\ / This software is distributed as is, NO WARRANTY.
V_______________________________________________________________ *)
+module U = NUri
module C = Cps
module L = Log
+module Y = Entity
module B = Bag
module O = BagOutput
module E = BagEnvironment
module S = BagSubstitution
-exception LRefNotFound of B.message
-
type machine = {
- c: B.context;
+ i: int;
+ c: B.lenv;
s: B.term list
}
type whd_result =
| Sort_ of int
| LRef_ of int * B.term option
- | GRef_ of int * B.bind
+ | GRef_ of B.entity
| Bind_ of int * B.id * B.term * B.term
type ho_whd_result =
(* Internal functions *******************************************************)
+let term_of_whdr = function
+ | Sort_ h -> B.Sort h
+ | LRef_ (i, _) -> B.LRef i
+ | GRef_ (_, uri, _) -> B.GRef uri
+ | Bind_ (l, id, w, t) -> B.bind_abst l id w t
+
let level = 5
-let error i = raise (LRefNotFound (L.items1 (string_of_int i)))
+let log1 s c t =
+ let sc, st = s ^ " in the environment", "the term" in
+ L.log O.specs level (L.et_items1 sc c st t)
-let empty_machine = {c = B.empty_context; s = []}
+let log2 s cu u ct t =
+ let s1, s2, s3 = s ^ " in the environment", "the term", "and in the environment" in
+ L.log O.specs level (L.et_items2 s1 cu s2 u ~sc2:s3 ~c2:ct s2 t)
-let contents f c m =
- let f gl ges = B.contents (f gl ges) m.c in
- B.contents f c
+let empty_machine = {i = 0; c = B.empty_lenv; s = []}
-let unwind_to_context f c m = B.append f c m.c
+let inc m = {m with i = succ m.i}
let unwind_to_term f m t =
let map f t (l, id, b) = f (B.Bind (l, id, b, t)) in
let f mc = C.list_fold_left f map t mc in
B.contents f m.c
+let unwind_stack f m =
+ let map f v = unwind_to_term f m v in
+ C.list_map f map m.s
+
let get f c m i =
let f = function
| Some (_, b) -> f b
- | None -> error i
+ | None -> assert false
in
let f c = B.get f c i in
- unwind_to_context f c m
+ B.append f c m.c
-let push f c m l id w =
+let push msg f c m l id w =
assert (m.s = []);
- let f w = B.push f c l id (B.Abst w) in
+ let f w = B.push msg f c l id (B.Abst w) in
unwind_to_term f m w
(* to share *)
-let rec whd f c m x = match x with
+let rec whd f c m x =
+(* L.warn "entering R.whd"; *)
+ match x with
| B.Sort h -> f m (Sort_ h)
| B.GRef uri ->
- let f (i, _, b) = f m (GRef_ (i, b)) in
- E.get_obj f uri
+ let f entry = f m (GRef_ entry) in
+ E.get_entity f uri
| B.LRef i ->
let f = function
| B.Void -> f m (LRef_ (i, None))
begin match m.s with
| [] -> f m (Bind_ (l, id, w, t))
| v :: tl ->
- let f mc = whd f c {c = mc; s = tl} t in
- B.push f m.c l id (B.Abbr (B.Cast (w, v)))
+ let nl = B.new_location () in
+ let f mc = S.subst (whd f c {m with c = mc; s = tl}) nl l t in
+ B.push "!" f m.c nl id (B.Abbr (B.Cast (w, v)))
end
| B.Bind (l, id, b, t) ->
- let f mc = whd f c {m with c = mc} t in
- B.push f m.c l id b
+ let nl = B.new_location () in
+ let f mc = S.subst (whd f c {m with c = mc}) nl l t in
+ B.push "!" f m.c nl id b
(* Interface functions ******************************************************)
let rec ho_whd f c m x =
+(* L.warn "entering R.ho_whd"; *)
let aux m = function
- | Sort_ h -> f c (Sort h)
- | Bind_ (_, _, w, _) ->
- let f c = f c (Abst w) in unwind_to_context f c m
- | LRef_ (_, Some w) -> ho_whd f c m w
- | GRef_ (_, B.Abst u) -> ho_whd f c m u
- | GRef_ (_, B.Abbr t) -> ho_whd f c m t
- | LRef_ (_, None) -> assert false
- | GRef_ (_, B.Void) -> assert false
+ | Sort_ h -> f (Sort h)
+ | Bind_ (_, _, w, _) ->
+ let f w = f (Abst w) in unwind_to_term f m w
+ | LRef_ (_, Some w) -> ho_whd f c m w
+ | GRef_ (_, _, Y.Abst w) -> ho_whd f c m w
+ | GRef_ (_, _, Y.Abbr v) -> ho_whd f c m v
+ | LRef_ (_, None) -> assert false
in
whd aux c m x
let ho_whd f c t =
- let f c r = L.unbox level; f c r in
- L.box level; L.log O.specs level (L.ct_items1 "Now scanning" c t);
+ let f r = L.unbox level; f r in
+ L.box level; log1 "Now scanning" c t;
ho_whd f c empty_machine t
-let rec are_convertible f c m1 t1 m2 t2 =
- let rec aux m1 r1 m2 r2 = match r1, r2 with
- | Sort_ h1, Sort_ h2 -> f (h1 = h2)
- | LRef_ (i1, _), LRef_ (i2, _) ->
- if i1 = i2 then are_convertible_stacks f c m1 m2 else f false
- | GRef_ (a1, B.Abst _), GRef_ (a2, B.Abst _) ->
- if a1 = a2 then are_convertible_stacks f c m1 m2 else f false
- | GRef_ (a1, B.Abbr v1), GRef_ (a2, B.Abbr v2) ->
- if a1 = a2 then are_convertible_stacks f c m1 m2 else
+let rec are_convertible f ~si a c m1 t1 m2 t2 =
+(* L.warn "entering R.are_convertible"; *)
+ let rec aux m1 r1 m2 r2 =
+(* L.warn "entering R.are_convertible_aux"; *)
+ let u, t = term_of_whdr r1, term_of_whdr r2 in
+ log2 "Now really converting" c u c t;
+ match r1, r2 with
+ | Sort_ h1, Sort_ h2 ->
+ if h1 = h2 then f a else f false
+ | LRef_ (i1, _), LRef_ (i2, _) ->
+ if i1 = i2 then are_convertible_stacks f ~si a c m1 m2 else f false
+ | GRef_ ((Y.Apix a1 :: _), _, Y.Abst _),
+ GRef_ ((Y.Apix a2 :: _), _, Y.Abst _) ->
+ if a1 = a2 then are_convertible_stacks f ~si a c m1 m2 else f false
+ | GRef_ ((Y.Apix a1 :: _), _, Y.Abbr v1),
+ GRef_ ((Y.Apix a2 :: _), _, Y.Abbr v2) ->
+ if a1 = a2 then
+ let f a =
+ if a then f a else are_convertible f ~si true c m1 v1 m2 v2
+ in
+ are_convertible_stacks f ~si a c m1 m2
+ else
if a1 < a2 then whd (aux m1 r1) c m2 v2 else
whd (aux_rev m2 r2) c m1 v1
- | _, GRef_ (_, B.Abbr v2) ->
+ | _, GRef_ (_, _, Y.Abbr v2) ->
whd (aux m1 r1) c m2 v2
- | GRef_ (_, B.Abbr v1), _ ->
+ | GRef_ (_, _, Y.Abbr v1), _ ->
whd (aux_rev m2 r2) c m1 v1
- | Bind_ (l1, id1, w1, t1), Bind_ (l2, id2, w2, t2) ->
- let f b =
- if b then
- let f c =
- S.subst (are_convertible f c m1 t1 m2) l1 l2 t2
- in
- push f c m1 l1 id1 w1
- else f false
+ | Bind_ (l1, id1, w1, t1), Bind_ (l2, id2, w2, t2) ->
+ let l = B.new_location () in
+ let h c =
+ let m1, m2 = inc m1, inc m2 in
+ let f t1 = S.subst (are_convertible f ~si a c m1 t1 m2) l l2 t2 in
+ S.subst f l l1 t1
in
- are_convertible f c m1 w1 m2 w2
- | _ -> f false
+ let f r = if r then push "!" h c m1 l id1 w1 else f false in
+ are_convertible f ~si a c m1 w1 m2 w2
+(* we detect the AUT-QE reduction rule for type/prop inclusion *)
+ | Sort_ _, Bind_ (l2, id2, w2, t2) when si ->
+ let m1, m2 = inc m1, inc m2 in
+ let f c = are_convertible f ~si a c m1 (term_of_whdr r1) m2 t2 in
+ push "nsi" f c m2 l2 id2 w2
+ | _ -> f false
and aux_rev m2 r2 m1 r1 = aux m1 r1 m2 r2 in
- let f m1 r1 = whd (aux m1 r1) c m2 t2 in
- whd f c m1 t1
+ let g m1 r1 = whd (aux m1 r1) c m2 t2 in
+ if a = false then f false else whd g c m1 t1
-and are_convertible_stacks f c m1 m2 =
+and are_convertible_stacks f ~si a c m1 m2 =
+(* L.warn "entering R.are_convertible_stacks"; *)
let mm1, mm2 = {m1 with s = []}, {m2 with s = []} in
- let map f v1 v2 = are_convertible f c mm1 v1 mm2 v2 in
- if List.length m1.s <> List.length m2.s then f false else
- C.forall2 f map m1.s m2.s
+ let map f a v1 v2 = are_convertible f ~si a c mm1 v1 mm2 v2 in
+ if List.length m1.s <> List.length m2.s then
+ begin
+(* L.warn (Printf.sprintf "Different lengths: %u %u"
+ (List.length m1.s) (List.length m2.s)
+ ); *)
+ f false
+ end
+ else
+ C.list_fold_left2 f map a m1.s m2.s
-let are_convertible f c t1 t2 =
+let are_convertible f ?(si=false) c u t =
let f b = L.unbox level; f b in
- L.box level;
- L.log O.specs level (L.ct_items2 "Now converting" c t1 "and" c t2);
- are_convertible f c empty_machine t1 empty_machine t2
+ L.box level; log2 "Now converting" c u c t;
+ are_convertible f ~si true c empty_machine u empty_machine t