src/Pure/sign.ML
author wenzelm
Wed Feb 03 16:46:56 1999 +0100 (1999-02-03)
changeset 6191 381b27ca0543
parent 6040 bd37dc0f56d9
child 6311 15652e058e28
permissions -rw-r--r--
renamed sig to PRIVATE_SIGN;
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(*  Title:      Pure/sign.ML
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    ID:         $Id$
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    Author:     Lawrence C Paulson and Markus Wenzel
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The abstract type "sg" of signatures.
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*)
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(*base names*)
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type bstring = string;
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type bclass = class;
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(*external forms -- partially qualified names*)
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type xstring = string;
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type xclass = class;
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type xsort = sort;
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type xtyp = typ;
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type xterm = term;
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signature SIGN =
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sig
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  type sg
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  type sg_ref
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  type data
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  val rep_sg: sg ->
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   {self: sg_ref,
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    tsig: Type.type_sig,
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    const_tab: typ Symtab.table,
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    syn: Syntax.syntax,
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    path: string list,
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    spaces: (string * NameSpace.T) list,
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    data: data}
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  val name_of: sg -> string
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  val stamp_names_of: sg -> string list
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  val tsig_of: sg -> Type.type_sig
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  val deref: sg_ref -> sg
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  val self_ref: sg -> sg_ref
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  val subsig: sg * sg -> bool
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  val eq_sg: sg * sg -> bool
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  val same_sg: sg * sg -> bool
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  val is_draft: sg -> bool
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  val is_stale: sg -> bool
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  val const_type: sg -> string -> typ option
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  val classes: sg -> class list
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  val defaultS: sg -> sort
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  val subsort: sg -> sort * sort -> bool
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  val nodup_Vars: term -> unit
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  val norm_sort: sg -> sort -> sort
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  val nonempty_sort: sg -> sort list -> sort -> bool
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  val of_sort: sg -> typ * sort -> bool
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  val classK: string
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  val typeK: string
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  val constK: string
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  val full_name: sg -> bstring -> string
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  val full_name_path: sg -> string -> bstring -> string
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  val base_name: string -> bstring
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  val intern: sg -> string -> xstring -> string
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  val extern: sg -> string -> string -> xstring
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  val cond_extern: sg -> string -> string -> xstring
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  val intern_class: sg -> xclass -> class
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  val intern_tycon: sg -> xstring -> string
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  val intern_const: sg -> xstring -> string
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  val intern_sort: sg -> xsort -> sort
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  val intern_typ: sg -> xtyp -> typ
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  val intern_term: sg -> xterm -> term
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  val intern_tycons: sg -> xtyp -> typ
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  val pretty_sg: sg -> Pretty.T
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  val str_of_sg: sg -> string
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  val pprint_sg: sg -> pprint_args -> unit
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  val pretty_term: sg -> term -> Pretty.T
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  val pretty_typ: sg -> typ -> Pretty.T
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  val pretty_sort: sg -> sort -> Pretty.T
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  val pretty_classrel: sg -> class * class -> Pretty.T
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  val pretty_arity: sg -> string * sort list * sort -> Pretty.T
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  val string_of_term: sg -> term -> string
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  val string_of_typ: sg -> typ -> string
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  val string_of_sort: sg -> sort -> string
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  val str_of_sort: sg -> sort -> string
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  val str_of_classrel: sg -> class * class -> string
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  val str_of_arity: sg -> string * sort list * sort -> string
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  val pprint_term: sg -> term -> pprint_args -> unit
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  val pprint_typ: sg -> typ -> pprint_args -> unit
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  val certify_typ: sg -> typ -> typ
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  val certify_term: sg -> term -> term * typ * int
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  val read_raw_typ: sg * (indexname -> sort option) -> string -> typ
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  val read_typ: sg * (indexname -> sort option) -> string -> typ
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  val infer_types: sg -> (indexname -> typ option) ->
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    (indexname -> sort option) -> string list -> bool
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    -> xterm list * typ -> term * (indexname * typ) list
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  val infer_types_simult: sg -> (indexname -> typ option) ->
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    (indexname -> sort option) -> string list -> bool
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    -> (xterm list * typ) list -> term list * (indexname * typ) list
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  val add_classes: (bclass * xclass list) list -> sg -> sg
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  val add_classes_i: (bclass * class list) list -> sg -> sg
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  val add_classrel: (xclass * xclass) list -> sg -> sg
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  val add_classrel_i: (class * class) list -> sg -> sg
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  val add_defsort: xsort -> sg -> sg
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  val add_defsort_i: sort -> sg -> sg
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  val add_types: (bstring * int * mixfix) list -> sg -> sg
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  val add_nonterminals: bstring list -> sg -> sg
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  val add_tyabbrs: (bstring * string list * string * mixfix) list -> sg -> sg
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  val add_tyabbrs_i: (bstring * string list * typ * mixfix) list -> sg -> sg
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  val add_arities: (xstring * xsort list * xsort) list -> sg -> sg
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  val add_arities_i: (string * sort list * sort) list -> sg -> sg
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  val add_consts: (bstring * string * mixfix) list -> sg -> sg
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  val add_consts_i: (bstring * typ * mixfix) list -> sg -> sg
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  val add_syntax: (bstring * string * mixfix) list -> sg -> sg
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  val add_syntax_i: (bstring * typ * mixfix) list -> sg -> sg
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  val add_modesyntax: (string * bool) * (bstring * string * mixfix) list -> sg -> sg
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  val add_modesyntax_i: (string * bool) * (bstring * typ * mixfix) list -> sg -> sg
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  val add_trfuns:
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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 -> sg -> sg
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  val add_trfunsT:
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    (string * (bool -> typ -> term list -> term)) list -> sg -> sg
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  val add_tokentrfuns:
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    (string * string * (string -> string * int)) list -> sg -> sg
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  val add_trrules: (xstring * string) Syntax.trrule list -> sg -> sg
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  val add_trrules_i: ast Syntax.trrule list -> sg -> sg
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  val add_path: string -> sg -> sg
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  val add_space: string * string list -> sg -> sg
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  val add_name: string -> sg -> sg
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  val data_kinds: data -> string list
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  val merge_refs: sg_ref * sg_ref -> sg_ref
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  val merge: sg * sg -> sg
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  val prep_ext: sg -> sg
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  val nontriv_merge: sg * sg -> sg
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  val pre_pure: sg
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  val const_of_class: class -> string
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  val class_of_const: string -> class
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end;
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signature PRIVATE_SIGN =
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sig
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  include SIGN
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  val init_data: Object.kind * (Object.T * (Object.T -> Object.T) *
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    (Object.T * Object.T -> Object.T) * (sg -> Object.T -> unit)) -> sg -> sg
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  val get_data: Object.kind -> (Object.T -> 'a) -> sg -> 'a
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  val put_data: Object.kind -> ('a -> Object.T) -> 'a -> sg -> sg
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  val print_data: Object.kind -> sg -> unit
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end;
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structure Sign: PRIVATE_SIGN =
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struct
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(** datatype sg **)
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(* types sg, data, sg_ref *)
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datatype sg =
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  Sg of
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   {id: string ref,                             (*id*)
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    stamps: string ref list} *                  (*unique theory indentifier*)
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   {self: sg_ref,                               (*mutable self reference*)
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    tsig: Type.type_sig,                        (*order-sorted signature of types*)
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    const_tab: typ Symtab.table,                (*type schemes of constants*)
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    syn: Syntax.syntax,                         (*syntax for parsing and printing*)
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    path: string list,                          (*current name space entry prefix*)
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    spaces: (string * NameSpace.T) list,        (*name spaces for consts, types etc.*)
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    data: data}                                 (*anytype data*)
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and data =
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  Data of
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    (Object.kind *				(*kind (for authorization)*)
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      (Object.T *				(*value*)
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        ((Object.T -> Object.T) *               (*prepare extend method*)
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          (Object.T * Object.T -> Object.T) *   (*merge and prepare extend method*)
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          (sg -> Object.T -> unit))))           (*print method*)
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    Symtab.table
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and sg_ref =
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  SgRef of sg ref option;
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(*make signature*)
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fun make_sign (id, self, tsig, const_tab, syn, path, spaces, data, stamps) =
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  Sg ({id = id, stamps = stamps}, {self = self, tsig = tsig, const_tab = const_tab,
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    syn = syn, path = path, spaces = spaces, data = data});
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(* basic operations *)
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fun rep_sg (Sg (_, args)) = args;
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(*show stamps*)
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fun stamp_names_of (Sg ({stamps, ...}, _)) = rev (map ! stamps);
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fun pretty_sg sg = Pretty.str_list "{" "}" (stamp_names_of sg);
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val str_of_sg = Pretty.str_of o pretty_sg;
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val pprint_sg = Pretty.pprint o pretty_sg;
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val tsig_of = #tsig o rep_sg;
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fun const_type (Sg (_, {const_tab, ...})) c = Symtab.lookup (const_tab, c);
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(* id and self *)
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fun check_stale (sg as Sg ({id, ...},
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        {self = SgRef (Some (ref (Sg ({id = id', ...}, _)))), ...})) =
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      if id = id' then sg
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      else raise TERM ("Stale signature: " ^ str_of_sg sg, [])
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  | check_stale _ = sys_error "Sign.check_stale";
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fun is_stale sg = (check_stale sg; false) handle TERM _ => true;
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fun self_ref (sg as Sg (_, {self, ...})) = (check_stale sg; self);
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fun deref (SgRef (Some (ref sg))) = sg
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  | deref (SgRef None) = sys_error "Sign.deref";
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fun name_of (sg as Sg ({id = ref name, ...}, _)) =
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  if name = "" orelse ord name = ord "#" then
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    raise TERM ("Nameless signature " ^ str_of_sg sg, [])
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  else name;
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(* inclusion and equality *)
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local
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  (*avoiding polymorphic equality: factor 10 speedup*)
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  fun mem_stamp (_:string ref, []) = false
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    | mem_stamp (x, y :: ys) = x = y orelse mem_stamp (x, ys);
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  fun subset_stamp ([], ys) = true
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    | subset_stamp (x :: xs, ys) =
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        mem_stamp (x, ys) andalso subset_stamp (xs, ys);
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  (*fast partial test*)
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  fun fast_sub ([]: string ref list, _) = true
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    | fast_sub (_, []) = false
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    | fast_sub (x :: xs, y :: ys) =
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        if x = y then fast_sub (xs, ys)
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        else fast_sub (x :: xs, ys);
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in
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  fun eq_sg (sg1 as Sg ({id = id1, ...}, _), sg2 as Sg ({id = id2, ...}, _)) =
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    (check_stale sg1; check_stale sg2; id1 = id2);
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  fun subsig (sg1 as Sg ({stamps = s1, ...}, _), sg2 as Sg ({stamps = s2, ...}, _)) =
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    eq_sg (sg1, sg2) orelse subset_stamp (s1, s2);
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  fun fast_subsig (sg1 as Sg ({stamps = s1, ...}, _), sg2 as Sg ({stamps = s2, ...}, _)) =
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    eq_sg (sg1, sg2) orelse fast_sub (s1, s2);
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end;
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(*test if same theory names are contained in signatures' stamps,
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  i.e. if signatures belong to same theory but not necessarily to the
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  same version of it*)
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fun same_sg (sg1 as Sg ({stamps = s1, ...}, _), sg2 as Sg ({stamps = s2, ...}, _)) =
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  eq_sg (sg1, sg2) orelse eq_set_string (pairself (map (op !)) (s1, s2));
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(*test for drafts*)
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fun is_draft (Sg ({stamps = ref name :: _, ...}, _)) = name = "" orelse ord name = ord "#";
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(* classes and sorts *)
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val classes = #classes o Type.rep_tsig o tsig_of;
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val defaultS = Type.defaultS o tsig_of;
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val subsort = Type.subsort o tsig_of;
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val norm_sort = Type.norm_sort o tsig_of;
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val nonempty_sort = Type.nonempty_sort o tsig_of;
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fun of_sort (Sg (_, {tsig, ...})) =
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  Sorts.of_sort (#classrel (Type.rep_tsig tsig)) (#arities (Type.rep_tsig tsig));
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(** signature data **)
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(* errors *)
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fun of_theory sg = "\nof theory " ^ str_of_sg sg;
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fun err_inconsistent kinds =
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  error ("Attempt to merge different versions of " ^ commas_quote kinds ^ " data");
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fun err_method name kind =
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  error ("Error while invoking " ^ quote kind ^ " " ^ name ^ " method");
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fun err_dup_init sg kind =
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  error ("Duplicate initialization of " ^ quote kind ^ " data" ^ of_theory sg);
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fun err_uninit sg kind =
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  error ("Tried to access uninitialized " ^ quote kind ^ " data" ^ 
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	 of_theory sg);
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(*Trying to access theory data using get / put operations from a different
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  instance of the TheoryDataFun result.  Typical cure: re-load all files*)
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fun err_access sg kind =
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  error ("Unauthorized access to " ^ quote kind ^ " data" ^ of_theory sg);
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(* prepare data *)
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val empty_data = Data Symtab.empty;
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fun merge_data (Data tab1, Data tab2) =
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  let
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    val data1 = map snd (Symtab.dest tab1);
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    val data2 = map snd (Symtab.dest tab2);
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    val all_data = data1 @ data2;
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    val kinds = gen_distinct Object.eq_kind (map fst all_data);
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   fun entry data kind =
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     (case gen_assoc Object.eq_kind (data, kind) of
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       None => []
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     | Some x => [(kind, x)]);
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    fun merge_entries [(kind, (e, mths as (ext, _, _)))] =
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          (kind, (ext e handle _ => err_method "prep_ext" (Object.name_of_kind kind), mths))
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      | merge_entries [(kind, (e1, mths as (_, mrg, _))), (_, (e2, _))] =
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          (kind, (mrg (e1, e2) handle _ => err_method "merge" (Object.name_of_kind kind), mths))
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      | merge_entries _ = sys_error "merge_entries";
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    val data = map (fn k => merge_entries (entry data1 k @ entry data2 k)) kinds;
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    val data_idx = map (fn (k, x) => (Object.name_of_kind k, (k, x))) data;
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  in
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    Data (Symtab.make data_idx)
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      handle Symtab.DUPS dups => err_inconsistent dups
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  end;
wenzelm@4256
   321
wenzelm@4256
   322
fun prep_ext_data data = merge_data (data, empty_data);
wenzelm@4256
   323
wenzelm@4256
   324
fun init_data_sg sg (Data tab) kind e ext mrg prt =
wenzelm@4998
   325
  let val name = Object.name_of_kind kind in
wenzelm@4998
   326
    Data (Symtab.update_new ((name, (kind, (e, (ext, mrg, prt)))), tab))
wenzelm@4998
   327
      handle Symtab.DUP _ => err_dup_init sg name
wenzelm@4998
   328
  end;
wenzelm@4256
   329
wenzelm@4256
   330
wenzelm@4256
   331
(* access data *)
wenzelm@4256
   332
wenzelm@4256
   333
fun data_kinds (Data tab) = map fst (Symtab.dest tab);
wenzelm@4256
   334
wenzelm@4256
   335
fun lookup_data sg tab kind =
wenzelm@4998
   336
  let val name = Object.name_of_kind kind in
wenzelm@4998
   337
    (case Symtab.lookup (tab, name) of
wenzelm@4998
   338
      Some (k, x) =>
wenzelm@4998
   339
        if Object.eq_kind (kind, k) then x
wenzelm@4998
   340
        else err_access sg name
wenzelm@4998
   341
    | None => err_uninit sg name)
wenzelm@4998
   342
  end;
wenzelm@4256
   343
wenzelm@4998
   344
fun get_data kind f (sg as Sg (_, {data = Data tab, ...})) =
wenzelm@4998
   345
  let val x = fst (lookup_data sg tab kind)
wenzelm@4998
   346
  in f x handle Match => Object.kind_error kind end;
wenzelm@4998
   347
wenzelm@4998
   348
fun print_data kind (sg as Sg (_, {data = Data tab, ...})) =
wenzelm@4256
   349
  let val (e, (_, _, prt)) = lookup_data sg tab kind
wenzelm@4998
   350
  in prt sg e handle _ => err_method ("print" ^ of_theory sg) (Object.name_of_kind kind) end;
wenzelm@4256
   351
wenzelm@4998
   352
fun put_data_sg sg (Data tab) kind f x =
wenzelm@4998
   353
  Data (Symtab.update ((Object.name_of_kind kind,
wenzelm@4998
   354
    (kind, (f x, snd (lookup_data sg tab kind)))), tab));
wenzelm@4256
   355
wenzelm@4256
   356
wenzelm@4256
   357
wenzelm@4256
   358
(** build signatures **)
wenzelm@3967
   359
wenzelm@3967
   360
fun ext_stamps stamps (id as ref name) =
wenzelm@3967
   361
  let val stmps = (case stamps of ref "#" :: ss => ss | ss => ss) in
wenzelm@3967
   362
    if exists (equal name o !) stmps then
wenzelm@3967
   363
      error ("Theory already contains a " ^ quote name ^ " component")
wenzelm@3967
   364
    else id :: stmps
wenzelm@3967
   365
  end;
wenzelm@3967
   366
wenzelm@3967
   367
fun create_sign self stamps name (syn, tsig, ctab, (path, spaces), data) =
wenzelm@3967
   368
  let
wenzelm@3967
   369
    val id = ref name;
wenzelm@3967
   370
    val sign =
wenzelm@3967
   371
      make_sign (id, self, tsig, ctab, syn, path, spaces, data, ext_stamps stamps id);
wenzelm@3967
   372
  in
wenzelm@3967
   373
    (case self of
wenzelm@3967
   374
      SgRef (Some r) => r := sign
wenzelm@3967
   375
    | _ => sys_error "Sign.create_sign");
wenzelm@3967
   376
    sign
wenzelm@3967
   377
  end;
wenzelm@3967
   378
wenzelm@3975
   379
fun extend_sign keep extfun name decls
wenzelm@3975
   380
    (sg as Sg ({id = _, stamps}, {self, tsig, const_tab, syn, path, spaces, data})) =
wenzelm@3967
   381
  let
wenzelm@3967
   382
    val _ = check_stale sg;
wenzelm@3967
   383
    val (self', data') =
wenzelm@3975
   384
      if is_draft sg andalso keep then (self, data)
wenzelm@4256
   385
      else (SgRef (Some (ref sg)), prep_ext_data data);
wenzelm@3967
   386
  in
wenzelm@3967
   387
    create_sign self' stamps name
wenzelm@3967
   388
      (extfun (syn, tsig, const_tab, (path, spaces), data') decls)
wenzelm@3967
   389
  end;
wenzelm@3967
   390
wenzelm@3967
   391
wenzelm@3791
   392
wenzelm@3791
   393
(** name spaces **)
wenzelm@3791
   394
wenzelm@3791
   395
(* kinds *)
wenzelm@3791
   396
wenzelm@3791
   397
val classK = "class";
wenzelm@3791
   398
val typeK = "type";
wenzelm@3791
   399
val constK = "const";
wenzelm@3791
   400
wenzelm@3791
   401
wenzelm@3791
   402
(* add and retrieve names *)
wenzelm@3791
   403
wenzelm@3791
   404
fun space_of spaces kind =
wenzelm@3791
   405
  if_none (assoc (spaces, kind)) NameSpace.empty;
wenzelm@3791
   406
wenzelm@3791
   407
(*input and output of qualified names*)
wenzelm@3995
   408
fun intrn spaces kind = NameSpace.intern (space_of spaces kind);
wenzelm@3995
   409
fun extrn spaces kind = NameSpace.extern (space_of spaces kind);
wenzelm@5175
   410
fun cond_extrn spaces kind = NameSpace.cond_extern (space_of spaces kind);
wenzelm@3791
   411
wenzelm@3791
   412
(*add names*)
wenzelm@3791
   413
fun add_names spaces kind names =
wenzelm@4489
   414
  let val space' = NameSpace.extend (space_of spaces kind, names) in
wenzelm@3791
   415
    overwrite (spaces, (kind, space'))
wenzelm@3791
   416
  end;
wenzelm@3791
   417
wenzelm@3810
   418
(*make full names*)
wenzelm@3937
   419
fun full path name =
wenzelm@4489
   420
  if name = "" then error "Attempt to declare empty name \"\""
wenzelm@4489
   421
  else if NameSpace.qualified name then
wenzelm@3937
   422
    error ("Attempt to declare qualified name " ^ quote name)
wenzelm@3937
   423
  else NameSpace.pack (path @ [name]);
wenzelm@3937
   424
wenzelm@3937
   425
(*base name*)
wenzelm@3937
   426
val base_name = NameSpace.base;
wenzelm@3791
   427
wenzelm@3791
   428
wenzelm@3791
   429
(* intern / extern names *)
wenzelm@3791
   430
wenzelm@3791
   431
local
wenzelm@3791
   432
  (*prepare mapping of names*)
wenzelm@3791
   433
  fun mapping f add_xs t =
wenzelm@3791
   434
    let
wenzelm@3791
   435
      fun f' x = let val y = f x in if x = y then None else Some (x, y) end;
wenzelm@3791
   436
      val table = mapfilter f' (add_xs (t, []));
wenzelm@3791
   437
      fun lookup x = if_none (assoc (table, x)) x;
wenzelm@3791
   438
    in lookup end;
wenzelm@3791
   439
wenzelm@3791
   440
  (*intern / extern typ*)
wenzelm@3791
   441
  fun trn_typ trn T =
wenzelm@3791
   442
    T |> map_typ
wenzelm@3791
   443
      (mapping (trn classK) add_typ_classes T)
wenzelm@3791
   444
      (mapping (trn typeK) add_typ_tycons T);
wenzelm@3791
   445
wenzelm@3791
   446
  (*intern / extern term*)
wenzelm@3791
   447
  fun trn_term trn t =
wenzelm@3791
   448
    t |> map_term
wenzelm@3791
   449
      (mapping (trn classK) add_term_classes t)
wenzelm@3791
   450
      (mapping (trn typeK) add_term_tycons t)
wenzelm@3791
   451
      (mapping (trn constK) add_term_consts t);
wenzelm@3791
   452
wenzelm@3975
   453
  val spaces_of = #spaces o rep_sg;
wenzelm@3791
   454
in
wenzelm@3791
   455
  fun intrn_class spaces = intrn spaces classK;
wenzelm@3791
   456
  fun extrn_class spaces = extrn spaces classK;
wenzelm@3937
   457
wenzelm@3791
   458
  val intrn_sort = map o intrn_class;
wenzelm@3791
   459
  val intrn_typ = trn_typ o intrn;
wenzelm@3937
   460
  val intrn_term = trn_term o intrn;
wenzelm@3937
   461
wenzelm@3937
   462
  val extrn_sort = map o extrn_class;
wenzelm@3791
   463
  val extrn_typ = trn_typ o extrn;
wenzelm@3791
   464
  val extrn_term = trn_term o extrn;
wenzelm@3791
   465
wenzelm@3805
   466
  fun intrn_tycons spaces T =
wenzelm@3805
   467
    map_typ I (mapping (intrn spaces typeK) add_typ_tycons T) T;
wenzelm@3805
   468
wenzelm@3810
   469
  val intern = intrn o spaces_of;
wenzelm@3855
   470
  val extern = extrn o spaces_of;
wenzelm@5175
   471
  val cond_extern = cond_extrn o spaces_of;
wenzelm@3937
   472
wenzelm@3791
   473
  val intern_class = intrn_class o spaces_of;
wenzelm@3791
   474
  val intern_sort = intrn_sort o spaces_of;
wenzelm@3791
   475
  val intern_typ = intrn_typ o spaces_of;
wenzelm@3791
   476
  val intern_term = intrn_term o spaces_of;
wenzelm@3791
   477
wenzelm@3791
   478
  fun intern_tycon sg = intrn (spaces_of sg) typeK;
wenzelm@3791
   479
  fun intern_const sg = intrn (spaces_of sg) constK;
wenzelm@3937
   480
wenzelm@3791
   481
  val intern_tycons = intrn_tycons o spaces_of;
wenzelm@3791
   482
wenzelm@3975
   483
  val full_name = full o #path o rep_sg;
wenzelm@4908
   484
  fun full_name_path sg elems name =
wenzelm@4844
   485
    full (#path (rep_sg sg) @ NameSpace.unpack elems) name;
wenzelm@3791
   486
end;
wenzelm@620
   487
wenzelm@402
   488
clasohm@0
   489
wenzelm@4249
   490
(** pretty printing of terms, types etc. **)
wenzelm@3937
   491
wenzelm@4249
   492
fun pretty_term (sg as Sg ({stamps, ...}, {syn, spaces, ...})) t =
wenzelm@3937
   493
  Syntax.pretty_term syn
wenzelm@4249
   494
    (exists (equal "CPure" o !) stamps)
wenzelm@5175
   495
    (if ! NameSpace.long_names then t else extrn_term spaces t);
wenzelm@3937
   496
wenzelm@3975
   497
fun pretty_typ (Sg (_, {syn, spaces, ...})) T =
wenzelm@3937
   498
  Syntax.pretty_typ syn
wenzelm@5175
   499
    (if ! NameSpace.long_names then T else extrn_typ spaces T);
wenzelm@3937
   500
wenzelm@3975
   501
fun pretty_sort (Sg (_, {syn, spaces, ...})) S =
wenzelm@3937
   502
  Syntax.pretty_sort syn
wenzelm@5175
   503
    (if ! NameSpace.long_names then S else extrn_sort spaces S);
wenzelm@3937
   504
wenzelm@3937
   505
fun pretty_classrel sg (c1, c2) = Pretty.block
wenzelm@3937
   506
  [pretty_sort sg [c1], Pretty.str " <", Pretty.brk 1, pretty_sort sg [c2]];
wenzelm@3937
   507
wenzelm@3937
   508
fun pretty_arity sg (t, Ss, S) =
wenzelm@3937
   509
  let
wenzelm@3937
   510
    val t' = cond_extern sg typeK t;
wenzelm@3937
   511
    val dom =
wenzelm@3937
   512
      if null Ss then []
wenzelm@3937
   513
      else [Pretty.list "(" ")" (map (pretty_sort sg) Ss), Pretty.brk 1];
wenzelm@3937
   514
  in
wenzelm@3937
   515
    Pretty.block
wenzelm@3937
   516
      ([Pretty.str (t' ^ " ::"), Pretty.brk 1] @ dom @ [pretty_sort sg S])
wenzelm@3937
   517
  end;
wenzelm@3937
   518
wenzelm@3937
   519
fun string_of_term sg t = Pretty.string_of (pretty_term sg t);
wenzelm@3937
   520
fun string_of_typ sg T = Pretty.string_of (pretty_typ sg T);
wenzelm@3937
   521
fun string_of_sort sg S = Pretty.string_of (pretty_sort sg S);
wenzelm@3937
   522
wenzelm@3937
   523
fun str_of_sort sg S = Pretty.str_of (pretty_sort sg S);
wenzelm@3937
   524
fun str_of_classrel sg c1_c2 = Pretty.str_of (pretty_classrel sg c1_c2);
wenzelm@3937
   525
fun str_of_arity sg ar = Pretty.str_of (pretty_arity sg ar);
wenzelm@3937
   526
wenzelm@3937
   527
fun pprint_term sg = Pretty.pprint o Pretty.quote o (pretty_term sg);
wenzelm@3937
   528
fun pprint_typ sg = Pretty.pprint o Pretty.quote o (pretty_typ sg);
wenzelm@3937
   529
wenzelm@3937
   530
wenzelm@3937
   531
wenzelm@562
   532
(** read types **)  (*exception ERROR*)
wenzelm@562
   533
wenzelm@562
   534
fun err_in_type s =
wenzelm@562
   535
  error ("The error(s) above occurred in type " ^ quote s);
wenzelm@562
   536
wenzelm@4227
   537
fun rd_raw_typ syn tsig spaces def_sort str =
wenzelm@3791
   538
  intrn_tycons spaces
wenzelm@3791
   539
    (Syntax.read_typ syn (Type.get_sort tsig def_sort (intrn_sort spaces)) str
wenzelm@3791
   540
      handle ERROR => err_in_type str);
wenzelm@4227
   541
wenzelm@4227
   542
fun read_raw_typ (sg as Sg (_, {tsig, syn, spaces, ...}), def_sort) str =
wenzelm@4227
   543
  (check_stale sg; rd_raw_typ syn tsig spaces def_sort str);
wenzelm@4227
   544
wenzelm@562
   545
(*read and certify typ wrt a signature*)
wenzelm@4227
   546
fun read_typ (sg, def_sort) str =
wenzelm@4227
   547
  (Type.cert_typ (tsig_of sg) (read_raw_typ (sg, def_sort) str)
wenzelm@3969
   548
      handle TYPE (msg, _, _) => (error_msg msg; err_in_type str));
wenzelm@562
   549
wenzelm@562
   550
wenzelm@562
   551
wenzelm@386
   552
(** certify types and terms **)   (*exception TYPE*)
wenzelm@251
   553
wenzelm@4961
   554
(* certify_typ *)
wenzelm@4961
   555
wenzelm@3975
   556
val certify_typ = Type.cert_typ o tsig_of;
wenzelm@251
   557
wenzelm@4961
   558
wenzelm@4961
   559
(* certify_term *)
wenzelm@4961
   560
wenzelm@2979
   561
(*check for duplicate TVars with distinct sorts*)
wenzelm@2979
   562
fun nodup_TVars (tvars, T) =
wenzelm@2979
   563
  (case T of
wenzelm@2979
   564
    Type (_, Ts) => nodup_TVars_list (tvars, Ts)
wenzelm@2979
   565
  | TFree _ => tvars
wenzelm@2979
   566
  | TVar (v as (a, S)) =>
wenzelm@2979
   567
      (case assoc_string_int (tvars, a) of
wenzelm@2979
   568
        Some S' =>
wenzelm@2979
   569
          if S = S' then tvars
wenzelm@3791
   570
          else raise TYPE ("Type variable " ^ Syntax.string_of_vname a ^
wenzelm@3791
   571
            " has two distinct sorts", [TVar (a, S'), T], [])
wenzelm@2979
   572
      | None => v :: tvars))
wenzelm@2979
   573
(*equivalent to foldl nodup_TVars_list, but 3X faster under Poly/ML*)
wenzelm@2979
   574
and nodup_TVars_list (tvars, []) = tvars
wenzelm@2979
   575
  | nodup_TVars_list (tvars, T :: Ts) =
wenzelm@2979
   576
      nodup_TVars_list (nodup_TVars (tvars, T), Ts);
nipkow@1494
   577
wenzelm@2979
   578
(*check for duplicate Vars with distinct types*)
nipkow@1494
   579
fun nodup_Vars tm =
wenzelm@2979
   580
  let
wenzelm@2979
   581
    fun nodups vars tvars tm =
wenzelm@2979
   582
      (case tm of
wenzelm@2979
   583
        Const (c, T) => (vars, nodup_TVars (tvars, T))
wenzelm@2979
   584
      | Free (a, T) => (vars, nodup_TVars (tvars, T))
wenzelm@2979
   585
      | Var (v as (ixn, T)) =>
wenzelm@2979
   586
          (case assoc_string_int (vars, ixn) of
wenzelm@2979
   587
            Some T' =>
wenzelm@2979
   588
              if T = T' then (vars, nodup_TVars (tvars, T))
wenzelm@3791
   589
              else raise TYPE ("Variable " ^ Syntax.string_of_vname ixn ^
wenzelm@3791
   590
                " has two distinct types", [T', T], [])
wenzelm@2979
   591
          | None => (v :: vars, tvars))
wenzelm@2979
   592
      | Bound _ => (vars, tvars)
wenzelm@3791
   593
      | Abs (_, T, t) => nodups vars (nodup_TVars (tvars, T)) t
wenzelm@2979
   594
      | s $ t =>
wenzelm@2979
   595
          let val (vars',tvars') = nodups vars tvars s in
wenzelm@2979
   596
            nodups vars' tvars' t
wenzelm@2979
   597
          end);
wenzelm@2979
   598
  in nodups [] [] tm; () end;
wenzelm@2979
   599
wenzelm@4961
   600
(*compute and check type of the term*)
wenzelm@4961
   601
fun type_check sg tm =
wenzelm@4961
   602
  let
wenzelm@4961
   603
    val prt =
wenzelm@4961
   604
      setmp Syntax.show_brackets true
wenzelm@5175
   605
        (setmp NameSpace.long_names true (pretty_term sg));
wenzelm@5175
   606
    val prT = setmp NameSpace.long_names true (pretty_typ sg);
wenzelm@251
   607
wenzelm@4961
   608
    fun err_appl why bs t T u U =
wenzelm@4961
   609
      let
wenzelm@4961
   610
        val xs = map Free bs;		(*we do not rename here*)
wenzelm@4961
   611
        val t' = subst_bounds (xs, t);
wenzelm@4961
   612
        val u' = subst_bounds (xs, u);
nipkow@5635
   613
        val text = cat_lines(TypeInfer.appl_error prt prT why t' T u' U);
wenzelm@4961
   614
      in raise TYPE (text, [T, U], [t', u']) end;
wenzelm@4961
   615
wenzelm@4961
   616
    fun typ_of (_, Const (_, T)) = T
wenzelm@4961
   617
      | typ_of (_, Free  (_, T)) = T
wenzelm@4961
   618
      | typ_of (_, Var (_, T)) = T
wenzelm@4961
   619
      | typ_of (bs, Bound i) = snd (nth_elem (i, bs) handle LIST _ =>
wenzelm@4961
   620
          raise TYPE ("Loose bound variable: B." ^ string_of_int i, [], [Bound i]))
wenzelm@4961
   621
      | typ_of (bs, Abs (x, T, body)) = T --> typ_of ((x, T) :: bs, body)
wenzelm@4961
   622
      | typ_of (bs, t $ u) =
wenzelm@4961
   623
          let val T = typ_of (bs, t) and U = typ_of (bs, u) in
wenzelm@4961
   624
            (case T of
wenzelm@4961
   625
              Type ("fun", [T1, T2]) =>
wenzelm@4961
   626
                if T1 = U then T2 else err_appl "Incompatible operand type." bs t T u U
wenzelm@4961
   627
            | _ => err_appl "Operator not of function type." bs t T u U)
wenzelm@4961
   628
          end;
wenzelm@4961
   629
wenzelm@4961
   630
  in typ_of ([], tm) end;
clasohm@0
   631
wenzelm@2979
   632
wenzelm@3975
   633
fun certify_term sg tm =
wenzelm@251
   634
  let
wenzelm@3969
   635
    val _ = check_stale sg;
wenzelm@3975
   636
    val tsig = tsig_of sg;
wenzelm@3969
   637
wenzelm@3975
   638
    fun show_const a T = quote a ^ " :: " ^ quote (string_of_typ sg T);
wenzelm@169
   639
wenzelm@4961
   640
    fun atom_err (errs, Const (a, T)) =
wenzelm@3975
   641
        (case const_type sg a of
wenzelm@4961
   642
          None => ("Undeclared constant " ^ show_const a T) :: errs
wenzelm@3975
   643
        | Some U =>
wenzelm@4961
   644
            if Type.typ_instance (tsig, T, U) then errs
wenzelm@4961
   645
            else ("Illegal type for constant " ^ show_const a T) :: errs)
wenzelm@4961
   646
      | atom_err (errs, Var ((x, i), _)) =
wenzelm@4961
   647
          if i < 0 then ("Negative index for Var " ^ quote x) :: errs else errs
wenzelm@4961
   648
      | atom_err (errs, _) = errs;
wenzelm@251
   649
wenzelm@251
   650
    val norm_tm =
wenzelm@2185
   651
      (case it_term_types (Type.typ_errors tsig) (tm, []) of
wenzelm@2185
   652
        [] => map_term_types (Type.norm_typ tsig) tm
wenzelm@3791
   653
      | errs => raise TYPE (cat_lines errs, [], [tm]));
nipkow@1494
   654
    val _ = nodup_Vars norm_tm;
wenzelm@251
   655
  in
wenzelm@4961
   656
    (case foldl_aterms atom_err ([], norm_tm) of
wenzelm@4961
   657
      [] => (norm_tm, type_check sg norm_tm, maxidx_of_term norm_tm)
wenzelm@3791
   658
    | errs => raise TYPE (cat_lines errs, [], [norm_tm]))
wenzelm@251
   659
  end;
wenzelm@251
   660
wenzelm@251
   661
wenzelm@251
   662
wenzelm@583
   663
(** infer_types **)         (*exception ERROR*)
wenzelm@251
   664
wenzelm@2979
   665
(*
wenzelm@2979
   666
  def_type: partial map from indexnames to types (constrains Frees, Vars)
wenzelm@2979
   667
  def_sort: partial map from indexnames to sorts (constrains TFrees, TVars)
wenzelm@2979
   668
  used: list of already used type variables
wenzelm@2979
   669
  freeze: if true then generated parameters are turned into TFrees, else TVars
wenzelm@4249
   670
wenzelm@4249
   671
  termss: lists of alternative parses (only one combination should be type-correct)
wenzelm@4249
   672
  typs: expected types
wenzelm@2979
   673
*)
wenzelm@2979
   674
wenzelm@4249
   675
fun infer_types_simult sg def_type def_sort used freeze args =
wenzelm@251
   676
  let
wenzelm@3975
   677
    val tsig = tsig_of sg;
wenzelm@3810
   678
    val prt =
wenzelm@3810
   679
      setmp Syntax.show_brackets true
wenzelm@5175
   680
        (setmp NameSpace.long_names true (pretty_term sg));
wenzelm@5175
   681
    val prT = setmp NameSpace.long_names true (pretty_typ sg);
wenzelm@4249
   682
wenzelm@4249
   683
    val termss = foldr multiply (map fst args, [[]]);
wenzelm@4249
   684
    val typs =
wenzelm@4249
   685
      map (fn (_, T) => certify_typ sg T handle TYPE (msg, _, _) => error msg) args;
wenzelm@169
   686
wenzelm@4249
   687
    fun infer ts = OK
wenzelm@4249
   688
      (Type.infer_types prt prT tsig (const_type sg) def_type def_sort
wenzelm@4249
   689
        (intern_const sg) (intern_tycons sg) (intern_sort sg) used freeze typs ts)
wenzelm@4249
   690
      handle TYPE (msg, _, _) => Error msg;
clasohm@623
   691
wenzelm@4249
   692
    val err_results = map infer termss;
wenzelm@4249
   693
    val errs = mapfilter get_error err_results;
wenzelm@4249
   694
    val results = mapfilter get_ok err_results;
wenzelm@4249
   695
wenzelm@4249
   696
    val ambiguity = length termss;	(* FIXME !? *)
wenzelm@4249
   697
    (* FIXME to syntax.ML!? *)
wenzelm@4249
   698
    fun ambig_msg () =
wenzelm@4249
   699
      if ambiguity > 1 andalso ambiguity <= ! Syntax.ambiguity_level
wenzelm@4249
   700
      then
wenzelm@4249
   701
        error_msg "Got more than one parse tree.\n\
wenzelm@3805
   702
          \Retry with smaller Syntax.ambiguity_level for more information."
nipkow@952
   703
      else ();
wenzelm@4249
   704
  in
wenzelm@4249
   705
    if null results then (ambig_msg (); error (cat_lines errs))
wenzelm@4249
   706
    else if length results = 1 then
wenzelm@4249
   707
      (if ambiguity > ! Syntax.ambiguity_level then
wenzelm@4249
   708
        warning "Fortunately, only one parse tree is type correct.\n\
wenzelm@4249
   709
          \You may still want to disambiguate your grammar or your input."
wenzelm@4249
   710
      else (); hd results)
wenzelm@4249
   711
    else (ambig_msg (); error ("More than one term is type correct:\n" ^
wenzelm@4249
   712
      (cat_lines (map (Pretty.string_of o prt) (flat (map fst results))))))
wenzelm@4249
   713
  end;
clasohm@623
   714
wenzelm@4249
   715
wenzelm@4249
   716
fun infer_types sg def_type def_sort used freeze tsT =
wenzelm@4249
   717
  apfst hd (infer_types_simult sg def_type def_sort used freeze [tsT]);
wenzelm@251
   718
wenzelm@251
   719
wenzelm@2979
   720
clasohm@623
   721
(** extend signature **)    (*exception ERROR*)
clasohm@623
   722
wenzelm@620
   723
(** signature extension functions **)  (*exception ERROR*)
wenzelm@386
   724
wenzelm@3791
   725
fun decls_of path name_of mfixs =
wenzelm@3810
   726
  map (fn (x, y, mx) => (full path (name_of x mx), y)) mfixs;
wenzelm@3791
   727
wenzelm@3791
   728
fun no_read _ _ _ decl = decl;
wenzelm@386
   729
wenzelm@386
   730
wenzelm@386
   731
(* add default sort *)
wenzelm@386
   732
wenzelm@3967
   733
fun ext_defsort int (syn, tsig, ctab, (path, spaces), data) S =
wenzelm@3791
   734
  (syn, Type.ext_tsig_defsort tsig (if int then intrn_sort spaces S else S),
wenzelm@3967
   735
    ctab, (path, spaces), data);
wenzelm@386
   736
wenzelm@386
   737
wenzelm@386
   738
(* add type constructors *)
wenzelm@386
   739
wenzelm@3967
   740
fun ext_types (syn, tsig, ctab, (path, spaces), data) types =
wenzelm@3791
   741
  let val decls = decls_of path Syntax.type_name types in
wenzelm@3791
   742
    (Syntax.extend_type_gram syn types,
wenzelm@3791
   743
      Type.ext_tsig_types tsig decls, ctab,
wenzelm@3967
   744
      (path, add_names spaces typeK (map fst decls)), data)
wenzelm@3791
   745
  end;
wenzelm@386
   746
wenzelm@4844
   747
fun ext_nonterminals sg nonterms =
wenzelm@4844
   748
  ext_types sg (map (fn n => (n, 0, Syntax.NoSyn)) nonterms);
wenzelm@4844
   749
wenzelm@386
   750
wenzelm@386
   751
(* add type abbreviations *)
wenzelm@386
   752
wenzelm@3791
   753
fun read_abbr syn tsig spaces (t, vs, rhs_src) =
wenzelm@4227
   754
  (t, vs, rd_raw_typ syn tsig spaces (K None) rhs_src)
wenzelm@386
   755
    handle ERROR => error ("in type abbreviation " ^ t);
wenzelm@386
   756
wenzelm@3967
   757
fun ext_abbrs rd_abbr (syn, tsig, ctab, (path, spaces), data) abbrs =
wenzelm@386
   758
  let
wenzelm@386
   759
    fun mfix_of (t, vs, _, mx) = (t, length vs, mx);
wenzelm@3791
   760
    val syn' = Syntax.extend_type_gram syn (map mfix_of abbrs);
wenzelm@386
   761
wenzelm@3791
   762
    val abbrs' =
wenzelm@3791
   763
      map (fn (t, vs, rhs, mx) =>
wenzelm@3810
   764
        (full path (Syntax.type_name t mx), vs, rhs)) abbrs;
wenzelm@3805
   765
    val spaces' = add_names spaces typeK (map #1 abbrs');
wenzelm@3805
   766
    val decls = map (rd_abbr syn' tsig spaces') abbrs';
wenzelm@386
   767
  in
wenzelm@3967
   768
    (syn', Type.ext_tsig_abbrs tsig decls, ctab, (path, spaces'), data)
wenzelm@386
   769
  end;
wenzelm@386
   770
wenzelm@3791
   771
fun ext_tyabbrs abbrs = ext_abbrs read_abbr abbrs;
wenzelm@3791
   772
fun ext_tyabbrs_i abbrs = ext_abbrs no_read abbrs;
wenzelm@386
   773
wenzelm@386
   774
wenzelm@386
   775
(* add type arities *)
wenzelm@386
   776
wenzelm@3967
   777
fun ext_arities int (syn, tsig, ctab, (path, spaces), data) arities =
wenzelm@386
   778
  let
wenzelm@3791
   779
    fun intrn_arity (c, Ss, S) =
wenzelm@3791
   780
      (intrn spaces typeK c, map (intrn_sort spaces) Ss, intrn_sort spaces S);
wenzelm@3791
   781
    val intrn = if int then map intrn_arity else I;
wenzelm@3791
   782
    val tsig' = Type.ext_tsig_arities tsig (intrn arities);
wenzelm@3791
   783
    val log_types = Type.logical_types tsig';
wenzelm@386
   784
  in
wenzelm@3967
   785
    (Syntax.extend_log_types syn log_types, tsig', ctab, (path, spaces), data)
wenzelm@386
   786
  end;
wenzelm@386
   787
wenzelm@386
   788
wenzelm@386
   789
(* add term constants and syntax *)
wenzelm@386
   790
wenzelm@3805
   791
fun const_name path c mx =
wenzelm@3810
   792
  full path (Syntax.const_name c mx);
wenzelm@3805
   793
wenzelm@386
   794
fun err_in_const c =
wenzelm@386
   795
  error ("in declaration of constant " ^ quote c);
wenzelm@386
   796
wenzelm@386
   797
fun err_dup_consts cs =
wenzelm@386
   798
  error ("Duplicate declaration of constant(s) " ^ commas_quote cs);
wenzelm@386
   799
wenzelm@251
   800
wenzelm@3805
   801
fun read_const syn tsig (path, spaces) (c, ty_src, mx) =
wenzelm@4227
   802
  (c, rd_raw_typ syn tsig spaces (K None) ty_src, mx)
wenzelm@3805
   803
    handle ERROR => err_in_const (const_name path c mx);
wenzelm@386
   804
wenzelm@3967
   805
fun ext_cnsts rd_const syn_only prmode (syn, tsig, ctab, (path, spaces), data) raw_consts =
wenzelm@386
   806
  let
wenzelm@2979
   807
    fun prep_const (c, ty, mx) =
wenzelm@3791
   808
      (c, compress_type (Type.varifyT (Type.cert_typ tsig (Type.no_tvars ty))), mx)
wenzelm@3791
   809
        handle TYPE (msg, _, _) =>
wenzelm@3805
   810
          (error_msg msg; err_in_const (const_name path c mx));
wenzelm@386
   811
wenzelm@3805
   812
    val consts = map (prep_const o rd_const syn tsig (path, spaces)) raw_consts;
wenzelm@386
   813
    val decls =
wenzelm@386
   814
      if syn_only then []
wenzelm@3791
   815
      else decls_of path Syntax.const_name consts;
wenzelm@386
   816
  in
wenzelm@2197
   817
    (Syntax.extend_const_gram syn prmode consts, tsig,
wenzelm@4489
   818
      Symtab.extend (ctab, decls)
wenzelm@3791
   819
        handle Symtab.DUPS cs => err_dup_consts cs,
wenzelm@3967
   820
      (path, add_names spaces constK (map fst decls)), data)
wenzelm@386
   821
  end;
wenzelm@386
   822
wenzelm@4007
   823
fun ext_consts_i sg = ext_cnsts no_read false ("", true) sg;
wenzelm@4007
   824
fun ext_consts sg = ext_cnsts read_const false ("", true) sg;
wenzelm@4007
   825
fun ext_syntax_i sg = ext_cnsts no_read true ("", true) sg;
wenzelm@4007
   826
fun ext_syntax sg = ext_cnsts read_const true ("", true) sg;
wenzelm@3791
   827
fun ext_modesyntax_i sg (prmode, consts) = ext_cnsts no_read true prmode sg consts;
wenzelm@2197
   828
fun ext_modesyntax sg (prmode, consts) = ext_cnsts read_const true prmode sg consts;
wenzelm@386
   829
wenzelm@386
   830
wenzelm@386
   831
(* add type classes *)
wenzelm@386
   832
wenzelm@386
   833
fun const_of_class c = c ^ "_class";
wenzelm@386
   834
wenzelm@386
   835
fun class_of_const c_class =
wenzelm@386
   836
  let
wenzelm@3791
   837
    val c = implode (take (size c_class - size "_class", explode c_class));
wenzelm@386
   838
  in
wenzelm@386
   839
    if const_of_class c = c_class then c
wenzelm@3791
   840
    else raise TERM ("class_of_const: bad name " ^ quote c_class, [])
wenzelm@386
   841
  end;
wenzelm@386
   842
wenzelm@386
   843
wenzelm@3967
   844
fun ext_classes int (syn, tsig, ctab, (path, spaces), data) classes =
wenzelm@386
   845
  let
wenzelm@562
   846
    val names = map fst classes;
wenzelm@386
   847
    val consts =
wenzelm@386
   848
      map (fn c => (const_of_class c, a_itselfT --> propT, NoSyn)) names;
wenzelm@3791
   849
wenzelm@3810
   850
    val full_names = map (full path) names;
wenzelm@3791
   851
    val spaces' = add_names spaces classK full_names;
wenzelm@3791
   852
    val intrn = if int then map (intrn_class spaces') else I;
wenzelm@3791
   853
    val classes' =
wenzelm@3791
   854
      ListPair.map (fn (c, (_, cs)) => (c, intrn cs)) (full_names, classes);
wenzelm@386
   855
  in
wenzelm@386
   856
    ext_consts_i
wenzelm@3791
   857
      (Syntax.extend_consts syn names,
wenzelm@3967
   858
        Type.ext_tsig_classes tsig classes', ctab, (path, spaces'), data)
wenzelm@3791
   859
    consts
wenzelm@386
   860
  end;
wenzelm@386
   861
wenzelm@386
   862
wenzelm@2963
   863
(* add to classrel *)
wenzelm@421
   864
wenzelm@3967
   865
fun ext_classrel int (syn, tsig, ctab, (path, spaces), data) pairs =
wenzelm@3791
   866
  let val intrn = if int then map (pairself (intrn_class spaces)) else I in
wenzelm@3967
   867
    (syn, Type.ext_tsig_classrel tsig (intrn pairs), ctab, (path, spaces), data)
wenzelm@3791
   868
  end;
wenzelm@421
   869
wenzelm@421
   870
wenzelm@4619
   871
(* add translation rules *)
wenzelm@4619
   872
wenzelm@4619
   873
fun ext_trrules (syn, tsig, ctab, (path, spaces), data) args =
wenzelm@4619
   874
  (Syntax.extend_trrules syn
wenzelm@4619
   875
    (map (Syntax.map_trrule (fn (root, str) => (intrn spaces typeK root, str))) args),
wenzelm@4619
   876
      tsig, ctab, (path, spaces), data);
wenzelm@4619
   877
wenzelm@4619
   878
wenzelm@1159
   879
(* add to syntax *)
wenzelm@386
   880
wenzelm@3967
   881
fun ext_syn extfun (syn, tsig, ctab, names, data) args =
wenzelm@3967
   882
  (extfun syn args, tsig, ctab, names, data);
wenzelm@3791
   883
wenzelm@3791
   884
wenzelm@3791
   885
(* add to path *)
wenzelm@3791
   886
wenzelm@4844
   887
fun ext_path (syn, tsig, ctab, (path, spaces), data) elems =
wenzelm@3791
   888
  let
wenzelm@3791
   889
    val path' =
wenzelm@4844
   890
      if elems = ".." andalso not (null path) then fst (split_last path)
wenzelm@4844
   891
      else if elems = "/" then []
wenzelm@4844
   892
      else path @ NameSpace.unpack elems;
wenzelm@3791
   893
  in
wenzelm@3967
   894
    (syn, tsig, ctab, (path', spaces), data)
wenzelm@3791
   895
  end;      
wenzelm@3791
   896
wenzelm@3791
   897
wenzelm@3791
   898
(* add to name space *)
wenzelm@3791
   899
wenzelm@3967
   900
fun ext_space (syn, tsig, ctab, (path, spaces), data) (kind, names) =
wenzelm@3967
   901
  (syn, tsig, ctab, (path, add_names spaces kind names), data);
wenzelm@386
   902
wenzelm@386
   903
wenzelm@3967
   904
(* signature data *)
wenzelm@386
   905
wenzelm@4256
   906
fun ext_init_data sg (syn, tsig, ctab, names, data) (kind, (e, ext, mrg, prt)) =
wenzelm@4256
   907
  (syn, tsig, ctab, names, init_data_sg sg data kind e ext mrg prt);
wenzelm@386
   908
wenzelm@4998
   909
fun ext_put_data sg (syn, tsig, ctab, names, data) (kind, f, x) =
wenzelm@4998
   910
  (syn, tsig, ctab, names, put_data_sg sg data kind f x);
wenzelm@386
   911
wenzelm@386
   912
wenzelm@386
   913
(* the external interfaces *)
wenzelm@386
   914
wenzelm@4998
   915
val add_classes       = extend_sign true (ext_classes true) "#";
wenzelm@4998
   916
val add_classes_i     = extend_sign true (ext_classes false) "#";
wenzelm@4998
   917
val add_classrel      = extend_sign true (ext_classrel true) "#";
wenzelm@4998
   918
val add_classrel_i    = extend_sign true (ext_classrel false) "#";
wenzelm@4998
   919
val add_defsort       = extend_sign true (ext_defsort true) "#";
wenzelm@4998
   920
val add_defsort_i     = extend_sign true (ext_defsort false) "#";
wenzelm@4998
   921
val add_types         = extend_sign true ext_types "#";
wenzelm@4998
   922
val add_nonterminals  = extend_sign true ext_nonterminals "#";
wenzelm@4998
   923
val add_tyabbrs       = extend_sign true ext_tyabbrs "#";
wenzelm@4998
   924
val add_tyabbrs_i     = extend_sign true ext_tyabbrs_i "#";
wenzelm@4998
   925
val add_arities       = extend_sign true (ext_arities true) "#";
wenzelm@4998
   926
val add_arities_i     = extend_sign true (ext_arities false) "#";
wenzelm@4998
   927
val add_consts        = extend_sign true ext_consts "#";
wenzelm@4998
   928
val add_consts_i      = extend_sign true ext_consts_i "#";
wenzelm@4998
   929
val add_syntax        = extend_sign true ext_syntax "#";
wenzelm@4998
   930
val add_syntax_i      = extend_sign true ext_syntax_i "#";
wenzelm@4998
   931
val add_modesyntax    = extend_sign true ext_modesyntax "#";
wenzelm@4998
   932
val add_modesyntax_i  = extend_sign true ext_modesyntax_i "#";
wenzelm@4998
   933
val add_trfuns        = extend_sign true (ext_syn Syntax.extend_trfuns) "#";
wenzelm@4998
   934
val add_trfunsT       = extend_sign true (ext_syn Syntax.extend_trfunsT) "#";
wenzelm@4998
   935
val add_tokentrfuns   = extend_sign true (ext_syn Syntax.extend_tokentrfuns) "#";
wenzelm@4998
   936
val add_trrules       = extend_sign true ext_trrules "#";
wenzelm@4998
   937
val add_trrules_i     = extend_sign true (ext_syn Syntax.extend_trrules_i) "#";
wenzelm@4998
   938
val add_path          = extend_sign true ext_path "#";
wenzelm@4998
   939
val add_space         = extend_sign true ext_space "#";
wenzelm@4998
   940
fun init_data arg sg  = extend_sign true (ext_init_data sg) "#" arg sg;
wenzelm@4998
   941
fun put_data k f x sg = extend_sign true (ext_put_data sg) "#" (k, f, x) sg;
wenzelm@4998
   942
fun add_name name sg  = extend_sign true K name () sg;
wenzelm@4998
   943
fun prep_ext sg       = extend_sign false K "#" () sg;
wenzelm@386
   944
wenzelm@386
   945
wenzelm@3867
   946
wenzelm@4017
   947
(** merge signatures **)    	(*exception TERM*)
wenzelm@3867
   948
wenzelm@4228
   949
(* merge_stamps *)
wenzelm@4228
   950
wenzelm@4228
   951
fun merge_stamps stamps1 stamps2 =
wenzelm@4228
   952
  let val stamps = merge_rev_lists stamps1 stamps2 in
wenzelm@4228
   953
    (case duplicates (map ! stamps) of
wenzelm@4228
   954
      [] => stamps
wenzelm@4228
   955
    | dups => raise TERM ("Attempt to merge different versions of theories "
wenzelm@4228
   956
        ^ commas_quote dups, []))
wenzelm@4228
   957
  end;
wenzelm@4228
   958
wenzelm@4228
   959
wenzelm@4627
   960
(* implicit merge -- trivial only *)
wenzelm@3877
   961
wenzelm@4228
   962
fun merge_refs (sgr1 as SgRef (Some (ref (sg1 as Sg ({stamps = s1, ...}, _)))),
wenzelm@4228
   963
        sgr2 as SgRef (Some (ref (sg2 as Sg ({stamps = s2, ...}, _))))) =
wenzelm@3967
   964
      if fast_subsig (sg2, sg1) then sgr1
wenzelm@3967
   965
      else if fast_subsig (sg1, sg2) then sgr2
wenzelm@3967
   966
      else if subsig (sg2, sg1) then sgr1
wenzelm@3967
   967
      else if subsig (sg1, sg2) then sgr2
wenzelm@4228
   968
      else (merge_stamps s1 s2; (*check for different versions*)
wenzelm@4228
   969
        raise TERM ("Attempt to do non-trivial merge of signatures", []))
wenzelm@3967
   970
  | merge_refs _ = sys_error "Sign.merge_refs";
wenzelm@3867
   971
wenzelm@4627
   972
val merge = deref o merge_refs o pairself self_ref;
wenzelm@4627
   973
wenzelm@3867
   974
wenzelm@3967
   975
(* proper merge *)
wenzelm@143
   976
wenzelm@3967
   977
fun merge_aux (sg1, sg2) =
wenzelm@3967
   978
  if subsig (sg2, sg1) then sg1
wenzelm@251
   979
  else if subsig (sg1, sg2) then sg2
wenzelm@386
   980
  else if is_draft sg1 orelse is_draft sg2 then
wenzelm@3967
   981
    raise TERM ("Attempt to merge draft signatures", [])
wenzelm@251
   982
  else
wenzelm@251
   983
    (*neither is union already; must form union*)
wenzelm@251
   984
    let
wenzelm@3975
   985
      val Sg ({id = _, stamps = stamps1}, {self = _, tsig = tsig1, const_tab = const_tab1,
wenzelm@3975
   986
        syn = syn1, path = _, spaces = spaces1, data = data1}) = sg1;
wenzelm@3975
   987
      val Sg ({id = _, stamps = stamps2}, {self = _, tsig = tsig2, const_tab = const_tab2,
wenzelm@3975
   988
        syn = syn2, path = _, spaces = spaces2, data = data2}) = sg2;
wenzelm@386
   989
wenzelm@3967
   990
      val id = ref "";
wenzelm@3975
   991
      val self_ref = ref sg1;                   (*dummy value*)
wenzelm@3967
   992
      val self = SgRef (Some self_ref);
wenzelm@402
   993
wenzelm@4228
   994
      val stamps = merge_stamps stamps1 stamps2;
wenzelm@2185
   995
      val tsig = Type.merge_tsigs (tsig1, tsig2);
wenzelm@251
   996
      val const_tab = Symtab.merge (op =) (const_tab1, const_tab2)
wenzelm@386
   997
        handle Symtab.DUPS cs =>
wenzelm@3791
   998
          raise TERM ("Incompatible types for constant(s) " ^ commas_quote cs, []);
wenzelm@386
   999
      val syn = Syntax.merge_syntaxes syn1 syn2;
wenzelm@3791
  1000
wenzelm@3967
  1001
      val path = [];
wenzelm@3791
  1002
      val kinds = distinct (map fst (spaces1 @ spaces2));
wenzelm@3791
  1003
      val spaces =
wenzelm@3791
  1004
        kinds ~~
wenzelm@3791
  1005
          ListPair.map NameSpace.merge
wenzelm@3791
  1006
            (map (space_of spaces1) kinds, map (space_of spaces2) kinds);
wenzelm@3867
  1007
wenzelm@4256
  1008
      val data = merge_data (data1, data2);
wenzelm@3967
  1009
wenzelm@3967
  1010
      val sign = make_sign (id, self, tsig, const_tab, syn, path, spaces, data, stamps);
wenzelm@251
  1011
    in
wenzelm@3967
  1012
      self_ref := sign; sign
wenzelm@251
  1013
    end;
wenzelm@143
  1014
wenzelm@4627
  1015
fun nontriv_merge sg1_sg2 =
wenzelm@3967
  1016
  (case handle_error merge_aux sg1_sg2 of
wenzelm@3805
  1017
    OK sg => sg
wenzelm@3805
  1018
  | Error msg => raise TERM (msg, []));
wenzelm@3805
  1019
clasohm@0
  1020
clasohm@0
  1021
wenzelm@3995
  1022
(** partial Pure signature **)
clasohm@0
  1023
wenzelm@3967
  1024
val dummy_sg = make_sign (ref "", SgRef None, Type.tsig0,
wenzelm@4489
  1025
  Symtab.empty, Syntax.pure_syn, [], [], empty_data, []);
wenzelm@3967
  1026
wenzelm@3995
  1027
val pre_pure =
wenzelm@3967
  1028
  create_sign (SgRef (Some (ref dummy_sg))) [] "#"
wenzelm@4489
  1029
    (Syntax.pure_syn, Type.tsig0, Symtab.empty, ([], []), empty_data);
clasohm@0
  1030
wenzelm@3791
  1031
clasohm@0
  1032
end;