(* Title: Pure/Syntax/printer.ML
ID: $Id$
Author: Tobias Nipkow and Markus Wenzel, TU Muenchen
Pretty printing of asts, terms, types and print (ast) translation.
*)
signature PRINTER0 =
sig
val show_brackets: bool ref
val show_sorts: bool ref
val show_types: bool ref
val show_no_free_types: bool ref
val show_all_types: bool ref
val pp_show_brackets: Pretty.pp -> Pretty.pp
end;
signature PRINTER =
sig
include PRINTER0
val term_to_ast: theory -> (string -> (theory -> bool -> typ -> term list -> term) list) ->
term -> Ast.ast
val typ_to_ast: theory -> (string -> (theory -> bool -> typ -> term list -> term) list) ->
typ -> Ast.ast
val sort_to_ast: theory -> (string -> (theory -> bool -> typ -> term list -> term) list) ->
sort -> Ast.ast
type prtabs
val empty_prtabs: prtabs
val extend_prtabs: string -> SynExt.xprod list -> prtabs -> prtabs
val remove_prtabs: string -> SynExt.xprod list -> prtabs -> prtabs
val merge_prtabs: prtabs -> prtabs -> prtabs
val pretty_term_ast: theory -> bool -> prtabs
-> (string -> (theory -> Ast.ast list -> Ast.ast) list)
-> (string -> (string -> string * real) option) -> Ast.ast -> Pretty.T
val pretty_typ_ast: theory -> bool -> prtabs
-> (string -> (theory -> Ast.ast list -> Ast.ast) list)
-> (string -> (string -> string * real) option) -> Ast.ast -> Pretty.T
end;
structure Printer: PRINTER =
struct
(** options for printing **)
val show_types = ref false;
val show_sorts = ref false;
val show_brackets = ref false;
val show_no_free_types = ref false;
val show_all_types = ref false;
fun pp_show_brackets pp = Pretty.pp (setmp show_brackets true (Pretty.term pp),
Pretty.typ pp, Pretty.sort pp, Pretty.classrel pp, Pretty.arity pp);
(** misc utils **)
(* apply print (ast) translation function *)
fun apply_trans thy name a fns args =
let
fun app_first [] = raise Match
| app_first (f :: fs) = f thy args handle Match => app_first fs;
in
transform_failure (fn Match => Match
| exn => EXCEPTION (exn, "Error in " ^ name ^ " for " ^ quote a))
app_first fns
end;
fun apply_typed x y fs = map (fn f => fn thy => f thy x y) fs;
(* simple_ast_of *)
fun simple_ast_of (Const (c, _)) = Ast.Constant c
| simple_ast_of (Free (x, _)) = Ast.Variable x
| simple_ast_of (Var (xi, _)) = Ast.Variable (Term.string_of_vname xi)
| simple_ast_of (t as _ $ _) =
let val (f, args) = strip_comb t in
Ast.mk_appl (simple_ast_of f) (map simple_ast_of args)
end
| simple_ast_of (Bound i) = Ast.Variable ("B." ^ string_of_int i)
| simple_ast_of (Abs _) = sys_error "simple_ast_of: Abs";
(** sort_to_ast, typ_to_ast **)
fun ast_of_termT thy trf tm =
let
fun ast_of (t as Const ("_class", _) $ Free _) = simple_ast_of t
| ast_of (t as Const ("_tfree", _) $ Free _) = simple_ast_of t
| ast_of (t as Const ("_tvar", _) $ Var _) = simple_ast_of t
| ast_of (Const (a, _)) = trans a []
| ast_of (t as _ $ _) =
(case strip_comb t of
(Const (a, _), args) => trans a args
| (f, args) => Ast.Appl (map ast_of (f :: args)))
| ast_of t = simple_ast_of t
and trans a args =
ast_of (apply_trans thy "print translation" a (apply_typed false dummyT (trf a)) args)
handle Match => Ast.mk_appl (Ast.Constant a) (map ast_of args);
in ast_of tm end;
fun sort_to_ast thy trf S = ast_of_termT thy trf (TypeExt.term_of_sort S);
fun typ_to_ast thy trf T = ast_of_termT thy trf (TypeExt.term_of_typ (! show_sorts) T);
(** term_to_ast **)
fun mark_freevars ((t as Const (c, _)) $ u) =
if c mem_string SynExt.standard_token_markers then (t $ u)
else t $ mark_freevars u
| mark_freevars (t $ u) = mark_freevars t $ mark_freevars u
| mark_freevars (Abs (x, T, t)) = Abs (x, T, mark_freevars t)
| mark_freevars (t as Free _) = Lexicon.const "_free" $ t
| mark_freevars (t as Var (xi, T)) =
if xi = SynExt.dddot_indexname then Const ("_DDDOT", T)
else Lexicon.const "_var" $ t
| mark_freevars a = a;
fun ast_of_term thy trf show_all_types no_freeTs show_types show_sorts tm =
let
fun prune_typs (t_seen as (Const _, _)) = t_seen
| prune_typs (t as Free (x, ty), seen) =
if ty = dummyT then (t, seen)
else if no_freeTs orelse t mem seen then (Lexicon.free x, seen)
else (t, t :: seen)
| prune_typs (t as Var (xi, ty), seen) =
if ty = dummyT then (t, seen)
else if no_freeTs orelse t mem seen then (Lexicon.var xi, seen)
else (t, t :: seen)
| prune_typs (t_seen as (Bound _, _)) = t_seen
| prune_typs (Abs (x, ty, t), seen) =
let val (t', seen') = prune_typs (t, seen);
in (Abs (x, ty, t'), seen') end
| prune_typs (t1 $ t2, seen) =
let
val (t1', seen') = prune_typs (t1, seen);
val (t2', seen'') = prune_typs (t2, seen');
in (t1' $ t2', seen'') end;
fun ast_of tm =
(case strip_comb tm of
(t as Abs _, ts) => Ast.mk_appl (ast_of (SynTrans.abs_tr' t)) (map ast_of ts)
| ((c as Const ("_free", _)), Free (x, T) :: ts) =>
Ast.mk_appl (constrain (c $ Lexicon.free x) T) (map ast_of ts)
| ((c as Const ("_bound", _)), Free (x, T) :: ts) =>
Ast.mk_appl (constrain (c $ Lexicon.free x) T) (map ast_of ts)
| ((c as Const ("_var", _)), Var (xi, T) :: ts) =>
Ast.mk_appl (constrain (c $ Lexicon.var xi) T) (map ast_of ts)
| (c' as Const (c, T), ts) =>
if show_all_types
then Ast.mk_appl (constrain c' T) (map ast_of ts)
else trans c T ts
| (t, ts) => Ast.mk_appl (simple_ast_of t) (map ast_of ts))
and trans a T args =
ast_of (apply_trans thy "print translation" a (apply_typed show_sorts T (trf a)) args)
handle Match => Ast.mk_appl (Ast.Constant a) (map ast_of args)
and constrain t T =
if show_types andalso T <> dummyT then
Ast.Appl [Ast.Constant SynExt.constrainC, simple_ast_of t,
ast_of_termT thy trf (TypeExt.term_of_typ show_sorts T)]
else simple_ast_of t
in
tm
|> SynTrans.prop_tr'
|> (if show_types then #1 o prune_typs o rpair [] else I)
|> mark_freevars
|> ast_of
end;
fun term_to_ast thy trf tm =
ast_of_term thy trf (! show_all_types) (! show_no_free_types)
(! show_types orelse ! show_sorts orelse ! show_all_types) (! show_sorts) tm;
(** type prtabs **)
datatype symb =
Arg of int |
TypArg of int |
String of string |
Break of int |
Block of int * symb list;
type prtabs = (string * ((symb list * int * int) list) Symtab.table) list;
fun mode_tab prtabs mode = if_none (AList.lookup (op =) prtabs mode) Symtab.empty;
fun mode_tabs prtabs modes = List.mapPartial (AList.lookup (op =) prtabs) (modes @ [""]);
(* xprod_to_fmt *)
fun xprod_to_fmt (SynExt.XProd (_, _, "", _)) = NONE
| xprod_to_fmt (SynExt.XProd (_, xsymbs, const, pri)) =
let
fun cons_str s (String s' :: syms) = String (s ^ s') :: syms
| cons_str s syms = String s :: syms;
fun arg (s, p) =
(if s = "type" then TypArg else Arg)
(if Lexicon.is_terminal s then SynExt.max_pri else p);
fun xsyms_to_syms (SynExt.Delim s :: xsyms) =
apfst (cons_str s) (xsyms_to_syms xsyms)
| xsyms_to_syms (SynExt.Argument s_p :: xsyms) =
apfst (cons (arg s_p)) (xsyms_to_syms xsyms)
| xsyms_to_syms (SynExt.Space s :: xsyms) =
apfst (cons_str s) (xsyms_to_syms xsyms)
| xsyms_to_syms (SynExt.Bg i :: xsyms) =
let
val (bsyms, xsyms') = xsyms_to_syms xsyms;
val (syms, xsyms'') = xsyms_to_syms xsyms';
in
(Block (i, bsyms) :: syms, xsyms'')
end
| xsyms_to_syms (SynExt.Brk i :: xsyms) =
apfst (cons (Break i)) (xsyms_to_syms xsyms)
| xsyms_to_syms (SynExt.En :: xsyms) = ([], xsyms)
| xsyms_to_syms [] = ([], []);
fun nargs (Arg _ :: syms) = nargs syms + 1
| nargs (TypArg _ :: syms) = nargs syms + 1
| nargs (String _ :: syms) = nargs syms
| nargs (Break _ :: syms) = nargs syms
| nargs (Block (_, bsyms) :: syms) = nargs syms + nargs bsyms
| nargs [] = 0;
in
(case xsyms_to_syms xsymbs of
(symbs, []) => SOME (const, (symbs, nargs symbs, pri))
| _ => sys_error "xprod_to_fmt: unbalanced blocks")
end;
(* empty, extend, merge prtabs *)
val empty_prtabs = [];
fun change_prtabs f mode xprods prtabs =
let
val fmts = List.mapPartial xprod_to_fmt xprods;
val tab = fold f fmts (mode_tab prtabs mode);
in AList.update (op =) (mode, tab) prtabs end;
fun extend_prtabs m = change_prtabs Symtab.curried_update_multi m;
fun remove_prtabs m = change_prtabs (Symtab.remove_multi (op =)) m;
fun merge_prtabs prtabs1 prtabs2 =
let
val modes = distinct (map fst (prtabs1 @ prtabs2));
fun merge m = (m, Symtab.merge_multi' (op =) (mode_tab prtabs1 m, mode_tab prtabs2 m));
in map merge modes end;
(** pretty term or typ asts **)
fun is_chain [Block (_, pr)] = is_chain pr
| is_chain [Arg _] = true
| is_chain _ = false;
fun pretty thy tabs trf tokentrf type_mode curried ast0 p0 =
let
val trans = apply_trans thy "print ast translation";
fun token_trans c [Ast.Variable x] =
(case tokentrf c of
NONE => NONE
| SOME f => SOME (f x))
| token_trans _ _ = NONE;
(*default applications: prefix / postfix*)
val appT =
if type_mode then TypeExt.tappl_ast_tr'
else if curried then SynTrans.applC_ast_tr'
else SynTrans.appl_ast_tr';
fun synT ([], args) = ([], args)
| synT (Arg p :: symbs, t :: args) =
let val (Ts, args') = synT (symbs, args);
in (astT (t, p) @ Ts, args') end
| synT (TypArg p :: symbs, t :: args) =
let
val (Ts, args') = synT (symbs, args);
in
if type_mode then (astT (t, p) @ Ts, args')
else (pretty thy tabs trf tokentrf true curried t p @ Ts, args')
end
| synT (String s :: symbs, args) =
let val (Ts, args') = synT (symbs, args);
in (Pretty.str s :: Ts, args') end
| synT (Block (i, bsymbs) :: symbs, args) =
let
val (bTs, args') = synT (bsymbs, args);
val (Ts, args'') = synT (symbs, args');
val T =
if i < 0 then Pretty.unbreakable (Pretty.block bTs)
else Pretty.blk (i, bTs);
in (T :: Ts, args'') end
| synT (Break i :: symbs, args) =
let
val (Ts, args') = synT (symbs, args);
val T = if i < 0 then Pretty.fbrk else Pretty.brk i;
in (T :: Ts, args') end
| synT (_ :: _, []) = sys_error "synT"
and parT (pr, args, p, p': int) = #1 (synT
(if p > p' orelse
(! show_brackets andalso p' <> SynExt.max_pri andalso not (is_chain pr))
then [Block (1, String "(" :: pr @ [String ")"])]
else pr, args))
and prefixT (_, a, [], _) = [Pretty.str a]
| prefixT (c, _, args, p) = astT (appT (c, args), p)
and splitT 0 ([x], ys) = (x, ys)
| splitT 0 (rev_xs, ys) = (Ast.Appl (rev rev_xs), ys)
| splitT n (rev_xs, y :: ys) = splitT (n - 1) (y :: rev_xs, ys)
| splitT _ _ = sys_error "splitT"
and combT (tup as (c, a, args, p)) =
let
val nargs = length args;
(*find matching table entry, or print as prefix / postfix*)
fun prnt ([], []) = prefixT tup
| prnt ([], tb :: tbs) = prnt (Symtab.curried_lookup_multi tb a, tbs)
| prnt ((pr, n, p') :: prnps, tbs) =
if nargs = n then parT (pr, args, p, p')
else if nargs > n andalso not type_mode then
astT (appT (splitT n ([c], args)), p)
else prnt (prnps, tbs);
in
(case token_trans a args of (*try token translation function*)
SOME s_len => [Pretty.raw_str s_len]
| NONE => (*try print translation functions*)
astT (trans a (trf a) args, p) handle Match => prnt ([], tabs))
end
and astT (c as Ast.Constant a, p) = combT (c, a, [], p)
| astT (Ast.Variable x, _) = [Pretty.str x]
| astT (Ast.Appl ((c as Ast.Constant a) :: (args as _ :: _)), p) = combT (c, a, args, p)
| astT (Ast.Appl (f :: (args as _ :: _)), p) = astT (appT (f, args), p)
| astT (ast as Ast.Appl _, _) = raise Ast.AST ("pretty: malformed ast", [ast]);
in astT (ast0, p0) end;
(* pretty_term_ast *)
fun pretty_term_ast thy curried prtabs trf tokentrf ast =
Pretty.blk (0, pretty thy (mode_tabs prtabs (! print_mode))
trf tokentrf false curried ast 0);
(* pretty_typ_ast *)
fun pretty_typ_ast thy _ prtabs trf tokentrf ast =
Pretty.blk (0, pretty thy (mode_tabs prtabs (! print_mode))
trf tokentrf true false ast 0);
end;