-let main () =
- let problem_file = ref "no-file-given" in
- let tptppath = ref "./" in
- Arg.parse [
- "--tptppath", Arg.String (fun p -> tptppath := p), "[path] TPTP lib root"
- ] (fun x -> problem_file := x) "matitaprover [problemfile]";
- let hypotheses, goals = Tptp_cnf.parse ~tptppath:!tptppath !problem_file in
- let goal = match goals with [x] -> x | _ -> assert false in
- let module B : Terms.Blob with type t = Ast.term = struct
- type t = Ast.term
- let eq a b = a = b
- let compare = Pervasives.compare
- let eqP = Ast.Constant "=="
- let pp = function
- | Ast.Constant x -> x
- | Ast.Variable _ -> assert false
- | Ast.Function _ -> assert false
- ;;
- let embed x =
- let rec aux m = function
+(*
+ ||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_______________________________________________________________ *)
+
+(* $Id: orderings.ml 9869 2009-06-11 22:52:38Z denes $ *)
+
+module OT = struct type t = string let compare = Pervasives.compare end
+module HC = Map.Make(OT)
+module TS = HTopoSort.Make(OT)
+
+type leaf = int * string
+
+let cache = ref HC.empty
+let num = ref 100
+
+let hash s =
+ try HC.find s !cache
+ with Not_found ->
+ cache := HC.add s (!num,s) !cache;
+ decr num;
+ HC.find s !cache
+;;
+
+hash "==";;
+hash "_";;
+
+let problem_file = ref "no-file-given";;
+let tptppath = ref "/";;
+let seconds = ref 0;;
+
+let fail_msg () =
+ print_endline ("% SZS status Timeout for " ^
+ Filename.basename !problem_file)
+;;
+
+module type LeafComparer =
+ sig
+ val cmp : leaf -> leaf -> int
+ end
+;;
+
+module MakeBlob(C:LeafComparer) : Terms.Blob
+ with type t = leaf and type input = Ast.term = struct
+ type t = leaf
+ let eq a b = a == b
+ let compare a b = C.cmp a b
+ let eqP = hash "=="
+ let pp (_,a) = a
+ type input = Ast.term
+ let rec embed m = function
| Ast.Variable name ->
(try m, List.assoc name m
with Not_found ->
- let t = Terms.Var (List.length m) in
+ let t = Terms.Var ~-(List.length m) in
(name,t)::m, t)
- | Ast.Constant _ as t -> m, Terms.Leaf t
+ | Ast.Constant name -> m, Terms.Leaf (hash name)
| Ast.Function (name,args) ->
let m, args =
HExtlib.list_mapi_acc
- (fun x _ m -> aux m x) m args
+ (fun x _ m -> embed m x) m args
in
- m, Terms.Node (Terms.Leaf (Ast.Constant name):: args)
- in
- aux [] x
- ;;
+ m, Terms.Node (Terms.Leaf (hash name):: args)
+ let is_eq = function
+ | Terms.Node [ Terms.Leaf eqt ; ty; l; r ] when eq eqP eqt ->
+ Some (ty,l,r)
+ | _ -> None
let saturate bo ty =
- let vars, ty = embed ty in
- let _, bo = embed bo in
+ let vars, ty = embed [] ty in
+ let _, bo = embed vars bo in
let bo = Terms.Node (bo :: List.map snd (List.rev vars)) in
bo, ty
;;
- let embed t = snd(embed t);;
+ let embed t = snd(embed [] t);;
end
+;;
+
+let success_msg bag l (pp : ?margin:int -> leaf Terms.unit_clause -> string) ord =
+ (* TODO: do some sort of poor man lock (open + OEXCL) so that
+ * just one thread at a time prints the proof *)
+ print_endline ("% SZS status Unsatisfiable for " ^
+ Filename.basename !problem_file);
+ print_endline ("% SZS output start CNFRefutation for " ^
+ Filename.basename !problem_file);
+ flush stdout;
+ List.iter (fun x ->
+ let (cl,_,_) = Terms.get_from_bag x bag in
+ print_endline (pp ~margin:max_int
+ cl)) l;
+ print_endline ("% SZS output end CNFRefutation for " ^
+ Filename.basename !problem_file);
+ let prefix = string_of_int (Unix.getpid ()) in
+ let prerr_endline s = prerr_endline (prefix ^ ": " ^ s) in
+ let times = Unix.times () in
+ prerr_endline ("solved " ^ !problem_file ^ " in " ^ string_of_float
+ (times.Unix.tms_utime +. times.Unix.tms_stime) ^ "(Process Time) using " ^ ord);
+;;
+
+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:";
+ List.iter (fun x -> prerr_endline (" " ^ pp x)) passives;
+ prerr_endline "Goal:";
+ 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 mk_clause bag maxvar (t,ty) =
+ let (proof,ty) = B.saturate t ty in
+ let c, maxvar = Utils.mk_unit_clause maxvar ty proof in
+ let bag, c = Terms.add_to_bag c bag in
+ (bag, maxvar), c
+ ;;
+
+ let mk_passive (bag,maxvar) = mk_clause bag maxvar;;
+ let mk_goal (bag,maxvar) = mk_clause bag maxvar;;*)
+
+ let run ~useage ~printmsg 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
+ if printmsg then start_msg stats passives g_passives pp_unit_clause name;
+ match
+ P.paramod ~useage
+ ~max_steps:max_int bag ~g_passives:[g_passives] ~passives
+ with
+ | P.Error s -> report_error s; 3
+ | P.Unsatisfiable ((bag,_,_,l)::_) ->
+ success_msg bag l pp_unit_clause name; 0
+ | P.Unsatisfiable ([]) ->
+ report_error "Unsatisfiable but no solution output"; 3
+ | P.GaveUp -> 2
+ | P.Timeout _ -> 1
+ ;;
+end
+
+ 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
+ let module P = Paramod.Paramod(O) in
+ let module Stats = Stats.Stats(O) in
+ 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
+ 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
+ let oplist = List.map (fun ((_,x),_) -> x) data in
+ let deps op =
+ (let _,(_,_,_,_,d) = List.find (fun ((_,op'),_) -> op = op') data
+ in List.map snd d)
+ in
+ let oplist = TS.topological_sort oplist deps in
+ List.sort
+ (fun ((_,n1),(o1,a1,go1,p1,_)) ((_,n2),(o2,a2,go2,p2,_)) ->
+ if a1 = 0 && a2 = 0 then 0
+ else if a1 = 0 then -1
+ else if a2 = 0 then 1
+ else let res = Pervasives.compare (a1,o1,-go1,p1) (a2,o2,-go2,p2)
+ in if res = 0 then Pervasives.compare (HExtlib.list_index ((=) n1) oplist) (HExtlib.list_index ((=) n2) oplist)
+ else res)
+ data
+ ;;
+
+let worker order ~useage ~printmsg 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
+ Main.run ~useage ~printmsg 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
+ Main.run ~useage ~printmsg 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
+ Main.run ~useage ~printmsg stats goal hypotheses Pp.pp_unit_clause O.name
+;;
+
+let print_status p =
+ let print_endline s = () in (* prerr_endline (string_of_int p ^ ": " ^ s) in*)
+ function
+ | Unix.WEXITED 0 ->
+ print_endline ("status Unsatisfiable for " ^
+ Filename.basename !problem_file);
+ | Unix.WEXITED 1 ->
+ print_endline ("status Timeout for " ^
+ Filename.basename !problem_file);
+ | Unix.WEXITED 2 ->
+ print_endline ("status GaveUp for " ^
+ Filename.basename !problem_file);
+ | Unix.WEXITED 3 ->
+ print_endline ("status Error for " ^
+ Filename.basename !problem_file);
+ | Unix.WEXITED _ -> assert false
+ | Unix.WSIGNALED s -> print_endline ("killed by signal " ^ string_of_int s)
+ | Unix.WSTOPPED _ -> print_endline "stopped"
+ ;;
+
+let killall l =
+ List.iter (fun pid -> try Unix.kill pid 9 with _ -> ()) l
+;;
+
+let main () =
+ let childs = ref [] in
+ let _ =
+ Sys.signal 24 (Sys.Signal_handle
+ (fun _ -> fail_msg (); killall !childs; exit 1))
in
- let module P = Paramod.Paramod(B) in
- let module Pp = Pp.Pp(B) in
- let bag = Terms.M.empty, 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
+ let _ =
+ Sys.signal Sys.sigalrm
+ (Sys.Signal_handle (fun _ -> prerr_endline "Alarm!"; fail_msg (); killall !childs; exit 1))
+ in
+ Arg.parse [
+ "--tptppath", Arg.String (fun p -> tptppath := p),
+ ("[path] TPTP lib root, default " ^ !tptppath);
+ "--timeout", Arg.Int (fun p -> seconds := p),
+ ("[seconds] timeout, default none");
+ ] (fun x -> problem_file := x) "
+Matitaprover is the first order automatic prover that equips the
+Matita interactive theorem prover (http://matita.cs.unibo.it).
+
+Developed by A.Asperti, M.Denes and E.Tassi, released under GPL version 2
+or at your option any later version.
+
+If --tptppath is given, instead of the problem file you can just give the
+problem name with the .p suffix (e.g. BOO001-1.p)
+
+If --tptppath is not given, included files (i.e. axiom sets) are searched
+in the current directory only.
+
+usage: matitaprover [options] problemfile";
+ let hypotheses, goals = Tptp_cnf.parse ~tptppath:!tptppath !problem_file in
+ let goal = match goals with [x] -> x | _ -> assert false in
+ let _ = if !seconds > 0 then Unix.alarm !seconds else 0 in
+ childs :=
+ List.map
+ (fun f ->
+ let pid = Unix.fork () in
+ if pid = 0 then (exit (f ())) else pid)
+ [
+ (fun () -> worker `NRKBO ~useage:true ~printmsg:true goal hypotheses)
+ ;
+ (fun () -> worker `KBO ~useage:true ~printmsg:false goal hypotheses)
+ ;
+ (fun () -> worker `LPO ~useage:true ~printmsg:false goal hypotheses)
+ ;
+ (fun () -> worker `NRKBO ~useage:false ~printmsg:false goal hypotheses)
+ ];
+ let rec aux () =
+ if List.length !childs = 0 then
+ (fail_msg (); exit 1)
+ else
+ match Unix.wait () with
+ | p, (Unix.WEXITED 0 as s) ->
+ print_status p s;
+ killall !childs; exit 0;
+ | p, s ->
+ print_status p s;
+ childs := List.filter ((<>)p) !childs; aux ()
in
- prerr_endline "Facts";
- prerr_endline (String.concat "\n" (List.map Pp.pp_unit_clause passives));
- prerr_endline "Goal";
- prerr_endline (Pp.pp_unit_clause g_passives);
- ignore(P.paramod bag ~g_passives:[g_passives] ~passives);
- ()
+ aux ()
;;
main ()