src/Pure/Syntax/lexicon.ML
author wenzelm
Thu, 07 May 1998 18:05:46 +0200
changeset 4902 8fbccead3695
parent 4703 a50ab39756db
child 4921 74bc10921f7d
permissions -rw-r--r--
added scan_tvar;

(*  Title:      Pure/Syntax/lexicon.ML
    ID:         $Id$
    Author:     Tobias Nipkow and Markus Wenzel, TU Muenchen

Lexer for the inner Isabelle syntax (terms and types).
*)

signature LEXICON0 =
sig
  val is_identifier: string -> bool
  val implode_xstr: string list -> string
  val explode_xstr: string -> string list
  val scan_id: string list -> string * string list
  val scan_longid: string list -> string * string list
  val scan_var: string list -> string * string list
  val scan_tid: string list -> string * string list
  val scan_tvar: string list -> string * string list
  val scan_nat: string list -> string * string list
  val scan_int: string list -> string * string list
  val string_of_vname: indexname -> string
  val string_of_vname': indexname -> string
  val indexname: string list -> indexname
  val read_var: string -> term
  val const: string -> term
  val free: string -> term
  val var: indexname -> term
end;

signature LEXICON =
sig
  include LEXICON0
  val is_xid: string -> bool
  val is_tid: string -> bool
  datatype token =
    Token of string |
    IdentSy of string |
    LongIdentSy of string |
    VarSy of string |
    TFreeSy of string |
    TVarSy of string |
    NumSy of string |
    StrSy of string |
    EndToken
  val idT: typ
  val longidT: typ
  val varT: typ
  val tidT: typ
  val tvarT: typ
  val terminals: string list
  val is_terminal: string -> bool
  val str_of_token: token -> string
  val display_token: token -> string
  val matching_tokens: token * token -> bool
  val token_assoc: (token option * 'a list) list * token -> 'a list
  val valued_token: token -> bool
  val predef_term: string -> token option
  val tokenize: Scan.lexicon -> bool -> string list -> token list
end;

structure Lexicon : LEXICON =
struct


(** is_identifier etc. **)

fun is_ident [] = false
  | is_ident (c :: cs) = Symbol.is_letter c andalso forall Symbol.is_letdig cs;

val is_identifier = is_ident o Symbol.explode;

fun is_xid s =
  (case Symbol.explode s of
    "_" :: cs => is_ident cs
  | cs => is_ident cs);

fun is_tid s =
  (case Symbol.explode s of
    "'" :: cs => is_ident cs
  | _ => false);



(** basic scanners **)

val scan_letter_letdigs = Scan.one Symbol.is_letter -- Scan.any Symbol.is_letdig >> op ::;
val scan_digits1 = Scan.any1 Symbol.is_digit;

val scan_id = scan_letter_letdigs >> implode;
val scan_longid = scan_id ^^ (Scan.repeat1 ($$ "." ^^ scan_id) >> implode);
val scan_tid = $$ "'" ^^ scan_id;

val scan_nat = scan_digits1 >> implode;
val scan_int = $$ "~" ^^ scan_nat || scan_nat;

val scan_id_nat = scan_id ^^ Scan.optional ($$ "." ^^ scan_nat) "";
val scan_var = $$ "?" ^^ scan_id_nat;
val scan_tvar = $$ "?" ^^ $$ "'" ^^ scan_id_nat;



(** string_of_vname **)

fun string_of_vname (x, i) =
  let
    val si = string_of_int i;
    val dot = Symbol.is_digit (last_elem (Symbol.explode x)) handle _ => true;
  in
    if dot then "?" ^ x ^ "." ^ si
    else if i = 0 then "?" ^ x
    else "?" ^ x ^ si
  end;

fun string_of_vname' (x, ~1) = x
  | string_of_vname' xi = string_of_vname xi;



(** datatype token **)

datatype token =
  Token of string |
  IdentSy of string |
  LongIdentSy of string |
  VarSy of string |
  TFreeSy of string |
  TVarSy of string |
  NumSy of string |
  StrSy of string |
  EndToken;


(* terminal arguments *)

val idT = Type ("id", []);
val longidT = Type ("longid", []);
val varT = Type ("var", []);
val tidT = Type ("tid", []);
val tvarT = Type ("tvar", []);

val terminals = ["id", "longid", "var", "tid", "tvar", "xnum", "xstr"];

fun is_terminal s = s mem terminals;


(* str_of_token *)

fun str_of_token (Token s) = s
  | str_of_token (IdentSy s) = s
  | str_of_token (LongIdentSy s) = s
  | str_of_token (VarSy s) = s
  | str_of_token (TFreeSy s) = s
  | str_of_token (TVarSy s) = s
  | str_of_token (NumSy s) = s
  | str_of_token (StrSy s) = s
  | str_of_token EndToken = "EOF";


(* display_token *)

fun display_token (Token s) = quote s
  | display_token (IdentSy s) = "id(" ^ s ^ ")"
  | display_token (LongIdentSy s) = "longid(" ^ s ^ ")"
  | display_token (VarSy s) = "var(" ^ s ^ ")"
  | display_token (TFreeSy s) = "tid(" ^ s ^ ")"
  | display_token (TVarSy s) = "tvar(" ^ s ^ ")"
  | display_token (NumSy s) = "xnum(" ^ s ^ ")"
  | display_token (StrSy s) = "xstr(" ^ s ^ ")"
  | display_token EndToken = "";


(* matching_tokens *)

fun matching_tokens (Token x, Token y) = (x = y)
  | matching_tokens (IdentSy _, IdentSy _) = true
  | matching_tokens (LongIdentSy _, LongIdentSy _) = true
  | matching_tokens (VarSy _, VarSy _) = true
  | matching_tokens (TFreeSy _, TFreeSy _) = true
  | matching_tokens (TVarSy _, TVarSy _) = true
  | matching_tokens (NumSy _, NumSy _) = true
  | matching_tokens (StrSy _, StrSy _) = true
  | matching_tokens (EndToken, EndToken) = true
  | matching_tokens _ = false;


(* token_assoc *)

fun token_assoc (list, key) =
  let
    fun assoc [] = []
      | assoc ((keyi, xi) :: pairs) =
          if is_none keyi orelse matching_tokens (the keyi, key) then
            assoc pairs @ xi
          else assoc pairs;
  in assoc list end;


(* valued_token *)

fun valued_token (Token _) = false
  | valued_token (IdentSy _) = true
  | valued_token (LongIdentSy _) = true
  | valued_token (VarSy _) = true
  | valued_token (TFreeSy _) = true
  | valued_token (TVarSy _) = true
  | valued_token (NumSy _) = true
  | valued_token (StrSy _) = true
  | valued_token EndToken = false;


(* predef_term *)

fun predef_term "id" = Some (IdentSy "id")
  | predef_term "longid" = Some (LongIdentSy "longid")
  | predef_term "var" = Some (VarSy "var")
  | predef_term "tid" = Some (TFreeSy "tid")
  | predef_term "tvar" = Some (TVarSy "tvar")
  | predef_term "xnum" = Some (NumSy "xnum")
  | predef_term "xstr" = Some (StrSy "xstr")
  | predef_term _ = None;


(* xstr tokens *)

val scan_chr =
  $$ "\\" |-- Scan.one Symbol.not_eof ||
  Scan.one (not_equal "'" andf Symbol.not_eof) ||
  $$ "'" --| Scan.ahead (Scan.one (not_equal "'"));

val scan_str =
  $$ "'" |-- $$ "'" |--
    !! (fn cs => "Inner lexical error: malformed literal string at " ^ quote ("''" ^ beginning cs))
      (Scan.repeat scan_chr --| $$ "'" --| $$ "'");


fun implode_xstr cs = enclose "''" "''" (implode (map (fn "'" => "\\'" | c => c) cs));

fun explode_xstr str =
  #1 (Scan.error (Scan.finite Symbol.eof scan_str) (Symbol.explode str));



(** tokenize **)

fun tokenize lex xids chs =
  let
    val scan_xid =
      if xids then $$ "_" ^^ scan_id || scan_id
      else scan_id;

    val scan_val =
      scan_tvar >> pair TVarSy ||
      scan_var >> pair VarSy ||
      scan_tid >> pair TFreeSy ||
      $$ "#" ^^ scan_int >> pair NumSy ||		(* FIXME remove "#" *)
      scan_longid >> pair LongIdentSy ||
      scan_xid >> pair IdentSy;

    val scan_lit = Scan.literal lex >> (pair Token o implode);

    val scan_token =
      Scan.max (op <= o pairself snd) scan_lit scan_val >> (fn (tk, s) => Some (tk s)) ||
      scan_str >> (Some o StrSy o implode_xstr) ||
      Scan.one Symbol.is_blank >> K None;
  in
    (case Scan.error (Scan.finite Symbol.eof (Scan.repeat scan_token)) chs of
      (toks, []) => mapfilter I toks @ [EndToken]
    | (_, cs) => error ("Inner lexical error at: " ^ quote (implode cs)))
  end;



(** scan variables **)

(* scan_vname *)

fun scan_vname chrs =
  let
    fun nat_of_chs n [] = n
      | nat_of_chs n (c :: cs) = nat_of_chs (n * 10 + (ord c - ord "0")) cs;

    val nat = nat_of_chs 0;

    fun split_vname chs =
      let val (cs, ds) = take_suffix Symbol.is_digit chs
      in (implode cs, nat ds) end

    val scan =
      scan_letter_letdigs -- Scan.optional ($$ "." |-- scan_digits1 >> nat) ~1;
  in
    (case scan chrs of
      ((cs, ~1), cs') => (split_vname cs, cs')
    | ((cs, i), cs') => ((implode cs, i), cs'))
  end;


(* indexname *)

fun indexname cs =
  (case Scan.error (Scan.finite Symbol.eof (Scan.option scan_vname)) cs of
    (Some xi, []) => xi
  | _ => error ("Lexical error in variable name: " ^ quote (implode cs)));


(* read_var *)

fun const c = Const (c, dummyT);
fun free x = Free (x, dummyT);
fun var xi = Var (xi, dummyT);

fun read_var str =
  let
    fun tvar (x, i) = var ("'" ^ x, i);

    val scan =
      $$ "?" |-- $$ "'" |-- scan_vname >> tvar ||
      $$ "?" |-- scan_vname >> var ||
      Scan.any Symbol.not_eof >> (free o implode);
  in
    #1 (Scan.error (Scan.finite Symbol.eof scan) (Symbol.explode str))
  end;


end;