statistics are used, when possible, to sort

constants

diff --git a/helm/software/components/binaries/matitaprover/matitaprover.ml b/helm/software/components/binaries/matitaprover/matitaprover.ml
index cfa82da98b6fa826c86113f631e9d6f07ee2bdee..b1a71034f854f9eb8ebb263ab121a7859e73b47b 100644 (file)
--- a/helm/software/components/binaries/matitaprover/matitaprover.ml
+++ b/helm/software/components/binaries/matitaprover/matitaprover.ml
@@ -99,7 +99,7 @@ let success_msg bag l (pp : ?margin:int -> leaf Terms.unit_clause -> string) ord
     (times.Unix.tms_utime +. times.Unix.tms_stime) ^ " using " ^ ord);
 ;;
 
-let start_msg passives g_passives (pp : leaf Terms.unit_clause -> string) oname =
+let start_msg stats passives g_passives (pp : ?margin:int -> leaf Terms.unit_clause -> string) oname =
   let prefix = string_of_int (Unix.getpid ()) in
   let prerr_endline s = prerr_endline (prefix ^ ": " ^ s) in
   prerr_endline "Facts:";
@@ -108,13 +108,26 @@ let start_msg passives g_passives (pp : leaf Terms.unit_clause -> string) oname
   prerr_endline (" " ^ pp g_passives);
   prerr_endline "Order:";
   prerr_endline ("  " ^ oname);
+  prerr_endline "Leaf order:";
+  List.iter (fun ((_,name), (a,b,c,gp,l)) ->
+     prerr_endline (name ^ " " ^ string_of_int a ^ " " ^
+       string_of_int b ^ " " ^
+       string_of_int c ^ " " ^
+       String.concat "," (List.map string_of_int gp) ^ 
+       String.concat "," (List.map snd l))) stats;
 ;;
 
 let report_error s =  prerr_endline (string_of_int (Unix.getpid())^": "^s);;
 
 module Main(P : Paramod.Paramod with type t = leaf) = struct
 
- let run bag g_passives passives pp_unit_clause name = 
+ let run stats goal hypotheses pp_unit_clause name = 
+   let bag = Terms.empty_bag, 0 in
+   let bag, g_passives = P.mk_goal bag goal in
+   let bag, passives = 
+     HExtlib.list_mapi_acc (fun x _ b -> P.mk_passive b x) bag hypotheses 
+   in
+   start_msg stats passives g_passives pp_unit_clause name;
    match
      P.paramod 
       ~max_steps:max_int bag ~g_passives:[g_passives] ~passives 
@@ -129,13 +142,13 @@ module Main(P : Paramod.Paramod with type t = leaf) = struct
  ;;
 end
 
-let worker order goal hypotheses =
+ let compute_stats goal hypotheses =
    let module C = 
      struct type t = leaf let cmp (a,_) (b,_) = Pervasives.compare a b end 
    in
    let module B = MakeBlob(C) in
    let module Pp = Pp.Pp(B) in
-   let module O = Orderings.NRKBO(B) in (* just for processing the clauses *)
+   let module O = Orderings.NRKBO(B) in
    let module P = Paramod.Paramod(O) in
    let module Stats = Stats.Stats(O) in
    let bag = Terms.empty_bag, 0 in
@@ -143,40 +156,56 @@ let worker order goal hypotheses =
    let bag, passives = 
      HExtlib.list_mapi_acc (fun x _ b -> P.mk_passive b x) bag hypotheses 
    in
-   (* TODO: do stats analysys there and generate a new
-    *       C and then B 
-    * TODO: rebuild clauses, since the ordering has to
-    *       change after the stats are computed *)
-   let symb_list = Stats.parse_symbols passives g_passives in
-     prerr_endline "Hypotheses statistics :";
-     List.iter (fun (t,occ,ar,g_occ) -> prerr_endline
-                 (Printf.sprintf "%s %d %d %d %s"
-                    (B.pp t) ar occ g_occ
-                    (String.concat ","
-                       (List.map B.pp (Stats.dependencies t passives))));
-                 if List.exists
-                   (fun (u,occ2,ar2,g_occ2) -> not (B.eq t u) && occ = occ2
-                       && ar = ar2 && g_occ = g_occ2) symb_list
-                   then prerr_endline ((B.pp t) ^ " clashes")
-                ) symb_list;
-   let module C = C in
+   let data = Stats.parse_symbols passives g_passives in
+   let data = 
+     List.map
+       (fun (name, n_occ, arity, n_gocc, g_pos) ->
+          name, (n_occ, arity, n_gocc, g_pos, Stats.dependencies name passives))
+       data
+   in
+   List.sort Pervasives.compare data
+ ;;
+
+let worker order goal hypotheses =
+   let stats = compute_stats goal hypotheses in
+   let module C = 
+     struct
+      let cmp =
+        let raw = List.map snd stats in
+        let rec pos x = function
+          | ((y,_)::tl) when y = x -> 0
+          | _::tl -> 1 + pos x tl
+          | [] -> assert false
+        in
+        if List.length raw = 
+           List.length (HExtlib.list_uniq raw)
+        then
+          (prerr_endline "NO CLASH, using fixed ground order";
+           fun a b ->
+            Pervasives.compare 
+              (pos a stats)
+              (pos b stats))
+        else
+          (prerr_endline "CLASH, statistics insufficient";
+            fun (a,_) (b,_) -> Pervasives.compare a b)
+      ;;
+     end
+   in
    let module B = MakeBlob(C) in
+   let module Pp = Pp.Pp(B) in
    match order with
    | `NRKBO ->
        let module O = Orderings.NRKBO(B) in
        let module Main = Main(Paramod.Paramod(O)) in
-       start_msg passives g_passives Pp.pp_unit_clause O.name;
-       Main.run bag g_passives passives Pp.pp_unit_clause O.name
+       Main.run stats goal hypotheses Pp.pp_unit_clause O.name
    | `KBO ->
        let module O = Orderings.KBO(B) in
        let module Main = Main(Paramod.Paramod(O)) in
-       start_msg passives g_passives Pp.pp_unit_clause O.name;
-       Main.run bag g_passives passives Pp.pp_unit_clause O.name
+       Main.run stats goal hypotheses Pp.pp_unit_clause O.name
    | `LPO ->
        let module O = Orderings.LPO(B) in
        let module Main = Main(Paramod.Paramod(O)) in
-       start_msg passives g_passives Pp.pp_unit_clause O.name;
-       Main.run bag g_passives passives Pp.pp_unit_clause O.name
+       Main.run stats goal hypotheses Pp.pp_unit_clause O.name
 ;;
 
 let print_status p = 
@@ -243,9 +272,11 @@ usage: matitaprover [options] problemfile";
     [ 
       (fun () -> worker `NRKBO goal hypotheses)
     ;
+(*
       (fun () -> worker `KBO goal hypotheses)
     ;
       (fun () -> worker `LPO goal hypotheses)
+*)
     ];
   let rec aux () =
     if List.length !childs = 0 then

diff --git a/helm/software/components/ng_paramodulation/stats.ml b/helm/software/components/ng_paramodulation/stats.ml
index 90d6ccf0b8197b9f25276130be3b27dd0594f112..a281ddc867a12ee8a21ab8f1ae17f629cf345e87 100644 (file)
--- a/helm/software/components/ng_paramodulation/stats.ml
+++ b/helm/software/components/ng_paramodulation/stats.ml
@@ -55,10 +55,32 @@ module Stats (B : Terms.Blob) =
                | Terms.Predicate _ -> assert false;
     ;;
 
+    let goal_pos t goal =
+      let rec aux path = function
+       | Terms.Var _ -> [] 
+       | Terms.Leaf x ->
+           if B.eq t x then path else []
+       | Terms.Node l ->
+           match 
+             HExtlib.list_findopt
+               (fun x i -> 
+                  let p = aux (i::path) x in
+                  if p = [] then None else Some p)
+               l
+           with
+           | None -> []
+           | Some p -> p
+      in 
+        aux [] 
+          (match goal with
+          | _,Terms.Equation (l,r,ty,_),_,_ -> Terms.Node [ Terms.Leaf B.eqP; ty; l; r ]
+         | _,Terms.Predicate p,_,_ -> p)
+    ;;
+
     let parse_symbols l goal = 
       let res = parse_symbols (parse_symbols SymbMap.empty [goal]) l in
        SymbMap.fold (fun t (occ,ar) acc ->
-                       (t,occ,ar,goal_occ_nbr t goal)::acc) res []
+                       (t,occ,ar,goal_occ_nbr t goal,goal_pos t goal)::acc) res []
     ;;
 
     let rec dependencies op clauses acc =

diff --git a/helm/software/components/ng_paramodulation/stats.mli b/helm/software/components/ng_paramodulation/stats.mli
index b9be72907943a4c4ab6dfb1c2421b0133ac5878e..271fd2bcf5c1011c0e0e62f5f50964ab9aa5ca26 100644 (file)
--- a/helm/software/components/ng_paramodulation/stats.mli
+++ b/helm/software/components/ng_paramodulation/stats.mli
@@ -18,7 +18,7 @@ module Stats (B : Orderings.Blob) :
 
     val parse_symbols : B.t Terms.unit_clause list -> (* hypotheses *)
                        B.t Terms.unit_clause -> (* goal *)
-                       (B.t * int * int * int) list
+                       (B.t * int * int * int * int list) list
 
     val dependencies : B.t -> B.t Terms.unit_clause list -> B.t list