(* Title: Pure/Thy/latex.ML
Author: Markus Wenzel, TU Muenchen
LaTeX presentation elements -- based on outer lexical syntax.
*)
signature LATEX =
sig
val output_ascii: string -> string
val output_known_symbols: (string -> bool) * (string -> bool) ->
Symbol.symbol list -> string
val output_symbols: Symbol.symbol list -> string
val output_ctrl_symbols: Symbol.symbol list -> string
val output_token: Token.T -> string
val begin_delim: string -> string
val end_delim: string -> string
val begin_tag: string -> string
val end_tag: string -> string
val tex_trailer: string
val isabelle_theory: string -> string -> string
val symbol_source: (string -> bool) * (string -> bool) ->
string -> Symbol.symbol list -> string
val theory_entry: string -> string
val modes: string list
end;
structure Latex: LATEX =
struct
(* output verbatim ASCII *)
val output_ascii =
translate_string
(fn " " => "\\ "
| "\t" => "\\ "
| "\n" => "\\isanewline\n"
| s =>
if exists_string (fn s' => s = s') "#$%^&_{}~\\<>"
then enclose "{\\char`\\" "}" s else s);
(* output symbols *)
local
val char_table =
Symtab.make
[("!", "{\\isacharbang}"),
("\"", "{\\isachardoublequote}"),
("#", "{\\isacharhash}"),
("$", "{\\isachardollar}"),
("%", "{\\isacharpercent}"),
("&", "{\\isacharampersand}"),
("'", "{\\isacharprime}"),
("(", "{\\isacharparenleft}"),
(")", "{\\isacharparenright}"),
("*", "{\\isacharasterisk}"),
("+", "{\\isacharplus}"),
(",", "{\\isacharcomma}"),
("-", "{\\isacharminus}"),
(".", "{\\isachardot}"),
("/", "{\\isacharslash}"),
(":", "{\\isacharcolon}"),
(";", "{\\isacharsemicolon}"),
("<", "{\\isacharless}"),
("=", "{\\isacharequal}"),
(">", "{\\isachargreater}"),
("?", "{\\isacharquery}"),
("@", "{\\isacharat}"),
("[", "{\\isacharbrackleft}"),
("\\", "{\\isacharbackslash}"),
("]", "{\\isacharbrackright}"),
("^", "{\\isacharcircum}"),
("_", "{\\isacharunderscore}"),
("`", "{\\isacharbackquote}"),
("{", "{\\isacharbraceleft}"),
("|", "{\\isacharbar}"),
("}", "{\\isacharbraceright}"),
("~", "{\\isachartilde}")];
fun output_chr " " = "\\ "
| output_chr "\t" = "\\ "
| output_chr "\n" = "\\isanewline\n"
| output_chr c =
(case Symtab.lookup char_table c of
SOME s => s
| NONE => if Symbol.is_ascii_digit c then enclose "{\\isadigit{" "}}" c else c);
val output_chrs = translate_string output_chr;
fun output_known_sym (known_sym, known_ctrl) sym =
(case Symbol.decode sym of
Symbol.Char s => output_chr s
| Symbol.UTF8 s => s
| Symbol.Sym s => if known_sym s then enclose "{\\isasym" "}" s else output_chrs sym
| Symbol.Ctrl s => if known_ctrl s then enclose "\\isactrl" " " s else output_chrs sym
| Symbol.Raw s => s
| Symbol.Malformed s => error (Symbol.malformed_msg s)
| Symbol.EOF => error "Bad EOF symbol");
fun output_ctrl_sym sym =
(case Symbol.decode sym of
Symbol.Ctrl s => enclose "\\isactrl" " " s
| _ => sym);
in
val output_known_symbols = implode oo (map o output_known_sym);
val output_symbols = output_known_symbols (K true, K true);
val output_syms = output_symbols o Symbol.explode;
val output_syms_antiq =
(fn Antiquote.Text ss => output_symbols (map Symbol_Pos.symbol ss)
| Antiquote.Antiq (ss, _) =>
enclose "%\n\\isaantiq\n" "{}%\n\\endisaantiq\n"
(output_symbols (map Symbol_Pos.symbol ss)));
val output_ctrl_symbols = implode o map output_ctrl_sym;
end;
(* output token *)
fun output_token tok =
let val s = Token.content_of tok in
if Token.is_kind Token.Comment tok then ""
else if Token.is_command tok then
"\\isacommand{" ^ output_syms s ^ "}"
else if Token.is_kind Token.Keyword tok andalso Symbol.is_ascii_identifier s then
"\\isakeyword{" ^ output_syms s ^ "}"
else if Token.is_kind Token.String tok then
enclose "{\\isachardoublequoteopen}" "{\\isachardoublequoteclose}" (output_syms s)
else if Token.is_kind Token.Alt_String tok then
enclose "{\\isacharbackquoteopen}" "{\\isacharbackquoteclose}" (output_syms s)
else if Token.is_kind Token.Verbatim tok then
let
val ants = Antiquote.read (Token.input_of tok);
val out = implode (map output_syms_antiq ants);
in enclose "{\\isacharverbatimopen}" "{\\isacharverbatimclose}" out end
else if Token.is_kind Token.Cartouche tok then
enclose "{\\isacartoucheopen}" "{\\isacartoucheclose}" (output_syms s)
else output_syms s
end handle ERROR msg => error (msg ^ Position.here (Token.pos_of tok));
(* tags *)
val begin_delim = enclose "%\n\\isadelim" "\n";
val end_delim = enclose "%\n\\endisadelim" "\n";
val begin_tag = enclose "%\n\\isatag" "\n";
fun end_tag tg = enclose "%\n\\endisatag" "\n" tg ^ enclose "{\\isafold" "}%\n" tg;
(* theory presentation *)
val tex_trailer =
"%%% Local Variables:\n\
\%%% mode: latex\n\
\%%% TeX-master: \"root\"\n\
\%%% End:\n";
fun isabelle_theory name txt =
"%\n\\begin{isabellebody}%\n\
\\\setisabellecontext{" ^ output_syms name ^ "}%\n" ^ txt ^
"\\end{isabellebody}%\n" ^ tex_trailer;
fun symbol_source known name syms =
isabelle_theory name
("\\isamarkupfile{" ^ output_known_symbols known (Symbol.explode name) ^ "}%\n" ^
output_known_symbols known syms);
fun theory_entry name = "\\input{" ^ name ^ ".tex}\n\n";
(* print mode *)
val latexN = "latex";
val modes = [latexN, Symbol.xsymbolsN];
fun latex_output str =
let val syms = Symbol.explode str
in (output_symbols syms, Symbol.length syms) end;
fun latex_markup (s, _) =
if s = Markup.commandN orelse s = Markup.keyword1N orelse s = Markup.keyword3N
then ("\\isacommand{", "}")
else if s = Markup.keyword2N
then ("\\isakeyword{", "}")
else Markup.no_output;
fun latex_indent "" _ = ""
| latex_indent s _ = enclose "\\isaindent{" "}" s;
val _ = Output.add_mode latexN latex_output Symbol.encode_raw;
val _ = Markup.add_mode latexN latex_markup;
val _ = Pretty.add_mode latexN latex_indent;
end;