X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Flambda-delta%2Fbasic_rg%2FbrgReduction.ml;h=e6ea501423b65792c82c084c3c3bc696cc01f521;hb=32f2a8f8016b2c6c7fb88189fc0ea0c7f9336555;hp=aced1a22ec6a7673845d0357ff0fa0c003665bb2;hpb=f3b4d265268a43ca98e6843b733109fdfe3f6b0b;p=helm.git diff --git a/helm/software/lambda-delta/basic_rg/brgReduction.ml b/helm/software/lambda-delta/basic_rg/brgReduction.ml index aced1a22e..e6ea50142 100644 --- a/helm/software/lambda-delta/basic_rg/brgReduction.ml +++ b/helm/software/lambda-delta/basic_rg/brgReduction.ml @@ -12,183 +12,196 @@ module U = NUri module C = Cps module S = Share +module L = Log +module P = Output module B = Brg +module O = BrgOutput module E = BrgEnvironment -exception LRefNotFound of string Lazy.t - -type bind = Void_ - | Abst_ of B.term - | Abbr_ of B.term - -type environment = int * bind list - -type stack = B.term list - -type context = { - g: environment; - l: environment; - s: stack +type kam = { + c: B.lenv; + s: (B.lenv * B.term) list; + i: int } -type whd_result = - | Sort_ of int - | LRef_ of int * B.term option - | GRef_ of int * B.bind * B.term - | Bind_ of B.term * B.term - -type ho_whd_result = - | Sort of int - | Abst of B.term - (* Internal functions *******************************************************) -let empty_e = 0, [] - -let push_e f b (l, e) = - f (succ l, b :: e) - -let get_e f c i = - let (gl, ge), (ll, le) = c.g, c.l in - if i >= gl + ll then raise (LRefNotFound (lazy (string_of_int i))); - let b = - if i < gl then List.nth ge (gl - (succ i)) - else List.nth le (gl + ll - (succ i)) +let level = 5 + +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 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 are_alpha_convertible err f t1 t2 = + let rec aux f = function + | B.Sort (_, p1), B.Sort (_, p2) + | B.LRef (_, p1), B.LRef (_, p2) -> + if p1 = p2 then f () else err () + | B.GRef (_, u1), B.GRef (_, u2) -> + if U.eq u1 u2 then f () else err () + | B.Cast (_, v1, t1), B.Cast (_, v2, t2) + | B.Appl (_, v1, t1), B.Appl (_, v2, t2) -> + let f _ = aux f (t1, t2) in + aux f (v1, v2) + | B.Bind (b1, t1), B.Bind (b2, t2) -> + let f _ = aux f (t1, t2) in + aux_bind f (b1, b2) + | _ -> err () + and aux_bind f = function + | B.Abbr (_, v1), B.Abbr (_, v2) + | B.Abst (_, v1), B.Abst (_, v2) -> aux f (v1, v2) + | B.Void _, B.Void _ -> f () + | _ -> err () in - f b - -let rec lref_map f map t = match t with - | B.LRef i -> f (B.LRef (map i)) - | B.GRef _ -> f t - | B.Sort _ -> f t - | B.Cast (w, u) -> - let f w' u' = f (S.sh2 w w' u u' t B.cast) in - let f w' = lref_map (f w') map u in - lref_map f map w - | B.Appl (w, u) -> - let f w' u' = f (S.sh2 w w' u u' t B.appl) in - let f w' = lref_map (f w') map u in - lref_map f map w - | B.Bind (id, b, w, u) -> - let f w' u' = f (S.sh2 w w' u u' t (B.bind id b)) in - let f w' = lref_map (f w') map u in - lref_map f map w + if S.eq t1 t2 then f () else aux f (t1, t2) -(* to share *) -let lift f c = - let (gl, _), (ll, le) = c.g, c.l in - let map i = if i >= gl then succ i else i in - let map f = function - | Abbr_ t -> let f t' = f (Abbr_ t') in lref_map f map t - | _ -> assert false - in - let f le' = f {c with l = (ll, le')} in - C.list_map f map le - -let xchg f c t = - let (gl, _), (ll, _) = c.g, c.l in - let map i = - if i < gl || i > gl + ll then i else - if i >= gl && i < gl + ll then succ i else gl - in - lref_map (f c) map t +let get err f m i = + B.get err f m.c i (* to share *) -let rec whd f c t = match t with - | B.Sort h -> f c (Sort_ h) - | B.GRef uri -> - let f (i, _, b, t) = f c (GRef_ (i, b, t)) in - E.get_obj f uri - | B.LRef i -> +let rec step f ?(delta=false) ?(rt=false) m x = +(* L.warn "entering R.step"; *) + match x with + | B.Sort _ -> f m None x + | B.GRef (_, uri) -> let f = function - | Void_ -> f c (LRef_ (i, None)) - | Abst_ t -> f c (LRef_ (i, Some t)) - | Abbr_ t -> whd f c t + | _, _, B.Abbr (_, v) when delta -> + P.add ~gdelta:1 (); step f ~delta ~rt m v + | _, _, B.Abst (_, w) when rt -> + P.add ~grt:1 (); step f ~delta ~rt m w + | _, _, B.Void _ -> + assert false + | e, _, b -> + f m (Some (e, b)) x in - get_e f c i - | B.Appl (v, t) -> whd f {c with s = v :: c.s} t - | B.Bind (_, B.Abbr, v, t) -> - let f l = whd f {c with l = l} t in - push_e f (Abbr_ v) c.l - | B.Bind (_, B.Abst, w, t) -> - begin match c.s with - | [] -> f c (Bind_ (w, t)) - | v :: tl -> - let f tl l = whd f {c with l = l; s = tl} t in - push_e (f tl) (Abbr_ v) c.l + E.get_entry C.err f uri + | B.LRef (_, i) -> + let f c = function + | B.Abbr (_, v) -> + P.add ~ldelta:1 (); + step f ~delta ~rt {m with c = c} v + | B.Abst (_, w) when rt -> + P.add ~lrt:1 (); + step f ~delta ~rt {m with c = c} w + | B.Void _ -> + assert false + | B.Abst (a, _) as b -> + let f e = f {m with c = c} (Some (e, b)) x in + B.apix C.err f a + in + get C.err f m i + | B.Cast (_, _, t) -> + P.add ~tau:1 (); + step f ~delta ~rt m t + | B.Appl (_, v, t) -> + step f ~delta ~rt {m with s = (m.c, v) :: m.s} t + | B.Bind (B.Abst (a, w), t) -> + begin match m.s with + | [] -> f m None x + | (c, v) :: s -> + P.add ~beta:1 ~upsilon:(List.length s) (); + let f c = step f ~delta ~rt {m with c = c; s = s} t in + B.push f m.c ~c (B.abbr a v) (* (B.Cast ([], w, v)) *) end - | B.Cast (_, t) -> whd f c t - -let push f c t = - assert (c.s = []); - let f c g = xchg f {c with g = g} t in - let f c = push_e (f c) Void_ c.g in - lift f c + | B.Bind (b, t) -> + P.add ~upsilon:(List.length m.s) (); + let f c = step f ~delta ~rt {m with c = c} t in + B.push f m.c ~c:m.c b + +let push f m b = + assert (m.s = []); + let b, i = match b with + | B.Abst (a, w) -> B.abst (B.Apix m.i :: a) w, succ m.i + | b -> b, m.i + in + let f c = f {m with c = c; i = i} in + B.push f m.c ~c:m.c b + +let rec ac_nfs err f ~si m1 a1 u m2 a2 t = + log2 "Now converting nfs" m1.c u m2.c t; + match a1, u, a2, t with + | _, B.Sort (_, h1), _, B.Sort (_, h2) -> + if h1 = h2 then f () else err () + | Some (e1, B.Abst _), _, Some (e2, B.Abst _), _ -> + if e1 = e2 then ac_stacks err f m1 m2 else err () + | Some (e1, B.Abbr (_, v1)), _, Some (e2, B.Abbr (_, v2)), _ -> + if e1 = e2 then + let err _ = P.add ~gdelta:2 (); ac err f ~si m1 v1 m2 v2 in + ac_stacks err f m1 m2 + else if e1 < e2 then begin + P.add ~gdelta:1 (); + step (ac_nfs err f ~si m1 a1 u) m2 v2 + end else begin + P.add ~gdelta:1 (); + step (ac_nfs_rev err f ~si m2 a2 t) m1 v1 + end + | _, _, Some (_, B.Abbr (_, v2)), _ -> + P.add ~gdelta:1 (); + step (ac_nfs err f ~si m1 a1 u) m2 v2 + | Some (_, B.Abbr (_, v1)), _, _, _ -> + P.add ~gdelta:1 (); + step (ac_nfs_rev err f ~si m2 a2 t) m1 v1 + | _, B.Bind ((B.Abst (_, w1) as b1), t1), + _, B.Bind ((B.Abst (_, w2) as b2), t2) -> + let f m1 m2 = ac err f ~si m1 t1 m2 t2 in + let f m1 = push (f m1) m2 b2 in + let f _ = push f m1 b1 in + ac err f ~si:false m1 w1 m2 w2 + | _, B.Sort _, _, B.Bind (b, t) when si -> + P.add ~si:1 (); + let f m1 m2 = ac err f ~si m1 u m2 t in + let f m1 = push (f m1) m2 b in + push f m1 b + | _ -> err () + +and ac_nfs_rev err f ~si m2 a2 t m1 a1 u = ac_nfs err f ~si m1 a1 u m2 a2 t + +and ac err f ~si m1 t1 m2 t2 = +(* L.warn "entering R.are_convertible"; *) + let f m1 a1 t1 = step (ac_nfs err f ~si m1 a1 t1) m2 t2 in + step f m1 t1 + +and ac_stacks err f m1 m2 = +(* L.warn "entering R.are_convertible_stacks"; *) + if List.length m1.s <> List.length m2.s then err () else + let map f (c1, v1) (c2, v2) = + let m1, m2 = {m1 with c = c1; s = []}, {m2 with c = c2; s = []} in + ac err f ~si:false m1 v1 m2 v2 + in + C.list_iter2 f map m1.s m2.s (* Interface functions ******************************************************) -let rec are_convertible f c1 t1 c2 t2 = - let rec aux c1' r1 c2' r2 = match r1, r2 with - | Sort_ h1, Sort_ h2 -> f (h1 = h2) - | LRef_ (i1, _), LRef_ (i2, _) -> - if i1 = i2 then are_convertible_stacks f c1' c2' else f false - | GRef_ (a1, B.Abst, _), GRef_ (a2, B.Abst, _) -> - if a1 = a2 then are_convertible_stacks f c1' c2' else f false - | GRef_ (a1, B.Abbr, v1), GRef_ (a2, B.Abbr, v2) -> - if a1 = a2 then are_convertible_stacks f c1' c2' else - if a1 < a2 then whd (aux c1' r1) c2' v2 else - whd (aux_rev c2' r2) c1' v1 - | _, GRef_ (_, B.Abbr, v2) -> - whd (aux c1' r1) c2' v2 - | GRef_ (_, B.Abbr, v1), _ -> - whd (aux_rev c2' r2) c1' v1 - | Bind_ (w1, t1), Bind_ (w2, t2) -> - let f b = - if b then - let f c1'' t1' = push (are_convertible f c1'' t1') c2' t2 in - push f c1' t1 - else f false - in - are_convertible f c1' w1 c2' w2 - | _ -> f false - and aux_rev c2 r2 c1 r1 = aux c1 r1 c2 r2 in - let f c1' r1 = whd (aux c1' r1) c2 t2 in - whd f c1 t1 - -and are_convertible_stacks f c1 c2 = - let map f v1 v2 = are_convertible f c1 v1 c2 v2 in - if List.length c1.s <> List.length c2.s then f false else - C.forall2 f map c1.s c2.s - -let are_convertible f c t1 t2 = are_convertible f c t1 c t2 - -let rec ho_whd f c t = - let aux c' = function - | Sort_ h -> f c' (Sort h) - | Bind_ (w, t) -> f c' (Abst w) - | LRef_ (_, Some w) -> ho_whd f c w - | GRef_ (_, _, u) -> ho_whd f c u - | LRef_ (_, None) -> assert false - in - whd aux c t - -let push f c b t = - assert (c.l = empty_e && c.s = []); - let f g = f {c with g = g} in - let b = match b with - | B.Abbr -> Abbr_ t - | B.Abst -> Abst_ t - in - push_e f b c.g - -let get f c i = - let gl, ge = c.g in - if i >= gl then raise (LRefNotFound (lazy (string_of_int i))); - match List.nth ge (gl - (succ i)) with - | Abbr_ v -> f (B.Abbr, v) - | Abst_ w -> f (B.Abst, w) - | Void_ -> assert false - -let empty_context = { - g = empty_e; l = empty_e; s = [] +let empty_kam = { + c = B.empty_lenv; s = []; i = 0 +} + +let get err f m i = + assert (m.s = []); + let f c = f in + get err f m i + +let xwhd f m t = + L.box level; log1 "Now scanning" m.c t; + let f m _ t = L.unbox level; f m t in + step f ~delta:true ~rt:true m t + +let are_convertible err f ?(si=false) mu u mw w = + L.box level; log2 "Now converting" mu.c u mw.c w; + let f x = L.unbox level; f x in + let err _ = ac err f ~si mu u mw w in +(* if S.eq mu mw then are_alpha_convertible err f u w else *) err () + +(* error reporting **********************************************************) + +let pp_term m frm t = O.specs.L.pp_term m.c frm t + +let pp_lenv frm m = O.specs.L.pp_lenv frm m.c + +let specs = { + L.pp_term = pp_term; L.pp_lenv = pp_lenv }