(* Title: Pure/global_theory.ML
Author: Makarius
Global theory content: stored facts.
*)
signature GLOBAL_THEORY =
sig
val facts_of: theory -> Facts.T
val check_fact: theory -> xstring * Position.T -> string
val intern_fact: theory -> xstring -> string
val defined_fact: theory -> string -> bool
val alias_fact: binding -> string -> theory -> theory
val hide_fact: bool -> string -> theory -> theory
val get_thms: theory -> xstring -> thm list
val get_thm: theory -> xstring -> thm
val transfer_theories: theory -> thm -> thm
val all_thms_of: theory -> bool -> (string * thm) list
val map_facts: ('a -> 'b) -> ('c * ('a list * 'd) list) list -> ('c * ('b list * 'd) list) list
val burrow_fact: ('a list -> 'b list) -> ('a list * 'c) list -> ('b list * 'c) list
val burrow_facts: ('a list -> 'b list) ->
('c * ('a list * 'd) list) list -> ('c * ('b list * 'd) list) list
val name_multi: string -> 'a list -> (string * 'a) list
val name_thm: bool -> bool -> string -> thm -> thm
val name_thms: bool -> bool -> string -> thm list -> thm list
val check_thms_lazy: thm list lazy -> thm list lazy
val add_thms_lazy: string -> (binding * thm list lazy) -> theory -> theory
val store_thm: binding * thm -> theory -> thm * theory
val store_thm_open: binding * thm -> theory -> thm * theory
val add_thms: ((binding * thm) * attribute list) list -> theory -> thm list * theory
val add_thm: (binding * thm) * attribute list -> theory -> thm * theory
val add_thmss: ((binding * thm list) * attribute list) list -> theory -> thm list list * theory
val add_thms_dynamic': Context.generic -> binding * (Context.generic -> thm list) ->
theory -> string * theory
val add_thms_dynamic: binding * (Context.generic -> thm list) -> theory -> theory
val note_thms: string -> Thm.binding * (thm list * attribute list) list -> theory ->
(string * thm list) * theory
val note_thmss: string -> (Thm.binding * (thm list * attribute list) list) list -> theory ->
(string * thm list) list * theory
val add_defs: bool -> ((binding * term) * attribute list) list ->
theory -> thm list * theory
val add_defs_unchecked: bool -> ((binding * term) * attribute list) list ->
theory -> thm list * theory
end;
structure Global_Theory: GLOBAL_THEORY =
struct
(** theory data **)
structure Data = Theory_Data
(
type T = Facts.T;
val empty = Facts.empty;
val extend = I;
val merge = Facts.merge;
);
val facts_of = Data.get;
fun check_fact thy = Facts.check (Context.Theory thy) (facts_of thy);
val intern_fact = Facts.intern o facts_of;
val defined_fact = Facts.defined o facts_of;
fun alias_fact binding name thy =
Data.map (Facts.alias (Sign.naming_of thy) binding name) thy;
fun hide_fact fully name = Data.map (Facts.hide fully name);
(* retrieve theorems *)
fun get_thms thy xname =
#thms (Facts.retrieve (Context.Theory thy) (facts_of thy) (xname, Position.none));
fun get_thm thy xname =
Facts.the_single (xname, Position.none) (get_thms thy xname);
fun transfer_theories thy =
let
val theories =
fold (fn thy' => Symtab.update (Context.theory_name thy', thy'))
(Theory.nodes_of thy) Symtab.empty;
fun transfer th =
Thm.transfer (the_default thy (Symtab.lookup theories (Thm.theory_name th))) th;
in transfer end;
fun all_thms_of thy verbose =
let
val transfer = transfer_theories thy;
val facts = facts_of thy;
fun add (name, ths) =
if not verbose andalso Facts.is_concealed facts name then I
else append (map (`(Thm.get_name_hint) o transfer) ths);
in Facts.fold_static add facts [] end;
(** store theorems **)
(* fact specifications *)
fun map_facts f = map (apsnd (map (apfst (map f))));
fun burrow_fact f = split_list #>> burrow f #> op ~~;
fun burrow_facts f = split_list ##> burrow (burrow_fact f) #> op ~~;
(* naming *)
fun name_multi name [x] = [(name, x)]
| name_multi "" xs = map (pair "") xs
| name_multi name xs = map_index (fn (i, x) => (name ^ "_" ^ string_of_int (i + 1), x)) xs;
fun name_thm pre official name thm = thm
|> (if not official orelse pre andalso Thm.derivation_name thm <> "" then I
else Thm.name_derivation name)
|> (if name = "" orelse pre andalso Thm.has_name_hint thm then I
else Thm.put_name_hint name);
fun name_thms pre official name thms =
map (uncurry (name_thm pre official)) (name_multi name thms);
(* apply theorems and attributes *)
fun register_proofs thms thy = (thms, Thm.register_proofs (Lazy.value thms) thy);
fun add_facts (b, fact) thy =
let
val full_name = Sign.full_name thy b;
val pos = Binding.pos_of b;
fun check fact =
fact |> map_index (fn (i, thm) =>
let
fun err msg =
error ("Malformed global fact " ^
quote (full_name ^
(if length fact = 1 then "" else "(" ^ string_of_int (i + 1) ^ ")")) ^
Position.here pos ^ "\n" ^ msg);
val prop = Thm.plain_prop_of thm
handle THM _ =>
thm
|> Thm.check_hyps (Context.Theory thy)
|> Thm.full_prop_of;
in
ignore (Logic.unvarify_global (Term_Subst.zero_var_indexes prop))
handle TYPE (msg, _, _) => err msg
| TERM (msg, _) => err msg
| ERROR msg => err msg
end);
val arg = (b, Lazy.map_finished (tap check) fact);
in
thy |> Data.map (Facts.add_static (Context.Theory thy) {strict = true, index = false} arg #> #2)
end;
fun check_thms_lazy (thms: thm list lazy) =
if Proofterm.proofs_enabled () orelse Options.default_bool "strict_facts"
then Lazy.force_value thms else thms;
fun add_thms_lazy kind (b, thms) thy =
if Binding.is_empty b then Thm.register_proofs (check_thms_lazy thms) thy
else
let
val name = Sign.full_name thy b;
val thms' =
check_thms_lazy thms
|> Lazy.map_finished (name_thms true true name #> map (Thm.kind_rule kind));
in thy |> Thm.register_proofs thms' |> add_facts (b, thms') end;
val app_facts =
apfst flat oo fold_map (fn (thms, atts) => fold_map (Thm.theory_attributes atts) thms);
fun apply_facts pre_name post_name (b, facts) thy =
if Binding.is_empty b then app_facts facts thy |-> register_proofs
else
let
val name = Sign.full_name thy b;
val (thms', thy') = thy
|> app_facts (map (apfst (pre_name name)) facts)
|>> post_name name |-> register_proofs;
val thy'' = thy' |> add_facts (b, Lazy.value thms');
in (map (Thm.transfer thy'') thms', thy'') end;
fun apply_fact pre_name post_name (b, fact) =
apply_facts pre_name post_name (b, [fact]);
(* store_thm *)
fun store_thm (b, th) =
apply_fact (name_thms true true) (name_thms false true) (b, ([th], [])) #>> the_single;
fun store_thm_open (b, th) =
apply_fact (name_thms true false) (name_thms false false) (b, ([th], [])) #>> the_single;
(* add_thms(s) *)
fun add_thms_atts pre_name ((b, thms), atts) =
apply_fact pre_name (name_thms false true) (b, (thms, atts));
fun gen_add_thmss pre_name =
fold_map (add_thms_atts pre_name);
fun gen_add_thms pre_name args =
apfst (map hd) o gen_add_thmss pre_name (map (apfst (apsnd single)) args);
val add_thmss = gen_add_thmss (name_thms true true);
val add_thms = gen_add_thms (name_thms true true);
val add_thm = yield_singleton add_thms;
(* dynamic theorems *)
fun add_thms_dynamic' context arg thy =
let val (name, facts') = Facts.add_dynamic context arg (Data.get thy)
in (name, Data.put facts' thy) end;
fun add_thms_dynamic arg thy =
add_thms_dynamic' (Context.Theory thy) arg thy |> snd;
(* note_thmss *)
fun note_thms kind ((b, more_atts), facts) thy =
let
val name = Sign.full_name thy b;
val facts' = facts |> map (apsnd (fn atts => surround (Thm.kind kind) (atts @ more_atts)));
val (thms', thy') = thy |> apply_facts (name_thms true true) (name_thms false true) (b, facts');
in ((name, thms'), thy') end;
val note_thmss = fold_map o note_thms;
(* old-style defs *)
local
fun add unchecked overloaded = fold_map (fn ((b, prop), atts) => fn thy =>
let
val context = Defs.global_context thy;
val ((_, def), thy') = Thm.add_def context unchecked overloaded (b, prop) thy;
val thm = def
|> Thm.forall_intr_frees
|> Thm.forall_elim_vars 0
|> Thm.varifyT_global;
in yield_singleton (gen_add_thms (K I)) ((b, thm), atts) thy' end);
in
val add_defs = add false;
val add_defs_unchecked = add true;
end;
end;