(* Title: Pure/Isar/local_theory.ML
Author: Makarius
Local theory operations, with abstract target context.
*)
type local_theory = Proof.context;
type generic_theory = Context.generic;
signature LOCAL_THEORY =
sig
type operations
val assert: local_theory -> local_theory
val restore: local_theory -> local_theory
val level: Proof.context -> int
val assert_bottom: bool -> local_theory -> local_theory
val open_target: Name_Space.naming -> operations -> local_theory -> local_theory
val close_target: local_theory -> local_theory
val map_contexts: (int -> Proof.context -> Proof.context) -> local_theory -> local_theory
val naming_of: local_theory -> Name_Space.naming
val full_name: local_theory -> binding -> string
val map_naming: (Name_Space.naming -> Name_Space.naming) -> local_theory -> local_theory
val conceal: local_theory -> local_theory
val new_group: local_theory -> local_theory
val reset_group: local_theory -> local_theory
val restore_naming: local_theory -> local_theory -> local_theory
val standard_morphism: local_theory -> Proof.context -> morphism
val standard_form: local_theory -> Proof.context -> (morphism -> 'a) -> 'a
val raw_theory_result: (theory -> 'a * theory) -> local_theory -> 'a * local_theory
val raw_theory: (theory -> theory) -> local_theory -> local_theory
val background_theory_result: (theory -> 'a * theory) -> local_theory -> 'a * local_theory
val background_theory: (theory -> theory) -> local_theory -> local_theory
val target_of: local_theory -> Proof.context
val target: (Proof.context -> Proof.context) -> local_theory -> local_theory
val target_morphism: local_theory -> morphism
val propagate_ml_env: generic_theory -> generic_theory
val operations_of: local_theory -> operations
val define: (binding * mixfix) * (Attrib.binding * term) -> local_theory ->
(term * (string * thm)) * local_theory
val define_internal: (binding * mixfix) * (Attrib.binding * term) -> local_theory ->
(term * (string * thm)) * local_theory
val note: Attrib.binding * thm list -> local_theory -> (string * thm list) * local_theory
val notes: (Attrib.binding * (thm list * Attrib.src list) list) list ->
local_theory -> (string * thm list) list * local_theory
val notes_kind: string -> (Attrib.binding * (thm list * Attrib.src list) list) list ->
local_theory -> (string * thm list) list * local_theory
val abbrev: Syntax.mode -> (binding * mixfix) * term -> local_theory ->
(term * term) * local_theory
val declaration: {syntax: bool, pervasive: bool} -> declaration -> local_theory -> local_theory
val pretty: local_theory -> Pretty.T list
val set_defsort: sort -> local_theory -> local_theory
val type_notation: bool -> Syntax.mode -> (typ * mixfix) list -> local_theory -> local_theory
val notation: bool -> Syntax.mode -> (term * mixfix) list -> local_theory -> local_theory
val class_alias: binding -> class -> local_theory -> local_theory
val type_alias: binding -> string -> local_theory -> local_theory
val const_alias: binding -> string -> local_theory -> local_theory
val init: Name_Space.naming -> operations -> Proof.context -> local_theory
val exit: local_theory -> Proof.context
val exit_global: local_theory -> theory
val exit_result: (morphism -> 'a -> 'b) -> 'a * local_theory -> 'b * Proof.context
val exit_result_global: (morphism -> 'a -> 'b) -> 'a * local_theory -> 'b * theory
end;
structure Local_Theory: LOCAL_THEORY =
struct
(** local theory data **)
(* type lthy *)
type operations =
{define: bool -> (binding * mixfix) * (Attrib.binding * term) -> local_theory ->
(term * (string * thm)) * local_theory,
notes: string ->
(Attrib.binding * (thm list * Attrib.src list) list) list ->
local_theory -> (string * thm list) list * local_theory,
abbrev: Syntax.mode -> (binding * mixfix) * term -> local_theory ->
(term * term) * local_theory,
declaration: {syntax: bool, pervasive: bool} -> declaration -> local_theory -> local_theory,
pretty: local_theory -> Pretty.T list,
exit: local_theory -> Proof.context};
type lthy =
{naming: Name_Space.naming,
operations: operations,
target: Proof.context};
fun make_lthy (naming, operations, target) : lthy =
{naming = naming, operations = operations, target = target};
(* context data *)
structure Data = Proof_Data
(
type T = lthy list;
fun init _ = [];
);
fun assert lthy =
if null (Data.get lthy) then error "Missing local theory context" else lthy;
val get_last_lthy = List.last o Data.get o assert;
val get_first_lthy = hd o Data.get o assert;
fun map_first_lthy f = assert #>
Data.map (fn {naming, operations, target} :: parents =>
make_lthy (f (naming, operations, target)) :: parents);
fun restore lthy = #target (get_first_lthy lthy) |> Data.put (Data.get lthy);
(* nested structure *)
val level = length o Data.get;
fun assert_bottom b lthy =
let
val _ = assert lthy;
val b' = level lthy <= 1;
in
if b andalso not b' then error "Not at bottom of local theory nesting"
else if not b andalso b' then error "Already at bottom of local theory nesting"
else lthy
end;
fun open_target naming operations target = assert target
|> Data.map (cons (make_lthy (naming, operations, target)));
fun close_target lthy =
assert_bottom false lthy |> Data.map tl |> restore;
fun map_contexts f lthy =
let val n = level lthy in
lthy |> (Data.map o map_index) (fn (i, {naming, operations, target}) =>
make_lthy (naming, operations,
target
|> Context_Position.set_visible false
|> f (n - i - 1)
|> Context_Position.restore_visible target))
|> f n
end;
(* naming *)
val naming_of = #naming o get_first_lthy;
val full_name = Name_Space.full_name o naming_of;
fun map_naming f =
map_first_lthy (fn (naming, operations, target) => (f naming, operations, target));
val conceal = map_naming Name_Space.conceal;
val new_group = map_naming Name_Space.new_group;
val reset_group = map_naming Name_Space.reset_group;
val restore_naming = map_naming o K o naming_of;
(* standard morphisms *)
fun standard_morphism lthy ctxt =
Proof_Context.norm_export_morphism lthy ctxt $>
Morphism.binding_morphism (Name_Space.transform_binding (naming_of lthy));
fun standard_form lthy ctxt x =
Morphism.form (Morphism.transform (standard_morphism lthy ctxt) x);
(* background theory *)
fun raw_theory_result f lthy =
let
val (res, thy') = f (Proof_Context.theory_of lthy);
val lthy' = map_contexts (K (Proof_Context.transfer thy')) lthy;
in (res, lthy') end;
fun raw_theory f = #2 o raw_theory_result (f #> pair ());
val checkpoint = raw_theory Theory.checkpoint;
fun background_theory_result f lthy =
lthy |> raw_theory_result (fn thy =>
thy
|> Sign.map_naming (K (naming_of lthy))
|> f
||> Sign.restore_naming thy
||> Theory.checkpoint);
fun background_theory f = #2 o background_theory_result (f #> pair ());
(* target contexts *)
val target_of = #target o get_last_lthy;
fun target f lthy =
let
val ctxt = target_of lthy;
val ctxt' = ctxt
|> Context_Position.set_visible false
|> f
|> Context_Position.restore_visible ctxt;
val thy' = Proof_Context.theory_of ctxt';
in map_contexts (fn 0 => K ctxt' | _ => Proof_Context.transfer thy') lthy end;
fun target_morphism lthy = standard_morphism lthy (target_of lthy);
fun propagate_ml_env (context as Context.Proof lthy) =
let val inherit = ML_Env.inherit context in
lthy
|> background_theory (Context.theory_map inherit)
|> map_contexts (K (Context.proof_map inherit))
|> Context.Proof
end
| propagate_ml_env context = context;
(** operations **)
val operations_of = #operations o get_first_lthy;
(* primitives *)
fun operation f lthy = f (operations_of lthy) lthy;
fun operation2 f x y = operation (fn ops => f ops x y);
val pretty = operation #pretty;
val abbrev = apsnd checkpoint ooo operation2 #abbrev;
val define = apsnd checkpoint oo operation2 #define false;
val define_internal = apsnd checkpoint oo operation2 #define true;
val notes_kind = apsnd checkpoint ooo operation2 #notes;
val declaration = checkpoint ooo operation2 #declaration;
(* basic derived operations *)
val notes = notes_kind "";
fun note (a, ths) = notes [(a, [(ths, [])])] #>> the_single;
fun set_defsort S =
declaration {syntax = true, pervasive = false}
(K (Context.mapping (Sign.set_defsort S) (Proof_Context.set_defsort S)));
(* notation *)
fun type_notation add mode raw_args lthy =
let val args = map (apfst (Morphism.typ (target_morphism lthy))) raw_args in
declaration {syntax = true, pervasive = false}
(Proof_Context.generic_type_notation add mode args) lthy
end;
fun notation add mode raw_args lthy =
let val args = map (apfst (Morphism.term (target_morphism lthy))) raw_args in
declaration {syntax = true, pervasive = false}
(Proof_Context.generic_notation add mode args) lthy
end;
(* name space aliases *)
fun alias global_alias local_alias b name =
declaration {syntax = true, pervasive = false} (fn phi =>
let val b' = Morphism.binding phi b
in Context.mapping (global_alias b' name) (local_alias b' name) end);
val class_alias = alias Sign.class_alias Proof_Context.class_alias;
val type_alias = alias Sign.type_alias Proof_Context.type_alias;
val const_alias = alias Sign.const_alias Proof_Context.const_alias;
(** init and exit **)
(* init *)
fun init naming operations target =
target |> Data.map
(fn [] => [make_lthy (naming, operations, target)]
| _ => error "Local theory already initialized")
|> checkpoint;
(* exit *)
val exit = Proof_Context.background_theory Theory.checkpoint o operation #exit;
val exit_global = Proof_Context.theory_of o exit;
fun exit_result f (x, lthy) =
let
val ctxt = exit lthy;
val phi = standard_morphism lthy ctxt;
in (f phi x, ctxt) end;
fun exit_result_global f (x, lthy) =
let
val thy = exit_global lthy;
val thy_ctxt = Proof_Context.init_global thy;
val phi = standard_morphism lthy thy_ctxt;
in (f phi x, thy) end;
end;