-(* Copyright (C) 2000, HELM Team.
- *
- * This file is part of HELM, an Hypertextual, Electronic
- * Library of Mathematics, developed at the Computer Science
- * Department, University of Bologna, Italy.
- *
- * HELM is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License
- * as published by the Free Software Foundation; either version 2
- * of the License, or (at your option) any later version.
- *
- * HELM is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with HELM; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
- * MA 02111-1307, USA.
- *
- * For details, see the HELM World-Wide-Web page,
- * http://cs.unibo.it/helm/.
- *)
-
+(*
+ ||M|| This file is part of HELM, an Hypertextual, Electronic
+ ||A|| Library of Mathematics, developed at the Computer Science
+ ||T|| Department, University of Bologna, Italy.
+ ||I||
+ ||T|| HELM is free software; you can redistribute it and/or
+ ||A|| modify it under the terms of the GNU General Public License
+ \ / version 2 or (at your option) any later version.
+ \ / This software is distributed as is, NO WARRANTY.
+ V_______________________________________________________________ *)
+
+module P = Printf
module F = Format
+module U = NUri
+module L = Log
module M = Meta
type counters = {
pappls: int;
tappls: int;
tabsts: int;
+ uris : U.uri list;
+ nodes : int;
+ xnodes: int
}
let initial_counters = {
eabsts = 0; eabbrs = 0; pabsts = 0; pappls = 0;
- tsorts = 0; tlrefs = 0; tgrefs = 0; tappls = 0; tabsts = 0
+ tsorts = 0; tlrefs = 0; tgrefs = 0; tappls = 0; tabsts = 0;
+ uris = []; nodes = 0; xnodes = 0
}
let rec count_term f c = function
| M.Sort _ ->
- f {c with tsorts = succ c.tsorts}
+ f {c with tsorts = succ c.tsorts; nodes = succ c.nodes}
| M.LRef _ ->
- f {c with tlrefs = succ c.tlrefs}
- | M.GRef (_, _, ts) ->
+ f {c with tlrefs = succ c.tlrefs; nodes = succ c.nodes}
+ | M.GRef (_, u, ts) ->
let c = {c with tgrefs = succ c.tgrefs} in
let c = {c with pappls = c.pappls + List.length ts} in
+ let c = {c with nodes = c.nodes + List.length ts} in
+ let c =
+ if Cps.list_mem ~eq:U.eq u c.uris
+ then {c with nodes = succ c.nodes}
+ else {c with xnodes = succ c.xnodes}
+ in
Cps.list_fold_left f count_term c ts
| M.Appl (v, t) ->
- let c = {c with tappls = succ c.tappls} in
+ let c = {c with tappls = succ c.tappls; nodes = succ c.nodes} in
let f c = count_term f c t in
count_term f c v
| M.Abst (_, w, t) ->
- let c = {c with tabsts = succ c.tabsts} in
+ let c = {c with tabsts = succ c.tabsts; nodes = succ c.nodes} in
let f c = count_term f c t in
count_term f c w
let count_par f c (_, w) = count_term f c w
let count_entry f c = function
- | _, pars, _, w, None ->
+ | _, pars, u, w, None ->
let c = {c with eabsts = succ c.eabsts} in
let c = {c with pabsts = c.pabsts + List.length pars} in
+ let c = {c with uris = u :: c.uris; nodes = succ c.nodes + List.length pars} in
let f c = count_term f c w in
Cps.list_fold_left f count_par c pars
| _, pars, _, w, Some (_, v) ->
- let c = {c with eabbrs = succ c.eabbrs} in
+ let c = {c with eabbrs = succ c.eabbrs; xnodes = succ c.xnodes} in
let c = {c with pabsts = c.pabsts + List.length pars} in
+ let c = {c with nodes = c.nodes + List.length pars} in
let f c = count_term f c v in
let f c = count_term f c w in
Cps.list_fold_left f count_par c pars
| None -> f c
let print_counters f c =
- let terms = c.tsorts + c.tgrefs + c.tgrefs + c.tappls + c.tabsts in
+ let terms = c.tsorts + c.tlrefs + c.tgrefs + c.tappls + c.tabsts in
let pars = c.pabsts + c.pappls in
let items = c.eabsts + c.eabbrs in
- Printf.printf " Intermediate representation summary\n";
- Printf.printf " Total entry items: %6u\n" items;
- Printf.printf " Declaration items: %6u\n" c.eabsts;
- Printf.printf " Definition items: %6u\n" c.eabbrs;
- Printf.printf " Total parameter items: %6u\n" pars;
- Printf.printf " Application items: %6u\n" c.pappls;
- Printf.printf " Abstraction items: %6u\n" c.pabsts;
- Printf.printf " Total term items: %6u\n" terms;
- Printf.printf " Sort items: %6u\n" c.tsorts;
- Printf.printf " Local reference items: %6u\n" c.tlrefs;
- Printf.printf " Global reference items: %6u\n" c.tgrefs;
- Printf.printf " Application items: %6u\n" c.tappls;
- Printf.printf " Abstraction items: %6u\n" c.tabsts;
- flush stdout; f ()
+ let nodes = c.nodes + c.xnodes in
+ L.warn (P.sprintf " Intermediate representation summary");
+ 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 parameter items: %7u" pars);
+ L.warn (P.sprintf " Application items: %7u" c.pappls);
+ L.warn (P.sprintf " Abstraction items: %7u" c.pabsts);
+ 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 " Application items: %7u" c.tappls);
+ L.warn (P.sprintf " Abstraction items: %7u" c.tabsts);
+ L.warn (P.sprintf " Global Int. Complexity: %7u" c.nodes);
+ L.warn (P.sprintf " + Abbreviation nodes: %7u" nodes);
+ f ()
let string_of_sort = function
| true -> "Type"
| false -> "Prop"
-let string_of_qid (id, path) =
- let path = String.concat "/" path in
- Filename.concat path id
-
let string_of_transparent = function
| true -> "="
| false -> "~"
in
if l = [] then () else F.fprintf frm "%s%a%s" opend aux l closed
+let pp_rev_list pp opend sep closed frm l =
+ pp_list pp opend sep closed frm (List.rev l)
+
let rec pp_args frm args = pp_list pp_term "(" "," ")" frm args
and pp_term frm = function
| M.Sort s ->
F.fprintf frm "@[*%s@]" (string_of_sort s)
- | M.LRef i ->
- F.fprintf frm "@[#%u@]" i
- | M.GRef (l, qid, ts) ->
- F.fprintf frm "@[%u@@$%s%a@]" l (string_of_qid qid) pp_args ts
+ | M.LRef (l, i) ->
+ F.fprintf frm "@[%u@@#%u@]" l i
+ | M.GRef (l, uri, ts) ->
+ F.fprintf frm "@[%u@@$%s%a@]" l (U.string_of_uri uri) pp_args ts
| M.Appl (v, t) ->
F.fprintf frm "@[(%a).%a@]" pp_term v pp_term t
| M.Abst (id, w, t) ->
F.fprintf frm "@[[%s:%a].%a@]" id pp_term w pp_term t
-let pp_par frm (qid, w) =
- F.fprintf frm "%s:%a" (string_of_qid qid) pp_term w
+let pp_par frm (id, w) =
+ F.fprintf frm "%s:%a" id pp_term w
-let pp_pars = pp_list pp_par "[" "," "]"
+let pp_pars = pp_rev_list pp_par "[" "," "]"
let pp_body frm = function
| None -> ()
| Some (trans, t) ->
F.fprintf frm "%s%a" (string_of_transparent trans) pp_term t
-let pp_entry frm (l, pars, qid, u, body) =
+let pp_entry frm (l, pars, uri, u, body) =
F.fprintf frm "@[%u@@%s%a%a:%a@]@\n%!"
- l (string_of_qid qid) pp_pars pars pp_body body pp_term u
+ l (U.string_of_uri uri) pp_pars pars pp_body body pp_term u
let pp_item f frm = function
| Some entry -> pp_entry frm entry; f ()