module P = Printf
module U = NUri
module C = Cps
+module L = Log
module H = Hierarchy
module E = Entity
module N = Level
module D = Crg
-(****************************************************************************)
+(* nodes count **************************************************************)
+
+type counters = {
+ eabsts: int;
+ eabbrs: int;
+ evoids: int;
+ tsorts: int;
+ tlrefs: int;
+ tgrefs: int;
+ tcasts: int;
+ tappls: int;
+ tabsts: int;
+ tabbrs: int;
+ tvoids: int;
+ uris : D.uri list;
+ nodes : int;
+ xnodes: int
+}
+
+let initial_counters = {
+ eabsts = 0; eabbrs = 0; evoids = 0;
+ tsorts = 0; tlrefs = 0; tgrefs = 0; tcasts = 0; tappls = 0;
+ tabsts = 0; tabbrs = 0; tvoids = 0;
+ uris = []; nodes = 0; xnodes = 0
+}
+
+let rec shift t = function
+ | D.ESort -> t
+ | D.EBind (e, a, b) -> shift (D.TBind (a, b, t)) e
+ | D.EProj (e, a, d) -> shift (D.TProj (a, d, t)) e
+
+let rec count_term f c e = function
+ | D.TSort _ ->
+ f {c with tsorts = succ c.tsorts; nodes = succ c.nodes}
+ | D.TLRef (_, i, j) ->
+ begin match D.get e i with
+ | _, _, D.Abbr vs when j < List.length vs ->
+ f {c with tlrefs = succ c.tlrefs; xnodes = succ c.xnodes}
+ | _ ->
+ f {c with tlrefs = succ c.tlrefs; nodes = succ c.nodes}
+ end
+ | D.TGRef (_, u) ->
+ let c =
+ if C.list_mem ~eq:U.eq u c.uris
+ then {c with nodes = succ c.nodes}
+ else {c with xnodes = succ c.xnodes}
+ in
+ f {c with tgrefs = succ c.tgrefs}
+ | D.TCast (_, v, t) ->
+ let c = {c with tcasts = succ c.tcasts} in
+ let f c = count_term f c e t in
+ count_term f c e v
+ | D.TAppl (_, vs, t) ->
+ let c = {c with tappls = succ c.tappls; nodes = succ c.nodes} in
+ let f c = count_term f c e t in
+ C.list_fold_right f (map1 e) vs c
+ | D.TProj (a, d, t) ->
+ count_term f c e (shift t d)
+ | D.TBind (a, b, t) ->
+ let f c e = count_term f c e t in
+ count_binder f c e a b
+
+and count_binder f c e a = function
+ | D.Abst (n, ws) ->
+ let k = List.length ws in
+ let c = {c with tabsts = c.tabsts + k; nodes = c.nodes + k} in
+ let e = D.push_bind C.start e a (D.Abst (n, [])) in
+ let f (c, e) = f c e in
+ C.list_fold_right f map2 ws (c, e)
+ | D.Abbr vs ->
+ let k = List.length vs in
+ let c = {c with tabbrs = c.tabbrs + k; xnodes = c.xnodes + k} in
+ let e = D.push_bind C.start e a (D.Abbr []) in
+ let f (c, e) = f c e in
+ C.list_fold_right f map2 vs (c, e)
+ | D.Void k ->
+ let c = {c with tvoids = c.tvoids + k; xnodes = c.xnodes + k} in
+ let e = D.push_bind C.start e a (D.Void k) in
+ f c e
+
+and map1 e f t c = count_term f c e t
+
+and map2 f t (c, e) =
+ let f c e = f (c, e) in
+ let f c = D.push2 C.err (f c) e ~t () in
+ count_term f c e t
+
+let count_entity f c = function
+ | _, u, E.Abst (_, w) ->
+ let c = {c with
+ eabsts = succ c.eabsts; nodes = succ c.nodes; uris = u :: c.uris
+ } in
+ count_term f c D.ESort w
+ | _, _, E.Abbr v ->
+ let c = {c with eabbrs = succ c.eabbrs; xnodes = succ c.xnodes} in
+ count_term f c D.ESort v
+ | _, _, E.Void -> assert false
+
+let print_counters f c =
+ let terms =
+ c.tsorts + c.tgrefs + c.tgrefs + c.tcasts + c.tappls + c.tabsts +
+ c.tabbrs
+ in
+ let items = c.eabsts + c.eabbrs in
+ let nodes = c.nodes + c.xnodes in
+ L.warn (P.sprintf " Intermediate representation summary (crg)");
+ L.warn (P.sprintf " Total entry items: %7u" items);
+ L.warn (P.sprintf " Declaration items: %7u" c.eabsts);
+ L.warn (P.sprintf " Definition items: %7u" c.eabbrs);
+ L.warn (P.sprintf " Total term items: %7u" terms);
+ L.warn (P.sprintf " Sort items: %7u" c.tsorts);
+ L.warn (P.sprintf " Local reference items: %7u" c.tlrefs);
+ L.warn (P.sprintf " Global reference items: %7u" c.tgrefs);
+ L.warn (P.sprintf " Explicit Cast items: %7u" c.tcasts);
+ L.warn (P.sprintf " Application items: %7u" c.tappls);
+ L.warn (P.sprintf " Abstraction items: %7u" c.tabsts);
+ L.warn (P.sprintf " Abbreviation items: %7u" c.tabbrs);
+ L.warn (P.sprintf " Global Int. Complexity: %7u" c.nodes);
+ L.warn (P.sprintf " + Abbreviation nodes: %7u" nodes);
+ f ()
+
+(* term/environment pretty printer ******************************************)
let pp_attrs out a =
let map = function
| D.ESort -> ()
| D.EProj (x, a, y) -> assert false
| D.EBind (x, a, y) -> pp_lenv out x; pp_attrs out a; pp_bind out y
-
-(****************************************************************************)