(* Title: Pure/Isar/keyword.ML
Author: Makarius
Isar command keyword classification and global keyword tables.
*)
signature KEYWORD =
sig
type T
val kind_of: T -> string
val control: T
val diag: T
val thy_begin: T
val thy_end: T
val thy_heading: T
val thy_decl: T
val thy_script: T
val thy_goal: T
val thy_schematic_goal: T
val qed: T
val qed_block: T
val qed_global: T
val prf_heading: T
val prf_goal: T
val prf_block: T
val prf_open: T
val prf_close: T
val prf_chain: T
val prf_decl: T
val prf_asm: T
val prf_asm_goal: T
val prf_script: T
val kinds: T list
val tag: string -> T -> T
val tags_of: T -> string list
val tag_theory: T -> T
val tag_proof: T -> T
val tag_ml: T -> T
type spec = string * string list
val spec: spec -> T
val command_spec: string * spec -> string * T
val get_lexicons: unit -> Scan.lexicon * Scan.lexicon
val is_keyword: string -> bool
val command_keyword: string -> T option
val command_tags: string -> string list
val dest: unit -> string list * string list
val keyword_statusN: string
val status: unit -> unit
val define: string * T option -> unit
val is_diag: string -> bool
val is_control: string -> bool
val is_regular: string -> bool
val is_heading: string -> bool
val is_theory_begin: string -> bool
val is_theory: string -> bool
val is_proof: string -> bool
val is_theory_goal: string -> bool
val is_proof_goal: string -> bool
val is_schematic_goal: string -> bool
val is_qed: string -> bool
val is_qed_global: string -> bool
end;
structure Keyword: KEYWORD =
struct
(** keyword classification **)
datatype T = Keyword of string * string list; (*kind, tags (in canonical reverse order)*)
fun kind s = Keyword (s, []);
fun kind_of (Keyword (s, _)) = s;
(* kinds *)
val control = kind "control";
val diag = kind "diag";
val thy_begin = kind "thy_begin";
val thy_end = kind "thy_end";
val thy_heading = kind "thy_heading";
val thy_decl = kind "thy_decl";
val thy_script = kind "thy_script";
val thy_goal = kind "thy_goal";
val thy_schematic_goal = kind "thy_schematic_goal";
val qed = kind "qed";
val qed_block = kind "qed_block";
val qed_global = kind "qed_global";
val prf_heading = kind "prf_heading";
val prf_goal = kind "prf_goal";
val prf_block = kind "prf_block";
val prf_open = kind "prf_open";
val prf_close = kind "prf_close";
val prf_chain = kind "prf_chain";
val prf_decl = kind "prf_decl";
val prf_asm = kind "prf_asm";
val prf_asm_goal = kind "prf_asm_goal";
val prf_script = kind "prf_script";
val kinds =
[control, diag, thy_begin, thy_end, thy_heading, thy_decl, thy_script, thy_goal,
thy_schematic_goal, qed, qed_block, qed_global, prf_heading, prf_goal, prf_block, prf_open,
prf_close, prf_chain, prf_decl, prf_asm, prf_asm_goal, prf_script];
(* tags *)
fun tag t (Keyword (s, ts)) = Keyword (s, update (op =) t ts);
fun tags_of (Keyword (_, ts)) = ts;
val tag_theory = tag "theory";
val tag_proof = tag "proof";
val tag_ml = tag "ML";
(* external names *)
val name_table = Symtab.make (map (`kind_of) kinds);
type spec = string * string list;
fun spec (kind, tags) =
(case Symtab.lookup name_table kind of
SOME k => k |> fold tag tags
| NONE => error ("Unknown outer syntax keyword kind " ^ quote kind));
fun command_spec (name, s) = (name, spec s);
(** global keyword tables **)
type keywords =
{lexicons: Scan.lexicon * Scan.lexicon, (*minor, major*)
commands: T Symtab.table}; (*command classification*)
fun make_keywords (lexicons, commands) : keywords =
{lexicons = lexicons, commands = commands};
local
val global_keywords =
Unsynchronized.ref (make_keywords ((Scan.empty_lexicon, Scan.empty_lexicon), Symtab.empty));
in
fun get_keywords () = ! global_keywords;
fun change_keywords f = CRITICAL (fn () =>
Unsynchronized.change global_keywords
(fn {lexicons, commands} => make_keywords (f (lexicons, commands))));
end;
fun get_lexicons () = #lexicons (get_keywords ());
fun get_commands () = #commands (get_keywords ());
(* lookup *)
fun is_keyword s =
let
val (minor, major) = get_lexicons ();
val syms = Symbol.explode s;
in Scan.is_literal minor syms orelse Scan.is_literal major syms end;
fun command_keyword name = Symtab.lookup (get_commands ()) name;
fun command_tags name = these (Option.map tags_of (command_keyword name));
fun dest () = pairself (sort_strings o Scan.dest_lexicon) (get_lexicons ());
(* status *)
val keyword_statusN = "keyword_status";
fun status_message m s =
Position.setmp_thread_data Position.none
(if print_mode_active keyword_statusN then Output.protocol_message m else writeln) s;
fun keyword_status name =
status_message (Isabelle_Markup.keyword_decl name)
("Outer syntax keyword " ^ quote name);
fun command_status (name, kind) =
status_message (Isabelle_Markup.command_decl name (kind_of kind))
("Outer syntax keyword " ^ quote name ^ " :: " ^ kind_of kind);
fun status () =
let
val {lexicons = (minor, _), commands} = get_keywords ();
val _ = List.app keyword_status (sort_strings (Scan.dest_lexicon minor));
val _ = List.app command_status (sort_wrt #1 (Symtab.dest commands));
in () end;
(* define *)
fun define (name, NONE) =
(change_keywords (fn ((minor, major), commands) =>
let
val minor' = Scan.extend_lexicon (Symbol.explode name) minor;
in ((minor', major), commands) end);
keyword_status name)
| define (name, SOME kind) =
(change_keywords (fn ((minor, major), commands) =>
let
val major' = Scan.extend_lexicon (Symbol.explode name) major;
val commands' = Symtab.update (name, kind) commands;
in ((minor, major'), commands') end);
command_status (name, kind));
(* command categories *)
fun command_category ks name =
(case command_keyword name of
NONE => false
| SOME k => member (op = o pairself kind_of) ks k);
val is_diag = command_category [diag];
val is_control = command_category [control];
val is_regular = not o command_category [diag, control];
val is_heading = command_category [thy_heading, prf_heading];
val is_theory_begin = command_category [thy_begin];
val is_theory = command_category
[thy_begin, thy_end, thy_heading, thy_decl, thy_script, thy_goal, thy_schematic_goal];
val is_proof = command_category
[qed, qed_block, qed_global, prf_heading, prf_goal, prf_block, prf_open, prf_close,
prf_chain, prf_decl, prf_asm, prf_asm_goal, prf_script];
val is_theory_goal = command_category [thy_goal, thy_schematic_goal];
val is_proof_goal = command_category [prf_goal, prf_asm_goal];
val is_schematic_goal = command_category [thy_schematic_goal];
val is_qed = command_category [qed, qed_block];
val is_qed_global = command_category [qed_global];
end;