(* Title: Pure/Tools/rail.ML
Author: Michael Kerscher, TU München
Author: Makarius
Railroad diagrams in LaTeX.
*)
signature RAIL =
sig
datatype rails =
Cat of int * rail list
and rail =
Bar of rails list |
Plus of rails * rails |
Newline of int |
Nonterminal of string |
Terminal of bool * string |
Antiquote of bool * Antiquote.antiq
val read: Proof.context -> Input.source -> (string Antiquote.antiquote * rail) list
val output_rules: Toplevel.state -> (string Antiquote.antiquote * rail) list -> string
end;
structure Rail: RAIL =
struct
(** lexical syntax **)
(* singleton keywords *)
val keywords =
Symtab.make [
("|", Markup.keyword3),
("*", Markup.keyword3),
("+", Markup.keyword3),
("?", Markup.keyword3),
("(", Markup.empty),
(")", Markup.empty),
("\<newline>", Markup.keyword2),
(";", Markup.keyword2),
(":", Markup.keyword2),
("@", Markup.keyword1)];
(* datatype token *)
datatype kind =
Keyword | Ident | String | Antiq of Antiquote.antiq | EOF;
datatype token = Token of Position.range * (kind * string);
fun pos_of (Token ((pos, _), _)) = pos;
fun end_pos_of (Token ((_, pos), _)) = pos;
fun range_of (toks as tok :: _) =
let val pos' = end_pos_of (List.last toks)
in Position.range (pos_of tok) pos' end
| range_of [] = Position.no_range;
fun kind_of (Token (_, (k, _))) = k;
fun content_of (Token (_, (_, x))) = x;
(* diagnostics *)
val print_kind =
fn Keyword => "rail keyword"
| Ident => "identifier"
| String => "single-quoted string"
| Antiq _ => "antiquotation"
| EOF => "end-of-input";
fun print (Token ((pos, _), (k, x))) =
(if k = EOF then print_kind k else print_kind k ^ " " ^ quote x) ^
Position.here pos;
fun print_keyword x = print_kind Keyword ^ " " ^ quote x;
fun reports_of_token (Token ((pos, _), (String, _))) = [(pos, Markup.inner_string)]
| reports_of_token (Token ((pos, _), (Keyword, x))) =
map (pair pos) (the_list (Symtab.lookup keywords x) @ Completion.suppress_abbrevs x)
| reports_of_token (Token (_, (Antiq antiq, _))) = Antiquote.antiq_reports [Antiquote.Antiq antiq]
| reports_of_token _ = [];
(* stopper *)
fun mk_eof pos = Token ((pos, Position.none), (EOF, ""));
val eof = mk_eof Position.none;
fun is_eof (Token (_, (EOF, _))) = true
| is_eof _ = false;
val stopper =
Scan.stopper (fn [] => eof | toks => mk_eof (end_pos_of (List.last toks))) is_eof;
(* tokenize *)
local
fun token k ss = [Token (Symbol_Pos.range ss, (k, Symbol_Pos.content ss))];
fun antiq_token antiq =
[Token (#range antiq, (Antiq antiq, Symbol_Pos.content (#body antiq)))];
val scan_space = Scan.many1 (Symbol.is_blank o Symbol_Pos.symbol);
val scan_keyword =
Scan.one (Symtab.defined keywords o Symbol_Pos.symbol);
val err_prefix = "Rail lexical error: ";
val scan_token =
scan_space >> K [] ||
Antiquote.scan_antiq >> antiq_token ||
scan_keyword >> (token Keyword o single) ||
Lexicon.scan_id >> token Ident ||
Symbol_Pos.scan_string_q err_prefix >> (fn (pos1, (ss, pos2)) =>
[Token (Position.range pos1 pos2, (String, Symbol_Pos.content ss))]);
val scan =
Scan.repeats scan_token --|
Symbol_Pos.!!! (fn () => err_prefix ^ "bad input")
(Scan.ahead (Scan.one Symbol_Pos.is_eof));
in
val tokenize = #1 o Scan.error (Scan.finite Symbol_Pos.stopper scan);
end;
(** parsing **)
(* parser combinators *)
fun !!! scan =
let
val prefix = "Rail syntax error";
fun get_pos [] = " (end-of-input)"
| get_pos (tok :: _) = Position.here (pos_of tok);
fun err (toks, NONE) = (fn () => prefix ^ get_pos toks)
| err (toks, SOME msg) =
(fn () =>
let val s = msg () in
if String.isPrefix prefix s then s
else prefix ^ get_pos toks ^ ": " ^ s
end);
in Scan.!! err scan end;
fun $$$ x =
Scan.one (fn tok => kind_of tok = Keyword andalso content_of tok = x) ||
Scan.fail_with
(fn [] => (fn () => print_keyword x ^ " expected,\nbut end-of-input was found")
| tok :: _ => (fn () => print_keyword x ^ " expected,\nbut " ^ print tok ^ " was found"));
fun enum1 sep scan = scan ::: Scan.repeat ($$$ sep |-- !!! scan);
fun enum sep scan = enum1 sep scan || Scan.succeed [];
val ident = Scan.some (fn tok => if kind_of tok = Ident then SOME (content_of tok) else NONE);
val string = Scan.some (fn tok => if kind_of tok = String then SOME (content_of tok) else NONE);
val antiq = Scan.some (fn tok => (case kind_of tok of Antiq a => SOME a | _ => NONE));
fun RANGE scan = Scan.trace scan >> apsnd range_of;
fun RANGE_APP scan = RANGE scan >> (fn (f, r) => f r);
(* parse trees *)
datatype trees =
CAT of tree list * Position.range
and tree =
BAR of trees list * Position.range |
STAR of (trees * trees) * Position.range |
PLUS of (trees * trees) * Position.range |
MAYBE of tree * Position.range |
NEWLINE of Position.range |
NONTERMINAL of string * Position.range |
TERMINAL of (bool * string) * Position.range |
ANTIQUOTE of (bool * Antiquote.antiq) * Position.range;
fun reports_of_tree ctxt =
if Context_Position.is_visible ctxt then
let
fun reports r =
if r = Position.no_range then []
else [(Position.set_range r, Markup.expression)];
fun trees (CAT (ts, r)) = reports r @ maps tree ts
and tree (BAR (Ts, r)) = reports r @ maps trees Ts
| tree (STAR ((T1, T2), r)) = reports r @ trees T1 @ trees T2
| tree (PLUS ((T1, T2), r)) = reports r @ trees T1 @ trees T2
| tree (MAYBE (t, r)) = reports r @ tree t
| tree (NEWLINE r) = reports r
| tree (NONTERMINAL (_, r)) = reports r
| tree (TERMINAL (_, r)) = reports r
| tree (ANTIQUOTE (_, r)) = reports r;
in distinct (op =) o tree end
else K [];
local
val at_mode = Scan.option ($$$ "@") >> (fn NONE => false | _ => true);
fun body x = (RANGE (enum1 "|" body1) >> BAR) x
and body0 x = (RANGE (enum "|" body1) >> BAR) x
and body1 x =
(RANGE_APP (body2 :|-- (fn a =>
$$$ "*" |-- !!! body4e >> (fn b => fn r => CAT ([STAR ((a, b), r)], r)) ||
$$$ "+" |-- !!! body4e >> (fn b => fn r => CAT ([PLUS ((a, b), r)], r)) ||
Scan.succeed (K a)))) x
and body2 x = (RANGE (Scan.repeat1 body3) >> CAT) x
and body3 x =
(RANGE_APP (body4 :|-- (fn a =>
$$$ "?" >> K (curry MAYBE a) ||
Scan.succeed (K a)))) x
and body4 x =
($$$ "(" |-- !!! (body0 --| $$$ ")") ||
RANGE_APP
($$$ "\<newline>" >> K NEWLINE ||
ident >> curry NONTERMINAL ||
at_mode -- string >> curry TERMINAL ||
at_mode -- antiq >> curry ANTIQUOTE)) x
and body4e x =
(RANGE (Scan.option body4) >> (fn (a, r) => CAT (the_list a, r))) x;
val rule_name = ident >> Antiquote.Text || antiq >> Antiquote.Antiq;
val rule = rule_name -- ($$$ ":" |-- !!! body) || body >> pair (Antiquote.Text "");
val rules = enum1 ";" (Scan.option rule) >> map_filter I;
in
fun parse_rules toks =
#1 (Scan.error (Scan.finite stopper (rules --| !!! (Scan.ahead (Scan.one is_eof)))) toks);
end;
(** rail expressions **)
(* datatype *)
datatype rails =
Cat of int * rail list
and rail =
Bar of rails list |
Plus of rails * rails |
Newline of int |
Nonterminal of string |
Terminal of bool * string |
Antiquote of bool * Antiquote.antiq;
fun is_newline (Newline _) = true | is_newline _ = false;
(* prepare *)
local
fun cat rails = Cat (0, rails);
val empty = cat [];
fun is_empty (Cat (_, [])) = true | is_empty _ = false;
fun bar [Cat (_, [rail])] = rail
| bar cats = Bar cats;
fun reverse_cat (Cat (y, rails)) = Cat (y, rev (map reverse rails))
and reverse (Bar cats) = Bar (map reverse_cat cats)
| reverse (Plus (cat1, cat2)) = Plus (reverse_cat cat1, reverse_cat cat2)
| reverse x = x;
fun plus (cat1, cat2) = Plus (cat1, reverse_cat cat2);
in
fun prepare_trees (CAT (ts, _)) = Cat (0, map prepare_tree ts)
and prepare_tree (BAR (Ts, _)) = bar (map prepare_trees Ts)
| prepare_tree (STAR (Ts, _)) =
let val (cat1, cat2) = apply2 prepare_trees Ts in
if is_empty cat2 then plus (empty, cat1)
else bar [empty, cat [plus (cat1, cat2)]]
end
| prepare_tree (PLUS (Ts, _)) = plus (apply2 prepare_trees Ts)
| prepare_tree (MAYBE (t, _)) = bar [empty, cat [prepare_tree t]]
| prepare_tree (NEWLINE _) = Newline 0
| prepare_tree (NONTERMINAL (a, _)) = Nonterminal a
| prepare_tree (TERMINAL (a, _)) = Terminal a
| prepare_tree (ANTIQUOTE (a, _)) = Antiquote a;
end;
(* read *)
fun read ctxt source =
let
val _ = Context_Position.report ctxt (Input.pos_of source) Markup.language_rail;
val toks = tokenize (Input.source_explode source);
val _ = Context_Position.reports ctxt (maps reports_of_token toks);
val rules = parse_rules toks;
val _ = Position.reports (maps (reports_of_tree ctxt o #2) rules);
in map (apsnd prepare_tree) rules end;
(* latex output *)
local
fun vertical_range_cat (Cat (_, rails)) y =
let val (rails', (_, y')) =
fold_map (fn rail => fn (y0, y') =>
if is_newline rail then (Newline (y' + 1), (y' + 1, y' + 2))
else
let val (rail', y0') = vertical_range rail y0;
in (rail', (y0, Int.max (y0', y'))) end) rails (y, y + 1)
in (Cat (y, rails'), y') end
and vertical_range (Bar cats) y =
let val (cats', y') = fold_map vertical_range_cat cats y
in (Bar cats', Int.max (y + 1, y')) end
| vertical_range (Plus (cat1, cat2)) y =
let val ([cat1', cat2'], y') = fold_map vertical_range_cat [cat1, cat2] y;
in (Plus (cat1', cat2'), Int.max (y + 1, y')) end
| vertical_range (Newline _) y = (Newline (y + 2), y + 3)
| vertical_range atom y = (atom, y + 1);
in
fun output_rules state rules =
let
val output_antiq = Thy_Output.eval_antiquote state o Antiquote.Antiq;
fun output_text b s =
Output.output s
|> b ? enclose "\\isakeyword{" "}"
|> enclose "\\isa{" "}";
fun output_cat c (Cat (_, rails)) = outputs c rails
and outputs c [rail] = output c rail
| outputs _ rails = implode (map (output "") rails)
and output _ (Bar []) = ""
| output c (Bar [cat]) = output_cat c cat
| output _ (Bar (cat :: cats)) =
"\\rail@bar\n" ^ output_cat "" cat ^
implode (map (fn Cat (y, rails) =>
"\\rail@nextbar{" ^ string_of_int y ^ "}\n" ^ outputs "" rails) cats) ^
"\\rail@endbar\n"
| output c (Plus (cat, Cat (y, rails))) =
"\\rail@plus\n" ^ output_cat c cat ^
"\\rail@nextplus{" ^ string_of_int y ^ "}\n" ^ outputs "c" rails ^
"\\rail@endplus\n"
| output _ (Newline y) = "\\rail@cr{" ^ string_of_int y ^ "}\n"
| output c (Nonterminal s) = "\\rail@" ^ c ^ "nont{" ^ output_text false s ^ "}[]\n"
| output c (Terminal (b, s)) = "\\rail@" ^ c ^ "term{" ^ output_text b s ^ "}[]\n"
| output c (Antiquote (b, a)) =
"\\rail@" ^ c ^ (if b then "term{" else "nont{") ^ output_antiq a ^ "}[]\n";
fun output_rule (name, rail) =
let
val (rail', y') = vertical_range rail 0;
val out_name =
(case name of
Antiquote.Text "" => ""
| Antiquote.Text s => output_text false s
| Antiquote.Antiq a => output_antiq a);
in
"\\rail@begin{" ^ string_of_int y' ^ "}{" ^ out_name ^ "}\n" ^
output "" rail' ^
"\\rail@end\n"
end;
in Latex.environment "railoutput" (implode (map output_rule rules)) end;
val _ = Theory.setup
(Thy_Output.antiquotation @{binding rail} (Scan.lift Args.text_input)
(fn {state, context, ...} => output_rules state o read context));
end;
end;