src/Pure/Syntax/syntax.ML
author wenzelm
Fri Oct 10 15:48:10 1997 +0200 (1997-10-10)
changeset 3830 7797327eca1d
parent 3782 c1b4be0e77cb
child 4101 e8ad51c88be9
permissions -rw-r--r--
constify: qualified is const;
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(*  Title:      Pure/Syntax/syntax.ML
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    ID:         $Id$
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    Author:     Tobias Nipkow and Markus Wenzel, TU Muenchen
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Root of Isabelle's syntax module.
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*)
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signature BASIC_SYNTAX =
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sig
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  include AST0
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  include SYN_TRANS0
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  include MIXFIX0
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  include PRINTER0
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end;
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signature SYNTAX =
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sig
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  include AST1
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  include LEXICON0
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  include SYN_EXT0
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  include TYPE_EXT0
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  include SYN_TRANS1
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  include MIXFIX1
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  include PRINTER0
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  datatype 'a trrule =
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    ParseRule of 'a * 'a |
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    PrintRule of 'a * 'a |
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    ParsePrintRule of 'a * 'a
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  type syntax
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  val extend_log_types: syntax -> string list -> syntax
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  val extend_type_gram: syntax -> (string * int * mixfix) list -> syntax
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  val extend_const_gram: syntax -> string * bool -> (string * typ * mixfix) list -> syntax
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  val extend_consts: syntax -> string list -> syntax
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  val extend_trfuns: syntax ->
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    (string * (ast list -> ast)) list *
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    (string * (term list -> term)) list *
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    (string * (term list -> term)) list *
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    (string * (ast list -> ast)) list -> syntax
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  val extend_trfunsT: syntax -> (string * (typ -> term list -> term)) list -> syntax
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  val extend_tokentrfuns: syntax -> (string * string * (string -> string * int)) list -> syntax
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  val extend_trrules: syntax -> (string * string) trrule list -> syntax
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  val extend_trrules_i: syntax -> ast trrule list -> syntax
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  val merge_syntaxes: syntax -> syntax -> syntax
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  val type_syn: syntax
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  val pure_syn: syntax
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  val print_gram: syntax -> unit
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  val print_trans: syntax -> unit
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  val print_syntax: syntax -> unit
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  val test_read: syntax -> string -> string -> unit
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  val read: syntax -> typ -> string -> term list
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  val read_typ: syntax -> ((indexname * sort) list -> indexname -> sort) -> string -> typ
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  val simple_read_typ: string -> typ
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  val pretty_term: syntax -> bool -> term -> Pretty.T
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  val pretty_typ: syntax -> typ -> Pretty.T
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  val pretty_sort: syntax -> sort -> Pretty.T
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  val simple_str_of_sort: sort -> string
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  val simple_string_of_typ: typ -> string
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  val simple_pprint_typ: typ -> pprint_args -> unit
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  val ambiguity_level: int ref
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end;
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structure Syntax : SYNTAX =
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struct
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open Lexicon SynExt Ast Parser TypeExt SynTrans Mixfix Printer;
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(** tables of translation functions **)
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(*does not subsume typed print translations*)
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type 'a trtab = (('a list -> 'a) * stamp) Symtab.table;
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val dest_trtab = Symtab.dest;
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fun lookup_trtab tab c =
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  apsome fst (Symtab.lookup (tab, c));
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(* empty, extend, merge trtabs *)
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fun err_dup_trfuns name cs =
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  error ("More than one " ^ name ^ " for " ^ commas_quote cs);
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val empty_trtab = Symtab.null;
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fun extend_trtab tab trfuns name =
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  Symtab.extend_new (tab, map (fn (c, f) => (c, (f, stamp ()))) trfuns)
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    handle Symtab.DUPS cs => err_dup_trfuns name cs;
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fun merge_trtabs tab1 tab2 name =
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  Symtab.merge eq_snd (tab1, tab2)
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    handle Symtab.DUPS cs => err_dup_trfuns name cs;
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(** tables of token translation functions **)
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fun lookup_tokentr tabs modes =
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  let val trs = gen_distinct eq_fst (flat (map (assocs tabs) (modes @ [""])))
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  in fn c => apsome fst (assoc (trs, c)) end;
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fun merge_tokentrtabs tabs1 tabs2 =
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  let
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    fun eq_tr ((c1, (_, s1)), (c2, (_, s2))) = c1 = c2 andalso s1 = s2;
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    fun name (s, _) = implode (tl (explode s));
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    fun merge mode =
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      let
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        val trs1 = assocs tabs1 mode;
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        val trs2 = assocs tabs2 mode;
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        val trs = gen_distinct eq_tr (trs1 @ trs2);
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      in
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        (case gen_duplicates eq_fst trs of
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          [] => (mode, trs)
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        | dups => error ("More than one token translation function in mode " ^
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            quote mode ^ " for " ^ commas_quote (map name dups)))
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      end;
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  in
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    map merge (distinct (map fst (tabs1 @ tabs2)))
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  end;
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fun extend_tokentrtab tabs tokentrs =
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  let
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    fun ins_tokentr (ts, (m, c, f)) =
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      overwrite (ts, (m, ("_" ^ c, (f, stamp ())) :: assocs ts m));
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  in
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    merge_tokentrtabs tabs (foldl ins_tokentr ([], tokentrs))
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  end;
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(** tables of translation rules **)
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type ruletab = (ast * ast) list Symtab.table;
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fun dest_ruletab tab = flat (map snd (Symtab.dest tab));
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(* lookup_ruletab *)
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fun lookup_ruletab tab =
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  if Symtab.is_null tab then None
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  else Some (fn a => Symtab.lookup_multi (tab, a));
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(* empty, extend, merge ruletabs *)
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val empty_ruletab = Symtab.null;
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fun extend_ruletab tab rules =
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  generic_extend (op =) Symtab.dest_multi Symtab.make_multi tab
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    (map (fn r => (head_of_rule r, r)) (distinct rules));
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fun merge_ruletabs tab1 tab2 =
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  generic_merge (op =) Symtab.dest_multi Symtab.make_multi tab1 tab2;
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(** datatype syntax **)
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datatype syntax =
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  Syntax of {
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    lexicon: lexicon,
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    logtypes: string list,
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    gram: gram,
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    consts: string list,
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    prmodes: string list,
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    parse_ast_trtab: ast trtab,
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    parse_ruletab: ruletab,
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    parse_trtab: term trtab,
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    print_trtab: ((typ -> term list -> term) * stamp) Symtab.table,
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    print_ruletab: ruletab,
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    print_ast_trtab: ast trtab,
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    tokentrtab: (string * (string * ((string -> string * int) * stamp)) list) list,
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    prtabs: prtabs}
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(* empty_syntax *)
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val empty_syntax =
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  Syntax {
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    lexicon = empty_lexicon,
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    logtypes = [],
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    gram = empty_gram,
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    consts = [],
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    prmodes = [],
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    parse_ast_trtab = empty_trtab,
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    parse_ruletab = empty_ruletab,
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    parse_trtab = empty_trtab,
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    print_trtab = empty_trtab,
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    print_ruletab = empty_ruletab,
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    print_ast_trtab = empty_trtab,
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    tokentrtab = [],
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    prtabs = empty_prtabs}
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(* extend_syntax *)
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fun extend_syntax (mode, inout) (Syntax tabs) syn_ext =
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  let
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    val {lexicon, logtypes = logtypes1, gram, consts = consts1, prmodes = prmodes1,
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      parse_ast_trtab, parse_ruletab, parse_trtab, print_trtab, print_ruletab,
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      print_ast_trtab, tokentrtab, prtabs} = tabs;
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    val SynExt {logtypes = logtypes2, xprods, consts = consts2, prmodes = prmodes2,
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      parse_ast_translation, parse_rules, parse_translation, print_translation, print_rules,
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      print_ast_translation, token_translation} = syn_ext;
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  in
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    Syntax {
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      lexicon = if inout then extend_lexicon lexicon (delims_of xprods) else lexicon,
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      logtypes = extend_list logtypes1 logtypes2,
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      gram = if inout then extend_gram gram xprods else gram,
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      consts = consts2 union consts1,
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      prmodes = (mode ins prmodes2) union prmodes1,
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      parse_ast_trtab =
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        extend_trtab parse_ast_trtab parse_ast_translation "parse ast translation",
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      parse_ruletab = extend_ruletab parse_ruletab parse_rules,
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      parse_trtab = extend_trtab parse_trtab parse_translation "parse translation",
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      print_trtab = extend_trtab print_trtab print_translation "print translation",
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      print_ruletab = extend_ruletab print_ruletab print_rules,
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      print_ast_trtab =
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        extend_trtab print_ast_trtab print_ast_translation "print ast translation",
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      tokentrtab = extend_tokentrtab tokentrtab token_translation,
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      prtabs = extend_prtabs prtabs mode xprods}
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  end;
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(* merge_syntaxes *)
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fun merge_syntaxes (Syntax tabs1) (Syntax tabs2) =
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  let
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    val {lexicon = lexicon1, logtypes = logtypes1, gram = gram1, consts = consts1,
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      prmodes = prmodes1, parse_ast_trtab = parse_ast_trtab1, parse_ruletab = parse_ruletab1,
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      parse_trtab = parse_trtab1, print_trtab = print_trtab1,
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      print_ruletab = print_ruletab1, print_ast_trtab = print_ast_trtab1,
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      tokentrtab = tokentrtab1, prtabs = prtabs1} = tabs1;
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    val {lexicon = lexicon2, logtypes = logtypes2, gram = gram2, consts = consts2,
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      prmodes = prmodes2, parse_ast_trtab = parse_ast_trtab2, parse_ruletab = parse_ruletab2,
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      parse_trtab = parse_trtab2, print_trtab = print_trtab2,
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      print_ruletab = print_ruletab2, print_ast_trtab = print_ast_trtab2,
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      tokentrtab = tokentrtab2, prtabs = prtabs2} = tabs2;
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  in
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    Syntax {
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      lexicon = merge_lexicons lexicon1 lexicon2,
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      logtypes = merge_lists logtypes1 logtypes2,
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      gram = merge_grams gram1 gram2,
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      consts = merge_lists consts1 consts2,
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      prmodes = merge_lists prmodes1 prmodes2,
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      parse_ast_trtab =
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        merge_trtabs parse_ast_trtab1 parse_ast_trtab2 "parse ast translation",
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      parse_ruletab = merge_ruletabs parse_ruletab1 parse_ruletab2,
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      parse_trtab = merge_trtabs parse_trtab1 parse_trtab2 "parse translation",
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      print_trtab = merge_trtabs print_trtab1 print_trtab2 "print translation",
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      print_ruletab = merge_ruletabs print_ruletab1 print_ruletab2,
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      print_ast_trtab =
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        merge_trtabs print_ast_trtab1 print_ast_trtab2 "print ast translation",
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      tokentrtab = merge_tokentrtabs tokentrtab1 tokentrtab2,
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      prtabs = merge_prtabs prtabs1 prtabs2}
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  end;
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(* type_syn *)
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val type_syn =
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  extend_syntax ("", true) empty_syntax type_ext;
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val pure_syn = extend_syntax ("", true) type_syn pure_ext;
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(** inspect syntax **)
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fun pretty_strs_qs name strs =
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  Pretty.strs (name :: map quote (sort_strings strs));
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(* print_gram *)
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fun print_gram (Syntax tabs) =
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  let
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    val {lexicon, logtypes, prmodes, gram, prtabs, ...} = tabs;
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    val prmodes' = sort_strings (filter_out (equal "") prmodes);
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  in
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    Pretty.writeln (pretty_strs_qs "lexicon:" (dest_lexicon lexicon));
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    Pretty.writeln (Pretty.strs ("logtypes:" :: logtypes));
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    Pretty.writeln (Pretty.big_list "prods:" (pretty_gram gram));
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    Pretty.writeln (pretty_strs_qs "print modes:" prmodes')
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  end;
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(* print_trans *)
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fun print_trans (Syntax tabs) =
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  let
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    fun pretty_trtab name tab =
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      pretty_strs_qs name (map fst (dest_trtab tab));
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    fun pretty_ruletab name tab =
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      Pretty.big_list name (map pretty_rule (dest_ruletab tab));
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    val {consts, parse_ast_trtab, parse_ruletab, parse_trtab, print_trtab,
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      print_ruletab, print_ast_trtab, ...} = tabs;
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  in
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    Pretty.writeln (pretty_strs_qs "consts:" consts);
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    Pretty.writeln (pretty_trtab "parse_ast_translation:" parse_ast_trtab);
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    Pretty.writeln (pretty_ruletab "parse_rules:" parse_ruletab);
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    Pretty.writeln (pretty_trtab "parse_translation:" parse_trtab);
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    Pretty.writeln (pretty_trtab "print_translation:" print_trtab);
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    Pretty.writeln (pretty_ruletab "print_rules:" print_ruletab);
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    Pretty.writeln (pretty_trtab "print_ast_translation:" print_ast_trtab)
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  end;
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(* print_syntax *)
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fun print_syntax syn = (print_gram syn; print_trans syn);
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(** read **)
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(* test_read *)
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fun test_read (Syntax tabs) root str =
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  let
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    val {lexicon, gram, parse_ast_trtab, parse_ruletab, ...} = tabs;
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    val chars = SymbolFont.read_charnames (explode str);
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    val toks = tokenize lexicon false chars;
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    val _ = writeln ("tokens: " ^ space_implode " " (map display_token toks));
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    fun show_pt pt =
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      let
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        val raw_ast = pt_to_ast (K None) pt;
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        val _ = writeln ("raw: " ^ str_of_ast raw_ast);
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        val pre_ast = pt_to_ast (lookup_trtab parse_ast_trtab) pt;
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        val _ = normalize true true (lookup_ruletab parse_ruletab) pre_ast;
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      in () end;
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  in
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    seq show_pt (parse gram root toks)
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  end;
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(* read_ast *)
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val ambiguity_level = ref 1;
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fun read_asts (Syntax tabs) xids root str =
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  let
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    val {lexicon, gram, parse_ast_trtab, logtypes, ...} = tabs;
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    val root' = if root mem logtypes then logic else root;
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   352
    val chars = SymbolFont.read_charnames (explode str);
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   353
    val pts = parse gram root' (tokenize lexicon xids chars);
clasohm@330
   354
wenzelm@3739
   355
    fun show_pt pt =
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   356
      warning (Pretty.string_of (pretty_ast (pt_to_ast (K None) pt)));
wenzelm@260
   357
  in
wenzelm@888
   358
    if length pts > ! ambiguity_level then
berghofe@1580
   359
      (warning ("Ambiguous input " ^ quote str);
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   360
       warning "produces the following parse trees:";
clasohm@882
   361
       seq show_pt pts)
clasohm@624
   362
    else ();
clasohm@624
   363
    map (pt_to_ast (lookup_trtab parse_ast_trtab)) pts
wenzelm@260
   364
  end;
wenzelm@260
   365
wenzelm@260
   366
wenzelm@237
   367
(* read *)
clasohm@0
   368
wenzelm@237
   369
fun read (syn as Syntax tabs) ty str =
clasohm@0
   370
  let
wenzelm@237
   371
    val {parse_ruletab, parse_trtab, ...} = tabs;
clasohm@865
   372
    val asts = read_asts syn false (typ_to_nonterm ty) str;
clasohm@0
   373
  in
clasohm@624
   374
    map (ast_to_term (lookup_trtab parse_trtab))
clasohm@624
   375
      (map (normalize_ast (lookup_ruletab parse_ruletab)) asts)
clasohm@0
   376
  end;
clasohm@0
   377
clasohm@0
   378
wenzelm@237
   379
(* read types *)
clasohm@0
   380
wenzelm@3779
   381
fun read_typ syn get_sort str =
wenzelm@888
   382
  (case read syn typeT str of
wenzelm@3779
   383
    [t] => typ_of_term (get_sort (raw_term_sorts t)) t
wenzelm@2585
   384
  | _ => error "read_typ: ambiguous type syntax");
wenzelm@144
   385
wenzelm@2585
   386
fun simple_read_typ str =
wenzelm@2585
   387
  let fun get_sort env xi = if_none (assoc (env, xi)) [] in
wenzelm@3779
   388
    read_typ type_syn get_sort str
wenzelm@2585
   389
  end;
wenzelm@144
   390
wenzelm@144
   391
wenzelm@18
   392
wenzelm@1158
   393
(** prepare translation rules **)
wenzelm@1158
   394
wenzelm@1158
   395
datatype 'a trrule =
wenzelm@3526
   396
  ParseRule of 'a * 'a |
wenzelm@3526
   397
  PrintRule of 'a * 'a |
wenzelm@3526
   398
  ParsePrintRule of 'a * 'a;
wenzelm@888
   399
wenzelm@3526
   400
fun map_rule f (ParseRule (x, y)) = ParseRule (f x, f y)
wenzelm@3526
   401
  | map_rule f (PrintRule (x, y)) = PrintRule (f x, f y)
wenzelm@3526
   402
  | map_rule f (ParsePrintRule (x, y)) = ParsePrintRule (f x, f y);
wenzelm@1158
   403
wenzelm@3526
   404
fun parse_rule (ParseRule pats) = Some pats
wenzelm@3526
   405
  | parse_rule (PrintRule _) = None
wenzelm@3526
   406
  | parse_rule (ParsePrintRule pats) = Some pats;
wenzelm@1158
   407
wenzelm@3526
   408
fun print_rule (ParseRule _) = None
wenzelm@3526
   409
  | print_rule (PrintRule pats) = Some (swap pats)
wenzelm@3526
   410
  | print_rule (ParsePrintRule pats) = Some (swap pats);
wenzelm@1158
   411
wenzelm@1158
   412
wenzelm@1158
   413
fun check_rule (rule as (lhs, rhs)) =
wenzelm@1158
   414
  (case rule_error rule of
wenzelm@1158
   415
    Some msg =>
wenzelm@1158
   416
      error ("Error in syntax translation rule: " ^ msg ^ "\n" ^
wenzelm@1158
   417
        str_of_ast lhs ^ "  ->  " ^ str_of_ast rhs)
wenzelm@1158
   418
  | None => rule);
wenzelm@888
   419
wenzelm@888
   420
wenzelm@888
   421
fun read_pattern syn (root, str) =
wenzelm@18
   422
  let
wenzelm@237
   423
    val Syntax {consts, ...} = syn;
wenzelm@18
   424
wenzelm@888
   425
    fun constify (ast as Constant _) = ast
wenzelm@888
   426
      | constify (ast as Variable x) =
wenzelm@3830
   427
          if x mem consts orelse NameSpace.qualified x then Constant x
wenzelm@3830
   428
          else ast
wenzelm@888
   429
      | constify (Appl asts) = Appl (map constify asts);
wenzelm@18
   430
  in
wenzelm@888
   431
    (case read_asts syn true root str of
wenzelm@888
   432
      [ast] => constify ast
wenzelm@888
   433
    | _ => error ("Syntactically ambiguous input: " ^ quote str))
wenzelm@888
   434
  end handle ERROR =>
wenzelm@888
   435
    error ("The error(s) above occurred in translation pattern " ^
wenzelm@888
   436
      quote str);
clasohm@0
   437
wenzelm@556
   438
wenzelm@1158
   439
fun prep_rules rd_pat raw_rules =
wenzelm@1158
   440
  let val rules = map (map_rule rd_pat) raw_rules in
wenzelm@3526
   441
    (map check_rule (mapfilter parse_rule rules),
wenzelm@3526
   442
      map check_rule (mapfilter print_rule rules))
wenzelm@1158
   443
  end
wenzelm@18
   444
wenzelm@18
   445
wenzelm@18
   446
wenzelm@3779
   447
(** pretty terms, typs, sorts **)
wenzelm@18
   448
wenzelm@3779
   449
fun pretty_t t_to_ast prt_t (syn as Syntax tabs) curried t =
clasohm@0
   450
  let
wenzelm@2700
   451
    val {print_trtab, print_ruletab, print_ast_trtab, tokentrtab, prtabs, ...} = tabs;
wenzelm@237
   452
    val ast = t_to_ast (lookup_trtab print_trtab) t;
clasohm@0
   453
  in
wenzelm@2202
   454
    prt_t curried prtabs (lookup_trtab print_ast_trtab)
wenzelm@2700
   455
      (lookup_tokentr tokentrtab (! print_mode))
wenzelm@237
   456
      (normalize_ast (lookup_ruletab print_ruletab) ast)
clasohm@0
   457
  end;
clasohm@0
   458
clasohm@0
   459
val pretty_term = pretty_t term_to_ast pretty_term_ast;
wenzelm@3779
   460
fun pretty_typ syn = pretty_t typ_to_ast pretty_typ_ast syn false;
wenzelm@3779
   461
fun pretty_sort syn = pretty_t sort_to_ast pretty_typ_ast syn false;
clasohm@0
   462
wenzelm@3782
   463
val simple_str_of_sort = Pretty.str_of o pretty_sort type_syn;
wenzelm@3779
   464
val simple_string_of_typ = Pretty.string_of o (pretty_typ type_syn);
wenzelm@260
   465
val simple_pprint_typ = Pretty.pprint o Pretty.quote o (pretty_typ type_syn);
clasohm@0
   466
clasohm@0
   467
clasohm@0
   468
wenzelm@383
   469
(** extend syntax (external interfaces) **)
wenzelm@383
   470
wenzelm@2202
   471
fun ext_syntax mk_syn_ext prmode (syn as Syntax {logtypes, ...}) decls =
wenzelm@2202
   472
  extend_syntax prmode syn (mk_syn_ext logtypes decls);
wenzelm@383
   473
wenzelm@167
   474
clasohm@764
   475
fun extend_log_types syn logtypes =
wenzelm@2366
   476
  extend_syntax ("", true) syn (syn_ext_logtypes logtypes);
wenzelm@383
   477
wenzelm@2366
   478
val extend_type_gram = ext_syntax syn_ext_types ("", true);
wenzelm@383
   479
wenzelm@2202
   480
fun extend_const_gram syn prmode = ext_syntax syn_ext_consts prmode syn;
wenzelm@383
   481
wenzelm@2366
   482
val extend_consts = ext_syntax syn_ext_const_names ("", true);
wenzelm@383
   483
wenzelm@2366
   484
val extend_trfuns = ext_syntax syn_ext_trfuns ("", true);
wenzelm@383
   485
wenzelm@2383
   486
val extend_trfunsT = ext_syntax syn_ext_trfunsT ("", true);
wenzelm@2383
   487
wenzelm@2700
   488
val extend_tokentrfuns = ext_syntax syn_ext_tokentrfuns ("", true);
wenzelm@2700
   489
wenzelm@1158
   490
fun extend_trrules syn rules =
wenzelm@2366
   491
  ext_syntax syn_ext_rules ("", true) syn (prep_rules (read_pattern syn) rules);
wenzelm@1158
   492
wenzelm@1158
   493
fun extend_trrules_i syn rules =
wenzelm@2366
   494
  ext_syntax syn_ext_rules ("", true) syn (prep_rules I rules);
wenzelm@2366
   495
wenzelm@2366
   496
clasohm@0
   497
end;