179528acd
permissions -rw-r--r--
avoid potential problem with stale theory
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(*  Title:      Pure/Isar/class_target.ML
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    Author:     Florian Haftmann, TU Muenchen
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Type classes derived from primitive axclasses and locales - mechanisms.
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*)
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signature CLASS_TARGET =
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sig
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  (*classes*)
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  val register: class -> class list -> ((string * typ) * (string * typ)) list
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    -> sort -> morphism -> thm option -> thm option -> thm
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    -> theory -> theory
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  val register_subclass: class * class -> morphism option -> Element.witness option
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    -> morphism -> theory -> theory
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  val is_class: theory -> class -> bool
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  val base_sort: theory -> class -> sort
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  val rules: theory -> class -> thm option * thm
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  val these_params: theory -> sort -> (string * (class * (string * typ))) list
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  val these_defs: theory -> sort -> thm list
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  val these_operations: theory -> sort -> (string * (class * (typ * term))) list
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  val print_classes: theory -> unit
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  val begin: class list -> sort -> Proof.context -> Proof.context
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  val init: class -> theory -> Proof.context
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  val declare: class -> Properties.T
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    -> (binding * mixfix) * term -> theory -> theory
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  val abbrev: class -> Syntax.mode -> Properties.T
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    -> (binding * mixfix) * term -> theory -> theory
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  val class_prefix: string -> string
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  val refresh_syntax: class -> Proof.context -> Proof.context
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  val redeclare_operations: theory -> sort -> Proof.context -> Proof.context
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  (*instances*)
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  val init_instantiation: string list * (string * sort) list * sort
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    -> theory -> local_theory
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  val instantiation_instance: (local_theory -> local_theory)
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    -> local_theory -> Proof.state
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  val prove_instantiation_instance: (Proof.context -> tactic)
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    -> local_theory -> local_theory
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  val prove_instantiation_exit: (Proof.context -> tactic)
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    -> local_theory -> theory
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  val prove_instantiation_exit_result: (morphism -> 'a -> 'b)
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    -> (Proof.context -> 'b -> tactic) -> 'a -> local_theory -> 'b * theory
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  val conclude_instantiation: local_theory -> local_theory
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  val instantiation_param: local_theory -> binding -> string option
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  val confirm_declaration: binding -> local_theory -> local_theory
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  val pretty_instantiation: local_theory -> Pretty.T
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  val type_name: string -> string
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  val intro_classes_tac: thm list -> tactic
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  val default_intro_tac: Proof.context -> thm list -> tactic
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  (*old axclass layer*)
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  val axclass_cmd: binding * xstring list
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    -> (Attrib.binding * string list) list
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    -> theory -> class * theory
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  val classrel_cmd: xstring * xstring -> theory -> Proof.state
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  val instance_arity: (theory -> theory) -> arity -> theory -> Proof.state
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  val instance_arity_cmd: xstring * xstring list * xstring -> theory -> Proof.state
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end;
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structure Class_Target : CLASS_TARGET =
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struct
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(** primitive axclass and instance commands **)
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fun axclass_cmd (class, raw_superclasses) raw_specs thy =
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  let
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    val ctxt = ProofContext.init thy;
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    val superclasses = map (Sign.read_class thy) raw_superclasses;
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    val name_atts = map ((apsnd o map) (Attrib.attribute thy) o fst)
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      raw_specs;
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    val axiomss = ProofContext.read_propp (ctxt, map (map (rpair []) o snd)
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          raw_specs)
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      |> snd
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      |> (map o map) fst;
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  in
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    AxClass.define_class (class, superclasses) []
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      (name_atts ~~ axiomss) thy
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  end;
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local
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fun gen_instance mk_prop add_thm after_qed insts thy =
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  let
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    fun after_qed' results =
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      ProofContext.theory ((fold o fold) add_thm results #> after_qed);
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  in
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    thy
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    |> ProofContext.init
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    |> Proof.theorem_i NONE after_qed' ((map (fn t => [(t, [])])
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        o mk_prop thy) insts)
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  end;
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in
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val instance_arity =
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  gen_instance (Logic.mk_arities oo Sign.cert_arity) AxClass.add_arity;
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val instance_arity_cmd =
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  gen_instance (Logic.mk_arities oo Sign.read_arity) AxClass.add_arity I;
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val classrel =
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  gen_instance (single oo (Logic.mk_classrel oo AxClass.cert_classrel)) AxClass.add_classrel I;
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val classrel_cmd =
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  gen_instance (single oo (Logic.mk_classrel oo AxClass.read_classrel)) AxClass.add_classrel I;
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end; (*local*)
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(** class data **)
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datatype class_data = ClassData of {
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  (* static part *)
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  consts: (string * string) list
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    (*locale parameter ~> constant name*),
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  base_sort: sort,
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  base_morph: morphism
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    (*static part of canonical morphism*),
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  assm_intro: thm option,
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  of_class: thm,
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  axiom: thm option,
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  (* dynamic part *)
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  defs: thm list,
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  operations: (string * (class * (typ * term))) list
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};
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fun rep_class_data (ClassData data) = data;
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fun mk_class_data ((consts, base_sort, base_morph, assm_intro, of_class, axiom),
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    (defs, operations)) =
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  ClassData { consts = consts, base_sort = base_sort,
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    base_morph = base_morph, assm_intro = assm_intro, of_class = of_class, axiom = axiom,
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    defs = defs, operations = operations };
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fun map_class_data f (ClassData { consts, base_sort, base_morph, assm_intro,
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    of_class, axiom, defs, operations }) =
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  mk_class_data (f ((consts, base_sort, base_morph, assm_intro, of_class, axiom),
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    (defs, operations)));
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fun merge_class_data _ (ClassData { consts = consts,
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    base_sort = base_sort, base_morph = base_morph, assm_intro = assm_intro,
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    of_class = of_class, axiom = axiom, defs = defs1, operations = operations1 },
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  ClassData { consts = _, base_sort = _, base_morph = _, assm_intro = _,
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    of_class = _, axiom = _, defs = defs2, operations = operations2 }) =
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  mk_class_data ((consts, base_sort, base_morph, assm_intro, of_class, axiom),
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    (Thm.merge_thms (defs1, defs2),
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      AList.merge (op =) (K true) (operations1, operations2)));
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structure ClassData = TheoryDataFun
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(
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  type T = class_data Graph.T
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  val empty = Graph.empty;
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  val copy = I;
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  val extend = I;
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  fun merge _ = Graph.join merge_class_data;
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);
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(* queries *)
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val lookup_class_data = Option.map rep_class_data oo try o Graph.get_node o ClassData.get;
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fun the_class_data thy class = case lookup_class_data thy class
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 of NONE => error ("Undeclared class " ^ quote class)
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  | SOME data => data;
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val is_class = is_some oo lookup_class_data;
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val ancestry = Graph.all_succs o ClassData.get;
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val heritage = Graph.all_preds o ClassData.get;
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fun these_params thy =
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  let
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    fun params class =
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      let
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        val const_typs = (#params o AxClass.get_info thy) class;
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        val const_names = (#consts o the_class_data thy) class;
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      in
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        (map o apsnd)
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          (fn c => (class, (c, (the o AList.lookup (op =) const_typs) c))) const_names
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      end;
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  in maps params o ancestry thy end;
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val base_sort = #base_sort oo the_class_data;
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fun rules thy class =
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  let val { axiom, of_class, ... } = the_class_data thy class
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  in (axiom, of_class) end;
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fun all_assm_intros thy =
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  Graph.fold (fn (_, (data, _)) => fold (insert Thm.eq_thm)
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    ((the_list o #assm_intro o rep_class_data) data)) (ClassData.get thy) [];
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fun these_defs thy = maps (#defs o the_class_data thy) o ancestry thy;
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fun these_operations thy = maps (#operations o the_class_data thy) o ancestry thy;
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val base_morphism = #base_morph oo the_class_data;
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fun morphism thy class = base_morphism thy class
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  $> Element.eq_morphism thy (these_defs thy [class]);
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fun print_classes thy =
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  let
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    val ctxt = ProofContext.init thy;
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    val algebra = Sign.classes_of thy;
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    val arities =
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      Symtab.empty
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      |> Symtab.fold (fn (tyco, arities) => fold (fn (class, _) =>
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           Symtab.map_default (class, []) (insert (op =) tyco)) arities)
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             ((#arities o Sorts.rep_algebra) algebra);
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    val the_arities = these o Symtab.lookup arities;
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    fun mk_arity class tyco =
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      let
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        val Ss = Sorts.mg_domain algebra tyco [class];
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      in Syntax.pretty_arity ctxt (tyco, Ss, [class]) end;
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    fun mk_param (c, ty) = Pretty.str (Sign.extern_const thy c ^ " :: "
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      ^ setmp show_sorts false (Syntax.string_of_typ ctxt o Type.strip_sorts) ty);
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    fun mk_entry class = (Pretty.block o Pretty.fbreaks o map_filter I) [
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      (SOME o Pretty.str) ("class " ^ Sign.extern_class thy class ^ ":"),
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      (SOME o Pretty.block) [Pretty.str "supersort: ",
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        (Syntax.pretty_sort ctxt o Sign.minimize_sort thy o Sign.super_classes thy) class],
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      ((fn [] => NONE | ps => (SOME o Pretty.block o Pretty.fbreaks)
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          (Pretty.str "parameters:" :: ps)) o map mk_param
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        o these o Option.map #params o try (AxClass.get_info thy)) class,
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      (SOME o Pretty.block o Pretty.breaks) [
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        Pretty.str "instances:",
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        Pretty.list "" "" (map (mk_arity class) (the_arities class))
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      ]
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    ]
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  in
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    (Pretty.writeln o Pretty.chunks o separate (Pretty.str "")
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      o map mk_entry o Sorts.all_classes) algebra
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  end;
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(* updaters *)
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fun register class sups params base_sort morph
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    axiom assm_intro of_class thy =
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  let
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    val operations = map (fn (v_ty as (_, ty), (c, _)) =>
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      (c, (class, (ty, Free v_ty)))) params;
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    val add_class = Graph.new_node (class,
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        mk_class_data (((map o pairself) fst params, base_sort,
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          morph, assm_intro, of_class, axiom), ([], operations)))
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      #> fold (curry Graph.add_edge class) sups;
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  in ClassData.map add_class thy end;
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fun activate_defs class thms thy =
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  let
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    val eq_morph = Element.eq_morphism thy thms;
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    fun amend cls thy = Locale.amend_registration eq_morph
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      (cls, morphism thy cls) thy;
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  in fold amend (heritage thy [class]) thy end;
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fun register_operation class (c, (t, some_def)) thy =
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  let
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    val base_sort = base_sort thy class;
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    val prep_typ = map_type_tfree
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      (fn (v, sort) => if Name.aT = v
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        then TFree (v, base_sort) else TVar ((v, 0), sort));
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    val t' = map_types prep_typ t;
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    val ty' = Term.fastype_of t';
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  in
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    thy
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    |> (ClassData.map o Graph.map_node class o map_class_data o apsnd)
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      (fn (defs, operations) =>
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        (fold cons (the_list some_def) defs,
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          (c, (class, (ty', t'))) :: operations))
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    |> is_some some_def ? activate_defs class (the_list some_def)
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  end;
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fun register_subclass (sub, sup) some_dep_morph some_wit export thy =
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  let
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    val intros = (snd o rules thy) sup :: map_filter I
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      [Option.map (Drule.standard' o Element.conclude_witness) some_wit,
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        (fst o rules thy) sub];
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    val tac = EVERY (map (TRYALL o Tactic.rtac) intros);
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    val classrel = Goal.prove_global thy [] [] (Logic.mk_classrel (sub, sup))
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      (K tac);
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    val diff_sort = Sign.complete_sort thy [sup]
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      |> subtract (op =) (Sign.complete_sort thy [sub])
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      |> filter (is_class thy);
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  in
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    thy
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    |> AxClass.add_classrel classrel
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    |> ClassData.map (Graph.add_edge (sub, sup))
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    |> activate_defs sub (these_defs thy diff_sort)
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    |> fold (fn dep_morph => Locale.add_dependency sub (sup,
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        dep_morph $> Element.satisfy_morphism (the_list some_wit) $> export))
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          (the_list some_dep_morph)
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    |> (fn thy => fold_rev (Context.theory_map o Locale.activate_facts)
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        (Locale.get_registrations thy) thy)
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  end;
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(** classes and class target **)
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(* class context syntax *)
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fun these_unchecks thy =
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  map (fn (c, (_, (ty, t))) => (t, Const (c, ty))) o these_operations thy;
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fun redeclare_const thy c =
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  let val b = Long_Name.base_name c
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  in Sign.intern_const thy b = c ? Variable.declare_const (b, c) end;
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fun synchronize_class_syntax sort base_sort ctxt =
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  let
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    val thy = ProofContext.theory_of ctxt;
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    val algebra = Sign.classes_of thy;
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    val operations = these_operations thy sort;
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    fun subst_class_typ sort = map_type_tfree (K (TVar ((Name.aT, 0), sort)));
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    val primary_constraints =
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      (map o apsnd) (subst_class_typ base_sort o fst o snd) operations;
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    val secondary_constraints =
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      (map o apsnd) (fn (class, (ty, _)) => subst_class_typ [class] ty) operations;
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    fun improve (c, ty) = (case AList.lookup (op =) primary_constraints c
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     of SOME ty' => (case try (Type.raw_match (ty', ty)) Vartab.empty
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         of SOME tyenv => (case Vartab.lookup tyenv (Name.aT, 0)
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             of SOME (_, ty' as TVar (tvar as (vi, sort))) =>
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                  if TypeInfer.is_param vi
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                    andalso Sorts.sort_le algebra (base_sort, sort)
haftmann@26596
   323
                      then SOME (ty', TFree (Name.aT, base_sort))
haftmann@26596
   324
                      else NONE
haftmann@26238
   325
              | _ => NONE)
haftmann@26238
   326
          | NONE => NONE)
haftmann@26238
   327
      | NONE => NONE)
haftmann@26238
   328
    fun subst (c, ty) = Option.map snd (AList.lookup (op =) operations c);
haftmann@29577
   329
    val unchecks = these_unchecks thy sort;
haftmann@25083
   330
  in
haftmann@25083
   331
    ctxt
haftmann@29632
   332
    |> fold (redeclare_const thy o fst) primary_constraints
haftmann@26518
   333
    |> Overloading.map_improvable_syntax (K (((primary_constraints, secondary_constraints),
haftmann@26730
   334
        (((improve, subst), true), unchecks)), false))
haftmann@26518
   335
    |> Overloading.set_primary_constraints
haftmann@25083
   336
  end;
haftmann@25083
   337
haftmann@25083
   338
fun refresh_syntax class ctxt =
haftmann@25002
   339
  let
haftmann@25002
   340
    val thy = ProofContext.theory_of ctxt;
haftmann@29358
   341
    val base_sort = base_sort thy class;
haftmann@26238
   342
  in synchronize_class_syntax [class] base_sort ctxt end;
haftmann@25002
   343
haftmann@29632
   344
fun redeclare_operations thy sort =
haftmann@29632
   345
  fold (redeclare_const thy o fst) (these_operations thy sort);
haftmann@29632
   346
haftmann@29577
   347
fun begin sort base_sort ctxt =
haftmann@25083
   348
  ctxt
haftmann@25083
   349
  |> Variable.declare_term
haftmann@25083
   350
      (Logic.mk_type (TFree (Name.aT, base_sort)))
haftmann@29577
   351
  |> synchronize_class_syntax sort base_sort
haftmann@26238
   352
  |> Overloading.add_improvable_syntax;
haftmann@24901
   353
haftmann@25311
   354
fun init class thy =
haftmann@25311
   355
  thy
haftmann@29509
   356
  |> Locale.init class
haftmann@29358
   357
  |> begin [class] (base_sort thy class);
haftmann@24914
   358
haftmann@24748
   359
haftmann@27690
   360
(* class target *)
haftmann@27690
   361
wenzelm@30364
   362
val class_prefix = Logic.const_of_class o Long_Name.base_name;
haftmann@29526
   363
haftmann@27690
   364
fun declare class pos ((c, mx), dict) thy =
haftmann@27690
   365
  let
haftmann@29577
   366
    val morph = morphism thy class;
wenzelm@30344
   367
    val b = Morphism.binding morph c;
wenzelm@30344
   368
    val b_def = Morphism.binding morph (Binding.suffix_name "_dict" b);
haftmann@29577
   369
    val c' = Sign.full_name thy b;
haftmann@29439
   370
    val dict' = Morphism.term morph dict;
haftmann@29439
   371
    val ty' = Term.fastype_of dict';
haftmann@29577
   372
    val def_eq = Logic.mk_equals (Const (c', ty'), dict')
haftmann@29577
   373
      |> map_types Type.strip_sorts;
haftmann@27690
   374
  in
haftmann@29577
   375
    thy
haftmann@29577
   376
    |> Sign.declare_const pos ((b, Type.strip_sorts ty'), mx)
haftmann@29577
   377
    |> snd
haftmann@29577
   378
    |> Thm.add_def false false (b_def, def_eq)
haftmann@29577
   379
    |>> Thm.varifyT
haftmann@29577
   380
    |-> (fn def_thm => PureThy.store_thm (b_def, def_thm)
haftmann@29577
   381
      #> snd
haftmann@29577
   382
      #> register_operation class (c', (dict', SOME (Thm.symmetric def_thm))))
haftmann@27690
   383
    |> Sign.add_const_constraint (c', SOME ty')
haftmann@27690
   384
  end;
haftmann@27690
   385
haftmann@27690
   386
fun abbrev class prmode pos ((c, mx), rhs) thy =
haftmann@27690
   387
  let
haftmann@29577
   388
    val morph = morphism thy class;
haftmann@29577
   389
    val unchecks = these_unchecks thy [class];
wenzelm@30344
   390
    val b = Morphism.binding morph c;
haftmann@29577
   391
    val c' = Sign.full_name thy b;
haftmann@27690
   392
    val rhs' = Pattern.rewrite_term thy unchecks [] rhs;
haftmann@27690
   393
    val ty' = Term.fastype_of rhs';
haftmann@29577
   394
    val rhs'' = map_types ((*Type.strip_sorts o *)Logic.varifyT) rhs';
haftmann@27690
   395
  in
haftmann@29577
   396
    thy
haftmann@29577
   397
    |> Sign.add_abbrev (#1 prmode) pos (b, rhs'')
haftmann@29577
   398
    |> snd
haftmann@27690
   399
    |> Sign.add_const_constraint (c', SOME ty')
haftmann@27690
   400
    |> Sign.notation true prmode [(Const (c', ty'), mx)]
haftmann@27690
   401
    |> not (#1 prmode = PrintMode.input) ? register_operation class (c', (rhs', NONE))
haftmann@27690
   402
  end;
haftmann@27690
   403
haftmann@27690
   404
haftmann@25462
   405
(** instantiation target **)
haftmann@25462
   406
haftmann@25462
   407
(* bookkeeping *)
haftmann@25462
   408
haftmann@25462
   409
datatype instantiation = Instantiation of {
haftmann@25864
   410
  arities: string list * (string * sort) list * sort,
haftmann@25462
   411
  params: ((string * string) * (string * typ)) list
haftmann@25603
   412
    (*(instantiation parameter, type constructor), (local instantiation parameter, typ)*)
haftmann@25462
   413
}
haftmann@25462
   414
haftmann@25462
   415
structure Instantiation = ProofDataFun
haftmann@25462
   416
(
haftmann@25462
   417
  type T = instantiation
haftmann@25536
   418
  fun init _ = Instantiation { arities = ([], [], []), params = [] };
haftmann@25462
   419
);
haftmann@25462
   420
haftmann@25485
   421
fun mk_instantiation (arities, params) =
haftmann@25485
   422
  Instantiation { arities = arities, params = params };
haftmann@25514
   423
fun get_instantiation lthy = case Instantiation.get (LocalTheory.target_of lthy)
haftmann@25485
   424
 of Instantiation data => data;
haftmann@25514
   425
fun map_instantiation f = (LocalTheory.target o Instantiation.map)
haftmann@25514
   426
  (fn Instantiation { arities, params } => mk_instantiation (f (arities, params)));
haftmann@25462
   427
haftmann@25514
   428
fun the_instantiation lthy = case get_instantiation lthy
haftmann@25536
   429
 of { arities = ([], [], []), ... } => error "No instantiation target"
haftmann@25485
   430
  | data => data;
haftmann@25462
   431
haftmann@25485
   432
val instantiation_params = #params o get_instantiation;
haftmann@25462
   433
haftmann@30519
   434
fun instantiation_param lthy b = instantiation_params lthy
haftmann@30519
   435
  |> find_first (fn (_, (v, _)) => Binding.name_of b = v)
haftmann@25462
   436
  |> Option.map (fst o fst);
haftmann@25462
   437
haftmann@25462
   438
haftmann@25462
   439
(* syntax *)
haftmann@25462
   440
haftmann@26238
   441
fun synchronize_inst_syntax ctxt =
haftmann@25462
   442
  let
haftmann@26259
   443
    val Instantiation { arities = (_, _, sort), params = params } = Instantiation.get ctxt;
haftmann@31210
   444
    val inst_tyco_of = AxClass.inst_tyco_of (Sign.consts_of (ProofContext.theory_of ctxt));
haftmann@31210
   445
    fun subst (c, ty) = case inst_tyco_of (c, ty)
haftmann@26238
   446
         of SOME tyco => (case AList.lookup (op =) params (c, tyco)
haftmann@26238
   447
             of SOME (v_ty as (_, ty)) => SOME (ty, Free v_ty)
haftmann@26238
   448
              | NONE => NONE)
haftmann@26238
   449
          | NONE => NONE;
haftmann@26238
   450
    val unchecks =
haftmann@26238
   451
      map (fn ((c, _), v_ty as (_, ty)) => (Free v_ty, Const (c, ty))) params;
haftmann@26238
   452
  in
haftmann@26238
   453
    ctxt
haftmann@26259
   454
    |> Overloading.map_improvable_syntax
haftmann@26730
   455
         (fn (((primary_constraints, _), (((improve, _), _), _)), _) =>
haftmann@26730
   456
            (((primary_constraints, []), (((improve, subst), false), unchecks)), false))
haftmann@26238
   457
  end;
haftmann@25462
   458
haftmann@25462
   459
haftmann@25462
   460
(* target *)
haftmann@25462
   461
haftmann@25485
   462
val sanatize_name = (*FIXME*)
haftmann@25485
   463
  let
haftmann@25574
   464
    fun is_valid s = Symbol.is_ascii_letter s orelse Symbol.is_ascii_digit s
haftmann@25574
   465
      orelse s = "'" orelse s = "_";
haftmann@25485
   466
    val is_junk = not o is_valid andf Symbol.is_regular;
haftmann@25485
   467
    val junk = Scan.many is_junk;
haftmann@25485
   468
    val scan_valids = Symbol.scanner "Malformed input"
haftmann@25485
   469
      ((junk |--
haftmann@25485
   470
        (Scan.optional (Scan.one Symbol.is_ascii_letter) "x" ^^ (Scan.many is_valid >> implode)
haftmann@25485
   471
        --| junk))
wenzelm@25999
   472
      ::: Scan.repeat ((Scan.many1 is_valid >> implode) --| junk));
haftmann@25485
   473
  in
haftmann@25485
   474
    explode #> scan_valids #> implode
haftmann@25485
   475
  end;
haftmann@25485
   476
haftmann@26259
   477
fun type_name "*" = "prod"
haftmann@26259
   478
  | type_name "+" = "sum"
wenzelm@30364
   479
  | type_name s = sanatize_name (Long_Name.base_name s);
haftmann@26259
   480
haftmann@26518
   481
fun resort_terms pp algebra consts constraints ts =
haftmann@26518
   482
  let
haftmann@26518
   483
    fun matchings (Const (c_ty as (c, _))) = (case constraints c
haftmann@26518
   484
         of NONE => I
haftmann@26518
   485
          | SOME sorts => fold2 (curry (Sorts.meet_sort algebra))
haftmann@26518
   486
              (Consts.typargs consts c_ty) sorts)
haftmann@26518
   487
      | matchings _ = I
haftmann@26518
   488
    val tvartab = (fold o fold_aterms) matchings ts Vartab.empty
wenzelm@26642
   489
      handle Sorts.CLASS_ERROR e => error (Sorts.class_error pp e);
haftmann@27089
   490
    val inst = map_type_tvar
haftmann@27089
   491
      (fn (vi, sort) => TVar (vi, the_default sort (Vartab.lookup tvartab vi)));
haftmann@26518
   492
  in if Vartab.is_empty tvartab then NONE else SOME ((map o map_types) inst ts) end;
haftmann@26518
   493
haftmann@25864
   494
fun init_instantiation (tycos, vs, sort) thy =
haftmann@25462
   495
  let
haftmann@25536
   496
    val _ = if null tycos then error "At least one arity must be given" else ();
haftmann@29969
   497
    val params = these_params thy (filter (can (AxClass.get_info thy)) sort);
haftmann@29632
   498
    fun get_param tyco (param, (_, (c, ty))) =
haftmann@29632
   499
      if can (AxClass.param_of_inst thy) (c, tyco)
haftmann@25603
   500
      then NONE else SOME ((c, tyco),
haftmann@25864
   501
        (param ^ "_" ^ type_name tyco, map_atyps (K (Type (tyco, map TFree vs))) ty));
haftmann@26518
   502
    val inst_params = map_product get_param tycos params |> map_filter I;
haftmann@26518
   503
    val primary_constraints = map (apsnd
haftmann@26518
   504
      (map_atyps (K (TVar ((Name.aT, 0), [])))) o snd o snd) params;
wenzelm@26939
   505
    val pp = Syntax.pp_global thy;
haftmann@26518
   506
    val algebra = Sign.classes_of thy
haftmann@26518
   507
      |> fold (fn tyco => Sorts.add_arities pp
haftmann@26518
   508
            (tyco, map (fn class => (class, map snd vs)) sort)) tycos;
haftmann@26518
   509
    val consts = Sign.consts_of thy;
haftmann@26518
   510
    val improve_constraints = AList.lookup (op =)
haftmann@26518
   511
      (map (fn (_, (class, (c, _))) => (c, [[class]])) params);
haftmann@26518
   512
    fun resort_check ts ctxt = case resort_terms pp algebra consts improve_constraints ts
haftmann@26518
   513
     of NONE => NONE
haftmann@26518
   514
      | SOME ts' => SOME (ts', ctxt);
haftmann@31210
   515
    val inst_tyco_of = AxClass.inst_tyco_of (Sign.consts_of thy);
haftmann@31210
   516
    val typ_instance = Type.typ_instance (Sign.tsig_of thy);
haftmann@31210
   517
    fun improve (c, ty) = case inst_tyco_of (c, ty)
haftmann@26329
   518
     of SOME tyco => (case AList.lookup (op =) inst_params (c, tyco)
haftmann@31210
   519
         of SOME (_, ty') => if typ_instance (ty', ty)
haftmann@29969
   520
              then SOME (ty, ty') else NONE
haftmann@26259
   521
          | NONE => NONE)
haftmann@26259
   522
      | NONE => NONE;
haftmann@25485
   523
  in
haftmann@25485
   524
    thy
haftmann@25485
   525
    |> ProofContext.init
haftmann@26329
   526
    |> Instantiation.put (mk_instantiation ((tycos, vs, sort), inst_params))
wenzelm@27281
   527
    |> fold (Variable.declare_typ o TFree) vs
haftmann@26329
   528
    |> fold (Variable.declare_names o Free o snd) inst_params
haftmann@26259
   529
    |> (Overloading.map_improvable_syntax o apfst)
haftmann@29969
   530
         (K ((primary_constraints, []), (((improve, K NONE), false), [])))
haftmann@26259
   531
    |> Overloading.add_improvable_syntax
haftmann@26518
   532
    |> Context.proof_map (Syntax.add_term_check 0 "resorting" resort_check)
haftmann@26238
   533
    |> synchronize_inst_syntax
haftmann@25485
   534
  end;
haftmann@25485
   535
haftmann@30519
   536
fun confirm_declaration b = (map_instantiation o apsnd)
haftmann@30519
   537
  (filter_out (fn (_, (c', _)) => c' = Binding.name_of b))
haftmann@26238
   538
  #> LocalTheory.target synchronize_inst_syntax
haftmann@26238
   539
haftmann@25485
   540
fun gen_instantiation_instance do_proof after_qed lthy =
haftmann@25485
   541
  let
haftmann@25864
   542
    val (tycos, vs, sort) = (#arities o the_instantiation) lthy;
haftmann@25864
   543
    val arities_proof = maps (fn tyco => Logic.mk_arities (tyco, map snd vs, sort)) tycos;
haftmann@25462
   544
    fun after_qed' results =
haftmann@25462
   545
      LocalTheory.theory (fold (AxClass.add_arity o Thm.varifyT) results)
haftmann@25462
   546
      #> after_qed;
haftmann@25462
   547
  in
haftmann@25462
   548
    lthy
haftmann@25462
   549
    |> do_proof after_qed' arities_proof
haftmann@25462
   550
  end;
haftmann@25462
   551
haftmann@25485
   552
val instantiation_instance = gen_instantiation_instance (fn after_qed => fn ts =>
haftmann@25462
   553
  Proof.theorem_i NONE (after_qed o map the_single) (map (fn t => [(t, [])]) ts));
haftmann@25462
   554
haftmann@25485
   555
fun prove_instantiation_instance tac = gen_instantiation_instance (fn after_qed =>
haftmann@25502
   556
  fn ts => fn lthy => after_qed (map (fn t => Goal.prove lthy [] [] t
haftmann@25502
   557
    (fn {context, ...} => tac context)) ts) lthy) I;
haftmann@25462
   558
haftmann@28666
   559
fun prove_instantiation_exit tac = prove_instantiation_instance tac
haftmann@28666
   560
  #> LocalTheory.exit_global;
haftmann@28666
   561
haftmann@28666
   562
fun prove_instantiation_exit_result f tac x lthy =
haftmann@28666
   563
  let
haftmann@29439
   564
    val morph = ProofContext.export_morphism lthy
haftmann@28666
   565
      (ProofContext.init (ProofContext.theory_of lthy));
haftmann@29439
   566
    val y = f morph x;
haftmann@28666
   567
  in
haftmann@28666
   568
    lthy
haftmann@28666
   569
    |> prove_instantiation_exit (fn ctxt => tac ctxt y)
haftmann@28666
   570
    |> pair y
haftmann@28666
   571
  end;
haftmann@28666
   572
haftmann@25462
   573
fun conclude_instantiation lthy =
haftmann@25462
   574
  let
haftmann@25485
   575
    val { arities, params } = the_instantiation lthy;
haftmann@25864
   576
    val (tycos, vs, sort) = arities;
haftmann@25462
   577
    val thy = ProofContext.theory_of lthy;
haftmann@25597
   578
    val _ = map (fn tyco => if Sign.of_sort thy
haftmann@25864
   579
        (Type (tyco, map TFree vs), sort)
haftmann@25462
   580
      then () else error ("Missing instance proof for type " ^ quote (Sign.extern_type thy tyco)))
haftmann@25597
   581
        tycos;
haftmann@25597
   582
  in lthy end;
haftmann@25462
   583
haftmann@25603
   584
fun pretty_instantiation lthy =
haftmann@25603
   585
  let
haftmann@25603
   586
    val { arities, params } = the_instantiation lthy;
haftmann@25864
   587
    val (tycos, vs, sort) = arities;
haftmann@25603
   588
    val thy = ProofContext.theory_of lthy;
haftmann@25864
   589
    fun pr_arity tyco = Syntax.pretty_arity lthy (tyco, map snd vs, sort);
haftmann@25603
   590
    fun pr_param ((c, _), (v, ty)) =
haftmann@25864
   591
      (Pretty.block o Pretty.breaks) [Pretty.str v, Pretty.str "==",
wenzelm@26939
   592
        (Pretty.str o Sign.extern_const thy) c, Pretty.str "::", Syntax.pretty_typ_global thy ty];
haftmann@25603
   593
  in
haftmann@25603
   594
    (Pretty.block o Pretty.fbreaks)
haftmann@25603
   595
      (Pretty.str "instantiation" :: map pr_arity tycos @ map pr_param params)
haftmann@25603
   596
  end;
haftmann@25603
   597
haftmann@29526
   598
haftmann@29526
   599
(** tactics and methods **)
haftmann@29526
   600
haftmann@29526
   601
fun intro_classes_tac facts st =
haftmann@29526
   602
  let
haftmann@29526
   603
    val thy = Thm.theory_of_thm st;
haftmann@29526
   604
    val classes = Sign.all_classes thy;
haftmann@29526
   605
    val class_trivs = map (Thm.class_triv thy) classes;
haftmann@29526
   606
    val class_intros = map_filter (try (#intro o AxClass.get_info thy)) classes;
haftmann@29526
   607
    val assm_intros = all_assm_intros thy;
haftmann@29526
   608
  in
haftmann@29526
   609
    Method.intros_tac (class_trivs @ class_intros @ assm_intros) facts st
haftmann@29526
   610
  end;
haftmann@29526
   611
haftmann@29526
   612
fun default_intro_tac ctxt [] =
haftmann@29577
   613
      intro_classes_tac [] ORELSE Locale.intro_locales_tac true ctxt []
haftmann@29526
   614
  | default_intro_tac _ _ = no_tac;
haftmann@29526
   615
haftmann@29526
   616
fun default_tac rules ctxt facts =
haftmann@29526
   617
  HEADGOAL (Method.some_rule_tac rules ctxt facts) ORELSE
haftmann@29526
   618
    default_intro_tac ctxt facts;
haftmann@29526
   619
haftmann@29526
   620
val _ = Context.>> (Context.map_theory
wenzelm@30515
   621
 (Method.setup (Binding.name "intro_classes") (Scan.succeed (K (METHOD intro_classes_tac)))
wenzelm@30515
   622
    "back-chain introduction rules of classes" #>
wenzelm@30515
   623
  Method.setup (Binding.name "default") (Attrib.thms >> (METHOD oo default_tac))
wenzelm@30515
   624
    "apply some intro/elim rule"));
haftmann@29526
   625
haftmann@24218
   626
end;
haftmann@25683
   627