+(* Copyright (C) 2005, 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/.
+ *)
+
+let debug = true;;
+
+let debug_print s = if debug then prerr_endline (Lazy.force s);;
+
+
let print_metasenv metasenv =
String.concat "\n--------------------------\n"
(List.map (fun (i, context, term) ->
;;
-let print_subst subst =
- String.concat "\n"
+let print_subst ?(prefix="\n") subst =
+ String.concat prefix
(List.map
(fun (i, (c, t, ty)) ->
Printf.sprintf "?%d -> %s : %s" i
let weight_of_term ?(consider_metas=true) term =
- (* ALB: what to consider as a variable? I think "variables" in our case are
- Metas and maybe Rels... *)
let module C = Cic in
let vars_dict = Hashtbl.create 5 in
let rec aux = function
;;
+module OrderedInt = struct
+ type t = int
+
+ let compare = Pervasives.compare
+end
+
+module IntSet = Set.Make(OrderedInt)
+
+let compute_equality_weight ty left right =
+ let metasw = ref 0 in
+ let weight_of t =
+ let w, m = (weight_of_term ~consider_metas:true t) in
+ metasw := !metasw + (2 * (List.length m));
+ w
+ in
+ (* Warning: the following let cannot be expanded since it forces the
+ right evaluation order!!!! *)
+ let w = (weight_of ty) + (weight_of left) + (weight_of right) in
+ w + !metasw
+;;
+
+
(* returns a "normalized" version of the polynomial weight wl (with type
* weight list), i.e. a list sorted ascending by meta number,
* from 0 to maxmeta. wl must be sorted descending by meta number. Example:
* normalize_weight 5 (3, [(3, 2); (1, 1)]) ->
* (3, [(1, 1); (2, 0); (3, 2); (4, 0); (5, 0)]) *)
let normalize_weight maxmeta (cw, wl) =
-(* Printf.printf "normalize_weight: %d, %s\n" maxmeta *)
-(* (string_of_weight (cw, wl)); *)
let rec aux = function
| 0 -> []
| m -> (m, 0)::(aux (m-1))
| (m, w)::tl1, [] ->
let res1, res2 = aux tl1 [] in
(m, w)::res1, (m, 0)::res2
+ | _, _ -> assert false
in
let cmp (m, _) (n, _) = compare m n in
let wl1, wl2 = aux (List.sort cmp wl1) (List.sort cmp wl2) in
((h1, w1) as weight1) ((h2, w2) as weight2)=
let (h1, w1), (h2, w2) =
if normalize then
-(* let maxmeta = *)
-(* let maxmeta l = *)
-(* try *)
-(* match List.hd l with *)
-(* | (m, _) -> m *)
-(* with Failure _ -> 0 *)
-(* in *)
-(* max (maxmeta w1) (maxmeta w2) *)
-(* in *)
-(* (normalize_weight maxmeta (h1, w1)), (normalize_weight maxmeta (h2, w2)) *)
normalize_weights weight1 weight2
else
(h1, w1), (h2, w2)
else if r = 0 then (lt, eq+1, gt), diffs
else (lt, eq, gt+1), diffs
| (meta1, w1), (meta2, w2) ->
- Printf.printf "HMMM!!!! %s, %s\n"
- (string_of_weight weight1) (string_of_weight weight2);
+ debug_print
+ (lazy
+ (Printf.sprintf "HMMM!!!! %s, %s\n"
+ (string_of_weight weight1) (string_of_weight weight2)));
assert false)
((0, 0, 0), 0) w1 w2
with Invalid_argument _ ->
- Printf.printf "Invalid_argument: %s{%s}, %s{%s}, normalize = %s\n"
- (string_of_weight (h1, w1)) (string_of_weight weight1)
- (string_of_weight (h2, w2)) (string_of_weight weight2)
- (string_of_bool normalize);
+ debug_print
+ (lazy
+ (Printf.sprintf "Invalid_argument: %s{%s}, %s{%s}, normalize = %s\n"
+ (string_of_weight (h1, w1)) (string_of_weight weight1)
+ (string_of_weight (h2, w2)) (string_of_weight weight2)
+ (string_of_bool normalize)));
assert false
in
let hdiff = h1 - h2 in
if (- diffs) >= hdiff then Ge else Incomparable
| (m, _, n) when m > 0 && n > 0 ->
Incomparable
+ | _ -> assert false
;;
-let rec aux_ordering t1 t2 =
+let rec aux_ordering ?(recursion=true) t1 t2 =
let module C = Cic in
let compare_uris u1 u2 =
let res =
| C.MutConstruct _, _ -> Lt
| _, C.MutConstruct _ -> Gt
- | C.Appl l1, C.Appl l2 ->
+ | C.Appl l1, C.Appl l2 when recursion ->
let rec cmp t1 t2 =
match t1, t2 with
| [], [] -> Eq
else o
in
cmp l1 l2
+ | C.Appl (h1::t1), C.Appl (h2::t2) when not recursion ->
+ aux_ordering h1 h2
| t1, t2 ->
- Printf.printf "These two terms are not comparable:\n%s\n%s\n\n"
- (CicPp.ppterm t1) (CicPp.ppterm t2);
+ debug_print
+ (lazy
+ (Printf.sprintf "These two terms are not comparable:\n%s\n%s\n\n"
+ (CicPp.ppterm t1) (CicPp.ppterm t2)));
Incomparable
;;
;;
+let rec kbo t1 t2 =
+ let aux = aux_ordering ~recursion:false in
+ let w1 = weight_of_term t1
+ and w2 = weight_of_term t2 in
+ let rec cmp t1 t2 =
+ match t1, t2 with
+ | [], [] -> Eq
+ | _, [] -> Gt
+ | [], _ -> Lt
+ | hd1::tl1, hd2::tl2 ->
+ let o =
+ kbo hd1 hd2
+ in
+ if o = Eq then cmp tl1 tl2
+ else o
+ in
+ let comparison = compare_weights ~normalize:true w1 w2 in
+ match comparison with
+ | Le ->
+ let r = aux t1 t2 in
+ if r = Lt then Lt
+ else if r = Eq then (
+ match t1, t2 with
+ | Cic.Appl (h1::tl1), Cic.Appl (h2::tl2) when h1 = h2 ->
+ if cmp tl1 tl2 = Lt then Lt else Incomparable
+ | _, _ -> Incomparable
+ ) else Incomparable
+ | Ge ->
+ let r = aux t1 t2 in
+ if r = Gt then Gt
+ else if r = Eq then (
+ match t1, t2 with
+ | Cic.Appl (h1::tl1), Cic.Appl (h2::tl2) when h1 = h2 ->
+ if cmp tl1 tl2 = Gt then Gt else Incomparable
+ | _, _ -> Incomparable
+ ) else Incomparable
+ | Eq ->
+ let r = aux t1 t2 in
+ if r = Eq then (
+ match t1, t2 with
+ | Cic.Appl (h1::tl1), Cic.Appl (h2::tl2) when h1 = h2 ->
+ cmp tl1 tl2
+ | _, _ -> Incomparable
+ ) else r
+ | res -> res
+;;
+
+
let names_of_context context =
List.map
(function
(* settable by the user... *)
let compare_terms = ref nonrec_kbo;;
+
+
+type equality_sign = Negative | Positive;;
+
+let string_of_sign = function
+ | Negative -> "Negative"
+ | Positive -> "Positive"
+;;
+
+
+type pos = Left | Right
+
+let string_of_pos = function
+ | Left -> "Left"
+ | Right -> "Right"
+;;
+
+
+let eq_ind_URI () = LibraryObjects.eq_ind_URI ~eq:(LibraryObjects.eq_URI ())
+let eq_ind_r_URI () = LibraryObjects.eq_ind_r_URI ~eq:(LibraryObjects.eq_URI ())
+let sym_eq_URI () = LibraryObjects.sym_eq_URI ~eq:(LibraryObjects.eq_URI ())
+let eq_XURI () =
+ let s = UriManager.string_of_uri (LibraryObjects.eq_URI ()) in
+ UriManager.uri_of_string (s ^ "#xpointer(1/1/1)")
+let trans_eq_URI () = LibraryObjects.trans_eq_URI ~eq:(LibraryObjects.eq_URI ())
projects / helm.git / blobdiff