src/Pure/display.ML
author wenzelm
Thu Jul 23 16:52:16 2009 +0200 (2009-07-23)
changeset 32145 220c9e439d39
parent 32090 39acf19e9f3a
child 32187 cca43ca13f4f
permissions -rw-r--r--
clarified pretty_goals, pretty_thm_aux: plain context;
explicit pretty_goals_without_context, print_goals_without_context;
tuned;
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(*  Title:      Pure/display.ML
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    Author:     Lawrence C Paulson, Cambridge University Computer Laboratory
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    Author:     Makarius
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Printing of theorems, results etc.
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*)
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signature BASIC_DISPLAY =
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sig
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  val goals_limit: int ref
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  val show_consts: bool ref
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  val show_hyps: bool ref
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  val show_tags: bool ref
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end;
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signature DISPLAY =
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sig
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  include BASIC_DISPLAY
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  val pretty_thm_raw: Proof.context -> {quote: bool, show_hyps: bool, show_status: bool} ->
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    thm -> Pretty.T
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  val pretty_thm_aux: Proof.context -> bool -> thm -> Pretty.T
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  val pretty_thm: Proof.context -> thm -> Pretty.T
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  val pretty_thm_global: theory -> thm -> Pretty.T
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  val pretty_thm_without_context: thm -> Pretty.T
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  val string_of_thm: Proof.context -> thm -> string
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  val string_of_thm_global: theory -> thm -> string
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  val string_of_thm_without_context: thm -> string
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  val pretty_thms_aux: Proof.context -> bool -> thm list -> Pretty.T
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  val pretty_thms: Proof.context -> thm list -> Pretty.T
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  val pretty_ctyp: ctyp -> Pretty.T
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  val string_of_ctyp: ctyp -> string
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  val print_ctyp: ctyp -> unit
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  val pretty_cterm: cterm -> Pretty.T
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  val string_of_cterm: cterm -> string
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  val print_cterm: cterm -> unit
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  val print_syntax: theory -> unit
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  val pretty_full_theory: bool -> theory -> Pretty.T list
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end;
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structure Display: DISPLAY =
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struct
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(** options **)
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val goals_limit = Display_Goal.goals_limit;
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val show_consts = Display_Goal.show_consts;
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val show_hyps = ref false;      (*false: print meta-hypotheses as dots*)
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val show_tags = ref false;      (*false: suppress tags*)
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(** print thm **)
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fun pretty_tag (name, arg) = Pretty.strs [name, quote arg];
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val pretty_tags = Pretty.list "[" "]" o map pretty_tag;
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fun display_status false _ = ""
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  | display_status true th =
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      let
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        val {oracle = oracle0, unfinished, failed} = Thm.status_of th;
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        val oracle = oracle0 andalso (not (! quick_and_dirty) orelse ! show_hyps);
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      in
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        if failed then "!!"
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        else if oracle andalso unfinished then "!?"
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        else if oracle then "!"
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        else if unfinished then "?"
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        else ""
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      end;
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fun pretty_thm_raw ctxt {quote, show_hyps = show_hyps', show_status} raw_th =
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  let
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    val th = Thm.strip_shyps raw_th;
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    val {hyps, tpairs, prop, ...} = Thm.rep_thm th;
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    val xshyps = Thm.extra_shyps th;
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    val tags = Thm.get_tags th;
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    val q = if quote then Pretty.quote else I;
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    val prt_term = q o Syntax.pretty_term ctxt;
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    val asms = map Thm.term_of (Assumption.all_assms_of ctxt);
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    val hyps' = if ! show_hyps then hyps else subtract (op aconv) asms hyps;
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    val status = display_status show_status th;
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    val hlen = length xshyps + length hyps' + length tpairs;
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    val hsymbs =
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      if hlen = 0 andalso status = "" then []
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      else if ! show_hyps orelse show_hyps' then
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        [Pretty.brk 2, Pretty.list "[" "]"
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          (map (q o Display_Goal.pretty_flexpair ctxt) tpairs @ map prt_term hyps' @
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           map (Syntax.pretty_sort ctxt) xshyps @
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            (if status = "" then [] else [Pretty.str status]))]
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      else [Pretty.brk 2, Pretty.str ("[" ^ implode (replicate hlen ".") ^ status ^ "]")];
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    val tsymbs =
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      if null tags orelse not (! show_tags) then []
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      else [Pretty.brk 1, pretty_tags tags];
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  in Pretty.block (prt_term prop :: (hsymbs @ tsymbs)) end;
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fun pretty_thm_aux ctxt show_status =
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  pretty_thm_raw ctxt {quote = false, show_hyps = true, show_status = show_status};
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fun pretty_thm ctxt = pretty_thm_aux ctxt true;
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fun pretty_thm_global thy =
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  pretty_thm_raw (Syntax.init_pretty_global thy)
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    {quote = false, show_hyps = false, show_status = true};
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fun pretty_thm_without_context th = pretty_thm_global (Thm.theory_of_thm th) th;
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val string_of_thm = Pretty.string_of oo pretty_thm;
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val string_of_thm_global = Pretty.string_of oo pretty_thm_global;
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val string_of_thm_without_context = Pretty.string_of o pretty_thm_without_context;
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(* multiple theorems *)
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fun pretty_thms_aux ctxt flag [th] = pretty_thm_aux ctxt flag th
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  | pretty_thms_aux ctxt flag ths =
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      Pretty.blk (0, Pretty.fbreaks (map (pretty_thm_aux ctxt flag) ths));
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fun pretty_thms ctxt = pretty_thms_aux ctxt true;
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(* other printing commands *)
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fun pretty_ctyp cT = Syntax.pretty_typ_global (Thm.theory_of_ctyp cT) (Thm.typ_of cT);
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fun string_of_ctyp cT = Syntax.string_of_typ_global (Thm.theory_of_ctyp cT) (Thm.typ_of cT);
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val print_ctyp = writeln o string_of_ctyp;
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fun pretty_cterm ct = Syntax.pretty_term_global (Thm.theory_of_cterm ct) (Thm.term_of ct);
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fun string_of_cterm ct = Syntax.string_of_term_global (Thm.theory_of_cterm ct) (Thm.term_of ct);
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val print_cterm = writeln o string_of_cterm;
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(** print theory **)
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val print_syntax = Syntax.print_syntax o Sign.syn_of;
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(* pretty_full_theory *)
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fun pretty_full_theory verbose thy =
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  let
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    val ctxt = ProofContext.init thy;
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    fun prt_cls c = Syntax.pretty_sort ctxt [c];
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    fun prt_sort S = Syntax.pretty_sort ctxt S;
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    fun prt_arity t (c, (_, Ss)) = Syntax.pretty_arity ctxt (t, Ss, [c]);
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    fun prt_typ ty = Pretty.quote (Syntax.pretty_typ ctxt ty);
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    val prt_typ_no_tvars = prt_typ o Logic.unvarifyT;
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    fun prt_term t = Pretty.quote (Syntax.pretty_term ctxt t);
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    val prt_term_no_vars = prt_term o Logic.unvarify;
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    fun prt_const (c, ty) = [Pretty.str c, Pretty.str " ::", Pretty.brk 1, prt_typ_no_tvars ty];
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    val prt_const' = Defs.pretty_const (Syntax.pp ctxt);
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    fun pretty_classrel (c, []) = prt_cls c
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      | pretty_classrel (c, cs) = Pretty.block
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          (prt_cls c :: Pretty.str " <" :: Pretty.brk 1 ::
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            Pretty.commas (map prt_cls cs));
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    fun pretty_default S = Pretty.block
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      [Pretty.str "default sort:", Pretty.brk 1, prt_sort S];
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    val tfrees = map (fn v => TFree (v, []));
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    fun pretty_type syn (t, ((Type.LogicalType n, _), _)) =
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          if syn then NONE
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          else SOME (prt_typ (Type (t, tfrees (Name.invents Name.context Name.aT n))))
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      | pretty_type syn (t, ((Type.Abbreviation (vs, U, syn'), _), _)) =
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          if syn <> syn' then NONE
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          else SOME (Pretty.block
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            [prt_typ (Type (t, tfrees vs)), Pretty.str " =", Pretty.brk 1, prt_typ U])
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      | pretty_type syn (t, ((Type.Nonterminal, _), _)) =
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          if not syn then NONE
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          else SOME (prt_typ (Type (t, [])));
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    val pretty_arities = maps (fn (t, ars) => map (prt_arity t) ars);
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    fun pretty_abbrev (c, (ty, t)) = Pretty.block
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      (prt_const (c, ty) @ [Pretty.str " ==", Pretty.brk 1, prt_term_no_vars t]);
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    fun pretty_axm (a, t) = Pretty.block [Pretty.str (a ^ ":"), Pretty.brk 1, prt_term_no_vars t];
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    fun pretty_finals reds = Pretty.block
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      (Pretty.str "final:" :: Pretty.brk 1 :: Pretty.commas (map (prt_const' o fst) reds));
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    fun pretty_reduct (lhs, rhs) = Pretty.block
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      ([prt_const' lhs, Pretty.str "  ->", Pretty.brk 2] @
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        Pretty.commas (map prt_const' (sort_wrt #1 rhs)));
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    fun pretty_restrict (const, name) =
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      Pretty.block ([prt_const' const, Pretty.brk 2, Pretty.str ("(from " ^ quote name ^ ")")]);
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    val axioms = (Theory.axiom_space thy, Theory.axiom_table thy);
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    val defs = Theory.defs_of thy;
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    val {restricts, reducts} = Defs.dest defs;
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    val {naming, syn = _, tsig, consts} = Sign.rep_sg thy;
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    val {constants, constraints} = Consts.dest consts;
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    val extern_const = NameSpace.extern (#1 constants);
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    val {classes, default, types, ...} = Type.rep_tsig tsig;
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    val (class_space, class_algebra) = classes;
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    val {classes, arities} = Sorts.rep_algebra class_algebra;
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    val clsses = NameSpace.dest_table (class_space, Symtab.make (Graph.dest classes));
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    val tdecls = NameSpace.dest_table types;
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    val arties = NameSpace.dest_table (Sign.type_space thy, arities);
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    fun prune_const c = not verbose andalso
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      member (op =) (Consts.the_tags consts c) Markup.property_internal;
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    val cnsts = NameSpace.extern_table (#1 constants,
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      Symtab.make (filter_out (prune_const o fst) (Symtab.dest (#2 constants))));
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    val log_cnsts = map_filter (fn (c, (ty, NONE)) => SOME (c, ty) | _ => NONE) cnsts;
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    val abbrevs = map_filter (fn (c, (ty, SOME t)) => SOME (c, (ty, t)) | _ => NONE) cnsts;
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    val cnstrs = NameSpace.extern_table constraints;
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    val axms = NameSpace.extern_table axioms;
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    val (reds0, (reds1, reds2)) = filter_out (prune_const o fst o fst) reducts
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      |> map (fn (lhs, rhs) =>
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        (apfst extern_const lhs, map (apfst extern_const) (filter_out (prune_const o fst) rhs)))
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      |> sort_wrt (#1 o #1)
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      |> List.partition (null o #2)
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      ||> List.partition (Defs.plain_args o #2 o #1);
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    val rests = restricts |> map (apfst (apfst extern_const)) |> sort_wrt (#1 o #1);
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  in
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    [Pretty.strs ("names:" :: Context.display_names thy)] @
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    [Pretty.big_list "classes:" (map pretty_classrel clsses),
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      pretty_default default,
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      Pretty.big_list "syntactic types:" (map_filter (pretty_type true) tdecls),
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      Pretty.big_list "logical types:" (map_filter (pretty_type false) tdecls),
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      Pretty.big_list "type arities:" (pretty_arities arties),
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      Pretty.big_list "logical consts:" (map (Pretty.block o prt_const) log_cnsts),
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      Pretty.big_list "abbreviations:" (map pretty_abbrev abbrevs),
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      Pretty.big_list "constraints:" (map (Pretty.block o prt_const) cnstrs),
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      Pretty.big_list "axioms:" (map pretty_axm axms),
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      Pretty.strs ("oracles:" :: Thm.extern_oracles thy),
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      Pretty.big_list "definitions:"
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        [pretty_finals reds0,
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         Pretty.big_list "non-overloaded:" (map pretty_reduct reds1),
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         Pretty.big_list "overloaded:" (map pretty_reduct reds2),
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         Pretty.big_list "pattern restrictions:" (map pretty_restrict rests)]]
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  end;
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end;
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structure Basic_Display: BASIC_DISPLAY = Display;
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open Basic_Display;