(* Title: Pure/Isar/outer_parse.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Generic parsers for Isabelle/Isar outer syntax.
*)
signature OUTER_PARSE =
sig
type token
val group: string -> (token list -> 'a) -> token list -> 'a
val !!! : (token list -> 'a) -> token list -> 'a
val !!!! : (token list -> 'a) -> token list -> 'a
val triple1: ('a * 'b) * 'c -> 'a * 'b * 'c
val triple2: 'a * ('b * 'c) -> 'a * 'b * 'c
val triple_swap: ('a * 'b) * 'c -> ('a * 'c) * 'b
val not_eof: token list -> token * token list
val position: (token list -> 'a * 'b) -> token list -> ('a * Position.T) * 'b
val command: token list -> string * token list
val keyword: token list -> string * token list
val short_ident: token list -> string * token list
val long_ident: token list -> string * token list
val sym_ident: token list -> string * token list
val minus: token list -> string * token list
val term_var: token list -> string * token list
val type_ident: token list -> string * token list
val type_var: token list -> string * token list
val number: token list -> string * token list
val string: token list -> string * token list
val verbatim: token list -> string * token list
val sync: token list -> string * token list
val eof: token list -> string * token list
val $$$ : string -> token list -> string * token list
val semicolon: token list -> string * token list
val underscore: token list -> string * token list
val maybe: (token list -> 'a * token list) -> token list -> 'a option * token list
val opt_unit: token list -> unit * token list
val opt_keyword: string -> token list -> bool * token list
val nat: token list -> int * token list
val enum: string -> (token list -> 'a * token list) -> token list -> 'a list * token list
val enum1: string -> (token list -> 'a * token list) -> token list -> 'a list * token list
val list: (token list -> 'a * token list) -> token list -> 'a list * token list
val list1: (token list -> 'a * token list) -> token list -> 'a list * token list
val and_list: (token list -> 'a * token list) -> token list -> 'a list * token list
val and_list1: (token list -> 'a * token list) -> token list -> 'a list * token list
val name: token list -> bstring * token list
val xname: token list -> xstring * token list
val text: token list -> string * token list
val path: token list -> Path.T * token list
val sort: token list -> string * token list
val arity: token list -> (string list * string) * token list
val type_args: token list -> string list * token list
val typ: token list -> string * token list
val opt_infix: token list -> Syntax.mixfix * token list
val opt_mixfix: token list -> Syntax.mixfix * token list
val opt_infix': token list -> Syntax.mixfix * token list
val opt_mixfix': token list -> Syntax.mixfix * token list
val mixfix': token list -> Syntax.mixfix * token list
val const: token list -> (bstring * string * Syntax.mixfix) * token list
val term: token list -> string * token list
val prop: token list -> string * token list
val propp: token list -> (string * (string list * string list)) * token list
val termp: token list -> (string * string list) * token list
val arguments: token list -> Args.T list * token list
val attribs: token list -> Attrib.src list * token list
val opt_attribs: token list -> Attrib.src list * token list
val thm_name: string -> token list -> (bstring * Attrib.src list) * token list
val opt_thm_name: string -> token list -> (bstring * Attrib.src list) * token list
val spec_name: token list -> ((bstring * string) * Attrib.src list) * token list
val spec_opt_name: token list -> ((bstring * string) * Attrib.src list) * token list
val xthm: token list -> (thmref * Attrib.src list) * token list
val xthms1: token list -> (thmref * Attrib.src list) list * token list
val locale_target: token list -> xstring option * token list
val locale_expr: token list -> Locale.expr * token list
val locale_keyword: token list -> string * token list
val locale_element: token list -> Locale.element * token list
val locale_elem_or_expr: token list -> Locale.element Locale.elem_expr * token list
val method: token list -> Method.text * token list
end;
structure OuterParse: OUTER_PARSE =
struct
structure T = OuterLex;
type token = T.token;
(** error handling **)
(* group atomic parsers (no cuts!) *)
fun fail_with s = Scan.fail_with
(fn [] => s ^ " expected (past end-of-file!)"
| (tok :: _) => s ^ " expected,\nbut " ^ T.name_of tok ^ T.pos_of tok ^ " was found");
fun group s scan = scan || fail_with s;
(* cut *)
fun cut kind scan =
let
fun get_pos [] = " (past end-of-file!)"
| get_pos (tok :: _) = T.pos_of tok;
fun err (toks, NONE) = kind ^ get_pos toks
| err (toks, SOME msg) = kind ^ get_pos toks ^ ": " ^ msg;
in Scan.!! err scan end;
fun !!! scan = cut "Outer syntax error" scan;
fun !!!! scan = cut "Corrupted outer syntax in presentation" scan;
(** basic parsers **)
(* utils *)
fun triple1 ((x, y), z) = (x, y, z);
fun triple2 (x, (y, z)) = (x, y, z);
fun triple_swap ((x, y), z) = ((x, z), y);
(* tokens *)
val not_eof = Scan.one T.not_eof;
fun position scan = (Scan.ahead not_eof >> T.position_of) -- scan >> Library.swap;
fun kind k =
group (T.str_of_kind k) (Scan.one (T.is_kind k) >> T.val_of);
val command = kind T.Command;
val keyword = kind T.Keyword;
val short_ident = kind T.Ident;
val long_ident = kind T.LongIdent;
val sym_ident = kind T.SymIdent;
val term_var = kind T.Var;
val type_ident = kind T.TypeIdent;
val type_var = kind T.TypeVar;
val number = kind T.Nat;
val string = kind T.String;
val verbatim = kind T.Verbatim;
val sync = kind T.Sync;
val eof = kind T.EOF;
fun $$$ x =
group (T.str_of_kind T.Keyword ^ " " ^ quote x)
(Scan.one (T.keyword_with (equal x)) >> T.val_of);
val semicolon = $$$ ";";
val minus = sym_ident :-- (fn "-" => Scan.succeed () | _ => Scan.fail) >> #1;
val underscore = sym_ident :-- (fn "_" => Scan.succeed () | _ => Scan.fail) >> #1;
fun maybe scan = underscore >> K NONE || scan >> SOME;
val nat = number >> (#1 o Library.read_int o Symbol.explode);
val opt_unit = Scan.optional ($$$ "(" -- $$$ ")" >> (K ())) ();
fun opt_keyword s = Scan.optional ($$$ "(" |-- !!! (($$$ s >> K true) --| $$$ ")")) false;
(* enumerations *)
fun enum1 sep scan = scan -- Scan.repeat ($$$ sep |-- !!! scan) >> op ::;
fun enum sep scan = enum1 sep scan || Scan.succeed [];
fun list1 scan = enum1 "," scan;
fun list scan = enum "," scan;
fun and_list1 scan = enum1 "and" scan;
fun and_list scan = enum "and" scan;
(* names and text *)
val name = group "name declaration" (short_ident || sym_ident || string || number);
val xname = group "name reference" (short_ident || long_ident || sym_ident || string || number);
val text = group "text" (short_ident || long_ident || sym_ident || string || number || verbatim);
val path = group "file name/path specification" name >> Path.unpack;
(* sorts and arities *)
val sort = group "sort" xname;
fun gen_arity cod =
Scan.optional ($$$ "(" |-- !!! (list1 sort --| $$$ ")")) [] -- cod;
val arity = gen_arity sort;
(* types *)
val typ = group "type"
(short_ident || long_ident || sym_ident || type_ident || type_var || string || number);
val type_args =
type_ident >> single ||
$$$ "(" |-- !!! (list1 type_ident --| $$$ ")") ||
Scan.succeed [];
(* mixfix annotations *)
val infx = $$$ "infix" |-- !!! (nat >> Syntax.Infix || string -- nat >> Syntax.InfixName);
val infxl = $$$ "infixl" |-- !!! (nat >> Syntax.Infixl || string -- nat >> Syntax.InfixlName);
val infxr = $$$ "infixr" |-- !!! (nat >> Syntax.Infixr || string -- nat >> Syntax.InfixrName);
val binder =
$$$ "binder" |--
!!! (string -- ($$$ "[" |-- nat --| $$$ "]" -- nat || nat >> (fn n => (n, n))))
>> (Syntax.Binder o triple2);
val opt_pris = Scan.optional ($$$ "[" |-- !!! (list nat --| $$$ "]")) [];
val mixfix =
(string -- !!! (opt_pris -- Scan.optional nat Syntax.max_pri))
>> (Syntax.Mixfix o triple2);
fun fix_decl guard fix = $$$ "(" |-- guard (fix --| $$$ ")");
fun opt_fix guard fix = Scan.optional (fix_decl guard fix) Syntax.NoSyn;
val opt_infix = opt_fix !!! (infxl || infxr || infx);
val opt_mixfix = opt_fix !!! (mixfix || binder || infxl || infxr || infx);
val opt_infix' = opt_fix I (infxl || infxr || infx);
val opt_mixfix' = opt_fix I (mixfix || binder || infxl || infxr || infx);
val mixfix' = fix_decl !!! (mixfix || binder || infxl || infxr || infx);
(* consts *)
val const =
name -- ($$$ "::" |-- !!! (typ -- opt_mixfix)) >> triple2;
(* terms *)
val trm = short_ident || long_ident || sym_ident || term_var || number || string;
val term = group "term" trm;
val prop = group "proposition" trm;
(* patterns *)
val is_terms = Scan.repeat1 ($$$ "is" |-- term);
val is_props = Scan.repeat1 ($$$ "is" |-- prop);
val concl_props = $$$ "concl" |-- !!! is_props;
val any_props = concl_props >> pair [] || is_props -- Scan.optional concl_props [];
val propp = prop -- Scan.optional ($$$ "(" |-- !!! (any_props --| $$$ ")")) ([], []);
val propp' = prop -- Scan.optional ($$$ "(" |-- !!! (is_props --| $$$ ")")) [];
val termp = term -- Scan.optional ($$$ "(" |-- !!! (is_terms --| $$$ ")")) [];
(* arguments *)
fun keyword_symid is_symid = Scan.one (T.keyword_with is_symid) >> T.val_of;
val keyword_sid = keyword_symid T.is_sid;
fun atom_arg is_symid blk =
group "argument"
(position (short_ident || long_ident || sym_ident || term_var ||
type_ident || type_var || number) >> Args.mk_ident ||
position (keyword_symid is_symid) >> Args.mk_keyword ||
position (string || verbatim) >> Args.mk_string ||
position (if blk then $$$ "," else Scan.fail) >> Args.mk_keyword);
fun paren_args l r scan = position ($$$ l) -- !!! (scan true -- position ($$$ r))
>> (fn (x, (ys, z)) => Args.mk_keyword x :: ys @ [Args.mk_keyword z]);
fun args is_symid blk x = Scan.optional (args1 is_symid blk) [] x
and args1 is_symid blk x =
((Scan.repeat1
(Scan.repeat1 (atom_arg is_symid blk) ||
paren_args "(" ")" (args is_symid) ||
paren_args "[" "]" (args is_symid))) >> List.concat) x;
val arguments = args T.is_sid false;
(* theorem specifications *)
val attrib = position ((keyword_sid || xname) -- !!! arguments) >> Args.src;
val attribs = $$$ "[" |-- !!! (list attrib --| $$$ "]");
val opt_attribs = Scan.optional attribs [];
fun thm_name s = name -- opt_attribs --| $$$ s;
fun opt_thm_name s =
Scan.optional ((name -- opt_attribs || (attribs >> pair "")) --| $$$ s) ("", []);;
val spec_name = thm_name ":" -- prop >> (fn ((x, y), z) => ((x, z), y));
val spec_opt_name = opt_thm_name ":" -- prop >> (fn ((x, y), z) => ((x, z), y));
val thm_sel = $$$ "(" |-- list1
(nat --| minus -- nat >> PureThy.FromTo ||
nat --| minus >> PureThy.From ||
nat >> PureThy.Single) --| $$$ ")";
val xthm = xname -- Scan.option thm_sel -- opt_attribs;
val xthms1 = Scan.repeat1 xthm;
(* locale elements *)
local
val loc_mixfix = $$$ "(" -- $$$ "structure" -- !!! ($$$ ")") >> K NONE || opt_mixfix >> SOME;
val loc_keyword = $$$ "fixes" || $$$ "assumes" || $$$ "defines" || $$$ "notes" || $$$ "includes";
val loc_element =
$$$ "fixes" |-- !!! (and_list1 (name -- Scan.option ($$$ "::" |-- typ) -- loc_mixfix
>> triple1)) >> Locale.Fixes ||
$$$ "assumes" |-- !!! (and_list1 (opt_thm_name ":" -- Scan.repeat1 propp))
>> Locale.Assumes ||
$$$ "defines" |-- !!! (and_list1 (opt_thm_name ":" -- propp'))
>> Locale.Defines ||
$$$ "notes" |-- !!! (and_list1 (opt_thm_name "=" -- xthms1))
>> Locale.Notes;
fun plus1 scan =
scan -- Scan.repeat ($$$ "+" |-- Scan.unless loc_keyword (!!! scan)) >> op ::;
fun expr2 x = (xname >> Locale.Locale || $$$ "(" |-- !!! (expr0 --| $$$ ")")) x
and expr1 x = (expr2 -- Scan.repeat1 (maybe name) >> Locale.Rename || expr2) x
and expr0 x = (plus1 expr1 >> (fn [e] => e | es => Locale.Merge es)) x;
in
val locale_target = Scan.option (($$$ "(" -- $$$ "in") |-- !!! (xname --| $$$ ")"));
val locale_expr = expr0;
val locale_keyword = loc_keyword;
val locale_element = group "locale element" loc_element;
val locale_elem_or_expr = group "locale element or includes"
(loc_element >> Locale.Elem ||
$$$ "includes" |-- !!! locale_expr >> Locale.Expr);
end;
(* proof methods *)
fun is_symid_meth s =
s <> "|" andalso s <> "?" andalso s <> "+" andalso T.is_sid s;
fun meth4 x =
(position (xname >> rpair []) >> (Method.Source o Args.src) ||
$$$ "(" |-- !!! (meth0 --| $$$ ")")) x
and meth3 x =
(meth4 --| $$$ "?" >> Method.Try ||
meth4 --| $$$ "+" >> Method.Repeat1 ||
meth4) x
and meth2 x =
(position (xname -- args1 is_symid_meth false) >> (Method.Source o Args.src) ||
meth3) x
and meth1 x = (enum1 "," meth2 >> (fn [m] => m | ms => Method.Then ms)) x
and meth0 x = (enum1 "|" meth1 >> (fn [m] => m | ms => Method.Orelse ms)) x;
val method = meth3;
end;