(* Title: Pure/Isar/args.ML
Author: Markus Wenzel, TU Muenchen
Parsing with implicit value assignment. Concrete argument syntax of
attributes, methods etc.
*)
signature ARGS =
sig
type src
val src: (string * Token.T list) * Position.T -> src
val dest_src: src -> (string * Token.T list) * Position.T
val pretty_src: Proof.context -> src -> Pretty.T
val map_name: (string -> string) -> src -> src
val transform_values: morphism -> src -> src
val assignable: src -> src
val closure: src -> src
val context: Proof.context context_parser
val theory: theory context_parser
val $$$ : string -> string parser
val add: string parser
val del: string parser
val colon: string parser
val query: string parser
val bang: string parser
val query_colon: string parser
val bang_colon: string parser
val parens: 'a parser -> 'a parser
val bracks: 'a parser -> 'a parser
val mode: string -> bool parser
val maybe: 'a parser -> 'a option parser
val name_source: string parser
val name_source_position: (Symbol_Pos.text * Position.T) parser
val name: string parser
val binding: binding parser
val alt_name: string parser
val symbol: string parser
val liberal_name: string parser
val var: indexname parser
val internal_text: string parser
val internal_typ: typ parser
val internal_term: term parser
val internal_fact: thm list parser
val internal_attribute: (morphism -> attribute) parser
val named_text: (string -> string) -> string parser
val named_typ: (string -> typ) -> typ parser
val named_term: (string -> term) -> term parser
val named_fact: (string -> thm list) -> thm list parser
val named_attribute:
(string * Position.T -> morphism -> attribute) -> (morphism -> attribute) parser
val typ_abbrev: typ context_parser
val typ: typ context_parser
val term: term context_parser
val term_abbrev: term context_parser
val prop: term context_parser
val type_name: bool -> string context_parser
val const: bool -> string context_parser
val const_proper: bool -> string context_parser
val goal_spec: ((int -> tactic) -> tactic) context_parser
val parse: Token.T list parser
val parse1: (string -> bool) -> Token.T list parser
val attribs: (string -> string) -> src list parser
val opt_attribs: (string -> string) -> src list parser
val thm_name: (string -> string) -> string -> (binding * src list) parser
val opt_thm_name: (string -> string) -> string -> (binding * src list) parser
val syntax: string -> 'a context_parser -> src -> Context.generic -> 'a * Context.generic
val context_syntax: string -> 'a context_parser -> src -> Proof.context -> 'a * Proof.context
end;
structure Args: ARGS =
struct
(** datatype src **)
datatype src = Src of (string * Token.T list) * Position.T;
val src = Src;
fun dest_src (Src src) = src;
fun pretty_src ctxt src =
let
val prt_thm = Pretty.backquote o Display.pretty_thm ctxt;
fun prt arg =
(case Token.get_value arg of
SOME (Token.Text s) => Pretty.str (quote s)
| SOME (Token.Typ T) => Syntax.pretty_typ ctxt T
| SOME (Token.Term t) => Syntax.pretty_term ctxt t
| SOME (Token.Fact ths) => Pretty.enclose "(" ")" (Pretty.breaks (map prt_thm ths))
| _ => Pretty.str (Token.unparse arg));
val (s, args) = #1 (dest_src src);
in Pretty.block (Pretty.breaks (Pretty.str s :: map prt args)) end;
fun map_name f (Src ((s, args), pos)) = Src ((f s, args), pos);
fun map_args f (Src ((s, args), pos)) = Src ((s, map f args), pos);
(* values *)
fun transform_values phi = map_args (Token.map_value
(fn Token.Text s => Token.Text s
| Token.Typ T => Token.Typ (Morphism.typ phi T)
| Token.Term t => Token.Term (Morphism.term phi t)
| Token.Fact ths => Token.Fact (Morphism.fact phi ths)
| Token.Attribute att => Token.Attribute (Morphism.transform phi att)
| tok as Token.Files _ => tok));
val assignable = map_args Token.assignable;
val closure = map_args Token.closure;
(** argument scanners **)
(* context *)
fun context x = (Scan.state >> Context.proof_of) x;
fun theory x = (Scan.state >> Context.theory_of) x;
(* basic *)
fun token atom = Scan.ahead Parse.not_eof --| atom;
val ident = token
(Parse.short_ident || Parse.long_ident || Parse.sym_ident || Parse.term_var ||
Parse.type_ident || Parse.type_var || Parse.number);
val string = token (Parse.string || Parse.verbatim);
val alt_string = token Parse.alt_string;
val symbolic = token Parse.keyword_ident_or_symbolic;
fun $$$ x = (ident >> Token.content_of || Parse.keyword)
:|-- (fn y => if x = y then Scan.succeed x else Scan.fail);
val named = ident || string;
val add = $$$ "add";
val del = $$$ "del";
val colon = $$$ ":";
val query = $$$ "?";
val bang = $$$ "!";
val query_colon = $$$ "?" ^^ $$$ ":";
val bang_colon = $$$ "!" ^^ $$$ ":";
fun parens scan = $$$ "(" |-- scan --| $$$ ")";
fun bracks scan = $$$ "[" |-- scan --| $$$ "]";
fun mode s = Scan.optional (parens ($$$ s) >> K true) false;
fun maybe scan = $$$ "_" >> K NONE || scan >> SOME;
val name_source = named >> Token.source_of;
val name_source_position = named >> Token.source_position_of;
val name = named >> Token.content_of;
val binding = Parse.position name >> Binding.make;
val alt_name = alt_string >> Token.content_of;
val symbol = symbolic >> Token.content_of;
val liberal_name = symbol || name;
val var = (ident >> Token.content_of) :|-- (fn x =>
(case Lexicon.read_variable x of SOME v => Scan.succeed v | NONE => Scan.fail));
(* values *)
fun value dest = Scan.some (fn arg =>
(case Token.get_value arg of SOME v => (SOME (dest v) handle Match => NONE) | NONE => NONE));
fun evaluate mk eval arg =
let val x = eval arg in (Token.assign (SOME (mk x)) arg; x) end;
val internal_text = value (fn Token.Text s => s);
val internal_typ = value (fn Token.Typ T => T);
val internal_term = value (fn Token.Term t => t);
val internal_fact = value (fn Token.Fact ths => ths);
val internal_attribute = value (fn Token.Attribute att => att);
fun named_text intern = internal_text || named >> evaluate Token.Text (intern o Token.content_of);
fun named_typ readT = internal_typ || named >> evaluate Token.Typ (readT o Token.source_of);
fun named_term read = internal_term || named >> evaluate Token.Term (read o Token.source_of);
fun named_fact get = internal_fact || named >> evaluate Token.Fact (get o Token.content_of) ||
alt_string >> evaluate Token.Fact (get o Token.source_of);
fun named_attribute att =
internal_attribute ||
named >> evaluate Token.Attribute (fn tok => att (Token.content_of tok, Token.position_of tok));
(* terms and types *)
val typ_abbrev = Scan.peek (named_typ o Proof_Context.read_typ_abbrev o Context.proof_of);
val typ = Scan.peek (named_typ o Syntax.read_typ o Context.proof_of);
val term = Scan.peek (named_term o Syntax.read_term o Context.proof_of);
val term_abbrev = Scan.peek (named_term o Proof_Context.read_term_abbrev o Context.proof_of);
val prop = Scan.peek (named_term o Syntax.read_prop o Context.proof_of);
(* type and constant names *)
fun type_name strict =
Scan.peek (fn ctxt => named_typ (Proof_Context.read_type_name (Context.proof_of ctxt) strict))
>> (fn Type (c, _) => c | TFree (a, _) => a | _ => "");
fun const strict =
Scan.peek (fn ctxt => named_term (Proof_Context.read_const (Context.proof_of ctxt) strict dummyT))
>> (fn Const (c, _) => c | Free (x, _) => x | _ => "");
fun const_proper strict =
Scan.peek (fn ctxt => named_term (Proof_Context.read_const_proper (Context.proof_of ctxt) strict))
>> (fn Const (c, _) => c | _ => "");
(* improper method arguments *)
val from_to =
Parse.nat -- ($$$ "-" |-- Parse.nat) >> (fn (i, j) => fn tac => Seq.INTERVAL tac i j) ||
Parse.nat --| $$$ "-" >> (fn i => fn tac => fn st => Seq.INTERVAL tac i (Thm.nprems_of st) st) ||
Parse.nat >> (fn i => fn tac => tac i) ||
$$$ "!" >> K ALLGOALS;
val goal = $$$ "[" |-- Parse.!!! (from_to --| $$$ "]");
fun goal_spec x = Scan.lift (Scan.optional goal (fn tac => tac 1)) x;
(* arguments within outer syntax *)
val argument_kinds =
[Token.Ident, Token.LongIdent, Token.SymIdent, Token.Var, Token.TypeIdent, Token.TypeVar,
Token.Nat, Token.Float, Token.String, Token.AltString, Token.Verbatim];
fun parse_args is_symid =
let
fun argument blk =
Parse.group (fn () => "argument")
(Scan.one (fn tok =>
let val kind = Token.kind_of tok in
member (op =) argument_kinds kind orelse
Token.keyword_with is_symid tok orelse
(blk andalso Token.keyword_with (fn s => s = ",") tok)
end));
fun args blk x = Scan.optional (args1 blk) [] x
and args1 blk x =
((Scan.repeat1
(Scan.repeat1 (argument blk) ||
argsp "(" ")" ||
argsp "[" "]")) >> flat) x
and argsp l r x =
(token (Parse.$$$ l) ::: Parse.!!! (args true @@@ (token (Parse.$$$ r) >> single))) x;
in (args, args1) end;
val parse = #1 (parse_args Token.ident_or_symbolic) false;
fun parse1 is_symid = #2 (parse_args is_symid) false;
(* attributes *)
fun attribs intern =
let
val attrib_name = internal_text || (symbolic || named)
>> evaluate Token.Text (intern o Token.content_of);
val attrib = Parse.position (attrib_name -- Parse.!!! parse) >> src;
in $$$ "[" |-- Parse.!!! (Parse.list attrib --| $$$ "]") end;
fun opt_attribs intern = Scan.optional (attribs intern) [];
(* theorem specifications *)
fun thm_name intern s = binding -- opt_attribs intern --| $$$ s;
fun opt_thm_name intern s =
Scan.optional
((binding -- opt_attribs intern || attribs intern >> pair Binding.empty) --| $$$ s)
(Binding.empty, []);
(** syntax wrapper **)
fun syntax kind scan (Src ((s, args), pos)) st =
(case Scan.error (Scan.finite' Token.stopper (Scan.option scan)) (st, args) of
(SOME x, (st', [])) => (x, st')
| (_, (_, args')) =>
error (kind ^ " " ^ quote s ^ Position.here pos ^ ": bad arguments\n " ^
space_implode " " (map Token.unparse args')));
fun context_syntax kind scan src = apsnd Context.the_proof o syntax kind scan src o Context.Proof;
end;