(* Title: Pure/Isar/args.ML
ID: $Id$
Author: Markus Wenzel, TU Muenchen
Concrete argument syntax of attributes, methods etc. -- with special
support for embedded values and static binding.
*)
signature ARGS =
sig
datatype value =
Text of string | Typ of typ | Term of term | Fact of thm list |
Attribute of morphism -> attribute
type T
val string_of: T -> string
val mk_ident: string * Position.T -> T
val mk_string: string * Position.T -> T
val mk_alt_string: string * Position.T -> T
val mk_keyword: string * Position.T -> T
val mk_text: string -> T
val mk_typ: typ -> T
val mk_term: term -> T
val mk_fact: thm list -> T
val mk_attribute: (morphism -> attribute) -> T
val stopper: T * (T -> bool)
val not_eof: T -> bool
type src
val src: (string * T list) * Position.T -> src
val dest_src: src -> (string * T list) * Position.T
val pretty_src: Proof.context -> src -> Pretty.T
val map_name: (string -> string) -> src -> src
val morph_values: morphism -> src -> src
val maxidx_values: src -> int -> int
val assignable: src -> src
val assign: value option -> T -> unit
val closure: src -> src
val position: (T list -> 'a * 'b) -> T list -> ('a * Position.T) * 'b
val !!! : (T list -> 'a) -> T list -> 'a
val $$$ : string -> T list -> string * T list
val add: T list -> string * T list
val del: T list -> string * T list
val colon: T list -> string * T list
val query: T list -> string * T list
val bang: T list -> string * T list
val query_colon: T list -> string * T list
val bang_colon: T list -> string * T list
val parens: (T list -> 'a * T list) -> T list -> 'a * T list
val bracks: (T list -> 'a * T list) -> T list -> 'a * T list
val mode: string -> 'a * T list -> bool * ('a * T list)
val maybe: (T list -> 'a * T list) -> T list -> 'a option * T list
val terminator: T list -> T * T list
val name: T list -> string * T list
val alt_name: T list -> string * T list
val symbol: T list -> string * T list
val liberal_name: T list -> string * T list
val nat: T list -> int * T list
val int: T list -> int * T list
val var: T list -> indexname * T list
val list: (T list -> 'a * T list) -> T list -> 'a list * T list
val list1: (T list -> 'a * T list) -> T list -> 'a list * T list
val enum: string -> ('a * T list -> 'b * ('a * T list)) -> 'a * T list -> 'b list * ('a * T list)
val enum1: string -> ('a * T list -> 'b * ('a * T list)) -> 'a * T list -> 'b list * ('a * T list)
val and_list: ('a * T list -> 'b * ('a * T list)) -> 'a * T list -> 'b list * ('a * T list)
val and_list1: ('a * T list -> 'b * ('a * T list)) -> 'a * T list -> 'b list * ('a * T list)
val ahead: T list -> T * T list
val internal_text: T list -> string * T list
val internal_typ: T list -> typ * T list
val internal_term: T list -> term * T list
val internal_fact: T list -> thm list * T list
val internal_attribute: T list -> (morphism -> attribute) * T list
val named_text: (string -> string) -> T list -> string * T list
val named_typ: (string -> typ) -> T list -> typ * T list
val named_term: (string -> term) -> T list -> term * T list
val named_fact: (string -> thm list) -> T list -> thm list * T list
val named_attribute: (string -> morphism -> attribute) -> T list ->
(morphism -> attribute) * T list
val typ_abbrev: Context.generic * T list -> typ * (Context.generic * T list)
val typ: Context.generic * T list -> typ * (Context.generic * T list)
val term: Context.generic * T list -> term * (Context.generic * T list)
val term_abbrev: Context.generic * T list -> term * (Context.generic * T list)
val prop: Context.generic * T list -> term * (Context.generic * T list)
val tyname: Context.generic * T list -> string * (Context.generic * T list)
val const: Context.generic * T list -> string * (Context.generic * T list)
val thm_sel: T list -> PureThy.interval list * T list
val bang_facts: Context.generic * T list -> thm list * (Context.generic * T list)
val goal_spec: ((int -> tactic) -> tactic) -> ('a * T list)
-> ((int -> tactic) -> tactic) * ('a * T list)
val attribs: (string -> string) -> T list -> src list * T list
val opt_attribs: (string -> string) -> T list -> src list * T list
val syntax: string -> ('b * T list -> 'a * ('b * T list)) -> src -> 'b -> 'a * 'b
val context_syntax: string -> (Context.generic * T list -> 'a * (Context.generic * T list)) ->
src -> Proof.context -> 'a * Proof.context
end;
structure Args: ARGS =
struct
(** datatype T **)
(*An argument token is a symbol (with raw string value), together with
an optional assigned internal value. Note that an assignable ref
designates an intermediate state of internalization -- it is NOT
meant to persist.*)
datatype kind = Ident | String | AltString | Keyword | EOF;
type symbol = kind * string * Position.T;
datatype value =
Text of string |
Typ of typ |
Term of term |
Fact of thm list |
Attribute of morphism -> attribute;
datatype slot =
Empty |
Value of value option |
Assignable of value option ref;
datatype T = Arg of symbol * slot;
fun string_of (Arg ((Ident, x, _), _)) = x
| string_of (Arg ((String, x, _), _)) = quote x
| string_of (Arg ((AltString, x, _), _)) = enclose "`" "`" x
| string_of (Arg ((Keyword, x, _), _)) = x
| string_of (Arg ((EOF, _, _), _)) = "";
fun sym_of (Arg ((_, x, _), _)) = x;
fun pos_of (Arg ((_, _, pos), _)) = pos;
(* basic constructors *)
fun mk_symbol k (x, p) = Arg ((k, x, p), Empty);
fun mk_value k v = Arg ((Keyword, k, Position.none), Value (SOME v));
val mk_ident = mk_symbol Ident;
val mk_string = mk_symbol String;
val mk_alt_string = mk_symbol AltString;
val mk_keyword = mk_symbol Keyword;
val mk_text = mk_value "<text>" o Text;
val mk_typ = mk_value "<typ>" o Typ;
val mk_term = mk_value "<term>" o Term;
val mk_fact = mk_value "<fact>" o Fact;
val mk_attribute = mk_value "<attribute>" o Attribute;
(* eof *)
val eof = mk_symbol EOF ("", Position.none);
fun is_eof (Arg ((EOF, _, _), _)) = true
| is_eof _ = false;
val stopper = (eof, is_eof);
val not_eof = not o is_eof;
(** datatype src **)
datatype src = Src of (string * 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 ProofContext.pretty_thm ctxt;
fun prt (Arg (_, Value (SOME (Text s)))) = Pretty.str (quote s)
| prt (Arg (_, Value (SOME (Typ T)))) = ProofContext.pretty_typ ctxt T
| prt (Arg (_, Value (SOME (Term t)))) = ProofContext.pretty_term ctxt t
| prt (Arg (_, Value (SOME (Fact ths)))) =
Pretty.enclose "(" ")" (Pretty.breaks (map prt_thm ths))
| prt arg = Pretty.str (string_of 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 map_value f (Arg (s, Value (SOME v))) = Arg (s, Value (SOME (f v)))
| map_value _ arg = arg;
fun morph_values phi = map_args (map_value
(fn Text s => Text s
| Typ T => Typ (Morphism.typ phi T)
| Term t => Term (Morphism.term phi t)
| Fact ths => Fact (Morphism.fact phi ths)
| Attribute att => Attribute (Morphism.transform phi att)));
fun maxidx_values (Src ((_, args), _)) = args |> fold
(fn (Arg (_, Value (SOME (Typ T)))) => Term.maxidx_typ T
| (Arg (_, Value (SOME (Term t)))) => Term.maxidx_term t
| (Arg (_, Value (SOME (Fact ths)))) => fold Thm.maxidx_thm ths
| _ => I);
(* static binding *)
(*1st stage: make empty slots assignable*)
val assignable =
map_args (fn Arg (s, Empty) => Arg (s, Assignable (ref NONE)) | arg => arg);
(*2nd stage: assign values as side-effect of scanning*)
fun assign v (arg as Arg (_, Assignable r)) = r := v
| assign _ _ = ();
val ahead = Scan.ahead (Scan.one not_eof);
fun touch scan = ahead -- scan >> (fn (arg, y) => (assign NONE arg; y));
(*3rd stage: static closure of final values*)
val closure =
map_args (fn Arg (s, Assignable (ref v)) => Arg (s, Value v) | arg => arg);
(** scanners **)
(* position *)
fun position scan =
(Scan.ahead (Scan.one not_eof) >> pos_of) -- scan >> Library.swap;
(* cut *)
fun !!! scan =
let
fun get_pos [] = " (past end-of-text!)"
| get_pos (arg :: _) = Position.str_of (pos_of arg);
fun err (args, NONE) = "Argument syntax error" ^ get_pos args
| err (args, SOME msg) = "Argument syntax error" ^ get_pos args ^ ": " ^ msg;
in Scan.!! err scan end;
(* basic *)
fun some_ident f =
touch (Scan.some (fn Arg ((Ident, x, _), _) => f x | _ => NONE));
val named =
touch (Scan.one (fn Arg ((k, _, _), _) => k = Ident orelse k = String));
val alt_string =
touch (Scan.one (fn Arg ((k, _, _), _) => k = AltString));
val symbolic =
touch (Scan.one (fn Arg ((k, x, _), _) => k = Keyword andalso OuterLex.is_sid x));
fun &&& x =
touch (Scan.one (fn Arg ((k, y, _), _) => k = Keyword andalso x = y));
fun $$$ x =
touch (Scan.one (fn Arg ((k, y, _), _) => (k = Ident orelse k = Keyword) andalso x = y))
>> sym_of;
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 --| $$$ "]";
fun mode s = Scan.lift (Scan.optional (parens ($$$ s) >> K true) false);
fun maybe scan = $$$ "_" >> K NONE || scan >> SOME;
val terminator = Scan.ahead (Scan.one is_eof);
val name = named >> sym_of;
val alt_name = alt_string >> sym_of;
val symbol = symbolic >> sym_of;
val liberal_name = symbol || name;
val nat = some_ident Lexicon.read_nat;
val int = Scan.optional ($$$ "-" >> K ~1) 1 -- nat >> op *;
val var = some_ident Lexicon.read_variable;
(* enumerations *)
fun list1 scan = scan -- Scan.repeat ($$$ "," |-- scan) >> op ::;
fun list scan = list1 scan || Scan.succeed [];
fun enum1 sep scan = scan -- Scan.repeat (Scan.lift ($$$ sep) |-- scan) >> op ::;
fun enum sep scan = enum1 sep scan || Scan.succeed [];
fun and_list1 scan = enum1 "and" scan;
fun and_list scan = enum "and" scan;
(* values *)
fun value dest = Scan.some (*no touch here*)
(fn Arg (_, Value (SOME v)) => (SOME (dest v) handle Match => NONE)
| Arg _ => NONE);
fun evaluate mk eval arg =
let val x = eval (sym_of arg) in (assign (SOME (mk x)) arg; x) end;
val internal_text = value (fn Text s => s);
val internal_typ = value (fn Typ T => T);
val internal_term = value (fn Term t => t);
val internal_fact = value (fn Fact ths => ths);
val internal_attribute = value (fn Attribute att => att);
fun named_text intern = internal_text || named >> evaluate Text intern;
fun named_typ readT = internal_typ || named >> evaluate Typ readT;
fun named_term read = internal_term || named >> evaluate Term read;
fun named_fact get = internal_fact || (alt_string || named) >> evaluate Fact get;
fun named_attribute att = internal_attribute || named >> evaluate Attribute att;
(* terms and types *)
val typ_abbrev = Scan.peek (named_typ o ProofContext.read_typ_abbrev o Context.proof_of);
val typ = Scan.peek (named_typ o ProofContext.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 ProofContext.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 *)
val tyname = Scan.peek (named_typ o Context.cases Sign.read_tyname ProofContext.read_tyname)
>> (fn Type (c, _) => c | TFree (a, _) => a | _ => "");
val const = Scan.peek (named_term o Context.cases Sign.read_const ProofContext.read_const)
>> (fn Const (c, _) => c | Free (x, _) => x | _ => "");
(* misc *)
val thm_sel = parens (list1
(nat --| $$$ "-" -- nat >> PureThy.FromTo ||
nat --| $$$ "-" >> PureThy.From ||
nat >> PureThy.Single));
val bang_facts = Scan.peek (fn context =>
$$$ "!" >> (fn _ => (warning "use of prems in proof method";
Assumption.prems_of (Context.proof_of context))) || Scan.succeed []);
(* goal specification *)
(* range *)
val from_to =
nat -- ($$$ "-" |-- nat) >> (fn (i, j) => fn tac => Seq.INTERVAL tac i j) ||
nat --| $$$ "-" >> (fn i => fn tac => fn st => Seq.INTERVAL tac i (Thm.nprems_of st) st) ||
nat >> (fn i => fn tac => tac i) ||
$$$ "!" >> K ALLGOALS;
val goal = $$$ "[" |-- !!! (from_to --| $$$ "]");
fun goal_spec def = Scan.lift (Scan.optional goal def);
(* attribs *)
local
val exclude = member (op =) (explode "()[],");
fun atomic blk = touch (Scan.one (fn Arg ((k, x, _), _) =>
k <> Keyword orelse not (exclude x) orelse blk andalso x = ","));
fun args blk x = Scan.optional (args1 blk) [] x
and args1 blk x =
((Scan.repeat1
(Scan.repeat1 (atomic blk) ||
argsp "(" ")" ||
argsp "[" "]")) >> flat) x
and argsp l r x =
(Scan.trace (&&& l -- !!! (args true -- &&& r)) >> #2) x;
in
fun attribs intern =
let
val attrib_name = internal_text || (symbolic || named) >> evaluate Text intern;
val attrib = position (attrib_name -- !!! (args false)) >> src;
in $$$ "[" |-- !!! (list attrib --| $$$ "]") end;
fun opt_attribs intern = Scan.optional (attribs intern) [];
end;
(* syntax interface *)
fun syntax kind scan (src as Src ((s, args), pos)) st =
(case Scan.error (Scan.finite' stopper (Scan.option scan)) (st, args) of
(SOME x, (st', [])) => (x, st')
| (_, (_, args')) =>
error (kind ^ " " ^ quote s ^ Position.str_of pos ^ ": bad arguments\n " ^
space_implode " " (map string_of args')));
fun context_syntax kind scan src = apsnd Context.the_proof o syntax kind scan src o Context.Proof;
end;