(* Title: Pure/ML/ml_context.ML
Author: Makarius
ML context and antiquotations.
*)
signature ML_CONTEXT =
sig
val the_generic_context: unit -> Context.generic
val the_global_context: unit -> theory
val the_local_context: unit -> Proof.context
val thm: xstring -> thm
val thms: xstring -> thm list
val exec: (unit -> unit) -> Context.generic -> Context.generic
val check_antiquotation: Proof.context -> xstring * Position.T -> string
val struct_name: Proof.context -> string
val variant: string -> Proof.context -> string * Proof.context
type decl = Proof.context -> string * string
val value_decl: string -> string -> Proof.context -> decl * Proof.context
val add_antiquotation: binding -> (Token.src -> Proof.context -> decl * Proof.context) ->
theory -> theory
val print_antiquotations: bool -> Proof.context -> unit
val eval: ML_Compiler.flags -> Position.T -> ML_Lex.token Antiquote.antiquote list -> unit
val eval_file: ML_Compiler.flags -> Path.T -> unit
val eval_source: ML_Compiler.flags -> Input.source -> unit
val eval_in: Proof.context option -> ML_Compiler.flags -> Position.T ->
ML_Lex.token Antiquote.antiquote list -> unit
val eval_source_in: Proof.context option -> ML_Compiler.flags -> Input.source -> unit
val expression: Position.range -> string -> string -> string ->
ML_Lex.token Antiquote.antiquote list -> Context.generic -> Context.generic
end
structure ML_Context: ML_CONTEXT =
struct
(** implicit ML context **)
val the_generic_context = Context.the_thread_data;
val the_global_context = Context.theory_of o the_generic_context;
val the_local_context = Context.proof_of o the_generic_context;
fun thm name = Proof_Context.get_thm (the_local_context ()) name;
fun thms name = Proof_Context.get_thms (the_local_context ()) name;
fun exec (e: unit -> unit) context =
(case Context.setmp_thread_data (SOME context) (fn () => (e (); Context.thread_data ())) () of
SOME context' => context'
| NONE => error "Missing context after execution");
(** ML antiquotations **)
(* names for generated environment *)
structure Names = Proof_Data
(
type T = string * Name.context;
val init_names = ML_Syntax.reserved |> fold Name.declare ["ML_context", "ML_print_depth"];
fun init _ = ("Isabelle0", init_names);
);
fun struct_name ctxt = #1 (Names.get ctxt);
val struct_begin = (Names.map o apfst) (fn _ => "Isabelle" ^ serial_string ());
fun variant a ctxt =
let
val names = #2 (Names.get ctxt);
val (b, names') = Name.variant (Name.desymbolize (SOME false) a) names;
val ctxt' = (Names.map o apsnd) (K names') ctxt;
in (b, ctxt') end;
(* decl *)
type decl = Proof.context -> string * string; (*final context -> ML env, ML body*)
fun value_decl a s ctxt =
let
val (b, ctxt') = variant a ctxt;
val env = "val " ^ b ^ " = " ^ s ^ ";\n";
val body = struct_name ctxt ^ "." ^ b;
fun decl (_: Proof.context) = (env, body);
in (decl, ctxt') end;
(* theory data *)
structure Antiquotations = Theory_Data
(
type T = (Token.src -> Proof.context -> decl * Proof.context) Name_Space.table;
val empty : T = Name_Space.empty_table Markup.ML_antiquotationN;
val extend = I;
fun merge data : T = Name_Space.merge_tables data;
);
val get_antiquotations = Antiquotations.get o Proof_Context.theory_of;
fun check_antiquotation ctxt =
#1 o Name_Space.check (Context.Proof ctxt) (get_antiquotations ctxt);
fun add_antiquotation name f thy = thy
|> Antiquotations.map (Name_Space.define (Context.Theory thy) true (name, f) #> snd);
fun print_antiquotations verbose ctxt =
Pretty.big_list "ML antiquotations:"
(map (Pretty.mark_str o #1) (Name_Space.markup_table verbose ctxt (get_antiquotations ctxt)))
|> Pretty.writeln;
fun apply_antiquotation src ctxt =
let val (src', f) = Token.check_src ctxt (get_antiquotations ctxt) src
in f src' ctxt end;
(* parsing and evaluation *)
local
val antiq =
Parse.!!! (Parse.position Parse.xname -- Parse.args --| Scan.ahead Parse.eof)
>> uncurry Token.src;
fun make_env name visible =
(ML_Lex.tokenize
("structure " ^ name ^ " =\nstruct\n\
\val ML_context = Context_Position.set_visible " ^ Bool.toString visible ^
" (ML_Context.the_local_context ());\n\
\val ML_print_depth =\n\
\ let val default = ML_Options.get_print_depth ()\n\
\ in fn () => ML_Options.get_print_depth_default default end;\n"),
ML_Lex.tokenize "end;");
fun reset_env name = ML_Lex.tokenize ("structure " ^ name ^ " = struct end");
fun expanding (Antiquote.Text tok) = ML_Lex.is_cartouche tok
| expanding (Antiquote.Antiq _) = true;
fun eval_antiquotes (ants, pos) opt_context =
let
val visible =
(case opt_context of
SOME (Context.Proof ctxt) => Context_Position.is_visible ctxt
| _ => true);
val opt_ctxt = Option.map Context.proof_of opt_context;
val ((ml_env, ml_body), opt_ctxt') =
if forall (not o expanding) ants
then (([], map (fn Antiquote.Text tok => tok) ants), opt_ctxt)
else
let
fun tokenize range = apply2 (ML_Lex.tokenize #> map (ML_Lex.set_range range));
fun expand (Antiquote.Antiq (ss, {range, ...})) ctxt =
let
val keywords = Thy_Header.get_keywords' ctxt;
val (decl, ctxt') =
apply_antiquotation (Token.read_antiq keywords antiq (ss, #1 range)) ctxt;
in (decl #> tokenize range, ctxt') end
| expand (Antiquote.Text tok) ctxt =
if ML_Lex.is_cartouche tok then
let
val range = ML_Lex.range_of tok;
val text =
Symbol_Pos.explode (ML_Lex.content_of tok, #1 range)
|> Symbol_Pos.cartouche_content
|> Symbol_Pos.implode_range range |> #1;
val (decl, ctxt') =
value_decl "input"
("Input.source true " ^ ML_Syntax.print_string text ^ " " ^
ML_Syntax.atomic (ML_Syntax.print_range range)) ctxt;
in (decl #> tokenize range, ctxt') end
else (K ([], [tok]), ctxt);
val ctxt =
(case opt_ctxt of
NONE => error ("No context -- cannot expand ML antiquotations" ^ Position.here pos)
| SOME ctxt => struct_begin ctxt);
val (begin_env, end_env) = make_env (struct_name ctxt) visible;
val (decls, ctxt') = fold_map expand ants ctxt;
val (ml_env, ml_body) =
decls |> map (fn decl => decl ctxt') |> split_list |> apply2 flat;
in ((begin_env @ ml_env @ end_env, ml_body), SOME ctxt') end;
in ((ml_env, ml_body), opt_ctxt') end;
in
fun eval flags pos ants =
let
val non_verbose = ML_Compiler.verbose false flags;
(*prepare source text*)
val ((env, body), env_ctxt) = eval_antiquotes (ants, pos) (Context.thread_data ());
val _ =
(case env_ctxt of
SOME ctxt =>
if Config.get ctxt ML_Options.source_trace andalso Context_Position.is_visible ctxt
then tracing (cat_lines [ML_Lex.flatten env, ML_Lex.flatten body])
else ()
| NONE => ());
(*prepare environment*)
val _ =
Context.setmp_thread_data
(Option.map (Context.Proof o Context_Position.set_visible false) env_ctxt)
(fn () => (ML_Compiler.eval non_verbose Position.none env; Context.thread_data ())) ()
|> (fn NONE => () | SOME context' => Context.>> (ML_Env.inherit context'));
(*eval body*)
val _ = ML_Compiler.eval flags pos body;
(*clear environment*)
val _ =
(case (env_ctxt, is_some (Context.thread_data ())) of
(SOME ctxt, true) =>
let
val name = struct_name ctxt;
val _ = ML_Compiler.eval non_verbose Position.none (reset_env name);
val _ = Context.>> (ML_Env.forget_structure name);
in () end
| _ => ());
in () end;
end;
(* derived versions *)
fun eval_file flags path =
let val pos = Path.position path
in eval flags pos (ML_Lex.read_pos pos (File.read path)) end;
fun eval_source flags source =
eval flags (Input.pos_of source) (ML_Lex.read_source (#SML flags) source);
fun eval_in ctxt flags pos ants =
Context.setmp_thread_data (Option.map Context.Proof ctxt)
(fn () => eval flags pos ants) ();
fun eval_source_in ctxt flags source =
Context.setmp_thread_data (Option.map Context.Proof ctxt)
(fn () => eval_source flags source) ();
fun expression range name constraint body ants =
exec (fn () =>
eval ML_Compiler.flags (#1 range)
(ML_Lex.read "Context.set_thread_data (SOME (let val " @ ML_Lex.read_set_range range name @
ML_Lex.read (": " ^ constraint ^ " =") @ ants @
ML_Lex.read ("in " ^ body ^ " end (ML_Context.the_generic_context ())));")));
end;