(* Title: Pure/display.ML
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1993 University of Cambridge
Printing of theories, theorems, etc.
*)
signature DISPLAY =
sig
val show_hyps : bool ref
val show_tags : bool ref
val pretty_thm_no_quote: thm -> Pretty.T
val pretty_thm : thm -> Pretty.T
val pretty_thms : thm list -> Pretty.T
val pretty_thm_sg : Sign.sg -> thm -> Pretty.T
val pretty_thms_sg : Sign.sg -> thm list -> Pretty.T
val string_of_thm : thm -> string
val pprint_thm : thm -> pprint_args -> unit
val print_thm : thm -> unit
val print_thms : thm list -> unit
val prth : thm -> thm
val prthq : thm Seq.seq -> thm Seq.seq
val prths : thm list -> thm list
val pretty_ctyp : ctyp -> Pretty.T
val pprint_ctyp : ctyp -> pprint_args -> unit
val string_of_ctyp : ctyp -> string
val print_ctyp : ctyp -> unit
val pretty_cterm : cterm -> Pretty.T
val pprint_cterm : cterm -> pprint_args -> unit
val string_of_cterm : cterm -> string
val print_cterm : cterm -> unit
val pretty_theory : theory -> Pretty.T
val pprint_theory : theory -> pprint_args -> unit
val print_syntax : theory -> unit
val pretty_full_theory: theory -> Pretty.T list
val pretty_name_space : string * NameSpace.T -> Pretty.T
val show_consts : bool ref
end;
structure Display: DISPLAY =
struct
(** print thm **)
val show_hyps = ref true; (*false: print meta-hypotheses as dots*)
val show_tags = ref false; (*false: suppress tags*)
local
fun pretty_tag (name, args) = Pretty.strs (name :: map quote args);
val pretty_tags = Pretty.list "[" "]" o map pretty_tag;
fun pretty_thm_aux quote th =
let
val {sign, hyps, prop, der = (ora, _), ...} = rep_thm th;
val xshyps = Thm.extra_shyps th;
val (_, tags) = Thm.get_name_tags th;
val prt_term = (if quote then Pretty.quote else I) o Sign.pretty_term sign;
val hlen = length xshyps + length hyps;
val hsymbs =
if hlen = 0 andalso not ora then []
else if ! show_hyps then
[Pretty.brk 2, Pretty.list "[" "]"
(map prt_term hyps @ map (Sign.pretty_sort sign) xshyps @
(if ora then [Pretty.str "!"] else []))]
else [Pretty.brk 2, Pretty.str ("[" ^ implode (replicate hlen ".") ^
(if ora then "!" else "") ^ "]")];
val tsymbs =
if null tags orelse not (! show_tags) then []
else [Pretty.brk 1, pretty_tags tags];
in Pretty.block (prt_term prop :: (hsymbs @ tsymbs)) end;
in
val pretty_thm = pretty_thm_aux true;
val pretty_thm_no_quote = pretty_thm_aux false;
end;
val string_of_thm = Pretty.string_of o pretty_thm;
val pprint_thm = Pretty.pprint o pretty_thm;
fun pretty_thms [th] = pretty_thm th
| pretty_thms ths = Pretty.block (Pretty.fbreaks (map pretty_thm ths));
val pretty_thm_sg = pretty_thm oo Thm.transfer_sg;
val pretty_thms_sg = pretty_thms oo (map o Thm.transfer_sg);
(* top-level commands for printing theorems *)
val print_thm = Pretty.writeln o pretty_thm;
val print_thms = Pretty.writeln o pretty_thms;
fun prth th = (print_thm th; th);
(*Print and return a sequence of theorems, separated by blank lines. *)
fun prthq thseq =
(Seq.print (fn _ => print_thm) 100000 thseq; thseq);
(*Print and return a list of theorems, separated by blank lines. *)
fun prths ths = (seq (fn th => (print_thm th; writeln "")) ths; ths);
(* other printing commands *)
fun pretty_ctyp cT =
let val {sign, T} = rep_ctyp cT in Sign.pretty_typ sign T end;
fun pprint_ctyp cT =
let val {sign, T} = rep_ctyp cT in Sign.pprint_typ sign T end;
fun string_of_ctyp cT =
let val {sign, T} = rep_ctyp cT in Sign.string_of_typ sign T end;
val print_ctyp = writeln o string_of_ctyp;
fun pretty_cterm ct =
let val {sign, t, ...} = rep_cterm ct in Sign.pretty_term sign t end;
fun pprint_cterm ct =
let val {sign, t, ...} = rep_cterm ct in Sign.pprint_term sign t end;
fun string_of_cterm ct =
let val {sign, t, ...} = rep_cterm ct in Sign.string_of_term sign t end;
val print_cterm = writeln o string_of_cterm;
(** print theory **)
val pretty_theory = Sign.pretty_sg o Theory.sign_of;
val pprint_theory = Sign.pprint_sg o Theory.sign_of;
val print_syntax = Syntax.print_syntax o Theory.syn_of;
(* pretty_name_space *)
fun pretty_name_space (kind, space) =
let
fun prt_entry (name, accs) = Pretty.block
(Pretty.str (quote name ^ " =") :: Pretty.brk 1 ::
Pretty.commas (map (Pretty.str o quote) accs));
in
Pretty.fbreaks (Pretty.str (kind ^ ":") :: map prt_entry (NameSpace.dest space))
|> Pretty.block
end;
(* print theory *)
fun pretty_full_theory thy =
let
val sg = Theory.sign_of thy;
fun prt_cls c = Sign.pretty_sort sg [c];
fun prt_sort S = Sign.pretty_sort sg S;
fun prt_arity t (c, Ss) = Sign.pretty_arity sg (t, Ss, [c]);
fun prt_typ_no_tvars ty = Pretty.quote (Sign.pretty_typ sg (#1 (Type.freeze_thaw_type ty)));
fun prt_term t = Pretty.quote (Sign.pretty_term sg t);
fun pretty_classes cs = Pretty.block
(Pretty.breaks (Pretty.str "classes:" :: map prt_cls cs));
fun pretty_classrel (c, cs) = Pretty.block
(prt_cls c :: Pretty.str " <" :: Pretty.brk 1 ::
Pretty.commas (map prt_cls cs));
fun pretty_default S = Pretty.block
[Pretty.str "default:", Pretty.brk 1, prt_sort S];
fun pretty_ty (t, n) = Pretty.block
[Pretty.str t, Pretty.brk 1, Pretty.str (string_of_int n)];
fun pretty_log_types ts = Pretty.block
(Pretty.breaks (Pretty.str "logical types:" :: map Pretty.str ts));
fun pretty_witness None = Pretty.str "universal non-emptiness witness: --"
| pretty_witness (Some (T, S)) = Pretty.block
[Pretty.str "universal non-emptiness witness:", Pretty.brk 1, prt_typ_no_tvars T,
Pretty.brk 1, prt_sort S];
fun pretty_abbr (t, (vs, rhs)) = Pretty.block
[prt_typ_no_tvars (Type (t, map (fn v => TVar ((v, 0), [])) vs)),
Pretty.str " =", Pretty.brk 1, prt_typ_no_tvars rhs];
fun pretty_arities (t, ars) = map (prt_arity t) ars;
fun pretty_const (c, ty) = Pretty.block
[Pretty.str c, Pretty.str " ::", Pretty.brk 1, prt_typ_no_tvars ty];
fun prt_axm (a, t) = Pretty.block [Pretty.str (a ^ ":"), Pretty.brk 1, prt_term t];
val {self = _, tsig, const_tab, syn = _, path, spaces, data} = Sign.rep_sg sg;
val {axioms, oracles, ...} = Theory.rep_theory thy;
val spaces' = Library.sort_wrt fst spaces;
val {classes, classrel, default, tycons = type_tab, log_types, univ_witness, abbrs, arities} =
Type.rep_tsig tsig;
val tycons = Sign.cond_extern_table sg Sign.typeK type_tab;
val consts = Sign.cond_extern_table sg Sign.constK const_tab;
val axms = Sign.cond_extern_table sg Theory.axiomK axioms;
val oras = Sign.cond_extern_table sg Theory.oracleK oracles;
in
[Pretty.strs ("stamps:" :: Sign.stamp_names_of sg),
Pretty.strs ("data:" :: Sign.data_kinds data),
Pretty.strs ["name prefix:", NameSpace.pack (if_none path ["-"])],
Pretty.big_list "name spaces:" (map pretty_name_space spaces'),
pretty_classes classes,
Pretty.big_list "class relation:" (map pretty_classrel (Symtab.dest classrel)),
pretty_default default,
pretty_log_types log_types,
pretty_witness univ_witness,
Pretty.big_list "type constructors:" (map pretty_ty tycons),
Pretty.big_list "type abbreviations:" (map pretty_abbr (Symtab.dest abbrs)),
Pretty.big_list "type arities:" (flat (map pretty_arities (Symtab.dest arities))),
Pretty.big_list "consts:" (map pretty_const consts),
Pretty.big_list "axioms:" (map prt_axm axms),
Pretty.strs ("oracles:" :: (map #1 oras))]
end;
(*show consts with types in proof state output?*)
val show_consts = ref false;
end;
open Display;