X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fcomponents%2Fbinaries%2Fmatitaprover%2Fmatitaprover.ml;h=12fb6b9aacdf51cfac6166a7acafdb560e38ff8a;hb=8a3045a162622e8a76ffdb267309faff496ee7ec;hp=92de3c4c5489c8d00de94b1204d5ce53c0078fd8;hpb=65e1aa022da79a3a880f5c2d5d0d512b80e50635;p=helm.git diff --git a/helm/software/components/binaries/matitaprover/matitaprover.ml b/helm/software/components/binaries/matitaprover/matitaprover.ml index 92de3c4c5..12fb6b9aa 100644 --- a/helm/software/components/binaries/matitaprover/matitaprover.ml +++ b/helm/software/components/binaries/matitaprover/matitaprover.ml @@ -13,6 +13,7 @@ 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 @@ -38,13 +39,229 @@ let fail_msg () = print_endline ("% SZS status Timeout for " ^ Filename.basename !problem_file) ;; + +module type LeafComparer = + sig + val cmp : leaf -> leaf -> int + end +;; + +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 + (name,t)::m, t) + | Ast.Constant name -> m, Terms.Leaf (hash name) + | Ast.Function (name,args) -> + let m, args = + HExtlib.list_mapi_acc + (fun x _ m -> embed m x) m args + in + m, Terms.Node (Terms.Leaf (hash name):: args) +;; + +let saturate bo (nlit,plit) = + let vars,nlit = HExtlib.list_mapi_acc (fun x _ m -> embed m x) [] nlit in + let vars,plit = HExtlib.list_mapi_acc (fun x _ m -> embed m x) vars plit in + let _, bo = embed vars bo in + let bo = Terms.Node (bo :: List.map snd (List.rev vars)) in + bo, (nlit, plit) +;; + +let embed t = snd(embed [] t);; + + +module MakeBlob(C:LeafComparer) : Terms.Blob + with type t = leaf = 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 + + end +;; + +let success_msg bag l (pp : ?margin:int -> leaf Terms.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) ^ " using " ^ ord); +;; + +let start_msg stats hypotheses (g_t,g_ty) + (pp : ?margin:int -> leaf Terms.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(O : Orderings.Blob with type t = leaf) = struct + module P = Paramod.Paramod(O) + module Utils = FoUtils.Utils(O) + + let run ~useage ~printmsg stats (g_t,g_ty) hypotheses pp_clause name = + let g_t,g_ty = saturate g_t g_ty in + let hypotheses = List.map (fun (t,(nlit,plit)) -> saturate t (nlit,plit)) hypotheses in + if printmsg then start_msg stats hypotheses (g_t,g_ty) pp_clause name; + match + P.paramod ~useage + ~max_steps:max_int (g_t,g_ty) ~print_problem:printmsg hypotheses + with + | P.Error s -> report_error s; 3 + | P.Unsatisfiable ((bag,_,l)::_) -> + success_msg bag l pp_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 + let stats = [] in + match order with + | `NRKBO -> + let module O = Orderings.NRKBO(B) in + let module Main = Main(O) in + Main.run ~useage ~printmsg stats goal hypotheses Pp.pp_clause O.name + | `KBO -> + let module O = Orderings.KBO(B) in + let module Main = Main(O) in + Main.run ~useage ~printmsg stats goal hypotheses Pp.pp_clause O.name + | `LPO -> + let module O = Orderings.LPO(B) in + let module Main = Main(O) in + Main.run ~useage ~printmsg stats goal hypotheses Pp.pp_clause O.name +;; + +let print_status p = + let print_endline s = 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 (); exit 1)) in + Sys.signal 24 (Sys.Signal_handle + (fun _ -> fail_msg (); killall !childs; exit 1)) + in let _ = Sys.signal Sys.sigalrm - (Sys.Signal_handle (fun _ -> fail_msg (); exit 1)) in + (Sys.Signal_handle (fun _ -> fail_msg (); killall !childs; exit 1)) + in Arg.parse [ "--tptppath", Arg.String (fun p -> tptppath := p), ("[path] TPTP lib root, default " ^ !tptppath); @@ -54,7 +271,8 @@ let main () = 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-2.1 +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) @@ -65,66 +283,34 @@ 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 module B : 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,_) = Pervasives.compare 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 - (name,t)::m, t) - | Ast.Constant name -> m, Terms.Leaf (hash name) - | Ast.Function (name,args) -> - let m, args = - HExtlib.list_mapi_acc - (fun x _ m -> embed m x) m args - in - m, Terms.Node (Terms.Leaf (hash name):: args) - ;; - let saturate bo ty = - 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);; - - end - 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 - in - prerr_endline "Order"; - HC.iter - (fun _ (w,x) -> prerr_endline (" " ^ x ^ " is " ^ string_of_int w)) !cache; - prerr_endline "Facts"; - List.iter (fun x -> prerr_endline (" " ^ Pp.pp_unit_clause x)) passives; - prerr_endline "Goal"; - prerr_endline (" " ^ Pp.pp_unit_clause g_passives); let _ = Unix.alarm !seconds in - match P.paramod ~max_steps:max_int bag ~g_passives:[g_passives] ~passives with - | [] -> fail_msg () - | (bag,_,l)::_ -> - 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 -> - print_endline (Pp.pp_unit_clause ~margin:max_int - (fst(Terms.M.find x bag)))) l; - print_endline ("% SZS output end CNFRefutation for " ^ - Filename.basename !problem_file); + 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 + aux () ;; main ()