isabelle: src/Pure/PIDE/yxml.ML@2e610951f79a (annotated)

44698 0385292321a0 moved XML/YXML to src/Pure/PIDE; wenzelm parents: 43782 diff changeset	1	(* Title: Pure/PIDE/yxml.ML
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	2	Author: Makarius
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	3
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	4	Efficient text representation of XML trees using extra characters X
44698 0385292321a0 moved XML/YXML to src/Pure/PIDE; wenzelm parents: 43782 diff changeset	5	and Y -- no escaping, may nest marked text verbatim. Suitable for
0385292321a0 moved XML/YXML to src/Pure/PIDE; wenzelm parents: 43782 diff changeset	6	direct inlining into plain text.
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	7
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	8	Markup <elem att="val" ...>...body...</elem> is encoded as:
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	9
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	10	X Y name Y att=val ... X
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	11	...
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	12	body
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	13	...
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	14	X Y X
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	15	*)
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	16
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	17	signature YXML =
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	18	sig
43777 22c87ff1b8a9 tuned signature -- less cryptic ASCII names; wenzelm parents: 43772 diff changeset	19	val X: Symbol.symbol
22c87ff1b8a9 tuned signature -- less cryptic ASCII names; wenzelm parents: 43772 diff changeset	20	val Y: Symbol.symbol
43772 c825594fd0c1 clarified YXML.embed_controls -- this is idempotent and cannot be nested; wenzelm parents: 43731 diff changeset	21	val embed_controls: string -> string
43731 70072780e095 inner syntax supports inlined YXML according to Term_XML (particularly useful for producing text under program control); wenzelm parents: 43728 diff changeset	22	val detect: string -> bool
70990 e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	23	val traverse: (string -> 'a -> 'a) -> XML.tree -> 'a -> 'a
68228 326f4bcc5abc more scalable; wenzelm parents: 64275 diff changeset	24	val buffer: XML.tree -> Buffer.T -> Buffer.T
69845 d28e8199dcb9 more scalable on 32-bit Poly/ML; wenzelm parents: 68228 diff changeset	25	val chunks_of_body: XML.body -> string list
43728 152ce7114396 YXML.string_of_body convenience; wenzelm parents: 43615 diff changeset	26	val string_of_body: XML.body -> string
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	27	val string_of: XML.tree -> string
70991 f9f7c34b7dd4 more scalable protocol_message: use XML.body directly (Output.output hook is not required); wenzelm parents: 70990 diff changeset	28	val write_body: Path.T -> XML.body -> unit
70989 64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	29	val output_markup: Markup.T -> string * string
49656 7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	30	val output_markup_elem: Markup.T -> (string * string) * string
38266 492d377ecfe2 type XML.body as basic data representation language; wenzelm parents: 38265 diff changeset	31	val parse_body: string -> XML.body
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	32	val parse: string -> XML.tree
59433 9da5b2c61049 tuned signature; wenzelm parents: 49656 diff changeset	33	val content_of: string -> string
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	34	end;
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	35
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	36	structure YXML: YXML =
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	37	struct
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	38
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	39	( string representation )
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	40
38265 cc9fde54311f renamed YXML.binary_text to YXML.escape_controls to emphasize what it actually does; wenzelm parents: 38228 diff changeset	41	(* idempotent recoding of certain low ASCII control characters *)
34095 c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	42
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	43	fun pseudo_utf8 c =
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	44	if Symbol.is_ascii_control c
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	45	then chr 192 ^ chr (128 + ord c)
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	46	else c;
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	47
43772 c825594fd0c1 clarified YXML.embed_controls -- this is idempotent and cannot be nested; wenzelm parents: 43731 diff changeset	48	fun embed_controls str =
34095 c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	49	if exists_string Symbol.is_ascii_control str
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	50	then translate_string pseudo_utf8 str
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	51	else str;
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	52
c2f176a38448 robust representation of low ASCII control characters within XML/YXML text; wenzelm parents: 31469 diff changeset	53
26547 1112375f6a69 tuned comments; wenzelm parents: 26540 diff changeset	54	(* markers *)
1112375f6a69 tuned comments; wenzelm parents: 26540 diff changeset	55
64275 ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	56	val X_char = Char.chr 5;
ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	57	val Y_char = Char.chr 6;
ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	58
ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	59	val X = String.str X_char;
ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	60	val Y = String.str Y_char;
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	61	val XY = X ^ Y;
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	62	val XYX = XY ^ X;
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	63
64275 ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	64	fun detect s = Char.contains s X_char orelse Char.contains s Y_char;
43731 70072780e095 inner syntax supports inlined YXML according to Term_XML (particularly useful for producing text under program control); wenzelm parents: 43728 diff changeset	65
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	66
26547 1112375f6a69 tuned comments; wenzelm parents: 26540 diff changeset	67	(* output *)
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	68
70990 e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	69	fun traverse string =
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	70	let
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	71	fun attrib (a, x) = string Y #> string a #> string "=" #> string x;
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	72	fun tree (XML.Elem ((name, atts), ts)) =
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	73	string XY #> string name #> fold attrib atts #> string X #>
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	74	fold tree ts #>
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	75	string XYX
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	76	\| tree (XML.Text s) = string s;
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	77	in tree end;
43728 152ce7114396 YXML.string_of_body convenience; wenzelm parents: 43615 diff changeset	78
70990 e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	79	val buffer = traverse Buffer.add;
68228 326f4bcc5abc more scalable; wenzelm parents: 64275 diff changeset	80
70990 e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	81	fun chunks_of_body body = Buffer.empty \|> fold buffer body \|> Buffer.chunks;
e5e34bd28257 clarified signature; wenzelm parents: 70989 diff changeset	82	fun string_of_body body = Buffer.empty \|> fold buffer body \|> Buffer.content;
43728 152ce7114396 YXML.string_of_body convenience; wenzelm parents: 43615 diff changeset	83	val string_of = string_of_body o single;
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	84
70991 f9f7c34b7dd4 more scalable protocol_message: use XML.body directly (Output.output hook is not required); wenzelm parents: 70990 diff changeset	85	fun write_body path body =
f9f7c34b7dd4 more scalable protocol_message: use XML.body directly (Output.output hook is not required); wenzelm parents: 70990 diff changeset	86	path \|> File.open_output (fn file =>
70993 2e610951f79a tuned; wenzelm parents: 70991 diff changeset	87	fold (traverse (fn s => fn () => File.output file s)) body ());
70991 f9f7c34b7dd4 more scalable protocol_message: use XML.body directly (Output.output hook is not required); wenzelm parents: 70990 diff changeset	88
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	89
70989 64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	90	(* markup elements *)
49656 7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	91
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	92	val Z = chr 0;
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	93	val Z_text = [XML.Text Z];
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	94
70989 64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	95	fun output_markup (markup as (name, atts)) =
64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	96	if Markup.is_empty markup then Markup.no_output
64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	97	else (XY ^ name ^ implode (map (fn (a, x) => Y ^ a ^ "=" ^ x) atts) ^ X, XYX);
64a20b562e63 tuned; wenzelm parents: 69845 diff changeset	98
49656 7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	99	fun output_markup_elem markup =
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	100	let val [bg1, bg2, en] = space_explode Z (string_of (XML.wrap_elem ((markup, Z_text), Z_text)))
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	101	in ((bg1, bg2), en) end;
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	102
7ff712de5747 treat wrapped markup elements as raw markup delimiters; wenzelm parents: 46832 diff changeset	103
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	104
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	105	( efficient YXML parsing )
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	106
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	107	local
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	108
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	109	(* splitting *)
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	110
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	111	val split_string =
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	112	Substring.full #>
64275 ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	113	Substring.tokens (fn c => c = X_char) #>
ac2abc987cf9 accomodate Poly/ML repository version, which treats singleton strings as boxed; wenzelm parents: 59433 diff changeset	114	map (Substring.fields (fn c => c = Y_char) #> map Substring.string);
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	115
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	116
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	117	(* structural errors *)
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	118
46832 050e344825c8 tuned message (cf. ML version); wenzelm parents: 46831 diff changeset	119	fun err msg = raise Fail ("Malformed YXML: " ^ msg);
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	120	fun err_attribute () = err "bad attribute";
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	121	fun err_element () = err "bad element";
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	122	fun err_unbalanced "" = err "unbalanced element"
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	123	\| err_unbalanced name = err ("unbalanced element " ^ quote name);
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	124
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	125
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	126	(* stack operations *)
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	127
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	128	fun add x ((elem, body) :: pending) = (elem, x :: body) :: pending;
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	129
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	130	fun push "" _ _ = err_element ()
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	131	\| push name atts pending = ((name, atts), []) :: pending;
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	132
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	133	fun pop ((("", _), _) :: _) = err_unbalanced ""
38228 ada3ab6b9085 simplified type XML.tree: embed Markup.T directly, avoid slightly odd triple; wenzelm parents: 34095 diff changeset	134	\| pop ((markup, body) :: pending) = add (XML.Elem (markup, rev body)) pending;
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	135
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	136
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	137	(* parsing *)
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	138
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	139	fun parse_attrib s =
28025 d9fcab768496 replaced find_substring by first_field; wenzelm parents: 28023 diff changeset	140	(case first_field "=" s of
28023 92dd3ad302b7 simplified parse_attrib (find_substring instead of space_explode); wenzelm parents: 27932 diff changeset	141	NONE => err_attribute ()
28025 d9fcab768496 replaced find_substring by first_field; wenzelm parents: 28023 diff changeset	142	\| SOME ("", _) => err_attribute ()
d9fcab768496 replaced find_substring by first_field; wenzelm parents: 28023 diff changeset	143	\| SOME att => att);
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	144
26540 173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	145	fun parse_chunk ["", ""] = pop
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	146	\| parse_chunk ("" :: name :: atts) = push name (map parse_attrib atts)
173d548ce9d2 replaced ETX/EOT by ENQ/ACK, which are less likely to be interpreted by tty etc.; wenzelm parents: 26528 diff changeset	147	\| parse_chunk txts = fold (add o XML.Text) txts;
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	148
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	149	in
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	150
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	151	fun parse_body source =
43615 8e0f6cfa8eb2 reverted ce00462f,b3759dce, 7a165592: unwanted generalisation noschinl parents: 42355 diff changeset	152	(case fold parse_chunk (split_string source) [(("", []), [])] of
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	153	[(("", _), result)] => rev result
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	154	\| ((name, _), _) :: _ => err_unbalanced name);
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	155
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	156	fun parse source =
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	157	(case parse_body source of
27798 b96c73f11a23 YXML.parse: allow text without markup, potentially empty; wenzelm parents: 26684 diff changeset	158	[result] => result
b96c73f11a23 YXML.parse: allow text without markup, potentially empty; wenzelm parents: 26684 diff changeset	159	\| [] => XML.Text ""
b96c73f11a23 YXML.parse: allow text without markup, potentially empty; wenzelm parents: 26684 diff changeset	160	\| _ => err "multiple results");
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	161
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	162	end;
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	163
59433 9da5b2c61049 tuned signature; wenzelm parents: 49656 diff changeset	164	val content_of = parse_body #> XML.content_of;
9da5b2c61049 tuned signature; wenzelm parents: 49656 diff changeset	165
26528 944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	166	end;
944f9bf26d2d Why XML notation? wenzelm parents: diff changeset	167

author	wenzelm
	Sat, 02 Nov 2019 12:32:38 +0100
changeset 70993	2e610951f79a
parent 70991	f9f7c34b7dd4
child 70996	ebdfd6c43e56
permissions	-rw-r--r--