(* Title: Pure/ML/ml_pp.ML
Author: Makarius
ML toplevel pretty-printing for logical entities.
*)
structure ML_PP: sig end =
struct
val _ =
PolyML.addPrettyPrinter
(fn _ => fn _ => Pretty.to_polyml o Proof_Display.pp_context);
val _ =
PolyML.addPrettyPrinter
(fn _ => fn _ => Pretty.to_polyml o Proof_Display.pp_thm Thy_Info.pure_theory);
val _ =
PolyML.addPrettyPrinter
(fn _ => fn _ => Pretty.to_polyml o Proof_Display.pp_cterm Thy_Info.pure_theory);
val _ =
PolyML.addPrettyPrinter
(fn _ => fn _ => Pretty.to_polyml o Proof_Display.pp_ctyp Thy_Info.pure_theory);
val _ =
PolyML.addPrettyPrinter
(fn _ => fn _ => Pretty.to_polyml o Proof_Display.pp_typ Thy_Info.pure_theory);
local
fun prt_app name prt = Pretty.block [Pretty.str (name ^ " "), prt];
fun prt_apps name = Pretty.enum "," (name ^ " (") ")";
fun prt_term parens (dp: FixedInt.int) t =
if dp <= 0 then Pretty.str "..."
else
(case t of
_ $ _ =>
op :: (strip_comb t)
|> map_index (fn (i, u) => prt_term true (dp - FixedInt.fromInt i - 1) u)
|> Pretty.separate " $"
|> (if parens then Pretty.enclose "(" ")" else Pretty.block)
| Abs (a, T, b) =>
prt_apps "Abs"
[Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)),
Pretty.from_polyml (PolyML.prettyRepresentation (T, dp - 2)),
prt_term false (dp - 3) b]
| Const a => prt_app "Const" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| Free a => prt_app "Free" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| Var a => prt_app "Var" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| Bound a => prt_app "Bound" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1))));
in
val _ = PolyML.addPrettyPrinter (fn depth => fn _ => Pretty.to_polyml o prt_term false depth);
local
fun prt_proof parens dp prf =
if dp <= 0 then Pretty.str "..."
else
(case prf of
_ % _ => prt_proofs parens dp prf
| _ %% _ => prt_proofs parens dp prf
| Abst (a, T, b) =>
prt_apps "Abst"
[Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)),
Pretty.from_polyml (PolyML.prettyRepresentation (T, dp - 2)),
prt_proof false (dp - 3) b]
| AbsP (a, t, b) =>
prt_apps "AbsP"
[Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)),
Pretty.from_polyml (PolyML.prettyRepresentation (t, dp - 2)),
prt_proof false (dp - 3) b]
| Hyp t => prt_app "Hyp" (prt_term true (dp - 1) t)
| MinProof => Pretty.str "MinProof"
| PBound a => prt_app "PBound" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| PAxm a => prt_app "PAxm" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| OfClass a => prt_app "OfClass" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| Oracle a => prt_app "Oracle" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| Promise a => prt_app "Promise" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1)))
| PThm a => prt_app "PThm" (Pretty.from_polyml (PolyML.prettyRepresentation (a, dp - 1))))
and prt_proofs parens dp prf =
let
val (head, args) = strip_proof prf [];
val prts =
head (dp - 1) :: flat (map_index (fn (i, prt) => prt (dp - FixedInt.fromInt i - 2)) args);
in if parens then Pretty.enclose "(" ")" prts else Pretty.block prts end
and strip_proof (p % t) res =
strip_proof p
((fn d =>
[Pretty.str " %", Pretty.brk 1,
Pretty.from_polyml (PolyML.prettyRepresentation (t, d))]) :: res)
| strip_proof (p %% q) res =
strip_proof p ((fn d => [Pretty.str " %%", Pretty.brk 1, prt_proof true d q]) :: res)
| strip_proof p res = (fn d => prt_proof true d p, res);
in
val _ =
PolyML.addPrettyPrinter (fn depth => fn _ => fn prf =>
ML_Pretty.to_polyml (Pretty.to_ML (prt_proof false depth prf)));
end;
end;
end;