wneuper/isa: src/Pure/Syntax/syntax.ML@e3ac771235f7 (annotated)

wenzelm@18	1	(* Title: Pure/Syntax/syntax.ML
clasohm@0	2	Author: Tobias Nipkow and Markus Wenzel, TU Muenchen
wenzelm@18	3
wenzelm@24263	4	Standard Isabelle syntax, based on arbitrary context-free grammars
wenzelm@24263	5	(specified by mixfix declarations).
clasohm@0	6	*)
clasohm@0	7
wenzelm@260	8	signature BASIC_SYNTAX =
wenzelm@2383	9	sig
wenzelm@260	10	include AST0
wenzelm@556	11	include SYN_TRANS0
wenzelm@556	12	include MIXFIX0
wenzelm@260	13	include PRINTER0
wenzelm@2383	14	end;
wenzelm@260	15
clasohm@0	16	signature SYNTAX =
wenzelm@2383	17	sig
wenzelm@260	18	include AST1
clasohm@0	19	include LEXICON0
wenzelm@237	20	include SYN_EXT0
clasohm@0	21	include TYPE_EXT0
wenzelm@556	22	include SYN_TRANS1
wenzelm@556	23	include MIXFIX1
clasohm@0	24	include PRINTER0
wenzelm@30576	25	val read_token: string -> Symbol_Pos.T list * Position.T
wenzelm@38494	26	val parse_token: Proof.context -> Markup.T -> string -> Symbol_Pos.T list * Position.T
wenzelm@24263	27	val parse_sort: Proof.context -> string -> sort
wenzelm@24263	28	val parse_typ: Proof.context -> string -> typ
wenzelm@24263	29	val parse_term: Proof.context -> string -> term
wenzelm@24263	30	val parse_prop: Proof.context -> string -> term
wenzelm@24768	31	val unparse_sort: Proof.context -> sort -> Pretty.T
wenzelm@24923	32	val unparse_classrel: Proof.context -> class list -> Pretty.T
wenzelm@24923	33	val unparse_arity: Proof.context -> arity -> Pretty.T
wenzelm@24768	34	val unparse_typ: Proof.context -> typ -> Pretty.T
wenzelm@24768	35	val unparse_term: Proof.context -> term -> Pretty.T
wenzelm@24768	36	val install_operations:
wenzelm@24768	37	{parse_sort: Proof.context -> string -> sort,
wenzelm@24768	38	parse_typ: Proof.context -> string -> typ,
wenzelm@24768	39	parse_term: Proof.context -> string -> term,
wenzelm@24768	40	parse_prop: Proof.context -> string -> term,
wenzelm@24768	41	unparse_sort: Proof.context -> sort -> Pretty.T,
wenzelm@24768	42	unparse_typ: Proof.context -> typ -> Pretty.T,
wenzelm@24768	43	unparse_term: Proof.context -> term -> Pretty.T} -> unit
wenzelm@24768	44	val print_checks: Proof.context -> unit
wenzelm@24768	45	val add_typ_check: int -> string ->
wenzelm@25060	46	(typ list -> Proof.context -> (typ list * Proof.context) option) ->
wenzelm@24768	47	Context.generic -> Context.generic
wenzelm@24768	48	val add_term_check: int -> string ->
wenzelm@25060	49	(term list -> Proof.context -> (term list * Proof.context) option) ->
wenzelm@24768	50	Context.generic -> Context.generic
wenzelm@24768	51	val add_typ_uncheck: int -> string ->
wenzelm@25060	52	(typ list -> Proof.context -> (typ list * Proof.context) option) ->
wenzelm@24768	53	Context.generic -> Context.generic
wenzelm@24768	54	val add_term_uncheck: int -> string ->
wenzelm@25060	55	(term list -> Proof.context -> (term list * Proof.context) option) ->
wenzelm@24768	56	Context.generic -> Context.generic
wenzelm@24488	57	val check_sort: Proof.context -> sort -> sort
wenzelm@24512	58	val check_typ: Proof.context -> typ -> typ
wenzelm@24512	59	val check_term: Proof.context -> term -> term
wenzelm@24512	60	val check_prop: Proof.context -> term -> term
wenzelm@24488	61	val check_typs: Proof.context -> typ list -> typ list
wenzelm@24263	62	val check_terms: Proof.context -> term list -> term list
wenzelm@24263	63	val check_props: Proof.context -> term list -> term list
wenzelm@24923	64	val uncheck_sort: Proof.context -> sort -> sort
wenzelm@24923	65	val uncheck_arity: Proof.context -> arity -> arity
wenzelm@24923	66	val uncheck_classrel: Proof.context -> class list -> class list
wenzelm@24768	67	val uncheck_typs: Proof.context -> typ list -> typ list
wenzelm@24768	68	val uncheck_terms: Proof.context -> term list -> term list
wenzelm@24263	69	val read_sort: Proof.context -> string -> sort
wenzelm@24263	70	val read_typ: Proof.context -> string -> typ
wenzelm@24488	71	val read_term: Proof.context -> string -> term
wenzelm@24488	72	val read_prop: Proof.context -> string -> term
wenzelm@24263	73	val read_terms: Proof.context -> string list -> term list
wenzelm@24263	74	val read_props: Proof.context -> string list -> term list
wenzelm@24709	75	val read_sort_global: theory -> string -> sort
wenzelm@24709	76	val read_typ_global: theory -> string -> typ
wenzelm@24709	77	val read_term_global: theory -> string -> term
wenzelm@24709	78	val read_prop_global: theory -> string -> term
wenzelm@24923	79	val pretty_term: Proof.context -> term -> Pretty.T
wenzelm@24923	80	val pretty_typ: Proof.context -> typ -> Pretty.T
wenzelm@24923	81	val pretty_sort: Proof.context -> sort -> Pretty.T
wenzelm@24923	82	val pretty_classrel: Proof.context -> class list -> Pretty.T
wenzelm@24923	83	val pretty_arity: Proof.context -> arity -> Pretty.T
wenzelm@24923	84	val string_of_term: Proof.context -> term -> string
wenzelm@24923	85	val string_of_typ: Proof.context -> typ -> string
wenzelm@24923	86	val string_of_sort: Proof.context -> sort -> string
wenzelm@24923	87	val string_of_classrel: Proof.context -> class list -> string
wenzelm@24923	88	val string_of_arity: Proof.context -> arity -> string
wenzelm@26951	89	val is_pretty_global: Proof.context -> bool
wenzelm@26951	90	val set_pretty_global: bool -> Proof.context -> Proof.context
wenzelm@26951	91	val init_pretty_global: theory -> Proof.context
wenzelm@26951	92	val pretty_term_global: theory -> term -> Pretty.T
wenzelm@26951	93	val pretty_typ_global: theory -> typ -> Pretty.T
wenzelm@26951	94	val pretty_sort_global: theory -> sort -> Pretty.T
wenzelm@26951	95	val string_of_term_global: theory -> term -> string
wenzelm@26951	96	val string_of_typ_global: theory -> typ -> string
wenzelm@26951	97	val string_of_sort_global: theory -> sort -> string
wenzelm@24970	98	val pp: Proof.context -> Pretty.pp
wenzelm@26951	99	val pp_global: theory -> Pretty.pp
wenzelm@39394	100	type syntax
wenzelm@39394	101	val eq_syntax: syntax * syntax -> bool
wenzelm@39394	102	val is_keyword: syntax -> string -> bool
wenzelm@39394	103	type mode
wenzelm@39394	104	val mode_default: mode
wenzelm@39394	105	val mode_input: mode
wenzelm@39394	106	val merge_syntaxes: syntax -> syntax -> syntax
wenzelm@39394	107	val basic_syntax: syntax
wenzelm@39394	108	val basic_nonterms: string list
wenzelm@39394	109	val print_gram: syntax -> unit
wenzelm@39394	110	val print_trans: syntax -> unit
wenzelm@39394	111	val print_syntax: syntax -> unit
wenzelm@39394	112	val guess_infix: syntax -> string -> mixfix option
wenzelm@39394	113	val ambiguity_enabled: bool Config.T
wenzelm@39409	114	val ambiguity_level_raw: Config.raw
wenzelm@39394	115	val ambiguity_level: int Config.T
wenzelm@39394	116	val ambiguity_limit: int Config.T
wenzelm@39395	117	val standard_parse_term: (term -> string option) ->
wenzelm@39394	118	(((string * int) * sort) list -> string * int -> Term.sort) ->
wenzelm@39394	119	(string -> bool * string) -> (string -> string option) -> Proof.context ->
wenzelm@39394	120	(string -> bool) -> syntax -> typ -> Symbol_Pos.T list * Position.T -> term
wenzelm@39394	121	val standard_parse_typ: Proof.context -> syntax ->
wenzelm@39394	122	((indexname * sort) list -> indexname -> sort) -> Symbol_Pos.T list * Position.T -> typ
wenzelm@39394	123	val standard_parse_sort: Proof.context -> syntax -> Symbol_Pos.T list * Position.T -> sort
wenzelm@39394	124	datatype 'a trrule =
wenzelm@39394	125	ParseRule of 'a * 'a \|
wenzelm@39394	126	PrintRule of 'a * 'a \|
wenzelm@39394	127	ParsePrintRule of 'a * 'a
wenzelm@39394	128	val map_trrule: ('a -> 'b) -> 'a trrule -> 'b trrule
wenzelm@39394	129	val is_const: syntax -> string -> bool
wenzelm@39394	130	val standard_unparse_term: {structs: string list, fixes: string list} ->
wenzelm@39394	131	{extern_class: string -> xstring, extern_type: string -> xstring,
wenzelm@39394	132	extern_const: string -> xstring} -> Proof.context -> syntax -> bool -> term -> Pretty.T
wenzelm@39394	133	val standard_unparse_typ: {extern_class: string -> xstring, extern_type: string -> xstring} ->
wenzelm@39394	134	Proof.context -> syntax -> typ -> Pretty.T
wenzelm@39394	135	val standard_unparse_sort: {extern_class: string -> xstring} ->
wenzelm@39394	136	Proof.context -> syntax -> sort -> Pretty.T
wenzelm@39394	137	val update_trfuns:
wenzelm@39394	138	(string * ((ast list -> ast) * stamp)) list *
wenzelm@39394	139	(string * ((term list -> term) * stamp)) list *
wenzelm@39394	140	(string * ((bool -> typ -> term list -> term) * stamp)) list *
wenzelm@39394	141	(string * ((ast list -> ast) * stamp)) list -> syntax -> syntax
wenzelm@39394	142	val update_advanced_trfuns:
wenzelm@39394	143	(string * ((Proof.context -> ast list -> ast) * stamp)) list *
wenzelm@39394	144	(string * ((Proof.context -> term list -> term) * stamp)) list *
wenzelm@39394	145	(string * ((Proof.context -> bool -> typ -> term list -> term) * stamp)) list *
wenzelm@39394	146	(string * ((Proof.context -> ast list -> ast) * stamp)) list -> syntax -> syntax
wenzelm@39394	147	val extend_tokentrfuns: (string * string * (Proof.context -> string -> Pretty.T)) list ->
wenzelm@39394	148	syntax -> syntax
wenzelm@39394	149	val update_type_gram: bool -> mode -> (string * typ * mixfix) list -> syntax -> syntax
wenzelm@39394	150	val update_const_gram: bool -> (string -> bool) ->
wenzelm@39394	151	mode -> (string * typ * mixfix) list -> syntax -> syntax
wenzelm@39394	152	val update_trrules: Proof.context -> (string -> bool) -> syntax ->
wenzelm@39394	153	(string * string) trrule list -> syntax -> syntax
wenzelm@39394	154	val remove_trrules: Proof.context -> (string -> bool) -> syntax ->
wenzelm@39394	155	(string * string) trrule list -> syntax -> syntax
wenzelm@39394	156	val update_trrules_i: ast trrule list -> syntax -> syntax
wenzelm@39394	157	val remove_trrules_i: ast trrule list -> syntax -> syntax
wenzelm@2383	158	end;
clasohm@0	159
wenzelm@12094	160	structure Syntax: SYNTAX =
clasohm@0	161	struct
clasohm@0	162
wenzelm@39394	163	( inner syntax operations )
clasohm@0	164
wenzelm@27786	165	(* read token -- with optional YXML encoding of position *)
wenzelm@27786	166
wenzelm@27786	167	fun read_token str =
wenzelm@38485	168	let
wenzelm@38485	169	val tree = YXML.parse str handle Fail msg => error msg;
wenzelm@38485	170	val text = Buffer.empty \|> XML.add_content tree \|> Buffer.content;
wenzelm@38485	171	val pos =
wenzelm@38485	172	(case tree of
wenzelm@38485	173	XML.Elem ((name, props), _) =>
wenzelm@38485	174	if name = Markup.tokenN then Position.of_properties props
wenzelm@38485	175	else Position.none
wenzelm@38485	176	\| XML.Text _ => Position.none);
wenzelm@30576	177	in (Symbol_Pos.explode (text, pos), pos) end;
wenzelm@27786	178
wenzelm@27786	179
wenzelm@24768	180	(* (un)parsing *)
wenzelm@24263	181
wenzelm@38494	182	fun parse_token ctxt markup str =
wenzelm@27822	183	let
wenzelm@27822	184	val (syms, pos) = read_token str;
wenzelm@38494	185	val _ = Context_Position.report ctxt markup pos;
wenzelm@27822	186	in (syms, pos) end;
wenzelm@27822	187
wenzelm@24263	188	local
wenzelm@24768	189
wenzelm@36748	190	type operations =
wenzelm@36748	191	{parse_sort: Proof.context -> string -> sort,
wenzelm@36748	192	parse_typ: Proof.context -> string -> typ,
wenzelm@36748	193	parse_term: Proof.context -> string -> term,
wenzelm@36748	194	parse_prop: Proof.context -> string -> term,
wenzelm@36748	195	unparse_sort: Proof.context -> sort -> Pretty.T,
wenzelm@36748	196	unparse_typ: Proof.context -> typ -> Pretty.T,
wenzelm@36748	197	unparse_term: Proof.context -> term -> Pretty.T};
wenzelm@24768	198
wenzelm@36748	199	val operations: operations Single_Assignment.var = Single_Assignment.var "Syntax.operations";
wenzelm@36748	200
wenzelm@36748	201	fun operation which ctxt x =
wenzelm@36748	202	(case Single_Assignment.peek operations of
wenzelm@36748	203	NONE => raise Fail "Inner syntax operations not installed"
wenzelm@36748	204	\| SOME ops => which ops ctxt x);
wenzelm@36748	205
wenzelm@24263	206	in
wenzelm@24263	207
wenzelm@24768	208	val parse_sort = operation #parse_sort;
wenzelm@24768	209	val parse_typ = operation #parse_typ;
wenzelm@24768	210	val parse_term = operation #parse_term;
wenzelm@24768	211	val parse_prop = operation #parse_prop;
wenzelm@24768	212	val unparse_sort = operation #unparse_sort;
wenzelm@24768	213	val unparse_typ = operation #unparse_typ;
wenzelm@24768	214	val unparse_term = operation #unparse_term;
wenzelm@24768	215
wenzelm@36748	216	fun install_operations ops = Single_Assignment.assign operations ops;
wenzelm@24768	217
wenzelm@24263	218	end;
wenzelm@24263	219
wenzelm@24263	220
wenzelm@24768	221	(* context-sensitive (un)checking *)
wenzelm@24263	222
wenzelm@24488	223	local
wenzelm@24488	224
wenzelm@24768	225	type key = int * bool;
wenzelm@25060	226	type 'a check = 'a list -> Proof.context -> ('a list * Proof.context) option;
wenzelm@24768	227
wenzelm@33519	228	structure Checks = Generic_Data
wenzelm@24263	229	(
wenzelm@24488	230	type T =
wenzelm@24768	231	((key * ((string * typ check) * stamp) list) list *
wenzelm@24768	232	(key * ((string * term check) * stamp) list) list);
wenzelm@24488	233	val empty = ([], []);
wenzelm@24263	234	val extend = I;
wenzelm@33519	235	fun merge ((typ_checks1, term_checks1), (typ_checks2, term_checks2)) : T =
wenzelm@24768	236	(AList.join (op =) (K (Library.merge (eq_snd (op =)))) (typ_checks1, typ_checks2),
wenzelm@24768	237	AList.join (op =) (K (Library.merge (eq_snd (op =)))) (term_checks1, term_checks2));
wenzelm@24263	238	);
wenzelm@24263	239
wenzelm@24768	240	fun gen_add which (key: key) name f =
wenzelm@24768	241	Checks.map (which (AList.map_default op = (key, []) (cons ((name, f), stamp ()))));
wenzelm@24768	242
wenzelm@25060	243	fun check_stage fs = perhaps_loop (perhaps_apply (map uncurry fs));
wenzelm@25060	244
wenzelm@25060	245	fun gen_check which uncheck ctxt0 xs0 =
wenzelm@24488	246	let
wenzelm@24768	247	val funs = which (Checks.get (Context.Proof ctxt0))
wenzelm@24768	248	\|> map_filter (fn ((i, u), fs) => if uncheck = u then SOME (i, map (snd o fst) fs) else NONE)
wenzelm@25060	249	\|> Library.sort (int_ord o pairself fst) \|> map snd
wenzelm@25060	250	\|> not uncheck ? map rev;
wenzelm@25060	251	val check_all = perhaps_apply (map check_stage funs);
wenzelm@25060	252	in #1 (perhaps check_all (xs0, ctxt0)) end;
wenzelm@24263	253
wenzelm@24768	254	fun map_sort f S =
wenzelm@24768	255	(case f (TFree ("", S)) of
wenzelm@24768	256	TFree ("", S') => S'
wenzelm@24923	257	\| _ => raise TYPE ("map_sort", [TFree ("", S)], []));
wenzelm@24263	258
wenzelm@24488	259	in
wenzelm@24488	260
wenzelm@24768	261	fun print_checks ctxt =
wenzelm@24768	262	let
wenzelm@24768	263	fun split_checks checks =
wenzelm@24768	264	List.partition (fn ((_, un), _) => not un) checks
wenzelm@24768	265	\|> pairself (map (fn ((i, _), fs) => (i, map (fst o fst) fs))
wenzelm@24768	266	#> sort (int_ord o pairself fst));
wenzelm@24768	267	fun pretty_checks kind checks =
wenzelm@24768	268	checks \|> map (fn (i, names) => Pretty.block
wenzelm@24768	269	[Pretty.str (kind ^ " (stage " ^ signed_string_of_int i ^ "):"),
wenzelm@24768	270	Pretty.brk 1, Pretty.strs names]);
wenzelm@24768	271
wenzelm@24768	272	val (typs, terms) = Checks.get (Context.Proof ctxt);
wenzelm@24768	273	val (typ_checks, typ_unchecks) = split_checks typs;
wenzelm@24768	274	val (term_checks, term_unchecks) = split_checks terms;
wenzelm@24768	275	in
wenzelm@24768	276	pretty_checks "typ_checks" typ_checks @
wenzelm@24768	277	pretty_checks "term_checks" term_checks @
wenzelm@24768	278	pretty_checks "typ_unchecks" typ_unchecks @
wenzelm@24768	279	pretty_checks "term_unchecks" term_unchecks
wenzelm@24768	280	end \|> Pretty.chunks \|> Pretty.writeln;
wenzelm@24768	281
wenzelm@24768	282	fun add_typ_check stage = gen_add apfst (stage, false);
wenzelm@24768	283	fun add_term_check stage = gen_add apsnd (stage, false);
wenzelm@24768	284	fun add_typ_uncheck stage = gen_add apfst (stage, true);
wenzelm@24768	285	fun add_term_uncheck stage = gen_add apsnd (stage, true);
wenzelm@24768	286
wenzelm@25060	287	val check_typs = gen_check fst false;
wenzelm@25060	288	val check_terms = gen_check snd false;
wenzelm@37216	289	fun check_props ctxt = map (Type_Ext.type_constraint propT) #> check_terms ctxt;
wenzelm@24488	290
wenzelm@24512	291	val check_typ = singleton o check_typs;
wenzelm@24512	292	val check_term = singleton o check_terms;
wenzelm@24512	293	val check_prop = singleton o check_props;
wenzelm@24768	294	val check_sort = map_sort o check_typ;
wenzelm@24263	295
wenzelm@25060	296	val uncheck_typs = gen_check fst true;
wenzelm@25060	297	val uncheck_terms = gen_check snd true;
wenzelm@24768	298	val uncheck_sort = map_sort o singleton o uncheck_typs;
wenzelm@24488	299
wenzelm@24488	300	end;
wenzelm@24488	301
wenzelm@24263	302
wenzelm@24923	303	(* derived operations for classrel and arity *)
wenzelm@24923	304
wenzelm@24923	305	val uncheck_classrel = map o singleton o uncheck_sort;
wenzelm@24923	306
wenzelm@24923	307	fun unparse_classrel ctxt cs = Pretty.block (flat
wenzelm@24923	308	(separate [Pretty.str " <", Pretty.brk 1] (map (single o unparse_sort ctxt o single) cs)));
wenzelm@24923	309
wenzelm@24923	310	fun uncheck_arity ctxt (a, Ss, S) =
wenzelm@24923	311	let
wenzelm@24923	312	val T = Type (a, replicate (length Ss) dummyT);
wenzelm@24923	313	val a' =
wenzelm@24923	314	(case singleton (uncheck_typs ctxt) T of
wenzelm@24923	315	Type (a', _) => a'
wenzelm@24923	316	\| T => raise TYPE ("uncheck_arity", [T], []));
wenzelm@24923	317	val Ss' = map (uncheck_sort ctxt) Ss;
wenzelm@24923	318	val S' = uncheck_sort ctxt S;
wenzelm@24923	319	in (a', Ss', S') end;
wenzelm@24923	320
wenzelm@24923	321	fun unparse_arity ctxt (a, Ss, S) =
wenzelm@24923	322	let
wenzelm@25043	323	val prtT = unparse_typ ctxt (Type (a, []));
wenzelm@24923	324	val dom =
wenzelm@24923	325	if null Ss then []
wenzelm@24923	326	else [Pretty.list "(" ")" (map (unparse_sort ctxt) Ss), Pretty.brk 1];
wenzelm@25043	327	in Pretty.block ([prtT, Pretty.str " ::", Pretty.brk 1] @ dom @ [unparse_sort ctxt S]) end;
wenzelm@24923	328
wenzelm@24923	329
wenzelm@24923	330	(* read = parse + check *)
wenzelm@24263	331
wenzelm@24263	332	fun read_sort ctxt = parse_sort ctxt #> check_sort ctxt;
wenzelm@24263	333	fun read_typ ctxt = parse_typ ctxt #> singleton (check_typs ctxt);
wenzelm@24263	334
wenzelm@24263	335	fun read_terms ctxt = map (parse_term ctxt) #> check_terms ctxt;
wenzelm@24263	336	fun read_props ctxt = map (parse_prop ctxt) #> check_props ctxt;
wenzelm@24263	337
wenzelm@24263	338	val read_term = singleton o read_terms;
wenzelm@24263	339	val read_prop = singleton o read_props;
wenzelm@24263	340
wenzelm@36633	341	val read_sort_global = read_sort o ProofContext.init_global;
wenzelm@36633	342	val read_typ_global = read_typ o ProofContext.init_global;
wenzelm@36633	343	val read_term_global = read_term o ProofContext.init_global;
wenzelm@36633	344	val read_prop_global = read_prop o ProofContext.init_global;
wenzelm@24278	345
wenzelm@24263	346
wenzelm@24923	347	(* pretty = uncheck + unparse *)
wenzelm@24923	348
wenzelm@26951	349	fun pretty_term ctxt = singleton (uncheck_terms ctxt) #> unparse_term ctxt;
wenzelm@26951	350	fun pretty_typ ctxt = singleton (uncheck_typs ctxt) #> unparse_typ ctxt;
wenzelm@24923	351	fun pretty_sort ctxt = uncheck_sort ctxt #> unparse_sort ctxt;
wenzelm@24923	352	fun pretty_classrel ctxt = uncheck_classrel ctxt #> unparse_classrel ctxt;
wenzelm@24923	353	fun pretty_arity ctxt = uncheck_arity ctxt #> unparse_arity ctxt;
wenzelm@24923	354
wenzelm@26951	355	val string_of_term = Pretty.string_of oo pretty_term;
wenzelm@26951	356	val string_of_typ = Pretty.string_of oo pretty_typ;
wenzelm@24923	357	val string_of_sort = Pretty.string_of oo pretty_sort;
wenzelm@24923	358	val string_of_classrel = Pretty.string_of oo pretty_classrel;
wenzelm@24923	359	val string_of_arity = Pretty.string_of oo pretty_arity;
wenzelm@24923	360
wenzelm@26951	361
wenzelm@26951	362	(* global pretty printing *)
wenzelm@26951	363
wenzelm@33519	364	structure PrettyGlobal = Proof_Data(type T = bool fun init _ = false);
wenzelm@26951	365	val is_pretty_global = PrettyGlobal.get;
wenzelm@26951	366	val set_pretty_global = PrettyGlobal.put;
wenzelm@36633	367	val init_pretty_global = set_pretty_global true o ProofContext.init_global;
wenzelm@26951	368
wenzelm@26951	369	val pretty_term_global = pretty_term o init_pretty_global;
wenzelm@26951	370	val pretty_typ_global = pretty_typ o init_pretty_global;
wenzelm@26951	371	val pretty_sort_global = pretty_sort o init_pretty_global;
wenzelm@26951	372
wenzelm@26951	373	val string_of_term_global = string_of_term o init_pretty_global;
wenzelm@26951	374	val string_of_typ_global = string_of_typ o init_pretty_global;
wenzelm@26951	375	val string_of_sort_global = string_of_sort o init_pretty_global;
wenzelm@26951	376
wenzelm@26951	377
wenzelm@26951	378	(* pp operations -- deferred evaluation *)
wenzelm@26951	379
wenzelm@24970	380	fun pp ctxt = Pretty.pp
wenzelm@24970	381	(fn x => pretty_term ctxt x,
wenzelm@24970	382	fn x => pretty_typ ctxt x,
wenzelm@24970	383	fn x => pretty_sort ctxt x,
wenzelm@24970	384	fn x => pretty_classrel ctxt x,
wenzelm@24970	385	fn x => pretty_arity ctxt x);
wenzelm@24923	386
wenzelm@26951	387	fun pp_global thy = Pretty.pp
wenzelm@26951	388	(fn x => pretty_term_global thy x,
wenzelm@26951	389	fn x => pretty_typ_global thy x,
wenzelm@26951	390	fn x => pretty_sort_global thy x,
wenzelm@26951	391	fn x => pretty_classrel (init_pretty_global thy) x,
wenzelm@26951	392	fn x => pretty_arity (init_pretty_global thy) x);
wenzelm@26951	393
haftmann@26678	394
wenzelm@39394	395
wenzelm@39394	396	( tables of translation functions )
wenzelm@39394	397
wenzelm@39394	398	(* parse (ast) translations *)
wenzelm@39394	399
wenzelm@39394	400	fun lookup_tr tab c = Option.map fst (Symtab.lookup tab c);
wenzelm@39394	401
wenzelm@39394	402	fun err_dup_trfun name c =
wenzelm@39394	403	error ("More than one " ^ name ^ " for " ^ quote c);
wenzelm@39394	404
wenzelm@39394	405	fun remove_trtab trfuns = fold (Symtab.remove Syn_Ext.eq_trfun) trfuns;
wenzelm@39394	406
wenzelm@39394	407	fun update_trtab name trfuns tab = fold Symtab.update_new trfuns (remove_trtab trfuns tab)
wenzelm@39394	408	handle Symtab.DUP c => err_dup_trfun name c;
wenzelm@39394	409
wenzelm@39394	410	fun merge_trtabs name tab1 tab2 = Symtab.merge Syn_Ext.eq_trfun (tab1, tab2)
wenzelm@39394	411	handle Symtab.DUP c => err_dup_trfun name c;
wenzelm@39394	412
wenzelm@39394	413
wenzelm@39394	414	(* print (ast) translations *)
wenzelm@39394	415
wenzelm@39394	416	fun lookup_tr' tab c = map fst (Symtab.lookup_list tab c);
wenzelm@39394	417	fun update_tr'tab trfuns = fold_rev (Symtab.update_list Syn_Ext.eq_trfun) trfuns;
wenzelm@39394	418	fun remove_tr'tab trfuns = fold (Symtab.remove_list Syn_Ext.eq_trfun) trfuns;
wenzelm@39394	419	fun merge_tr'tabs tab1 tab2 = Symtab.merge_list Syn_Ext.eq_trfun (tab1, tab2);
wenzelm@39394	420
wenzelm@39394	421
wenzelm@39394	422
wenzelm@39394	423	( tables of token translation functions )
wenzelm@39394	424
wenzelm@39394	425	fun lookup_tokentr tabs modes =
wenzelm@39394	426	let val trs = distinct (eq_fst (op =)) (maps (these o AList.lookup (op =) tabs) (modes @ [""]))
wenzelm@39394	427	in fn c => Option.map fst (AList.lookup (op =) trs c) end;
wenzelm@39394	428
wenzelm@39394	429	fun merge_tokentrtabs tabs1 tabs2 =
wenzelm@39394	430	let
wenzelm@39394	431	fun eq_tr ((c1, (_, s1)), (c2, (_, s2))) = c1 = c2 andalso s1 = s2;
wenzelm@39394	432
wenzelm@39394	433	fun name (s, _) = implode (tl (Symbol.explode s));
wenzelm@39394	434
wenzelm@39394	435	fun merge mode =
wenzelm@39394	436	let
wenzelm@39394	437	val trs1 = these (AList.lookup (op =) tabs1 mode);
wenzelm@39394	438	val trs2 = these (AList.lookup (op =) tabs2 mode);
wenzelm@39394	439	val trs = distinct eq_tr (trs1 @ trs2);
wenzelm@39394	440	in
wenzelm@39394	441	(case duplicates (eq_fst (op =)) trs of
wenzelm@39394	442	[] => (mode, trs)
wenzelm@39394	443	\| dups => error ("More than one token translation function in mode " ^
wenzelm@39394	444	quote mode ^ " for " ^ commas_quote (map name dups)))
wenzelm@39394	445	end;
wenzelm@39394	446	in map merge (distinct (op =) (map fst (tabs1 @ tabs2))) end;
wenzelm@39394	447
wenzelm@39394	448	fun extend_tokentrtab tokentrs tabs =
wenzelm@39394	449	let
wenzelm@39394	450	fun ins_tokentr (m, c, f) =
wenzelm@39394	451	AList.default (op =) (m, [])
wenzelm@39394	452	#> AList.map_entry (op =) m (cons ("_" ^ c, (f, stamp ())));
wenzelm@39394	453	in merge_tokentrtabs tabs (fold ins_tokentr tokentrs []) end;
wenzelm@39394	454
wenzelm@39394	455
wenzelm@39394	456
wenzelm@39394	457	( tables of translation rules )
wenzelm@39394	458
wenzelm@39394	459	type ruletab = (Ast.ast * Ast.ast) list Symtab.table;
wenzelm@39394	460
wenzelm@39394	461	fun dest_ruletab tab = maps snd (Symtab.dest tab);
wenzelm@39394	462
wenzelm@39394	463
wenzelm@39394	464	(* empty, update, merge ruletabs *)
wenzelm@39394	465
wenzelm@39394	466	val update_ruletab = fold_rev (fn r => Symtab.update_list (op =) (Ast.head_of_rule r, r));
wenzelm@39394	467	val remove_ruletab = fold (fn r => Symtab.remove_list (op =) (Ast.head_of_rule r, r));
wenzelm@39394	468	fun merge_ruletabs tab1 tab2 = Symtab.merge_list (op =) (tab1, tab2);
wenzelm@39394	469
wenzelm@39394	470
wenzelm@39394	471
wenzelm@39394	472	( datatype syntax )
wenzelm@39394	473
wenzelm@39394	474	datatype syntax =
wenzelm@39394	475	Syntax of {
wenzelm@39394	476	input: Syn_Ext.xprod list,
wenzelm@39394	477	lexicon: Scan.lexicon,
wenzelm@39394	478	gram: Parser.gram,
wenzelm@39394	479	consts: string list,
wenzelm@39394	480	prmodes: string list,
wenzelm@39394	481	parse_ast_trtab: ((Proof.context -> Ast.ast list -> Ast.ast) * stamp) Symtab.table,
wenzelm@39394	482	parse_ruletab: ruletab,
wenzelm@39394	483	parse_trtab: ((Proof.context -> term list -> term) * stamp) Symtab.table,
wenzelm@39394	484	print_trtab: ((Proof.context -> bool -> typ -> term list -> term) * stamp) list Symtab.table,
wenzelm@39394	485	print_ruletab: ruletab,
wenzelm@39394	486	print_ast_trtab: ((Proof.context -> Ast.ast list -> Ast.ast) * stamp) list Symtab.table,
wenzelm@39394	487	tokentrtab: (string * (string * ((Proof.context -> string -> Pretty.T) * stamp)) list) list,
wenzelm@39394	488	prtabs: Printer.prtabs} * stamp;
wenzelm@39394	489
wenzelm@39394	490	fun eq_syntax (Syntax (_, s1), Syntax (_, s2)) = s1 = s2;
wenzelm@39394	491
wenzelm@39394	492	fun is_keyword (Syntax ({lexicon, ...}, _)) = Scan.is_literal lexicon o Symbol.explode;
wenzelm@39394	493
wenzelm@39394	494	type mode = string * bool;
wenzelm@39394	495	val mode_default = ("", true);
wenzelm@39394	496	val mode_input = (Print_Mode.input, true);
wenzelm@39394	497
wenzelm@39394	498
wenzelm@39394	499	(* empty_syntax *)
wenzelm@39394	500
wenzelm@39394	501	val empty_syntax = Syntax
wenzelm@39394	502	({input = [],
wenzelm@39394	503	lexicon = Scan.empty_lexicon,
wenzelm@39394	504	gram = Parser.empty_gram,
wenzelm@39394	505	consts = [],
wenzelm@39394	506	prmodes = [],
wenzelm@39394	507	parse_ast_trtab = Symtab.empty,
wenzelm@39394	508	parse_ruletab = Symtab.empty,
wenzelm@39394	509	parse_trtab = Symtab.empty,
wenzelm@39394	510	print_trtab = Symtab.empty,
wenzelm@39394	511	print_ruletab = Symtab.empty,
wenzelm@39394	512	print_ast_trtab = Symtab.empty,
wenzelm@39394	513	tokentrtab = [],
wenzelm@39394	514	prtabs = Printer.empty_prtabs}, stamp ());
wenzelm@39394	515
wenzelm@39394	516
wenzelm@39394	517	(* update_syntax *)
wenzelm@39394	518
wenzelm@39394	519	fun update_syntax (mode, inout) syn_ext (Syntax (tabs, _)) =
wenzelm@39394	520	let
wenzelm@39394	521	val {input, lexicon, gram, consts = consts1, prmodes = prmodes1,
wenzelm@39394	522	parse_ast_trtab, parse_ruletab, parse_trtab, print_trtab, print_ruletab,
wenzelm@39394	523	print_ast_trtab, tokentrtab, prtabs} = tabs;
wenzelm@39394	524	val Syn_Ext.Syn_Ext {xprods, consts = consts2, prmodes = prmodes2,
wenzelm@39394	525	parse_ast_translation, parse_rules, parse_translation, print_translation, print_rules,
wenzelm@39394	526	print_ast_translation, token_translation} = syn_ext;
wenzelm@39394	527	val new_xprods =
wenzelm@39394	528	if inout then distinct (op =) (filter_out (member (op =) input) xprods) else [];
wenzelm@39394	529	fun if_inout xs = if inout then xs else [];
wenzelm@39394	530	in
wenzelm@39394	531	Syntax
wenzelm@39394	532	({input = new_xprods @ input,
wenzelm@39394	533	lexicon = fold Scan.extend_lexicon (Syn_Ext.delims_of new_xprods) lexicon,
wenzelm@39394	534	gram = Parser.extend_gram new_xprods gram,
wenzelm@39394	535	consts = Library.merge (op =) (consts1, filter_out Lexicon.is_marked consts2),
wenzelm@39394	536	prmodes = insert (op =) mode (Library.merge (op =) (prmodes1, prmodes2)),
wenzelm@39394	537	parse_ast_trtab =
wenzelm@39394	538	update_trtab "parse ast translation" (if_inout parse_ast_translation) parse_ast_trtab,
wenzelm@39394	539	parse_ruletab = update_ruletab (if_inout parse_rules) parse_ruletab,
wenzelm@39394	540	parse_trtab = update_trtab "parse translation" (if_inout parse_translation) parse_trtab,
wenzelm@39394	541	print_trtab = update_tr'tab print_translation print_trtab,
wenzelm@39394	542	print_ruletab = update_ruletab print_rules print_ruletab,
wenzelm@39394	543	print_ast_trtab = update_tr'tab print_ast_translation print_ast_trtab,
wenzelm@39394	544	tokentrtab = extend_tokentrtab token_translation tokentrtab,
wenzelm@39394	545	prtabs = Printer.update_prtabs mode xprods prtabs}, stamp ())
wenzelm@39394	546	end;
wenzelm@39394	547
wenzelm@39394	548
wenzelm@39394	549	(* remove_syntax *)
wenzelm@39394	550
wenzelm@39394	551	fun remove_syntax (mode, inout) syn_ext (Syntax (tabs, _)) =
wenzelm@39394	552	let
wenzelm@39394	553	val Syn_Ext.Syn_Ext {xprods, consts = _, prmodes = _,
wenzelm@39394	554	parse_ast_translation, parse_rules, parse_translation, print_translation, print_rules,
wenzelm@39394	555	print_ast_translation, token_translation = _} = syn_ext;
wenzelm@39394	556	val {input, lexicon, gram, consts, prmodes,
wenzelm@39394	557	parse_ast_trtab, parse_ruletab, parse_trtab, print_trtab, print_ruletab,
wenzelm@39394	558	print_ast_trtab, tokentrtab, prtabs} = tabs;
wenzelm@39394	559	val input' = if inout then subtract (op =) xprods input else input;
wenzelm@39394	560	val changed = length input <> length input';
wenzelm@39394	561	fun if_inout xs = if inout then xs else [];
wenzelm@39394	562	in
wenzelm@39394	563	Syntax
wenzelm@39394	564	({input = input',
wenzelm@39394	565	lexicon = if changed then Scan.make_lexicon (Syn_Ext.delims_of input') else lexicon,
wenzelm@39394	566	gram = if changed then Parser.make_gram input' else gram,
wenzelm@39394	567	consts = consts,
wenzelm@39394	568	prmodes = prmodes,
wenzelm@39394	569	parse_ast_trtab = remove_trtab (if_inout parse_ast_translation) parse_ast_trtab,
wenzelm@39394	570	parse_ruletab = remove_ruletab (if_inout parse_rules) parse_ruletab,
wenzelm@39394	571	parse_trtab = remove_trtab (if_inout parse_translation) parse_trtab,
wenzelm@39394	572	print_trtab = remove_tr'tab print_translation print_trtab,
wenzelm@39394	573	print_ruletab = remove_ruletab print_rules print_ruletab,
wenzelm@39394	574	print_ast_trtab = remove_tr'tab print_ast_translation print_ast_trtab,
wenzelm@39394	575	tokentrtab = tokentrtab,
wenzelm@39394	576	prtabs = Printer.remove_prtabs mode xprods prtabs}, stamp ())
wenzelm@39394	577	end;
wenzelm@39394	578
wenzelm@39394	579
wenzelm@39394	580	(* merge_syntaxes *)
wenzelm@39394	581
wenzelm@39394	582	fun merge_syntaxes (Syntax (tabs1, _)) (Syntax (tabs2, _)) =
wenzelm@39394	583	let
wenzelm@39394	584	val {input = input1, lexicon = lexicon1, gram = gram1, consts = consts1,
wenzelm@39394	585	prmodes = prmodes1, parse_ast_trtab = parse_ast_trtab1,
wenzelm@39394	586	parse_ruletab = parse_ruletab1, parse_trtab = parse_trtab1,
wenzelm@39394	587	print_trtab = print_trtab1, print_ruletab = print_ruletab1,
wenzelm@39394	588	print_ast_trtab = print_ast_trtab1, tokentrtab = tokentrtab1, prtabs = prtabs1} = tabs1;
wenzelm@39394	589
wenzelm@39394	590	val {input = input2, lexicon = lexicon2, gram = gram2, consts = consts2,
wenzelm@39394	591	prmodes = prmodes2, parse_ast_trtab = parse_ast_trtab2,
wenzelm@39394	592	parse_ruletab = parse_ruletab2, parse_trtab = parse_trtab2,
wenzelm@39394	593	print_trtab = print_trtab2, print_ruletab = print_ruletab2,
wenzelm@39394	594	print_ast_trtab = print_ast_trtab2, tokentrtab = tokentrtab2, prtabs = prtabs2} = tabs2;
wenzelm@39394	595	in
wenzelm@39394	596	Syntax
wenzelm@39394	597	({input = Library.merge (op =) (input1, input2),
wenzelm@39394	598	lexicon = Scan.merge_lexicons (lexicon1, lexicon2),
wenzelm@39394	599	gram = Parser.merge_gram (gram1, gram2),
wenzelm@39394	600	consts = sort_distinct string_ord (consts1 @ consts2),
wenzelm@39394	601	prmodes = Library.merge (op =) (prmodes1, prmodes2),
wenzelm@39394	602	parse_ast_trtab =
wenzelm@39394	603	merge_trtabs "parse ast translation" parse_ast_trtab1 parse_ast_trtab2,
wenzelm@39394	604	parse_ruletab = merge_ruletabs parse_ruletab1 parse_ruletab2,
wenzelm@39394	605	parse_trtab = merge_trtabs "parse translation" parse_trtab1 parse_trtab2,
wenzelm@39394	606	print_trtab = merge_tr'tabs print_trtab1 print_trtab2,
wenzelm@39394	607	print_ruletab = merge_ruletabs print_ruletab1 print_ruletab2,
wenzelm@39394	608	print_ast_trtab = merge_tr'tabs print_ast_trtab1 print_ast_trtab2,
wenzelm@39394	609	tokentrtab = merge_tokentrtabs tokentrtab1 tokentrtab2,
wenzelm@39394	610	prtabs = Printer.merge_prtabs prtabs1 prtabs2}, stamp ())
wenzelm@39394	611	end;
wenzelm@39394	612
wenzelm@39394	613
wenzelm@39394	614	(* basic syntax *)
wenzelm@39394	615
wenzelm@39394	616	val basic_syntax =
wenzelm@39394	617	empty_syntax
wenzelm@39394	618	\|> update_syntax mode_default Type_Ext.type_ext
wenzelm@39394	619	\|> update_syntax mode_default Syn_Ext.pure_ext;
wenzelm@39394	620
wenzelm@39394	621	val basic_nonterms =
wenzelm@39394	622	(Lexicon.terminals @ [Syn_Ext.logic, "type", "types", "sort", "classes",
wenzelm@39394	623	Syn_Ext.args, Syn_Ext.cargs, "pttrn", "pttrns", "idt", "idts", "aprop",
wenzelm@39394	624	"asms", Syn_Ext.any, Syn_Ext.sprop, "num_const", "float_const",
wenzelm@39394	625	"index", "struct"]);
wenzelm@39394	626
wenzelm@39394	627
wenzelm@39394	628
wenzelm@39394	629	( print syntax )
wenzelm@39394	630
wenzelm@39394	631	local
wenzelm@39394	632
wenzelm@39394	633	fun pretty_strs_qs name strs =
wenzelm@39394	634	Pretty.strs (name :: map quote (sort_strings strs));
wenzelm@39394	635
wenzelm@39394	636	fun pretty_gram (Syntax (tabs, _)) =
wenzelm@39394	637	let
wenzelm@39394	638	val {lexicon, prmodes, gram, ...} = tabs;
wenzelm@39394	639	val prmodes' = sort_strings (filter_out (fn s => s = "") prmodes);
wenzelm@39394	640	in
wenzelm@39394	641	[pretty_strs_qs "lexicon:" (Scan.dest_lexicon lexicon),
wenzelm@39394	642	Pretty.big_list "prods:" (Parser.pretty_gram gram),
wenzelm@39394	643	pretty_strs_qs "print modes:" prmodes']
wenzelm@39394	644	end;
wenzelm@39394	645
wenzelm@39394	646	fun pretty_trans (Syntax (tabs, _)) =
wenzelm@39394	647	let
wenzelm@39394	648	fun pretty_trtab name tab =
wenzelm@39394	649	pretty_strs_qs name (Symtab.keys tab);
wenzelm@39394	650
wenzelm@39394	651	fun pretty_ruletab name tab =
wenzelm@39394	652	Pretty.big_list name (map Ast.pretty_rule (dest_ruletab tab));
wenzelm@39394	653
wenzelm@39394	654	fun pretty_tokentr (mode, trs) = Pretty.strs (quote mode ^ ":" :: map fst trs);
wenzelm@39394	655
wenzelm@39394	656	val {consts, parse_ast_trtab, parse_ruletab, parse_trtab, print_trtab,
wenzelm@39394	657	print_ruletab, print_ast_trtab, tokentrtab, ...} = tabs;
wenzelm@39394	658	in
wenzelm@39394	659	[pretty_strs_qs "consts:" consts,
wenzelm@39394	660	pretty_trtab "parse_ast_translation:" parse_ast_trtab,
wenzelm@39394	661	pretty_ruletab "parse_rules:" parse_ruletab,
wenzelm@39394	662	pretty_trtab "parse_translation:" parse_trtab,
wenzelm@39394	663	pretty_trtab "print_translation:" print_trtab,
wenzelm@39394	664	pretty_ruletab "print_rules:" print_ruletab,
wenzelm@39394	665	pretty_trtab "print_ast_translation:" print_ast_trtab,
wenzelm@39394	666	Pretty.big_list "token_translation:" (map pretty_tokentr tokentrtab)]
wenzelm@39394	667	end;
wenzelm@39394	668
wenzelm@39394	669	in
wenzelm@39394	670
wenzelm@39394	671	fun print_gram syn = Pretty.writeln (Pretty.chunks (pretty_gram syn));
wenzelm@39394	672	fun print_trans syn = Pretty.writeln (Pretty.chunks (pretty_trans syn));
wenzelm@39394	673	fun print_syntax syn = Pretty.writeln (Pretty.chunks (pretty_gram syn @ pretty_trans syn));
wenzelm@39394	674
wenzelm@39394	675	end;
wenzelm@39394	676
wenzelm@39394	677
wenzelm@39394	678	(* reconstructing infixes -- educated guessing *)
wenzelm@39394	679
wenzelm@39394	680	fun guess_infix (Syntax ({gram, ...}, _)) c =
wenzelm@39394	681	(case Parser.guess_infix_lr gram c of
wenzelm@39394	682	SOME (s, l, r, j) => SOME
wenzelm@39394	683	(if l then Mixfix.Infixl (s, j)
wenzelm@39394	684	else if r then Mixfix.Infixr (s, j)
wenzelm@39394	685	else Mixfix.Infix (s, j))
wenzelm@39394	686	\| NONE => NONE);
wenzelm@39394	687
wenzelm@39394	688
wenzelm@39394	689
wenzelm@39394	690	( read )
wenzelm@39394	691
wenzelm@39394	692	(* read_ast *)
wenzelm@39394	693
wenzelm@39394	694	val ambiguity_enabled =
wenzelm@39394	695	Config.bool (Config.declare "syntax_ambiguity_enabled" (fn _ => Config.Bool true));
wenzelm@39394	696
wenzelm@39409	697	val ambiguity_level_raw = Config.declare "syntax_ambiguity_level" (fn _ => Config.Int 1);
wenzelm@39409	698	val ambiguity_level = Config.int ambiguity_level_raw;
wenzelm@39394	699
wenzelm@39394	700	val ambiguity_limit =
wenzelm@39394	701	Config.int (Config.declare "syntax_ambiguity_limit" (fn _ => Config.Int 10));
wenzelm@39394	702
wenzelm@39394	703	fun ambiguity_msg pos = "Parse error: ambiguous syntax" ^ Position.str_of pos;
wenzelm@39394	704
wenzelm@39394	705	fun read_asts ctxt is_logtype (Syntax (tabs, _)) xids root (syms, pos) =
wenzelm@39394	706	let
wenzelm@39394	707	val {lexicon, gram, parse_ast_trtab, ...} = tabs;
wenzelm@39394	708	val toks = Lexicon.tokenize lexicon xids syms;
wenzelm@39394	709	val _ = List.app (Lexicon.report_token ctxt) toks;
wenzelm@39394	710
wenzelm@39394	711	val root' = if root <> "prop" andalso is_logtype root then Syn_Ext.logic else root;
wenzelm@39449	712	val pts = Parser.parse ctxt gram root' (filter Lexicon.is_proper toks)
wenzelm@39449	713	handle ERROR msg => (List.app (Lexicon.report_token_range ctxt) toks; error msg);
wenzelm@39394	714	val len = length pts;
wenzelm@39394	715
wenzelm@39394	716	val limit = Config.get ctxt ambiguity_limit;
wenzelm@39394	717	fun show_pt pt =
wenzelm@39394	718	Pretty.string_of (Ast.pretty_ast (hd (Syn_Trans.pts_to_asts ctxt (K NONE) [pt])));
wenzelm@39394	719	in
wenzelm@39394	720	if len <= Config.get ctxt ambiguity_level then ()
wenzelm@39394	721	else if not (Config.get ctxt ambiguity_enabled) then error (ambiguity_msg pos)
wenzelm@39394	722	else
wenzelm@39394	723	(Context_Position.if_visible ctxt warning (cat_lines
wenzelm@39394	724	(("Ambiguous input" ^ Position.str_of pos ^
wenzelm@39394	725	"\nproduces " ^ string_of_int len ^ " parse trees" ^
wenzelm@39394	726	(if len <= limit then "" else " (" ^ string_of_int limit ^ " displayed)") ^ ":") ::
wenzelm@39394	727	map show_pt (take limit pts))));
wenzelm@39394	728	Syn_Trans.pts_to_asts ctxt (lookup_tr parse_ast_trtab) pts
wenzelm@39394	729	end;
wenzelm@39394	730
wenzelm@39394	731
wenzelm@39394	732	(* read *)
wenzelm@39394	733
wenzelm@39394	734	fun read ctxt is_logtype (syn as Syntax (tabs, _)) ty inp =
wenzelm@39394	735	let
wenzelm@39394	736	val {parse_ruletab, parse_trtab, ...} = tabs;
wenzelm@39394	737	val asts = read_asts ctxt is_logtype syn false (Syn_Ext.typ_to_nonterm ty) inp;
wenzelm@39394	738	in
wenzelm@39394	739	Syn_Trans.asts_to_terms ctxt (lookup_tr parse_trtab)
wenzelm@39394	740	(map (Ast.normalize_ast (Symtab.lookup_list parse_ruletab)) asts)
wenzelm@39394	741	end;
wenzelm@39394	742
wenzelm@39394	743
wenzelm@39394	744	(* read terms *)
wenzelm@39394	745
wenzelm@39394	746	(brute-force disambiguation via type-inference)
wenzelm@39395	747	fun disambig _ _ [t] = t
wenzelm@39395	748	\| disambig ctxt check ts =
wenzelm@39394	749	let
wenzelm@39394	750	val level = Config.get ctxt ambiguity_level;
wenzelm@39394	751	val limit = Config.get ctxt ambiguity_limit;
wenzelm@39394	752
wenzelm@39394	753	val ambiguity = length ts;
wenzelm@39394	754	fun ambig_msg () =
wenzelm@39394	755	if ambiguity > 1 andalso ambiguity <= level then
wenzelm@39394	756	"Got more than one parse tree.\n\
wenzelm@39394	757	\Retry with smaller syntax_ambiguity_level for more information."
wenzelm@39394	758	else "";
wenzelm@39394	759
wenzelm@39394	760	val errs = Par_List.map check ts;
wenzelm@39394	761	val results = map_filter (fn (t, NONE) => SOME t \| _ => NONE) (ts ~~ errs);
wenzelm@39394	762	val len = length results;
wenzelm@39395	763
wenzelm@39396	764	val show_term = string_of_term (Config.put Printer.show_brackets true ctxt);
wenzelm@39394	765	in
wenzelm@39394	766	if null results then cat_error (ambig_msg ()) (cat_lines (map_filter I errs))
wenzelm@39394	767	else if len = 1 then
wenzelm@39394	768	(if ambiguity > level then
wenzelm@39394	769	Context_Position.if_visible ctxt warning
wenzelm@39394	770	"Fortunately, only one parse tree is type correct.\n\
wenzelm@39394	771	\You may still want to disambiguate your grammar or your input."
wenzelm@39394	772	else (); hd results)
wenzelm@39394	773	else cat_error (ambig_msg ()) (cat_lines
wenzelm@39394	774	(("Ambiguous input, " ^ string_of_int len ^ " terms are type correct" ^
wenzelm@39394	775	(if len <= limit then "" else " (" ^ string_of_int limit ^ " displayed)") ^ ":") ::
wenzelm@39395	776	map show_term (take limit results)))
wenzelm@39394	777	end;
wenzelm@39394	778
wenzelm@39395	779	fun standard_parse_term check get_sort map_const map_free ctxt is_logtype syn ty (syms, pos) =
wenzelm@39394	780	read ctxt is_logtype syn ty (syms, pos)
wenzelm@39394	781	\|> map (Type_Ext.decode_term get_sort map_const map_free)
wenzelm@39395	782	\|> disambig ctxt check;
wenzelm@39394	783
wenzelm@39394	784
wenzelm@39394	785	(* read types *)
wenzelm@39394	786
wenzelm@39394	787	fun standard_parse_typ ctxt syn get_sort (syms, pos) =
wenzelm@39394	788	(case read ctxt (K false) syn Syn_Ext.typeT (syms, pos) of
wenzelm@39394	789	[t] => Type_Ext.typ_of_term (get_sort (Type_Ext.term_sorts t)) t
wenzelm@39394	790	\| _ => error (ambiguity_msg pos));
wenzelm@39394	791
wenzelm@39394	792
wenzelm@39394	793	(* read sorts *)
wenzelm@39394	794
wenzelm@39394	795	fun standard_parse_sort ctxt syn (syms, pos) =
wenzelm@39394	796	(case read ctxt (K false) syn Type_Ext.sortT (syms, pos) of
wenzelm@39394	797	[t] => Type_Ext.sort_of_term t
wenzelm@39394	798	\| _ => error (ambiguity_msg pos));
wenzelm@39394	799
wenzelm@39394	800
wenzelm@39394	801
wenzelm@39394	802	( prepare translation rules )
wenzelm@39394	803
wenzelm@39394	804	datatype 'a trrule =
wenzelm@39394	805	ParseRule of 'a * 'a \|
wenzelm@39394	806	PrintRule of 'a * 'a \|
wenzelm@39394	807	ParsePrintRule of 'a * 'a;
wenzelm@39394	808
wenzelm@39394	809	fun map_trrule f (ParseRule (x, y)) = ParseRule (f x, f y)
wenzelm@39394	810	\| map_trrule f (PrintRule (x, y)) = PrintRule (f x, f y)
wenzelm@39394	811	\| map_trrule f (ParsePrintRule (x, y)) = ParsePrintRule (f x, f y);
wenzelm@39394	812
wenzelm@39394	813	fun parse_rule (ParseRule pats) = SOME pats
wenzelm@39394	814	\| parse_rule (PrintRule _) = NONE
wenzelm@39394	815	\| parse_rule (ParsePrintRule pats) = SOME pats;
wenzelm@39394	816
wenzelm@39394	817	fun print_rule (ParseRule _) = NONE
wenzelm@39394	818	\| print_rule (PrintRule pats) = SOME (swap pats)
wenzelm@39394	819	\| print_rule (ParsePrintRule pats) = SOME (swap pats);
wenzelm@39394	820
wenzelm@39394	821
wenzelm@39394	822	fun is_const (Syntax ({consts, ...}, _)) c = member (op =) consts c;
wenzelm@39394	823
wenzelm@39394	824	local
wenzelm@39394	825
wenzelm@39394	826	fun check_rule (rule as (lhs, rhs)) =
wenzelm@39394	827	(case Ast.rule_error rule of
wenzelm@39394	828	SOME msg =>
wenzelm@39394	829	error ("Error in syntax translation rule: " ^ msg ^ "\n" ^
wenzelm@39394	830	Ast.str_of_ast lhs ^ " -> " ^ Ast.str_of_ast rhs)
wenzelm@39394	831	\| NONE => rule);
wenzelm@39394	832
wenzelm@39394	833	fun read_pattern ctxt is_logtype syn (root, str) =
wenzelm@39394	834	let
wenzelm@39394	835	fun constify (ast as Ast.Constant _) = ast
wenzelm@39394	836	\| constify (ast as Ast.Variable x) =
wenzelm@39394	837	if is_const syn x orelse Long_Name.is_qualified x then Ast.Constant x
wenzelm@39394	838	else ast
wenzelm@39394	839	\| constify (Ast.Appl asts) = Ast.Appl (map constify asts);
wenzelm@39394	840
wenzelm@39394	841	val (syms, pos) = read_token str;
wenzelm@39394	842	in
wenzelm@39394	843	(case read_asts ctxt is_logtype syn true root (syms, pos) of
wenzelm@39394	844	[ast] => constify ast
wenzelm@39394	845	\| _ => error (ambiguity_msg pos))
wenzelm@39394	846	end;
wenzelm@39394	847
wenzelm@39394	848	fun prep_rules rd_pat raw_rules =
wenzelm@39394	849	let val rules = map (map_trrule rd_pat) raw_rules in
wenzelm@39394	850	(map check_rule (map_filter parse_rule rules),
wenzelm@39394	851	map check_rule (map_filter print_rule rules))
wenzelm@39394	852	end
wenzelm@39394	853
wenzelm@39394	854	in
wenzelm@39394	855
wenzelm@39394	856	val cert_rules = prep_rules I;
wenzelm@39394	857
wenzelm@39394	858	fun read_rules ctxt is_logtype syn =
wenzelm@39394	859	prep_rules (read_pattern ctxt is_logtype syn);
wenzelm@39394	860
wenzelm@39394	861	end;
wenzelm@39394	862
wenzelm@39394	863
wenzelm@39394	864
wenzelm@39394	865	( unparse terms, typs, sorts )
wenzelm@39394	866
wenzelm@39394	867	local
wenzelm@39394	868
wenzelm@39394	869	fun unparse_t t_to_ast prt_t markup ctxt (Syntax (tabs, _)) curried t =
wenzelm@39394	870	let
wenzelm@39394	871	val {consts, print_trtab, print_ruletab, print_ast_trtab, tokentrtab, prtabs, ...} = tabs;
wenzelm@39394	872	val ast = t_to_ast consts ctxt (lookup_tr' print_trtab) t;
wenzelm@39394	873	in
wenzelm@39394	874	Pretty.markup markup (prt_t ctxt curried prtabs (lookup_tr' print_ast_trtab)
wenzelm@39394	875	(lookup_tokentr tokentrtab (print_mode_value ()))
wenzelm@39394	876	(Ast.normalize_ast (Symtab.lookup_list print_ruletab) ast))
wenzelm@39394	877	end;
wenzelm@39394	878
wenzelm@39394	879	in
wenzelm@39394	880
wenzelm@39394	881	fun standard_unparse_term idents extern =
wenzelm@39394	882	unparse_t (Printer.term_to_ast idents) (Printer.pretty_term_ast extern) Markup.term;
wenzelm@39394	883
wenzelm@39394	884	fun standard_unparse_typ extern ctxt syn =
wenzelm@39394	885	unparse_t (K Printer.typ_to_ast) (Printer.pretty_typ_ast extern) Markup.typ ctxt syn false;
wenzelm@39394	886
wenzelm@39394	887	fun standard_unparse_sort {extern_class} ctxt syn =
wenzelm@39394	888	unparse_t (K Printer.sort_to_ast)
wenzelm@39394	889	(Printer.pretty_typ_ast {extern_class = extern_class, extern_type = I})
wenzelm@39394	890	Markup.sort ctxt syn false;
wenzelm@39394	891
wenzelm@39394	892	end;
wenzelm@39394	893
wenzelm@39394	894
wenzelm@39394	895
wenzelm@39394	896	( modify syntax )
wenzelm@39394	897
wenzelm@39394	898	fun ext_syntax f decls = update_syntax mode_default (f decls);
wenzelm@39394	899
wenzelm@39394	900	val update_trfuns = ext_syntax Syn_Ext.syn_ext_trfuns;
wenzelm@39394	901	val update_advanced_trfuns = ext_syntax Syn_Ext.syn_ext_advanced_trfuns;
wenzelm@39394	902	val extend_tokentrfuns = ext_syntax Syn_Ext.syn_ext_tokentrfuns;
wenzelm@39394	903
wenzelm@39394	904	fun update_type_gram add prmode decls =
wenzelm@39394	905	(if add then update_syntax else remove_syntax) prmode (Mixfix.syn_ext_types decls);
wenzelm@39394	906
wenzelm@39394	907	fun update_const_gram add is_logtype prmode decls =
wenzelm@39394	908	(if add then update_syntax else remove_syntax) prmode (Mixfix.syn_ext_consts is_logtype decls);
wenzelm@39394	909
wenzelm@39394	910	fun update_trrules ctxt is_logtype syn =
wenzelm@39394	911	ext_syntax Syn_Ext.syn_ext_rules o read_rules ctxt is_logtype syn;
wenzelm@39394	912
wenzelm@39394	913	fun remove_trrules ctxt is_logtype syn =
wenzelm@39394	914	remove_syntax mode_default o Syn_Ext.syn_ext_rules o read_rules ctxt is_logtype syn;
wenzelm@39394	915
wenzelm@39394	916	val update_trrules_i = ext_syntax Syn_Ext.syn_ext_rules o cert_rules;
wenzelm@39394	917	val remove_trrules_i = remove_syntax mode_default o Syn_Ext.syn_ext_rules o cert_rules;
wenzelm@39394	918
wenzelm@39394	919
wenzelm@15833	920	(export parts of internal Syntax structures)
wenzelm@37216	921	open Lexicon Syn_Ext Ast Parser Type_Ext Syn_Trans Mixfix Printer;
wenzelm@2366	922
clasohm@0	923	end;
wenzelm@5692	924
wenzelm@35130	925	structure Basic_Syntax: BASIC_SYNTAX = Syntax;
wenzelm@35130	926	open Basic_Syntax;
wenzelm@23923	927
wenzelm@26684	928	forget_structure "Ast";
wenzelm@37216	929	forget_structure "Syn_Ext";
wenzelm@26684	930	forget_structure "Parser";
wenzelm@37216	931	forget_structure "Type_Ext";
wenzelm@37216	932	forget_structure "Syn_Trans";
wenzelm@26684	933	forget_structure "Mixfix";
wenzelm@26684	934	forget_structure "Printer";

author	wenzelm
	Tue, 07 Sep 2010 14:08:21 +0200
changeset 39449	e3ac771235f7
parent 39409	4d701c0388c3
child 39541	f1ae2493d93f
permissions	-rw-r--r--