\ / This software is distributed as is, NO WARRANTY.
V_______________________________________________________________ *)
-module P = Printf
-module F = Format
-module C = Cps
+module KP = Printf
+
module U = NUri
+module C = Cps
module L = Log
module G = Options
-module E = Entity
module H = Hierarchy
-module N = Level
+module N = Layer
+module E = Entity
+module R = Alpha
module XD = XmlCrg
module B = Brg
module BD = BrgCrg
xnodes: int
}
+let level = 2
+
let initial_counters = {
eabsts = 0; eabbrs = 0; evoids = 0;
tsorts = 0; tlrefs = 0; tgrefs = 0; tcasts = 0; tappls = 0;
}
let rec count_term_binder f c e = function
- | B.Abst (_, w) ->
+ | B.Abst (_, _, w) ->
let c = {c with tabsts = succ c.tabsts; nodes = succ c.nodes} in
count_term f c e w
- | B.Abbr v ->
+ | B.Abbr v ->
let c = {c with tabbrs = succ c.tabbrs; xnodes = succ c.xnodes} in
count_term f c e v
- | B.Void ->
+ | B.Void ->
let c = {c with tvoids = succ c.tvoids; xnodes = succ c.xnodes} in
f c
count_term_binder f c e b
let count_entity f c = function
- | _, u, E.Abst (_, w) ->
+ | _, _, 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 B.empty w
- | _, _, E.Abbr v ->
+ | _, _, _, E.Abbr v ->
let c = {c with eabbrs = succ c.eabbrs; xnodes = succ c.xnodes} in
count_term f c B.empty v
- | _, _, E.Void -> assert false
+ | _, _, _, E.Void -> assert false
let print_counters f c =
let terms =
in
let items = c.eabsts + c.eabbrs in
let nodes = c.nodes + c.xnodes in
- L.warn (P.sprintf " Kernel representation summary (basic_rg)");
- 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);
+ L.warn level (KP.sprintf "Kernel representation summary (basic_rg)");
+ L.warn level (KP.sprintf " Total entry items: %7u" items);
+ L.warn level (KP.sprintf " Declaration items: %7u" c.eabsts);
+ L.warn level (KP.sprintf " Definition items: %7u" c.eabbrs);
+ L.warn level (KP.sprintf " Total term items: %7u" terms);
+ L.warn level (KP.sprintf " Sort items: %7u" c.tsorts);
+ L.warn level (KP.sprintf " Local reference items: %7u" c.tlrefs);
+ L.warn level (KP.sprintf " Global reference items: %7u" c.tgrefs);
+ L.warn level (KP.sprintf " Explicit Cast items: %7u" c.tcasts);
+ L.warn level (KP.sprintf " Application items: %7u" c.tappls);
+ L.warn level (KP.sprintf " Abstraction items: %7u" c.tabsts);
+ L.warn level (KP.sprintf " Abbreviation items: %7u" c.tabbrs);
+ L.warn level (KP.sprintf " Global Int. Complexity: %7u" c.nodes);
+ L.warn level (KP.sprintf " + Abbreviation nodes: %7u" nodes);
f ()
-(* supplementary annotation *************************************************)
-
-let rec does_not_occur f n r = function
- | B.Null -> f true
- | B.Cons (e, _, a, _) ->
- let f n1 r1 =
- if n1 = n && r1 = r then f false else does_not_occur f n r e
- in
- E.name C.err f a
-
-let rename f e a =
- let rec aux f e n r =
- let f = function
- | true -> f n r
- | false -> aux f e (n ^ "_") r
- in
- does_not_occur f n r e
- in
- let f n0 r0 =
- let f n r = if n = n0 && r = r0 then f a else f (E.Name (n, r) :: a) in
- aux f e n0 r0
- in
- E.name C.err f a
-
(* lenv/term pretty printing ************************************************)
-let name err frm a =
+let name err och a =
let f n = function
- | true -> F.fprintf frm "%s" n
- | false -> F.fprintf frm "-%s" n
- in
+ | true -> KP.fprintf och "%s" n
+ | false -> KP.fprintf och "-%s" n
+ in
E.name err f a
-let pp_level frm n =
- if N.is_infinite n then () else F.fprintf frm "^%s" (N.to_string n)
+let pp_reduced och x =
+ if x then KP.fprintf och "%s" "^"
+
+let pp_level st och n =
+ KP.fprintf och "%s" (N.to_string st n)
-let rec pp_term e frm = function
- | B.Sort (_, h) ->
- let err _ = F.fprintf frm "@[*%u@]" h in
- let f s = F.fprintf frm "@[%s@]" s in
+let rec pp_term st e och = function
+ | B.Sort (_, h) ->
+ let err _ = KP.fprintf och "*%u" h in
+ let f s = KP.fprintf och "%s" s in
H.string_of_sort err f h
- | B.LRef (_, i) ->
- let err _ = F.fprintf frm "@[#%u@]" i in
+ | B.LRef (_, i) ->
+ let err _ = KP.fprintf och "#%u" i in
if !G.indexes then err () else
let _, _, a, b = B.get e i in
- F.fprintf frm "@[%a@]" (name err) a
- | B.GRef (_, s) ->
- F.fprintf frm "@[$%s@]" (U.string_of_uri s)
- | B.Cast (_, u, t) ->
- F.fprintf frm "@[{%a}.%a@]" (pp_term e) u (pp_term e) t
- | B.Appl (_, v, t) ->
- F.fprintf frm "@[(%a).%a@]" (pp_term e) v (pp_term e) t
- | B.Bind (a, B.Abst (n, w), t) ->
- let f a =
- let ee = B.push e B.empty a (B.abst n w) in
- F.fprintf frm "@[[%a:%a]%a.%a@]" (name C.err) a (pp_term e) w pp_level n (pp_term ee) t
- in
- rename f e a
- | B.Bind (a, B.Abbr v, t) ->
- let f a =
- let ee = B.push e B.empty a (B.abbr v) in
- F.fprintf frm "@[[%a=%a].%a@]" (name C.err) a (pp_term e) v (pp_term ee) t
- in
- rename f e a
- | B.Bind (a, B.Void, t) ->
- let f a =
- let ee = B.push e B.empty a B.Void in
- F.fprintf frm "@[[%a].%a@]" (name C.err) a (pp_term ee) t
- in
- rename f e a
-
-let pp_lenv frm e =
- let pp_entry f e c a b x = f x (*match b with
- | B.Abst (a, w) ->
- let f a = F.fprintf frm "@,@[%a : %a@]" (name C.err) a (pp_term e) w; f a in
- rename f x a
- | B.Abbr (a, v) ->
- let f a = F.fprintf frm "@,@[%a = %a@]" (name C.err) a (pp_term e) v; f a in
- rename f c a
- | B.Void a ->
- let f a = F.fprintf frm "@,%a" (name C.err) a; f a in
- rename f c a
-*) in
+ KP.fprintf och "%a" (name err) a
+ | B.GRef (_, s) ->
+ KP.fprintf och "$%s" (U.string_of_uri s)
+ | B.Cast (_, u, t) ->
+ KP.fprintf och "{%a}.%a" (pp_term st e) u (pp_term st e) t
+ | B.Appl (_, v, t) ->
+ KP.fprintf och "(%a).%a" (pp_term st e) v (pp_term st e) t
+ | B.Bind (a, B.Abst (x, n, w), t) ->
+ let a = R.alpha B.mem e a in
+ let ee = B.push e B.empty a (B.abst x n w) in
+ KP.fprintf och "%a%a[%a:%a].%a" (pp_level st) n pp_reduced x (name C.start) a (pp_term st e) w (pp_term st ee) t
+ | B.Bind (a, B.Abbr v, t) ->
+ let a = R.alpha B.mem e a in
+ let ee = B.push e B.empty a (B.abbr v) in
+ KP.fprintf och "[%a=%a].%a" (name C.start) a (pp_term st e) v (pp_term st ee) t
+ | B.Bind (a, B.Void, t) ->
+ let a = R.alpha B.mem e a in
+ let ee = B.push e B.empty a B.Void in
+ KP.fprintf och "[%a].%a" (name C.start) a (pp_term st ee) t
+
+let pp_lenv st och e =
+ let pp_entry f c a b x =
+ let a = R.alpha B.mem e a in
+ let x = B.push x c a b in
+ match b with
+ | B.Abst (_, _, w) ->
+ KP.fprintf och "[%a : %a] " (name C.start) a (pp_term st c) w; f x
+ | B.Abbr v ->
+ KP.fprintf och "[%a = %a] " (name C.start) a (pp_term st c) v; f x
+ | B.Void ->
+ KP.fprintf och "[%a]" (name C.start) a; f x
+ in
+ if e = B.empty then KP.fprintf och "%s" "empty" else
B.fold_right ignore pp_entry e B.empty
let specs = {
(* term xml printing ********************************************************)
-let export_term =
- BD.crg_of_brg XD.export_term
+let export_term st =
+ BD.crg_of_brg (XD.export_term st)