src/Pure/Isar/locale.ML
author wenzelm
Thu Aug 18 11:17:44 2005 +0200 (2005-08-18)
changeset 17109 606c269d1e26
parent 17096 8327b71282ce
child 17138 ad4c98fd367b
permissions -rw-r--r--
added add_locale_context(_i), which returns the body context for presentation;
note_thmss(_i), add_thmss: returns context for presentation;
removed map_attrib_specs/facts (cf. Attrib.map_specs/facts);
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(*  Title:      Pure/Isar/locale.ML
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    ID:         $Id$
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    Author:     Clemens Ballarin, TU Muenchen; Markus Wenzel, LMU/TU Muenchen
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Locales -- Isar proof contexts as meta-level predicates, with local
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syntax and implicit structures.
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Draws some basic ideas from Florian Kammueller's original version of
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locales, but uses the richer infrastructure of Isar instead of the raw
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meta-logic.  Furthermore, we provide structured import of contexts
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(with merge and rename operations), as well as type-inference of the
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signature parts, and predicate definitions of the specification text.
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See also:
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[1] Clemens Ballarin. Locales and Locale Expressions in Isabelle/Isar.
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    In Stefano Berardi et al., Types for Proofs and Programs: International
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    Workshop, TYPES 2003, Torino, Italy, LNCS 3085, pages 34-50, 2004.
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*)
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(* TODO:
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- beta-eta normalisation of interpretation parameters
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- dangling type frees in locales
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- test subsumption of interpretations when merging theories
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*)
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signature LOCALE =
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sig
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  type context
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  datatype ('typ, 'term, 'fact) elem =
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    Fixes of (string * 'typ option * mixfix option) list |
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    Constrains of (string * 'typ) list |
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    Assumes of ((string * Attrib.src list) * ('term * ('term list * 'term list)) list) list |
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    Defines of ((string * Attrib.src list) * ('term * 'term list)) list |
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    Notes of ((string * Attrib.src list) * ('fact * Attrib.src list) list) list
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  datatype expr =
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    Locale of string |
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    Rename of expr * (string * mixfix option) option list |
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    Merge of expr list
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  val empty: expr
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  datatype 'a elem_expr = Elem of 'a | Expr of expr
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  (* Abstract interface to locales *)
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  type element
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  type element_i
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  type locale
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  val intern: theory -> xstring -> string
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  val extern: theory -> string -> xstring
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  val the_locale: theory -> string -> locale
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  val intern_attrib_elem: theory ->
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    ('typ, 'term, 'fact) elem -> ('typ, 'term, 'fact) elem
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  val intern_attrib_elem_expr: theory ->
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    ('typ, 'term, 'fact) elem elem_expr -> ('typ, 'term, 'fact) elem elem_expr
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  (* Processing of locale statements *)
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  val read_context_statement: xstring option -> element elem_expr list ->
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    (string * (string list * string list)) list list -> context ->
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    string option * (cterm list * cterm list) * context * context * 
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      (term * (term list * term list)) list list
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  val cert_context_statement: string option -> element_i elem_expr list ->
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    (term * (term list * term list)) list list -> context ->
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    string option * (cterm list * cterm list) * context * context *
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      (term * (term list * term list)) list list
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  (* Diagnostic functions *)
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  val print_locales: theory -> unit
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  val print_locale: theory -> expr -> element list -> unit
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  val print_global_registrations: string -> theory -> unit
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  val print_local_registrations': string -> context -> unit
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  val print_local_registrations: string -> context -> unit
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  (* Storing results *)
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  val add_locale_context: bool -> bstring -> expr -> element list -> theory
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    -> theory * ProofContext.context
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  val add_locale_context_i: bool -> bstring -> expr -> element_i list -> theory
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    -> theory * ProofContext.context
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  val add_locale: bool -> bstring -> expr -> element list -> theory -> theory
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  val add_locale_i: bool -> bstring -> expr -> element_i list -> theory -> theory
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  val smart_note_thmss: string -> string option ->
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    ((bstring * theory attribute list) * (thm list * theory attribute list) list) list ->
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    theory -> theory * (bstring * thm list) list
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  val note_thmss: string -> xstring ->
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    ((bstring * Attrib.src list) * (thmref * Attrib.src list) list) list ->
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    theory -> (theory * ProofContext.context) * (bstring * thm list) list
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  val note_thmss_i: string -> string ->
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    ((bstring * Attrib.src list) * (thm list * Attrib.src list) list) list ->
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    theory -> (theory * ProofContext.context) * (bstring * thm list) list
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  val add_thmss: string -> string -> ((string * thm list) * Attrib.src list) list ->
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    theory * context -> (theory * context) * (string * thm list) list
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  (* Locale interpretation *)
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  val prep_global_registration:
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    string * Attrib.src list -> expr -> string option list -> theory ->
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    ((string * term list) * term list) list * (thm list -> theory -> theory)
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  val prep_local_registration:
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    string * Attrib.src list -> expr -> string option list -> context ->
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    ((string * term list) * term list) list * (thm list -> context -> context)
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  val prep_registration_in_locale:
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    string -> expr -> theory ->
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    ((string * string list) * term list) list * (thm list -> theory -> theory)
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  (* Diagnostic *)
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  val show_wits: bool ref;
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end;
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structure Locale: LOCALE =
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struct
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(** Diagnostic: whether to show witness theorems of registrations **)
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val show_wits = ref false;
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(** locale elements and expressions **)
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type context = ProofContext.context;
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datatype ('typ, 'term, 'fact) elem =
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  Fixes of (string * 'typ option * mixfix option) list |
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  Constrains of (string * 'typ) list |
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  Assumes of ((string * Attrib.src list) * ('term * ('term list * 'term list)) list) list |
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  Defines of ((string * Attrib.src list) * ('term * 'term list)) list |
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  Notes of ((string * Attrib.src list) * ('fact * Attrib.src list) list) list;
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datatype expr =
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  Locale of string |
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  Rename of expr * (string * mixfix option) option list |
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  Merge of expr list;
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val empty = Merge [];
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datatype 'a elem_expr =
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  Elem of 'a | Expr of expr;
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type element = (string, string, thmref) elem;
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type element_i = (typ, term, thm list) elem;
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type locale =
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 {predicate: cterm list * thm list,
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    (* CB: For locales with "(open)" this entry is ([], []).
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       For new-style locales, which declare predicates, if the locale declares
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       no predicates, this is also ([], []).
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       If the locale declares predicates, the record field is
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       ([statement], axioms), where statement is the locale predicate applied
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       to the (assumed) locale parameters.  Axioms contains the projections
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       from the locale predicate to the normalised assumptions of the locale
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       (cf. [1], normalisation of locale expressions.)
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    *)
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  import: expr,                                       (*dynamic import*)
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  elems: (element_i * stamp) list,                    (*static content*)
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  params: ((string * typ) * mixfix option) list * string list,
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                                                      (*all/local params*)
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  regs: ((string * string list) * thm list) list}
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    (* Registrations: indentifiers and witness theorems of locales interpreted
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       in the locale.
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    *)
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(* CB: an internal (Int) locale element was either imported or included,
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   an external (Ext) element appears directly in the locale text. *)
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datatype ('a, 'b) int_ext = Int of 'a | Ext of 'b;
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(** term and type instantiation, using symbol tables **)
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(** functions for term instantiation beta-reduce the result
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    unless the instantiation table is empty (inst_tab_term)
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    or the instantiation has no effect (inst_tab_thm) **)
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(* instantiate TFrees *)
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fun tinst_tab_type tinst T = if Symtab.is_empty tinst
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      then T
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      else Term.map_type_tfree
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        (fn (v as (x, _)) => getOpt (Symtab.lookup (tinst, x), (TFree v))) T;
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fun tinst_tab_term tinst t = if Symtab.is_empty tinst
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      then t
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      else Term.map_term_types (tinst_tab_type tinst) t;
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fun tinst_tab_thm thy tinst thm = if Symtab.is_empty tinst
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      then thm
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      else let
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          val cert = Thm.cterm_of thy;
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          val certT = Thm.ctyp_of thy;
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          val {hyps, prop, ...} = Thm.rep_thm thm;
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          val tfrees = foldr Term.add_term_tfree_names [] (prop :: hyps);
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          val tinst' = Symtab.dest tinst |>
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                List.filter (fn (a, _) => a mem_string tfrees);
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        in
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          if null tinst' then thm
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          else thm |> Drule.implies_intr_list (map cert hyps)
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            |> Drule.tvars_intr_list (map #1 tinst')
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            |> (fn (th, al) => th |> Thm.instantiate
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                ((map (fn (a, T) => (certT (TVar (valOf (assoc (al, a)))), certT T)) tinst'),
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                  []))
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            |> (fn th => Drule.implies_elim_list th
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                 (map (Thm.assume o cert o tinst_tab_term tinst) hyps))
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        end;
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(* instantiate TFrees and Frees *)
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fun inst_tab_term (inst, tinst) = if Symtab.is_empty inst
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      then tinst_tab_term tinst
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      else (* instantiate terms and types simultaneously *)
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        let
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          fun instf (Const (x, T)) = Const (x, tinst_tab_type tinst T)
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            | instf (Free (x, T)) = (case Symtab.lookup (inst, x) of
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                 NONE => Free (x, tinst_tab_type tinst T)
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               | SOME t => t)
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            | instf (Var (xi, T)) = Var (xi, tinst_tab_type tinst T)
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            | instf (b as Bound _) = b
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            | instf (Abs (x, T, t)) = Abs (x, tinst_tab_type tinst T, instf t)
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            | instf (s $ t) = instf s $ instf t
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        in Envir.beta_norm o instf end;
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fun inst_tab_thm thy (inst, tinst) thm = if Symtab.is_empty inst
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      then tinst_tab_thm thy tinst thm
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      else let
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          val cert = Thm.cterm_of thy;
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          val certT = Thm.ctyp_of thy;
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          val {hyps, prop, ...} = Thm.rep_thm thm;
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          (* type instantiations *)
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          val tfrees = foldr Term.add_term_tfree_names [] (prop :: hyps);
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          val tinst' = Symtab.dest tinst |>
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                List.filter (fn (a, _) => a mem_string tfrees);
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          (* term instantiations;
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             note: lhss are type instantiated, because
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                   type insts will be done first*)
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          val frees = foldr Term.add_term_frees [] (prop :: hyps);
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          val inst' = Symtab.dest inst |>
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                List.mapPartial (fn (a, t) =>
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                  get_first (fn (Free (x, T)) => 
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                    if a = x then SOME (Free (x, tinst_tab_type tinst T), t)
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                    else NONE) frees);
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        in
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          if null tinst' andalso null inst' then tinst_tab_thm thy tinst thm
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          else thm |> Drule.implies_intr_list (map cert hyps)
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            |> Drule.tvars_intr_list (map #1 tinst')
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            |> (fn (th, al) => th |> Thm.instantiate
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                ((map (fn (a, T) => (certT (TVar (valOf (assoc (al, a)))), certT T)) tinst'),
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                  []))
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            |> Drule.forall_intr_list (map (cert o #1) inst')
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            |> Drule.forall_elim_list (map (cert o #2) inst') 
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            |> Drule.fconv_rule (Thm.beta_conversion true)
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            |> (fn th => Drule.implies_elim_list th
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                 (map (Thm.assume o cert o inst_tab_term (inst, tinst)) hyps))
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        end;
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(** management of registrations in theories and proof contexts **)
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structure Registrations :
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  sig
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    type T
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    val empty: T
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    val join: T * T -> T
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    val dest: T -> (term list * ((string * Attrib.src list) * thm list)) list
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    val lookup: theory -> T * term list ->
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      ((string * Attrib.src list) * thm list) option
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    val insert: theory -> term list * (string * Attrib.src list) -> T ->
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      T * (term list * ((string * Attrib.src list) * thm list)) list
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    val add_witness: term list -> thm -> T -> T
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  end =
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struct
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  (* a registration consists of theorems instantiating locale assumptions
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     and prefix and attributes, indexed by parameter instantiation *)
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  type T = ((string * Attrib.src list) * thm list) Termtab.table;
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  val empty = Termtab.empty;
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  (* term list represented as single term, for simultaneous matching *)
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  fun termify ts =
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    Library.foldl (op $) (Const ("", map fastype_of ts ---> propT), ts);
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  fun untermify t =
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    let fun ut (Const _) ts = ts
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          | ut (s $ t) ts = ut s (t::ts)
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    in ut t [] end;
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  (* joining of registrations: prefix and attributes of left theory,
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     thms are equal, no attempt to subsumption testing *)
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  fun join (r1, r2) = Termtab.join (fn _ => fn (reg, _) => SOME reg) (r1, r2);
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  fun dest regs = map (apfst untermify) (Termtab.dest regs);
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  (* registrations that subsume t *)
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  fun subsumers tsig t regs =
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    List.filter (fn (t', _) => Pattern.matches tsig (t', t)) (Termtab.dest regs);
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  (* look up registration, pick one that subsumes the query *)
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  fun lookup sign (regs, ts) =
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    let
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      val tsig = Sign.tsig_of sign;
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      val t = termify ts;
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      val subs = subsumers tsig t regs;
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    in (case subs of
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        [] => NONE
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      | ((t', (attn, thms)) :: _) => let
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            val (tinst, inst) = Pattern.match tsig (t', t);
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            (* thms contain Frees, not Vars *)
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            val tinst' = tinst |> Vartab.dest
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                 |> map (fn ((x, 0), (_, T)) => (x, Type.unvarifyT T))
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                 |> Symtab.make;
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            val inst' = inst |> Vartab.dest
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                 |> map (fn ((x, 0), (_, t)) => (x, Logic.unvarify t))
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                 |> Symtab.make;
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          in
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            SOME (attn, map (inst_tab_thm sign (inst', tinst')) thms)
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          end)
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    end;
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  (* add registration if not subsumed by ones already present,
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     additionally returns registrations that are strictly subsumed *)
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  fun insert sign (ts, attn) regs =
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    let
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      val tsig = Sign.tsig_of sign;
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      val t = termify ts;
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      val subs = subsumers tsig t regs ;
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    in (case subs of
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        [] => let
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                val sups =
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                  List.filter (fn (t', _) => Pattern.matches tsig (t, t')) (Termtab.dest regs);
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                val sups' = map (apfst untermify) sups
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              in (Termtab.update ((t, (attn, [])), regs), sups') end
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   326
      | _ => (regs, []))
ballarin@15837
   327
    end;
ballarin@15837
   328
ballarin@15837
   329
  (* add witness theorem to registration,
ballarin@16169
   330
     only if instantiation is exact, otherwise exception Option raised *)
ballarin@15837
   331
  fun add_witness ts thm regs =
ballarin@15837
   332
    let
ballarin@15837
   333
      val t = termify ts;
ballarin@15837
   334
      val (x, thms) = valOf (Termtab.lookup (regs, t));
ballarin@15837
   335
    in
ballarin@15837
   336
      Termtab.update ((t, (x, thm::thms)), regs)
ballarin@15837
   337
    end;
ballarin@15837
   338
end;
ballarin@15837
   339
ballarin@16736
   340
ballarin@15837
   341
(** theory data **)
ballarin@15596
   342
wenzelm@16458
   343
structure GlobalLocalesData = TheoryDataFun
wenzelm@16458
   344
(struct
wenzelm@12014
   345
  val name = "Isar/locales";
ballarin@15837
   346
  type T = NameSpace.T * locale Symtab.table * Registrations.T Symtab.table;
ballarin@15596
   347
    (* 1st entry: locale namespace,
ballarin@15596
   348
       2nd entry: locales of the theory,
ballarin@15837
   349
       3rd entry: registrations, indexed by locale name *)
wenzelm@11896
   350
ballarin@15596
   351
  val empty = (NameSpace.empty, Symtab.empty, Symtab.empty);
wenzelm@12063
   352
  val copy = I;
wenzelm@16458
   353
  val extend = I;
wenzelm@12289
   354
ballarin@16736
   355
  fun join_locs _ ({predicate, import, elems, params, regs}: locale,
ballarin@16736
   356
      {elems = elems', regs = regs', ...}: locale) =
ballarin@15596
   357
    SOME {predicate = predicate, import = import,
ballarin@15596
   358
      elems = gen_merge_lists eq_snd elems elems',
ballarin@16736
   359
      params = params,
ballarin@16736
   360
      regs = merge_alists regs regs'};
wenzelm@16458
   361
  fun merge _ ((space1, locs1, regs1), (space2, locs2, regs2)) =
ballarin@15596
   362
    (NameSpace.merge (space1, space2), Symtab.join join_locs (locs1, locs2),
wenzelm@16458
   363
     Symtab.join (K (SOME o Registrations.join)) (regs1, regs2));
wenzelm@12289
   364
ballarin@15596
   365
  fun print _ (space, locs, _) =
wenzelm@16346
   366
    Pretty.strs ("locales:" :: map #1 (NameSpace.extern_table (space, locs)))
wenzelm@12014
   367
    |> Pretty.writeln;
wenzelm@16458
   368
end);
wenzelm@11896
   369
wenzelm@15801
   370
val _ = Context.add_setup [GlobalLocalesData.init];
wenzelm@15801
   371
wenzelm@15801
   372
ballarin@15624
   373
ballarin@15624
   374
(** context data **)
wenzelm@11896
   375
wenzelm@16458
   376
structure LocalLocalesData = ProofDataFun
wenzelm@16458
   377
(struct
ballarin@15624
   378
  val name = "Isar/locales";
ballarin@15837
   379
  type T = Registrations.T Symtab.table;
ballarin@15837
   380
    (* registrations, indexed by locale name *)
ballarin@15624
   381
  fun init _ = Symtab.empty;
ballarin@15624
   382
  fun print _ _ = ();
wenzelm@16458
   383
end);
ballarin@15624
   384
wenzelm@15801
   385
val _ = Context.add_setup [LocalLocalesData.init];
wenzelm@12289
   386
wenzelm@12277
   387
wenzelm@12277
   388
(* access locales *)
wenzelm@12277
   389
ballarin@15624
   390
val print_locales = GlobalLocalesData.print;
ballarin@15624
   391
wenzelm@16458
   392
val intern = NameSpace.intern o #1 o GlobalLocalesData.get;
wenzelm@16458
   393
val extern = NameSpace.extern o #1 o GlobalLocalesData.get;
ballarin@15624
   394
wenzelm@16144
   395
fun declare_locale name thy =
wenzelm@16144
   396
  thy |> GlobalLocalesData.map (fn (space, locs, regs) =>
wenzelm@16458
   397
    (Sign.declare_name thy name space, locs, regs));
wenzelm@11896
   398
ballarin@15596
   399
fun put_locale name loc =
ballarin@15624
   400
  GlobalLocalesData.map (fn (space, locs, regs) =>
ballarin@15596
   401
    (space, Symtab.update ((name, loc), locs), regs));
ballarin@15596
   402
ballarin@15624
   403
fun get_locale thy name = Symtab.lookup (#2 (GlobalLocalesData.get thy), name);
wenzelm@11896
   404
wenzelm@12014
   405
fun the_locale thy name =
wenzelm@12014
   406
  (case get_locale thy name of
skalberg@15531
   407
    SOME loc => loc
skalberg@15531
   408
  | NONE => error ("Unknown locale " ^ quote name));
wenzelm@11896
   409
wenzelm@12046
   410
ballarin@15596
   411
(* access registrations *)
ballarin@15596
   412
ballarin@15696
   413
(* Ids of global registrations are varified,
ballarin@15696
   414
   Ids of local registrations are not.
ballarin@15696
   415
   Thms of registrations are never varified. *)
ballarin@15696
   416
ballarin@15624
   417
(* retrieve registration from theory or context *)
ballarin@15624
   418
ballarin@15696
   419
fun gen_get_registrations get thy_ctxt name =
ballarin@15696
   420
  case Symtab.lookup (get thy_ctxt, name) of
ballarin@15696
   421
      NONE => []
ballarin@15837
   422
    | SOME reg => Registrations.dest reg;
ballarin@15696
   423
ballarin@15696
   424
val get_global_registrations =
ballarin@15696
   425
     gen_get_registrations (#3 o GlobalLocalesData.get);
ballarin@15696
   426
val get_local_registrations =
ballarin@15696
   427
     gen_get_registrations LocalLocalesData.get;
ballarin@15696
   428
wenzelm@16458
   429
fun gen_get_registration get thy_of thy_ctxt (name, ps) =
ballarin@15624
   430
  case Symtab.lookup (get thy_ctxt, name) of
ballarin@15624
   431
      NONE => NONE
wenzelm@16458
   432
    | SOME reg => Registrations.lookup (thy_of thy_ctxt) (reg, ps);
ballarin@15624
   433
ballarin@15624
   434
val get_global_registration =
wenzelm@16458
   435
     gen_get_registration (#3 o GlobalLocalesData.get) I;
ballarin@15624
   436
val get_local_registration =
wenzelm@16458
   437
     gen_get_registration LocalLocalesData.get ProofContext.theory_of;
ballarin@15596
   438
ballarin@15624
   439
val test_global_registration = isSome oo get_global_registration;
ballarin@15624
   440
val test_local_registration = isSome oo get_local_registration;
ballarin@15624
   441
fun smart_test_registration ctxt id =
ballarin@15624
   442
  let
ballarin@15624
   443
    val thy = ProofContext.theory_of ctxt;
ballarin@15624
   444
  in
ballarin@15624
   445
    test_global_registration thy id orelse test_local_registration ctxt id
ballarin@15624
   446
  end;
ballarin@15624
   447
ballarin@15624
   448
ballarin@15837
   449
(* add registration to theory or context, ignored if subsumed *)
ballarin@15624
   450
wenzelm@16458
   451
fun gen_put_registration map_data thy_of (name, ps) attn thy_ctxt =
ballarin@15837
   452
  map_data (fn regs =>
ballarin@15837
   453
    let
wenzelm@16458
   454
      val thy = thy_of thy_ctxt;
ballarin@15837
   455
      val reg = getOpt (Symtab.lookup (regs, name), Registrations.empty);
wenzelm@16458
   456
      val (reg', sups) = Registrations.insert thy (ps, attn) reg;
ballarin@15837
   457
      val _ = if not (null sups) then warning
ballarin@15837
   458
                ("Subsumed interpretation(s) of locale " ^
wenzelm@16458
   459
                 quote (extern thy name) ^
ballarin@15837
   460
                 "\nby interpretation(s) with the following prefix(es):\n" ^
ballarin@15837
   461
                  commas_quote (map (fn (_, ((s, _), _)) => s) sups))
ballarin@15837
   462
              else ();
ballarin@15837
   463
    in Symtab.update ((name, reg'), regs) end) thy_ctxt;
ballarin@15624
   464
ballarin@15624
   465
val put_global_registration =
ballarin@15624
   466
     gen_put_registration (fn f =>
wenzelm@16458
   467
       GlobalLocalesData.map (fn (space, locs, regs) => (space, locs, f regs))) I;
ballarin@15837
   468
val put_local_registration =
wenzelm@16458
   469
     gen_put_registration LocalLocalesData.map ProofContext.theory_of;
ballarin@15596
   470
ballarin@17000
   471
fun put_registration_in_locale name id thy =
ballarin@17000
   472
    let
ballarin@17000
   473
      val {predicate, import, elems, params, regs} = the_locale thy name;
ballarin@17000
   474
    in
ballarin@17000
   475
      put_locale name {predicate = predicate, import = import,
ballarin@17000
   476
        elems = elems, params = params, regs = regs @ [(id, [])]} thy
ballarin@17000
   477
    end;
ballarin@17000
   478
ballarin@15624
   479
ballarin@15624
   480
(* add witness theorem to registration in theory or context,
ballarin@15596
   481
   ignored if registration not present *)
ballarin@15596
   482
ballarin@15624
   483
fun gen_add_witness map (name, ps) thm =
ballarin@15624
   484
  map (fn regs =>
ballarin@15624
   485
      let
ballarin@15837
   486
        val reg = valOf (Symtab.lookup (regs, name));
ballarin@15596
   487
      in
ballarin@15837
   488
        Symtab.update ((name, Registrations.add_witness ps thm reg), regs)
ballarin@15624
   489
      end handle Option => regs);
ballarin@15596
   490
ballarin@15624
   491
val add_global_witness =
ballarin@15624
   492
     gen_add_witness (fn f =>
ballarin@15624
   493
       GlobalLocalesData.map (fn (space, locs, regs) =>
ballarin@15624
   494
         (space, locs, f regs)));
ballarin@15624
   495
val add_local_witness = gen_add_witness LocalLocalesData.map;
ballarin@15596
   496
ballarin@17000
   497
fun add_witness_in_locale name id thm thy =
ballarin@17000
   498
    let
ballarin@17000
   499
      val {predicate, import, elems, params, regs} = the_locale thy name;
ballarin@17000
   500
      fun add (id', thms) =
ballarin@17000
   501
          if id = id' then (id', thm :: thms) else (id', thms);
ballarin@17000
   502
    in
ballarin@17000
   503
      put_locale name {predicate = predicate, import = import,
ballarin@17000
   504
	elems = elems, params = params, regs = map add regs} thy
ballarin@17000
   505
    end;
ballarin@15596
   506
ballarin@14215
   507
(* import hierarchy
ballarin@14215
   508
   implementation could be more efficient, eg. by maintaining a database
ballarin@14215
   509
   of dependencies *)
ballarin@14215
   510
ballarin@14215
   511
fun imports thy (upper, lower) =
ballarin@14215
   512
  let
ballarin@14215
   513
    fun imps (Locale name) low = (name = low) orelse
ballarin@14215
   514
      (case get_locale thy name of
skalberg@15531
   515
           NONE => false
skalberg@15531
   516
         | SOME {import, ...} => imps import low)
ballarin@14215
   517
      | imps (Rename (expr, _)) low = imps expr low
ballarin@14215
   518
      | imps (Merge es) low = exists (fn e => imps e low) es;
ballarin@14215
   519
  in
wenzelm@16458
   520
    imps (Locale (intern thy upper)) (intern thy lower)
ballarin@14215
   521
  end;
ballarin@14215
   522
ballarin@14215
   523
ballarin@15624
   524
(* printing of registrations *)
ballarin@15596
   525
wenzelm@15703
   526
fun gen_print_registrations get_regs mk_ctxt msg loc thy_ctxt =
ballarin@15596
   527
  let
wenzelm@15703
   528
    val ctxt = mk_ctxt thy_ctxt;
wenzelm@15703
   529
    val thy = ProofContext.theory_of ctxt;
wenzelm@15703
   530
wenzelm@15703
   531
    val prt_term = Pretty.quote o ProofContext.pretty_term ctxt;
ballarin@17096
   532
    fun prt_inst ts =
ballarin@17096
   533
        Pretty.enclose "(" ")" (Pretty.breaks (map prt_term ts));
ballarin@17096
   534
    fun prt_attn (prfx, atts) =
ballarin@17096
   535
        Pretty.breaks (Pretty.str prfx :: Args.pretty_attribs ctxt atts);
ballarin@17096
   536
    val prt_thm = Pretty.quote o ProofContext.pretty_thm ctxt;
ballarin@17096
   537
    fun prt_thms thms =
ballarin@17096
   538
        Pretty.enclose "[" "]" (Pretty.breaks (map prt_thm thms));
ballarin@17096
   539
    fun prt_reg (ts, (("", []), thms)) =
ballarin@17096
   540
        if ! show_wits
ballarin@17096
   541
          then Pretty.block [prt_inst ts, Pretty.fbrk, prt_thms thms]
ballarin@17096
   542
          else prt_inst ts
ballarin@17096
   543
      | prt_reg (ts, (attn, thms)) =
ballarin@17096
   544
        if ! show_wits
ballarin@17096
   545
          then Pretty.block ((prt_attn attn @
ballarin@17096
   546
            [Pretty.str ":", Pretty.brk 1, prt_inst ts, Pretty.fbrk,
ballarin@17096
   547
              prt_thms thms]))
ballarin@17096
   548
          else Pretty.block ((prt_attn attn @
ballarin@17096
   549
            [Pretty.str ":", Pretty.brk 1, prt_inst ts]));
wenzelm@15703
   550
wenzelm@16458
   551
    val loc_int = intern thy loc;
ballarin@15624
   552
    val regs = get_regs thy_ctxt;
ballarin@15596
   553
    val loc_regs = Symtab.lookup (regs, loc_int);
ballarin@15596
   554
  in
ballarin@15596
   555
    (case loc_regs of
ballarin@15624
   556
        NONE => Pretty.str ("No interpretations in " ^ msg ^ ".")
ballarin@15763
   557
      | SOME r => let
ballarin@15837
   558
            val r' = Registrations.dest r;
ballarin@15763
   559
            val r'' = Library.sort_wrt (fn (_, ((prfx, _), _)) => prfx) r';
ballarin@15763
   560
          in Pretty.big_list ("Interpretations in " ^ msg ^ ":")
ballarin@17096
   561
            (map prt_reg r'')
ballarin@15763
   562
          end)
ballarin@15596
   563
    |> Pretty.writeln
ballarin@15596
   564
  end;
ballarin@15596
   565
ballarin@15624
   566
val print_global_registrations =
ballarin@15624
   567
     gen_print_registrations (#3 o GlobalLocalesData.get)
wenzelm@15703
   568
       ProofContext.init "theory";
ballarin@15624
   569
val print_local_registrations' =
ballarin@15624
   570
     gen_print_registrations LocalLocalesData.get
wenzelm@15703
   571
       I "context";
ballarin@15624
   572
fun print_local_registrations loc ctxt =
ballarin@15624
   573
  (print_global_registrations loc (ProofContext.theory_of ctxt);
ballarin@15624
   574
   print_local_registrations' loc ctxt);
ballarin@15624
   575
ballarin@15596
   576
wenzelm@12277
   577
(* diagnostics *)
wenzelm@12273
   578
wenzelm@12277
   579
fun err_in_locale ctxt msg ids =
wenzelm@12277
   580
  let
wenzelm@16458
   581
    val thy = ProofContext.theory_of ctxt;
wenzelm@12529
   582
    fun prt_id (name, parms) =
wenzelm@16458
   583
      [Pretty.block (Pretty.breaks (map Pretty.str (extern thy name :: parms)))];
skalberg@15570
   584
    val prt_ids = List.concat (separate [Pretty.str " +", Pretty.brk 1] (map prt_id ids));
wenzelm@12502
   585
    val err_msg =
wenzelm@12529
   586
      if forall (equal "" o #1) ids then msg
wenzelm@12502
   587
      else msg ^ "\n" ^ Pretty.string_of (Pretty.block
wenzelm@12502
   588
        (Pretty.str "The error(s) above occurred in locale:" :: Pretty.brk 1 :: prt_ids));
wenzelm@12502
   589
  in raise ProofContext.CONTEXT (err_msg, ctxt) end;
wenzelm@12063
   590
ballarin@15206
   591
(* Version for identifiers with axioms *)
ballarin@15206
   592
ballarin@15206
   593
fun err_in_locale' ctxt msg ids' = err_in_locale ctxt msg (map fst ids');
wenzelm@12277
   594
wenzelm@12277
   595
wenzelm@12529
   596
(** primitives **)
wenzelm@12046
   597
wenzelm@15703
   598
(* map elements *)
wenzelm@15703
   599
wenzelm@15703
   600
fun map_elem {name, var, typ, term, fact, attrib} =
wenzelm@15703
   601
  fn Fixes fixes => Fixes (fixes |> map (fn (x, T, mx) =>
wenzelm@15703
   602
       let val (x', mx') = var (x, mx) in (x', Option.map typ T, mx') end))
ballarin@16169
   603
   | Constrains csts => Constrains (csts |> map (fn (x, T) =>
ballarin@16169
   604
       let val (x', _) = var (x, SOME Syntax.NoSyn) in (x', typ T) end))
wenzelm@15703
   605
   | Assumes asms => Assumes (asms |> map (fn ((a, atts), propps) =>
wenzelm@15703
   606
      ((name a, map attrib atts), propps |> map (fn (t, (ps, qs)) =>
wenzelm@15703
   607
        (term t, (map term ps, map term qs))))))
wenzelm@15703
   608
   | Defines defs => Defines (defs |> map (fn ((a, atts), (t, ps)) =>
wenzelm@15703
   609
      ((name a, map attrib atts), (term t, map term ps))))
wenzelm@15703
   610
   | Notes facts => Notes (facts |> map (fn ((a, atts), bs) =>
wenzelm@15703
   611
      ((name a, map attrib atts), bs |> map (fn (ths, btts) => (fact ths, map attrib btts)))));
wenzelm@15703
   612
wenzelm@15703
   613
fun map_values typ term thm = map_elem
wenzelm@15703
   614
  {name = I, var = I, typ = typ, term = term, fact = map thm,
wenzelm@15703
   615
    attrib = Args.map_values I typ term thm};
wenzelm@15703
   616
wenzelm@15703
   617
wenzelm@15703
   618
(* map attributes *)
wenzelm@15703
   619
wenzelm@15703
   620
fun map_attrib_elem f = map_elem {name = I, var = I, typ = I, term = I, fact = I, attrib = f};
wenzelm@15703
   621
wenzelm@16458
   622
fun intern_attrib_elem thy = map_attrib_elem (Attrib.intern_src thy);
wenzelm@15703
   623
wenzelm@15703
   624
fun intern_attrib_elem_expr thy (Elem elem) = Elem (intern_attrib_elem thy elem)
wenzelm@15703
   625
  | intern_attrib_elem_expr _ (Expr expr) = Expr expr;
wenzelm@15703
   626
wenzelm@15703
   627
wenzelm@12277
   628
(* renaming *)
wenzelm@12263
   629
ballarin@16102
   630
(* ren maps names to (new) names and syntax; represented as association list *)
wenzelm@12263
   631
wenzelm@15703
   632
fun rename_var ren (x, mx) =
ballarin@16102
   633
  case assoc_string (ren, x) of
ballarin@16102
   634
      NONE => (x, mx)
ballarin@16102
   635
    | SOME (x', NONE) =>
ballarin@16102
   636
        (x', if mx = NONE then mx else SOME Syntax.NoSyn)     (*drop syntax*)
ballarin@16102
   637
    | SOME (x', SOME mx') =>
ballarin@16102
   638
        if mx = NONE then raise ERROR_MESSAGE
ballarin@16102
   639
          ("Attempt to change syntax of structure parameter " ^ quote x)
ballarin@16102
   640
        else (x', SOME mx');                                (*change syntax*)
ballarin@16102
   641
ballarin@16102
   642
fun rename ren x =
ballarin@16102
   643
  case assoc_string (ren, x) of
ballarin@16102
   644
      NONE => x
ballarin@16102
   645
    | SOME (x', _) => x';                                   (*ignore syntax*)
wenzelm@15703
   646
wenzelm@12263
   647
fun rename_term ren (Free (x, T)) = Free (rename ren x, T)
wenzelm@12263
   648
  | rename_term ren (t $ u) = rename_term ren t $ rename_term ren u
wenzelm@12263
   649
  | rename_term ren (Abs (x, T, t)) = Abs (x, T, rename_term ren t)
wenzelm@12263
   650
  | rename_term _ a = a;
wenzelm@12263
   651
wenzelm@12263
   652
fun rename_thm ren th =
wenzelm@12263
   653
  let
wenzelm@16458
   654
    val {thy, hyps, prop, maxidx, ...} = Thm.rep_thm th;
wenzelm@16458
   655
    val cert = Thm.cterm_of thy;
wenzelm@16861
   656
    val (xs, Ts) = Library.split_list (fold Term.add_frees (prop :: hyps) []);
wenzelm@12263
   657
    val xs' = map (rename ren) xs;
wenzelm@12263
   658
    fun cert_frees names = map (cert o Free) (names ~~ Ts);
wenzelm@12263
   659
    fun cert_vars names = map (cert o Var o apfst (rpair (maxidx + 1))) (names ~~ Ts);
wenzelm@12263
   660
  in
wenzelm@12263
   661
    if xs = xs' then th
wenzelm@12263
   662
    else
wenzelm@12263
   663
      th
wenzelm@12263
   664
      |> Drule.implies_intr_list (map cert hyps)
wenzelm@12263
   665
      |> Drule.forall_intr_list (cert_frees xs)
wenzelm@12263
   666
      |> Drule.forall_elim_list (cert_vars xs)
wenzelm@12263
   667
      |> Thm.instantiate ([], cert_vars xs ~~ cert_frees xs')
wenzelm@12263
   668
      |> (fn th' => Drule.implies_elim_list th' (map (Thm.assume o cert o rename_term ren) hyps))
wenzelm@12263
   669
  end;
wenzelm@12263
   670
wenzelm@15703
   671
fun rename_elem ren =
wenzelm@15703
   672
  map_values I (rename_term ren) (rename_thm ren) o
wenzelm@15703
   673
  map_elem {name = I, typ = I, term = I, fact = I, attrib = I, var = rename_var ren};
wenzelm@12263
   674
wenzelm@16144
   675
fun rename_facts prfx =
wenzelm@16144
   676
  map_elem {var = I, typ = I, term = I, fact = I, attrib = I, name = NameSpace.qualified prfx};
wenzelm@12307
   677
wenzelm@12263
   678
wenzelm@12502
   679
(* type instantiation *)
wenzelm@12502
   680
wenzelm@12502
   681
fun inst_type [] T = T
skalberg@15570
   682
  | inst_type env T = Term.map_type_tfree (fn v => getOpt (assoc (env, v), TFree v)) T;
wenzelm@12502
   683
wenzelm@12502
   684
fun inst_term [] t = t
wenzelm@12502
   685
  | inst_term env t = Term.map_term_types (inst_type env) t;
wenzelm@12502
   686
wenzelm@13211
   687
fun inst_thm _ [] th = th
wenzelm@13211
   688
  | inst_thm ctxt env th =
wenzelm@12502
   689
      let
wenzelm@16458
   690
        val thy = ProofContext.theory_of ctxt;
wenzelm@16458
   691
        val cert = Thm.cterm_of thy;
wenzelm@16458
   692
        val certT = Thm.ctyp_of thy;
wenzelm@13211
   693
        val {hyps, prop, maxidx, ...} = Thm.rep_thm th;
skalberg@15574
   694
        val tfrees = foldr Term.add_term_tfree_names [] (prop :: hyps);
skalberg@15570
   695
        val env' = List.filter (fn ((a, _), _) => a mem_string tfrees) env;
wenzelm@12502
   696
      in
wenzelm@12502
   697
        if null env' then th
wenzelm@12502
   698
        else
wenzelm@12502
   699
          th
wenzelm@12502
   700
          |> Drule.implies_intr_list (map cert hyps)
wenzelm@12575
   701
          |> Drule.tvars_intr_list (map (#1 o #1) env')
wenzelm@12502
   702
          |> (fn (th', al) => th' |>
berghofe@15798
   703
            Thm.instantiate ((map (fn ((a, _), T) =>
berghofe@15798
   704
              (certT (TVar (valOf (assoc (al, a)))), certT T)) env'), []))
wenzelm@12502
   705
          |> (fn th'' => Drule.implies_elim_list th''
wenzelm@12502
   706
              (map (Thm.assume o cert o inst_term env') hyps))
wenzelm@12502
   707
      end;
wenzelm@12502
   708
wenzelm@15703
   709
fun inst_elem ctxt env =
wenzelm@15703
   710
  map_values (inst_type env) (inst_term env) (inst_thm ctxt env);
wenzelm@12502
   711
wenzelm@12502
   712
ballarin@15696
   713
(* term and type instantiation, variant using symbol tables *)
ballarin@15696
   714
ballarin@15696
   715
(* instantiate TFrees *)
ballarin@15696
   716
wenzelm@16458
   717
fun tinst_tab_elem thy tinst =
wenzelm@16458
   718
  map_values (tinst_tab_type tinst) (tinst_tab_term tinst) (tinst_tab_thm thy tinst);
wenzelm@15749
   719
ballarin@15696
   720
(* instantiate TFrees and Frees *)
ballarin@15696
   721
wenzelm@16458
   722
fun inst_tab_elem thy (inst as (_, tinst)) =
wenzelm@16458
   723
  map_values (tinst_tab_type tinst) (inst_tab_term inst) (inst_tab_thm thy inst);
ballarin@15696
   724
wenzelm@16458
   725
fun inst_tab_elems thy inst ((n, ps), elems) =
wenzelm@16458
   726
      ((n, map (inst_tab_term inst) ps), map (inst_tab_elem thy inst) elems);
ballarin@15696
   727
wenzelm@12529
   728
wenzelm@12529
   729
(** structured contexts: rename + merge + implicit type instantiation **)
wenzelm@12529
   730
wenzelm@12529
   731
(* parameter types *)
wenzelm@12529
   732
ballarin@14508
   733
(* CB: frozen_tvars has the following type:
berghofe@15798
   734
  ProofContext.context -> Term.typ list -> (Term.indexname * (sort * Term.typ)) list *)
ballarin@14508
   735
wenzelm@12529
   736
fun frozen_tvars ctxt Ts =
wenzelm@12529
   737
  let
wenzelm@16861
   738
    val tvars = rev (fold Term.add_tvarsT Ts []);
wenzelm@12529
   739
    val tfrees = map TFree
wenzelm@14695
   740
      (Term.invent_names (ProofContext.used_types ctxt) "'a" (length tvars) ~~ map #2 tvars);
berghofe@15798
   741
  in map (fn ((x, S), y) => (x, (S, y))) (tvars ~~ tfrees) end;
wenzelm@12529
   742
wenzelm@12529
   743
fun unify_frozen ctxt maxidx Ts Us =
wenzelm@12529
   744
  let
skalberg@15531
   745
    fun paramify (i, NONE) = (i, NONE)
skalberg@15531
   746
      | paramify (i, SOME T) = apsnd SOME (TypeInfer.paramify_dummies (i, T));
wenzelm@12529
   747
wenzelm@12529
   748
    val (maxidx', Ts') = foldl_map paramify (maxidx, Ts);
wenzelm@12727
   749
    val (maxidx'', Us') = foldl_map paramify (maxidx', Us);
wenzelm@16947
   750
    val thy = ProofContext.theory_of ctxt;
ballarin@14215
   751
wenzelm@16947
   752
    fun unify (env, (SOME T, SOME U)) = (Sign.typ_unify thy (U, T) env
ballarin@14215
   753
          handle Type.TUNIFY =>
ballarin@14215
   754
            raise TYPE ("unify_frozen: failed to unify types", [U, T], []))
ballarin@14215
   755
      | unify (env, _) = env;
skalberg@15570
   756
    val (unifier, _) = Library.foldl unify ((Vartab.empty, maxidx''), Ts' ~~ Us');
skalberg@15570
   757
    val Vs = map (Option.map (Envir.norm_type unifier)) Us';
skalberg@15570
   758
    val unifier' = Vartab.extend (unifier, frozen_tvars ctxt (List.mapPartial I Vs));
skalberg@15570
   759
  in map (Option.map (Envir.norm_type unifier')) Vs end;
wenzelm@12529
   760
skalberg@15570
   761
fun params_of elemss = gen_distinct eq_fst (List.concat (map (snd o fst) elemss));
skalberg@15570
   762
fun params_of' elemss = gen_distinct eq_fst (List.concat (map (snd o fst o fst) elemss));
ballarin@16102
   763
fun params_syn_of syn elemss =
ballarin@16102
   764
  gen_distinct eq_fst (List.concat (map (snd o fst) elemss)) |>
ballarin@16102
   765
    map (apfst (fn x => (x, valOf (Symtab.lookup (syn, x)))));
ballarin@16102
   766
ballarin@14508
   767
ballarin@14508
   768
(* CB: param_types has the following type:
skalberg@15531
   769
  ('a * 'b option) list -> ('a * 'b) list *)
skalberg@15570
   770
fun param_types ps = List.mapPartial (fn (_, NONE) => NONE | (x, SOME T) => SOME (x, T)) ps;
wenzelm@12529
   771
wenzelm@12529
   772
ballarin@16102
   773
fun merge_syntax ctxt ids ss = Symtab.merge (op =) ss
ballarin@16102
   774
  handle Symtab.DUPS xs => err_in_locale ctxt
ballarin@16105
   775
    ("Conflicting syntax for parameter(s): " ^ commas_quote xs) (map fst ids);
ballarin@16102
   776
ballarin@16102
   777
ballarin@17000
   778
(* Distinction of assumed vs. derived identifiers.
ballarin@17000
   779
   The former may have axioms relating assumptions of the context to
ballarin@17000
   780
   assumptions of the specification fragment (for locales with
ballarin@17000
   781
   predicates).  The latter have witness theorems relating assumptions of the
ballarin@17000
   782
   specification fragment to assumptions of other (assumed) specification
ballarin@17000
   783
   fragments. *)
ballarin@17000
   784
ballarin@17000
   785
datatype 'a mode = Assumed of 'a | Derived of 'a;
ballarin@17000
   786
ballarin@17033
   787
fun map_mode2 f _ (Assumed x) = Assumed (f x)
ballarin@17033
   788
  | map_mode2 _ g (Derived x) = Derived (g x);
ballarin@17033
   789
ballarin@17000
   790
fun map_mode f (Assumed x) = Assumed (f x)
ballarin@17000
   791
  | map_mode f (Derived x) = Derived (f x);
ballarin@17000
   792
wenzelm@12529
   793
(* flatten expressions *)
wenzelm@11896
   794
wenzelm@12510
   795
local
wenzelm@12502
   796
ballarin@15206
   797
(* CB: OUTDATED unique_parms has the following type:
ballarin@14508
   798
     'a ->
ballarin@14508
   799
     (('b * (('c * 'd) list * Symtab.key list)) * 'e) list ->
ballarin@14508
   800
     (('b * ('c * 'd) list) * 'e) list  *)
ballarin@14508
   801
wenzelm@12529
   802
fun unique_parms ctxt elemss =
wenzelm@12529
   803
  let
wenzelm@12529
   804
    val param_decls =
skalberg@15570
   805
      List.concat (map (fn (((name, (ps, qs)), _), _) => map (rpair (name, ps)) qs) elemss)
wenzelm@12529
   806
      |> Symtab.make_multi |> Symtab.dest;
wenzelm@12529
   807
  in
wenzelm@12529
   808
    (case find_first (fn (_, ids) => length ids > 1) param_decls of
skalberg@15531
   809
      SOME (q, ids) => err_in_locale ctxt ("Multiple declaration of parameter " ^ quote q)
wenzelm@12529
   810
          (map (apsnd (map fst)) ids)
skalberg@15531
   811
    | NONE => map (apfst (apfst (apsnd #1))) elemss)
wenzelm@12529
   812
  end;
wenzelm@12529
   813
ballarin@16102
   814
fun unify_parms ctxt (fixed_parms : (string * typ) list)
ballarin@16102
   815
  (raw_parmss : (string * typ option) list list) =
wenzelm@12502
   816
  let
wenzelm@16458
   817
    val thy = ProofContext.theory_of ctxt;
wenzelm@12502
   818
    val maxidx = length raw_parmss;
wenzelm@12502
   819
    val idx_parmss = (0 upto maxidx - 1) ~~ raw_parmss;
wenzelm@12502
   820
wenzelm@12502
   821
    fun varify i = Term.map_type_tfree (fn (a, S) => TVar ((a, i), S));
wenzelm@12529
   822
    fun varify_parms (i, ps) = map (apsnd (varify i)) (param_types ps);
skalberg@15570
   823
    val parms = fixed_parms @ List.concat (map varify_parms idx_parmss);
wenzelm@12502
   824
ballarin@15206
   825
    fun unify T ((env, maxidx), U) =
wenzelm@16947
   826
      Sign.typ_unify thy (U, T) (env, maxidx)
ballarin@15206
   827
      handle Type.TUNIFY =>
wenzelm@16458
   828
        let val prt = Sign.string_of_typ thy
ballarin@15206
   829
        in raise TYPE ("unify_parms: failed to unify types " ^
ballarin@15206
   830
          prt U ^ " and " ^ prt T, [U, T], [])
ballarin@15206
   831
        end
skalberg@15570
   832
    fun unify_list (envir, T :: Us) = Library.foldl (unify T) (envir, Us)
wenzelm@12502
   833
      | unify_list (envir, []) = envir;
skalberg@15570
   834
    val (unifier, _) = Library.foldl unify_list
wenzelm@12502
   835
      ((Vartab.empty, maxidx), map #2 (Symtab.dest (Symtab.make_multi parms)));
wenzelm@12502
   836
wenzelm@12502
   837
    val parms' = map (apsnd (Envir.norm_type unifier)) (gen_distinct eq_fst parms);
wenzelm@12502
   838
    val unifier' = Vartab.extend (unifier, frozen_tvars ctxt (map #2 parms'));
wenzelm@12502
   839
wenzelm@12502
   840
    fun inst_parms (i, ps) =
skalberg@15574
   841
      foldr Term.add_typ_tfrees [] (List.mapPartial snd ps)
skalberg@15570
   842
      |> List.mapPartial (fn (a, S) =>
wenzelm@12502
   843
          let val T = Envir.norm_type unifier' (TVar ((a, i), S))
skalberg@15531
   844
          in if T = TFree (a, S) then NONE else SOME ((a, S), T) end)
ballarin@16102
   845
  in map inst_parms idx_parmss end : ((string * Term.sort) * Term.typ) list list;
wenzelm@12502
   846
wenzelm@12529
   847
in
wenzelm@12502
   848
wenzelm@12529
   849
fun unify_elemss _ _ [] = []
wenzelm@12529
   850
  | unify_elemss _ [] [elems] = [elems]
wenzelm@12529
   851
  | unify_elemss ctxt fixed_parms elemss =
wenzelm@12502
   852
      let
ballarin@15206
   853
        val envs = unify_parms ctxt fixed_parms (map (#2 o #1 o #1) elemss);
ballarin@17000
   854
        fun inst ((((name, ps), mode), elems), env) =
skalberg@15570
   855
          (((name, map (apsnd (Option.map (inst_type env))) ps), 
ballarin@17000
   856
              map_mode (map (inst_thm ctxt env)) mode),
ballarin@17000
   857
            map (inst_elem ctxt env) elems);
wenzelm@12839
   858
      in map inst (elemss ~~ envs) end;
wenzelm@12502
   859
ballarin@17000
   860
(* like unify_elemss, but does not touch mode, additional
ballarin@16736
   861
   parameter c_parms for enforcing further constraints (eg. syntax) *)
ballarin@16102
   862
ballarin@16102
   863
fun unify_elemss' _ _ [] [] = []
ballarin@16102
   864
  | unify_elemss' _ [] [elems] [] = [elems]
ballarin@16102
   865
  | unify_elemss' ctxt fixed_parms elemss c_parms =
ballarin@16102
   866
      let
ballarin@16102
   867
        val envs = unify_parms ctxt fixed_parms (map (#2 o #1 o #1) elemss @ map single c_parms);
ballarin@17033
   868
        fun inst ((((name, ps), (ps', mode)), elems), env) =
ballarin@17033
   869
          (((name, map (apsnd (Option.map (inst_type env))) ps),
ballarin@17033
   870
              (ps', mode)),
ballarin@16102
   871
           map (inst_elem ctxt env) elems);
ballarin@16102
   872
      in map inst (elemss ~~ (Library.take (length elemss, envs))) end;
ballarin@16102
   873
ballarin@17000
   874
ballarin@15596
   875
(* flatten_expr:
ballarin@15596
   876
   Extend list of identifiers by those new in locale expression expr.
ballarin@15596
   877
   Compute corresponding list of lists of locale elements (one entry per
ballarin@15596
   878
   identifier).
ballarin@15596
   879
ballarin@15596
   880
   Identifiers represent locale fragments and are in an extended form:
ballarin@15596
   881
     ((name, ps), (ax_ps, axs))
ballarin@15596
   882
   (name, ps) is the locale name with all its parameters.
ballarin@15596
   883
   (ax_ps, axs) is the locale axioms with its parameters;
ballarin@15596
   884
     axs are always taken from the top level of the locale hierarchy,
ballarin@15596
   885
     hence axioms may contain additional parameters from later fragments:
ballarin@15596
   886
     ps subset of ax_ps.  axs is either singleton or empty.
ballarin@15596
   887
ballarin@15596
   888
   Elements are enriched by identifier-like information:
ballarin@15596
   889
     (((name, ax_ps), axs), elems)
ballarin@15596
   890
   The parameters in ax_ps are the axiom parameters, but enriched by type
ballarin@15596
   891
   info: now each entry is a pair of string and typ option.  Axioms are
ballarin@15596
   892
   type-instantiated.
ballarin@15596
   893
ballarin@15596
   894
*)
ballarin@15596
   895
ballarin@16102
   896
fun flatten_expr ctxt ((prev_idents, prev_syntax), expr) =
wenzelm@12014
   897
  let
wenzelm@12014
   898
    val thy = ProofContext.theory_of ctxt;
ballarin@15596
   899
    (* thy used for retrieval of locale info,
ballarin@15596
   900
       ctxt for error messages, parameter unification and instantiation
ballarin@15596
   901
       of axioms *)
wenzelm@12263
   902
skalberg@15531
   903
    fun renaming (SOME x :: xs) (y :: ys) = (y, x) :: renaming xs ys
skalberg@15531
   904
      | renaming (NONE :: xs) (y :: ys) = renaming xs ys
wenzelm@12273
   905
      | renaming [] _ = []
wenzelm@12289
   906
      | renaming xs [] = raise ERROR_MESSAGE ("Too many arguments in renaming: " ^
ballarin@16102
   907
          commas (map (fn NONE => "_" | SOME x => quote (fst x)) xs));
wenzelm@12289
   908
ballarin@17000
   909
    fun rename_parms top ren ((name, ps), (parms, mode)) =
wenzelm@12289
   910
      let val ps' = map (rename ren) ps in
ballarin@17000
   911
        (case duplicates ps' of
ballarin@17096
   912
          [] => ((name, ps'),
ballarin@17096
   913
                 if top then (map (rename ren) parms,
ballarin@17096
   914
                   map_mode (map (rename_thm ren)) mode)
ballarin@17096
   915
                 else (parms, mode))
wenzelm@12289
   916
        | dups => err_in_locale ctxt ("Duplicate parameters: " ^ commas_quote dups) [(name, ps')])
wenzelm@12289
   917
      end;
wenzelm@12263
   918
ballarin@17000
   919
    (* add registrations of (name, ps), recursively;
ballarin@17000
   920
       adjust hyps of witness theorems *)
ballarin@17000
   921
ballarin@17000
   922
    fun add_regs (name, ps) (ths, ids) =
ballarin@17000
   923
        let
ballarin@17000
   924
          val {params, regs, ...} = the_locale thy name;
ballarin@17096
   925
          val ps' = map #1 (#1 params);
ballarin@17096
   926
          val ren = map #1 ps' ~~ map (fn (x, _) => (x, NONE)) ps;
ballarin@17000
   927
            (* dummy syntax, since required by rename *)
ballarin@17096
   928
          val ps'' = map (fn ((p, _), (_, T)) => (p, T)) (ps ~~ ps');
ballarin@17096
   929
          val [env] = unify_parms ctxt ps [map (apsnd SOME) ps''];
ballarin@17096
   930
            (* propagate parameter types, to keep them consistent *)
ballarin@17000
   931
          val regs' = map (fn ((name, ps), ths) =>
ballarin@17000
   932
              ((name, map (rename ren) ps), ths)) regs;
ballarin@17000
   933
          val new_regs = gen_rems eq_fst (regs', ids);
ballarin@17000
   934
          val new_ids = map fst new_regs;
ballarin@17096
   935
          val new_idTs = map (apsnd (map (fn p => (p, valOf (assoc (ps, p)))))) new_ids;
ballarin@17096
   936
ballarin@17000
   937
          val new_ths = map (fn (_, ths') =>
ballarin@17096
   938
              map (Drule.satisfy_hyps ths o rename_thm ren o inst_thm ctxt env) ths') new_regs;
ballarin@17000
   939
          val new_ids' = map (fn (id, ths) =>
ballarin@17000
   940
              (id, ([], Derived ths))) (new_ids ~~ new_ths);
ballarin@17000
   941
        in
ballarin@17096
   942
          fold add_regs new_idTs (ths @ List.concat new_ths, ids @ new_ids')
ballarin@17000
   943
        end;
ballarin@17000
   944
ballarin@17000
   945
    (* distribute top-level axioms over assumed ids *)
ballarin@17000
   946
ballarin@17000
   947
    fun axiomify all_ps ((name, parms), (_, Assumed _)) axioms =
ballarin@17000
   948
        let
ballarin@17000
   949
          val {elems, ...} = the_locale thy name;
ballarin@17000
   950
          val ts = List.concat (map
ballarin@17000
   951
            (fn (Assumes asms, _) => List.concat (map (map #1 o #2) asms)
ballarin@17000
   952
              | _ => [])
ballarin@17000
   953
            elems);
ballarin@17000
   954
          val (axs1, axs2) = splitAt (length ts, axioms);
ballarin@17000
   955
        in (((name, parms), (all_ps, Assumed axs1)), axs2) end
ballarin@17000
   956
      | axiomify all_ps (id, (_, Derived ths)) axioms =
ballarin@17000
   957
          ((id, (all_ps, Derived ths)), axioms);
ballarin@17000
   958
ballarin@17096
   959
    (* identifiers of an expression *)
ballarin@17096
   960
ballarin@15206
   961
    fun identify top (Locale name) =
ballarin@15596
   962
    (* CB: ids_ax is a list of tuples of the form ((name, ps), axs),
ballarin@15206
   963
       where name is a locale name, ps a list of parameter names and axs
ballarin@15206
   964
       a list of axioms relating to the identifier, axs is empty unless
ballarin@15206
   965
       identify at top level (top = true);
ballarin@17096
   966
       ty is the parameter typing (empty if at top level);
ballarin@14215
   967
       parms is accumulated list of parameters *)
wenzelm@12289
   968
          let
ballarin@15206
   969
            val {predicate = (_, axioms), import, params, ...} =
ballarin@15206
   970
              the_locale thy name;
ballarin@16102
   971
            val ps = map (#1 o #1) (#1 params);
ballarin@17096
   972
            val (ids', parms', _) = identify false import;
ballarin@15206
   973
                (* acyclic import dependencies *)
ballarin@17000
   974
            val ids'' = ids' @ [((name, ps), ([], Assumed []))];
ballarin@17096
   975
            val (_, ids''') = add_regs (name, map #1 (#1 params)) ([], ids'');
ballarin@17000
   976
ballarin@17000
   977
            val ids_ax = if top then fst
ballarin@17000
   978
                 (fold_map (axiomify ps) ids''' axioms)
ballarin@17000
   979
              else ids''';
ballarin@16102
   980
            val syn = Symtab.make (map (apfst fst) (#1 params));
ballarin@17096
   981
            in (ids_ax, merge_lists parms' ps, syn) end
ballarin@15206
   982
      | identify top (Rename (e, xs)) =
wenzelm@12273
   983
          let
ballarin@17096
   984
            val (ids', parms', syn') = identify top e;
wenzelm@12839
   985
            val ren = renaming xs parms'
ballarin@15206
   986
              handle ERROR_MESSAGE msg => err_in_locale' ctxt msg ids';
ballarin@17096
   987
ballarin@15206
   988
            val ids'' = gen_distinct eq_fst (map (rename_parms top ren) ids');
skalberg@15570
   989
            val parms'' = distinct (List.concat (map (#2 o #1) ids''));
ballarin@16102
   990
            val syn'' = syn' |> Symtab.dest |> map (rename_var ren) |>
ballarin@16102
   991
                  Symtab.make;
ballarin@16102
   992
            (* check for conflicting syntax? *)
ballarin@17096
   993
          in (ids'', parms'', syn'') end
ballarin@15206
   994
      | identify top (Merge es) =
ballarin@17096
   995
          fold (fn e => fn (ids, parms, syn) =>
ballarin@17000
   996
                   let
ballarin@17096
   997
                     val (ids', parms', syn') = identify top e
ballarin@17000
   998
                   in
ballarin@17000
   999
                     (merge_alists ids ids',
ballarin@17000
  1000
                      merge_lists parms parms',
ballarin@17096
  1001
                      merge_syntax ctxt ids' (syn, syn'))
ballarin@17000
  1002
                   end)
ballarin@17096
  1003
            es ([], [], Symtab.empty);
ballarin@17000
  1004
wenzelm@12014
  1005
ballarin@15206
  1006
    (* CB: enrich identifiers by parameter types and 
ballarin@16102
  1007
       the corresponding elements (with renamed parameters),
ballarin@16102
  1008
       also takes care of parameter syntax *)
ballarin@15206
  1009
ballarin@16102
  1010
    fun eval syn ((name, xs), axs) =
wenzelm@12273
  1011
      let
wenzelm@13308
  1012
        val {params = (ps, qs), elems, ...} = the_locale thy name;
ballarin@16620
  1013
        val ps' = map (apsnd SOME o #1) ps;
ballarin@16102
  1014
        val ren = map #1 ps' ~~
ballarin@16102
  1015
              map (fn x => (x, valOf (Symtab.lookup (syn, x)))) xs;
wenzelm@13308
  1016
        val (params', elems') =
ballarin@16102
  1017
          if null ren then ((ps', qs), map #1 elems)
ballarin@16102
  1018
          else ((map (apfst (rename ren)) ps', map (rename ren) qs),
wenzelm@13308
  1019
            map (rename_elem ren o #1) elems);
wenzelm@13375
  1020
        val elems'' = map (rename_facts (space_implode "_" xs)) elems';
ballarin@15206
  1021
      in (((name, params'), axs), elems'') end;
wenzelm@12307
  1022
ballarin@16102
  1023
    (* type constraint for renamed parameter with syntax *)
ballarin@16102
  1024
    fun type_syntax NONE = NONE
ballarin@16102
  1025
      | type_syntax (SOME mx) = let
ballarin@16102
  1026
            val Ts = map (fn x => TFree (x, [])) (Term.invent_names [] "'mxa"
ballarin@16102
  1027
              (Syntax.mixfix_args mx + 1))
ballarin@16102
  1028
          in Ts |> Library.split_last |> op ---> |> SOME end;
ballarin@16102
  1029
ballarin@16102
  1030
    (* compute identifiers and syntax, merge with previous ones *)
ballarin@17096
  1031
    val (ids, _, syn) = identify true expr;
ballarin@16102
  1032
    val idents = gen_rems eq_fst (ids, prev_idents);
ballarin@16102
  1033
    val syntax = merge_syntax ctxt ids (syn, prev_syntax);
ballarin@15206
  1034
    (* add types to params, check for unique params and unify them *)
ballarin@16102
  1035
    val raw_elemss = unique_parms ctxt (map (eval syntax) idents);
ballarin@16102
  1036
    val elemss = unify_elemss' ctxt [] raw_elemss
ballarin@16102
  1037
         (map (apsnd type_syntax) (Symtab.dest syntax));
ballarin@15206
  1038
    (* replace params in ids by params from axioms,
ballarin@17033
  1039
       adjust types in mode *)
ballarin@15206
  1040
    val all_params' = params_of' elemss;
ballarin@15206
  1041
    val all_params = param_types all_params';
ballarin@17000
  1042
    val elemss' = map (fn (((name, _), (ps, mode)), elems) =>
ballarin@17000
  1043
         (((name, map (fn p => (p, assoc (all_params, p))) ps), mode), elems))
ballarin@15206
  1044
         elemss;
ballarin@17000
  1045
    fun inst_th th = let
ballarin@15206
  1046
         val {hyps, prop, ...} = Thm.rep_thm th;
wenzelm@16861
  1047
         val ps = map (apsnd SOME) (fold Term.add_frees (prop :: hyps) []);
ballarin@15206
  1048
         val [env] = unify_parms ctxt all_params [ps];
ballarin@15206
  1049
         val th' = inst_thm ctxt env th;
ballarin@15206
  1050
       in th' end;
ballarin@17000
  1051
    val final_elemss = map (fn ((id, mode), elems) =>
ballarin@17000
  1052
         ((id, map_mode (map inst_th) mode), elems)) elemss';
ballarin@17000
  1053
ballarin@16102
  1054
  in ((prev_idents @ idents, syntax), final_elemss) end;
wenzelm@12046
  1055
wenzelm@12510
  1056
end;
wenzelm@12510
  1057
wenzelm@12070
  1058
wenzelm@12529
  1059
(* activate elements *)
wenzelm@12273
  1060
wenzelm@12510
  1061
local
wenzelm@12510
  1062
wenzelm@13399
  1063
fun export_axioms axs _ hyps th =
wenzelm@13399
  1064
  th |> Drule.satisfy_hyps axs
ballarin@15206
  1065
     (* CB: replace meta-hyps, using axs, by a single meta-hyp. *)
wenzelm@13399
  1066
  |> Drule.implies_intr_list (Library.drop (length axs, hyps))
ballarin@15206
  1067
     (* CB: turn remaining hyps into assumptions. *)
ballarin@15206
  1068
  |> Seq.single
wenzelm@12263
  1069
ballarin@17000
  1070
ballarin@17000
  1071
(* NB: derived ids contain only facts at this stage *)
ballarin@17000
  1072
ballarin@17000
  1073
fun activate_elem _ ((ctxt, mode), Fixes fixes) =
ballarin@17000
  1074
      ((ctxt |> ProofContext.add_fixes fixes, mode), [])
ballarin@17000
  1075
  | activate_elem _ ((ctxt, mode), Constrains _) =
ballarin@17000
  1076
      ((ctxt, mode), [])
ballarin@17000
  1077
  | activate_elem _ ((ctxt, Assumed axs), Assumes asms) =
wenzelm@13399
  1078
      let
wenzelm@17109
  1079
        val asms' = Attrib.map_specs (Attrib.context_attribute_i ctxt) asms;
wenzelm@15703
  1080
        val ts = List.concat (map (map #1 o #2) asms');
wenzelm@15703
  1081
        val (ps, qs) = splitAt (length ts, axs);
wenzelm@13420
  1082
        val (ctxt', _) =
wenzelm@13399
  1083
          ctxt |> ProofContext.fix_frees ts
wenzelm@15703
  1084
          |> ProofContext.assume_i (export_axioms ps) asms';
ballarin@17000
  1085
      in ((ctxt', Assumed qs), []) end
ballarin@17000
  1086
  | activate_elem _ ((ctxt, Derived ths), Assumes asms) =
ballarin@17000
  1087
      ((ctxt, Derived ths), [])
ballarin@17000
  1088
  | activate_elem _ ((ctxt, Assumed axs), Defines defs) =
ballarin@15596
  1089
      let
wenzelm@17109
  1090
        val defs' = Attrib.map_specs (Attrib.context_attribute_i ctxt) defs;
ballarin@15596
  1091
        val (ctxt', _) =
wenzelm@13399
  1092
        ctxt |> ProofContext.assume_i ProofContext.export_def
wenzelm@15703
  1093
          (defs' |> map (fn ((name, atts), (t, ps)) =>
wenzelm@13399
  1094
            let val (c, t') = ProofContext.cert_def ctxt t
wenzelm@13399
  1095
            in ((if name = "" then Thm.def_name c else name, atts), [(t', (ps, []))]) end))
ballarin@17000
  1096
      in ((ctxt', Assumed axs), []) end
ballarin@17000
  1097
  | activate_elem _ ((ctxt, Derived ths), Defines defs) =
ballarin@17000
  1098
      ((ctxt, Derived ths), [])
ballarin@17000
  1099
  | activate_elem is_ext ((ctxt, mode), Notes facts) =
ballarin@15596
  1100
      let
wenzelm@17109
  1101
        val facts' = Attrib.map_facts (Attrib.context_attribute_i ctxt) facts;
wenzelm@15703
  1102
        val (ctxt', res) = ctxt |> ProofContext.note_thmss_i facts';
ballarin@17000
  1103
      in ((ctxt', mode), if is_ext then res else []) end;
wenzelm@12502
  1104
ballarin@17000
  1105
fun activate_elems (((name, ps), mode), elems) ctxt =
ballarin@17033
  1106
  let
ballarin@17033
  1107
    val ((ctxt', _), res) =
ballarin@17033
  1108
        foldl_map (activate_elem (name = "")) ((ProofContext.qualified_names ctxt, mode), elems)
wenzelm@13399
  1109
      handle ProofContext.CONTEXT (msg, ctxt) => err_in_locale ctxt msg [(name, map fst ps)]
ballarin@15696
  1110
    val ctxt'' = if name = "" then ctxt'
ballarin@15696
  1111
          else let
ballarin@15696
  1112
              val ps' = map (fn (n, SOME T) => Free (n, T)) ps;
ballarin@15696
  1113
              val ctxt'' = put_local_registration (name, ps') ("", []) ctxt'
ballarin@17000
  1114
            in case mode of
ballarin@17000
  1115
                   Assumed axs => fold (fn ax => fn ctxt =>
ballarin@17000
  1116
                      add_local_witness (name, ps')
ballarin@17000
  1117
                       (Thm.assume (Thm.cprop_of ax)) ctxt) axs ctxt''
ballarin@17000
  1118
                 | Derived ths => fold (fn th => fn ctxt =>
ballarin@17000
  1119
                     add_local_witness (name, ps') th ctxt) ths ctxt''
ballarin@15696
  1120
            end
wenzelm@16144
  1121
  in (ProofContext.restore_naming ctxt ctxt'', res) end;
wenzelm@13399
  1122
ballarin@17000
  1123
fun activate_elemss prep_facts =
ballarin@17000
  1124
    fold_map (fn (((name, ps), mode), raw_elems) => fn ctxt =>
ballarin@17000
  1125
      let
ballarin@17000
  1126
        val elems = map (prep_facts ctxt) raw_elems;
ballarin@17000
  1127
        val (ctxt', res) = apsnd List.concat
ballarin@17000
  1128
            (activate_elems (((name, ps), mode), elems) ctxt);
ballarin@17000
  1129
        val elems' = map (map_attrib_elem Args.closure) elems;
ballarin@17000
  1130
      in ((((name, ps), elems'), res), ctxt') end);
wenzelm@12834
  1131
wenzelm@12546
  1132
in
wenzelm@12546
  1133
ballarin@15206
  1134
(* CB: activate_facts prep_facts (ctxt, elemss),
ballarin@15206
  1135
   where elemss is a list of pairs consisting of identifiers and
ballarin@15206
  1136
   context elements, extends ctxt by the context elements yielding
ballarin@15206
  1137
   ctxt' and returns (ctxt', (elemss', facts)).
ballarin@15206
  1138
   Identifiers in the argument are of the form ((name, ps), axs) and
ballarin@15206
  1139
   assumptions use the axioms in the identifiers to set up exporters
ballarin@15206
  1140
   in ctxt'.  elemss' does not contain identifiers and is obtained
ballarin@15206
  1141
   from elemss and the intermediate context with prep_facts.
wenzelm@15703
  1142
   If read_facts or cert_facts is used for prep_facts, these also remove
ballarin@14508
  1143
   the internal/external markers from elemss. *)
ballarin@14508
  1144
ballarin@17000
  1145
fun activate_facts prep_facts (ctxt, args) =
ballarin@17000
  1146
    let
ballarin@17000
  1147
      val (res, ctxt') = activate_elemss prep_facts args ctxt;
ballarin@17000
  1148
    in
ballarin@17000
  1149
      (ctxt', apsnd List.concat (split_list res))
ballarin@17000
  1150
    end;
wenzelm@12546
  1151
wenzelm@15703
  1152
fun activate_note prep_facts (ctxt, args) =
wenzelm@15703
  1153
  let
wenzelm@15703
  1154
    val (ctxt', ([(_, [Notes args'])], facts)) =
ballarin@17000
  1155
      activate_facts prep_facts (ctxt, [((("", []), Assumed []), [Ext (Notes args)])]);
wenzelm@15703
  1156
  in (ctxt', (args', facts)) end;
wenzelm@15703
  1157
wenzelm@12510
  1158
end;
wenzelm@12510
  1159
wenzelm@12307
  1160
ballarin@15696
  1161
(* register elements *)
ballarin@15696
  1162
ballarin@17000
  1163
(* not used
ballarin@15696
  1164
fun register_elems (((_, ps), (((name, ax_ps), axs), _)), ctxt) =
ballarin@15696
  1165
  if name = "" then ctxt
ballarin@15696
  1166
      else let val ps' = map (fn (n, SOME T) => Free (n, T)) ax_ps
ballarin@15696
  1167
          val ctxt' = put_local_registration (name, ps') ("", []) ctxt
ballarin@15696
  1168
        in foldl (fn (ax, ctxt) =>
ballarin@15696
  1169
          add_local_witness (name, ps') ax ctxt) ctxt' axs
ballarin@15696
  1170
        end;
ballarin@15696
  1171
ballarin@15696
  1172
fun register_elemss id_elemss ctxt = 
ballarin@15696
  1173
  foldl register_elems ctxt id_elemss;
ballarin@17000
  1174
*)
ballarin@15696
  1175
ballarin@15696
  1176
wenzelm@12529
  1177
(** prepare context elements **)
wenzelm@12529
  1178
wenzelm@12529
  1179
(* expressions *)
wenzelm@12529
  1180
wenzelm@16458
  1181
fun intern_expr thy (Locale xname) = Locale (intern thy xname)
wenzelm@16458
  1182
  | intern_expr thy (Merge exprs) = Merge (map (intern_expr thy) exprs)
wenzelm@16458
  1183
  | intern_expr thy (Rename (expr, xs)) = Rename (intern_expr thy expr, xs);
wenzelm@12529
  1184
wenzelm@12529
  1185
wenzelm@12529
  1186
(* parameters *)
wenzelm@12502
  1187
wenzelm@12502
  1188
local
wenzelm@12502
  1189
ballarin@16169
  1190
fun prep_parms prep_vars ctxt parms =
ballarin@16169
  1191
  let val vars = snd (foldl_map prep_vars (ctxt, map (fn (x, T) => ([x], T)) parms))
ballarin@16169
  1192
  in map (fn ([x'], T') => (x', T')) vars end;
wenzelm@12529
  1193
wenzelm@12529
  1194
in
wenzelm@12529
  1195
ballarin@16169
  1196
fun read_parms x = prep_parms ProofContext.read_vars x;
ballarin@16169
  1197
fun cert_parms x = prep_parms ProofContext.cert_vars x;
wenzelm@12529
  1198
wenzelm@12529
  1199
end;
wenzelm@12529
  1200
wenzelm@12529
  1201
wenzelm@12529
  1202
(* propositions and bindings *)
wenzelm@12529
  1203
ballarin@17000
  1204
(* flatten (ctxt, prep_expr) ((ids, syn), expr)
ballarin@17000
  1205
   normalises expr (which is either a locale
ballarin@14508
  1206
   expression or a single context element) wrt.
ballarin@14508
  1207
   to the list ids of already accumulated identifiers.
ballarin@16102
  1208
   It returns (ids', syn', elemss) where ids' is an extension of ids
ballarin@14508
  1209
   with identifiers generated for expr, and elemss is the list of
ballarin@16102
  1210
   context elements generated from expr.
ballarin@16102
  1211
   syn and syn' are symtabs mapping parameter names to their syntax.  syn'
ballarin@16102
  1212
   is an extension of syn.
ballarin@16102
  1213
   For details, see flatten_expr.
ballarin@16102
  1214
ballarin@15596
  1215
   Additionally, for a locale expression, the elems are grouped into a single
ballarin@15596
  1216
   Int; individual context elements are marked Ext.  In this case, the
ballarin@15596
  1217
   identifier-like information of the element is as follows:
ballarin@15596
  1218
   - for Fixes: (("", ps), []) where the ps have type info NONE
ballarin@15596
  1219
   - for other elements: (("", []), []).
ballarin@15206
  1220
   The implementation of activate_facts relies on identifier names being
ballarin@15206
  1221
   empty strings for external elements.
ballarin@15596
  1222
*)
ballarin@14508
  1223
ballarin@16102
  1224
fun flatten (ctxt, _) ((ids, syn), Elem (Fixes fixes)) = let
ballarin@17000
  1225
	val ids' = ids @ [(("", map #1 fixes), ([], Assumed []))]
ballarin@16102
  1226
      in
ballarin@16102
  1227
	((ids',
ballarin@16102
  1228
	 merge_syntax ctxt ids'
ballarin@16102
  1229
	   (syn, Symtab.make (map (fn fx => (#1 fx, #3 fx)) fixes))
ballarin@16102
  1230
	   handle Symtab.DUPS xs => err_in_locale ctxt
ballarin@16102
  1231
	     ("Conflicting syntax for parameters: " ^ commas_quote xs)
ballarin@16102
  1232
             (map #1 ids')),
ballarin@17000
  1233
	 [((("", map (rpair NONE o #1) fixes), Assumed []), Ext (Fixes fixes))])
ballarin@16102
  1234
      end
ballarin@16102
  1235
  | flatten _ ((ids, syn), Elem elem) =
ballarin@17000
  1236
      ((ids @ [(("", []), ([], Assumed []))], syn), [((("", []), Assumed []), Ext elem)])
ballarin@16102
  1237
  | flatten (ctxt, prep_expr) ((ids, syn), Expr expr) =
ballarin@16102
  1238
      apsnd (map (apsnd Int)) (flatten_expr ctxt ((ids, syn), prep_expr expr));
ballarin@14508
  1239
wenzelm@12529
  1240
local
wenzelm@12529
  1241
wenzelm@12839
  1242
local
wenzelm@12839
  1243
wenzelm@12727
  1244
fun declare_int_elem (ctxt, Fixes fixes) =
wenzelm@12575
  1245
      (ctxt |> ProofContext.add_fixes (map (fn (x, T, mx) =>
skalberg@15570
  1246
        (x, Option.map (Term.map_type_tfree (TypeInfer.param 0)) T, mx)) fixes), [])
wenzelm@12727
  1247
  | declare_int_elem (ctxt, _) = (ctxt, []);
wenzelm@12529
  1248
ballarin@16169
  1249
fun declare_ext_elem prep_parms (ctxt, Fixes fixes) =
ballarin@16169
  1250
      let
ballarin@16169
  1251
        val parms = map (fn (x, T, _) => (x, T)) fixes;
ballarin@16169
  1252
        val parms' = prep_parms ctxt parms;
ballarin@16169
  1253
        val fixes' = map (fn ((x, T), (_, _, mx)) => (x, T, mx)) (parms' ~~ fixes);
ballarin@16169
  1254
      in (ctxt |> ProofContext.add_fixes fixes', []) end
ballarin@16169
  1255
  | declare_ext_elem prep_parms (ctxt, Constrains csts) =
ballarin@16169
  1256
      let
ballarin@16169
  1257
        val parms = map (fn (x, T) => (x, SOME T)) csts;
ballarin@16169
  1258
        val parms' = prep_parms ctxt parms;
ballarin@16169
  1259
        val ts = map (fn (x, SOME T) => Free (x, T)) parms';
ballarin@16169
  1260
      in (Library.fold ProofContext.declare_term ts ctxt, []) end
wenzelm@12529
  1261
  | declare_ext_elem _ (ctxt, Assumes asms) = (ctxt, map #2 asms)
wenzelm@12529
  1262
  | declare_ext_elem _ (ctxt, Defines defs) = (ctxt, map (fn (_, (t, ps)) => [(t, (ps, []))]) defs)
wenzelm@12529
  1263
  | declare_ext_elem _ (ctxt, Notes facts) = (ctxt, []);
wenzelm@12529
  1264
ballarin@17000
  1265
fun declare_elems prep_parms (ctxt, (((name, ps), Assumed _), elems)) =
ballarin@17000
  1266
    let val (ctxt', propps) =
ballarin@17000
  1267
      (case elems of
ballarin@17000
  1268
        Int es => foldl_map declare_int_elem (ctxt, es)
ballarin@17000
  1269
      | Ext e => foldl_map (declare_ext_elem prep_parms) (ctxt, [e]))
ballarin@17000
  1270
      handle ProofContext.CONTEXT (msg, ctxt) =>
ballarin@17000
  1271
        err_in_locale ctxt msg [(name, map fst ps)]
ballarin@17000
  1272
    in (ctxt', propps) end
ballarin@17000
  1273
  | declare_elems _ (ctxt, ((_, Derived _), elems)) = (ctxt, []);
wenzelm@12727
  1274
wenzelm@12839
  1275
in
wenzelm@12839
  1276
ballarin@14215
  1277
(* CB: only called by prep_elemss. *)
ballarin@14215
  1278
ballarin@16169
  1279
fun declare_elemss prep_parms fixed_params raw_elemss ctxt =
wenzelm@12727
  1280
  let
ballarin@14215
  1281
    (* CB: fix of type bug of goal in target with context elements.
ballarin@14215
  1282
       Parameters new in context elements must receive types that are
ballarin@14215
  1283
       distinct from types of parameters in target (fixed_params).  *)
ballarin@14215
  1284
    val ctxt_with_fixed =
wenzelm@16028
  1285
      fold ProofContext.declare_term (map Free fixed_params) ctxt;
wenzelm@12727
  1286
    val int_elemss =
wenzelm@12727
  1287
      raw_elemss
skalberg@15570
  1288
      |> List.mapPartial (fn (id, Int es) => SOME (id, es) | _ => NONE)
ballarin@14215
  1289
      |> unify_elemss ctxt_with_fixed fixed_params;
wenzelm@12727
  1290
    val (_, raw_elemss') =
wenzelm@12727
  1291
      foldl_map (fn ((_, es) :: elemss, (id, Int _)) => (elemss, (id, Int es)) | x => x)
wenzelm@12727
  1292
        (int_elemss, raw_elemss);
ballarin@16169
  1293
  in foldl_map (declare_elems prep_parms) (ctxt, raw_elemss') end;
wenzelm@12529
  1294
wenzelm@12839
  1295
end;
wenzelm@12529
  1296
wenzelm@12839
  1297
local
wenzelm@12839
  1298
ballarin@15596
  1299
(* CB: normalise Assumes and Defines wrt. previous definitions *)
ballarin@14508
  1300
wenzelm@12839
  1301
val norm_term = Envir.beta_norm oo Term.subst_atomic;
wenzelm@12839
  1302
ballarin@17000
  1303
ballarin@15596
  1304
(* CB: following code (abstract_term, abstract_thm, bind_def)
ballarin@15596
  1305
   used in eval_text for Defines elements. *)
ballarin@15596
  1306
wenzelm@13336
  1307
fun abstract_term eq =    (*assumes well-formedness according to ProofContext.cert_def*)
wenzelm@12839
  1308
  let
wenzelm@12839
  1309
    val body = Term.strip_all_body eq;
wenzelm@12839
  1310
    val vars = map Free (Term.rename_wrt_term body (Term.strip_all_vars eq));
wenzelm@12839
  1311
    val (lhs, rhs) = Logic.dest_equals (Term.subst_bounds (vars, body));
wenzelm@12839
  1312
    val (f, xs) = Term.strip_comb lhs;
wenzelm@13336
  1313
    val eq' = Term.list_abs_free (map Term.dest_Free xs, rhs);
wenzelm@13336
  1314
  in (Term.dest_Free f, eq') end;
wenzelm@13336
  1315
wenzelm@16458
  1316
fun abstract_thm thy eq =
wenzelm@16458
  1317
  Thm.assume (Thm.cterm_of thy eq) |> Drule.gen_all |> Drule.abs_def;
wenzelm@12502
  1318
wenzelm@13336
  1319
fun bind_def ctxt (name, ps) ((xs, env, ths), eq) =
wenzelm@12839
  1320
  let
wenzelm@13336
  1321
    val ((y, T), b) = abstract_term eq;
wenzelm@13308
  1322
    val b' = norm_term env b;
wenzelm@16458
  1323
    val th = abstract_thm (ProofContext.theory_of ctxt) eq;
wenzelm@13308
  1324
    fun err msg = err_in_locale ctxt (msg ^ ": " ^ quote y) [(name, map fst ps)];
wenzelm@12839
  1325
  in
wenzelm@13308
  1326
    conditional (exists (equal y o #1) xs) (fn () =>
wenzelm@13308
  1327
      err "Attempt to define previously specified variable");
wenzelm@13308
  1328
    conditional (exists (fn (Free (y', _), _) => y = y' | _ => false) env) (fn () =>
wenzelm@13308
  1329
      err "Attempt to redefine variable");
wenzelm@16861
  1330
    (Term.add_frees b' xs, (Free (y, T), b') :: env, th :: ths)
wenzelm@12839
  1331
  end;
wenzelm@12575
  1332
ballarin@17000
  1333
ballarin@17000
  1334
(* CB: for finish_elems (Int and Ext),
ballarin@17000
  1335
   extracts specification, only of assumed elements *)
ballarin@15206
  1336
wenzelm@13308
  1337
fun eval_text _ _ _ (text, Fixes _) = text
ballarin@16169
  1338
  | eval_text _ _ _ (text, Constrains _) = text
ballarin@17000
  1339
  | eval_text _ (_, Assumed _) is_ext ((((exts, exts'), (ints, ints')), (xs, env, defs)), Assumes asms) =
wenzelm@13394
  1340
      let
skalberg@15570
  1341
        val ts = List.concat (map (map #1 o #2) asms);
wenzelm@13394
  1342
        val ts' = map (norm_term env) ts;
wenzelm@13394
  1343
        val spec' =
wenzelm@13394
  1344
          if is_ext then ((exts @ ts, exts' @ ts'), (ints, ints'))
wenzelm@13394
  1345
          else ((exts, exts'), (ints @ ts, ints' @ ts'));
wenzelm@16861
  1346
      in (spec', (fold Term.add_frees ts' xs, env, defs)) end
ballarin@17000
  1347
  | eval_text _ (_, Derived _) _ (text, Assumes _) = text
ballarin@17000
  1348
  | eval_text ctxt (id, Assumed _) _ ((spec, binds), Defines defs) =
skalberg@15570
  1349
      (spec, Library.foldl (bind_def ctxt id) (binds, map (#1 o #2) defs))
ballarin@17000
  1350
  | eval_text _ (_, Derived _) _ (text, Defines _) = text
wenzelm@13308
  1351
  | eval_text _ _ _ (text, Notes _) = text;
wenzelm@13308
  1352
ballarin@17000
  1353
ballarin@17000
  1354
(* for finish_elems (Int),
ballarin@17000
  1355
   remove redundant elements of derived identifiers,
ballarin@17000
  1356
   turn assumptions and definitions into facts,
ballarin@17000
  1357
   adjust hypotheses of facts using witness theorems *)
ballarin@17000
  1358
ballarin@17096
  1359
fun finish_derived _ wits _ (Notes facts) = (Notes facts)
ballarin@17096
  1360
      |> map_values I I (Drule.satisfy_hyps wits) |> SOME;
ballarin@17096
  1361
ballarin@17096
  1362
fun finish_derived _ _ (Assumed _) (Fixes fixes) = SOME (Fixes fixes)
ballarin@17096
  1363
  | finish_derived _ _ (Assumed _) (Constrains csts) = SOME (Constrains csts)
ballarin@17096
  1364
  | finish_derived _ _ (Assumed _) (Assumes asms) = SOME (Assumes asms)
ballarin@17096
  1365
  | finish_derived _ _ (Assumed _) (Defines defs) = SOME (Defines defs)
ballarin@17096
  1366
ballarin@17000
  1367
  | finish_derived _ _ (Derived _) (Fixes _) = NONE
ballarin@17000
  1368
  | finish_derived _ _ (Derived _) (Constrains _) = NONE
ballarin@17000
  1369
  | finish_derived sign wits (Derived _) (Assumes asms) = asms
ballarin@17096
  1370
      |> map (apsnd (map (fn (a, _) => ([Thm.assume (cterm_of sign a)], []))))
ballarin@17096
  1371
      |> Notes |> map_values I I (Drule.satisfy_hyps wits) |> SOME
ballarin@17000
  1372
  | finish_derived sign wits (Derived _) (Defines defs) = defs
ballarin@17096
  1373
      |> map (apsnd (fn (d, _) => [([Thm.assume (cterm_of sign d)], [])]))
ballarin@17096
  1374
      |> Notes |> map_values I I (Drule.satisfy_hyps wits) |> SOME
ballarin@17000
  1375
ballarin@17096
  1376
  | finish_derived _ wits _ (Notes facts) = (Notes facts)
ballarin@17096
  1377
      |> map_values I I (Drule.satisfy_hyps wits) |> SOME;
ballarin@17000
  1378
ballarin@15206
  1379
(* CB: for finish_elems (Ext) *)
ballarin@15206
  1380
wenzelm@13308
  1381
fun closeup _ false elem = elem
wenzelm@13308
  1382
  | closeup ctxt true elem =
wenzelm@12839
  1383
      let
wenzelm@13308
  1384
        fun close_frees t =
wenzelm@13308
  1385
          let val frees = rev (filter_out (ProofContext.is_fixed ctxt o #1)
wenzelm@16861
  1386
            (Term.add_frees t []))
wenzelm@13308
  1387
          in Term.list_all_free (frees, t) end;
wenzelm@13308
  1388
wenzelm@13308
  1389
        fun no_binds [] = []
wenzelm@13308
  1390
          | no_binds _ =
wenzelm@13308
  1391
              raise ProofContext.CONTEXT ("Illegal term bindings in locale element", ctxt);
wenzelm@13308
  1392
      in
wenzelm@13308
  1393
        (case elem of
wenzelm@13308
  1394
          Assumes asms => Assumes (asms |> map (fn (a, propps) =>
wenzelm@13308
  1395
            (a, map (fn (t, (ps, qs)) => (close_frees t, (no_binds ps, no_binds qs))) propps)))
wenzelm@13308
  1396
        | Defines defs => Defines (defs |> map (fn (a, (t, ps)) =>
wenzelm@13308
  1397
            (a, (close_frees (#2 (ProofContext.cert_def ctxt t)), no_binds ps))))
wenzelm@13308
  1398
        | e => e)
wenzelm@13308
  1399
      end;
wenzelm@12839
  1400
wenzelm@12502
  1401
wenzelm@12839
  1402
fun finish_ext_elem parms _ (Fixes fixes, _) = Fixes (map (fn (x, _, mx) =>
wenzelm@12727
  1403
      (x, assoc_string (parms, x), mx)) fixes)
ballarin@16169
  1404
  | finish_ext_elem parms _ (Constrains csts, _) =
ballarin@16169
  1405
      Constrains (map (fn (x, _) => (x, valOf (assoc_string (parms, x)))) csts)
wenzelm@12839
  1406
  | finish_ext_elem _ close (Assumes asms, propp) =
wenzelm@12839
  1407
      close (Assumes (map #1 asms ~~ propp))
wenzelm@12839
  1408
  | finish_ext_elem _ close (Defines defs, propp) =
wenzelm@12727
  1409
      close (Defines (map #1 defs ~~ map (fn [(t, (ps, []))] => (t, ps)) propp))
wenzelm@12839
  1410
  | finish_ext_elem _ _ (Notes facts, _) = Notes facts;
wenzelm@12839
  1411
ballarin@17000
  1412
ballarin@15206
  1413
(* CB: finish_parms introduces type info from parms to identifiers *)
skalberg@15531
  1414
(* CB: only needed for types that have been NONE so far???
ballarin@15206
  1415
   If so, which are these??? *)
ballarin@15206
  1416
ballarin@17000
  1417
fun finish_parms parms (((name, ps), mode), elems) =
ballarin@17000
  1418
  (((name, map (fn (x, _) => (x, assoc (parms, x))) ps), mode), elems);
wenzelm@12839
  1419
ballarin@17000
  1420
fun finish_elems ctxt parms _ ((text, wits), ((id, Int e), _)) =
wenzelm@12839
  1421
      let
ballarin@17000
  1422
        val [(id' as (_, mode), es)] = unify_elemss ctxt parms [(id, e)];
ballarin@17000
  1423
        val wits' = case mode of Assumed _ => wits | Derived ths => wits @ ths;
skalberg@15570
  1424
        val text' = Library.foldl (eval_text ctxt id' false) (text, es);
ballarin@17000
  1425
        val es' = List.mapPartial
ballarin@17000
  1426
              (finish_derived (ProofContext.theory_of ctxt) wits' mode) es;
ballarin@17000
  1427
      in ((text', wits'), (id', map Int es')) end
ballarin@17000
  1428
  | finish_elems ctxt parms do_close ((text, wits), ((id, Ext e), [propp])) =
wenzelm@13308
  1429
      let
wenzelm@13308
  1430
        val e' = finish_ext_elem parms (closeup ctxt do_close) (e, propp);
wenzelm@13375
  1431
        val text' = eval_text ctxt id true (text, e');
ballarin@17000
  1432
      in ((text', wits), (id, [Ext e'])) end
wenzelm@12839
  1433
wenzelm@12839
  1434
in
wenzelm@12510
  1435
ballarin@15206
  1436
(* CB: only called by prep_elemss *)
ballarin@15206
  1437
wenzelm@13375
  1438
fun finish_elemss ctxt parms do_close =
wenzelm@13375
  1439
  foldl_map (apsnd (finish_parms parms) o finish_elems ctxt parms do_close);
wenzelm@12839
  1440
wenzelm@12839
  1441
end;
wenzelm@12839
  1442
ballarin@16736
  1443
ballarin@16736
  1444
(* CB: type inference and consistency checks for locales.
ballarin@16736
  1445
ballarin@16736
  1446
   Works by building a context (through declare_elemss), extracting the
ballarin@16736
  1447
   required information and adjusting the context elements (finish_elemss).
ballarin@16736
  1448
   Can also universally close free vars in assms and defs.  This is only
ballarin@17000
  1449
   needed for Ext elements and controlled by parameter do_close.
ballarin@17000
  1450
ballarin@17000
  1451
   Only elements of assumed identifiers are considered.
ballarin@16736
  1452
*)
ballarin@15127
  1453
ballarin@16169
  1454
fun prep_elemss prep_parms prepp do_close context fixed_params raw_elemss raw_concl =
wenzelm@12529
  1455
  let
ballarin@15127
  1456
    (* CB: contexts computed in the course of this function are discarded.
ballarin@15127
  1457
       They are used for type inference and consistency checks only. *)
ballarin@15206
  1458
    (* CB: fixed_params are the parameters (with types) of the target locale,
ballarin@15206
  1459
       empty list if there is no target. *)
ballarin@14508
  1460
    (* CB: raw_elemss are list of pairs consisting of identifiers and
ballarin@14508
  1461
       context elements, the latter marked as internal or external. *)
ballarin@16169
  1462
    val (raw_ctxt, raw_proppss) = declare_elemss prep_parms fixed_params raw_elemss context;
ballarin@14508
  1463
    (* CB: raw_ctxt is context with additional fixed variables derived from
ballarin@14508
  1464
       the fixes elements in raw_elemss,
ballarin@14508
  1465
       raw_proppss contains assumptions and definitions from the
ballarin@15206
  1466
       external elements in raw_elemss. *)
skalberg@15570
  1467
    val raw_propps = map List.concat raw_proppss;
skalberg@15570
  1468
    val raw_propp = List.concat raw_propps;
ballarin@15206
  1469
wenzelm@16028
  1470
    (* CB: add type information from fixed_params to context (declare_term) *)
ballarin@15206
  1471
    (* CB: process patterns (conclusion and external elements only) *)
wenzelm@12529
  1472
    val (ctxt, all_propp) =
wenzelm@16028
  1473
      prepp (fold ProofContext.declare_term (map Free fixed_params) raw_ctxt, raw_concl @ raw_propp);
ballarin@15206
  1474
    (* CB: add type information from conclusion and external elements
ballarin@15206
  1475
       to context *)
wenzelm@16028
  1476
    val ctxt = fold ProofContext.declare_term (List.concat (map (map fst) all_propp)) ctxt;
wenzelm@12502
  1477
ballarin@15206
  1478
    (* CB: resolve schematic variables (patterns) in conclusion and external
ballarin@15206
  1479
       elements. *)
wenzelm@12529
  1480
    val all_propp' = map2 (op ~~)
wenzelm@12529
  1481
      (#1 (#2 (ProofContext.bind_propp_schematic_i (ctxt, all_propp))), map (map snd) all_propp);
nipkow@13629
  1482
    val (concl, propp) = splitAt(length raw_concl, all_propp');
wenzelm@12529
  1483
    val propps = unflat raw_propps propp;
wenzelm@12839
  1484
    val proppss = map (uncurry unflat) (raw_proppss ~~ propps);
wenzelm@12502
  1485
ballarin@15206
  1486
    (* CB: obtain all parameters from identifier part of raw_elemss *)
ballarin@15206
  1487
    val xs = map #1 (params_of' raw_elemss);
wenzelm@12727
  1488
    val typing = unify_frozen ctxt 0
wenzelm@12529
  1489
      (map (ProofContext.default_type raw_ctxt) xs)
wenzelm@12529
  1490
      (map (ProofContext.default_type ctxt) xs);
wenzelm@12529
  1491
    val parms = param_types (xs ~~ typing);
ballarin@14508
  1492
    (* CB: parms are the parameters from raw_elemss, with correct typing. *)
wenzelm@12273
  1493
ballarin@14508
  1494
    (* CB: extract information from assumes and defines elements
ballarin@16169
  1495
       (fixes, constrains and notes in raw_elemss don't have an effect on
ballarin@16169
  1496
       text and elemss), compute final form of context elements. *)
ballarin@17000
  1497
    val ((text, _), elemss) = finish_elemss ctxt parms do_close
ballarin@17000
  1498
      ((((([], []), ([], [])), ([], [], [])), []), raw_elemss ~~ proppss);
ballarin@14508
  1499
    (* CB: text has the following structure:
ballarin@14508
  1500
           (((exts, exts'), (ints, ints')), (xs, env, defs))
ballarin@14508
  1501
       where
ballarin@14508
  1502
         exts: external assumptions (terms in external assumes elements)
ballarin@14508
  1503
         exts': dito, normalised wrt. env
ballarin@14508
  1504
         ints: internal assumptions (terms in internal assumes elements)
ballarin@14508
  1505
         ints': dito, normalised wrt. env
ballarin@14508
  1506
         xs: the free variables in exts' and ints' and rhss of definitions,
ballarin@14508
  1507
           this includes parameters except defined parameters
ballarin@14508
  1508
         env: list of term pairs encoding substitutions, where the first term
ballarin@14508
  1509
           is a free variable; substitutions represent defines elements and
ballarin@14508
  1510
           the rhs is normalised wrt. the previous env
ballarin@14508
  1511
         defs: theorems representing the substitutions from defines elements
ballarin@14508
  1512
           (thms are normalised wrt. env).
ballarin@14508
  1513
       elemss is an updated version of raw_elemss:
ballarin@16169
  1514
         - type info added to Fixes and modified in Constrains
ballarin@14508
  1515
         - axiom and definition statement replaced by corresponding one
ballarin@14508
  1516
           from proppss in Assumes and Defines
ballarin@14508
  1517
         - Facts unchanged
ballarin@14508
  1518
       *)
wenzelm@13308
  1519
  in ((parms, elemss, concl), text) end;
wenzelm@12502
  1520
wenzelm@12502
  1521
in
wenzelm@12502
  1522
ballarin@16169
  1523
fun read_elemss x = prep_elemss read_parms ProofContext.read_propp_schematic x;
ballarin@16169
  1524
fun cert_elemss x = prep_elemss cert_parms ProofContext.cert_propp_schematic x;
wenzelm@12529
  1525
wenzelm@12529
  1526
end;
wenzelm@12529
  1527
wenzelm@12529
  1528
wenzelm@15703
  1529
(* facts and attributes *)
wenzelm@12529
  1530
wenzelm@12529
  1531
local
wenzelm@12529
  1532
wenzelm@15703
  1533
fun prep_name ctxt name =
ballarin@15206
  1534
  (* CB: reject qualified theorem names in locale declarations *)
wenzelm@12529
  1535
  if NameSpace.is_qualified name then
wenzelm@12529
  1536
    raise ProofContext.CONTEXT ("Illegal qualified name: " ^ quote name, ctxt)
wenzelm@15703
  1537
  else name;
wenzelm@12529
  1538
wenzelm@15703
  1539
fun prep_facts _ _ ctxt (Int elem) =
wenzelm@15703
  1540
      map_values I I (Thm.transfer (ProofContext.theory_of ctxt)) elem
wenzelm@15703
  1541
  | prep_facts get intern ctxt (Ext elem) = elem |> map_elem
wenzelm@15703
  1542
     {var = I, typ = I, term = I,
wenzelm@15703
  1543
      name = prep_name ctxt,
wenzelm@15703
  1544
      fact = get ctxt,
wenzelm@16458
  1545
      attrib = Args.assignable o intern (ProofContext.theory_of ctxt)};
wenzelm@12529
  1546
wenzelm@12529
  1547
in
wenzelm@12529
  1548
wenzelm@15703
  1549
fun read_facts x = prep_facts ProofContext.get_thms Attrib.intern_src x;
wenzelm@15703
  1550
fun cert_facts x = prep_facts (K I) (K I) x;
wenzelm@12529
  1551
wenzelm@12529
  1552
end;
wenzelm@12529
  1553
wenzelm@12529
  1554
wenzelm@12546
  1555
(* full context statements: import + elements + conclusion *)
wenzelm@12529
  1556
wenzelm@12529
  1557
local
wenzelm@12529
  1558
wenzelm@12529
  1559
fun prep_context_statement prep_expr prep_elemss prep_facts
ballarin@15206
  1560
    do_close fixed_params import elements raw_concl context =
wenzelm@12529
  1561
  let
wenzelm@16458
  1562
    val thy = ProofContext.theory_of context;
wenzelm@13375
  1563
wenzelm@16458
  1564
    val ((import_ids, import_syn), raw_import_elemss) =
wenzelm@16458
  1565
      flatten (context, prep_expr thy) (([], Symtab.empty), Expr import);
ballarin@14215
  1566
    (* CB: normalise "includes" among elements *)
wenzelm@16458
  1567
    val ((ids, syn), raw_elemsss) = foldl_map (flatten (context, prep_expr thy))
ballarin@16102
  1568
      ((import_ids, import_syn), elements);
ballarin@15696
  1569
ballarin@15696
  1570
    val raw_elemss = List.concat raw_elemsss;
ballarin@14508
  1571
    (* CB: raw_import_elemss @ raw_elemss is the normalised list of
ballarin@14508
  1572
       context elements obtained from import and elements. *)
wenzelm@13375
  1573
    val ((parms, all_elemss, concl), (spec, (_, _, defs))) = prep_elemss do_close
wenzelm@13336
  1574
      context fixed_params (raw_import_elemss @ raw_elemss) raw_concl;
ballarin@15696
  1575
    (* replace extended ids (for axioms) by ids *)
ballarin@17000
  1576
    val all_elemss' = map (fn (((_, ps), _), (((n, ps'), mode), elems)) =>
ballarin@17000
  1577
        (((n, map (fn p => (p, assoc (ps', p) |> valOf)) ps), mode), elems))
ballarin@15696
  1578
      (ids ~~ all_elemss);
ballarin@15696
  1579
ballarin@15206
  1580
    (* CB: all_elemss and parms contain the correct parameter types *)
ballarin@15696
  1581
    val (ps,qs) = splitAt(length raw_import_elemss, all_elemss')
ballarin@15206
  1582
    val (import_ctxt, (import_elemss, _)) =
ballarin@15206
  1583
      activate_facts prep_facts (context, ps);
ballarin@14215
  1584
ballarin@15206
  1585
    val (ctxt, (elemss, _)) =
ballarin@15206
  1586
      activate_facts prep_facts (import_ctxt, qs);
ballarin@15212
  1587
    val stmt = gen_distinct Term.aconv
ballarin@17000
  1588
       (List.concat (map (fn ((_, Assumed axs), _) =>
ballarin@17000
  1589
         List.concat (map (#hyps o Thm.rep_thm) axs)
ballarin@17000
  1590
                           | ((_, Derived _), _) => []) qs));
wenzelm@16458
  1591
    val cstmt = map (cterm_of thy) stmt;
wenzelm@12834
  1592
  in
ballarin@16102
  1593
    ((((import_ctxt, import_elemss), (ctxt, elemss, syn)), (parms, spec, defs)), (cstmt, concl))
wenzelm@12834
  1594
  end;
wenzelm@12529
  1595
wenzelm@15703
  1596
val gen_context = prep_context_statement intern_expr read_elemss read_facts;
wenzelm@15703
  1597
val gen_context_i = prep_context_statement (K I) cert_elemss cert_facts;
wenzelm@12529
  1598
wenzelm@12529
  1599
fun gen_statement prep_locale prep_ctxt raw_locale elems concl ctxt =
wenzelm@12529
  1600
  let
wenzelm@12529
  1601
    val thy = ProofContext.theory_of ctxt;
wenzelm@16458
  1602
    val locale = Option.map (prep_locale thy) raw_locale;
ballarin@15206
  1603
    val (target_stmt, fixed_params, import) =
skalberg@15531
  1604
      (case locale of NONE => ([], [], empty)
skalberg@15531
  1605
      | SOME name =>
ballarin@15206
  1606
          let val {predicate = (stmt, _), params = (ps, _), ...} =
ballarin@15206
  1607
            the_locale thy name
ballarin@16620
  1608
          in (stmt, map fst ps, Locale name) end);
ballarin@16102
  1609
    val ((((locale_ctxt, locale_elemss), (elems_ctxt, _, _)), _), (elems_stmt, concl')) =
ballarin@15206
  1610
      prep_ctxt false fixed_params import elems concl ctxt;
ballarin@15206
  1611
  in (locale, (target_stmt, elems_stmt), locale_ctxt, elems_ctxt, concl') end;
wenzelm@13399
  1612
wenzelm@12529
  1613
in
wenzelm@12529
  1614
ballarin@15127
  1615
(* CB: processing of locales for add_locale(_i) and print_locale *)
ballarin@15127
  1616
  (* CB: arguments are: x->import, y->body (elements), z->context *)
ballarin@15206
  1617
fun read_context x y z = #1 (gen_context true [] x (map Elem y) [] z);
ballarin@15206
  1618
fun cert_context x y z = #1 (gen_context_i true [] x (map Elem y) [] z);
ballarin@14215
  1619
ballarin@15127
  1620
(* CB: processing of locales for note_thmss(_i),
ballarin@15127
  1621
   Proof.multi_theorem(_i) and antiquotations with option "locale" *)
wenzelm@12529
  1622
val read_context_statement = gen_statement intern gen_context;
wenzelm@12529
  1623
val cert_context_statement = gen_statement (K I) gen_context_i;
wenzelm@12502
  1624
wenzelm@12502
  1625
end;
wenzelm@11896
  1626
wenzelm@11896
  1627
wenzelm@13336
  1628
(** define locales **)
wenzelm@13336
  1629
wenzelm@13336
  1630
(* print locale *)
wenzelm@12070
  1631
wenzelm@12758
  1632
fun print_locale thy import body =
wenzelm@12070
  1633
  let
wenzelm@12289
  1634
    val thy_ctxt = ProofContext.init thy;
ballarin@16102
  1635
    val (((_, import_elemss), (ctxt, elemss, _)), _) = read_context import body thy_ctxt;
skalberg@15570
  1636
    val all_elems = List.concat (map #2 (import_elemss @ elemss));
wenzelm@12070
  1637
wenzelm@12307
  1638
    val prt_typ = Pretty.quote o ProofContext.pretty_typ ctxt;
wenzelm@12307
  1639
    val prt_term = Pretty.quote o ProofContext.pretty_term ctxt;
wenzelm@12307
  1640
    val prt_thm = Pretty.quote o ProofContext.pretty_thm ctxt;
wenzelm@15703
  1641
    val prt_atts = Args.pretty_attribs ctxt;
wenzelm@12070
  1642
wenzelm@12070
  1643
    fun prt_syn syn =
skalberg@15531
  1644
      let val s = (case syn of NONE => "(structure)" | SOME mx => Syntax.string_of_mixfix mx)
wenzelm@12575
  1645
      in if s = "" then [] else [Pretty.brk 2, Pretty.str s] end;
skalberg@15531
  1646
    fun prt_fix (x, SOME T, syn) = Pretty.block (Pretty.str (x ^ " ::") :: Pretty.brk 1 ::
wenzelm@12070
  1647
          prt_typ T :: Pretty.brk 1 :: prt_syn syn)
skalberg@15531
  1648
      | prt_fix (x, NONE, syn) = Pretty.block (Pretty.str x :: Pretty.brk 1 :: prt_syn syn);
ballarin@16169
  1649
    fun prt_cst (x, T) = Pretty.block [Pretty.str (x ^ " ::"), prt_typ T];
wenzelm@12070
  1650
wenzelm@16346
  1651
    fun prt_name name = Pretty.str (ProofContext.extern_thm ctxt name);
wenzelm@15703
  1652
    fun prt_name_atts (name, atts) =
wenzelm@15703
  1653
      if name = "" andalso null atts then []
wenzelm@15703
  1654
      else [Pretty.block (Pretty.breaks (prt_name name :: prt_atts atts @ [Pretty.str ":"]))];
wenzelm@15703
  1655
wenzelm@15703
  1656
    fun prt_asm (a, ts) =
wenzelm@15703
  1657
      Pretty.block (Pretty.breaks (prt_name_atts a @ map (prt_term o fst) ts));
wenzelm@15703
  1658
    fun prt_def (a, (t, _)) =
wenzelm@15703
  1659
      Pretty.block (Pretty.breaks (prt_name_atts a @ [prt_term t]));
wenzelm@15703
  1660
wenzelm@15703
  1661
    fun prt_fact (ths, []) = map prt_thm ths
wenzelm@15703
  1662
      | prt_fact (ths, atts) =
wenzelm@15703
  1663
          Pretty.enclose "(" ")" (Pretty.breaks (map prt_thm ths)) :: prt_atts atts;
wenzelm@15703
  1664
    fun prt_note (a, ths) =
wenzelm@15703
  1665
      Pretty.block (Pretty.breaks (List.concat (prt_name_atts a :: map prt_fact ths)));
wenzelm@12070
  1666
wenzelm@12289
  1667
    fun items _ [] = []
wenzelm@12289
  1668
      | items prfx (x :: xs) = Pretty.block [Pretty.str prfx, Pretty.brk 1, x] :: items "  and" xs;
wenzelm@12289
  1669
    fun prt_elem (Fixes fixes) = items "fixes" (map prt_fix fixes)
ballarin@16169
  1670
      | prt_elem (Constrains csts) = items "constrains" (map prt_cst csts)
wenzelm@12289
  1671
      | prt_elem (Assumes asms) = items "assumes" (map prt_asm asms)
wenzelm@12289
  1672
      | prt_elem (Defines defs) = items "defines" (map prt_def defs)
wenzelm@15703
  1673
      | prt_elem (Notes facts) = items "notes" (map prt_note facts);
wenzelm@12277
  1674
  in
wenzelm@13336
  1675
    Pretty.big_list "context elements:" (map (Pretty.chunks o prt_elem) all_elems)
wenzelm@13336
  1676
    |> Pretty.writeln
wenzelm@12277
  1677
  end;
wenzelm@12070
  1678
wenzelm@12070
  1679
wenzelm@12706
  1680
wenzelm@16144
  1681
(** store results **)
wenzelm@12702
  1682
wenzelm@16144
  1683
(* note_thmss_qualified *)
ballarin@15696
  1684
wenzelm@14564
  1685
fun note_thmss_qualified kind name args thy =
wenzelm@12706
  1686
  thy
wenzelm@13375
  1687
  |> Theory.add_path (Sign.base_name name)
wenzelm@16144
  1688
  |> Theory.no_base_names
wenzelm@14564
  1689
  |> PureThy.note_thmss_i (Drule.kind kind) args
wenzelm@16144
  1690
  |>> Theory.restore_naming thy;
wenzelm@16144
  1691
wenzelm@12706
  1692
ballarin@15696
  1693
(* accesses of interpreted theorems *)
ballarin@15696
  1694
wenzelm@16144
  1695
local
wenzelm@16144
  1696
wenzelm@16144
  1697
(*fully qualified name in theory is T.p.r.n where
wenzelm@16144
  1698
  T: theory name, p: interpretation prefix, r: renaming prefix, n: name*)
wenzelm@16144
  1699
fun global_accesses _ [] = []
wenzelm@16144
  1700
  | global_accesses "" [T, n] = [[T, n], [n]]
wenzelm@16144
  1701
  | global_accesses "" [T, r, n] = [[T, r, n], [T, n], [r, n], [n]]
wenzelm@16144
  1702
  | global_accesses _ [T, p, n] = [[T, p, n], [p, n]]
wenzelm@16144
  1703
  | global_accesses _ [T, p, r, n] = [[T, p, r, n], [T, p, n], [p, r, n], [p, n]]
wenzelm@16144
  1704
  | global_accesses _ names = error ("Bad name declaration " ^ quote (NameSpace.pack names));
ballarin@15696
  1705
wenzelm@16144
  1706
(*fully qualified name in context is p.r.n where
wenzelm@16144
  1707
  p: interpretation prefix, r: renaming prefix, n: name*)
wenzelm@16144
  1708
fun local_accesses _ [] = []
wenzelm@16144
  1709
  | local_accesses "" [n] = [[n]]
wenzelm@16144
  1710
  | local_accesses "" [r, n] = [[r, n], [n]]
wenzelm@16144
  1711
  | local_accesses _ [p, n] = [[p, n]]
wenzelm@16144
  1712
  | local_accesses _ [p, r, n] = [[p, r, n], [p, n]]
wenzelm@16144
  1713
  | local_accesses _ names = error ("Bad name declaration " ^ quote (NameSpace.pack names));
wenzelm@16144
  1714
wenzelm@16144
  1715
in
ballarin@15696
  1716
wenzelm@16144
  1717
fun global_note_accesses_i kind prfx args thy =
wenzelm@16144
  1718
  thy
wenzelm@16144
  1719
  |> Theory.qualified_names
wenzelm@16144
  1720
  |> Theory.custom_accesses (global_accesses prfx)
wenzelm@16144
  1721
  |> PureThy.note_thmss_i kind args
wenzelm@16144
  1722
  |>> Theory.restore_naming thy;
ballarin@15696
  1723
wenzelm@16144
  1724
fun local_note_accesses_i prfx args ctxt =
wenzelm@16144
  1725
  ctxt
wenzelm@16144
  1726
  |> ProofContext.qualified_names
wenzelm@16144
  1727
  |> ProofContext.custom_accesses (local_accesses prfx)
wenzelm@16144
  1728
  |> ProofContext.note_thmss_i args
wenzelm@16144
  1729
  |>> ProofContext.restore_naming ctxt;
wenzelm@16144
  1730
wenzelm@16144
  1731
end;
ballarin@15696
  1732
ballarin@15696
  1733
ballarin@15696
  1734
(* store instantiations of args for all registered interpretations
ballarin@15696
  1735
   of the theory *)
ballarin@15696
  1736
ballarin@15696
  1737
fun note_thmss_registrations kind target args thy =
ballarin@15596
  1738
  let
ballarin@16620
  1739
    val (parms, parmTs) =
ballarin@16102
  1740
          the_locale thy target |> #params |> fst |> map fst |> split_list;
ballarin@16620
  1741
    val parmvTs = map Type.varifyT parmTs;
wenzelm@16458
  1742
    val ids = flatten (ProofContext.init thy, intern_expr thy)
ballarin@17033
  1743
      (([], Symtab.empty), Expr (Locale target)) |> fst |> fst
ballarin@17033
  1744
      |> List.mapPartial (fn (id, (_, Assumed _)) => SOME id | _ => NONE)
ballarin@15696
  1745
ballarin@15696
  1746
    val regs = get_global_registrations thy target;
ballarin@15696
  1747
ballarin@15696
  1748
    (* add args to thy for all registrations *)
ballarin@15596
  1749
ballarin@15696
  1750
    fun activate (thy, (vts, ((prfx, atts2), _))) =
ballarin@15696
  1751
      let
ballarin@15696
  1752
        val ts = map Logic.unvarify vts;
ballarin@15696
  1753
        (* type instantiation *)
wenzelm@16947
  1754
        val vtinst = fold (Sign.typ_match thy) (parmvTs ~~ map Term.fastype_of ts) Vartab.empty;
berghofe@15798
  1755
        val tinst = Vartab.dest vtinst |> map (fn ((x, 0), (_, T)) => (x, T))
ballarin@15696
  1756
             |> Symtab.make;            
ballarin@15696
  1757
        (* replace parameter names in ids by instantiations *)
ballarin@15696
  1758
        val vinst = Symtab.make (parms ~~ vts);
ballarin@15696
  1759
        fun vinst_names ps = map (fn p => Symtab.lookup (vinst, p) |> valOf) ps;
ballarin@15696
  1760
        val inst = Symtab.make (parms ~~ ts);
ballarin@15696
  1761
        val ids' = map (apsnd vinst_names) ids;
ballarin@15696
  1762
        val prems = List.concat (map (snd o valOf o get_global_registration thy) ids');
ballarin@15696
  1763
        val args' = map (fn ((n, atts), [(ths, [])]) =>
ballarin@17033
  1764
            ((NameSpace.qualified prfx n,
wenzelm@15703
  1765
              map (Attrib.global_attribute_i thy) (atts @ atts2)),
wenzelm@16458
  1766
             [(map (Drule.standard o Drule.satisfy_hyps prems o inst_tab_thm thy (inst, tinst)) ths, [])]))
ballarin@15696
  1767
          args;
wenzelm@16144
  1768
      in global_note_accesses_i (Drule.kind kind) prfx args' thy |> fst end;
ballarin@15696
  1769
  in Library.foldl activate (thy, regs) end;
ballarin@15596
  1770
ballarin@15596
  1771
skalberg@15531
  1772
fun smart_note_thmss kind NONE = PureThy.note_thmss_i (Drule.kind kind)
wenzelm@15703
  1773
  | smart_note_thmss kind (SOME loc) = note_thmss_qualified kind loc;
wenzelm@12958
  1774
wenzelm@12958
  1775
wenzelm@12958
  1776
local
wenzelm@12958
  1777
ballarin@15696
  1778
(* add facts to locale in theory *)
ballarin@15696
  1779
wenzelm@12958
  1780
fun put_facts loc args thy =
wenzelm@12958
  1781
  let
ballarin@16736
  1782
    val {predicate, import, elems, params, regs} = the_locale thy loc;
wenzelm@15703
  1783
    val note = Notes (map (fn ((a, atts), bs) =>
wenzelm@15703
  1784
      ((a, atts), map (apfst (map (curry Thm.name_thm a))) bs)) args);
wenzelm@15703
  1785
  in
wenzelm@15703
  1786
    thy |> put_locale loc {predicate = predicate, import = import,
ballarin@16736
  1787
      elems = elems @ [(note, stamp ())], params = params, regs = regs}
wenzelm@15703
  1788
  end;
wenzelm@12958
  1789
ballarin@15696
  1790
(* add theorem to locale and theory,
ballarin@15696
  1791
   base for theorems (in loc) and declare (in loc) *)
ballarin@15696
  1792
wenzelm@15703
  1793
fun gen_note_thmss prep_locale prep_facts kind raw_loc args thy =
wenzelm@12706
  1794
  let
wenzelm@12706
  1795
    val thy_ctxt = ProofContext.init thy;
wenzelm@16458
  1796
    val loc = prep_locale thy raw_loc;
wenzelm@15703
  1797
    val (_, (stmt, _), loc_ctxt, _, _) = cert_context_statement (SOME loc) [] [] thy_ctxt;
ballarin@15206
  1798
    val export = ProofContext.export_standard stmt loc_ctxt thy_ctxt;
wenzelm@15703
  1799
wenzelm@17109
  1800
    val (ctxt', (args', facts)) = activate_note prep_facts (loc_ctxt, args);
wenzelm@15703
  1801
    val facts' =
wenzelm@15703
  1802
      map (rpair [] o #1 o #1) args' ~~
wenzelm@15703
  1803
      map (single o Thm.no_attributes o map export o #2) facts;
wenzelm@17109
  1804
wenzelm@17109
  1805
    val (thy', result) =
wenzelm@17109
  1806
      thy
wenzelm@17109
  1807
      |> put_facts loc args'
wenzelm@17109
  1808
      |> note_thmss_registrations kind loc args'
wenzelm@17109
  1809
      |> note_thmss_qualified kind loc facts';
wenzelm@17109
  1810
  in ((thy', ctxt'), result) end;
wenzelm@12706
  1811
wenzelm@12706
  1812
in
wenzelm@12706
  1813
wenzelm@15703
  1814
val note_thmss = gen_note_thmss intern read_facts;
wenzelm@15703
  1815
val note_thmss_i = gen_note_thmss (K I) cert_facts;
wenzelm@12711
  1816
ballarin@15696
  1817
fun add_thmss kind loc args (thy, ctxt) =
wenzelm@12958
  1818
  let
wenzelm@15703
  1819
    val (ctxt', (args', facts)) = activate_note cert_facts
wenzelm@15703
  1820
      (ctxt, args |> map (fn ((a, ths), atts) => ((a, atts), [(ths, [])])));
wenzelm@15703
  1821
    val thy' =
wenzelm@15703
  1822
      thy
wenzelm@15703
  1823
      |> put_facts loc args'
wenzelm@15703
  1824
      |> note_thmss_registrations kind loc args';
wenzelm@15703
  1825
  in ((thy', ctxt'), facts) end;
wenzelm@12702
  1826
wenzelm@12706
  1827
end;
wenzelm@12063
  1828
wenzelm@11896
  1829
wenzelm@13336
  1830
(* predicate text *)
ballarin@15596
  1831
(* CB: generate locale predicates and delta predicates *)
wenzelm@13336
  1832
wenzelm@13375
  1833
local
wenzelm@13375
  1834
ballarin@15206
  1835
(* introN: name of theorems for introduction rules of locale and
ballarin@15206
  1836
     delta predicates;
ballarin@15206
  1837
   axiomsN: name of theorem set with destruct rules for locale predicates,
ballarin@15206
  1838
     also name suffix of delta predicates. *)
ballarin@15206
  1839
wenzelm@13375
  1840
val introN = "intro";
ballarin@15206
  1841
val axiomsN = "axioms";
wenzelm@13375
  1842
wenzelm@16458
  1843
fun atomize_spec thy ts =
wenzelm@13375
  1844
  let
skalberg@15574
  1845
    val t = foldr1 Logic.mk_conjunction ts;
wenzelm@16458
  1846
    val body = ObjectLogic.atomize_term thy t;
wenzelm@13375
  1847
    val bodyT = Term.fastype_of body;
wenzelm@13375
  1848
  in
wenzelm@16458
  1849
    if bodyT = propT then (t, propT, Thm.reflexive (Thm.cterm_of thy t))
wenzelm@16458
  1850
    else (body, bodyT, ObjectLogic.atomize_rule thy (Thm.cterm_of thy t))
wenzelm@13375
  1851
  end;
wenzelm@13375
  1852
wenzelm@13394
  1853
fun aprop_tr' n c = (c, fn args =>
wenzelm@13394
  1854
  if length args = n then Syntax.const "_aprop" $ Term.list_comb (Syntax.free c, args)
wenzelm@13394
  1855
  else raise Match);
wenzelm@13336
  1856
ballarin@15104
  1857
(* CB: define one predicate including its intro rule and axioms
ballarin@15104
  1858
   - bname: predicate name
ballarin@15104
  1859
   - parms: locale parameters
ballarin@15104
  1860
   - defs: thms representing substitutions from defines elements
ballarin@15104
  1861
   - ts: terms representing locale assumptions (not normalised wrt. defs)
ballarin@15104
  1862
   - norm_ts: terms representing locale assumptions (normalised wrt. defs)
ballarin@15104
  1863
   - thy: the theory
ballarin@15104
  1864
*)
ballarin@15104
  1865
wenzelm@13420
  1866
fun def_pred bname parms defs ts norm_ts thy =
wenzelm@13375
  1867
  let
wenzelm@16458
  1868
    val name = Sign.full_name thy bname;
wenzelm@13375
  1869
wenzelm@16458
  1870
    val (body, bodyT, body_eq) = atomize_spec thy norm_ts;
wenzelm@13394
  1871
    val env = Term.add_term_free_names (body, []);
skalberg@15570
  1872
    val xs = List.filter (fn (x, _) => x mem_string env) parms;
wenzelm@13394
  1873
    val Ts = map #2 xs;
skalberg@15574
  1874
    val extraTs = (Term.term_tfrees body \\ foldr Term.add_typ_tfrees [] Ts)
wenzelm@13394
  1875
      |> Library.sort_wrt #1 |> map TFree;
wenzelm@13399
  1876
    val predT = map Term.itselfT extraTs ---> Ts ---> bodyT;
wenzelm@13336
  1877
wenzelm@13394
  1878
    val args = map Logic.mk_type extraTs @ map Free xs;
wenzelm@13394
  1879
    val head = Term.list_comb (Const (name, predT), args);
wenzelm@16458
  1880
    val statement = ObjectLogic.assert_propT thy head;
wenzelm@13375
  1881
wenzelm@13375
  1882
    val (defs_thy, [pred_def]) =
wenzelm@13375
  1883
      thy
wenzelm@13394
  1884
      |> (if bodyT <> propT then I else
wenzelm@13394
  1885
        Theory.add_trfuns ([], [], map (aprop_tr' (length args)) (NameSpace.accesses' name), []))
wenzelm@13375
  1886
      |> Theory.add_consts_i [(bname, predT, Syntax.NoSyn)]
wenzelm@13375
  1887
      |> PureThy.add_defs_i false [((Thm.def_name bname, Logic.mk_equals (head, body)), [])];
wenzelm@13394
  1888
wenzelm@16458
  1889
    val cert = Thm.cterm_of defs_thy;
wenzelm@13375
  1890
wenzelm@16947
  1891
    val intro = Drule.standard (Tactic.prove defs_thy [] norm_ts statement (fn _ =>
wenzelm@13375
  1892
      Tactic.rewrite_goals_tac [pred_def] THEN
wenzelm@13375
  1893
      Tactic.compose_tac (false, body_eq RS Drule.equal_elim_rule1, 1) 1 THEN
wenzelm@16947
  1894
      Tactic.compose_tac (false, Drule.conj_intr_list (map (Thm.assume o cert) norm_ts), 0) 1));
wenzelm@13375
  1895
wenzelm@13375
  1896
    val conjuncts =
wenzelm@13399
  1897
      Drule.equal_elim_rule1 OF [Thm.symmetric body_eq,
wenzelm@13399
  1898
        Tactic.rewrite_rule [pred_def] (Thm.assume (cert statement))]
wenzelm@13375
  1899
      |> Drule.conj_elim_precise (length ts);
wenzelm@13394
  1900
    val axioms = (ts ~~ conjuncts) |> map (fn (t, ax) =>
wenzelm@16458
  1901
      Tactic.prove_plain defs_thy [] [] t (fn _ =>
wenzelm@13375
  1902
        Tactic.rewrite_goals_tac defs THEN
wenzelm@13375
  1903
        Tactic.compose_tac (false, ax, 0) 1));
wenzelm@13394
  1904
  in (defs_thy, (statement, intro, axioms)) end;
wenzelm@13375
  1905
ballarin@15104
  1906
(* CB: modify the locale elements:
ballarin@15623
  1907
   - assumes elements become notes elements,
ballarin@15104
  1908
   - notes elements are lifted
ballarin@15104
  1909
*)
ballarin@15104
  1910
wenzelm@15703
  1911
fun change_elem (axms, Assumes asms) =
wenzelm@13394
  1912
      apsnd Notes ((axms, asms) |> foldl_map (fn (axs, (a, spec)) =>
nipkow@13629
  1913
        let val (ps,qs) = splitAt(length spec, axs)
nipkow@13629
  1914
        in (qs, (a, [(ps, [])])) end))
wenzelm@15703
  1915
  | change_elem e = e;
wenzelm@13394
  1916
ballarin@15206
  1917
(* CB: changes only "new" elems, these have identifier ("", _). *)
ballarin@15206
  1918
wenzelm@13394
  1919
fun change_elemss axioms elemss = (axioms, elemss) |> foldl_map
wenzelm@13394
  1920
  (fn (axms, (id as ("", _), es)) =>
wenzelm@15703
  1921
    foldl_map change_elem (axms, map (map_values I I (Drule.satisfy_hyps axioms)) es)
wenzelm@15703
  1922
    |> apsnd (pair id)
wenzelm@13394
  1923
  | x => x) |> #2;
wenzelm@13394
  1924
wenzelm@13394
  1925
in
wenzelm@13375
  1926
ballarin@15104
  1927
(* CB: main predicate definition function *)
ballarin@15104
  1928
wenzelm@13394
  1929
fun define_preds bname (parms, ((exts, exts'), (ints, ints')), defs) elemss thy =
wenzelm@13394
  1930
  let
wenzelm@13394
  1931
    val (thy', (elemss', more_ts)) =
skalberg@15531
  1932
      if null exts then (thy, (elemss, []))
wenzelm@13394
  1933
      else
wenzelm@13394
  1934
        let
skalberg@15531
  1935
          val aname = if null ints then bname else bname ^ "_" ^ axiomsN;
wenzelm@13394
  1936
          val (def_thy, (statement, intro, axioms)) =
wenzelm@13394
  1937
            thy |> def_pred aname parms defs exts exts';
ballarin@16325
  1938
          val elemss' = change_elemss (map (Drule.zero_var_indexes o Drule.gen_all) axioms) elemss @
wenzelm@13420
  1939
            [(("", []), [Assumes [((bname ^ "_" ^ axiomsN, []), [(statement, ([], []))])]])];
wenzelm@13394
  1940
        in
wenzelm@14564
  1941
          def_thy |> note_thmss_qualified "" aname
ballarin@14254
  1942
            [((introN, []), [([intro], [])])]
wenzelm@13394
  1943
          |> #1 |> rpair (elemss', [statement])
wenzelm@13394
  1944
        end;
ballarin@15206
  1945
    val (thy'', predicate) =
skalberg@15531
  1946
      if null ints then (thy', ([], []))
wenzelm@13394
  1947
      else
wenzelm@13394
  1948
        let
wenzelm@13394
  1949
          val (def_thy, (statement, intro, axioms)) =
wenzelm@13394
  1950
            thy' |> def_pred bname parms defs (ints @ more_ts) (ints' @ more_ts);
wenzelm@16458
  1951
          val cstatement = Thm.cterm_of def_thy statement;
wenzelm@13394
  1952
        in
wenzelm@14564
  1953
          def_thy |> note_thmss_qualified "" bname
ballarin@14254
  1954
            [((introN, []), [([intro], [])]),
ballarin@14254
  1955
             ((axiomsN, []), [(map Drule.standard axioms, [])])]
wenzelm@13415
  1956
          |> #1 |> rpair ([cstatement], axioms)
wenzelm@13394
  1957
        end;
ballarin@15206
  1958
  in (thy'', (elemss', predicate)) end;
wenzelm@13375
  1959
wenzelm@13375
  1960
end;
wenzelm@13336
  1961
wenzelm@13336
  1962
wenzelm@13297
  1963
(* add_locale(_i) *)
wenzelm@13297
  1964
wenzelm@13297
  1965
local
wenzelm@13297
  1966
wenzelm@13394
  1967
fun gen_add_locale prep_ctxt prep_expr do_pred bname raw_import raw_body thy =
ballarin@15596
  1968
  (* CB: do_pred controls generation of predicates.
ballarin@15596
  1969
         true -> with, false -> without predicates. *)
wenzelm@13297
  1970
  let
wenzelm@16458
  1971
    val name = Sign.full_name thy bname;
skalberg@15570
  1972
    val _ = conditional (isSome (get_locale thy name)) (fn () =>
wenzelm@13297
  1973
      error ("Duplicate definition of locale " ^ quote name));
wenzelm@13297
  1974
wenzelm@13297
  1975
    val thy_ctxt = ProofContext.init thy;
ballarin@16102
  1976
    val (((import_ctxt, import_elemss), (body_ctxt, body_elemss, syn)), text) =
wenzelm@13375
  1977
      prep_ctxt raw_import raw_body thy_ctxt;
wenzelm@13375
  1978
    val elemss = import_elemss @ body_elemss;
wenzelm@16458
  1979
    val import = prep_expr thy raw_import;
wenzelm@13297
  1980
ballarin@15206
  1981
    val (pred_thy, (elemss', predicate as (predicate_statement, predicate_axioms))) =
wenzelm@13394
  1982
      if do_pred then thy |> define_preds bname text elemss
wenzelm@13415
  1983
      else (thy, (elemss, ([], [])));
wenzelm@13375
  1984
    val pred_ctxt = ProofContext.init pred_thy;
wenzelm@13420
  1985
ballarin@15206
  1986
    fun axiomify axioms elemss = 
ballarin@15206
  1987
      (axioms, elemss) |> foldl_map (fn (axs, (id, elems)) => let
skalberg@15570
  1988
                   val ts = List.concat (List.mapPartial (fn (Assumes asms) =>
skalberg@15570
  1989
                     SOME (List.concat (map (map #1 o #2) asms)) | _ => NONE) elems);
ballarin@15206
  1990
                   val (axs1, axs2) = splitAt (length ts, axs);
ballarin@17000
  1991
                 in (axs2, ((id, Assumed axs1), elems)) end)
ballarin@15206
  1992
        |> snd;
ballarin@15206
  1993
    val (ctxt, (_, facts)) = activate_facts (K I)
ballarin@15206
  1994
      (pred_ctxt, axiomify predicate_axioms elemss');
ballarin@15206
  1995
    val export = ProofContext.export_standard predicate_statement ctxt pred_ctxt;
wenzelm@13420
  1996
    val facts' = facts |> map (fn (a, ths) => ((a, []), [(map export ths, [])]));
wenzelm@13297
  1997
  in
wenzelm@13375
  1998
    pred_thy
wenzelm@14564
  1999
    |> note_thmss_qualified "" name facts' |> #1
wenzelm@13297
  2000
    |> declare_locale name
wenzelm@16458
  2001
    |> put_locale name {predicate = predicate, import = import,
skalberg@15570
  2002
        elems = map (fn e => (e, stamp ())) (List.concat (map #2 (List.filter (equal "" o #1 o #1) elemss'))),
ballarin@16102
  2003
        params = (params_of elemss' |>
ballarin@16736
  2004
          map (fn (x, SOME T) => ((x, T), valOf (Symtab.lookup (syn, x)))), map #1 (params_of body_elemss)),
ballarin@16736
  2005
        regs = []}
wenzelm@17109
  2006
    |> rpair body_ctxt
wenzelm@13297
  2007
  end;
wenzelm@13297
  2008
wenzelm@13297
  2009
in
wenzelm@13297
  2010
wenzelm@17109
  2011
val add_locale_context = gen_add_locale read_context intern_expr;
wenzelm@17109
  2012
val add_locale_context_i = gen_add_locale cert_context (K I);
wenzelm@17109
  2013
fun add_locale b = #1 oooo add_locale_context b;
wenzelm@17109
  2014
fun add_locale_i b = #1 oooo add_locale_context_i b;
wenzelm@13297
  2015
wenzelm@13297
  2016
end;
wenzelm@13297
  2017
wenzelm@15801
  2018
val _ = Context.add_setup
wenzelm@15801
  2019
 [add_locale_i true "var" empty [Fixes [(Syntax.internal "x", NONE, SOME Syntax.NoSyn)]],
wenzelm@15801
  2020
  add_locale_i true "struct" empty [Fixes [(Syntax.internal "S", NONE, NONE)]]];
wenzelm@15801
  2021
wenzelm@13297
  2022
wenzelm@12730
  2023
ballarin@15598
  2024
(** Interpretation commands **)
ballarin@15596
  2025
ballarin@15596
  2026
local
ballarin@15596
  2027
ballarin@15596
  2028
(* extract proof obligations (assms and defs) from elements *)
ballarin@15596
  2029
ballarin@15596
  2030
fun extract_asms_elem (ts, Fixes _) = ts
ballarin@16169
  2031
  | extract_asms_elem (ts, Constrains _) = ts
ballarin@15596
  2032
  | extract_asms_elem (ts, Assumes asms) =
ballarin@15596
  2033
      ts @ List.concat (map (fn (_, ams) => map (fn (t, _) => t) ams) asms)
ballarin@15596
  2034
  | extract_asms_elem (ts, Defines defs) =
ballarin@16169
  2035
      ts @ map (fn (_, (def, _)) => def) defs
ballarin@15596
  2036
  | extract_asms_elem (ts, Notes _) = ts;
ballarin@15596
  2037
ballarin@17000
  2038
fun extract_asms_elems ((id, Assumed _), elems) =
ballarin@17000
  2039
      SOME (id, Library.foldl extract_asms_elem ([], elems))
ballarin@17000
  2040
  | extract_asms_elems ((_, Derived _), _) = NONE;
ballarin@15596
  2041
ballarin@15596
  2042
fun extract_asms_elemss elemss =
ballarin@17000
  2043
      List.mapPartial extract_asms_elems elemss;
ballarin@15596
  2044
ballarin@15624
  2045
(* activate instantiated facts in theory or context *)
ballarin@15596
  2046
ballarin@17033
  2047
fun gen_activate_facts_elemss get_reg note_thmss attrib std put_reg add_wit
ballarin@17033
  2048
        attn all_elemss new_elemss propss result thy_ctxt =
ballarin@17033
  2049
    let
ballarin@17033
  2050
      fun activate_elem disch (prfx, atts) (Notes facts) thy_ctxt =
ballarin@17033
  2051
          let
ballarin@17033
  2052
            val facts' = facts
ballarin@17033
  2053
              (* discharge hyps in attributes *)
wenzelm@17109
  2054
              |> Attrib.map_facts (attrib thy_ctxt o Args.map_values I I I disch)
ballarin@17033
  2055
              (* insert interpretation attributes *)
ballarin@17033
  2056
              |> map (apfst (apsnd (fn a => a @ map (attrib thy_ctxt) atts)))
ballarin@17033
  2057
              (* discharge hyps *)
ballarin@17033
  2058
              |> map (apsnd (map (apfst (map disch))))
ballarin@17033
  2059
              (* prefix names *)
ballarin@17033
  2060
              |> map (apfst (apfst (NameSpace.qualified prfx)))
ballarin@17033
  2061
          in fst (note_thmss prfx facts' thy_ctxt) end
ballarin@17033
  2062
        | activate_elem _ _ _ thy_ctxt = thy_ctxt;
ballarin@17033
  2063
ballarin@17033
  2064
      fun activate_elems disch ((id, mode), elems) thy_ctxt =
ballarin@17033
  2065
          let
ballarin@17033
  2066
            val ((prfx, atts2), _) = valOf (get_reg thy_ctxt id)
ballarin@17033
  2067
                handle Option => sys_error ("Unknown registration of " ^
ballarin@17033
  2068
                  quote (fst id) ^ " while activating facts.");
ballarin@17033
  2069
          in
ballarin@17033
  2070
            fold (activate_elem disch (prfx, atts2)) elems thy_ctxt
ballarin@17033
  2071
          end;
ballarin@15596
  2072
ballarin@17033
  2073
      val thmss = unflat (map snd propss) result;
ballarin@17033
  2074
ballarin@17033
  2075
      val thy_ctxt' = thy_ctxt
ballarin@17033
  2076
        (* add registrations *)
ballarin@17033
  2077
        |> fold (fn ((id, _), _) => put_reg id attn) new_elemss
ballarin@17033
  2078
        (* add witnesses of Assumed elements *)
ballarin@17033
  2079
        |> fold (fn (id, thms) => fold (add_wit id) thms)
ballarin@17033
  2080
           (map fst propss ~~ thmss);
ballarin@15596
  2081
ballarin@17033
  2082
      val prems = List.concat (List.mapPartial
ballarin@17033
  2083
            (fn ((id, Assumed _), _) => Option.map snd (get_reg thy_ctxt' id)
ballarin@17033
  2084
              | ((_, Derived _), _) => NONE) all_elemss);
ballarin@17033
  2085
      val disch = Drule.satisfy_hyps prems;
ballarin@17033
  2086
      val disch' = std o Drule.fconv_rule (Thm.beta_conversion true) o disch;
ballarin@17033
  2087
ballarin@17033
  2088
      val thy_ctxt'' = thy_ctxt'
ballarin@17033
  2089
        (* add witnesses of Derived elements *)
ballarin@17033
  2090
        |> fold (fn (id, thms) => fold (add_wit id o disch) thms)
ballarin@17033
  2091
           (List.mapPartial (fn ((_, Assumed _), _) => NONE
ballarin@17033
  2092
              | ((id, Derived thms), _) => SOME (id, thms)) all_elemss)
ballarin@17033
  2093
    in
ballarin@17033
  2094
      thy_ctxt''
ballarin@17033
  2095
        (* add facts to theory or context *)
ballarin@17033
  2096
        |> fold (activate_elems disch') new_elemss
ballarin@17033
  2097
    end;
ballarin@15596
  2098
ballarin@15624
  2099
val global_activate_facts_elemss = gen_activate_facts_elemss
ballarin@15696
  2100
      (fn thy => fn (name, ps) =>
ballarin@15696
  2101
        get_global_registration thy (name, map Logic.varify ps))
wenzelm@16144
  2102
      (global_note_accesses_i (Drule.kind ""))
ballarin@17033
  2103
      Attrib.global_attribute_i Drule.standard
ballarin@17033
  2104
      (fn (name, ps) => put_global_registration (name, map Logic.varify ps))
ballarin@17033
  2105
      (fn (n, ps) => fn thm =>
ballarin@17033
  2106
         add_global_witness (n, map Logic.varify ps) (Drule.freeze_all thm));
wenzelm@16144
  2107
ballarin@15624
  2108
val local_activate_facts_elemss = gen_activate_facts_elemss
ballarin@15696
  2109
      get_local_registration
wenzelm@16144
  2110
      local_note_accesses_i
ballarin@17033
  2111
      Attrib.context_attribute_i I
ballarin@17033
  2112
      put_local_registration
ballarin@17033
  2113
      add_local_witness;
ballarin@15624
  2114
ballarin@17033
  2115
fun gen_prep_registration mk_ctxt is_local read_terms test_reg activate
ballarin@15624
  2116
    attn expr insts thy_ctxt =
ballarin@15596
  2117
  let
ballarin@15624
  2118
    val ctxt = mk_ctxt thy_ctxt;
wenzelm@16458
  2119
    val thy = ProofContext.theory_of ctxt;
ballarin@15596
  2120
ballarin@15696
  2121
    val ctxt' = ctxt |> ProofContext.theory_of |> ProofContext.init;
wenzelm@16458
  2122
    val ((ids, _), raw_elemss) = flatten (ctxt', intern_expr thy)
ballarin@16102
  2123
          (([], Symtab.empty), Expr expr);
ballarin@17000
  2124
    val ((parms, all_elemss, _), (_, (_, defs, _))) =
ballarin@16736
  2125
          read_elemss false ctxt' [] raw_elemss [];
ballarin@15596
  2126
ballarin@15596
  2127
    (** compute instantiation **)
ballarin@15596
  2128
ballarin@15696
  2129
    (* user input *)
ballarin@15596
  2130
    val insts = if length parms < length insts
ballarin@15596
  2131
         then error "More arguments than parameters in instantiation."
ballarin@15596
  2132
         else insts @ replicate (length parms - length insts) NONE;
ballarin@15596
  2133
    val (ps, pTs) = split_list parms;
ballarin@15596
  2134
    val pvTs = map Type.varifyT pTs;
ballarin@15598
  2135
ballarin@15598
  2136
    (* instantiations given by user *)
ballarin@15596
  2137
    val given = List.mapPartial (fn (_, (NONE, _)) => NONE
ballarin@15596
  2138
         | (x, (SOME inst, T)) => SOME (x, (inst, T))) (ps ~~ (insts ~~ pvTs));
ballarin@15596
  2139
    val (given_ps, given_insts) = split_list given;
ballarin@15596
  2140
    val tvars = foldr Term.add_typ_tvars [] pvTs;
ballarin@15596
  2141
    val used = foldr Term.add_typ_varnames [] pvTs;
ballarin@15596
  2142
    fun sorts (a, i) = assoc (tvars, (a, i));
ballarin@15624
  2143
    val (vs, vinst) = read_terms thy_ctxt sorts used given_insts;
ballarin@15696
  2144
    val vars = foldl Term.add_term_tvar_ixns [] vs \\ map fst tvars;
wenzelm@16861
  2145
    val vars' = fold Term.add_term_varnames vs vars;
ballarin@15696
  2146
    val _ = if null vars' then ()
ballarin@15696
  2147
         else error ("Illegal schematic variable(s) in instantiation: " ^
ballarin@15696
  2148
           commas_quote (map Syntax.string_of_vname vars'));
ballarin@15598
  2149
    (* replace new types (which are TFrees) by ones with new names *)
ballarin@15598
  2150
    val new_Tnames = foldr Term.add_term_tfree_names [] vs;
ballarin@15598
  2151
    val new_Tnames' = Term.invent_names used "'a" (length new_Tnames);
ballarin@15696
  2152
    val renameT =
ballarin@15696
  2153
          if is_local then I
ballarin@15696
  2154
          else Type.unvarifyT o Term.map_type_tfree (fn (a, s) =>
ballarin@15696
  2155
            TFree (valOf (assoc (new_Tnames ~~ new_Tnames', a)), s));
ballarin@15696
  2156
    val rename =
ballarin@15696
  2157
          if is_local then I
ballarin@15696
  2158
          else Term.map_term_types renameT;
ballarin@15598
  2159
ballarin@15598
  2160
    val tinst = Symtab.make (map
ballarin@15696
  2161
                (fn ((x, 0), T) => (x, T |> renameT)
wenzelm@16850
  2162
                  | ((_, n), _) => sys_error "Internal error var in prep_registration") vinst);
ballarin@15696
  2163
    val inst = Symtab.make (given_ps ~~ map rename vs);
ballarin@15596
  2164
ballarin@15596
  2165
    (* defined params without user input *)
ballarin@15596
  2166
    val not_given = List.mapPartial (fn (x, (NONE, T)) => SOME (x, T)
ballarin@15596
  2167
         | (_, (SOME _, _)) => NONE) (ps ~~ (insts ~~ pTs));
ballarin@15596
  2168
    fun add_def ((inst, tinst), (p, pT)) =
ballarin@15596
  2169
      let
ballarin@15596
  2170
        val (t, T) = case find_first (fn (Free (a, _), _) => a = p) defs of
ballarin@15596
  2171
               NONE => error ("Instance missing for parameter " ^ quote p)
ballarin@15596
  2172
             | SOME (Free (_, T), t) => (t, T);
ballarin@15696
  2173
        val d = t |> inst_tab_term (inst, tinst) |> Envir.beta_norm;
ballarin@15596
  2174
      in (Symtab.update_new ((p, d), inst), tinst) end;
ballarin@15596
  2175
    val (inst, tinst) = Library.foldl add_def ((inst, tinst), not_given);
ballarin@15696
  2176
    (* Note: inst and tinst contain no vars. *)
ballarin@15596
  2177
ballarin@15596
  2178
    (** compute proof obligations **)
ballarin@15596
  2179
ballarin@15598
  2180
    (* restore "small" ids *)
ballarin@17000
  2181
    val ids' = map (fn ((n, ps), (_, mode)) =>
ballarin@17000
  2182
          ((n, map (fn p => Free (p, valOf (assoc (parms, p)))) ps), mode)) ids;
ballarin@15596
  2183
    (* instantiate ids and elements *)
ballarin@15596
  2184
    val inst_elemss = map
ballarin@17033
  2185
          (fn ((id, _), ((_, mode), elems)) =>
ballarin@17000
  2186
             inst_tab_elems thy (inst, tinst) (id, map (fn Int e => e) elems)
ballarin@17033
  2187
               |> apfst (fn id => (id, map_mode (map (inst_tab_thm thy (inst, tinst))) mode))) 
ballarin@15596
  2188
          (ids' ~~ all_elemss);
ballarin@15596
  2189
ballarin@15624
  2190
    (* remove fragments already registered with theory or context *)
ballarin@17000
  2191
    val new_inst_elemss = List.filter (fn ((id, _), _) =>
ballarin@15624
  2192
          not (test_reg thy_ctxt id)) inst_elemss;
wenzelm@15703
  2193
    val new_ids = map #1 new_inst_elemss;
ballarin@15596
  2194
ballarin@15596
  2195
    val propss = extract_asms_elemss new_inst_elemss;
ballarin@15596
  2196
wenzelm@15703
  2197
    val bind_attrib = Attrib.crude_closure ctxt o Args.assignable;
wenzelm@16458
  2198
    val attn' = apsnd (map (bind_attrib o Attrib.intern_src thy)) attn;
ballarin@15596
  2199
ballarin@17033
  2200
  in (propss, activate attn' inst_elemss new_inst_elemss propss) end;
ballarin@15624
  2201
ballarin@15624
  2202
in
ballarin@15596
  2203
ballarin@15624
  2204
val prep_global_registration = gen_prep_registration
ballarin@15696
  2205
     ProofContext.init false
ballarin@15624
  2206
     (fn thy => fn sorts => fn used =>
wenzelm@16458
  2207
       Sign.read_def_terms (thy, K NONE, sorts) used true)
ballarin@15696
  2208
     (fn thy => fn (name, ps) =>
ballarin@15696
  2209
       test_global_registration thy (name, map Logic.varify ps))
ballarin@15624
  2210
     global_activate_facts_elemss;
ballarin@15624
  2211
ballarin@15624
  2212
val prep_local_registration = gen_prep_registration
ballarin@15696
  2213
     I true
ballarin@15624
  2214
     (fn ctxt => ProofContext.read_termTs ctxt (K false) (K NONE))
ballarin@15624
  2215
     smart_test_registration
ballarin@15624
  2216
     local_activate_facts_elemss;
ballarin@15596
  2217
ballarin@17000
  2218
fun prep_registration_in_locale target expr thy =
ballarin@17000
  2219
  (* target already in internal form *)
ballarin@17000
  2220
  let
ballarin@17000
  2221
    val ctxt = ProofContext.init thy;
ballarin@17000
  2222
    val ((target_ids, target_syn), target_elemss) = flatten (ctxt, I)
ballarin@17000
  2223
        (([], Symtab.empty), Expr (Locale target));
ballarin@17000
  2224
    val fixed = the_locale thy target |> #params |> #1 |> map #1;
ballarin@17000
  2225
    val ((all_ids, syn), raw_elemss) = flatten (ctxt, intern_expr thy)
ballarin@17000
  2226
        ((target_ids, target_syn), Expr expr);
ballarin@17000
  2227
    val ids = Library.drop (length target_ids, all_ids);
ballarin@17000
  2228
    val ((parms, elemss, _), _) =
ballarin@17000
  2229
        read_elemss false ctxt fixed raw_elemss [];
ballarin@17000
  2230
ballarin@17000
  2231
    (** compute proof obligations **)
ballarin@17000
  2232
ballarin@17000
  2233
    (* restore "small" ids, with mode *)
ballarin@17000
  2234
    val ids' = map (apsnd snd) ids;
ballarin@17000
  2235
    (* remove Int markers *)
ballarin@17000
  2236
    val elemss' = map (fn (_, es) =>
ballarin@17000
  2237
        map (fn Int e => e) es) elemss
ballarin@17000
  2238
    (* extract assumptions and defs *)
ballarin@17000
  2239
    val propss = extract_asms_elemss (ids' ~~ elemss');
ballarin@17000
  2240
ballarin@17033
  2241
    (** activation function: add registrations **)
ballarin@17033
  2242
    fun activate locale_results thy = let
ballarin@17033
  2243
        val thmss = unflat (map snd propss) locale_results;
ballarin@17033
  2244
        fun activate_id (id, thms) thy =
ballarin@17033
  2245
            thy |> put_registration_in_locale target id
ballarin@17033
  2246
                |> fold (add_witness_in_locale target id) thms;
ballarin@17033
  2247
      in
ballarin@17033
  2248
        fold activate_id (map fst propss ~~ thmss) thy
ballarin@17033
  2249
      end;
ballarin@17000
  2250
ballarin@17033
  2251
  in (propss, activate) end;
ballarin@17000
  2252
ballarin@15596
  2253
end;  (* local *)
ballarin@15596
  2254
ballarin@15596
  2255
wenzelm@11896
  2256
end;