(* Title: Pure/General/symbol.ML
Author: Markus Wenzel, TU Muenchen
Generalized characters with infinitely many named symbols.
*)
signature SYMBOL =
sig
type symbol = string
val STX: symbol
val DEL: symbol
val space: symbol
val comment: symbol
val is_char: symbol -> bool
val is_utf8: symbol -> bool
val is_symbolic: symbol -> bool
val is_symbolic_char: symbol -> bool
val is_printable: symbol -> bool
val is_control: symbol -> bool
val eof: symbol
val is_eof: symbol -> bool
val not_eof: symbol -> bool
val stopper: symbol Scan.stopper
val is_malformed: symbol -> bool
val malformed_msg: symbol -> string
val is_ascii: symbol -> bool
val is_ascii_letter: symbol -> bool
val is_ascii_digit: symbol -> bool
val is_ascii_hex: symbol -> bool
val is_ascii_quasi: symbol -> bool
val is_ascii_blank: symbol -> bool
val is_ascii_control: symbol -> bool
val is_ascii_letdig: symbol -> bool
val is_ascii_lower: symbol -> bool
val is_ascii_upper: symbol -> bool
val to_ascii_lower: symbol -> symbol
val to_ascii_upper: symbol -> symbol
val is_ascii_identifier: string -> bool
val scan_ascii_id: string list -> string * string list
val is_raw: symbol -> bool
val decode_raw: symbol -> string
val encode_raw: string -> string
datatype sym =
Char of string | UTF8 of string | Sym of string | Control of string | Raw of string |
Malformed of string | EOF
val decode: symbol -> sym
datatype kind = Letter | Digit | Quasi | Blank | Other
val kind: symbol -> kind
val is_letter: symbol -> bool
val is_digit: symbol -> bool
val is_quasi: symbol -> bool
val is_blank: symbol -> bool
val is_block_ctrl: symbol -> bool
val is_quasi_letter: symbol -> bool
val is_letdig: symbol -> bool
val beginning: int -> symbol list -> string
val source: (string, 'a) Source.source -> (symbol, (string, 'a) Source.source) Source.source
val explode: string -> symbol list
val esc: symbol -> string
val escape: string -> string
val scanner: string -> (string list -> 'a * string list) -> symbol list -> 'a
val split_words: symbol list -> string list
val explode_words: string -> string list
val trim_blanks: string -> string
val bump_init: string -> string
val bump_string: string -> string
val length: symbol list -> int
val xsymbolsN: string
val output: string -> Output.output * int
end;
structure Symbol: SYMBOL =
struct
(** type symbol **)
(*Symbols, which are considered the smallest entities of any Isabelle
string, may be of the following form:
(1) ASCII symbols: a
(2) regular symbols: \<ident>
(3) control symbols: \<^ident>
(4) raw control symbols: \<^raw:...>, where "..." may be any printable
character (excluding ".", ">"), or \<^raw000>
Output is subject to the print_mode variable (default: verbatim),
actual interpretation in display is up to front-end tools.
*)
type symbol = string;
val STX = chr 2;
val DEL = chr 127;
val space = chr 32;
val comment = "\\<comment>";
fun is_char s = size s = 1;
fun is_utf8 s = size s > 0 andalso forall_string (fn c => ord c >= 128) s;
fun raw_symbolic s =
String.isPrefix "\\<" s andalso String.isSuffix ">" s andalso not (String.isPrefix "\\<^" s);
fun is_symbolic s =
s <> "\\<open>" andalso s <> "\\<close>" andalso raw_symbolic s;
val is_symbolic_char = member (op =) (raw_explode "!#$%&*+-/<=>?@^_|~");
fun is_printable s =
if is_char s then ord space <= ord s andalso ord s <= ord "~"
else is_utf8 s orelse raw_symbolic s;
fun is_control s =
String.isPrefix "\\<^" s andalso String.isSuffix ">" s;
(* input source control *)
val eof = "";
fun is_eof s = s = eof;
fun not_eof s = s <> eof;
val stopper = Scan.stopper (K eof) is_eof;
fun is_malformed s =
String.isPrefix "\\<" s andalso not (String.isSuffix ">" s)
orelse s = "\\<>" orelse s = "\\<^>";
fun malformed_msg s = "Malformed symbolic character: " ^ quote s;
(* ASCII symbols *)
fun is_ascii s = is_char s andalso ord s < 128;
fun is_ascii_letter s =
is_char s andalso
(ord "A" <= ord s andalso ord s <= ord "Z" orelse
ord "a" <= ord s andalso ord s <= ord "z");
fun is_ascii_digit s =
is_char s andalso ord "0" <= ord s andalso ord s <= ord "9";
fun is_ascii_hex s =
is_char s andalso
(ord "0" <= ord s andalso ord s <= ord "9" orelse
ord "A" <= ord s andalso ord s <= ord "F" orelse
ord "a" <= ord s andalso ord s <= ord "f");
fun is_ascii_quasi "_" = true
| is_ascii_quasi "'" = true
| is_ascii_quasi _ = false;
val is_ascii_blank =
fn " " => true | "\t" => true | "\n" => true | "\^K" => true | "\f" => true | "\^M" => true
| _ => false;
fun is_ascii_control s = is_char s andalso ord s < 32 andalso not (is_ascii_blank s);
fun is_ascii_letdig s = is_ascii_letter s orelse is_ascii_digit s orelse is_ascii_quasi s;
fun is_ascii_lower s = is_char s andalso (ord "a" <= ord s andalso ord s <= ord "z");
fun is_ascii_upper s = is_char s andalso (ord "A" <= ord s andalso ord s <= ord "Z");
fun to_ascii_lower s = if is_ascii_upper s then chr (ord s + ord "a" - ord "A") else s;
fun to_ascii_upper s = if is_ascii_lower s then chr (ord s + ord "A" - ord "a") else s;
fun is_ascii_identifier s =
size s > 0 andalso is_ascii_letter (String.substring (s, 0, 1)) andalso
forall_string is_ascii_letdig s;
val scan_ascii_id = Scan.one is_ascii_letter ^^ (Scan.many is_ascii_letdig >> implode);
(* encode_raw *)
fun raw_chr c =
is_char c andalso
(ord space <= ord c andalso ord c <= ord "~" andalso c <> "." andalso c <> ">"
orelse ord c >= 128);
fun encode_raw "" = ""
| encode_raw str =
let
val raw0 = enclose "\\<^raw:" ">";
val raw1 = raw0 o implode;
val raw2 = enclose "\\<^raw" ">" o string_of_int o ord;
fun encode cs = enc (take_prefix raw_chr cs)
and enc ([], []) = []
| enc (cs, []) = [raw1 cs]
| enc ([], d :: ds) = raw2 d :: encode ds
| enc (cs, d :: ds) = raw1 cs :: raw2 d :: encode ds;
in
if exists_string (not o raw_chr) str then implode (encode (raw_explode str))
else raw0 str
end;
(* diagnostics *)
fun beginning n cs =
let
val drop_blanks = #1 o take_suffix is_ascii_blank;
val all_cs = drop_blanks cs;
val dots = if length all_cs > n then " ..." else "";
in
(drop_blanks (take n all_cs)
|> map (fn c => if is_ascii_blank c then space else c)
|> implode) ^ dots
end;
(* decode_raw *)
fun is_raw s =
String.isPrefix "\\<^raw" s andalso String.isSuffix ">" s;
fun decode_raw s =
if not (is_raw s) then error (malformed_msg s)
else if String.isPrefix "\\<^raw:" s then String.substring (s, 7, size s - 8)
else chr (#1 (Library.read_int (raw_explode (String.substring (s, 6, size s - 7)))));
(* symbol variants *)
datatype sym =
Char of string | UTF8 of string | Sym of string | Control of string | Raw of string |
Malformed of string | EOF;
fun decode s =
if s = "" then EOF
else if is_char s then Char s
else if is_utf8 s then UTF8 s
else if is_raw s then Raw (decode_raw s)
else if is_malformed s then Malformed s
else if is_control s then Control (String.substring (s, 3, size s - 4))
else Sym (String.substring (s, 2, size s - 3));
(* standard symbol kinds *)
local
val letter_symbols =
Symtab.make_set [
"\\<A>",
"\\<B>",
"\\<C>",
"\\<D>",
"\\<E>",
"\\<F>",
"\\<G>",
"\\<H>",
"\\<I>",
"\\<J>",
"\\<K>",
"\\<L>",
"\\<M>",
"\\<N>",
"\\<O>",
"\\<P>",
"\\<Q>",
"\\<R>",
"\\<S>",
"\\<T>",
"\\<U>",
"\\<V>",
"\\<W>",
"\\<X>",
"\\<Y>",
"\\<Z>",
"\\<a>",
"\\<b>",
"\\<c>",
"\\<d>",
"\\<e>",
"\\<f>",
"\\<g>",
"\\<h>",
"\\<i>",
"\\<j>",
"\\<k>",
"\\<l>",
"\\<m>",
"\\<n>",
"\\<o>",
"\\<p>",
"\\<q>",
"\\<r>",
"\\<s>",
"\\<t>",
"\\<u>",
"\\<v>",
"\\<w>",
"\\<x>",
"\\<y>",
"\\<z>",
"\\<AA>",
"\\<BB>",
"\\<CC>",
"\\<DD>",
"\\<EE>",
"\\<FF>",
"\\<GG>",
"\\<HH>",
"\\<II>",
"\\<JJ>",
"\\<KK>",
"\\<LL>",
"\\<MM>",
"\\<NN>",
"\\<OO>",
"\\<PP>",
"\\<QQ>",
"\\<RR>",
"\\<SS>",
"\\<TT>",
"\\<UU>",
"\\<VV>",
"\\<WW>",
"\\<XX>",
"\\<YY>",
"\\<ZZ>",
"\\<aa>",
"\\<bb>",
"\\<cc>",
"\\<dd>",
"\\<ee>",
"\\<ff>",
"\\<gg>",
"\\<hh>",
"\\<ii>",
"\\<jj>",
"\\<kk>",
"\\<ll>",
"\\<mm>",
"\\<nn>",
"\\<oo>",
"\\<pp>",
"\\<qq>",
"\\<rr>",
"\\<ss>",
"\\<tt>",
"\\<uu>",
"\\<vv>",
"\\<ww>",
"\\<xx>",
"\\<yy>",
"\\<zz>",
"\\<alpha>",
"\\<beta>",
"\\<gamma>",
"\\<delta>",
"\\<epsilon>",
"\\<zeta>",
"\\<eta>",
"\\<theta>",
"\\<iota>",
"\\<kappa>",
(*"\\<lambda>", sic!*)
"\\<mu>",
"\\<nu>",
"\\<xi>",
"\\<pi>",
"\\<rho>",
"\\<sigma>",
"\\<tau>",
"\\<upsilon>",
"\\<phi>",
"\\<chi>",
"\\<psi>",
"\\<omega>",
"\\<Gamma>",
"\\<Delta>",
"\\<Theta>",
"\\<Lambda>",
"\\<Xi>",
"\\<Pi>",
"\\<Sigma>",
"\\<Upsilon>",
"\\<Phi>",
"\\<Psi>",
"\\<Omega>"
];
in
val is_letter_symbol = Symtab.defined letter_symbols;
end;
datatype kind = Letter | Digit | Quasi | Blank | Other;
fun kind s =
if is_ascii_letter s then Letter
else if is_ascii_digit s then Digit
else if is_ascii_quasi s then Quasi
else if is_ascii_blank s then Blank
else if is_char s then Other
else if is_letter_symbol s then Letter
else Other;
fun is_letter s = kind s = Letter;
fun is_digit s = kind s = Digit;
fun is_quasi s = kind s = Quasi;
fun is_blank s = kind s = Blank;
val is_block_ctrl = member (op =) ["\\<^bsub>", "\\<^esub>", "\\<^bsup>", "\\<^esup>"];
fun is_quasi_letter s = let val k = kind s in k = Letter orelse k = Quasi end;
fun is_letdig s = let val k = kind s in k = Letter orelse k = Digit orelse k = Quasi end;
(** symbol input **)
(* source *)
local
fun is_plain s = is_ascii s andalso s <> "\^M" andalso s <> "\\";
fun is_utf8_trailer s = is_char s andalso 128 <= ord s andalso ord s < 192;
fun implode_pseudo_utf8 (cs as ["\192", c]) =
if ord c < 160 then chr (ord c - 128) else implode cs
| implode_pseudo_utf8 cs = implode cs;
val scan_encoded_newline =
$$ "\^M" -- $$ "\n" >> K "\n" ||
$$ "\^M" >> K "\n";
val scan_raw =
Scan.this_string "raw:" ^^ (Scan.many raw_chr >> implode) ||
Scan.this_string "raw" ^^ (Scan.many1 is_ascii_digit >> implode);
val scan_total =
Scan.one is_plain ||
Scan.one is_utf8 ::: Scan.many is_utf8_trailer >> implode_pseudo_utf8 ||
scan_encoded_newline ||
($$ "\\" ^^ $$ "<" ^^
(($$ "^" ^^ Scan.optional (scan_raw || scan_ascii_id) "" || Scan.optional scan_ascii_id "") ^^
Scan.optional ($$ ">") "")) ||
Scan.one not_eof;
in
fun source src = Source.source stopper (Scan.bulk scan_total) src;
end;
(* explode *)
local
fun no_explode [] = true
| no_explode ("\\" :: "<" :: _) = false
| no_explode ("\^M" :: _) = false
| no_explode (c :: cs) = is_ascii c andalso no_explode cs;
in
fun sym_explode str =
let val chs = raw_explode str in
if no_explode chs then chs
else Source.exhaust (source (Source.of_list chs))
end;
end;
(* escape *)
val esc = fn s =>
if is_char s then s
else if is_utf8 s then translate_string (fn c => "\\" ^ string_of_int (ord c)) s
else "\\" ^ s;
val escape = implode o map esc o sym_explode;
(** scanning through symbols **)
(* scanner *)
fun scanner msg scan syms =
let
fun message (ss, NONE) = (fn () => msg ^ ": " ^ quote (beginning 10 ss))
| message (ss, SOME msg') = (fn () => msg ^ ", " ^ msg' () ^ ": " ^ quote (beginning 10 ss));
val finite_scan = Scan.error (Scan.finite stopper (!! message scan));
in
(case finite_scan syms of
(result, []) => result
| (_, rest) => error (message (rest, NONE) ()))
end;
(* space-separated words *)
val scan_word =
Scan.many1 is_ascii_blank >> K NONE ||
Scan.many1 (fn s => not (is_ascii_blank s) andalso not_eof s) >> (SOME o implode);
val split_words = scanner "Bad text" (Scan.repeat scan_word >> map_filter I);
val explode_words = split_words o sym_explode;
(* blanks *)
fun trim_blanks s =
sym_explode s
|> take_prefix is_blank |> #2
|> take_suffix is_blank |> #1
|> implode;
(* bump string -- treat as base 26 or base 1 numbers *)
fun symbolic_end (_ :: "\\<^sub>" :: _) = true
| symbolic_end ("'" :: ss) = symbolic_end ss
| symbolic_end (s :: _) = raw_symbolic s
| symbolic_end [] = false;
fun bump_init str =
if symbolic_end (rev (sym_explode str)) then str ^ "'"
else str ^ "a";
fun bump_string str =
let
fun bump [] = ["a"]
| bump ("z" :: ss) = "a" :: bump ss
| bump (s :: ss) =
if is_char s andalso ord "a" <= ord s andalso ord s < ord "z"
then chr (ord s + 1) :: ss
else "a" :: s :: ss;
val (ss, qs) = apfst rev (take_suffix is_quasi (sym_explode str));
val ss' = if symbolic_end ss then "'" :: ss else bump ss;
in implode (rev ss' @ qs) end;
(** symbol output **)
(* length *)
fun sym_len s =
if not (is_printable s) then (0: int)
else if String.isPrefix "\\<long" s then 2
else if String.isPrefix "\\<Long" s then 2
else 1;
fun sym_length ss = fold (fn s => fn n => sym_len s + n) ss 0;
(* print mode *)
val xsymbolsN = "xsymbols";
fun output s = (s, sym_length (sym_explode s));
(*final declarations of this structure!*)
val explode = sym_explode;
val length = sym_length;
end;