module U = NUri
module C = Cps
module L = Log
+module P = Marks
module G = Options
-module J = Marks
module E = Entity
module Z = Bag
module ZO = BagOutput
type whd_result =
| Sort_ of int
- | LRef_ of J.mark * Z.term option
+ | LRef_ of P.mark * Z.term option
| GRef_ of Z.entity
- | Bind_ of Z.attrs * J.mark * Z.term * Z.term
+ | Bind_ of Z.attrs * P.mark * Z.term * Z.term
type ho_whd_result =
| Sort of int
(* Internal functions *******************************************************)
-let level = 4
+let level = 5
let term_of_whdr = function
| Sort_ h -> Z.Sort h
let log1 st s c t =
let s1, s2 = s ^ " in the environment", "the term" in
- L.log st ZO.specs level (L.et_items1 s1 c s2 t)
+ L.log st ZO.specs (pred level) (L.et_items1 s1 c s2 t)
let log2 st s cu u ct t =
let s1, s2, s3 = s ^ " in the environment", "the term", "and in the environment" in
- L.log st ZO.specs level (L.et_items2 s1 cu s2 u ~sc2:s3 ~c2:ct s2 t)
+ L.log st ZO.specs (pred level) (L.et_items2 s1 cu s2 u ~sc2:s3 ~c2:ct s2 t)
let empty_machine = {i = 0; c = Z.empty_lenv; s = []}
begin match m.s with
| [] -> f m (Bind_ (a, l, w, t))
| v :: tl ->
- let nl = J.new_mark () in
+ let nl = P.new_mark () in
let f mc = ZS.subst (whd f c {m with c = mc; s = tl}) nl l t in
Z.push "!" f m.c a nl (Z.Abbr (Z.Cast (w, v)))
end
| Z.Bind (a, l, b, t) ->
- let nl = J.new_mark () in
+ let nl = P.new_mark () in
let f mc = ZS.subst (whd f c {m with c = mc}) nl l t in
Z.push "!" f m.c a nl b
| GRef_ (_, _, _, E.Abbr v1), _ ->
whd (aux_rev m2 r2) c m1 v1
| Bind_ (a1, l1, w1, t1), Bind_ (a2, l2, w2, t2) ->
- let l = J.new_mark () in
+ let l = P.new_mark () in
let h c =
let m1, m2 = inc m1, inc m2 in
let f t1 = ZS.subst (are_convertible f st a c m1 t1 m2) l l2 t2 in